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1 | <?xml version="1.0" encoding="utf-8"?> | |
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2 | <Project DefaultTargets="Build" ToolsVersion="4.0" xmlns="http://schemas.microsoft.com/developer/msbuild/2003"> | |
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3 | <PropertyGroup> | |
|
4 | <Configuration Condition=" '$(Configuration)' == '' ">Debug</Configuration> | |
|
5 | <Platform Condition=" '$(Platform)' == '' ">AnyCPU</Platform> | |
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6 | <ProductVersion>8.0.30703</ProductVersion> | |
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7 | <SchemaVersion>2.0</SchemaVersion> | |
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8 | <ProjectGuid>{2BD05F84-E067-4B87-9477-FDC2676A21C6}</ProjectGuid> | |
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9 | <OutputType>Library</OutputType> | |
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10 | <RootNamespace>Implab.Fx.Test</RootNamespace> | |
|
11 | <AssemblyName>Implab.Fx.Test</AssemblyName> | |
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12 | <TargetFrameworkVersion>v4.5</TargetFrameworkVersion> | |
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13 | </PropertyGroup> | |
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14 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Debug|AnyCPU' "> | |
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15 | <DebugSymbols>true</DebugSymbols> | |
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16 | <DebugType>full</DebugType> | |
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17 | <Optimize>false</Optimize> | |
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18 | <OutputPath>bin\Debug</OutputPath> | |
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19 | <DefineConstants>DEBUG;MONO</DefineConstants> | |
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20 | <ErrorReport>prompt</ErrorReport> | |
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21 | <WarningLevel>4</WarningLevel> | |
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22 | <ConsolePause>false</ConsolePause> | |
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23 | </PropertyGroup> | |
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24 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Release|AnyCPU' "> | |
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25 | <Optimize>true</Optimize> | |
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26 | <OutputPath>bin\Release</OutputPath> | |
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27 | <ErrorReport>prompt</ErrorReport> | |
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28 | <WarningLevel>4</WarningLevel> | |
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29 | <ConsolePause>false</ConsolePause> | |
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30 | <DefineConstants>MONO</DefineConstants> | |
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31 | </PropertyGroup> | |
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32 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Debug 4.5|AnyCPU' "> | |
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33 | <DebugSymbols>true</DebugSymbols> | |
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34 | <DebugType>full</DebugType> | |
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35 | <Optimize>false</Optimize> | |
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36 | <OutputPath>bin\Debug</OutputPath> | |
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37 | <DefineConstants>DEBUG;TRACE;NET_4_5;MONO</DefineConstants> | |
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38 | <ErrorReport>prompt</ErrorReport> | |
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39 | <WarningLevel>4</WarningLevel> | |
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40 | <ConsolePause>false</ConsolePause> | |
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41 | </PropertyGroup> | |
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42 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Release 4.5|AnyCPU' "> | |
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43 | <Optimize>true</Optimize> | |
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44 | <OutputPath>bin\Release</OutputPath> | |
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45 | <DefineConstants>NET_4_5;MONO</DefineConstants> | |
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46 | <ErrorReport>prompt</ErrorReport> | |
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47 | <WarningLevel>4</WarningLevel> | |
|
48 | <ConsolePause>false</ConsolePause> | |
|
49 | </PropertyGroup> | |
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50 | <ItemGroup> | |
|
51 | <Reference Include="System" /> | |
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52 | <Reference Include="nunit.framework" /> | |
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53 | <Reference Include="System.Windows.Forms" /> | |
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54 | <Reference Include="System.Drawing" /> | |
|
55 | <Reference Include="System.Data" /> | |
|
56 | </ItemGroup> | |
|
57 | <Import Project="$(MSBuildBinPath)\Microsoft.CSharp.targets" /> | |
|
58 | <ItemGroup> | |
|
59 | <ProjectReference Include="..\Implab.Fx\Implab.Fx.csproj"> | |
|
60 | <Project>{06E706F8-6881-43EB-927E-FFC503AF6ABC}</Project> | |
|
61 | <Name>Implab.Fx</Name> | |
|
62 | </ProjectReference> | |
|
63 | <ProjectReference Include="..\Implab\Implab.csproj"> | |
|
64 | <Project>{F550F1F8-8746-4AD0-9614-855F4C4B7F05}</Project> | |
|
65 | <Name>Implab</Name> | |
|
66 | </ProjectReference> | |
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67 | </ItemGroup> | |
|
68 | <ItemGroup> | |
|
69 | <Compile Include="OverlayTest.cs" /> | |
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70 | <Compile Include="Properties\AssemblyInfo.cs" /> | |
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71 | <Compile Include="Sample\MainForm.Designer.cs" /> | |
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72 | <Compile Include="Sample\MainForm.cs" /> | |
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73 | <Compile Include="Sample\OverlayForm.Designer.cs" /> | |
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74 | <Compile Include="Sample\OverlayForm.cs" /> | |
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75 | </ItemGroup> | |
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76 | <ItemGroup> | |
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77 | <None Include="Sample\MainForm.resx" /> | |
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78 | <None Include="Sample\OverlayForm.resx" /> | |
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79 | </ItemGroup> | |
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80 | </Project> No newline at end of file |
@@ -0,0 +1,23 | |||
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1 | using System.Windows.Forms; | |
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2 | using System; | |
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3 | ||
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4 | ||
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5 | namespace Implab.Fx { | |
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6 | public class ControlBoundPromise<T> : Promise<T> { | |
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7 | readonly Control m_target; | |
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8 | ||
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9 | public ControlBoundPromise(Control target) { | |
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10 | Safe.ArgumentNotNull(target, "target"); | |
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11 | ||
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12 | m_target = target; | |
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13 | } | |
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14 | ||
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15 | protected override void SignalHandler(HandlerDescriptor handler, int signal) { | |
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16 | if (m_target.InvokeRequired) | |
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17 | m_target.BeginInvoke(new Action<Promise<T>.HandlerDescriptor, int>(base.SignalHandler), handler, signal); | |
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18 | else | |
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19 | base.SignalHandler(handler, signal); | |
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20 | } | |
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21 | } | |
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22 | } | |
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23 |
@@ -0,0 +1,148 | |||
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1 | using System; | |
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2 | using Implab.Parallels; | |
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3 | ||
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4 | #if MONO | |
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5 | ||
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6 | using NUnit.Framework; | |
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7 | using TestClassAttribute = NUnit.Framework.TestFixtureAttribute; | |
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8 | using TestMethodAttribute = NUnit.Framework.TestAttribute; | |
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9 | ||
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10 | #else | |
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11 | ||
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12 | using Microsoft.VisualStudio.TestTools.UnitTesting; | |
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13 | ||
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14 | #endif | |
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15 | ||
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16 | namespace Implab.Test { | |
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17 | [TestClass] | |
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18 | public class CancelationTests { | |
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19 | ||
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20 | [TestMethod] | |
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21 | public void PromiseCancelTest() { | |
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22 | var p = new Promise(); | |
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23 | bool requested = false; | |
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24 | var reason = new Exception("Test"); | |
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25 | ||
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26 | // request cancelation | |
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27 | p.Cancel(reason); | |
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28 | ||
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29 | Assert.IsTrue(p.IsCancellationRequested); | |
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30 | Assert.AreSame(reason, p.CancellationReason); | |
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31 | Assert.IsFalse(p.IsCancelled); | |
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32 | ||
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33 | p.CancellationRequested(r => { | |
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34 | Assert.AreSame(reason, r); | |
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35 | requested = true; | |
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36 | }); | |
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37 | ||
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38 | Assert.IsTrue(requested); | |
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39 | ||
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40 | // cancel the promise | |
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41 | Assert.IsTrue(p.CancelOperationIfRequested()); | |
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42 | Assert.IsTrue(p.IsCancelled); | |
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43 | Assert.AreSame(reason, p.Error); | |
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44 | } | |
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45 | ||
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46 | [TestMethod] | |
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47 | public void CancelActionBeforeStartTask() { | |
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48 | bool run = false; | |
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49 | var task = new ActionTask(() => { | |
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50 | run = true; | |
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51 | }, null, null, true); | |
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52 | ||
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53 | // request cancelation | |
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54 | task.Cancel(); | |
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55 | Assert.IsTrue(task.IsCancelled); | |
|
56 | task.Resolve(); | |
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57 | Assert.IsFalse(run); | |
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58 | } | |
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59 | ||
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60 | [TestMethod] | |
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61 | public void CancelActionAfterTaskStarted() { | |
|
62 | var finish = new Signal(); | |
|
63 | var started = new Signal(); | |
|
64 | ||
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65 | var task = new ActionTask(() => { | |
|
66 | started.Set(); | |
|
67 | finish.Wait(); | |
|
68 | }, null, null, true); | |
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69 | ||
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70 | AsyncPool.RunThread(() => { | |
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71 | task.Resolve(); | |
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72 | }); | |
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73 | ||
|
74 | started.Wait(1000); | |
|
75 | ||
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76 | task.Cancel(); | |
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77 | Assert.IsTrue(task.IsCancellationRequested); | |
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78 | Assert.IsFalse(task.IsCancelled); | |
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79 | Assert.IsFalse(task.IsResolved); | |
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80 | ||
|
81 | finish.Set(); | |
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82 | task.Join(1000); | |
|
83 | ||
|
84 | } | |
|
85 | ||
|
86 | [TestMethod] | |
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87 | public void CancelTaskChainFromBottom() { | |
|
88 | var started = new Signal(); | |
|
89 | var check1 = new Signal(); | |
|
90 | var requested = false; | |
|
91 | var p1 = AsyncPool.RunThread(token => { | |
|
92 | token.CancellationRequested(reason => requested = true); | |
|
93 | started.Set(); | |
|
94 | check1.Wait(); | |
|
95 | token.CancelOperationIfRequested(); | |
|
96 | }); | |
|
97 | ||
|
98 | started.Wait(); | |
|
99 | ||
|
100 | var p2 = p1.Then(() => { | |
|
101 | }); | |
|
102 | ||
|
103 | Assert.IsFalse(p1.IsResolved); | |
|
104 | Assert.IsFalse(p2.IsResolved); | |
|
105 | ||
|
106 | p2.Cancel(); | |
|
107 | ||
|
108 | Assert.IsFalse(p2.IsCancelled); | |
|
109 | Assert.IsFalse(p1.IsCancelled); | |
|
110 | Assert.IsTrue(requested); | |
|
111 | ||
|
112 | check1.Set(); | |
|
113 | ||
|
114 | try { | |
|
115 | p2.Join(1000); | |
|
116 | Assert.Fail("The chain isn't cancelled"); | |
|
117 | } catch(OperationCanceledException){ | |
|
118 | } | |
|
119 | ||
|
120 | Assert.IsTrue(p1.IsCancelled); | |
|
121 | Assert.IsTrue(p2.IsCancelled); | |
|
122 | } | |
|
123 | ||
|
124 | ||
|
125 | ||
|
126 | [TestMethod] | |
|
127 | public void CancellableAsyncTask() { | |
|
128 | var finish = new Signal(); | |
|
129 | var started = new Signal(); | |
|
130 | ||
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131 | var p = AsyncPool.RunThread(token => { | |
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132 | token.CancellationRequested(r => finish.Set()); | |
|
133 | started.Set(); | |
|
134 | finish.Wait(); | |
|
135 | Assert.IsTrue(token.CancelOperationIfRequested()); | |
|
136 | }); | |
|
137 | ||
|
138 | started.Wait(1000); | |
|
139 | Assert.IsFalse(p.IsResolved); | |
|
140 | p.Cancel(); | |
|
141 | try { | |
|
142 | p.Join(1000); | |
|
143 | } catch (OperationCanceledException) { | |
|
144 | } | |
|
145 | } | |
|
146 | } | |
|
147 | } | |
|
148 |
@@ -0,0 +1,52 | |||
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1 | <?xml version="1.0" encoding="utf-8"?> | |
|
2 | <Project DefaultTargets="Build" ToolsVersion="4.0" xmlns="http://schemas.microsoft.com/developer/msbuild/2003"> | |
|
3 | <PropertyGroup> | |
|
4 | <Configuration Condition=" '$(Configuration)' == '' ">Debug</Configuration> | |
|
5 | <Platform Condition=" '$(Platform)' == '' ">AnyCPU</Platform> | |
|
6 | <ProductVersion>8.0.30703</ProductVersion> | |
|
7 | <SchemaVersion>2.0</SchemaVersion> | |
|
8 | <ProjectGuid>{4D364996-7ECD-4193-8F90-F223FFEA49DA}</ProjectGuid> | |
|
9 | <OutputType>Library</OutputType> | |
|
10 | <RootNamespace>Implab.Format.Test</RootNamespace> | |
|
11 | <AssemblyName>Implab.Format.Test</AssemblyName> | |
|
12 | <TargetFrameworkVersion>v4.5</TargetFrameworkVersion> | |
|
13 | <ReleaseVersion>0.2</ReleaseVersion> | |
|
14 | </PropertyGroup> | |
|
15 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Debug|AnyCPU' "> | |
|
16 | <DebugSymbols>true</DebugSymbols> | |
|
17 | <DebugType>full</DebugType> | |
|
18 | <Optimize>false</Optimize> | |
|
19 | <OutputPath>bin\Debug</OutputPath> | |
|
20 | <DefineConstants>DEBUG;</DefineConstants> | |
|
21 | <ErrorReport>prompt</ErrorReport> | |
|
22 | <WarningLevel>4</WarningLevel> | |
|
23 | <ConsolePause>false</ConsolePause> | |
|
24 | </PropertyGroup> | |
|
25 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Release|AnyCPU' "> | |
|
26 | <DebugType>full</DebugType> | |
|
27 | <Optimize>true</Optimize> | |
|
28 | <OutputPath>bin\Release</OutputPath> | |
|
29 | <ErrorReport>prompt</ErrorReport> | |
|
30 | <WarningLevel>4</WarningLevel> | |
|
31 | <ConsolePause>false</ConsolePause> | |
|
32 | </PropertyGroup> | |
|
33 | <ItemGroup> | |
|
34 | <Reference Include="System" /> | |
|
35 | <Reference Include="nunit.framework"> | |
|
36 | <HintPath>..\..\packages\NUnit.2.6.4\lib\nunit.framework.dll</HintPath> | |
|
37 | </Reference> | |
|
38 | </ItemGroup> | |
|
39 | <ItemGroup> | |
|
40 | <Compile Include="JsonTests.cs" /> | |
|
41 | </ItemGroup> | |
|
42 | <Import Project="$(MSBuildBinPath)\Microsoft.CSharp.targets" /> | |
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43 | <ItemGroup> | |
|
44 | <ProjectReference Include="..\..\Implab\Implab.csproj"> | |
|
45 | <Project>{F550F1F8-8746-4AD0-9614-855F4C4B7F05}</Project> | |
|
46 | <Name>Implab</Name> | |
|
47 | </ProjectReference> | |
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48 | </ItemGroup> | |
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49 | <ItemGroup> | |
|
50 | <None Include="packages.config" /> | |
|
51 | </ItemGroup> | |
|
52 | </Project> No newline at end of file |
@@ -0,0 +1,88 | |||
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1 | using NUnit.Framework; | |
|
2 | using System; | |
|
3 | using Implab.Formats.JSON; | |
|
4 | using Implab.Automaton; | |
|
5 | ||
|
6 | namespace Implab.Format.Test { | |
|
7 | [TestFixture] | |
|
8 | public class JsonTests { | |
|
9 | [Test] | |
|
10 | public void TestScannerValidTokens() { | |
|
11 | using (var scanner = new JSONScanner(@"9123, -123, 0, 0.1, -0.2, -0.1e3, 1.3E-3, ""some \t\n\u0020 text"", literal []{}:")) { | |
|
12 | ||
|
13 | Tuple<JsonTokenType,object>[] expexted = { | |
|
14 | new Tuple<JsonTokenType,object>(JsonTokenType.Number, 9123d), | |
|
15 | new Tuple<JsonTokenType,object>(JsonTokenType.ValueSeparator, ", "), | |
|
16 | new Tuple<JsonTokenType,object>(JsonTokenType.Number, -123d), | |
|
17 | new Tuple<JsonTokenType,object>(JsonTokenType.ValueSeparator, ", "), | |
|
18 | new Tuple<JsonTokenType,object>(JsonTokenType.Number, 0d), | |
|
19 | new Tuple<JsonTokenType,object>(JsonTokenType.ValueSeparator, ", "), | |
|
20 | new Tuple<JsonTokenType,object>(JsonTokenType.Number, 0.1d), | |
|
21 | new Tuple<JsonTokenType,object>(JsonTokenType.ValueSeparator, ", "), | |
|
22 | new Tuple<JsonTokenType,object>(JsonTokenType.Number, -0.2d), | |
|
23 | new Tuple<JsonTokenType,object>(JsonTokenType.ValueSeparator, ", "), | |
|
24 | new Tuple<JsonTokenType,object>(JsonTokenType.Number, -0.1e3d), | |
|
25 | new Tuple<JsonTokenType,object>(JsonTokenType.ValueSeparator, ", "), | |
|
26 | new Tuple<JsonTokenType,object>(JsonTokenType.Number, 1.3E-3d), | |
|
27 | new Tuple<JsonTokenType,object>(JsonTokenType.ValueSeparator, ", "), | |
|
28 | new Tuple<JsonTokenType,object>(JsonTokenType.String, "some \t\n text"), | |
|
29 | new Tuple<JsonTokenType,object>(JsonTokenType.ValueSeparator, ", "), | |
|
30 | new Tuple<JsonTokenType,object>(JsonTokenType.Literal, "literal"), | |
|
31 | new Tuple<JsonTokenType,object>(JsonTokenType.BeginArray, " ["), | |
|
32 | new Tuple<JsonTokenType,object>(JsonTokenType.EndArray, "]"), | |
|
33 | new Tuple<JsonTokenType,object>(JsonTokenType.BeginObject, "{"), | |
|
34 | new Tuple<JsonTokenType,object>(JsonTokenType.EndObject, "}"), | |
|
35 | new Tuple<JsonTokenType,object>(JsonTokenType.NameSeparator, ":") | |
|
36 | }; | |
|
37 | ||
|
38 | object value; | |
|
39 | JsonTokenType tokenType; | |
|
40 | for (var i = 0; i < expexted.Length; i++) { | |
|
41 | ||
|
42 | Assert.IsTrue(scanner.ReadToken(out value, out tokenType)); | |
|
43 | Assert.AreEqual(expexted[i].Item1, tokenType); | |
|
44 | Assert.AreEqual(expexted[i].Item2, value); | |
|
45 | } | |
|
46 | ||
|
47 | Assert.IsFalse(scanner.ReadToken(out value, out tokenType)); | |
|
48 | } | |
|
49 | } | |
|
50 | ||
|
51 | [Test] | |
|
52 | public void TestScannerBadTokens() { | |
|
53 | var bad = new [] { | |
|
54 | " 1", | |
|
55 | " literal", | |
|
56 | " \"", | |
|
57 | "\"unclosed string", | |
|
58 | "1.bad", | |
|
59 | "001", // should be read as three numbers | |
|
60 | "--10", | |
|
61 | "+10", | |
|
62 | "1.0.0", | |
|
63 | "1e1.0", | |
|
64 | "l1teral0", | |
|
65 | ".123", | |
|
66 | "-.123" | |
|
67 | }; | |
|
68 | ||
|
69 | foreach (var json in bad) | |
|
70 | using (var scanner = new JSONScanner(json)) { | |
|
71 | try { | |
|
72 | object value; | |
|
73 | JsonTokenType token; | |
|
74 | scanner.ReadToken(out value, out token); | |
|
75 | if (!Object.Equals(value,json)) { | |
|
76 | Console.WriteLine("'{0}' is read as {1}", json, value is String ? String.Format("'{0}'", value) : value ); | |
|
77 | continue; | |
|
78 | } | |
|
79 | Assert.Fail("Token '{0}' shouldn't pass", json); | |
|
80 | } catch (ParserException e) { | |
|
81 | Console.WriteLine(e.Message); | |
|
82 | } | |
|
83 | } | |
|
84 | ||
|
85 | } | |
|
86 | } | |
|
87 | } | |
|
88 |
@@ -0,0 +1,4 | |||
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1 | <?xml version="1.0" encoding="utf-8"?> | |
|
2 | <packages> | |
|
3 | <package id="NUnit" version="2.6.4" targetFramework="net45" /> | |
|
4 | </packages> No newline at end of file |
@@ -0,0 +1,69 | |||
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1 | <?xml version="1.0" encoding="utf-8"?> | |
|
2 | <Project DefaultTargets="Build" ToolsVersion="4.0" xmlns="http://schemas.microsoft.com/developer/msbuild/2003"> | |
|
3 | <PropertyGroup> | |
|
4 | <Configuration Condition=" '$(Configuration)' == '' ">Debug</Configuration> | |
|
5 | <Platform Condition=" '$(Platform)' == '' ">AnyCPU</Platform> | |
|
6 | <ProductVersion>8.0.30703</ProductVersion> | |
|
7 | <SchemaVersion>2.0</SchemaVersion> | |
|
8 | <ProjectGuid>{2BD05F84-E067-4B87-9477-FDC2676A21C6}</ProjectGuid> | |
|
9 | <OutputType>Library</OutputType> | |
|
10 | <RootNamespace>Implab.Test</RootNamespace> | |
|
11 | <AssemblyName>Implab.Test</AssemblyName> | |
|
12 | <TargetFrameworkVersion>v4.5</TargetFrameworkVersion> | |
|
13 | <ReleaseVersion>0.2</ReleaseVersion> | |
|
14 | </PropertyGroup> | |
|
15 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Debug|AnyCPU' "> | |
|
16 | <DebugSymbols>true</DebugSymbols> | |
|
17 | <DebugType>full</DebugType> | |
|
18 | <Optimize>false</Optimize> | |
|
19 | <OutputPath>bin\Debug</OutputPath> | |
|
20 | <DefineConstants>DEBUG;MONO</DefineConstants> | |
|
21 | <ErrorReport>prompt</ErrorReport> | |
|
22 | <WarningLevel>4</WarningLevel> | |
|
23 | <ConsolePause>false</ConsolePause> | |
|
24 | </PropertyGroup> | |
|
25 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Release|AnyCPU' "> | |
|
26 | <Optimize>true</Optimize> | |
|
27 | <OutputPath>bin\Release</OutputPath> | |
|
28 | <ErrorReport>prompt</ErrorReport> | |
|
29 | <WarningLevel>4</WarningLevel> | |
|
30 | <ConsolePause>false</ConsolePause> | |
|
31 | <DefineConstants>MONO</DefineConstants> | |
|
32 | </PropertyGroup> | |
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33 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Debug 4.5|AnyCPU' "> | |
|
34 | <DebugSymbols>true</DebugSymbols> | |
|
35 | <DebugType>full</DebugType> | |
|
36 | <Optimize>false</Optimize> | |
|
37 | <OutputPath>bin\Debug</OutputPath> | |
|
38 | <DefineConstants>DEBUG;TRACE;NET_4_5;MONO</DefineConstants> | |
|
39 | <ErrorReport>prompt</ErrorReport> | |
|
40 | <WarningLevel>4</WarningLevel> | |
|
41 | <ConsolePause>false</ConsolePause> | |
|
42 | </PropertyGroup> | |
|
43 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Release 4.5|AnyCPU' "> | |
|
44 | <Optimize>true</Optimize> | |
|
45 | <OutputPath>bin\Release</OutputPath> | |
|
46 | <DefineConstants>NET_4_5;MONO</DefineConstants> | |
|
47 | <ErrorReport>prompt</ErrorReport> | |
|
48 | <WarningLevel>4</WarningLevel> | |
|
49 | <ConsolePause>false</ConsolePause> | |
|
50 | </PropertyGroup> | |
|
51 | <ItemGroup> | |
|
52 | <Reference Include="System" /> | |
|
53 | <Reference Include="nunit.framework" /> | |
|
54 | </ItemGroup> | |
|
55 | <Import Project="$(MSBuildBinPath)\Microsoft.CSharp.targets" /> | |
|
56 | <ItemGroup> | |
|
57 | <Compile Include="AsyncTests.cs" /> | |
|
58 | <Compile Include="PromiseHelper.cs" /> | |
|
59 | <Compile Include="Properties\AssemblyInfo.cs" /> | |
|
60 | <Compile Include="CancelationTests.cs" /> | |
|
61 | <Compile Include="RunnableComponentTests.cs" /> | |
|
62 | </ItemGroup> | |
|
63 | <ItemGroup> | |
|
64 | <ProjectReference Include="..\Implab\Implab.csproj"> | |
|
65 | <Project>{F550F1F8-8746-4AD0-9614-855F4C4B7F05}</Project> | |
|
66 | <Name>Implab</Name> | |
|
67 | </ProjectReference> | |
|
68 | </ItemGroup> | |
|
69 | </Project> No newline at end of file |
@@ -0,0 +1,195 | |||
|
1 | using System; | |
|
2 | using System.Reflection; | |
|
3 | using System.Threading; | |
|
4 | using Implab.Parallels; | |
|
5 | using Implab.Components; | |
|
6 | ||
|
7 | #if MONO | |
|
8 | ||
|
9 | using NUnit.Framework; | |
|
10 | using TestClassAttribute = NUnit.Framework.TestFixtureAttribute; | |
|
11 | using TestMethodAttribute = NUnit.Framework.TestAttribute; | |
|
12 | using AssertFailedException = NUnit.Framework.AssertionException; | |
|
13 | #else | |
|
14 | ||
|
15 | using Microsoft.VisualStudio.TestTools.UnitTesting; | |
|
16 | ||
|
17 | #endif | |
|
18 | ||
|
19 | namespace Implab.Test { | |
|
20 | [TestClass] | |
|
21 | public class RunnableComponentTests { | |
|
22 | ||
|
23 | static void ShouldThrow(Action action) { | |
|
24 | try { | |
|
25 | action(); | |
|
26 | Assert.Fail(); | |
|
27 | } catch (AssertFailedException) { | |
|
28 | throw; | |
|
29 | } catch { | |
|
30 | } | |
|
31 | } | |
|
32 | ||
|
33 | class Runnable : RunnableComponent { | |
|
34 | public Runnable(bool initialized) : base(initialized) { | |
|
35 | } | |
|
36 | ||
|
37 | public Action MockInit { | |
|
38 | get; | |
|
39 | set; | |
|
40 | } | |
|
41 | ||
|
42 | public Func<IPromise> MockStart { | |
|
43 | get; | |
|
44 | set; | |
|
45 | } | |
|
46 | ||
|
47 | public Func<IPromise> MockStop { | |
|
48 | get; | |
|
49 | set; | |
|
50 | } | |
|
51 | ||
|
52 | protected override IPromise OnStart() { | |
|
53 | return MockStart != null ? MockStart() : base.OnStart(); | |
|
54 | } | |
|
55 | ||
|
56 | protected override IPromise OnStop() { | |
|
57 | return MockStop != null ? MockStop() : base.OnStart(); | |
|
58 | } | |
|
59 | ||
|
60 | protected override void OnInitialize() { | |
|
61 | if (MockInit != null) | |
|
62 | MockInit(); | |
|
63 | } | |
|
64 | } | |
|
65 | ||
|
66 | [TestMethod] | |
|
67 | public void NormalFlowTest() { | |
|
68 | var comp = new Runnable(false); | |
|
69 | ||
|
70 | Assert.AreEqual(ExecutionState.Created, comp.State); | |
|
71 | ||
|
72 | comp.Init(); | |
|
73 | ||
|
74 | Assert.AreEqual(ExecutionState.Ready, comp.State); | |
|
75 | ||
|
76 | comp.Start().Join(1000); | |
|
77 | ||
|
78 | Assert.AreEqual(ExecutionState.Running, comp.State); | |
|
79 | ||
|
80 | comp.Stop().Join(1000); | |
|
81 | ||
|
82 | Assert.AreEqual(ExecutionState.Disposed, comp.State); | |
|
83 | ||
|
84 | } | |
|
85 | ||
|
86 | [TestMethod] | |
|
87 | public void InitFailTest() { | |
|
88 | var comp = new Runnable(false) { | |
|
89 | MockInit = () => { | |
|
90 | throw new Exception("BAD"); | |
|
91 | } | |
|
92 | }; | |
|
93 | ||
|
94 | ShouldThrow(() => comp.Start()); | |
|
95 | ShouldThrow(() => comp.Stop()); | |
|
96 | Assert.AreEqual(ExecutionState.Created, comp.State); | |
|
97 | ||
|
98 | ShouldThrow(comp.Init); | |
|
99 | ||
|
100 | Assert.AreEqual(ExecutionState.Failed, comp.State); | |
|
101 | ||
|
102 | ShouldThrow(() => comp.Start()); | |
|
103 | ShouldThrow(() => comp.Stop()); | |
|
104 | Assert.AreEqual(ExecutionState.Failed, comp.State); | |
|
105 | ||
|
106 | comp.Dispose(); | |
|
107 | Assert.AreEqual(ExecutionState.Disposed, comp.State); | |
|
108 | } | |
|
109 | ||
|
110 | [TestMethod] | |
|
111 | public void DisposedTest() { | |
|
112 | ||
|
113 | var comp = new Runnable(false); | |
|
114 | comp.Dispose(); | |
|
115 | ||
|
116 | ShouldThrow(() => comp.Start()); | |
|
117 | ShouldThrow(() => comp.Stop()); | |
|
118 | ShouldThrow(comp.Init); | |
|
119 | ||
|
120 | Assert.AreEqual(ExecutionState.Disposed, comp.State); | |
|
121 | } | |
|
122 | ||
|
123 | [TestMethod] | |
|
124 | public void StartCancelTest() { | |
|
125 | var comp = new Runnable(true) { | |
|
126 | MockStart = () => PromiseHelper.Sleep(100000, 0) | |
|
127 | }; | |
|
128 | ||
|
129 | var p = comp.Start(); | |
|
130 | Assert.AreEqual(ExecutionState.Starting, comp.State); | |
|
131 | p.Cancel(); | |
|
132 | ShouldThrow(() => p.Join(1000)); | |
|
133 | Assert.AreEqual(ExecutionState.Failed, comp.State); | |
|
134 | ||
|
135 | Assert.IsInstanceOfType(comp.LastError, typeof(OperationCanceledException)); | |
|
136 | ||
|
137 | comp.Dispose(); | |
|
138 | } | |
|
139 | ||
|
140 | [TestMethod] | |
|
141 | public void StartStopTest() { | |
|
142 | var stop = new Signal(); | |
|
143 | var comp = new Runnable(true) { | |
|
144 | MockStart = () => PromiseHelper.Sleep(100000, 0), | |
|
145 | MockStop = () => AsyncPool.RunThread(stop.Wait) | |
|
146 | }; | |
|
147 | ||
|
148 | var p1 = comp.Start(); | |
|
149 | var p2 = comp.Stop(); | |
|
150 | // should enter stopping state | |
|
151 | ||
|
152 | ShouldThrow(p1.Join); | |
|
153 | Assert.IsTrue(p1.IsCancelled); | |
|
154 | Assert.AreEqual(ExecutionState.Stopping, comp.State); | |
|
155 | ||
|
156 | stop.Set(); | |
|
157 | p2.Join(1000); | |
|
158 | Assert.AreEqual(ExecutionState.Disposed, comp.State); | |
|
159 | } | |
|
160 | ||
|
161 | [TestMethod] | |
|
162 | public void StartStopFailTest() { | |
|
163 | var comp = new Runnable(true) { | |
|
164 | MockStart = () => PromiseHelper.Sleep(100000, 0).Then(null,null,x => { throw new Exception("I'm dead"); }) | |
|
165 | }; | |
|
166 | ||
|
167 | comp.Start(); | |
|
168 | var p = comp.Stop(); | |
|
169 | // if Start fails to cancel, should fail to stop | |
|
170 | ShouldThrow(() => p.Join(1000)); | |
|
171 | Assert.AreEqual(ExecutionState.Failed, comp.State); | |
|
172 | Assert.IsNotNull(comp.LastError); | |
|
173 | Assert.AreEqual("I'm dead", comp.LastError.Message); | |
|
174 | } | |
|
175 | ||
|
176 | [TestMethod] | |
|
177 | public void StopCancelTest() { | |
|
178 | var comp = new Runnable(true) { | |
|
179 | MockStop = () => PromiseHelper.Sleep(100000, 0) | |
|
180 | }; | |
|
181 | ||
|
182 | comp.Start(); | |
|
183 | var p = comp.Stop(); | |
|
184 | Assert.AreEqual(ExecutionState.Stopping, comp.State); | |
|
185 | p.Cancel(); | |
|
186 | ShouldThrow(() => p.Join(1000)); | |
|
187 | Assert.AreEqual(ExecutionState.Failed, comp.State); | |
|
188 | Assert.IsInstanceOfType(comp.LastError, typeof(OperationCanceledException)); | |
|
189 | ||
|
190 | comp.Dispose(); | |
|
191 | } | |
|
192 | ||
|
193 | } | |
|
194 | } | |
|
195 |
@@ -0,0 +1,301 | |||
|
1 | | |
|
2 | Microsoft Visual Studio Solution File, Format Version 11.00 | |
|
3 | # Visual Studio 2010 | |
|
4 | Project("{FAE04EC0-301F-11D3-BF4B-00C04F79EFBC}") = "Implab", "Implab\Implab.csproj", "{F550F1F8-8746-4AD0-9614-855F4C4B7F05}" | |
|
5 | EndProject | |
|
6 | Project("{2150E333-8FDC-42A3-9474-1A3956D46DE8}") = "Solution Items", "Solution Items", "{CE8D8D18-437A-445C-B662-4C2CE79A76F6}" | |
|
7 | ProjectSection(SolutionItems) = preProject | |
|
8 | Implab.vsmdi = Implab.vsmdi | |
|
9 | Local.testsettings = Local.testsettings | |
|
10 | TraceAndTestImpact.testsettings = TraceAndTestImpact.testsettings | |
|
11 | EndProjectSection | |
|
12 | EndProject | |
|
13 | Project("{FAE04EC0-301F-11D3-BF4B-00C04F79EFBC}") = "Implab.Fx", "Implab.Fx\Implab.Fx.csproj", "{06E706F8-6881-43EB-927E-FFC503AF6ABC}" | |
|
14 | EndProject | |
|
15 | Project("{2150E333-8FDC-42A3-9474-1A3956D46DE8}") = "Tests", "Tests", "{BCA337C3-BFDC-4825-BBDB-E6D467E4E452}" | |
|
16 | EndProject | |
|
17 | Project("{FAE04EC0-301F-11D3-BF4B-00C04F79EFBC}") = "Implab.Test.mono", "Implab.Test\Implab.Test.mono.csproj", "{2BD05F84-E067-4B87-9477-FDC2676A21C6}" | |
|
18 | EndProject | |
|
19 | Project("{FAE04EC0-301F-11D3-BF4B-00C04F79EFBC}") = "Implab.Format.Test", "Implab.Test\Implab.Format.Test\Implab.Format.Test.csproj", "{4D364996-7ECD-4193-8F90-F223FFEA49DA}" | |
|
20 | EndProject | |
|
21 | Project("{FAE04EC0-301F-11D3-BF4B-00C04F79EFBC}") = "MonoPlay", "MonoPlay\MonoPlay.csproj", "{15DD7123-D504-4627-8B4F-D00C7F04D033}" | |
|
22 | EndProject | |
|
23 | Global | |
|
24 | GlobalSection(SolutionConfigurationPlatforms) = preSolution | |
|
25 | Debug|Any CPU = Debug|Any CPU | |
|
26 | Release|Any CPU = Release|Any CPU | |
|
27 | Debug 4.5|Any CPU = Debug 4.5|Any CPU | |
|
28 | Release 4.5|Any CPU = Release 4.5|Any CPU | |
|
29 | EndGlobalSection | |
|
30 | GlobalSection(ProjectConfigurationPlatforms) = postSolution | |
|
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88 | GlobalSection(NestedProjects) = preSolution | |
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91 | EndGlobalSection | |
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92 | GlobalSection(MonoDevelopProperties) = preSolution | |
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93 | Policies = $0 | |
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95 | $1.IndentSwitchBody = True | |
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145 | $9.AffectedEntity = Namespace | |
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146 | $9.VisibilityMask = VisibilityMask | |
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147 | $9.NamingStyle = PascalCase | |
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148 | $9.IncludeInstanceMembers = True | |
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150 | $8.NamingRule = $10 | |
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164 | $11.IncludeInstanceMembers = True | |
|
165 | $11.IncludeStaticEntities = True | |
|
166 | $8.NamingRule = $13 | |
|
167 | $13.Name = Attributes | |
|
168 | $13.RequiredSuffixes = $14 | |
|
169 | $14.String = Attribute | |
|
170 | $13.AffectedEntity = CustomAttributes | |
|
171 | $13.VisibilityMask = VisibilityMask | |
|
172 | $13.NamingStyle = PascalCase | |
|
173 | $13.IncludeInstanceMembers = True | |
|
174 | $13.IncludeStaticEntities = True | |
|
175 | $8.NamingRule = $15 | |
|
176 | $15.Name = Event Arguments | |
|
177 | $15.RequiredSuffixes = $16 | |
|
178 | $16.String = EventArgs | |
|
179 | $15.AffectedEntity = CustomEventArgs | |
|
180 | $15.VisibilityMask = VisibilityMask | |
|
181 | $15.NamingStyle = PascalCase | |
|
182 | $15.IncludeInstanceMembers = True | |
|
183 | $15.IncludeStaticEntities = True | |
|
184 | $8.NamingRule = $17 | |
|
185 | $17.Name = Exceptions | |
|
186 | $17.RequiredSuffixes = $18 | |
|
187 | $18.String = Exception | |
|
188 | $17.AffectedEntity = CustomExceptions | |
|
189 | $17.VisibilityMask = VisibilityMask | |
|
190 | $17.NamingStyle = PascalCase | |
|
191 | $17.IncludeInstanceMembers = True | |
|
192 | $17.IncludeStaticEntities = True | |
|
193 | $8.NamingRule = $19 | |
|
194 | $19.Name = Methods | |
|
195 | $19.AffectedEntity = Methods | |
|
196 | $19.VisibilityMask = VisibilityMask | |
|
197 | $19.NamingStyle = PascalCase | |
|
198 | $19.IncludeInstanceMembers = True | |
|
199 | $19.IncludeStaticEntities = True | |
|
200 | $8.NamingRule = $20 | |
|
201 | $20.Name = Static Readonly Fields | |
|
202 | $20.AffectedEntity = ReadonlyField | |
|
203 | $20.VisibilityMask = Internal, Protected, Public | |
|
204 | $20.NamingStyle = PascalCase | |
|
205 | $20.IncludeInstanceMembers = False | |
|
206 | $20.IncludeStaticEntities = True | |
|
207 | $8.NamingRule = $21 | |
|
208 | $21.Name = Fields (Non Private) | |
|
209 | $21.AffectedEntity = Field | |
|
210 | $21.VisibilityMask = Internal, Public | |
|
211 | $21.NamingStyle = CamelCase | |
|
212 | $21.IncludeInstanceMembers = True | |
|
213 | $21.IncludeStaticEntities = True | |
|
214 | $8.NamingRule = $22 | |
|
215 | $22.Name = ReadOnly Fields (Non Private) | |
|
216 | $22.AffectedEntity = ReadonlyField | |
|
217 | $22.VisibilityMask = Internal, Public | |
|
218 | $22.NamingStyle = CamelCase | |
|
219 | $22.IncludeInstanceMembers = True | |
|
220 | $22.IncludeStaticEntities = False | |
|
221 | $8.NamingRule = $23 | |
|
222 | $23.Name = Fields (Private) | |
|
223 | $23.RequiredPrefixes = $24 | |
|
224 | $24.String = m_ | |
|
225 | $23.AffectedEntity = Field, ReadonlyField | |
|
226 | $23.VisibilityMask = Private, Protected | |
|
227 | $23.NamingStyle = CamelCase | |
|
228 | $23.IncludeInstanceMembers = True | |
|
229 | $23.IncludeStaticEntities = False | |
|
230 | $8.NamingRule = $25 | |
|
231 | $25.Name = Static Fields (Private) | |
|
232 | $25.RequiredPrefixes = $26 | |
|
233 | $26.String = _ | |
|
234 | $25.AffectedEntity = Field | |
|
235 | $25.VisibilityMask = Private | |
|
236 | $25.NamingStyle = CamelCase | |
|
237 | $25.IncludeInstanceMembers = False | |
|
238 | $25.IncludeStaticEntities = True | |
|
239 | $8.NamingRule = $27 | |
|
240 | $27.Name = ReadOnly Fields (Private) | |
|
241 | $27.RequiredPrefixes = $28 | |
|
242 | $28.String = m_ | |
|
243 | $27.AffectedEntity = ReadonlyField | |
|
244 | $27.VisibilityMask = Private, Protected | |
|
245 | $27.NamingStyle = CamelCase | |
|
246 | $27.IncludeInstanceMembers = True | |
|
247 | $27.IncludeStaticEntities = False | |
|
248 | $8.NamingRule = $29 | |
|
249 | $29.Name = Constant Fields | |
|
250 | $29.AffectedEntity = ConstantField | |
|
251 | $29.VisibilityMask = VisibilityMask | |
|
252 | $29.NamingStyle = AllUpper | |
|
253 | $29.IncludeInstanceMembers = True | |
|
254 | $29.IncludeStaticEntities = True | |
|
255 | $8.NamingRule = $30 | |
|
256 | $30.Name = Properties | |
|
257 | $30.AffectedEntity = Property | |
|
258 | $30.VisibilityMask = VisibilityMask | |
|
259 | $30.NamingStyle = PascalCase | |
|
260 | $30.IncludeInstanceMembers = True | |
|
261 | $30.IncludeStaticEntities = True | |
|
262 | $8.NamingRule = $31 | |
|
263 | $31.Name = Events | |
|
264 | $31.AffectedEntity = Event | |
|
265 | $31.VisibilityMask = VisibilityMask | |
|
266 | $31.NamingStyle = PascalCase | |
|
267 | $31.IncludeInstanceMembers = True | |
|
268 | $31.IncludeStaticEntities = True | |
|
269 | $8.NamingRule = $32 | |
|
270 | $32.Name = Enum Members | |
|
271 | $32.AffectedEntity = EnumMember | |
|
272 | $32.VisibilityMask = VisibilityMask | |
|
273 | $32.NamingStyle = PascalCase | |
|
274 | $32.IncludeInstanceMembers = True | |
|
275 | $32.IncludeStaticEntities = True | |
|
276 | $8.NamingRule = $33 | |
|
277 | $33.Name = Parameters | |
|
278 | $33.AffectedEntity = Parameter, LocalVariable | |
|
279 | $33.VisibilityMask = VisibilityMask | |
|
280 | $33.NamingStyle = CamelCase | |
|
281 | $33.IncludeInstanceMembers = True | |
|
282 | $33.IncludeStaticEntities = True | |
|
283 | $8.NamingRule = $34 | |
|
284 | $34.Name = Type Parameters | |
|
285 | $34.RequiredPrefixes = $35 | |
|
286 | $35.String = T | |
|
287 | $34.AffectedEntity = TypeParameter | |
|
288 | $34.VisibilityMask = VisibilityMask | |
|
289 | $34.NamingStyle = PascalCase | |
|
290 | $34.IncludeInstanceMembers = True | |
|
291 | $34.IncludeStaticEntities = True | |
|
292 | version = 0.2 | |
|
293 | StartupItem = MonoPlay\MonoPlay.csproj | |
|
294 | EndGlobalSection | |
|
295 | GlobalSection(TestCaseManagementSettings) = postSolution | |
|
296 | CategoryFile = Implab.vsmdi | |
|
297 | EndGlobalSection | |
|
298 | GlobalSection(SolutionProperties) = preSolution | |
|
299 | HideSolutionNode = FALSE | |
|
300 | EndGlobalSection | |
|
301 | EndGlobal |
@@ -0,0 +1,300 | |||
|
1 | using System; | |
|
2 | using Implab.Parallels; | |
|
3 | using System.Threading; | |
|
4 | using System.Reflection; | |
|
5 | ||
|
6 | namespace Implab { | |
|
7 | public abstract class AbstractEvent<THandler> : ICancellationToken, ICancellable { | |
|
8 | ||
|
9 | const int UNRESOLVED_SATE = 0; | |
|
10 | const int TRANSITIONAL_STATE = 1; | |
|
11 | protected const int SUCCEEDED_STATE = 2; | |
|
12 | protected const int REJECTED_STATE = 3; | |
|
13 | protected const int CANCELLED_STATE = 4; | |
|
14 | ||
|
15 | const int CANCEL_NOT_REQUESTED = 0; | |
|
16 | const int CANCEL_REQUESTING = 1; | |
|
17 | const int CANCEL_REQUESTED = 2; | |
|
18 | ||
|
19 | const int RESERVED_HANDLERS_COUNT = 4; | |
|
20 | ||
|
21 | int m_state; | |
|
22 | Exception m_error; | |
|
23 | int m_handlersCount; | |
|
24 | ||
|
25 | //readonly THandler[] m_handlers = new THandler[RESERVED_HANDLERS_COUNT]; | |
|
26 | THandler[] m_handlers; | |
|
27 | MTQueue<THandler> m_extraHandlers; | |
|
28 | int m_handlerPointer = -1; | |
|
29 | int m_handlersCommited; | |
|
30 | ||
|
31 | int m_cancelRequest; | |
|
32 | Exception m_cancelationReason; | |
|
33 | MTQueue<Action<Exception>> m_cancelationHandlers; | |
|
34 | ||
|
35 | ||
|
36 | #region state managment | |
|
37 | bool BeginTransit() { | |
|
38 | return UNRESOLVED_SATE == Interlocked.CompareExchange(ref m_state, TRANSITIONAL_STATE, UNRESOLVED_SATE); | |
|
39 | } | |
|
40 | ||
|
41 | void CompleteTransit(int state) { | |
|
42 | if (TRANSITIONAL_STATE != Interlocked.CompareExchange(ref m_state, state, TRANSITIONAL_STATE)) | |
|
43 | throw new InvalidOperationException("Can't complete transition when the object isn't in the transitional state"); | |
|
44 | } | |
|
45 | ||
|
46 | void WaitTransition() { | |
|
47 | while (m_state == TRANSITIONAL_STATE) { | |
|
48 | Thread.MemoryBarrier(); | |
|
49 | } | |
|
50 | } | |
|
51 | ||
|
52 | protected bool BeginSetResult() { | |
|
53 | if (!BeginTransit()) { | |
|
54 | WaitTransition(); | |
|
55 | if (m_state != CANCELLED_STATE) | |
|
56 | throw new InvalidOperationException("The promise is already resolved"); | |
|
57 | return false; | |
|
58 | } | |
|
59 | return true; | |
|
60 | } | |
|
61 | ||
|
62 | protected void EndSetResult() { | |
|
63 | CompleteTransit(SUCCEEDED_STATE); | |
|
64 | Signal(); | |
|
65 | } | |
|
66 | ||
|
67 | ||
|
68 | ||
|
69 | /// <summary> | |
|
70 | /// Выполняет обещание, сообщая об ошибке | |
|
71 | /// </summary> | |
|
72 | /// <remarks> | |
|
73 | /// Поскольку обещание должно работать в многопточной среде, при его выполнении сразу несколько потоков | |
|
74 | /// могу вернуть ошибку, при этом только первая будет использована в качестве результата, остальные | |
|
75 | /// будут проигнорированы. | |
|
76 | /// </remarks> | |
|
77 | /// <param name="error">Исключение возникшее при выполнении операции</param> | |
|
78 | /// <exception cref="InvalidOperationException">Данное обещание уже выполнено</exception> | |
|
79 | protected void SetError(Exception error) { | |
|
80 | if (BeginTransit()) { | |
|
81 | m_error = error; | |
|
82 | CompleteTransit(REJECTED_STATE); | |
|
83 | ||
|
84 | Signal(); | |
|
85 | } else { | |
|
86 | WaitTransition(); | |
|
87 | if (m_state == SUCCEEDED_STATE) | |
|
88 | throw new InvalidOperationException("The promise is already resolved"); | |
|
89 | } | |
|
90 | } | |
|
91 | ||
|
92 | /// <summary> | |
|
93 | /// Отменяет операцию, если это возможно. | |
|
94 | /// </summary> | |
|
95 | /// <remarks>Для определения была ли операция отменена следует использовать свойство <see cref="IsCancelled"/>.</remarks> | |
|
96 | protected void SetCancelled(Exception reason) { | |
|
97 | if (BeginTransit()) { | |
|
98 | m_error = reason; | |
|
99 | CompleteTransit(CANCELLED_STATE); | |
|
100 | Signal(); | |
|
101 | } | |
|
102 | } | |
|
103 | ||
|
104 | protected abstract void SignalHandler(THandler handler, int signal); | |
|
105 | ||
|
106 | void Signal() { | |
|
107 | var hp = m_handlerPointer; | |
|
108 | var slot = hp +1 ; | |
|
109 | while (slot < m_handlersCommited) { | |
|
110 | if (Interlocked.CompareExchange(ref m_handlerPointer, slot, hp) == hp) { | |
|
111 | SignalHandler(m_handlers[slot], m_state); | |
|
112 | } | |
|
113 | hp = m_handlerPointer; | |
|
114 | slot = hp +1 ; | |
|
115 | } | |
|
116 | ||
|
117 | ||
|
118 | if (m_extraHandlers != null) { | |
|
119 | THandler handler; | |
|
120 | while (m_extraHandlers.TryDequeue(out handler)) | |
|
121 | SignalHandler(handler, m_state); | |
|
122 | } | |
|
123 | } | |
|
124 | ||
|
125 | #endregion | |
|
126 | ||
|
127 | protected abstract Signal GetResolveSignal(); | |
|
128 | ||
|
129 | #region synchronization traits | |
|
130 | protected void WaitResult(int timeout) { | |
|
131 | if (!(IsResolved || GetResolveSignal().Wait(timeout))) | |
|
132 | throw new TimeoutException(); | |
|
133 | ||
|
134 | switch (m_state) { | |
|
135 | case SUCCEEDED_STATE: | |
|
136 | return; | |
|
137 | case CANCELLED_STATE: | |
|
138 | throw new OperationCanceledException("The operation has been cancelled", m_error); | |
|
139 | case REJECTED_STATE: | |
|
140 | throw new TargetInvocationException(m_error); | |
|
141 | default: | |
|
142 | throw new ApplicationException(String.Format("The promise state {0} is invalid", m_state)); | |
|
143 | } | |
|
144 | } | |
|
145 | #endregion | |
|
146 | ||
|
147 | #region handlers managment | |
|
148 | ||
|
149 | protected void AddHandler(THandler handler) { | |
|
150 | ||
|
151 | if (m_state > 1) { | |
|
152 | // the promise is in the resolved state, just invoke the handler | |
|
153 | SignalHandler(handler, m_state); | |
|
154 | } else { | |
|
155 | var slot = Interlocked.Increment(ref m_handlersCount) - 1; | |
|
156 | ||
|
157 | if (slot < RESERVED_HANDLERS_COUNT) { | |
|
158 | ||
|
159 | if (slot == 0) { | |
|
160 | m_handlers = new THandler[RESERVED_HANDLERS_COUNT]; | |
|
161 | } else { | |
|
162 | while (m_handlers == null) | |
|
163 | Thread.MemoryBarrier(); | |
|
164 | } | |
|
165 | ||
|
166 | m_handlers[slot] = handler; | |
|
167 | ||
|
168 | while (slot != Interlocked.CompareExchange(ref m_handlersCommited, slot + 1, slot)) { | |
|
169 | } | |
|
170 | ||
|
171 | if (m_state > 1) { | |
|
172 | do { | |
|
173 | var hp = m_handlerPointer; | |
|
174 | slot = hp + 1; | |
|
175 | if (slot < m_handlersCommited) { | |
|
176 | if (Interlocked.CompareExchange(ref m_handlerPointer, slot, hp) != hp) | |
|
177 | continue; | |
|
178 | SignalHandler(m_handlers[slot], m_state); | |
|
179 | } | |
|
180 | break; | |
|
181 | } while(true); | |
|
182 | } | |
|
183 | } else { | |
|
184 | if (slot == RESERVED_HANDLERS_COUNT) { | |
|
185 | m_extraHandlers = new MTQueue<THandler>(); | |
|
186 | } else { | |
|
187 | while (m_extraHandlers == null) | |
|
188 | Thread.MemoryBarrier(); | |
|
189 | } | |
|
190 | ||
|
191 | m_extraHandlers.Enqueue(handler); | |
|
192 | ||
|
193 | if (m_state > 1 && m_extraHandlers.TryDequeue(out handler)) | |
|
194 | // if the promise have been resolved while we was adding the handler to the queue | |
|
195 | // we can't guarantee that someone is still processing it | |
|
196 | // therefore we need to fetch a handler from the queue and execute it | |
|
197 | // note that fetched handler may be not the one that we have added | |
|
198 | // even we can fetch no handlers at all :) | |
|
199 | SignalHandler(handler, m_state); | |
|
200 | } | |
|
201 | } | |
|
202 | } | |
|
203 | ||
|
204 | #endregion | |
|
205 | ||
|
206 | #region IPromise implementation | |
|
207 | ||
|
208 | public bool IsResolved { | |
|
209 | get { | |
|
210 | Thread.MemoryBarrier(); | |
|
211 | return m_state > 1; | |
|
212 | } | |
|
213 | } | |
|
214 | ||
|
215 | public bool IsCancelled { | |
|
216 | get { | |
|
217 | Thread.MemoryBarrier(); | |
|
218 | return m_state == CANCELLED_STATE; | |
|
219 | } | |
|
220 | } | |
|
221 | ||
|
222 | #endregion | |
|
223 | ||
|
224 | public Exception Error { | |
|
225 | get { | |
|
226 | return m_error; | |
|
227 | } | |
|
228 | } | |
|
229 | ||
|
230 | public bool CancelOperationIfRequested() { | |
|
231 | if (IsCancellationRequested) { | |
|
232 | CancelOperation(CancellationReason); | |
|
233 | return true; | |
|
234 | } | |
|
235 | return false; | |
|
236 | } | |
|
237 | ||
|
238 | public virtual void CancelOperation(Exception reason) { | |
|
239 | SetCancelled(reason); | |
|
240 | } | |
|
241 | ||
|
242 | public void CancellationRequested(Action<Exception> handler) { | |
|
243 | Safe.ArgumentNotNull(handler, "handler"); | |
|
244 | if (IsCancellationRequested) | |
|
245 | handler(CancellationReason); | |
|
246 | ||
|
247 | if (m_cancelationHandlers == null) | |
|
248 | Interlocked.CompareExchange(ref m_cancelationHandlers, new MTQueue<Action<Exception>>(), null); | |
|
249 | ||
|
250 | m_cancelationHandlers.Enqueue(handler); | |
|
251 | ||
|
252 | if (IsCancellationRequested && m_cancelationHandlers.TryDequeue(out handler)) | |
|
253 | // TryDeque implies MemoryBarrier() | |
|
254 | handler(m_cancelationReason); | |
|
255 | } | |
|
256 | ||
|
257 | public bool IsCancellationRequested { | |
|
258 | get { | |
|
259 | do { | |
|
260 | if (m_cancelRequest == CANCEL_NOT_REQUESTED) | |
|
261 | return false; | |
|
262 | if (m_cancelRequest == CANCEL_REQUESTED) | |
|
263 | return true; | |
|
264 | Thread.MemoryBarrier(); | |
|
265 | } while(true); | |
|
266 | } | |
|
267 | } | |
|
268 | ||
|
269 | public Exception CancellationReason { | |
|
270 | get { | |
|
271 | do { | |
|
272 | Thread.MemoryBarrier(); | |
|
273 | } while(m_cancelRequest == CANCEL_REQUESTING); | |
|
274 | ||
|
275 | return m_cancelationReason; | |
|
276 | } | |
|
277 | } | |
|
278 | ||
|
279 | #region ICancellable implementation | |
|
280 | ||
|
281 | public void Cancel() { | |
|
282 | Cancel(null); | |
|
283 | } | |
|
284 | ||
|
285 | public void Cancel(Exception reason) { | |
|
286 | if (CANCEL_NOT_REQUESTED == Interlocked.CompareExchange(ref m_cancelRequest, CANCEL_REQUESTING, CANCEL_NOT_REQUESTED)) { | |
|
287 | m_cancelationReason = reason; | |
|
288 | m_cancelRequest = CANCEL_REQUESTED; | |
|
289 | if (m_cancelationHandlers != null) { | |
|
290 | Action<Exception> handler; | |
|
291 | while (m_cancelationHandlers.TryDequeue(out handler)) | |
|
292 | handler(m_cancelationReason); | |
|
293 | } | |
|
294 | } | |
|
295 | } | |
|
296 | ||
|
297 | #endregion | |
|
298 | } | |
|
299 | } | |
|
300 |
@@ -0,0 +1,142 | |||
|
1 | using System; | |
|
2 | using Implab.Parallels; | |
|
3 | ||
|
4 | namespace Implab { | |
|
5 | public abstract class AbstractPromise : AbstractEvent<AbstractPromise.HandlerDescriptor>, IPromise { | |
|
6 | public struct HandlerDescriptor { | |
|
7 | readonly Action m_handler; | |
|
8 | readonly Action<Exception> m_error; | |
|
9 | readonly Action<Exception> m_cancel; | |
|
10 | readonly PromiseEventType m_mask; | |
|
11 | ||
|
12 | public HandlerDescriptor(Action success, Action<Exception> error, Action<Exception> cancel) { | |
|
13 | m_handler = success; | |
|
14 | m_error = error; | |
|
15 | m_cancel = cancel; | |
|
16 | m_mask = PromiseEventType.Success; | |
|
17 | } | |
|
18 | ||
|
19 | public HandlerDescriptor(Action handler, PromiseEventType mask) { | |
|
20 | m_handler = handler; | |
|
21 | m_error = null; | |
|
22 | m_cancel = null; | |
|
23 | m_mask = mask; | |
|
24 | } | |
|
25 | ||
|
26 | public void SignalSuccess() { | |
|
27 | if ((m_mask & PromiseEventType.Success) != 0 && m_handler != null) { | |
|
28 | try { | |
|
29 | m_handler(); | |
|
30 | } catch (Exception err) { | |
|
31 | // avoid calling handler twice in case of error | |
|
32 | if (m_error != null) | |
|
33 | SignalError(err); | |
|
34 | } | |
|
35 | } | |
|
36 | } | |
|
37 | ||
|
38 | public void SignalError(Exception err) { | |
|
39 | if (m_error != null) { | |
|
40 | try { | |
|
41 | m_error(err); | |
|
42 | // Analysis disable once EmptyGeneralCatchClause | |
|
43 | } catch { | |
|
44 | } | |
|
45 | } else if ((m_mask & PromiseEventType.Error ) != 0 && m_handler != null) { | |
|
46 | try { | |
|
47 | m_handler(); | |
|
48 | // Analysis disable once EmptyGeneralCatchClause | |
|
49 | } catch { | |
|
50 | } | |
|
51 | } | |
|
52 | } | |
|
53 | ||
|
54 | public void SignalCancel(Exception reason) { | |
|
55 | if (m_cancel != null) { | |
|
56 | try { | |
|
57 | m_cancel(reason); | |
|
58 | } catch (Exception err) { | |
|
59 | SignalError(err); | |
|
60 | } | |
|
61 | } else if ( (m_mask & PromiseEventType.Cancelled) != 0 && m_handler != null) { | |
|
62 | try { | |
|
63 | m_handler(); | |
|
64 | // Analysis disable once EmptyGeneralCatchClause | |
|
65 | } catch { | |
|
66 | } | |
|
67 | } | |
|
68 | } | |
|
69 | } | |
|
70 | ||
|
71 | ||
|
72 | #region implemented abstract members of AbstractPromise | |
|
73 | ||
|
74 | protected override void SignalHandler(HandlerDescriptor handler, int signal) { | |
|
75 | switch (signal) { | |
|
76 | case SUCCEEDED_STATE: | |
|
77 | handler.SignalSuccess(); | |
|
78 | break; | |
|
79 | case REJECTED_STATE: | |
|
80 | handler.SignalError(Error); | |
|
81 | break; | |
|
82 | case CANCELLED_STATE: | |
|
83 | handler.SignalCancel(CancellationReason); | |
|
84 | break; | |
|
85 | default: | |
|
86 | throw new InvalidOperationException(String.Format("Invalid promise signal: {0}", signal)); | |
|
87 | } | |
|
88 | } | |
|
89 | ||
|
90 | protected override Signal GetResolveSignal() { | |
|
91 | var signal = new Signal(); | |
|
92 | On(signal.Set, PromiseEventType.All); | |
|
93 | return signal; | |
|
94 | } | |
|
95 | ||
|
96 | #endregion | |
|
97 | ||
|
98 | public Type PromiseType { | |
|
99 | get { | |
|
100 | return typeof(void); | |
|
101 | } | |
|
102 | } | |
|
103 | ||
|
104 | public IPromise On(Action success, Action<Exception> error, Action<Exception> cancel) { | |
|
105 | AddHandler(new HandlerDescriptor(success, error, cancel)); | |
|
106 | return this; | |
|
107 | } | |
|
108 | ||
|
109 | public IPromise On(Action success, Action<Exception> error) { | |
|
110 | AddHandler(new HandlerDescriptor(success, error, null)); | |
|
111 | return this; | |
|
112 | } | |
|
113 | ||
|
114 | public IPromise On(Action success) { | |
|
115 | AddHandler(new HandlerDescriptor(success, null, null)); | |
|
116 | return this; | |
|
117 | } | |
|
118 | ||
|
119 | public IPromise On(Action handler, PromiseEventType events) { | |
|
120 | AddHandler(new HandlerDescriptor(handler,events)); | |
|
121 | return this; | |
|
122 | } | |
|
123 | ||
|
124 | public IPromise<T> Cast<T>() { | |
|
125 | throw new InvalidCastException(); | |
|
126 | } | |
|
127 | ||
|
128 | public void Join() { | |
|
129 | WaitResult(-1); | |
|
130 | } | |
|
131 | ||
|
132 | public void Join(int timeout) { | |
|
133 | WaitResult(timeout); | |
|
134 | } | |
|
135 | ||
|
136 | protected void SetResult() { | |
|
137 | if(BeginSetResult()) | |
|
138 | EndSetResult(); | |
|
139 | } | |
|
140 | } | |
|
141 | } | |
|
142 |
@@ -0,0 +1,206 | |||
|
1 | using System; | |
|
2 | using Implab.Parallels; | |
|
3 | ||
|
4 | namespace Implab { | |
|
5 | public abstract class AbstractPromise<T> : AbstractEvent<AbstractPromise<T>.HandlerDescriptor>, IPromise<T> { | |
|
6 | public struct HandlerDescriptor { | |
|
7 | readonly Action m_handler; | |
|
8 | readonly Action<T> m_success; | |
|
9 | readonly Action<Exception> m_error; | |
|
10 | readonly Action<Exception> m_cancel; | |
|
11 | readonly PromiseEventType m_mask; | |
|
12 | ||
|
13 | public HandlerDescriptor(Action<T> success, Action<Exception> error, Action<Exception> cancel) { | |
|
14 | m_success = success; | |
|
15 | m_error = error; | |
|
16 | m_cancel = cancel; | |
|
17 | ||
|
18 | m_handler = null; | |
|
19 | m_mask = 0; | |
|
20 | } | |
|
21 | ||
|
22 | public HandlerDescriptor(Action success, Action<Exception> error, Action<Exception> cancel) { | |
|
23 | m_handler = success; | |
|
24 | m_success = null; | |
|
25 | m_error = error; | |
|
26 | m_cancel = cancel; | |
|
27 | m_mask = PromiseEventType.Success; | |
|
28 | } | |
|
29 | ||
|
30 | public HandlerDescriptor(Action handler, PromiseEventType mask) { | |
|
31 | m_handler = handler; | |
|
32 | m_mask = mask; | |
|
33 | m_success = null; | |
|
34 | m_error = null; | |
|
35 | m_cancel = null; | |
|
36 | } | |
|
37 | ||
|
38 | public void SignalSuccess(T result) { | |
|
39 | if (m_success != null) { | |
|
40 | try { | |
|
41 | m_success(result); | |
|
42 | } catch(Exception err) { | |
|
43 | SignalError(err); | |
|
44 | } | |
|
45 | } else if ((m_mask & PromiseEventType.Success) != 0 && m_handler != null) { | |
|
46 | try { | |
|
47 | m_handler(); | |
|
48 | } catch(Exception err) { | |
|
49 | // avoid calling handler twice in case of error | |
|
50 | if (m_error != null) | |
|
51 | SignalError(err); | |
|
52 | } | |
|
53 | } | |
|
54 | } | |
|
55 | ||
|
56 | public void SignalError(Exception err) { | |
|
57 | if (m_error != null) { | |
|
58 | try { | |
|
59 | m_error(err); | |
|
60 | // Analysis disable once EmptyGeneralCatchClause | |
|
61 | } catch { | |
|
62 | } | |
|
63 | } else if ((m_mask & PromiseEventType.Error) != 0 && m_handler != null) { | |
|
64 | try { | |
|
65 | m_handler(); | |
|
66 | // Analysis disable once EmptyGeneralCatchClause | |
|
67 | } catch { | |
|
68 | } | |
|
69 | } | |
|
70 | } | |
|
71 | ||
|
72 | public void SignalCancel(Exception reason) { | |
|
73 | if (m_cancel != null) { | |
|
74 | try { | |
|
75 | m_cancel(reason); | |
|
76 | } catch (Exception err) { | |
|
77 | SignalError(err); | |
|
78 | } | |
|
79 | } else if ((m_mask & PromiseEventType.Cancelled) != 0 && m_handler != null) { | |
|
80 | try { | |
|
81 | m_handler(); | |
|
82 | // Analysis disable once EmptyGeneralCatchClause | |
|
83 | } catch { | |
|
84 | } | |
|
85 | } | |
|
86 | } | |
|
87 | } | |
|
88 | ||
|
89 | public Type PromiseType { | |
|
90 | get { | |
|
91 | return typeof(T); | |
|
92 | } | |
|
93 | } | |
|
94 | ||
|
95 | public T Join() { | |
|
96 | WaitResult(-1); | |
|
97 | return m_result; | |
|
98 | } | |
|
99 | public T Join(int timeout) { | |
|
100 | WaitResult(timeout); | |
|
101 | return m_result; | |
|
102 | } | |
|
103 | ||
|
104 | void IPromise.Join() { | |
|
105 | WaitResult(-1); | |
|
106 | } | |
|
107 | void IPromise.Join(int timeout) { | |
|
108 | WaitResult(timeout); | |
|
109 | } | |
|
110 | ||
|
111 | public IPromise<T> On(Action<T> success, Action<Exception> error, Action<Exception> cancel) { | |
|
112 | AddHandler(new HandlerDescriptor(success, error, cancel)); | |
|
113 | return this; | |
|
114 | } | |
|
115 | ||
|
116 | public IPromise<T> On(Action<T> success, Action<Exception> error) { | |
|
117 | AddHandler(new HandlerDescriptor(success, error, null)); | |
|
118 | return this; | |
|
119 | } | |
|
120 | ||
|
121 | public IPromise<T> On(Action<T> success) { | |
|
122 | AddHandler(new HandlerDescriptor(success, null, null)); | |
|
123 | return this; | |
|
124 | } | |
|
125 | ||
|
126 | public IPromise<T> On(Action handler, PromiseEventType events) { | |
|
127 | AddHandler(new HandlerDescriptor(handler, events)); | |
|
128 | return this; | |
|
129 | } | |
|
130 | ||
|
131 | public IPromise<T> On(Action success, Action<Exception> error, Action<Exception> cancel) { | |
|
132 | AddHandler(new HandlerDescriptor(success, error, cancel)); | |
|
133 | return this; | |
|
134 | } | |
|
135 | ||
|
136 | public IPromise<T> On(Action success, Action<Exception> error) { | |
|
137 | AddHandler(new HandlerDescriptor(success, error, null)); | |
|
138 | return this; | |
|
139 | } | |
|
140 | ||
|
141 | public IPromise<T> On(Action success) { | |
|
142 | AddHandler(new HandlerDescriptor(success, null, null)); | |
|
143 | return this; | |
|
144 | } | |
|
145 | ||
|
146 | IPromise IPromise.On(Action success, Action<Exception> error, Action<Exception> cancel) { | |
|
147 | AddHandler(new HandlerDescriptor(success, error, cancel)); | |
|
148 | return this; | |
|
149 | } | |
|
150 | ||
|
151 | IPromise IPromise.On(Action success, Action<Exception> error) { | |
|
152 | AddHandler(new HandlerDescriptor(success, error, null)); | |
|
153 | return this; | |
|
154 | } | |
|
155 | ||
|
156 | IPromise IPromise.On(Action success) { | |
|
157 | AddHandler(new HandlerDescriptor(success, null, null)); | |
|
158 | return this; | |
|
159 | } | |
|
160 | ||
|
161 | IPromise IPromise.On(Action handler, PromiseEventType events) { | |
|
162 | AddHandler(new HandlerDescriptor(handler, events)); | |
|
163 | return this; | |
|
164 | } | |
|
165 | ||
|
166 | public IPromise<T2> Cast<T2>() { | |
|
167 | return (IPromise<T2>)this; | |
|
168 | } | |
|
169 | ||
|
170 | #region implemented abstract members of AbstractPromise | |
|
171 | ||
|
172 | protected override Signal GetResolveSignal() { | |
|
173 | var signal = new Signal(); | |
|
174 | AddHandler(new HandlerDescriptor(signal.Set, PromiseEventType.All)); | |
|
175 | return signal; | |
|
176 | } | |
|
177 | ||
|
178 | protected override void SignalHandler(HandlerDescriptor handler, int signal) { | |
|
179 | switch (signal) { | |
|
180 | case SUCCEEDED_STATE: | |
|
181 | handler.SignalSuccess(m_result); | |
|
182 | break; | |
|
183 | case REJECTED_STATE: | |
|
184 | handler.SignalError(Error); | |
|
185 | break; | |
|
186 | case CANCELLED_STATE: | |
|
187 | handler.SignalCancel(CancellationReason); | |
|
188 | break; | |
|
189 | default: | |
|
190 | throw new InvalidOperationException(String.Format("Invalid promise signal: {0}", signal)); | |
|
191 | } | |
|
192 | } | |
|
193 | ||
|
194 | #endregion | |
|
195 | ||
|
196 | T m_result; | |
|
197 | ||
|
198 | protected void SetResult(T value) { | |
|
199 | if (BeginSetResult()) { | |
|
200 | m_result = value; | |
|
201 | EndSetResult(); | |
|
202 | } | |
|
203 | } | |
|
204 | } | |
|
205 | } | |
|
206 |
@@ -0,0 +1,45 | |||
|
1 | using System; | |
|
2 | using System.Threading; | |
|
3 | ||
|
4 | namespace Implab { | |
|
5 | /// <summary> | |
|
6 | /// Базовый класс для реализации задачь. Задача представляет собой некторое | |
|
7 | /// действие, которое можно иницировать и обработать результат его выполнения | |
|
8 | /// в виде обещания, для этого оно реализует интерфейс <see cref="IPromise"/>. | |
|
9 | /// </summary> | |
|
10 | /// <remarks> | |
|
11 | /// Данный класс определяет стандартное поведение при обработки результатов, в частности | |
|
12 | /// обработку <see cref="System.OperationCanceledException"/> и <see cref="PromiseTransientException"/> | |
|
13 | /// </remarks> | |
|
14 | public abstract class AbstractTask : AbstractPromise { | |
|
15 | int m_cancelationLock; | |
|
16 | ||
|
17 | /// <summary> | |
|
18 | /// Получает эксклюзивное право отмены задания, используется для отмены задания до начала его выполнения. | |
|
19 | /// </summary> | |
|
20 | /// <returns><c>true</c>, if cancelation was locked, <c>false</c> otherwise.</returns> | |
|
21 | protected bool LockCancelation() { | |
|
22 | return 0 == Interlocked.CompareExchange(ref m_cancelationLock, 1, 0); | |
|
23 | } | |
|
24 | ||
|
25 | ||
|
26 | ||
|
27 | protected void SetErrorInternal(Exception error) { | |
|
28 | // unwrap | |
|
29 | while (error is PromiseTransientException && error.InnerException != null) | |
|
30 | error = error.InnerException; | |
|
31 | ||
|
32 | if (error is OperationCanceledException) | |
|
33 | SetCancelled(error); | |
|
34 | else | |
|
35 | SetError(error); | |
|
36 | } | |
|
37 | ||
|
38 | protected void SetCancelledInternal(Exception reason) { | |
|
39 | SetCancelled( | |
|
40 | reason == null ? new OperationCanceledException() : reason is OperationCanceledException ? reason : new OperationCanceledException(null, reason) | |
|
41 | ); | |
|
42 | } | |
|
43 | } | |
|
44 | } | |
|
45 |
@@ -0,0 +1,36 | |||
|
1 | using System; | |
|
2 | using System.Threading; | |
|
3 | ||
|
4 | namespace Implab { | |
|
5 | public abstract class AbstractTask<T> : AbstractPromise<T> { | |
|
6 | int m_cancelationLock; | |
|
7 | ||
|
8 | /// <summary> | |
|
9 | /// Получает эксклюзивное право отмены задания, используется для отмены задания до начала его выполнения. | |
|
10 | /// </summary> | |
|
11 | /// <returns><c>true</c>, if cancelation was locked, <c>false</c> otherwise.</returns> | |
|
12 | protected bool LockCancelation() { | |
|
13 | return 0 == Interlocked.CompareExchange(ref m_cancelationLock, 1, 0); | |
|
14 | } | |
|
15 | ||
|
16 | ||
|
17 | ||
|
18 | protected void SetErrorInternal(Exception error) { | |
|
19 | // unwrap | |
|
20 | while (error is PromiseTransientException && error.InnerException != null) | |
|
21 | error = error.InnerException; | |
|
22 | ||
|
23 | if (error is OperationCanceledException) | |
|
24 | SetCancelled(error); | |
|
25 | else | |
|
26 | SetError(error); | |
|
27 | } | |
|
28 | ||
|
29 | protected void SetCancelledInternal(Exception reason) { | |
|
30 | SetCancelled( | |
|
31 | reason == null ? new OperationCanceledException() : reason is OperationCanceledException ? reason : new OperationCanceledException(null, reason) | |
|
32 | ); | |
|
33 | } | |
|
34 | } | |
|
35 | } | |
|
36 |
@@ -0,0 +1,36 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab { | |
|
4 | public class ActionChainTask : ActionChainTaskBase, IDeferred { | |
|
5 | readonly Func<IPromise> m_task; | |
|
6 | ||
|
7 | /// <summary> | |
|
8 | /// Initializes a new instance of the <see cref="Implab.ActionChainTask"/> class. | |
|
9 | /// </summary> | |
|
10 | /// <param name="task">The operation which will be performed when the <see cref="Resolve()"/> is called.</param> | |
|
11 | /// <param name="error">The error handler which will invoke when the <see cref="Reject(Exception)"/> is called or when the task fails with an error.</param> | |
|
12 | /// <param name="cancel">The cancellation handler.</param> | |
|
13 | /// <param name="autoCancellable">If set to <c>true</c> will automatically accept | |
|
14 | /// all cancel requests before the task is started with <see cref="Resolve()"/>, | |
|
15 | /// after that all requests are directed to the task.</param> | |
|
16 | public ActionChainTask(Func<IPromise> task, Func<Exception, IPromise> error, Func<Exception, IPromise> cancel, bool autoCancellable) : base(error,cancel, autoCancellable) { | |
|
17 | m_task = task; | |
|
18 | } | |
|
19 | ||
|
20 | public void Resolve() { | |
|
21 | if (m_task != null && LockCancelation()) { | |
|
22 | try { | |
|
23 | var p = m_task(); | |
|
24 | p.On(SetResult, HandleErrorInternal, HandleCancelInternal); | |
|
25 | CancellationRequested(p.Cancel); | |
|
26 | } catch (OperationCanceledException reason){ | |
|
27 | HandleCancelInternal(reason); | |
|
28 | } catch(Exception err) { | |
|
29 | HandleErrorInternal(err); | |
|
30 | } | |
|
31 | } | |
|
32 | } | |
|
33 | ||
|
34 | } | |
|
35 | } | |
|
36 |
@@ -0,0 +1,62 | |||
|
1 | using System; | |
|
2 | using System.Threading; | |
|
3 | ||
|
4 | namespace Implab { | |
|
5 | public class ActionChainTaskBase : AbstractTask { | |
|
6 | readonly Func<Exception, IPromise> m_error; | |
|
7 | readonly Func<Exception, IPromise> m_cancel; | |
|
8 | ||
|
9 | protected ActionChainTaskBase(Func<Exception, IPromise> error, Func<Exception, IPromise> cancel, bool autoCancellable) { | |
|
10 | m_error = error; | |
|
11 | m_cancel = cancel; | |
|
12 | if (autoCancellable) | |
|
13 | CancellationRequested(CancelOperation); | |
|
14 | } | |
|
15 | ||
|
16 | public void Reject(Exception error) { | |
|
17 | if (LockCancelation()) | |
|
18 | HandleErrorInternal(error); | |
|
19 | } | |
|
20 | ||
|
21 | public override void CancelOperation(Exception reason) { | |
|
22 | if (LockCancelation()) | |
|
23 | // отмена вызвана до начала выполнения задачи | |
|
24 | HandleCancelInternal(reason); | |
|
25 | } | |
|
26 | ||
|
27 | protected void HandleCancelInternal(Exception reason) { | |
|
28 | if (m_cancel != null) { | |
|
29 | try { | |
|
30 | // вызываем обработчик отмены | |
|
31 | var p = m_cancel(reason); | |
|
32 | p.On(SetResult, HandleErrorInternal, SetCancelledInternal); | |
|
33 | // сообщаем асинхронной операции, что клиент уже не хочет получать результат | |
|
34 | // т.е. если он инициировал отмену, задача отменилась, вызвался обрабочик отмены | |
|
35 | // отбработчику сообщили, что результат уже не нужен и уже сам обработчик решает | |
|
36 | // отдавать ли результат или подтвердить отмену (или вернуть ошибку). | |
|
37 | CancellationRequested(p.Cancel); | |
|
38 | } catch (Exception err) { | |
|
39 | HandleErrorInternal(err); | |
|
40 | } | |
|
41 | } else { | |
|
42 | HandleErrorInternal(reason ?? new OperationCanceledException()); | |
|
43 | } | |
|
44 | } | |
|
45 | ||
|
46 | protected void HandleErrorInternal(Exception error) { | |
|
47 | if (m_error != null) { | |
|
48 | try { | |
|
49 | var p = m_error(error); | |
|
50 | p.On(SetResult, SetErrorInternal, SetCancelledInternal); | |
|
51 | CancellationRequested(p.Cancel); | |
|
52 | } catch (Exception err) { | |
|
53 | SetErrorInternal(error); | |
|
54 | } | |
|
55 | } else { | |
|
56 | SetErrorInternal(error); | |
|
57 | } | |
|
58 | } | |
|
59 | ||
|
60 | } | |
|
61 | } | |
|
62 |
@@ -0,0 +1,27 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab { | |
|
4 | public class ActionChainTask<T> : ActionChainTaskBase, IDeferred<T> { | |
|
5 | readonly Func<T, IPromise> m_task; | |
|
6 | ||
|
7 | public ActionChainTask(Func<T, IPromise> task, Func<Exception, IPromise> error, Func<Exception, IPromise> cancel, bool autoCancellable) : base(error,cancel, autoCancellable) { | |
|
8 | m_task = task; | |
|
9 | } | |
|
10 | ||
|
11 | public void Resolve(T value) { | |
|
12 | if (m_task != null && LockCancelation()) { | |
|
13 | try { | |
|
14 | var p = m_task(value); | |
|
15 | p.On(SetResult, HandleErrorInternal, HandleCancelInternal); | |
|
16 | CancellationRequested(p.Cancel); | |
|
17 | } catch (OperationCanceledException reason) { | |
|
18 | HandleCancelInternal(reason); | |
|
19 | } catch(Exception err) { | |
|
20 | HandleErrorInternal(err); | |
|
21 | } | |
|
22 | } | |
|
23 | } | |
|
24 | ||
|
25 | } | |
|
26 | } | |
|
27 |
@@ -0,0 +1,24 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab { | |
|
4 | public class ActionTask : ActionTaskBase, IDeferred { | |
|
5 | readonly Action m_task; | |
|
6 | public ActionTask(Action task, Action<Exception> error, Action<Exception> cancel, bool autoCancellable) : base(error,cancel, autoCancellable) { | |
|
7 | m_task = task; | |
|
8 | } | |
|
9 | ||
|
10 | public void Resolve() { | |
|
11 | if (m_task != null && LockCancelation()) { | |
|
12 | try { | |
|
13 | m_task(); | |
|
14 | SetResult(); | |
|
15 | } catch(OperationCanceledException reason) { | |
|
16 | HandleCancelInternal(reason); | |
|
17 | } catch(Exception err) { | |
|
18 | HandleErrorInternal(err); | |
|
19 | } | |
|
20 | } | |
|
21 | } | |
|
22 | } | |
|
23 | } | |
|
24 |
@@ -0,0 +1,53 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab { | |
|
4 | public class ActionTaskBase : AbstractTask { | |
|
5 | readonly Action<Exception> m_cancel; | |
|
6 | readonly Action<Exception> m_error; | |
|
7 | ||
|
8 | protected ActionTaskBase( Action<Exception> error, Action<Exception> cancel, bool autoCancellable) { | |
|
9 | m_error = error; | |
|
10 | m_cancel = cancel; | |
|
11 | if (autoCancellable) | |
|
12 | CancellationRequested(CancelOperation); | |
|
13 | } | |
|
14 | ||
|
15 | public void Reject(Exception error) { | |
|
16 | Safe.ArgumentNotNull(error, "error"); | |
|
17 | if (LockCancelation()) | |
|
18 | HandleErrorInternal(error); | |
|
19 | } | |
|
20 | ||
|
21 | public override void CancelOperation(Exception reason) { | |
|
22 | if (LockCancelation()) | |
|
23 | HandleCancelInternal(reason); | |
|
24 | } | |
|
25 | ||
|
26 | protected void HandleErrorInternal(Exception error) { | |
|
27 | if (m_error != null) { | |
|
28 | try { | |
|
29 | m_error(error); | |
|
30 | SetResult(); | |
|
31 | } catch(Exception err) { | |
|
32 | SetErrorInternal(err); | |
|
33 | } | |
|
34 | } else { | |
|
35 | SetErrorInternal(error); | |
|
36 | } | |
|
37 | } | |
|
38 | ||
|
39 | protected void HandleCancelInternal(Exception error) { | |
|
40 | if (m_cancel != null) { | |
|
41 | try { | |
|
42 | m_cancel(error); | |
|
43 | SetResult(); | |
|
44 | } catch(Exception err) { | |
|
45 | HandleErrorInternal(err); | |
|
46 | } | |
|
47 | } else { | |
|
48 | HandleErrorInternal(error ?? new OperationCanceledException()); | |
|
49 | } | |
|
50 | } | |
|
51 | } | |
|
52 | } | |
|
53 |
@@ -0,0 +1,24 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab { | |
|
4 | public class ActionTask<T> : ActionTaskBase, IDeferred<T> { | |
|
5 | readonly Action<T> m_task; | |
|
6 | public ActionTask(Action<T> task, Action<Exception> error, Action<Exception> cancel, bool autoCancellable) : base(error,cancel, autoCancellable) { | |
|
7 | m_task = task; | |
|
8 | } | |
|
9 | ||
|
10 | public void Resolve(T value) { | |
|
11 | if (m_task != null && LockCancelation()) { | |
|
12 | try { | |
|
13 | m_task(value); | |
|
14 | SetResult(); | |
|
15 | } catch(OperationCanceledException reason) { | |
|
16 | HandleCancelInternal(reason); | |
|
17 | } catch(Exception err) { | |
|
18 | HandleErrorInternal(err); | |
|
19 | } | |
|
20 | } | |
|
21 | } | |
|
22 | } | |
|
23 | } | |
|
24 |
@@ -0,0 +1,9 | |||
|
1 | ||
|
2 | namespace Implab.Automaton { | |
|
3 | public static class AutomatonConst { | |
|
4 | public const int UNREACHABLE_STATE = -1; | |
|
5 | ||
|
6 | public const int UNCLASSIFIED_INPUT = 0; | |
|
7 | } | |
|
8 | } | |
|
9 |
@@ -0,0 +1,33 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab.Automaton { | |
|
4 | public struct AutomatonTransition : IEquatable<AutomatonTransition> { | |
|
5 | public readonly int s1; | |
|
6 | public readonly int s2; | |
|
7 | public readonly int edge; | |
|
8 | ||
|
9 | public AutomatonTransition(int s1, int s2, int edge) { | |
|
10 | this.s1 = s1; | |
|
11 | this.s2 = s2; | |
|
12 | this.edge = edge; | |
|
13 | } | |
|
14 | ||
|
15 | ||
|
16 | #region IEquatable implementation | |
|
17 | public bool Equals(AutomatonTransition other) { | |
|
18 | return other.s1 == s1 && other.s2 == s2 && other.edge == edge ; | |
|
19 | } | |
|
20 | #endregion | |
|
21 | ||
|
22 | public override bool Equals(object obj) { | |
|
23 | if (obj is AutomatonTransition) | |
|
24 | return Equals((AutomatonTransition)obj); | |
|
25 | return base.Equals(obj); | |
|
26 | } | |
|
27 | ||
|
28 | public override int GetHashCode() { | |
|
29 | return s1 + s2 + edge; | |
|
30 | } | |
|
31 | } | |
|
32 | } | |
|
33 |
@@ -0,0 +1,348 | |||
|
1 | using Implab; | |
|
2 | using System; | |
|
3 | using System.Collections.Generic; | |
|
4 | using System.Linq; | |
|
5 | using System.Diagnostics; | |
|
6 | using System.IO; | |
|
7 | using System.CodeDom.Compiler; | |
|
8 | using System.CodeDom; | |
|
9 | ||
|
10 | namespace Implab.Automaton { | |
|
11 | public class DFATable : IDFATableBuilder { | |
|
12 | int m_stateCount; | |
|
13 | int m_symbolCount; | |
|
14 | int m_initialState; | |
|
15 | ||
|
16 | readonly HashSet<int> m_finalStates = new HashSet<int>(); | |
|
17 | readonly HashSet<AutomatonTransition> m_transitions = new HashSet<AutomatonTransition>(); | |
|
18 | ||
|
19 | ||
|
20 | #region IDFADefinition implementation | |
|
21 | ||
|
22 | public bool IsFinalState(int s) { | |
|
23 | Safe.ArgumentInRange(s, 0, m_stateCount, "s"); | |
|
24 | ||
|
25 | return m_finalStates.Contains(s); | |
|
26 | } | |
|
27 | ||
|
28 | public IEnumerable<int> FinalStates { | |
|
29 | get { | |
|
30 | return m_finalStates; | |
|
31 | } | |
|
32 | } | |
|
33 | ||
|
34 | public int StateCount { | |
|
35 | get { return m_stateCount; } | |
|
36 | } | |
|
37 | ||
|
38 | public int AlphabetSize { | |
|
39 | get { return m_symbolCount; } | |
|
40 | } | |
|
41 | ||
|
42 | public int InitialState { | |
|
43 | get { return m_initialState; } | |
|
44 | } | |
|
45 | ||
|
46 | #endregion | |
|
47 | ||
|
48 | public void SetInitialState(int s) { | |
|
49 | Safe.ArgumentAssert(s >= 0, "s"); | |
|
50 | m_stateCount = Math.Max(m_stateCount, s + 1); | |
|
51 | m_initialState = s; | |
|
52 | } | |
|
53 | ||
|
54 | public void MarkFinalState(int state) { | |
|
55 | m_stateCount = Math.Max(m_stateCount, state + 1); | |
|
56 | m_finalStates.Add(state); | |
|
57 | } | |
|
58 | ||
|
59 | public void Add(AutomatonTransition item) { | |
|
60 | Safe.ArgumentAssert(item.s1 >= 0, "item"); | |
|
61 | Safe.ArgumentAssert(item.s2 >= 0, "item"); | |
|
62 | Safe.ArgumentAssert(item.edge >= 0, "item"); | |
|
63 | ||
|
64 | m_stateCount = Math.Max(m_stateCount, Math.Max(item.s1, item.s2) + 1); | |
|
65 | m_symbolCount = Math.Max(m_symbolCount, item.edge + 1); | |
|
66 | ||
|
67 | m_transitions.Add(item); | |
|
68 | } | |
|
69 | ||
|
70 | public void Clear() { | |
|
71 | m_stateCount = 0; | |
|
72 | m_symbolCount = 0; | |
|
73 | m_finalStates.Clear(); | |
|
74 | m_transitions.Clear(); | |
|
75 | } | |
|
76 | ||
|
77 | public bool Contains(AutomatonTransition item) { | |
|
78 | return m_transitions.Contains(item); | |
|
79 | } | |
|
80 | ||
|
81 | public void CopyTo(AutomatonTransition[] array, int arrayIndex) { | |
|
82 | m_transitions.CopyTo(array, arrayIndex); | |
|
83 | } | |
|
84 | ||
|
85 | public bool Remove(AutomatonTransition item) { | |
|
86 | return m_transitions.Remove(item); | |
|
87 | } | |
|
88 | ||
|
89 | public int Count { | |
|
90 | get { | |
|
91 | return m_transitions.Count; | |
|
92 | } | |
|
93 | } | |
|
94 | ||
|
95 | public bool IsReadOnly { | |
|
96 | get { | |
|
97 | return false; | |
|
98 | } | |
|
99 | } | |
|
100 | ||
|
101 | public IEnumerator<AutomatonTransition> GetEnumerator() { | |
|
102 | return m_transitions.GetEnumerator(); | |
|
103 | } | |
|
104 | ||
|
105 | System.Collections.IEnumerator System.Collections.IEnumerable.GetEnumerator() { | |
|
106 | return GetEnumerator(); | |
|
107 | } | |
|
108 | ||
|
109 | public void AddSymbol(int symbol) { | |
|
110 | Safe.ArgumentAssert(symbol >= 0, "symbol"); | |
|
111 | m_symbolCount = Math.Max(symbol + 1, m_symbolCount); | |
|
112 | } | |
|
113 | ||
|
114 | public int[,] CreateTransitionTable() { | |
|
115 | var table = new int[StateCount,AlphabetSize]; | |
|
116 | ||
|
117 | for (int i = 0; i < StateCount; i++) | |
|
118 | for (int j = 0; j < AlphabetSize; j++) | |
|
119 | table[i, j] = AutomatonConst.UNREACHABLE_STATE; | |
|
120 | ||
|
121 | foreach (var t in this) | |
|
122 | table[t.s1,t.edge] = t.s2; | |
|
123 | ||
|
124 | return table; | |
|
125 | } | |
|
126 | ||
|
127 | public bool[] CreateFinalStateTable() { | |
|
128 | var table = new bool[StateCount]; | |
|
129 | ||
|
130 | foreach (var s in FinalStates) | |
|
131 | table[s] = true; | |
|
132 | ||
|
133 | return table; | |
|
134 | } | |
|
135 | ||
|
136 | /// <summary>Формирует множества конечных состояний перед началом работы алгоритма минимизации.</summary> | |
|
137 | /// <remarks> | |
|
138 | /// В процессе построения минимального автомата требуется разделить множество состояний, | |
|
139 | /// на два подмножества - конечные состояния и все остальные, после чего эти подмножества | |
|
140 | /// будут резделены на более мелкие. Иногда требуется гарантировать различия конечных сосотяний, | |
|
141 | /// для этого необходимо переопределить даннцю фукнцию, для получения множеств конечных состояний. | |
|
142 | /// </remarks> | |
|
143 | /// <returns>The final states.</returns> | |
|
144 | protected virtual IEnumerable<HashSet<int>> SplitFinalStates(IEnumerable<int> states) { | |
|
145 | return new [] { new HashSet<int>(states) }; | |
|
146 | } | |
|
147 | ||
|
148 | protected void Optimize( | |
|
149 | IDFATableBuilder optimalDFA, | |
|
150 | IDictionary<int,int> alphabetMap, | |
|
151 | IDictionary<int,int> stateMap | |
|
152 | ) { | |
|
153 | Safe.ArgumentNotNull(optimalDFA, "dfa"); | |
|
154 | Safe.ArgumentNotNull(alphabetMap, "alphabetMap"); | |
|
155 | Safe.ArgumentNotNull(stateMap, "stateMap"); | |
|
156 | ||
|
157 | ||
|
158 | var setComparer = new CustomEqualityComparer<HashSet<int>>( | |
|
159 | (x, y) => x.SetEquals(y), | |
|
160 | s => s.Sum(x => x.GetHashCode()) | |
|
161 | ); | |
|
162 | ||
|
163 | var optimalStates = new HashSet<HashSet<int>>(setComparer); | |
|
164 | var queue = new HashSet<HashSet<int>>(setComparer); | |
|
165 | ||
|
166 | optimalStates.Add(new HashSet<int>(FinalStates)); | |
|
167 | ||
|
168 | var state = new HashSet<int>( | |
|
169 | Enumerable | |
|
170 | .Range(0, m_stateCount) | |
|
171 | .Where(i => !m_finalStates.Contains(i)) | |
|
172 | ); | |
|
173 | ||
|
174 | optimalStates.Add(state); | |
|
175 | queue.Add(state); | |
|
176 | ||
|
177 | var rmap = m_transitions | |
|
178 | .GroupBy(t => t.s2) | |
|
179 | .ToDictionary( | |
|
180 | g => g.Key, // s2 | |
|
181 | g => g.ToLookup(t => t.edge, t => t.s1)//.ToDictionary(p => p.Key) | |
|
182 | ); | |
|
183 | ||
|
184 | while (queue.Count > 0) { | |
|
185 | var stateA = queue.First(); | |
|
186 | queue.Remove(stateA); | |
|
187 | ||
|
188 | for (int c = 0; c < m_symbolCount; c++) { | |
|
189 | var stateX = new HashSet<int>(); | |
|
190 | foreach(var a in stateA.Where(rmap.ContainsKey)) | |
|
191 | stateX.UnionWith(rmap[a][c]); // all states from wich the symbol 'c' leads to the state 'a' | |
|
192 | ||
|
193 | var tmp = optimalStates.ToArray(); | |
|
194 | foreach (var stateY in tmp) { | |
|
195 | var stateR1 = new HashSet<int>(stateY); | |
|
196 | var stateR2 = new HashSet<int>(stateY); | |
|
197 | ||
|
198 | stateR1.IntersectWith(stateX); | |
|
199 | stateR2.ExceptWith(stateX); | |
|
200 | ||
|
201 | if (stateR1.Count > 0 && stateR2.Count > 0) { | |
|
202 | ||
|
203 | ||
|
204 | optimalStates.Remove(stateY); | |
|
205 | optimalStates.Add(stateR1); | |
|
206 | optimalStates.Add(stateR2); | |
|
207 | ||
|
208 | if (queue.Contains(stateY)) { | |
|
209 | queue.Remove(stateY); | |
|
210 | queue.Add(stateR1); | |
|
211 | queue.Add(stateR2); | |
|
212 | } else { | |
|
213 | queue.Add(stateR1.Count <= stateR2.Count ? stateR1 : stateR2); | |
|
214 | } | |
|
215 | } | |
|
216 | } | |
|
217 | } | |
|
218 | } | |
|
219 | ||
|
220 | // дополнительно разбиваем конечные состояния | |
|
221 | foreach (var final in optimalStates.Where(s => s.Overlaps(m_finalStates)).ToArray()) { | |
|
222 | optimalStates.Remove(final); | |
|
223 | foreach (var split in SplitFinalStates(final)) | |
|
224 | optimalStates.Add(split); | |
|
225 | } | |
|
226 | ||
|
227 | ||
|
228 | // карта получения оптимального состояния по соотвествующему ему простому состоянию | |
|
229 | var nextState = 0; | |
|
230 | foreach (var item in optimalStates) { | |
|
231 | var id = nextState++; | |
|
232 | foreach (var s in item) | |
|
233 | stateMap[s] = id; | |
|
234 | } | |
|
235 | ||
|
236 | // получаем минимальный алфавит | |
|
237 | // входные символы не различимы, если Move(s,a1) == Move(s,a2), для любого s | |
|
238 | // для этого используем алгоритм кластеризации, сначала | |
|
239 | // считаем, что все символы не различимы | |
|
240 | ||
|
241 | var minClasses = new HashSet<HashSet<int>>(setComparer); | |
|
242 | var alphaQueue = new Queue<HashSet<int>>(); | |
|
243 | alphaQueue.Enqueue(new HashSet<int>(Enumerable.Range(0,AlphabetSize))); | |
|
244 | ||
|
245 | // для всех состояний, будем проверять каждый класс на различимость, | |
|
246 | // т.е. символы различимы, если они приводят к разным состояниям | |
|
247 | for (int s = 0 ; s < optimalStates.Count; s++) { | |
|
248 | var newQueue = new Queue<HashSet<int>>(); | |
|
249 | ||
|
250 | foreach (var A in alphaQueue) { | |
|
251 | // классы из одного символа делить бесполезно, переводим их сразу в | |
|
252 | // результирующий алфавит | |
|
253 | if (A.Count == 1) { | |
|
254 | minClasses.Add(A); | |
|
255 | continue; | |
|
256 | } | |
|
257 | ||
|
258 | // различаем классы символов, которые переводят в различные оптимальные состояния | |
|
259 | // optimalState -> alphaClass | |
|
260 | var classes = new Dictionary<int, HashSet<int>>(); | |
|
261 | ||
|
262 | foreach (var term in A) { | |
|
263 | // ищем все переходы класса по символу term | |
|
264 | var s2 = m_transitions.Where(t => stateMap[t.s1] == s && t.edge == term).Select(t => stateMap[t.s2]).DefaultIfEmpty(-1).First(); | |
|
265 | ||
|
266 | HashSet<int> a2; | |
|
267 | if (!classes.TryGetValue(s2, out a2)) { | |
|
268 | a2 = new HashSet<int>(); | |
|
269 | newQueue.Enqueue(a2); | |
|
270 | classes[s2] = a2; | |
|
271 | } | |
|
272 | a2.Add(term); | |
|
273 | } | |
|
274 | } | |
|
275 | ||
|
276 | if (newQueue.Count == 0) | |
|
277 | break; | |
|
278 | alphaQueue = newQueue; | |
|
279 | } | |
|
280 | ||
|
281 | // после окончания работы алгоритма в очереди останутся минимальные различимые классы | |
|
282 | // входных символов | |
|
283 | foreach (var A in alphaQueue) | |
|
284 | minClasses.Add(A); | |
|
285 | ||
|
286 | // построение отображения алфавитов входных символов. | |
|
287 | // поскольку символ DFAConst.UNCLASSIFIED_INPUT может иметь | |
|
288 | // специальное значение, тогда сохраним минимальный класс, | |
|
289 | // содержащий этот символ на томже месте. | |
|
290 | ||
|
291 | var nextCls = 0; | |
|
292 | foreach (var item in minClasses) { | |
|
293 | if (nextCls == AutomatonConst.UNCLASSIFIED_INPUT) | |
|
294 | nextCls++; | |
|
295 | ||
|
296 | // сохраняем DFAConst.UNCLASSIFIED_INPUT | |
|
297 | var cls = item.Contains(AutomatonConst.UNCLASSIFIED_INPUT) ? AutomatonConst.UNCLASSIFIED_INPUT : nextCls++; | |
|
298 | optimalDFA.AddSymbol(cls); | |
|
299 | ||
|
300 | foreach (var a in item) | |
|
301 | alphabetMap[a] = cls; | |
|
302 | } | |
|
303 | ||
|
304 | // построение автомата | |
|
305 | optimalDFA.SetInitialState(stateMap[m_initialState]); | |
|
306 | ||
|
307 | foreach (var sf in m_finalStates.Select(s => stateMap[s]).Distinct()) | |
|
308 | optimalDFA.MarkFinalState(sf); | |
|
309 | ||
|
310 | foreach (var t in m_transitions.Select(t => new AutomatonTransition(stateMap[t.s1],stateMap[t.s2],alphabetMap[t.edge])).Distinct()) | |
|
311 | optimalDFA.Add(t); | |
|
312 | } | |
|
313 | ||
|
314 | protected string PrintDFA<TInput, TState>(IAlphabet<TInput> inputAlphabet, IAlphabet<TState> stateAlphabet) { | |
|
315 | Safe.ArgumentNotNull(inputAlphabet, "inputAlphabet"); | |
|
316 | Safe.ArgumentNotNull(stateAlphabet, "stateAlphabet"); | |
|
317 | ||
|
318 | var data = new List<string>(); | |
|
319 | ||
|
320 | data.Add("digraph dfa {"); | |
|
321 | ||
|
322 | foreach (var final in m_finalStates) | |
|
323 | data.Add(String.Format("{0} [shape=box];",String.Join("", stateAlphabet.GetSymbols(final)))); | |
|
324 | ||
|
325 | foreach (var t in m_transitions) | |
|
326 | data.Add(String.Format( | |
|
327 | "{0} -> {2} [label={1}];", | |
|
328 | String.Join("", stateAlphabet.GetSymbols(t.s1)), | |
|
329 | ToLiteral(ToLiteral(String.Join("", t.edge == AutomatonConst.UNCLASSIFIED_INPUT ? new [] { "@" } : inputAlphabet.GetSymbols(t.edge).Select(x => x.ToString())))), | |
|
330 | String.Join("", stateAlphabet.GetSymbols(t.s2)) | |
|
331 | )); | |
|
332 | data.Add("}"); | |
|
333 | return String.Join("\n", data); | |
|
334 | } | |
|
335 | ||
|
336 | static string ToLiteral(string input) | |
|
337 | { | |
|
338 | using (var writer = new StringWriter()) | |
|
339 | { | |
|
340 | using (var provider = CodeDomProvider.CreateProvider("CSharp")) | |
|
341 | { | |
|
342 | provider.GenerateCodeFromExpression(new CodePrimitiveExpression(input), writer, null); | |
|
343 | return writer.ToString(); | |
|
344 | } | |
|
345 | } | |
|
346 | } | |
|
347 | } | |
|
348 | } |
@@ -0,0 +1,66 | |||
|
1 | using System; | |
|
2 | using System.Collections.Generic; | |
|
3 | using System.Diagnostics; | |
|
4 | using System.Globalization; | |
|
5 | using System.Linq; | |
|
6 | using System.Diagnostics.CodeAnalysis; | |
|
7 | ||
|
8 | namespace Implab.Automaton { | |
|
9 | /// <summary> | |
|
10 | /// Алфавит символами которого являются элементы перечислений. | |
|
11 | /// </summary> | |
|
12 | /// <typeparam name="T">Тип перечислений</typeparam> | |
|
13 | public class EnumAlphabet<T> : IndexedAlphabetBase<T> where T : struct, IConvertible { | |
|
14 | [SuppressMessage("Microsoft.Design", "CA1000:DoNotDeclareStaticMembersOnGenericTypes")] | |
|
15 | static readonly Lazy<T[]> _symbols = new Lazy<T[]>(GetSymbols); | |
|
16 | ||
|
17 | [SuppressMessage("Microsoft.Design", "CA1000:DoNotDeclareStaticMembersOnGenericTypes")] | |
|
18 | static readonly Lazy<EnumAlphabet<T>> _fullAlphabet = new Lazy<EnumAlphabet<T>>(CreateEnumAlphabet); | |
|
19 | ||
|
20 | static EnumAlphabet<T> CreateEnumAlphabet() { | |
|
21 | var symbols = _symbols.Value; | |
|
22 | ||
|
23 | if ( | |
|
24 | symbols[symbols.Length - 1].ToInt32(CultureInfo.InvariantCulture) >= symbols.Length | |
|
25 | || symbols[0].ToInt32(CultureInfo.InvariantCulture) != 0 | |
|
26 | ) | |
|
27 | throw new InvalidOperationException("The specified enumeration must be zero-based and continuously numbered"); | |
|
28 | ||
|
29 | return new EnumAlphabet<T>(symbols.Select(x => x.ToInt32(CultureInfo.InvariantCulture)).ToArray()); | |
|
30 | } | |
|
31 | ||
|
32 | static T[] GetSymbols() { | |
|
33 | if (!typeof(T).IsEnum) | |
|
34 | throw new InvalidOperationException("Invalid generic parameter, enumeration is required"); | |
|
35 | ||
|
36 | if (Enum.GetUnderlyingType(typeof(T)) != typeof(Int32)) | |
|
37 | throw new InvalidOperationException("Only enums based on Int32 are supported"); | |
|
38 | ||
|
39 | return ((T[])Enum.GetValues(typeof(T))) | |
|
40 | .OrderBy(x => x.ToInt32(CultureInfo.InvariantCulture)) | |
|
41 | .ToArray(); | |
|
42 | } | |
|
43 | ||
|
44 | public static EnumAlphabet<T> FullAlphabet { | |
|
45 | get { | |
|
46 | return _fullAlphabet.Value; | |
|
47 | } | |
|
48 | } | |
|
49 | ||
|
50 | ||
|
51 | public EnumAlphabet() | |
|
52 | : base(_symbols.Value.Length) { | |
|
53 | } | |
|
54 | ||
|
55 | public EnumAlphabet(int[] map) | |
|
56 | : base(map) { | |
|
57 | Debug.Assert(map.Length == _symbols.Value.Length); | |
|
58 | } | |
|
59 | ||
|
60 | ||
|
61 | public override int GetSymbolIndex(T symbol) { | |
|
62 | return symbol.ToInt32(CultureInfo.InvariantCulture); | |
|
63 | } | |
|
64 | ||
|
65 | } | |
|
66 | } |
@@ -0,0 +1,34 | |||
|
1 | using System; | |
|
2 | using System.Collections.Generic; | |
|
3 | using System.Linq; | |
|
4 | using System.Text; | |
|
5 | using System.Threading.Tasks; | |
|
6 | ||
|
7 | namespace Implab.Automaton { | |
|
8 | /// <summary> | |
|
9 | /// Алфавит. Множество символов, которые разбиты на классы, при этом классы имеют непрерывную нумерацию, | |
|
10 | /// что позволяет использовать их в качестве индексов массивов. | |
|
11 | /// </summary> | |
|
12 | /// <remarks> | |
|
13 | /// <para>Алфавит является сюрьективным отображением множества символов в множество индексов, это позволяет сократить размер таблицы переходов автомата | |
|
14 | /// для входных символов, которые для него не различимы.</para> | |
|
15 | /// </remarks> | |
|
16 | /// <typeparam name="TSymbol">Тип символов.</typeparam> | |
|
17 | public interface IAlphabet<TSymbol> { | |
|
18 | /// <summary> | |
|
19 | /// Количество классов символов в алфавите. | |
|
20 | /// </summary> | |
|
21 | int Count { get; } | |
|
22 | ||
|
23 | /// <summary> | |
|
24 | /// Преобразует входной символ в индекс символа из алфавита. | |
|
25 | /// </summary> | |
|
26 | /// <param name="symobl">Исходный символ</param> | |
|
27 | /// <returns>Индекс в алфавите</returns> | |
|
28 | int Translate(TSymbol symobl); | |
|
29 | ||
|
30 | bool Contains(TSymbol symbol); | |
|
31 | ||
|
32 | IEnumerable<TSymbol> GetSymbols(int cls); | |
|
33 | } | |
|
34 | } |
@@ -0,0 +1,26 | |||
|
1 | ||
|
2 | using System.Collections.Generic; | |
|
3 | ||
|
4 | namespace Implab.Automaton { | |
|
5 | public interface IAlphabetBuilder<TSymbol> : IAlphabet<TSymbol> { | |
|
6 | /// <summary> | |
|
7 | /// Добавляет новый символ в алфавит, если символ уже был добавлен, то | |
|
8 | /// возвращается ранее сопоставленный с символом класс. | |
|
9 | /// </summary> | |
|
10 | /// <param name="symbol">Символ для добавления.</param> | |
|
11 | /// <returns>Индекс класса, который попоставлен с символом.</returns> | |
|
12 | int DefineSymbol(TSymbol symbol); | |
|
13 | ||
|
14 | int DefineSymbol(TSymbol symbol, int cls); | |
|
15 | /// <summary> | |
|
16 | /// Доабвляем класс символов. Множеству указанных исходных символов | |
|
17 | /// будет сопоставлен символ в алфавите. | |
|
18 | /// </summary> | |
|
19 | /// <param name="symbols">Множестов исходных символов</param> | |
|
20 | /// <returns>Идентификатор символа алфавита.</returns> | |
|
21 | int DefineClass(IEnumerable<TSymbol> symbols); | |
|
22 | ||
|
23 | int DefineClass(IEnumerable<TSymbol> symbols, int cls); | |
|
24 | } | |
|
25 | } | |
|
26 |
@@ -0,0 +1,53 | |||
|
1 | using System.Collections.Generic; | |
|
2 | ||
|
3 | ||
|
4 | namespace Implab.Automaton { | |
|
5 | /// <summary> | |
|
6 | /// Полностью описывает DFA автомат, его поведение, состояние и входные символы. | |
|
7 | /// </summary> | |
|
8 | /// <example> | |
|
9 | /// class MyAutomaton { | |
|
10 | /// int m_current; | |
|
11 | /// readonly DFAStateDescriptor<string>[] m_automaton; | |
|
12 | /// readonly IAlphabet<MyCommands> m_commands; | |
|
13 | /// | |
|
14 | /// public MyAutomaton(IDFADefinition<MyCommands,MyStates,string> definition) { | |
|
15 | /// m_current = definition.StateAlphabet.Translate(MyStates.Initial); | |
|
16 | /// m_automaton = definition.GetTransitionTable(); | |
|
17 | /// m_commands = definition.InputAlphabet; | |
|
18 | /// } | |
|
19 | /// | |
|
20 | /// // defined a method which will move the automaton to the next state | |
|
21 | /// public void Move(MyCommands cmd) { | |
|
22 | /// // use transition map to determine the next state | |
|
23 | /// var next = m_automaton[m_current].transitions[m_commands.Translate(cmd)]; | |
|
24 | /// | |
|
25 | /// // validate that we aren't in the unreachable state | |
|
26 | /// if (next == DFAConst.UNREACHABLE_STATE) | |
|
27 | /// throw new InvalidOperationException("The specified command is invalid"); | |
|
28 | /// | |
|
29 | /// // if everything is ok | |
|
30 | /// m_current = next; | |
|
31 | /// } | |
|
32 | /// } | |
|
33 | /// </example> | |
|
34 | public interface IDFATable : IEnumerable<AutomatonTransition> { | |
|
35 | int StateCount { | |
|
36 | get; | |
|
37 | } | |
|
38 | ||
|
39 | int AlphabetSize { | |
|
40 | get; | |
|
41 | } | |
|
42 | ||
|
43 | int InitialState { | |
|
44 | get; | |
|
45 | } | |
|
46 | ||
|
47 | bool IsFinalState(int s); | |
|
48 | ||
|
49 | IEnumerable<int> FinalStates { | |
|
50 | get; | |
|
51 | } | |
|
52 | } | |
|
53 | } |
@@ -0,0 +1,26 | |||
|
1 | using System; | |
|
2 | using System.Collections.Generic; | |
|
3 | ||
|
4 | namespace Implab.Automaton { | |
|
5 | public interface IDFATableBuilder : IDFATable, ICollection<AutomatonTransition> { | |
|
6 | /// <summary> | |
|
7 | /// Marks the state as final. | |
|
8 | /// </summary> | |
|
9 | /// <param name="state">State.</param> | |
|
10 | void MarkFinalState(int state); | |
|
11 | ||
|
12 | void SetInitialState(int s); | |
|
13 | ||
|
14 | /// <summary> | |
|
15 | /// Increases if needed the input alphabet size to hold the specified symbol. | |
|
16 | /// </summary> | |
|
17 | /// <remarks> | |
|
18 | /// <code> | |
|
19 | /// AlphabetSize = Math.Max(AlphabetSize, symbol + 1) | |
|
20 | /// </code> | |
|
21 | /// </remarks> | |
|
22 | /// <param name="symbol">Symbol.</param> | |
|
23 | void AddSymbol(int symbol); | |
|
24 | } | |
|
25 | } | |
|
26 |
@@ -0,0 +1,50 | |||
|
1 | using Implab; | |
|
2 | using System; | |
|
3 | using System.Collections.Generic; | |
|
4 | using System.Diagnostics; | |
|
5 | using System.Linq; | |
|
6 | ||
|
7 | namespace Implab.Automaton { | |
|
8 | /// <summary> | |
|
9 | /// Indexed alphabet is the finite set of symbols where each symbol has a zero-based unique index. | |
|
10 | /// </summary> | |
|
11 | /// <remarks> | |
|
12 | /// Indexed alphabets are usefull in bulting efficient translations from source alphabet | |
|
13 | /// to the input alphabet of the automaton. It's assumed that the index to the symbol match | |
|
14 | /// is well known and documented. | |
|
15 | /// </remarks> | |
|
16 | public abstract class IndexedAlphabetBase<T> : MapAlphabet<T> { | |
|
17 | ||
|
18 | protected IndexedAlphabetBase() :base(true, null) { | |
|
19 | } | |
|
20 | ||
|
21 | public abstract int GetSymbolIndex(T symbol); | |
|
22 | ||
|
23 | /// <summary> | |
|
24 | /// Gets the translation map from the index of the symbol to it's class this is usefull for the optimized input symbols transtaion. | |
|
25 | /// </summary> | |
|
26 | /// <remarks> | |
|
27 | /// The map is continous and start from the symbol with zero code. The last symbol | |
|
28 | /// in the map is the last classified symbol in the alphabet, i.e. the map can be | |
|
29 | /// shorter then the whole alphabet. | |
|
30 | /// </remarks> | |
|
31 | /// <returns>The translation map.</returns> | |
|
32 | public int[] GetTranslationMap() { | |
|
33 | var map = new Dictionary<int, int>(); | |
|
34 | ||
|
35 | int max = 0; | |
|
36 | foreach (var p in Mappings) { | |
|
37 | var index = GetSymbolIndex(p.Key); | |
|
38 | max = Math.Max(max, index); | |
|
39 | map[index] = p.Value; | |
|
40 | } | |
|
41 | ||
|
42 | var result = new int[max + 1]; | |
|
43 | ||
|
44 | for (int i = 0; i < result.Length; i++) | |
|
45 | map.TryGetValue(i, out result[i]); | |
|
46 | ||
|
47 | return result; | |
|
48 | } | |
|
49 | } | |
|
50 | } |
@@ -0,0 +1,84 | |||
|
1 | using System; | |
|
2 | using System.Collections.Generic; | |
|
3 | using System.Linq; | |
|
4 | ||
|
5 | namespace Implab.Automaton { | |
|
6 | public class MapAlphabet<T> : IAlphabetBuilder<T> { | |
|
7 | readonly Dictionary<T,int> m_map; | |
|
8 | int m_nextCls; | |
|
9 | readonly bool m_supportUnclassified; | |
|
10 | ||
|
11 | public MapAlphabet(bool supportUnclassified, IEqualityComparer<T> comparer) { | |
|
12 | m_map = comparer != null ? new Dictionary<T, int>(comparer) : new Dictionary<T,int>(); | |
|
13 | m_supportUnclassified = supportUnclassified; | |
|
14 | m_nextCls = supportUnclassified ? 1 : 0; | |
|
15 | } | |
|
16 | ||
|
17 | #region IAlphabetBuilder implementation | |
|
18 | ||
|
19 | public int DefineSymbol(T symbol) { | |
|
20 | int cls; | |
|
21 | return m_map.TryGetValue(symbol, out cls) ? cls : DefineSymbol(symbol, m_nextCls); | |
|
22 | } | |
|
23 | ||
|
24 | public int DefineSymbol(T symbol, int cls) { | |
|
25 | Safe.ArgumentAssert(cls >= 0, "cls"); | |
|
26 | ||
|
27 | m_nextCls = Math.Max(cls + 1, m_nextCls); | |
|
28 | m_map.Add(symbol, cls); | |
|
29 | return cls; | |
|
30 | } | |
|
31 | ||
|
32 | public int DefineClass(IEnumerable<T> symbols) { | |
|
33 | return DefineClass(symbols, m_nextCls); | |
|
34 | } | |
|
35 | ||
|
36 | public int DefineClass(IEnumerable<T> symbols, int cls) { | |
|
37 | Safe.ArgumentAssert(cls >= 0, "cls"); | |
|
38 | Safe.ArgumentNotNull(symbols, "symbols"); | |
|
39 | ||
|
40 | m_nextCls = Math.Max(cls + 1, m_nextCls); | |
|
41 | ||
|
42 | foreach (var symbol in symbols) | |
|
43 | m_map[symbol] = cls; | |
|
44 | return cls; | |
|
45 | } | |
|
46 | ||
|
47 | #endregion | |
|
48 | ||
|
49 | #region IAlphabet implementation | |
|
50 | ||
|
51 | public int Translate(T symbol) { | |
|
52 | int cls; | |
|
53 | if (m_map.TryGetValue(symbol, out cls)) | |
|
54 | return cls; | |
|
55 | if (!m_supportUnclassified) | |
|
56 | throw new ArgumentOutOfRangeException("symbol", "The specified symbol isn't in the alphabet"); | |
|
57 | return AutomatonConst.UNCLASSIFIED_INPUT; | |
|
58 | } | |
|
59 | ||
|
60 | public int Count { | |
|
61 | get { | |
|
62 | return m_nextCls; | |
|
63 | } | |
|
64 | } | |
|
65 | ||
|
66 | public bool Contains(T symbol) { | |
|
67 | return m_supportUnclassified || m_map.ContainsKey(symbol); | |
|
68 | } | |
|
69 | ||
|
70 | ||
|
71 | public IEnumerable<T> GetSymbols(int cls) { | |
|
72 | Safe.ArgumentAssert(!m_supportUnclassified || cls > 0, "cls"); | |
|
73 | return m_map.Where(p => p.Value == cls).Select(p => p.Key); | |
|
74 | } | |
|
75 | #endregion | |
|
76 | ||
|
77 | public IEnumerable<KeyValuePair<T,int>> Mappings { | |
|
78 | get { | |
|
79 | return m_map; | |
|
80 | } | |
|
81 | } | |
|
82 | } | |
|
83 | } | |
|
84 |
@@ -0,0 +1,17 | |||
|
1 | using System; | |
|
2 | using System.Collections.Generic; | |
|
3 | using System.Linq; | |
|
4 | using System.Text; | |
|
5 | ||
|
6 | namespace Implab.Automaton { | |
|
7 | [Serializable] | |
|
8 | public class ParserException : Exception { | |
|
9 | public ParserException() { } | |
|
10 | public ParserException(string message) : base(message) { } | |
|
11 | public ParserException(string message, Exception inner) : base(message, inner) { } | |
|
12 | protected ParserException( | |
|
13 | System.Runtime.Serialization.SerializationInfo info, | |
|
14 | System.Runtime.Serialization.StreamingContext context) | |
|
15 | : base(info, context) { } | |
|
16 | } | |
|
17 | } |
@@ -0,0 +1,17 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab.Automaton.RegularExpressions { | |
|
4 | public class AltToken: BinaryToken { | |
|
5 | public AltToken(Token left, Token right) | |
|
6 | : base(left, right) { | |
|
7 | } | |
|
8 | ||
|
9 | public override void Accept(IVisitor visitor) { | |
|
10 | Safe.ArgumentNotNull(visitor, "visitor"); | |
|
11 | visitor.Visit(this); | |
|
12 | } | |
|
13 | public override string ToString() { | |
|
14 | return String.Format(Right is BinaryToken ? "{0}|({1})" : "{0}|{1}", Left, Right); | |
|
15 | } | |
|
16 | } | |
|
17 | } |
@@ -0,0 +1,21 | |||
|
1 | using Implab; | |
|
2 | ||
|
3 | namespace Implab.Automaton.RegularExpressions { | |
|
4 | public abstract class BinaryToken: Token { | |
|
5 | readonly Token m_left; | |
|
6 | readonly Token m_right; | |
|
7 | ||
|
8 | public Token Left { | |
|
9 | get { return m_left; } | |
|
10 | } | |
|
11 | ||
|
12 | public Token Right { | |
|
13 | get { return m_right; } | |
|
14 | } | |
|
15 | ||
|
16 | protected BinaryToken(Token left, Token right) { | |
|
17 | Safe.ArgumentNotNull(m_left = left, "left"); | |
|
18 | Safe.ArgumentNotNull(m_right = right, "right"); | |
|
19 | } | |
|
20 | } | |
|
21 | } |
@@ -0,0 +1,22 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab.Automaton.RegularExpressions { | |
|
4 | public class CatToken : BinaryToken { | |
|
5 | public CatToken(Token left, Token right) | |
|
6 | : base(left, right) { | |
|
7 | } | |
|
8 | ||
|
9 | public override void Accept(IVisitor visitor) { | |
|
10 | Safe.ArgumentNotNull(visitor, "visitor"); | |
|
11 | visitor.Visit(this); | |
|
12 | } | |
|
13 | ||
|
14 | public override string ToString() { | |
|
15 | return String.Format("{0}{1}", FormatToken(Left), FormatToken(Right)); | |
|
16 | } | |
|
17 | ||
|
18 | static string FormatToken(Token token) { | |
|
19 | return String.Format(token is AltToken ? "({0})" : "{0}", token); | |
|
20 | } | |
|
21 | } | |
|
22 | } |
@@ -0,0 +1,13 | |||
|
1 | using Implab; | |
|
2 | ||
|
3 | namespace Implab.Automaton.RegularExpressions { | |
|
4 | public class EmptyToken: Token { | |
|
5 | public override void Accept(IVisitor visitor) { | |
|
6 | Safe.ArgumentNotNull(visitor, "visitor"); | |
|
7 | visitor.Visit(this); | |
|
8 | } | |
|
9 | public override string ToString() { | |
|
10 | return "$"; | |
|
11 | } | |
|
12 | } | |
|
13 | } |
@@ -0,0 +1,18 | |||
|
1 | using Implab; | |
|
2 | ||
|
3 | namespace Implab.Automaton.RegularExpressions { | |
|
4 | /// <summary> | |
|
5 | /// Конечный символ расширенного регулярного выражения, при построении ДКА | |
|
6 | /// используется для определения конечных состояний. | |
|
7 | /// </summary> | |
|
8 | public class EndToken: Token { | |
|
9 | ||
|
10 | public override void Accept(IVisitor visitor) { | |
|
11 | Safe.ArgumentNotNull(visitor, "visitor"); | |
|
12 | visitor.Visit(this); | |
|
13 | } | |
|
14 | public override string ToString() { | |
|
15 | return "#"; | |
|
16 | } | |
|
17 | } | |
|
18 | } |
@@ -0,0 +1,23 | |||
|
1 | namespace Implab.Automaton.RegularExpressions { | |
|
2 | /// <summary> | |
|
3 | /// Конечный символ расширенного регулярного выражения, при построении ДКА | |
|
4 | /// используется для определения конечных состояний. | |
|
5 | /// </summary> | |
|
6 | public class EndToken<TTag>: EndToken { | |
|
7 | ||
|
8 | readonly TTag m_tag; | |
|
9 | ||
|
10 | public EndToken(TTag tag) { | |
|
11 | m_tag = tag; | |
|
12 | } | |
|
13 | ||
|
14 | public EndToken() | |
|
15 | : this(default(TTag)) { | |
|
16 | } | |
|
17 | ||
|
18 | public TTag Tag { | |
|
19 | get { return m_tag; } | |
|
20 | } | |
|
21 | ||
|
22 | } | |
|
23 | } |
@@ -0,0 +1,7 | |||
|
1 | ||
|
2 | namespace Implab.Automaton.RegularExpressions { | |
|
3 | public interface ITaggedDFABuilder<TTag> : IDFATableBuilder { | |
|
4 | void SetStateTag(int s, TTag[] tags); | |
|
5 | } | |
|
6 | } | |
|
7 |
@@ -0,0 +1,13 | |||
|
1 | namespace Implab.Automaton.RegularExpressions { | |
|
2 | /// <summary> | |
|
3 | /// Интерфейс обходчика синтаксического дерева регулярного выражения | |
|
4 | /// </summary> | |
|
5 | public interface IVisitor { | |
|
6 | void Visit(AltToken token); | |
|
7 | void Visit(StarToken token); | |
|
8 | void Visit(CatToken token); | |
|
9 | void Visit(EmptyToken token); | |
|
10 | void Visit(EndToken token); | |
|
11 | void Visit(SymbolToken token); | |
|
12 | } | |
|
13 | } |
@@ -0,0 +1,91 | |||
|
1 | using System.Collections.Generic; | |
|
2 | using System.Linq; | |
|
3 | ||
|
4 | namespace Implab.Automaton.RegularExpressions { | |
|
5 | public class RegularDFA<TInput, TTag> : DFATable, ITaggedDFABuilder<TTag> { | |
|
6 | ||
|
7 | readonly Dictionary<int,TTag[]> m_tags = new Dictionary<int, TTag[]>(); | |
|
8 | readonly IAlphabet<TInput> m_alphabet; | |
|
9 | ||
|
10 | public RegularDFA(IAlphabet<TInput> alphabet) { | |
|
11 | Safe.ArgumentNotNull(alphabet, "aplhabet"); | |
|
12 | ||
|
13 | m_alphabet = alphabet; | |
|
14 | } | |
|
15 | ||
|
16 | ||
|
17 | public IAlphabet<TInput> InputAlphabet { | |
|
18 | get { | |
|
19 | return m_alphabet; | |
|
20 | } | |
|
21 | } | |
|
22 | ||
|
23 | public void MarkFinalState(int s, TTag[] tags) { | |
|
24 | MarkFinalState(s); | |
|
25 | SetStateTag(s, tags); | |
|
26 | } | |
|
27 | ||
|
28 | public void SetStateTag(int s, TTag[] tags) { | |
|
29 | Safe.ArgumentNotNull(tags, "tags"); | |
|
30 | m_tags[s] = tags; | |
|
31 | } | |
|
32 | ||
|
33 | public TTag[] GetStateTag(int s) { | |
|
34 | TTag[] tags; | |
|
35 | return m_tags.TryGetValue(s, out tags) ? tags : new TTag[0]; | |
|
36 | } | |
|
37 | ||
|
38 | public TTag[][] CreateTagTable() { | |
|
39 | var table = new TTag[StateCount][]; | |
|
40 | ||
|
41 | foreach (var pair in m_tags) | |
|
42 | table[pair.Key] = pair.Value; | |
|
43 | ||
|
44 | return table; | |
|
45 | } | |
|
46 | ||
|
47 | /// <summary> | |
|
48 | /// Optimize the specified alphabet. | |
|
49 | /// </summary> | |
|
50 | /// <param name="alphabet">Пустой алфавит, который будет зполнен в процессе оптимизации.</param> | |
|
51 | public RegularDFA<TInput,TTag> Optimize(IAlphabetBuilder<TInput> alphabet) { | |
|
52 | Safe.ArgumentNotNull(alphabet, "alphabet"); | |
|
53 | ||
|
54 | var dfa = new RegularDFA<TInput, TTag>(alphabet); | |
|
55 | ||
|
56 | var alphaMap = new Dictionary<int,int>(); | |
|
57 | var stateMap = new Dictionary<int,int>(); | |
|
58 | ||
|
59 | Optimize(dfa, alphaMap, stateMap); | |
|
60 | ||
|
61 | // mark tags in the new DFA | |
|
62 | foreach (var g in m_tags.Where(x => x.Key < StateCount).GroupBy(x => stateMap[x.Key], x => x.Value )) | |
|
63 | dfa.SetStateTag(g.Key, g.SelectMany(x => x).ToArray()); | |
|
64 | ||
|
65 | // make the alphabet for the new DFA | |
|
66 | // skip all unclassified symbols | |
|
67 | foreach (var pair in alphaMap.Where(x => x.Value != 0)) | |
|
68 | alphabet.DefineClass(m_alphabet.GetSymbols(pair.Key), pair.Value); | |
|
69 | return dfa; | |
|
70 | } | |
|
71 | ||
|
72 | protected override IEnumerable<HashSet<int>> SplitFinalStates(IEnumerable<int> states) { | |
|
73 | var arrayComparer = new CustomEqualityComparer<TTag[]>( | |
|
74 | (x,y) => x.Length == y.Length && x.All(it => y.Contains(it)), | |
|
75 | x => x.Sum(it => x.GetHashCode()) | |
|
76 | ); | |
|
77 | return states.GroupBy(x => m_tags[x] ?? new TTag[0], arrayComparer).Select(g => new HashSet<int>(g)); | |
|
78 | } | |
|
79 | ||
|
80 | public override string ToString() { | |
|
81 | var states = new MapAlphabet<string>(false, null); | |
|
82 | ||
|
83 | for (int i = 0; i < StateCount; i++) | |
|
84 | states.DefineSymbol(string.Format("s{0}", i), i); | |
|
85 | ||
|
86 | return string.Format("//[RegularDFA {1} x {2}]\n{0}", PrintDFA(InputAlphabet, states),StateCount, AlphabetSize); | |
|
87 | } | |
|
88 | ||
|
89 | } | |
|
90 | } | |
|
91 |
@@ -0,0 +1,212 | |||
|
1 | using Implab; | |
|
2 | using System; | |
|
3 | using System.Collections.Generic; | |
|
4 | using System.Diagnostics; | |
|
5 | using System.Linq; | |
|
6 | ||
|
7 | namespace Implab.Automaton.RegularExpressions { | |
|
8 | /// <summary> | |
|
9 | /// Используется для построения ДКА по регулярному выражению, сначала обходит | |
|
10 | /// регулярное выражение и вычисляет followpos, затем используется метод | |
|
11 | /// <see cref="BuildDFA(IDFADefinition)"/> для построения автомата. | |
|
12 | /// </summary> | |
|
13 | public class RegularExpressionVisitor : IVisitor { | |
|
14 | int m_idx; | |
|
15 | Token m_root; | |
|
16 | HashSet<int> m_firstpos; | |
|
17 | HashSet<int> m_lastpos; | |
|
18 | ||
|
19 | readonly Dictionary<int, HashSet<int>> m_followpos = new Dictionary<int, HashSet<int>>(); | |
|
20 | readonly Dictionary<int, int> m_indexes = new Dictionary<int, int>(); | |
|
21 | readonly HashSet<int> m_ends = new HashSet<int>(); | |
|
22 | ||
|
23 | readonly IDFATableBuilder m_builder; | |
|
24 | readonly IAlphabetBuilder<HashSet<int>> m_states = new MapAlphabet<HashSet<int>>( | |
|
25 | false, | |
|
26 | new CustomEqualityComparer<HashSet<int>>( | |
|
27 | (x, y) => x.SetEquals(y), | |
|
28 | x => x.Sum(n => n.GetHashCode()) | |
|
29 | ) | |
|
30 | ); | |
|
31 | ||
|
32 | public RegularExpressionVisitor(IDFATableBuilder builder) { | |
|
33 | Safe.ArgumentNotNull(builder, "builder"); | |
|
34 | ||
|
35 | m_builder = builder; | |
|
36 | } | |
|
37 | ||
|
38 | HashSet<int> Followpos(int pos) { | |
|
39 | HashSet<int> set; | |
|
40 | return m_followpos.TryGetValue(pos, out set) ? set : m_followpos[pos] = new HashSet<int>(); | |
|
41 | } | |
|
42 | ||
|
43 | bool Nullable(object n) { | |
|
44 | if (n is EmptyToken || n is StarToken) | |
|
45 | return true; | |
|
46 | var altToken = n as AltToken; | |
|
47 | if (altToken != null) | |
|
48 | return Nullable(altToken.Left) || Nullable(altToken.Right); | |
|
49 | var catToken = n as CatToken; | |
|
50 | if (catToken != null) | |
|
51 | return Nullable(catToken.Left) && Nullable(catToken.Right); | |
|
52 | return false; | |
|
53 | } | |
|
54 | ||
|
55 | protected int Index { | |
|
56 | get { return m_idx; } | |
|
57 | } | |
|
58 | ||
|
59 | public void Visit(AltToken token) { | |
|
60 | if (m_root == null) | |
|
61 | m_root = token; | |
|
62 | var firtspos = new HashSet<int>(); | |
|
63 | var lastpos = new HashSet<int>(); | |
|
64 | ||
|
65 | token.Left.Accept(this); | |
|
66 | firtspos.UnionWith(m_firstpos); | |
|
67 | lastpos.UnionWith(m_lastpos); | |
|
68 | ||
|
69 | token.Right.Accept(this); | |
|
70 | firtspos.UnionWith(m_firstpos); | |
|
71 | lastpos.UnionWith(m_lastpos); | |
|
72 | ||
|
73 | m_firstpos = firtspos; | |
|
74 | m_lastpos = lastpos; | |
|
75 | } | |
|
76 | ||
|
77 | public void Visit(StarToken token) { | |
|
78 | if (m_root == null) | |
|
79 | m_root = token; | |
|
80 | token.Token.Accept(this); | |
|
81 | ||
|
82 | foreach (var i in m_lastpos) | |
|
83 | Followpos(i).UnionWith(m_firstpos); | |
|
84 | } | |
|
85 | ||
|
86 | public void Visit(CatToken token) { | |
|
87 | if (m_root == null) | |
|
88 | m_root = token; | |
|
89 | ||
|
90 | var firtspos = new HashSet<int>(); | |
|
91 | var lastpos = new HashSet<int>(); | |
|
92 | token.Left.Accept(this); | |
|
93 | firtspos.UnionWith(m_firstpos); | |
|
94 | var leftLastpos = m_lastpos; | |
|
95 | ||
|
96 | token.Right.Accept(this); | |
|
97 | lastpos.UnionWith(m_lastpos); | |
|
98 | var rightFirstpos = m_firstpos; | |
|
99 | ||
|
100 | if (Nullable(token.Left)) | |
|
101 | firtspos.UnionWith(rightFirstpos); | |
|
102 | ||
|
103 | if (Nullable(token.Right)) | |
|
104 | lastpos.UnionWith(leftLastpos); | |
|
105 | ||
|
106 | m_firstpos = firtspos; | |
|
107 | m_lastpos = lastpos; | |
|
108 | ||
|
109 | foreach (var i in leftLastpos) | |
|
110 | Followpos(i).UnionWith(rightFirstpos); | |
|
111 | ||
|
112 | } | |
|
113 | ||
|
114 | public void Visit(EmptyToken token) { | |
|
115 | if (m_root == null) | |
|
116 | m_root = token; | |
|
117 | } | |
|
118 | ||
|
119 | public void Visit(SymbolToken token) { | |
|
120 | if (m_root == null) | |
|
121 | m_root = token; | |
|
122 | m_idx++; | |
|
123 | m_indexes[m_idx] = token.Value; | |
|
124 | m_firstpos = new HashSet<int>(new[] { m_idx }); | |
|
125 | m_lastpos = new HashSet<int>(new[] { m_idx }); | |
|
126 | } | |
|
127 | ||
|
128 | public virtual void Visit(EndToken token) { | |
|
129 | if (m_root == null) | |
|
130 | m_root = token; | |
|
131 | m_idx++; | |
|
132 | m_indexes[m_idx] = AutomatonConst.UNCLASSIFIED_INPUT; | |
|
133 | m_firstpos = new HashSet<int>(new[] { m_idx }); | |
|
134 | m_lastpos = new HashSet<int>(new[] { m_idx }); | |
|
135 | Followpos(m_idx); | |
|
136 | m_ends.Add(m_idx); | |
|
137 | } | |
|
138 | ||
|
139 | public void BuildDFA() { | |
|
140 | AddState(m_firstpos); | |
|
141 | SetInitialState(m_firstpos); | |
|
142 | ||
|
143 | if(IsFinal(m_firstpos)) | |
|
144 | MarkFinalState(m_firstpos); | |
|
145 | ||
|
146 | var inputMax = m_indexes.Values.Max(); | |
|
147 | var queue = new Queue<HashSet<int>>(); | |
|
148 | ||
|
149 | queue.Enqueue(m_firstpos); | |
|
150 | ||
|
151 | while (queue.Count > 0) { | |
|
152 | var s1 = queue.Dequeue(); | |
|
153 | ||
|
154 | for (int a = 0; a <= inputMax; a++) { | |
|
155 | var s2 = new HashSet<int>(); | |
|
156 | foreach (var p in s1) { | |
|
157 | if (m_indexes[p] == a) { | |
|
158 | s2.UnionWith(Followpos(p)); | |
|
159 | } | |
|
160 | } | |
|
161 | if (s2.Count > 0) { | |
|
162 | if (!HasState(s2)) { | |
|
163 | AddState(s2); | |
|
164 | if (IsFinal(s2)) | |
|
165 | MarkFinalState(s2); | |
|
166 | ||
|
167 | queue.Enqueue(s2); | |
|
168 | } | |
|
169 | ||
|
170 | DefineTransition(s1, s2, a); | |
|
171 | } | |
|
172 | ||
|
173 | } | |
|
174 | } | |
|
175 | } | |
|
176 | ||
|
177 | protected bool HasState(HashSet<int> state) { | |
|
178 | return m_states.Contains(state); | |
|
179 | } | |
|
180 | ||
|
181 | protected void AddState(HashSet<int> state) { | |
|
182 | Debug.Assert(!HasState(state)); | |
|
183 | ||
|
184 | m_states.DefineSymbol(state); | |
|
185 | } | |
|
186 | ||
|
187 | protected int Translate(HashSet<int> state) { | |
|
188 | Debug.Assert(HasState(state)); | |
|
189 | ||
|
190 | return m_states.Translate(state); | |
|
191 | } | |
|
192 | ||
|
193 | protected virtual void SetInitialState(HashSet<int> state) { | |
|
194 | m_builder.SetInitialState(Translate(state)); | |
|
195 | } | |
|
196 | ||
|
197 | protected virtual void MarkFinalState(HashSet<int> state) { | |
|
198 | m_builder.MarkFinalState(Translate(state)); | |
|
199 | } | |
|
200 | ||
|
201 | protected virtual void DefineTransition(HashSet<int> s1, HashSet<int> s2, int ch) { | |
|
202 | ||
|
203 | m_builder.Add(new AutomatonTransition(Translate(s1), Translate(s2), ch)); | |
|
204 | } | |
|
205 | ||
|
206 | bool IsFinal(IEnumerable<int> state) { | |
|
207 | Debug.Assert(state != null); | |
|
208 | return state.Any(m_ends.Contains); | |
|
209 | } | |
|
210 | ||
|
211 | } | |
|
212 | } |
@@ -0,0 +1,37 | |||
|
1 | using Implab; | |
|
2 | using System; | |
|
3 | using System.Collections.Generic; | |
|
4 | using System.Diagnostics; | |
|
5 | using System.Linq; | |
|
6 | ||
|
7 | namespace Implab.Automaton.RegularExpressions { | |
|
8 | /// <summary> | |
|
9 | /// </summary> | |
|
10 | public class RegularExpressionVisitor<TTag> : RegularExpressionVisitor { | |
|
11 | readonly Dictionary<int, TTag> m_tags = new Dictionary<int, TTag>(); | |
|
12 | ||
|
13 | readonly ITaggedDFABuilder<TTag> m_builder; | |
|
14 | ||
|
15 | public RegularExpressionVisitor(ITaggedDFABuilder<TTag> builder) : base(builder) { | |
|
16 | m_builder = builder; | |
|
17 | } | |
|
18 | ||
|
19 | public override void Visit(EndToken token) { | |
|
20 | base.Visit(token); | |
|
21 | var tagged = token as EndToken<TTag>; | |
|
22 | if (tagged != null) | |
|
23 | m_tags.Add(Index, tagged.Tag); | |
|
24 | } | |
|
25 | ||
|
26 | protected override void MarkFinalState(HashSet<int> state) { | |
|
27 | base.MarkFinalState(state); | |
|
28 | m_builder.SetStateTag(Translate(state), GetStateTags(state)); | |
|
29 | } | |
|
30 | ||
|
31 | TTag[] GetStateTags(IEnumerable<int> state) { | |
|
32 | Debug.Assert(state != null); | |
|
33 | return state.Where(m_tags.ContainsKey).Select(pos => m_tags[pos]).ToArray(); | |
|
34 | } | |
|
35 | ||
|
36 | } | |
|
37 | } |
@@ -0,0 +1,31 | |||
|
1 | using Implab; | |
|
2 | using System; | |
|
3 | ||
|
4 | ||
|
5 | namespace Implab.Automaton.RegularExpressions { | |
|
6 | /// <summary> | |
|
7 | /// Замыкание выражения с 0 и более повторов. | |
|
8 | /// </summary> | |
|
9 | public class StarToken: Token { | |
|
10 | ||
|
11 | Token m_token; | |
|
12 | ||
|
13 | public Token Token { | |
|
14 | get { return m_token; } | |
|
15 | } | |
|
16 | ||
|
17 | public StarToken(Token token) { | |
|
18 | Safe.ArgumentNotNull(token, "token"); | |
|
19 | m_token = token; | |
|
20 | } | |
|
21 | ||
|
22 | public override void Accept(IVisitor visitor) { | |
|
23 | Safe.ArgumentNotNull(visitor, "visitor"); | |
|
24 | visitor.Visit(this); | |
|
25 | } | |
|
26 | ||
|
27 | public override string ToString() { | |
|
28 | return String.Format("({0})*", Token); | |
|
29 | } | |
|
30 | } | |
|
31 | } |
@@ -0,0 +1,27 | |||
|
1 | using Implab; | |
|
2 | ||
|
3 | namespace Implab.Automaton.RegularExpressions { | |
|
4 | /// <summary> | |
|
5 | /// Выражение, соответсвующее одному символу. | |
|
6 | /// </summary> | |
|
7 | public class SymbolToken: Token { | |
|
8 | int m_value; | |
|
9 | ||
|
10 | public int Value { | |
|
11 | get { return m_value; } | |
|
12 | } | |
|
13 | ||
|
14 | public SymbolToken(int value) { | |
|
15 | m_value = value; | |
|
16 | } | |
|
17 | public override void Accept(IVisitor visitor) { | |
|
18 | Safe.ArgumentNotNull(visitor, "visitor"); | |
|
19 | ||
|
20 | visitor.Visit(this); | |
|
21 | } | |
|
22 | ||
|
23 | public override string ToString() { | |
|
24 | return Value.ToString(); | |
|
25 | } | |
|
26 | } | |
|
27 | } |
@@ -0,0 +1,63 | |||
|
1 | using Implab; | |
|
2 | using System; | |
|
3 | using System.Linq; | |
|
4 | ||
|
5 | namespace Implab.Automaton.RegularExpressions { | |
|
6 | public abstract class Token { | |
|
7 | public abstract void Accept(IVisitor visitor); | |
|
8 | ||
|
9 | public Token End() { | |
|
10 | return Cat(new EndToken()); | |
|
11 | } | |
|
12 | ||
|
13 | public Token Tag<TTag>(TTag tag) { | |
|
14 | return Cat(new EndToken<TTag>(tag)); | |
|
15 | } | |
|
16 | ||
|
17 | public Token Cat(Token right) { | |
|
18 | return new CatToken(this, right); | |
|
19 | } | |
|
20 | ||
|
21 | public Token Or(Token right) { | |
|
22 | return new AltToken(this, right); | |
|
23 | } | |
|
24 | ||
|
25 | public Token Optional() { | |
|
26 | return Or(new EmptyToken()); | |
|
27 | } | |
|
28 | ||
|
29 | public Token EClosure() { | |
|
30 | return new StarToken(this); | |
|
31 | } | |
|
32 | ||
|
33 | public Token Closure() { | |
|
34 | return Cat(new StarToken(this)); | |
|
35 | } | |
|
36 | ||
|
37 | public Token Repeat(int count) { | |
|
38 | Token token = null; | |
|
39 | ||
|
40 | for (int i = 0; i < count; i++) | |
|
41 | token = token != null ? token.Cat(this) : this; | |
|
42 | return token ?? new EmptyToken(); | |
|
43 | } | |
|
44 | ||
|
45 | public Token Repeat(int min, int max) { | |
|
46 | if (min > max || min < 1) | |
|
47 | throw new ArgumentOutOfRangeException(); | |
|
48 | var token = Repeat(min); | |
|
49 | ||
|
50 | for (int i = min; i < max; i++) | |
|
51 | token = token.Cat( Optional() ); | |
|
52 | return token; | |
|
53 | } | |
|
54 | ||
|
55 | public static Token New(params int[] set) { | |
|
56 | Safe.ArgumentNotNull(set, "set"); | |
|
57 | Token token = null; | |
|
58 | foreach(var c in set.Distinct()) | |
|
59 | token = token == null ? new SymbolToken(c) : token.Or(new SymbolToken(c)); | |
|
60 | return token; | |
|
61 | } | |
|
62 | } | |
|
63 | } |
@@ -0,0 +1,25 | |||
|
1 | using System; | |
|
2 | using System.Collections.Generic; | |
|
3 | ||
|
4 | namespace Implab.Components { | |
|
5 | /// <summary> | |
|
6 | /// Global application components and services. | |
|
7 | /// </summary> | |
|
8 | public static class App { | |
|
9 | readonly static ComponentContainer<object> _root = new ComponentContainer<object>(); | |
|
10 | ||
|
11 | /// <summary> | |
|
12 | /// The container for application level components. | |
|
13 | /// </summary> | |
|
14 | /// <remarks>Pools of disposable objects can be placed here and they will be automatically | |
|
15 | /// disposed when application domain is unloaded.</remarks> | |
|
16 | public static ICollection<object> RootContainer { | |
|
17 | get { return _root; } | |
|
18 | } | |
|
19 | ||
|
20 | static App() { | |
|
21 | AppDomain.CurrentDomain.DomainUnload += (sender, e) => _root.Dispose(); | |
|
22 | } | |
|
23 | } | |
|
24 | } | |
|
25 |
@@ -0,0 +1,127 | |||
|
1 | using System; | |
|
2 | using System.Collections.Generic; | |
|
3 | using System.Linq; | |
|
4 | ||
|
5 | namespace Implab.Components { | |
|
6 | /// <summary> | |
|
7 | /// Component container, used to store track components in multi-threaded environmment. | |
|
8 | /// </summary> | |
|
9 | /// <remarks>Instanses of this class are thread safe.</remarks> | |
|
10 | public class ComponentContainer<T> : Disposable, ICollection<T> { | |
|
11 | readonly HashSet<T> m_components = new HashSet<T>(); | |
|
12 | ||
|
13 | /// <summary> | |
|
14 | /// Removes currently stored compoenents from the container and disposes them if possible. | |
|
15 | /// </summary> | |
|
16 | /// <remarks> | |
|
17 | /// A new components may be added before this method completes. | |
|
18 | /// </remarks> | |
|
19 | public void Clear() { | |
|
20 | T[] removed; | |
|
21 | ||
|
22 | lock (m_components) { | |
|
23 | removed = new T[m_components.Count]; | |
|
24 | m_components.CopyTo(removed); | |
|
25 | m_components.Clear(); | |
|
26 | } | |
|
27 | ||
|
28 | foreach (var item in removed.OfType<IDisposable>()) | |
|
29 | item.Dispose(); | |
|
30 | } | |
|
31 | ||
|
32 | /// <summary> | |
|
33 | /// Checks whether the specified item in the collection. | |
|
34 | /// </summary> | |
|
35 | /// <param name="item">The item to check.</param> | |
|
36 | public bool Contains(T item) { | |
|
37 | lock (m_components) | |
|
38 | return m_components.Contains(item); | |
|
39 | } | |
|
40 | ||
|
41 | /// <summary> | |
|
42 | /// Copies currently stored components to the specified array. | |
|
43 | /// </summary> | |
|
44 | /// <param name="array">A destination array for components.</param> | |
|
45 | /// <param name="arrayIndex">A starting index in the destination array.</param> | |
|
46 | public void CopyTo(T[] array, int arrayIndex) { | |
|
47 | lock (m_components) | |
|
48 | m_components.CopyTo(array, arrayIndex); | |
|
49 | } | |
|
50 | ||
|
51 | /// <summary> | |
|
52 | /// Remove the specified item from the collection. | |
|
53 | /// </summary> | |
|
54 | /// <param name="item">The item to remove.</param> | |
|
55 | public bool Remove(T item) { | |
|
56 | lock (m_components) | |
|
57 | return m_components.Remove(item); | |
|
58 | } | |
|
59 | ||
|
60 | /// <summary> | |
|
61 | /// Gets the count of components in the collection. | |
|
62 | /// </summary> | |
|
63 | public int Count { | |
|
64 | get { | |
|
65 | lock (m_components) | |
|
66 | return m_components.Count; | |
|
67 | } | |
|
68 | } | |
|
69 | ||
|
70 | /// <summary> | |
|
71 | /// Gets a value indicating whether this instance is read only. | |
|
72 | /// </summary> | |
|
73 | /// <remarks> | |
|
74 | /// Always false. | |
|
75 | /// </remarks> | |
|
76 | public bool IsReadOnly { | |
|
77 | get { | |
|
78 | return false; | |
|
79 | } | |
|
80 | } | |
|
81 | ||
|
82 | /// <summary> | |
|
83 | /// Gets the enumerator for components in the collection. | |
|
84 | /// </summary> | |
|
85 | /// <returns>The enumerator.</returns> | |
|
86 | public IEnumerator<T> GetEnumerator() { | |
|
87 | T[] items; | |
|
88 | lock (m_components) { | |
|
89 | items = new T[m_components.Count]; | |
|
90 | m_components.CopyTo(items); | |
|
91 | return (IEnumerator<T>)items.GetEnumerator(); | |
|
92 | } | |
|
93 | } | |
|
94 | ||
|
95 | System.Collections.IEnumerator System.Collections.IEnumerable.GetEnumerator() { | |
|
96 | return GetEnumerator(); | |
|
97 | } | |
|
98 | ||
|
99 | /// <summary> | |
|
100 | /// Add the specified item to the collection. | |
|
101 | /// </summary> | |
|
102 | /// <param name="item">The item to add.</param> | |
|
103 | /// <remarks> | |
|
104 | /// If the collection is alredy disposed, the item isn't added to the collection and disposed if possible. | |
|
105 | /// </remarks> | |
|
106 | public void Add(T item) { | |
|
107 | Safe.ArgumentNotNull(item, "item"); | |
|
108 | ||
|
109 | lock (m_components) { | |
|
110 | if (IsDisposed) | |
|
111 | Safe.Dispose(item); | |
|
112 | else | |
|
113 | m_components.Add(item); | |
|
114 | } | |
|
115 | } | |
|
116 | ||
|
117 | /// <summary> | |
|
118 | /// Disposes the components stored in the collection. | |
|
119 | /// </summary> | |
|
120 | /// <param name="disposing">If set to <c>true</c> the collection is disposing.</param> | |
|
121 | protected override void Dispose(bool disposing) { | |
|
122 | base.Dispose(disposing); | |
|
123 | Clear(); | |
|
124 | } | |
|
125 | } | |
|
126 | } | |
|
127 |
@@ -0,0 +1,103 | |||
|
1 | using Implab.Diagnostics; | |
|
2 | using System; | |
|
3 | using System.Threading; | |
|
4 | ||
|
5 | namespace Implab.Components { | |
|
6 | /// <summary> | |
|
7 | /// Base class the objects which support disposing. | |
|
8 | /// </summary> | |
|
9 | public class Disposable : IDisposable { | |
|
10 | ||
|
11 | int m_disposed; | |
|
12 | ||
|
13 | public event EventHandler Disposed; | |
|
14 | ||
|
15 | public bool IsDisposed { | |
|
16 | get { | |
|
17 | Thread.MemoryBarrier(); | |
|
18 | return m_disposed != 0; | |
|
19 | } | |
|
20 | } | |
|
21 | ||
|
22 | /// <summary> | |
|
23 | /// Asserts the object is not disposed. | |
|
24 | /// </summary> | |
|
25 | /// <exception cref="ObjectDisposedException">The object is disposed</exception> | |
|
26 | /// <remarks> | |
|
27 | /// Успешная проверка того, что объект не освобожден еще не гарантирует, что он не | |
|
28 | /// будет освобожден сразу после нее, поэтому методы использующие проверку должны | |
|
29 | /// учитывать, что объект может быть освобожден из параллельного потока. | |
|
30 | /// Данны метод служит для упрощения отладки ошибок при использовании объекта после его | |
|
31 | /// освобождения. | |
|
32 | /// </remarks> | |
|
33 | /// <example> | |
|
34 | /// // пример синхронизированного освобождения ресурсов | |
|
35 | /// class FileStore : Disposable { | |
|
36 | /// readonly TextWriter m_file; | |
|
37 | /// readonly obejct m_sync = new object(); | |
|
38 | /// | |
|
39 | /// public FileStore(string file) { | |
|
40 | /// m_file = new TextWriter(File.OpenWrite(file)); | |
|
41 | /// } | |
|
42 | /// | |
|
43 | /// public void Write(string text) { | |
|
44 | /// lock(m_sync) { | |
|
45 | /// AssertNotDisposed(); | |
|
46 | /// m_file.Write(text); | |
|
47 | /// } | |
|
48 | /// } | |
|
49 | /// | |
|
50 | /// protected override void Dispose(bool disposing) { | |
|
51 | /// if (disposing) | |
|
52 | /// lock(m_sync) { | |
|
53 | /// m_file.Dipose(); | |
|
54 | /// base.Dispose(true); | |
|
55 | /// } | |
|
56 | /// else | |
|
57 | /// base.Dispose(false); | |
|
58 | /// } | |
|
59 | /// } | |
|
60 | /// <example> | |
|
61 | protected void AssertNotDisposed() { | |
|
62 | Thread.MemoryBarrier(); | |
|
63 | if (m_disposed != 0) | |
|
64 | throw new ObjectDisposedException(ToString()); | |
|
65 | } | |
|
66 | /// <summary> | |
|
67 | /// Вызывает событие <see cref="Disposed"/> | |
|
68 | /// </summary> | |
|
69 | /// <param name="disposing">Признак того, что нужно освободить ресурсы, иначе данный метод | |
|
70 | /// вызван сборщиком мусора и нужно освобождать ТОЛЬКО неуправляемые ресурсы ТОЛЬКО этого | |
|
71 | /// объекта.</param> | |
|
72 | /// <remarks> | |
|
73 | /// Данный метод вызывается гарантированно один раз даже при одновременном вызове <see cref="Dispose()"/> | |
|
74 | /// из нескольких потоков. | |
|
75 | /// </remarks> | |
|
76 | protected virtual void Dispose(bool disposing) { | |
|
77 | if (disposing) { | |
|
78 | EventHandler temp = Disposed; | |
|
79 | if (temp != null) | |
|
80 | temp(this, EventArgs.Empty); | |
|
81 | } | |
|
82 | } | |
|
83 | ||
|
84 | public void Dispose() { | |
|
85 | if (Interlocked.Increment(ref m_disposed) == 1) { | |
|
86 | Dispose(true); | |
|
87 | GC.SuppressFinalize(this); | |
|
88 | } | |
|
89 | } | |
|
90 | ||
|
91 | /// <summary> | |
|
92 | /// Записывает сообщение об утечке объекта. | |
|
93 | /// </summary> | |
|
94 | protected virtual void ReportObjectLeaks() { | |
|
95 | TraceLog.TraceWarning("The object is marked as disposable but isn't disposed properly: {0}", this); | |
|
96 | } | |
|
97 | ||
|
98 | ~Disposable() { | |
|
99 | Dispose(false); | |
|
100 | ReportObjectLeaks(); | |
|
101 | } | |
|
102 | } | |
|
103 | } No newline at end of file |
@@ -0,0 +1,102 | |||
|
1 | using System; | |
|
2 | using Implab.Parallels; | |
|
3 | using System.Threading; | |
|
4 | using System.Diagnostics; | |
|
5 | using System.Diagnostics.CodeAnalysis; | |
|
6 | ||
|
7 | namespace Implab.Components { | |
|
8 | /// <summary> | |
|
9 | /// The base class for implementing pools of disposable objects. | |
|
10 | /// </summary> | |
|
11 | /// <remarks> | |
|
12 | /// <para>This class maintains a set of pre-created objects and which are frequently allocated and released | |
|
13 | /// by clients. The pool maintains maximum number of unsued object, any object above this limit is disposed, | |
|
14 | /// if the pool is empty it will create new objects on demand.</para> | |
|
15 | /// <para>Instances of this class are thread-safe.</para> | |
|
16 | /// </remarks> | |
|
17 | public abstract class DisposablePool<T> : IDisposable { | |
|
18 | readonly int m_size; | |
|
19 | readonly AsyncQueue<T> m_queue = new AsyncQueue<T>(); | |
|
20 | ||
|
21 | [SuppressMessage("Microsoft.Design", "CA1000:DoNotDeclareStaticMembersOnGenericTypes")] | |
|
22 | static readonly bool _isValueType = typeof(T).IsValueType; | |
|
23 | ||
|
24 | bool m_disposed; | |
|
25 | ||
|
26 | int m_count; | |
|
27 | ||
|
28 | protected DisposablePool(int size) { | |
|
29 | m_size = size; | |
|
30 | } | |
|
31 | ||
|
32 | protected DisposablePool() : this(Environment.ProcessorCount+1) { | |
|
33 | } | |
|
34 | ||
|
35 | public T Allocate() { | |
|
36 | if (m_disposed) | |
|
37 | throw new ObjectDisposedException(ToString()); | |
|
38 | ||
|
39 | T instance; | |
|
40 | if (m_queue.TryDequeue(out instance)) { | |
|
41 | Interlocked.Decrement(ref m_count); | |
|
42 | } else { | |
|
43 | instance = CreateInstance(); | |
|
44 | Debug.Assert(!Object.Equals(instance, default(T)) || _isValueType); | |
|
45 | } | |
|
46 | return instance; | |
|
47 | } | |
|
48 | ||
|
49 | protected abstract T CreateInstance(); | |
|
50 | ||
|
51 | protected virtual void CleanupInstance(T instance) { | |
|
52 | } | |
|
53 | ||
|
54 | public void Release(T instance) { | |
|
55 | if ( Object.Equals(instance,default(T)) && !_isValueType) | |
|
56 | return; | |
|
57 | ||
|
58 | Thread.MemoryBarrier(); | |
|
59 | if (m_count < m_size && !m_disposed) { | |
|
60 | Interlocked.Increment(ref m_count); | |
|
61 | ||
|
62 | CleanupInstance(instance); | |
|
63 | ||
|
64 | m_queue.Enqueue(instance); | |
|
65 | ||
|
66 | // пока элемент возвращался в кеш, была начата операция освобождения всего кеша | |
|
67 | // и возможно уже законцена, в таком случае следует извлечь элемент обратно и | |
|
68 | // освободить его. Если операция освобождения кеша еще не заврешилась, то будет | |
|
69 | // изъят и освобожден произвольный элемен, что не повлияет на ход всего процесса. | |
|
70 | if (m_disposed && m_queue.TryDequeue(out instance) && instance is IDisposable) | |
|
71 | ((IDisposable)instance).Dispose() ; | |
|
72 | ||
|
73 | } else { | |
|
74 | var disposable = instance as IDisposable; | |
|
75 | if (disposable != null) | |
|
76 | disposable.Dispose(); | |
|
77 | } | |
|
78 | } | |
|
79 | ||
|
80 | protected virtual void Dispose(bool disposing) { | |
|
81 | if (disposing) { | |
|
82 | m_disposed = true; | |
|
83 | T instance; | |
|
84 | while (m_queue.TryDequeue(out instance)) { | |
|
85 | var disposable = instance as IDisposable; | |
|
86 | if (disposable != null) | |
|
87 | disposable.Dispose(); | |
|
88 | } | |
|
89 | } | |
|
90 | } | |
|
91 | ||
|
92 | #region IDisposable implementation | |
|
93 | ||
|
94 | public void Dispose() { | |
|
95 | Dispose(true); | |
|
96 | GC.SuppressFinalize(this); | |
|
97 | } | |
|
98 | ||
|
99 | #endregion | |
|
100 | } | |
|
101 | } | |
|
102 |
@@ -0,0 +1,24 | |||
|
1 | namespace Implab.Components { | |
|
2 | ||
|
3 | public enum ExecutionState { | |
|
4 | Undefined = 0, | |
|
5 | ||
|
6 | Created, | |
|
7 | ||
|
8 | Initializing, | |
|
9 | ||
|
10 | Ready, | |
|
11 | ||
|
12 | Starting, | |
|
13 | ||
|
14 | Running, | |
|
15 | ||
|
16 | Stopping, | |
|
17 | ||
|
18 | Failed, | |
|
19 | ||
|
20 | Disposed, | |
|
21 | ||
|
22 | Last = Disposed | |
|
23 | } | |
|
24 | } No newline at end of file |
@@ -0,0 +1,8 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab.Components { | |
|
4 | public interface IFactory<out T> { | |
|
5 | T Create(); | |
|
6 | } | |
|
7 | } | |
|
8 |
@@ -0,0 +1,21 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab.Components { | |
|
4 | /// <summary> | |
|
5 | /// Initializable components are created and initialized in two steps, first we have create the component, | |
|
6 | /// then we have to complete it's creation by calling an <see cref="Init()"/> method. All parameters needed | |
|
7 | /// to complete the initialization must be passed before the calling <see cref="Init()"/> | |
|
8 | /// </summary> | |
|
9 | public interface IInitializable { | |
|
10 | /// <summary> | |
|
11 | /// Completes initialization. | |
|
12 | /// </summary> | |
|
13 | /// <remarks> | |
|
14 | /// Normally virtual methods shouldn't be called from the constructor, due to the incomplete object state, but | |
|
15 | /// they can be called from this method. This method is also usefull when we constructing a complex grpah | |
|
16 | /// of components where cyclic references may take place. | |
|
17 | /// </remarks> | |
|
18 | void Init(); | |
|
19 | } | |
|
20 | } | |
|
21 |
@@ -0,0 +1,14 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab.Components { | |
|
4 | public interface IRunnable { | |
|
5 | IPromise Start(); | |
|
6 | ||
|
7 | IPromise Stop(); | |
|
8 | ||
|
9 | ExecutionState State { get; } | |
|
10 | ||
|
11 | Exception LastError { get; } | |
|
12 | } | |
|
13 | } | |
|
14 |
@@ -0,0 +1,64 | |||
|
1 | using System; | |
|
2 | using System.Threading; | |
|
3 | ||
|
4 | namespace Implab.Components { | |
|
5 | /// <summary> | |
|
6 | /// Creates an instace on-demand and allows it to be garbage collected. | |
|
7 | /// </summary> | |
|
8 | /// <remarks> | |
|
9 | /// Usefull when dealing with memory-intensive objects which are frequently used. | |
|
10 | /// This class is similar to <see cref="ObjectPool{T}"/> except it is a singleton. | |
|
11 | /// </remarks> | |
|
12 | public class LazyAndWeak<T> where T : class { | |
|
13 | ||
|
14 | readonly Func<T> m_factory; | |
|
15 | readonly object m_lock; | |
|
16 | WeakReference m_reference; | |
|
17 | ||
|
18 | ||
|
19 | public LazyAndWeak(Func<T> factory, bool useLock) { | |
|
20 | Safe.ArgumentNotNull(factory, "factory"); | |
|
21 | m_factory = factory; | |
|
22 | m_lock = useLock ? new object() : null; | |
|
23 | } | |
|
24 | ||
|
25 | public LazyAndWeak(Func<T> factory) : this(factory, false) { | |
|
26 | } | |
|
27 | ||
|
28 | public T Value { | |
|
29 | get { | |
|
30 | while (true) { | |
|
31 | var weak = m_reference; | |
|
32 | T value; | |
|
33 | if (weak != null) { | |
|
34 | value = weak.Target as T; | |
|
35 | if (value != null) | |
|
36 | return value; | |
|
37 | } | |
|
38 | ||
|
39 | if (m_lock == null) { | |
|
40 | value = m_factory(); | |
|
41 | ||
|
42 | if (Interlocked.CompareExchange(ref m_reference, new WeakReference(value), weak) == weak) | |
|
43 | return value; | |
|
44 | } else { | |
|
45 | lock (m_lock) { | |
|
46 | // double check | |
|
47 | weak = m_reference; | |
|
48 | if (weak != null) { | |
|
49 | value = weak.Target as T; | |
|
50 | if (value != null) | |
|
51 | return value; | |
|
52 | } | |
|
53 | // we are safe to write | |
|
54 | value = m_factory(); | |
|
55 | m_reference = new WeakReference(value); | |
|
56 | return value; | |
|
57 | } | |
|
58 | } | |
|
59 | } | |
|
60 | } | |
|
61 | } | |
|
62 | } | |
|
63 | } | |
|
64 |
@@ -0,0 +1,75 | |||
|
1 | using Implab.Parallels; | |
|
2 | using System; | |
|
3 | using System.Threading; | |
|
4 | ||
|
5 | namespace Implab.Components { | |
|
6 | /// <summary> | |
|
7 | /// The base class for creating object pools. | |
|
8 | /// </summary> | |
|
9 | /// <remarks> | |
|
10 | /// <para>The objects pool is offers frequently requested objects to be reused, this gives | |
|
11 | /// a gool speed improvement for the 'heavy' objects. To avoid memory overhead the pool uses | |
|
12 | /// weak references allowing CG to do it's work. If there are no free objects in the pool | |
|
13 | /// they are created on demand. </para> | |
|
14 | /// <para> | |
|
15 | /// Implementors need to defined a <see cref="CreateInstance()"/> method | |
|
16 | /// </para> | |
|
17 | /// <para>The instances of this class are thred-safe.</para> | |
|
18 | /// </remarks> | |
|
19 | public abstract class ObjectPool<T> where T : class { | |
|
20 | readonly AsyncQueue<WeakReference> m_queue = new AsyncQueue<WeakReference>(); | |
|
21 | readonly int m_size; | |
|
22 | int m_count = 0; | |
|
23 | ||
|
24 | protected ObjectPool() : this(Environment.ProcessorCount+1) { | |
|
25 | ||
|
26 | } | |
|
27 | ||
|
28 | protected ObjectPool(int size) { | |
|
29 | Safe.ArgumentInRange(size,1,size,"size"); | |
|
30 | ||
|
31 | m_size = size; | |
|
32 | } | |
|
33 | ||
|
34 | /// <summary> | |
|
35 | /// Creates the instance if there are no free ones in the pool. | |
|
36 | /// </summary> | |
|
37 | /// <returns>The new instance.</returns> | |
|
38 | protected abstract T CreateInstance(); | |
|
39 | ||
|
40 | /// <summary> | |
|
41 | /// Cleanups the instance. | |
|
42 | /// </summary> | |
|
43 | /// <param name="instance">The instance to cleanup and prepare it for the next use.</param> | |
|
44 | protected virtual void CleanupInstance(T instance) { | |
|
45 | } | |
|
46 | ||
|
47 | /// <summary> | |
|
48 | /// Allocate free instance from the pool or reates a new one. | |
|
49 | /// </summary> | |
|
50 | public T Allocate() { | |
|
51 | WeakReference reference; | |
|
52 | while (m_queue.TryDequeue(out reference)) { | |
|
53 | Interlocked.Decrement(ref m_count); | |
|
54 | object instance = reference.Target; | |
|
55 | if (instance == null) | |
|
56 | continue; | |
|
57 | return (T)instance; | |
|
58 | } | |
|
59 | return CreateInstance(); | |
|
60 | } | |
|
61 | ||
|
62 | /// <summary> | |
|
63 | /// Release the specified instance and returns it to the pool of free instances. | |
|
64 | /// </summary> | |
|
65 | /// <param name="instance">The instance to return to the pool.</param> | |
|
66 | /// <remarks>Before the instance is returned to the pool the <see cref="CleanupInstance(T)"/> is called.</remarks> | |
|
67 | public void Release(T instance) { | |
|
68 | if (m_count < m_size && instance != null) { | |
|
69 | Interlocked.Increment(ref m_count); | |
|
70 | CleanupInstance(instance); | |
|
71 | m_queue.Enqueue(new WeakReference(instance)); | |
|
72 | } | |
|
73 | } | |
|
74 | } | |
|
75 | } |
@@ -0,0 +1,257 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab.Components { | |
|
4 | public abstract class RunnableComponent : IDisposable, IRunnable, IInitializable { | |
|
5 | enum Commands { | |
|
6 | Ok = 0, | |
|
7 | Fail, | |
|
8 | Init, | |
|
9 | Start, | |
|
10 | Stop, | |
|
11 | Dispose, | |
|
12 | Last = Dispose | |
|
13 | } | |
|
14 | ||
|
15 | class StateMachine { | |
|
16 | static readonly ExecutionState[,] _transitions; | |
|
17 | ||
|
18 | static StateMachine() { | |
|
19 | _transitions = new ExecutionState[(int)ExecutionState.Last + 1, (int)Commands.Last + 1]; | |
|
20 | ||
|
21 | Edge(ExecutionState.Created, ExecutionState.Initializing, Commands.Init); | |
|
22 | Edge(ExecutionState.Created, ExecutionState.Disposed, Commands.Dispose); | |
|
23 | ||
|
24 | Edge(ExecutionState.Initializing, ExecutionState.Ready, Commands.Ok); | |
|
25 | Edge(ExecutionState.Initializing, ExecutionState.Failed, Commands.Fail); | |
|
26 | ||
|
27 | Edge(ExecutionState.Ready, ExecutionState.Starting, Commands.Start); | |
|
28 | Edge(ExecutionState.Ready, ExecutionState.Disposed, Commands.Dispose); | |
|
29 | ||
|
30 | Edge(ExecutionState.Starting, ExecutionState.Running, Commands.Ok); | |
|
31 | Edge(ExecutionState.Starting, ExecutionState.Failed, Commands.Fail); | |
|
32 | Edge(ExecutionState.Starting, ExecutionState.Stopping, Commands.Stop); | |
|
33 | Edge(ExecutionState.Starting, ExecutionState.Disposed, Commands.Dispose); | |
|
34 | ||
|
35 | Edge(ExecutionState.Running, ExecutionState.Failed, Commands.Fail); | |
|
36 | Edge(ExecutionState.Running, ExecutionState.Stopping, Commands.Stop); | |
|
37 | Edge(ExecutionState.Running, ExecutionState.Disposed, Commands.Dispose); | |
|
38 | ||
|
39 | Edge(ExecutionState.Stopping, ExecutionState.Failed, Commands.Fail); | |
|
40 | Edge(ExecutionState.Stopping, ExecutionState.Disposed, Commands.Ok); | |
|
41 | ||
|
42 | Edge(ExecutionState.Failed, ExecutionState.Disposed, Commands.Dispose); | |
|
43 | } | |
|
44 | ||
|
45 | static void Edge(ExecutionState s1, ExecutionState s2, Commands cmd) { | |
|
46 | _transitions[(int)s1, (int)cmd] = s2; | |
|
47 | } | |
|
48 | ||
|
49 | public ExecutionState State { | |
|
50 | get; | |
|
51 | private set; | |
|
52 | } | |
|
53 | ||
|
54 | public StateMachine(ExecutionState initial) { | |
|
55 | State = initial; | |
|
56 | } | |
|
57 | ||
|
58 | public bool Move(Commands cmd) { | |
|
59 | var next = _transitions[(int)State, (int)cmd]; | |
|
60 | if (next == ExecutionState.Undefined) | |
|
61 | return false; | |
|
62 | State = next; | |
|
63 | return true; | |
|
64 | } | |
|
65 | } | |
|
66 | ||
|
67 | IPromise m_pending; | |
|
68 | Exception m_lastError; | |
|
69 | ||
|
70 | readonly StateMachine m_stateMachine; | |
|
71 | ||
|
72 | protected RunnableComponent(bool initialized) { | |
|
73 | m_stateMachine = new StateMachine(initialized ? ExecutionState.Ready : ExecutionState.Created); | |
|
74 | } | |
|
75 | ||
|
76 | protected virtual int DisposeTimeout { | |
|
77 | get { | |
|
78 | return 10000; | |
|
79 | } | |
|
80 | } | |
|
81 | ||
|
82 | void ThrowInvalidCommand(Commands cmd) { | |
|
83 | if (m_stateMachine.State == ExecutionState.Disposed) | |
|
84 | throw new ObjectDisposedException(ToString()); | |
|
85 | ||
|
86 | throw new InvalidOperationException(String.Format("Commnd {0} is not allowed in the state {1}", cmd, m_stateMachine.State)); | |
|
87 | } | |
|
88 | ||
|
89 | void Move(Commands cmd) { | |
|
90 | if (!m_stateMachine.Move(cmd)) | |
|
91 | ThrowInvalidCommand(cmd); | |
|
92 | } | |
|
93 | ||
|
94 | void Invoke(Commands cmd, Action action) { | |
|
95 | lock (m_stateMachine) | |
|
96 | Move(cmd); | |
|
97 | ||
|
98 | try { | |
|
99 | action(); | |
|
100 | lock(m_stateMachine) | |
|
101 | Move(Commands.Ok); | |
|
102 | ||
|
103 | } catch (Exception err) { | |
|
104 | lock (m_stateMachine) { | |
|
105 | Move(Commands.Fail); | |
|
106 | m_lastError = err; | |
|
107 | } | |
|
108 | throw; | |
|
109 | } | |
|
110 | } | |
|
111 | ||
|
112 | IPromise InvokeAsync(Commands cmd, Func<IPromise> action, Action<IPromise, IDeferred> chain) { | |
|
113 | IPromise promise = null; | |
|
114 | IPromise prev; | |
|
115 | ||
|
116 | var task = new ActionChainTask(action, null, null, true); | |
|
117 | ||
|
118 | lock (m_stateMachine) { | |
|
119 | Move(cmd); | |
|
120 | ||
|
121 | prev = m_pending; | |
|
122 | ||
|
123 | promise = task.Then( | |
|
124 | () => { | |
|
125 | lock(m_stateMachine) { | |
|
126 | if (m_pending == promise) { | |
|
127 | Move(Commands.Ok); | |
|
128 | m_pending = null; | |
|
129 | } | |
|
130 | } | |
|
131 | }, e => { | |
|
132 | lock(m_stateMachine) { | |
|
133 | if (m_pending == promise) { | |
|
134 | Move(Commands.Fail); | |
|
135 | m_pending = null; | |
|
136 | m_lastError = e; | |
|
137 | } | |
|
138 | } | |
|
139 | throw new PromiseTransientException(e); | |
|
140 | } | |
|
141 | ); | |
|
142 | ||
|
143 | m_pending = promise; | |
|
144 | } | |
|
145 | ||
|
146 | if (prev == null) | |
|
147 | task.Resolve(); | |
|
148 | else | |
|
149 | chain(prev, task); | |
|
150 | ||
|
151 | return promise; | |
|
152 | } | |
|
153 | ||
|
154 | ||
|
155 | #region IInitializable implementation | |
|
156 | ||
|
157 | public void Init() { | |
|
158 | Invoke(Commands.Init, OnInitialize); | |
|
159 | } | |
|
160 | ||
|
161 | protected virtual void OnInitialize() { | |
|
162 | } | |
|
163 | ||
|
164 | #endregion | |
|
165 | ||
|
166 | #region IRunnable implementation | |
|
167 | ||
|
168 | public IPromise Start() { | |
|
169 | return InvokeAsync(Commands.Start, OnStart, null); | |
|
170 | } | |
|
171 | ||
|
172 | protected virtual IPromise OnStart() { | |
|
173 | return Promise.SUCCESS; | |
|
174 | } | |
|
175 | ||
|
176 | public IPromise Stop() { | |
|
177 | return InvokeAsync(Commands.Stop, OnStop, StopPending).Then(Dispose); | |
|
178 | } | |
|
179 | ||
|
180 | protected virtual IPromise OnStop() { | |
|
181 | return Promise.SUCCESS; | |
|
182 | } | |
|
183 | ||
|
184 | /// <summary> | |
|
185 | /// Stops the current operation if one exists. | |
|
186 | /// </summary> | |
|
187 | /// <param name="current">Current.</param> | |
|
188 | /// <param name="stop">Stop.</param> | |
|
189 | protected virtual void StopPending(IPromise current, IDeferred stop) { | |
|
190 | if (current == null) { | |
|
191 | stop.Resolve(); | |
|
192 | } else { | |
|
193 | // связваем текущую операцию с операцией остановки | |
|
194 | current.On( | |
|
195 | stop.Resolve, // если текущая операция заверщилась, то можно начинать остановку | |
|
196 | stop.Reject, // если текущая операция дала ошибку - то все плохо, нельзя продолжать | |
|
197 | e => stop.Resolve() // если текущая отменилась, то можно начинать остановку | |
|
198 | ); | |
|
199 | // посылаем текущей операции сигнал остановки | |
|
200 | current.Cancel(); | |
|
201 | } | |
|
202 | } | |
|
203 | ||
|
204 | public ExecutionState State { | |
|
205 | get { | |
|
206 | return m_stateMachine.State; | |
|
207 | } | |
|
208 | } | |
|
209 | ||
|
210 | public Exception LastError { | |
|
211 | get { | |
|
212 | return m_lastError; | |
|
213 | } | |
|
214 | } | |
|
215 | ||
|
216 | #endregion | |
|
217 | ||
|
218 | #region IDisposable implementation | |
|
219 | ||
|
220 | public void Dispose() { | |
|
221 | IPromise pending; | |
|
222 | lock (m_stateMachine) { | |
|
223 | if (m_stateMachine.State == ExecutionState.Disposed) | |
|
224 | return; | |
|
225 | ||
|
226 | Move(Commands.Dispose); | |
|
227 | ||
|
228 | GC.SuppressFinalize(this); | |
|
229 | ||
|
230 | pending = m_pending; | |
|
231 | m_pending = null; | |
|
232 | } | |
|
233 | if (pending != null) { | |
|
234 | pending.Cancel(); | |
|
235 | pending.Timeout(DisposeTimeout).On( | |
|
236 | () => Dispose(true, null), | |
|
237 | err => Dispose(true, err), | |
|
238 | reason => Dispose(true, new OperationCanceledException("The operation is cancelled", reason)) | |
|
239 | ); | |
|
240 | } else { | |
|
241 | Dispose(true, m_lastError); | |
|
242 | } | |
|
243 | } | |
|
244 | ||
|
245 | ~RunnableComponent() { | |
|
246 | Dispose(false, null); | |
|
247 | } | |
|
248 | ||
|
249 | #endregion | |
|
250 | ||
|
251 | protected virtual void Dispose(bool disposing, Exception lastError) { | |
|
252 | ||
|
253 | } | |
|
254 | ||
|
255 | } | |
|
256 | } | |
|
257 |
@@ -0,0 +1,248 | |||
|
1 | using System; | |
|
2 | using System.Collections.Generic; | |
|
3 | ||
|
4 | namespace Implab.Components { | |
|
5 | /// <summary> | |
|
6 | /// Коллекция сервисов, позволяет регистрировать и получать сервисы. | |
|
7 | /// </summary> | |
|
8 | public class ServiceLocator: Disposable, IServiceLocator, IServiceProvider { | |
|
9 | // запись о сервисе | |
|
10 | struct ServiceEntry : IDisposable { | |
|
11 | public object service; // сервис | |
|
12 | public bool shared; // признак того, что сервис НЕ нужно освобождать | |
|
13 | public Func<object> activator; // активатор сервиса при первом обращении | |
|
14 | public Action<object> cleanup; // функция для очистки сервиса | |
|
15 | public List<Type> associated; // ссылки на текущую запись | |
|
16 | public Type origin; // ссылка на оригинальную запись о сервисе | |
|
17 | ||
|
18 | #region IDisposable implementation | |
|
19 | ||
|
20 | public void Dispose() { | |
|
21 | if (shared) | |
|
22 | return; | |
|
23 | if (cleanup != null) { | |
|
24 | if (service != null) | |
|
25 | cleanup(service); | |
|
26 | } else | |
|
27 | Safe.Dispose(service); | |
|
28 | } | |
|
29 | ||
|
30 | #endregion | |
|
31 | } | |
|
32 | ||
|
33 | // словарь существующих сервисов | |
|
34 | readonly Dictionary<Type, ServiceEntry> m_services = new Dictionary<Type,ServiceEntry>(); | |
|
35 | ||
|
36 | /// <summary> | |
|
37 | /// Получает объект предоставляющий сервис <typeparamref name="T"/>. | |
|
38 | /// </summary> | |
|
39 | /// <typeparam name="T">Тип запрашиваемого сервиса</typeparam> | |
|
40 | /// <returns>Объект, реализующий сервис</returns> | |
|
41 | /// <exception cref="KeyNotFoundException">Сервис не зарегистрирован</exception> | |
|
42 | public T GetService<T>() { | |
|
43 | object result; | |
|
44 | if (TryGetService(typeof(T), out result)) | |
|
45 | return (T)result; | |
|
46 | throw new ApplicationException (String.Format ("{0} doesn't provide {1} service", this, typeof(T))); | |
|
47 | } | |
|
48 | ||
|
49 | ||
|
50 | /// <summary> | |
|
51 | /// Пытается получить указанный сервис, в случае, если компонента не предоставляет требуемый сервис | |
|
52 | /// не возникает исключений. | |
|
53 | /// </summary> | |
|
54 | /// <typeparam name="T">Тип требуемого сервиса.</typeparam> | |
|
55 | /// <param name="service">Объект реализующий сервис, или <c>default(T)</c> если такового нет.</param> | |
|
56 | /// <returns><c>true</c> - сервис найден, <c>false</c> - сервис не зарегистрирован.</returns> | |
|
57 | public bool TryGetService<T>(out T service) { | |
|
58 | object result; | |
|
59 | if (TryGetService(typeof(T), out result)) { | |
|
60 | service = (T)result; | |
|
61 | return true; | |
|
62 | } | |
|
63 | service = default(T); | |
|
64 | return false; | |
|
65 | } | |
|
66 | ||
|
67 | /// <summary> | |
|
68 | /// Получает объект предоставляющий сервис <paramref name="serviceType"/> | |
|
69 | /// </summary> | |
|
70 | /// <param name="serviceType">Тип запрашиваемого сервиса</param> | |
|
71 | /// <returns>Объект, реализующий сервис</returns> | |
|
72 | /// <exception cref="KeyNotFoundException">Сервис не зарегистрирован</exception> | |
|
73 | public object GetService(Type serviceType) { | |
|
74 | object result; | |
|
75 | if (TryGetService(serviceType, out result)) | |
|
76 | return result; | |
|
77 | throw new ApplicationException (String.Format ("{0} doesn't provide {1} service", this, serviceType)); | |
|
78 | } | |
|
79 | ||
|
80 | /// <summary> | |
|
81 | /// Пытается получить требуемый сервис или совместимый с ним. | |
|
82 | /// </summary> | |
|
83 | /// <returns><c>true</c>, если сервис был найден, <c>false</c> в противном случае..</returns> | |
|
84 | /// <param name="serviceType">Тип запрашиваемого сервиса.</param> | |
|
85 | /// <param name="service">Искомый сервис.</param> | |
|
86 | public virtual bool TryGetService(Type serviceType, out object service) { | |
|
87 | Safe.ArgumentNotNull(serviceType, "serviceType"); | |
|
88 | AssertNotDisposed(); | |
|
89 | ||
|
90 | ServiceEntry se; | |
|
91 | if (!m_services.TryGetValue(serviceType, out se)) { | |
|
92 | // ищем ближайщий объект, реализующий нужный сервис | |
|
93 | Type pt = null; | |
|
94 | foreach (var t in m_services.Keys) | |
|
95 | if (serviceType.IsAssignableFrom(t) && (pt == null || t.IsAssignableFrom(pt))) | |
|
96 | pt = t; | |
|
97 | ||
|
98 | if (pt == null) { | |
|
99 | // нет нужного сервиса | |
|
100 | service = null; | |
|
101 | return false; | |
|
102 | } | |
|
103 | ||
|
104 | var pe = m_services[pt]; | |
|
105 | ||
|
106 | // найденная запись может ссылаться на оригинальную запись с сервисом | |
|
107 | if(pe.origin != null) { | |
|
108 | pt = pe.origin; | |
|
109 | pe = m_services[pt]; | |
|
110 | } | |
|
111 | ||
|
112 | // добавляем список с обратными ссылками | |
|
113 | if (pe.associated == null) | |
|
114 | pe.associated = new List<Type>(); | |
|
115 | ||
|
116 | pe.associated.Add(serviceType); | |
|
117 | ||
|
118 | // обновляем родительскую запись | |
|
119 | m_services[pt] = pe; | |
|
120 | ||
|
121 | // создаем запись со ссылкой | |
|
122 | se = new ServiceEntry { | |
|
123 | service = pe.service, | |
|
124 | origin = pt, | |
|
125 | shared = true // предотвращаем множественные попытки освобождения | |
|
126 | }; | |
|
127 | ||
|
128 | m_services[serviceType] = se; | |
|
129 | } | |
|
130 | ||
|
131 | // запись содержит в себе информацию о сервисе | |
|
132 | if (se.service != null) { | |
|
133 | service = se.service; | |
|
134 | return true; | |
|
135 | } | |
|
136 | ||
|
137 | // текущая запись является ссылкой | |
|
138 | if (se.origin != null) { | |
|
139 | se.service = GetService(se.origin); | |
|
140 | m_services[serviceType] = se; | |
|
141 | service = se.service; | |
|
142 | return true; | |
|
143 | } | |
|
144 | ||
|
145 | // текущая запись не является ссылкой и не имеет информации о сервисе | |
|
146 | // она должна сожержать информацию об активации | |
|
147 | if (se.activator != null) { | |
|
148 | se.service = se.activator(); | |
|
149 | ||
|
150 | m_services[serviceType] = se; | |
|
151 | ||
|
152 | service = se.service; | |
|
153 | return true; | |
|
154 | } | |
|
155 | ||
|
156 | service = null; | |
|
157 | return false; | |
|
158 | } | |
|
159 | ||
|
160 | /// <summary> | |
|
161 | /// Регистрирует фабрику для активации сервиса по первому требованию. | |
|
162 | /// </summary> | |
|
163 | /// <typeparam name="T">Тип регистрируемого сервиса.</typeparam> | |
|
164 | /// <param name="activator">Фабрика для создания/получения объекта, предоставляющего сервис.</param> | |
|
165 | /// <param name = "cleanup">Метод для освобождения экземпляра сервиса, будет вызыван при освобождении сервис-локатора.</param> | |
|
166 | /// <remarks>При освобождении сервис-локатора, сервисы полученные в результате активации также будут освобождены.</remarks> | |
|
167 | public void Register<T>(Func<T> activator, Action<T> cleanup) { | |
|
168 | Safe.ArgumentNotNull(activator, "activator"); | |
|
169 | ||
|
170 | AssertNotDisposed(); | |
|
171 | ||
|
172 | Unregister(typeof(T)); | |
|
173 | ||
|
174 | var serviceEntry = new ServiceEntry(); | |
|
175 | serviceEntry.activator = () => activator(); | |
|
176 | if (cleanup != null) | |
|
177 | serviceEntry.cleanup = instance => cleanup((T)instance); | |
|
178 | m_services[typeof(T)] = serviceEntry; | |
|
179 | } | |
|
180 | ||
|
181 | public void Register<T>(Func<T> activator) { | |
|
182 | Register(activator, null); | |
|
183 | } | |
|
184 | ||
|
185 | /// <summary> | |
|
186 | /// Регистрирует объект, предоставляющий сервис. | |
|
187 | /// </summary> | |
|
188 | /// <typeparam name="T">Тип регистрируемого сервиса.</typeparam> | |
|
189 | /// <param name="service">Объект, предоставляющий сервис.</param> | |
|
190 | /// <exception cref="InvalidOperationException">Указанный сервис уже зарегистрирован.</exception> | |
|
191 | /// <remarks>Сервис-локатором не управляет временем жизни объекта для зарегистрированного сервиса.</remarks> | |
|
192 | public void Register<T>(T service) { | |
|
193 | Register(service, true); | |
|
194 | } | |
|
195 | ||
|
196 | /// <summary> | |
|
197 | /// Регистрирует объект, предоставляющий сервис. Повторная регистрация отменяет уже существующую. | |
|
198 | /// </summary> | |
|
199 | /// <typeparam name="T">Тип регистрируемого сервиса.</typeparam> | |
|
200 | /// <param name="service">Объект, предоставляющий сервис.</param> | |
|
201 | /// <param name="shared">Признак того, что объект является разделяемым и сервис-локатор не должен его освобождать.</param> | |
|
202 | public void Register<T>(T service, bool shared) { | |
|
203 | Safe.ArgumentNotNull(service, "service"); | |
|
204 | ||
|
205 | AssertNotDisposed(); | |
|
206 | ||
|
207 | Unregister(typeof(T)); | |
|
208 | ||
|
209 | m_services[typeof(T)] = new ServiceEntry { service = service, shared = shared }; | |
|
210 | } | |
|
211 | ||
|
212 | public void Unregister(Type serviceType) { | |
|
213 | Safe.ArgumentNotNull(serviceType, "serviceType"); | |
|
214 | ||
|
215 | AssertNotDisposed(); | |
|
216 | ||
|
217 | ServiceEntry se; | |
|
218 | if (m_services.TryGetValue(serviceType, out se)) { | |
|
219 | if (se.origin != null) { | |
|
220 | var pe = m_services[se.origin]; | |
|
221 | pe.associated.Remove(serviceType); | |
|
222 | } | |
|
223 | // освобождаем ресурсы | |
|
224 | se.Dispose(); | |
|
225 | m_services.Remove(serviceType); | |
|
226 | ||
|
227 | // убираем связанные записи | |
|
228 | if (se.associated != null) | |
|
229 | foreach (var item in se.associated) | |
|
230 | m_services.Remove(item); | |
|
231 | } | |
|
232 | } | |
|
233 | ||
|
234 | /// <summary> | |
|
235 | /// Освобождает зарегистрированные сервисы (которые требуется освобоить). | |
|
236 | /// </summary> | |
|
237 | /// <param name="disposing">Призанак того, что нужно освободить ресурсы.</param> | |
|
238 | protected override void Dispose(bool disposing) { | |
|
239 | if (disposing) { | |
|
240 | ||
|
241 | foreach (var entry in m_services.Values) | |
|
242 | entry.Dispose(); | |
|
243 | ||
|
244 | } | |
|
245 | base.Dispose(disposing); | |
|
246 | } | |
|
247 | } | |
|
248 | } No newline at end of file |
@@ -0,0 +1,41 | |||
|
1 | namespace Implab.Diagnostics { | |
|
2 | public static class Extensions { | |
|
3 | public static IPromise<T> EndLogicalOperation<T>(this IPromise<T> promise) { | |
|
4 | Safe.ArgumentNotNull(promise, "promise"); | |
|
5 | var op = TraceContext.Instance.DetachLogicalOperation(); | |
|
6 | ||
|
7 | return promise.On( | |
|
8 | x => { | |
|
9 | TraceContext.Instance.EnterLogicalOperation(op,true); | |
|
10 | TraceLog.TraceInformation("promise = {0}", x); | |
|
11 | TraceLog.EndLogicalOperation(); | |
|
12 | TraceContext.Instance.Leave(); | |
|
13 | }, | |
|
14 | err =>{ | |
|
15 | TraceContext.Instance.EnterLogicalOperation(op,true); | |
|
16 | TraceLog.TraceError("promise died {0}", err); | |
|
17 | TraceLog.EndLogicalOperation(); | |
|
18 | TraceContext.Instance.Leave(); | |
|
19 | }, | |
|
20 | reason => { | |
|
21 | TraceContext.Instance.EnterLogicalOperation(op,true); | |
|
22 | TraceLog.TraceInformation("promise cancelled {0}", reason == null ? "<no-reason>" : reason.Message); | |
|
23 | TraceLog.EndLogicalOperation(); | |
|
24 | TraceContext.Instance.Leave(); | |
|
25 | } | |
|
26 | ); | |
|
27 | } | |
|
28 | ||
|
29 | public static IPromise EndLogicalOperation(this IPromise promise) { | |
|
30 | Safe.ArgumentNotNull(promise, "promise"); | |
|
31 | var op = TraceContext.Instance.DetachLogicalOperation(); | |
|
32 | ||
|
33 | return promise.On(() => { | |
|
34 | TraceContext.Instance.EnterLogicalOperation(op,true); | |
|
35 | TraceLog.EndLogicalOperation(); | |
|
36 | TraceContext.Instance.Leave(); | |
|
37 | }, PromiseEventType.All); | |
|
38 | } | |
|
39 | } | |
|
40 | } | |
|
41 |
@@ -0,0 +1,8 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab.Diagnostics { | |
|
4 | public interface ILogWriter<in TEvent> { | |
|
5 | void Write(LogEventArgs args, TEvent entry); | |
|
6 | } | |
|
7 | } | |
|
8 |
@@ -0,0 +1,86 | |||
|
1 | using System; | |
|
2 | using System.Collections.Generic; | |
|
3 | using Implab.Components; | |
|
4 | ||
|
5 | namespace Implab.Diagnostics { | |
|
6 | public abstract class ListenerBase : ServiceLocator, ILogWriter<object>, ILogWriter<TraceEvent> { | |
|
7 | ||
|
8 | readonly Dictionary<object, Action> m_subscriptions = new Dictionary<object, Action>(); | |
|
9 | ||
|
10 | protected ListenerBase() { | |
|
11 | Register(this); | |
|
12 | } | |
|
13 | ||
|
14 | public void Subscribe(Type eventType) { | |
|
15 | if (eventType == null) | |
|
16 | throw new ArgumentNullException("eventType"); | |
|
17 | GetType().GetMethod("Subscribe", new Type[0]).MakeGenericMethod(eventType).Invoke(this, null); | |
|
18 | } | |
|
19 | ||
|
20 | public void Subscribe<TEvent>() { | |
|
21 | Subscribe<TEvent>(LogChannel<TEvent>.Default); | |
|
22 | } | |
|
23 | ||
|
24 | public void Subscribe<TEvent>(LogChannel<TEvent> channel) { | |
|
25 | if (channel == null) | |
|
26 | throw new ArgumentNullException("channel"); | |
|
27 | ||
|
28 | lock (m_subscriptions) { | |
|
29 | AssertNotDisposed(); | |
|
30 | if (m_subscriptions.ContainsKey(channel)) | |
|
31 | return; | |
|
32 | ||
|
33 | var writer = GetService<ILogWriter<TEvent>>(); | |
|
34 | ||
|
35 | EventHandler<LogEventArgs<TEvent>> handler = (sender, args) => writer.Write(args,args.Value); | |
|
36 | ||
|
37 | channel.Events += handler; | |
|
38 | ||
|
39 | Action unsubscribe = () => { | |
|
40 | channel.Events -= handler; | |
|
41 | }; | |
|
42 | ||
|
43 | m_subscriptions.Add(channel, unsubscribe); | |
|
44 | } | |
|
45 | } | |
|
46 | ||
|
47 | public void Unsubscribe<TEvent>(LogChannel<TEvent> channel) { | |
|
48 | if (channel == null) | |
|
49 | throw new ArgumentNullException("channel"); | |
|
50 | ||
|
51 | lock (m_subscriptions) { | |
|
52 | Action subscription; | |
|
53 | if (m_subscriptions.TryGetValue(channel, out subscription)) { | |
|
54 | subscription(); | |
|
55 | m_subscriptions.Remove(channel); | |
|
56 | } | |
|
57 | } | |
|
58 | } | |
|
59 | ||
|
60 | public void UnsubscribeAll() { | |
|
61 | lock (m_subscriptions) { | |
|
62 | foreach (var subscription in m_subscriptions.Values) | |
|
63 | subscription(); | |
|
64 | m_subscriptions.Clear(); | |
|
65 | } | |
|
66 | } | |
|
67 | ||
|
68 | #region ILogWriter implementation | |
|
69 | public abstract void Write(LogEventArgs args, object entry); | |
|
70 | #endregion | |
|
71 | ||
|
72 | #region ILogWriter implementation | |
|
73 | public virtual void Write(LogEventArgs args, TraceEvent entry) { | |
|
74 | Write(args, (object)entry); | |
|
75 | } | |
|
76 | #endregion | |
|
77 | ||
|
78 | ||
|
79 | protected override void Dispose(bool disposing) { | |
|
80 | base.Dispose(disposing); | |
|
81 | if (disposing) { | |
|
82 | UnsubscribeAll(); | |
|
83 | } | |
|
84 | } | |
|
85 | } | |
|
86 | } |
@@ -0,0 +1,29 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab.Diagnostics { | |
|
4 | public class LogEventArgs : EventArgs { | |
|
5 | public string ChannelName { | |
|
6 | get; | |
|
7 | private set; | |
|
8 | } | |
|
9 | public int ThreadId { | |
|
10 | get; | |
|
11 | private set; | |
|
12 | } | |
|
13 | public LogicalOperation Operation { | |
|
14 | get; | |
|
15 | private set; | |
|
16 | } | |
|
17 | public int OperationTimeOffset { | |
|
18 | get; | |
|
19 | private set; | |
|
20 | } | |
|
21 | public LogEventArgs(string channelName, int threadId, LogicalOperation operation, int timeOffset) { | |
|
22 | ChannelName = channelName; | |
|
23 | ThreadId = threadId; | |
|
24 | Operation = operation; | |
|
25 | OperationTimeOffset = timeOffset; | |
|
26 | } | |
|
27 | } | |
|
28 | } | |
|
29 |
@@ -0,0 +1,13 | |||
|
1 | namespace Implab.Diagnostics { | |
|
2 | public class LogEventArgs<TEvent> : LogEventArgs { | |
|
3 | public TEvent Value { | |
|
4 | get; | |
|
5 | private set; | |
|
6 | } | |
|
7 | ||
|
8 | public LogEventArgs(TEvent value,string channelName, int threadId, LogicalOperation operation, int timeOffset) : base(channelName, threadId, operation, timeOffset) { | |
|
9 | Value = value; | |
|
10 | } | |
|
11 | } | |
|
12 | } | |
|
13 |
@@ -0,0 +1,65 | |||
|
1 | namespace Implab.Diagnostics { | |
|
2 | struct OperationContext { | |
|
3 | public readonly static OperationContext EMPTY = new OperationContext(LogicalOperation.EMPTY, false); | |
|
4 | ||
|
5 | LogicalOperation m_initial; | |
|
6 | LogicalOperation m_current; | |
|
7 | bool m_ownership; | |
|
8 | ||
|
9 | public OperationContext(LogicalOperation operation, bool ownership) { | |
|
10 | Safe.ArgumentNotNull(operation, "operation"); | |
|
11 | ||
|
12 | m_initial = operation; | |
|
13 | m_current = operation; | |
|
14 | m_ownership = ownership; | |
|
15 | } | |
|
16 | ||
|
17 | public LogicalOperation CurrentOperation { | |
|
18 | get { return m_current; } | |
|
19 | } | |
|
20 | ||
|
21 | public void BeginLogicalOperation(string name) { | |
|
22 | m_current = new LogicalOperation(name, m_current); | |
|
23 | } | |
|
24 | ||
|
25 | public LogicalOperation DetachLogicalOperation() { | |
|
26 | var detached = m_current; | |
|
27 | if (m_current != LogicalOperation.EMPTY) { | |
|
28 | if (m_current != m_initial) | |
|
29 | m_current = m_current.Parent; | |
|
30 | else if (m_ownership) | |
|
31 | m_current = LogicalOperation.EMPTY; | |
|
32 | else { | |
|
33 | TraceLog.TraceWarning("DetachLogicalOperation can't be applied in the current context"); | |
|
34 | detached = LogicalOperation.EMPTY; | |
|
35 | } | |
|
36 | } else { | |
|
37 | TraceLog.TraceWarning("DetachLogicalOperation can't be applied in the current context"); | |
|
38 | } | |
|
39 | ||
|
40 | return detached; | |
|
41 | } | |
|
42 | ||
|
43 | public LogicalOperation EndLogicalOperation() { | |
|
44 | var current = m_current; | |
|
45 | if (m_current != LogicalOperation.EMPTY && (m_current != m_initial || m_ownership)) { | |
|
46 | m_current = m_current.Parent; | |
|
47 | if (current == m_initial) { | |
|
48 | // we have complete the owned operation | |
|
49 | m_initial = m_current; | |
|
50 | m_ownership = false; | |
|
51 | } | |
|
52 | } else { | |
|
53 | TraceLog.TraceWarning("EndLogicalOperation can't be applied in the current context"); | |
|
54 | } | |
|
55 | return current; | |
|
56 | } | |
|
57 | ||
|
58 | public void Leave() { | |
|
59 | ||
|
60 | if ((m_ownership && m_current != LogicalOperation.EMPTY) || (!m_ownership && m_current != m_initial) ) | |
|
61 | TraceLog.TraceWarning("Trying to leave unfinished logical operation {0}", m_current.Name); | |
|
62 | } | |
|
63 | } | |
|
64 | } | |
|
65 |
@@ -0,0 +1,23 | |||
|
1 | using System.Collections.Generic; | |
|
2 | using System.Linq; | |
|
3 | using Implab.Automaton; | |
|
4 | ||
|
5 | namespace Implab.Formats { | |
|
6 | public class ByteAlphabet : IndexedAlphabetBase<byte> { | |
|
7 | ||
|
8 | #region implemented abstract members of IndexedAlphabetBase | |
|
9 | ||
|
10 | public override int GetSymbolIndex(byte symbol) { | |
|
11 | return (int)symbol; | |
|
12 | } | |
|
13 | ||
|
14 | public IEnumerable<byte> InputSymbols { | |
|
15 | get { | |
|
16 | return Enumerable.Range(byte.MinValue, byte.MaxValue).Cast<byte>(); | |
|
17 | } | |
|
18 | } | |
|
19 | ||
|
20 | #endregion | |
|
21 | } | |
|
22 | } | |
|
23 |
@@ -0,0 +1,16 | |||
|
1 | using System.Collections.Generic; | |
|
2 | using System.Linq; | |
|
3 | using Implab.Automaton; | |
|
4 | ||
|
5 | namespace Implab.Formats { | |
|
6 | public class CharAlphabet: IndexedAlphabetBase<char> { | |
|
7 | ||
|
8 | public override int GetSymbolIndex(char symbol) { | |
|
9 | return symbol; | |
|
10 | } | |
|
11 | ||
|
12 | public IEnumerable<char> InputSymbols { | |
|
13 | get { return Enumerable.Range(char.MinValue, char.MaxValue).Cast<char>(); } | |
|
14 | } | |
|
15 | } | |
|
16 | } |
@@ -0,0 +1,99 | |||
|
1 | using Implab; | |
|
2 | using System; | |
|
3 | using System.Collections.Generic; | |
|
4 | using System.Linq; | |
|
5 | using Implab.Automaton; | |
|
6 | using Implab.Automaton.RegularExpressions; | |
|
7 | ||
|
8 | namespace Implab.Formats { | |
|
9 | /// <summary> | |
|
10 | /// Базовый абстрактный класс. Грамматика, позволяет формулировать выражения над алфавитом типа <c>char</c>. | |
|
11 | /// </summary> | |
|
12 | public abstract class Grammar<TSymbol> { | |
|
13 | ||
|
14 | protected abstract IAlphabetBuilder<TSymbol> AlphabetBuilder { | |
|
15 | get; | |
|
16 | } | |
|
17 | ||
|
18 | protected SymbolToken UnclassifiedToken() { | |
|
19 | return new SymbolToken(AutomatonConst.UNCLASSIFIED_INPUT); | |
|
20 | } | |
|
21 | ||
|
22 | protected void DefineAlphabet(IEnumerable<TSymbol> alphabet) { | |
|
23 | Safe.ArgumentNotNull(alphabet, "alphabet"); | |
|
24 | ||
|
25 | foreach (var ch in alphabet) | |
|
26 | AlphabetBuilder.DefineSymbol(ch); | |
|
27 | } | |
|
28 | ||
|
29 | protected Token SymbolToken(TSymbol symbol) { | |
|
30 | return Token.New(TranslateOrAdd(symbol)); | |
|
31 | } | |
|
32 | ||
|
33 | protected Token SymbolToken(IEnumerable<TSymbol> symbols) { | |
|
34 | Safe.ArgumentNotNull(symbols, "symbols"); | |
|
35 | ||
|
36 | return Token.New(TranslateOrAdd(symbols).ToArray()); | |
|
37 | } | |
|
38 | ||
|
39 | protected Token SymbolSetToken(params TSymbol[] set) { | |
|
40 | return SymbolToken(set); | |
|
41 | } | |
|
42 | ||
|
43 | int TranslateOrAdd(TSymbol ch) { | |
|
44 | var t = AlphabetBuilder.Translate(ch); | |
|
45 | if (t == AutomatonConst.UNCLASSIFIED_INPUT) | |
|
46 | t = AlphabetBuilder.DefineSymbol(ch); | |
|
47 | return t; | |
|
48 | } | |
|
49 | ||
|
50 | IEnumerable<int> TranslateOrAdd(IEnumerable<TSymbol> symbols) { | |
|
51 | return symbols.Distinct().Select(TranslateOrAdd); | |
|
52 | } | |
|
53 | ||
|
54 | int TranslateOrDie(TSymbol ch) { | |
|
55 | var t = AlphabetBuilder.Translate(ch); | |
|
56 | if (t == AutomatonConst.UNCLASSIFIED_INPUT) | |
|
57 | throw new ApplicationException(String.Format("Symbol '{0}' is UNCLASSIFIED", ch)); | |
|
58 | return t; | |
|
59 | } | |
|
60 | ||
|
61 | IEnumerable<int> TranslateOrDie(IEnumerable<TSymbol> symbols) { | |
|
62 | return symbols.Distinct().Select(TranslateOrDie); | |
|
63 | } | |
|
64 | ||
|
65 | protected Token SymbolTokenExcept(IEnumerable<TSymbol> symbols) { | |
|
66 | Safe.ArgumentNotNull(symbols, "symbols"); | |
|
67 | ||
|
68 | return Token.New( Enumerable.Range(0, AlphabetBuilder.Count).Except(TranslateOrDie(symbols)).ToArray() ); | |
|
69 | } | |
|
70 | ||
|
71 | protected abstract IndexedAlphabetBase<TSymbol> CreateAlphabet(); | |
|
72 | ||
|
73 | protected ScannerContext<TTag> BuildScannerContext<TTag>(Token regexp) { | |
|
74 | ||
|
75 | var dfa = new RegularDFA<TSymbol, TTag>(AlphabetBuilder); | |
|
76 | ||
|
77 | var visitor = new RegularExpressionVisitor<TTag>(dfa); | |
|
78 | regexp.Accept(visitor); | |
|
79 | visitor.BuildDFA(); | |
|
80 | ||
|
81 | if (dfa.IsFinalState(dfa.InitialState)) | |
|
82 | throw new ApplicationException("The specified language contains empty token"); | |
|
83 | ||
|
84 | var ab = CreateAlphabet(); | |
|
85 | var optimal = dfa.Optimize(ab); | |
|
86 | ||
|
87 | return new ScannerContext<TTag>( | |
|
88 | optimal.CreateTransitionTable(), | |
|
89 | optimal.CreateFinalStateTable(), | |
|
90 | optimal.CreateTagTable(), | |
|
91 | optimal.InitialState, | |
|
92 | ab.GetTranslationMap() | |
|
93 | ); | |
|
94 | } | |
|
95 | ||
|
96 | } | |
|
97 | ||
|
98 | ||
|
99 | } |
@@ -0,0 +1,11 | |||
|
1 | namespace Implab.Formats.JSON { | |
|
2 | /// <summary> | |
|
3 | /// internal | |
|
4 | /// </summary> | |
|
5 | enum JSONElementContext { | |
|
6 | None, | |
|
7 | Object, | |
|
8 | Array, | |
|
9 | Closed | |
|
10 | } | |
|
11 | } |
@@ -0,0 +1,28 | |||
|
1 | namespace Implab.Formats.JSON { | |
|
2 | /// <summary> | |
|
3 | /// Тип элемента на котором находится парсер | |
|
4 | /// </summary> | |
|
5 | public enum JSONElementType { | |
|
6 | None, | |
|
7 | /// <summary> | |
|
8 | /// Начало объекта | |
|
9 | /// </summary> | |
|
10 | BeginObject, | |
|
11 | /// <summary> | |
|
12 | /// Конец объекта | |
|
13 | /// </summary> | |
|
14 | EndObject, | |
|
15 | /// <summary> | |
|
16 | /// Начало массива | |
|
17 | /// </summary> | |
|
18 | BeginArray, | |
|
19 | /// <summary> | |
|
20 | /// Конец массива | |
|
21 | /// </summary> | |
|
22 | EndArray, | |
|
23 | /// <summary> | |
|
24 | /// Простое значение | |
|
25 | /// </summary> | |
|
26 | Value | |
|
27 | } | |
|
28 | } |
@@ -0,0 +1,121 | |||
|
1 | using System.Linq; | |
|
2 | using Implab.Automaton.RegularExpressions; | |
|
3 | using System; | |
|
4 | using Implab.Automaton; | |
|
5 | using Implab.Components; | |
|
6 | ||
|
7 | namespace Implab.Formats.JSON { | |
|
8 | class JSONGrammar : Grammar<char> { | |
|
9 | public enum TokenType { | |
|
10 | None, | |
|
11 | BeginObject, | |
|
12 | EndObject, | |
|
13 | BeginArray, | |
|
14 | EndArray, | |
|
15 | String, | |
|
16 | Number, | |
|
17 | Literal, | |
|
18 | NameSeparator, | |
|
19 | ValueSeparator, | |
|
20 | Whitespace, | |
|
21 | ||
|
22 | StringBound, | |
|
23 | EscapedChar, | |
|
24 | UnescapedChar, | |
|
25 | EscapedUnicode | |
|
26 | } | |
|
27 | ||
|
28 | static LazyAndWeak<JSONGrammar> _instance = new LazyAndWeak<JSONGrammar>(() => new JSONGrammar()); | |
|
29 | ||
|
30 | public static JSONGrammar Instance { | |
|
31 | get { return _instance.Value; } | |
|
32 | } | |
|
33 | ||
|
34 | readonly ScannerContext<TokenType> m_jsonExpression; | |
|
35 | readonly ScannerContext<TokenType> m_stringExpression; | |
|
36 | readonly CharAlphabet m_defaultAlphabet = new CharAlphabet(); | |
|
37 | ||
|
38 | public JSONGrammar() { | |
|
39 | DefineAlphabet(Enumerable.Range(0, 0x20).Select(x => (char)x)); | |
|
40 | var hexDigit = SymbolRangeToken('a','f').Or(SymbolRangeToken('A','F')).Or(SymbolRangeToken('0','9')); | |
|
41 | var digit9 = SymbolRangeToken('1', '9'); | |
|
42 | var zero = SymbolToken('0'); | |
|
43 | var digit = zero.Or(digit9); | |
|
44 | var dot = SymbolToken('.'); | |
|
45 | var minus = SymbolToken('-'); | |
|
46 | var sign = SymbolSetToken('-', '+'); | |
|
47 | var expSign = SymbolSetToken('e', 'E'); | |
|
48 | var letters = SymbolRangeToken('a', 'z'); | |
|
49 | var integer = zero.Or(digit9.Cat(digit.EClosure())); | |
|
50 | var frac = dot.Cat(digit.Closure()); | |
|
51 | var exp = expSign.Cat(sign.Optional()).Cat(digit.Closure()); | |
|
52 | var quote = SymbolToken('"'); | |
|
53 | var backSlash = SymbolToken('\\'); | |
|
54 | var specialEscapeChars = SymbolSetToken('\\', '"', '/', 'b', 'f', 't', 'n', 'r'); | |
|
55 | var unicodeEspace = SymbolToken('u').Cat(hexDigit.Repeat(4)); | |
|
56 | var whitespace = SymbolSetToken('\n', '\r', '\t', ' ').EClosure(); | |
|
57 | var beginObject = whitespace.Cat(SymbolToken('{')).Cat(whitespace); | |
|
58 | var endObject = whitespace.Cat(SymbolToken('}')).Cat(whitespace); | |
|
59 | var beginArray = whitespace.Cat(SymbolToken('[')).Cat(whitespace); | |
|
60 | var endArray = whitespace.Cat(SymbolToken(']')).Cat(whitespace); | |
|
61 | var nameSep = whitespace.Cat(SymbolToken(':')).Cat(whitespace); | |
|
62 | var valueSep = whitespace.Cat(SymbolToken(',')).Cat(whitespace); | |
|
63 | ||
|
64 | var number = minus.Optional().Cat(integer).Cat(frac.Optional()).Cat(exp.Optional()); | |
|
65 | var literal = letters.Closure(); | |
|
66 | var unescaped = SymbolTokenExcept(Enumerable.Range(0, 0x20).Union(new int[] { '\\', '"' }).Select(x => (char)x)); | |
|
67 | ||
|
68 | var jsonExpression = | |
|
69 | number.Tag(TokenType.Number) | |
|
70 | .Or(literal.Tag(TokenType.Literal)) | |
|
71 | .Or(quote.Tag(TokenType.StringBound)) | |
|
72 | .Or(beginObject.Tag(TokenType.BeginObject)) | |
|
73 | .Or(endObject.Tag(TokenType.EndObject)) | |
|
74 | .Or(beginArray.Tag(TokenType.BeginArray)) | |
|
75 | .Or(endArray.Tag(TokenType.EndArray)) | |
|
76 | .Or(nameSep.Tag(TokenType.NameSeparator)) | |
|
77 | .Or(valueSep.Tag(TokenType.ValueSeparator)) | |
|
78 | .Or(SymbolSetToken('\n', '\r', '\t', ' ').Closure().Tag(TokenType.Whitespace)); | |
|
79 | ||
|
80 | ||
|
81 | var jsonStringExpression = | |
|
82 | quote.Tag(TokenType.StringBound) | |
|
83 | .Or(backSlash.Cat(specialEscapeChars).Tag(TokenType.EscapedChar)) | |
|
84 | .Or(backSlash.Cat(unicodeEspace).Tag(TokenType.EscapedUnicode)) | |
|
85 | .Or(unescaped.Closure().Tag(TokenType.UnescapedChar)); | |
|
86 | ||
|
87 | ||
|
88 | m_jsonExpression = BuildScannerContext<TokenType>(jsonExpression); | |
|
89 | m_stringExpression = BuildScannerContext<TokenType>(jsonStringExpression); | |
|
90 | ||
|
91 | ||
|
92 | } | |
|
93 | ||
|
94 | protected override IAlphabetBuilder<char> AlphabetBuilder { | |
|
95 | get { | |
|
96 | return m_defaultAlphabet; | |
|
97 | } | |
|
98 | } | |
|
99 | ||
|
100 | public ScannerContext<TokenType> JsonExpression { | |
|
101 | get { | |
|
102 | return m_jsonExpression; | |
|
103 | } | |
|
104 | } | |
|
105 | ||
|
106 | public ScannerContext<TokenType> JsonStringExpression { | |
|
107 | get { | |
|
108 | return m_stringExpression; | |
|
109 | } | |
|
110 | } | |
|
111 | ||
|
112 | Token SymbolRangeToken(char start, char stop) { | |
|
113 | return SymbolToken(Enumerable.Range(start, stop - start + 1).Select(x => (char)x)); | |
|
114 | } | |
|
115 | ||
|
116 | protected override IndexedAlphabetBase<char> CreateAlphabet() { | |
|
117 | return new CharAlphabet(); | |
|
118 | } | |
|
119 | ||
|
120 | } | |
|
121 | } |
@@ -0,0 +1,293 | |||
|
1 | using System; | |
|
2 | using System.Diagnostics; | |
|
3 | using System.IO; | |
|
4 | using Implab.Automaton; | |
|
5 | using Implab.Automaton.RegularExpressions; | |
|
6 | using System.Linq; | |
|
7 | using Implab.Components; | |
|
8 | using System.Collections.Generic; | |
|
9 | ||
|
10 | namespace Implab.Formats.JSON { | |
|
11 | /// <summary> | |
|
12 | /// Pull парсер JSON данных. | |
|
13 | /// </summary> | |
|
14 | /// <remarks> | |
|
15 | /// Следует отметить отдельную интерпретацию свойства <see cref="Level"/>, | |
|
16 | /// оно означает текущий уровень вложенности объектов, однако закрывающий | |
|
17 | /// элемент объекта и массива имеет уровень меньше, чем сам объект. | |
|
18 | /// <code> | |
|
19 | /// { // Level = 1 | |
|
20 | /// "name" : "Peter", // Level = 1 | |
|
21 | /// "address" : { // Level = 2 | |
|
22 | /// city : "Stern" // Level = 2 | |
|
23 | /// } // Level = 1 | |
|
24 | /// } // Level = 0 | |
|
25 | /// </code> | |
|
26 | /// </remarks> | |
|
27 | public class JSONParser : Disposable { | |
|
28 | ||
|
29 | enum MemberContext { | |
|
30 | MemberName, | |
|
31 | MemberValue | |
|
32 | } | |
|
33 | ||
|
34 | #region Parser rules | |
|
35 | struct ParserContext { | |
|
36 | readonly int[,] m_dfa; | |
|
37 | int m_state; | |
|
38 | ||
|
39 | readonly JSONElementContext m_elementContext; | |
|
40 | ||
|
41 | public ParserContext(int[,] dfa, int state, JSONElementContext context) { | |
|
42 | m_dfa = dfa; | |
|
43 | m_state = state; | |
|
44 | m_elementContext = context; | |
|
45 | } | |
|
46 | ||
|
47 | public bool Move(JsonTokenType token) { | |
|
48 | var next = m_dfa[m_state, (int)token]; | |
|
49 | if (next == AutomatonConst.UNREACHABLE_STATE) | |
|
50 | return false; | |
|
51 | m_state = next; | |
|
52 | return true; | |
|
53 | } | |
|
54 | ||
|
55 | public JSONElementContext ElementContext { | |
|
56 | get { return m_elementContext; } | |
|
57 | } | |
|
58 | } | |
|
59 | ||
|
60 | static readonly ParserContext _jsonContext; | |
|
61 | static readonly ParserContext _objectContext; | |
|
62 | static readonly ParserContext _arrayContext; | |
|
63 | ||
|
64 | static JSONParser() { | |
|
65 | ||
|
66 | var valueExpression = MakeToken(JsonTokenType.BeginArray, JsonTokenType.BeginObject, JsonTokenType.Literal, JsonTokenType.Number, JsonTokenType.String); | |
|
67 | var memberExpression = MakeToken(JsonTokenType.String).Cat(MakeToken(JsonTokenType.NameSeparator)).Cat(valueExpression); | |
|
68 | ||
|
69 | var objectExpression = memberExpression | |
|
70 | .Cat( | |
|
71 | MakeToken(JsonTokenType.ValueSeparator) | |
|
72 | .Cat(memberExpression) | |
|
73 | .EClosure() | |
|
74 | ) | |
|
75 | .Optional() | |
|
76 | .Cat(MakeToken(JsonTokenType.EndObject)) | |
|
77 | .End(); | |
|
78 | ||
|
79 | var arrayExpression = valueExpression | |
|
80 | .Cat( | |
|
81 | MakeToken(JsonTokenType.ValueSeparator) | |
|
82 | .Cat(valueExpression) | |
|
83 | .EClosure() | |
|
84 | ) | |
|
85 | .Optional() | |
|
86 | .Cat(MakeToken(JsonTokenType.EndArray)) | |
|
87 | .End(); | |
|
88 | ||
|
89 | var jsonExpression = valueExpression.End(); | |
|
90 | ||
|
91 | _jsonContext = CreateParserContext(jsonExpression, JSONElementContext.None); | |
|
92 | _objectContext = CreateParserContext(objectExpression, JSONElementContext.Object); | |
|
93 | _arrayContext = CreateParserContext(arrayExpression, JSONElementContext.Array); | |
|
94 | } | |
|
95 | ||
|
96 | static Token MakeToken(params JsonTokenType[] input) { | |
|
97 | return Token.New( input.Select(t => (int)t).ToArray() ); | |
|
98 | } | |
|
99 | ||
|
100 | static ParserContext CreateParserContext(Token expr, JSONElementContext context) { | |
|
101 | ||
|
102 | var dfa = new DFATable(); | |
|
103 | var builder = new RegularExpressionVisitor(dfa); | |
|
104 | expr.Accept(builder); | |
|
105 | builder.BuildDFA(); | |
|
106 | ||
|
107 | return new ParserContext(dfa.CreateTransitionTable(), dfa.InitialState, context); | |
|
108 | } | |
|
109 | ||
|
110 | #endregion | |
|
111 | ||
|
112 | readonly JSONScanner m_scanner; | |
|
113 | MemberContext m_memberContext; | |
|
114 | ||
|
115 | JSONElementType m_elementType; | |
|
116 | object m_elementValue; | |
|
117 | string m_memberName = String.Empty; | |
|
118 | ||
|
119 | Stack<ParserContext> m_stack = new Stack<ParserContext>(); | |
|
120 | ParserContext m_context = _jsonContext; | |
|
121 | ||
|
122 | /// <summary> | |
|
123 | /// Создает новый парсер на основе строки, содержащей JSON | |
|
124 | /// </summary> | |
|
125 | /// <param name="text"></param> | |
|
126 | public JSONParser(string text) { | |
|
127 | Safe.ArgumentNotEmpty(text, "text"); | |
|
128 | m_scanner = new JSONScanner(text); | |
|
129 | } | |
|
130 | ||
|
131 | /// <summary> | |
|
132 | /// Создает новый экземпляр парсера, на основе текстового потока. | |
|
133 | /// </summary> | |
|
134 | /// <param name="reader">Текстовый поток.</param> | |
|
135 | public JSONParser(TextReader reader) { | |
|
136 | Safe.ArgumentNotNull(reader, "reader"); | |
|
137 | m_scanner = new JSONScanner(reader); | |
|
138 | } | |
|
139 | ||
|
140 | public int Level { | |
|
141 | get { return m_stack.Count; } | |
|
142 | } | |
|
143 | ||
|
144 | /// <summary> | |
|
145 | /// Тип текущего элемента на котором стоит парсер. | |
|
146 | /// </summary> | |
|
147 | public JSONElementType ElementType { | |
|
148 | get { return m_elementType; } | |
|
149 | } | |
|
150 | ||
|
151 | /// <summary> | |
|
152 | /// Имя элемента - имя свойства родительского контейнера. Для элементов массивов и корневого всегда | |
|
153 | /// пустая строка. | |
|
154 | /// </summary> | |
|
155 | public string ElementName { | |
|
156 | get { return m_memberName; } | |
|
157 | } | |
|
158 | ||
|
159 | /// <summary> | |
|
160 | /// Значение элемента. Только для элементов типа <see cref="JSONElementType.Value"/>, для остальных <c>null</c> | |
|
161 | /// </summary> | |
|
162 | public object ElementValue { | |
|
163 | get { return m_elementValue; } | |
|
164 | } | |
|
165 | ||
|
166 | /// <summary> | |
|
167 | /// Читает слеюудущий объект из потока | |
|
168 | /// </summary> | |
|
169 | /// <returns><c>true</c> - операция чтения прошла успешно, <c>false</c> - конец данных</returns> | |
|
170 | public bool Read() { | |
|
171 | object tokenValue; | |
|
172 | JsonTokenType tokenType; | |
|
173 | ||
|
174 | m_memberName = String.Empty; | |
|
175 | ||
|
176 | while (m_scanner.ReadToken(out tokenValue, out tokenType)) { | |
|
177 | if(!m_context.Move(tokenType)) | |
|
178 | UnexpectedToken(tokenValue, tokenType); | |
|
179 | ||
|
180 | switch (tokenType) { | |
|
181 | case JsonTokenType.BeginObject: | |
|
182 | m_stack.Push(m_context); | |
|
183 | m_context = _objectContext; | |
|
184 | ||
|
185 | m_elementValue = null; | |
|
186 | m_memberContext = MemberContext.MemberName; | |
|
187 | m_elementType = JSONElementType.BeginObject; | |
|
188 | return true; | |
|
189 | case JsonTokenType.EndObject: | |
|
190 | if (m_stack.Count == 0) | |
|
191 | UnexpectedToken(tokenValue, tokenType); | |
|
192 | m_context = m_stack.Pop(); | |
|
193 | ||
|
194 | m_elementValue = null; | |
|
195 | m_elementType = JSONElementType.EndObject; | |
|
196 | return true; | |
|
197 | case JsonTokenType.BeginArray: | |
|
198 | m_stack.Push(m_context); | |
|
199 | m_context = _arrayContext; | |
|
200 | ||
|
201 | m_elementValue = null; | |
|
202 | m_memberContext = MemberContext.MemberValue; | |
|
203 | m_elementType = JSONElementType.BeginArray; | |
|
204 | return true; | |
|
205 | case JsonTokenType.EndArray: | |
|
206 | if (m_stack.Count == 0) | |
|
207 | UnexpectedToken(tokenValue, tokenType); | |
|
208 | m_context = m_stack.Pop(); | |
|
209 | ||
|
210 | m_elementValue = null; | |
|
211 | m_elementType = JSONElementType.EndArray; | |
|
212 | return true; | |
|
213 | case JsonTokenType.String: | |
|
214 | if (m_memberContext == MemberContext.MemberName) { | |
|
215 | m_memberName = (string)tokenValue; | |
|
216 | break; | |
|
217 | } | |
|
218 | m_elementType = JSONElementType.Value; | |
|
219 | m_elementValue = tokenValue; | |
|
220 | return true; | |
|
221 | case JsonTokenType.Number: | |
|
222 | m_elementType = JSONElementType.Value; | |
|
223 | m_elementValue = tokenValue; | |
|
224 | return true; | |
|
225 | case JsonTokenType.Literal: | |
|
226 | m_elementType = JSONElementType.Value; | |
|
227 | m_elementValue = ParseLiteral((string)tokenValue); | |
|
228 | return true; | |
|
229 | case JsonTokenType.NameSeparator: | |
|
230 | m_memberContext = MemberContext.MemberValue; | |
|
231 | break; | |
|
232 | case JsonTokenType.ValueSeparator: | |
|
233 | m_memberContext = m_context.ElementContext == JSONElementContext.Object ? MemberContext.MemberName : MemberContext.MemberValue; | |
|
234 | break; | |
|
235 | default: | |
|
236 | UnexpectedToken(tokenValue, tokenType); | |
|
237 | break; | |
|
238 | } | |
|
239 | } | |
|
240 | if (m_context.ElementContext != JSONElementContext.None) | |
|
241 | throw new ParserException("Unexpedted end of data"); | |
|
242 | ||
|
243 | EOF = true; | |
|
244 | ||
|
245 | return false; | |
|
246 | } | |
|
247 | ||
|
248 | object ParseLiteral(string literal) { | |
|
249 | switch (literal) { | |
|
250 | case "null": | |
|
251 | return null; | |
|
252 | case "false": | |
|
253 | return false; | |
|
254 | case "true": | |
|
255 | return true; | |
|
256 | default: | |
|
257 | UnexpectedToken(literal, JsonTokenType.Literal); | |
|
258 | return null; // avoid compliler error | |
|
259 | } | |
|
260 | } | |
|
261 | ||
|
262 | void UnexpectedToken(object value, JsonTokenType tokenType) { | |
|
263 | throw new ParserException(String.Format("Unexpected token {0}: '{1}'", tokenType, value)); | |
|
264 | } | |
|
265 | ||
|
266 | ||
|
267 | /// <summary> | |
|
268 | /// Признак конца потока | |
|
269 | /// </summary> | |
|
270 | public bool EOF { | |
|
271 | get; | |
|
272 | private set; | |
|
273 | } | |
|
274 | ||
|
275 | protected override void Dispose(bool disposing) { | |
|
276 | if (disposing) | |
|
277 | Safe.Dispose(m_scanner); | |
|
278 | } | |
|
279 | ||
|
280 | /// <summary> | |
|
281 | /// Переходит в конец текущего объекта. | |
|
282 | /// </summary> | |
|
283 | public void SeekElementEnd() { | |
|
284 | var level = Level - 1; | |
|
285 | ||
|
286 | Debug.Assert(level >= 0); | |
|
287 | ||
|
288 | while (Level != level) | |
|
289 | Read(); | |
|
290 | } | |
|
291 | } | |
|
292 | ||
|
293 | } |
@@ -0,0 +1,109 | |||
|
1 | using System; | |
|
2 | using System.Globalization; | |
|
3 | using Implab.Automaton; | |
|
4 | using System.Text; | |
|
5 | using Implab.Components; | |
|
6 | using System.IO; | |
|
7 | ||
|
8 | namespace Implab.Formats.JSON { | |
|
9 | /// <summary> | |
|
10 | /// Сканнер (лексер), разбивающий поток символов на токены JSON. | |
|
11 | /// </summary> | |
|
12 | public class JSONScanner : Disposable { | |
|
13 | readonly StringBuilder m_builder = new StringBuilder(); | |
|
14 | ||
|
15 | readonly ScannerContext<JSONGrammar.TokenType> m_jsonContext = JSONGrammar.Instance.JsonExpression; | |
|
16 | readonly ScannerContext<JSONGrammar.TokenType> m_stringContext = JSONGrammar.Instance.JsonStringExpression; | |
|
17 | ||
|
18 | ||
|
19 | readonly TextScanner m_scanner; | |
|
20 | ||
|
21 | /// <summary> | |
|
22 | /// Создает новый экземпляр сканнера | |
|
23 | /// </summary> | |
|
24 | public JSONScanner(string text) { | |
|
25 | Safe.ArgumentNotEmpty(text, "text"); | |
|
26 | ||
|
27 | m_scanner = new StringScanner(text); | |
|
28 | } | |
|
29 | ||
|
30 | public JSONScanner(TextReader reader, int bufferMax, int chunkSize) { | |
|
31 | Safe.ArgumentNotNull(reader, "reader"); | |
|
32 | ||
|
33 | m_scanner = new ReaderScanner(reader, bufferMax, chunkSize); | |
|
34 | } | |
|
35 | ||
|
36 | public JSONScanner(TextReader reader) : this(reader, 1024*1024, 1024){ | |
|
37 | } | |
|
38 | ||
|
39 | /// <summary> | |
|
40 | /// Читает следующий лексический элемент из входных данных. | |
|
41 | /// </summary> | |
|
42 | /// <param name="tokenValue">Возвращает значение прочитанного токена.</param> | |
|
43 | /// <param name="tokenType">Возвращает тип прочитанного токена.</param> | |
|
44 | /// <returns><c>true</c> - чтение произведено успешно. <c>false</c> - достигнут конец входных данных</returns> | |
|
45 | /// <remarks>В случе если токен не распознается, возникает исключение. Значения токенов обрабатываются, т.е. | |
|
46 | /// в строках обрабатываются экранированные символы, числа становтся типа double.</remarks> | |
|
47 | public bool ReadToken(out object tokenValue, out JsonTokenType tokenType) { | |
|
48 | JSONGrammar.TokenType[] tag; | |
|
49 | while (m_jsonContext.Execute(m_scanner, out tag)) { | |
|
50 | switch (tag[0]) { | |
|
51 | case JSONGrammar.TokenType.StringBound: | |
|
52 | tokenValue = ReadString(); | |
|
53 | tokenType = JsonTokenType.String; | |
|
54 | break; | |
|
55 | case JSONGrammar.TokenType.Number: | |
|
56 | tokenValue = Double.Parse(m_scanner.GetTokenValue(), CultureInfo.InvariantCulture); | |
|
57 | tokenType = JsonTokenType.Number; | |
|
58 | break; | |
|
59 | case JSONGrammar.TokenType.Whitespace: | |
|
60 | continue; | |
|
61 | default: | |
|
62 | tokenType = (JsonTokenType)tag[0]; | |
|
63 | tokenValue = m_scanner.GetTokenValue(); | |
|
64 | break; | |
|
65 | } | |
|
66 | return true; | |
|
67 | } | |
|
68 | tokenValue = null; | |
|
69 | tokenType = JsonTokenType.None; | |
|
70 | return false; | |
|
71 | } | |
|
72 | ||
|
73 | string ReadString() { | |
|
74 | int pos = 0; | |
|
75 | var buf = new char[6]; // the buffer for unescaping chars | |
|
76 | ||
|
77 | JSONGrammar.TokenType[] tag; | |
|
78 | m_builder.Clear(); | |
|
79 | ||
|
80 | while (m_stringContext.Execute(m_scanner, out tag)) { | |
|
81 | switch (tag[0]) { | |
|
82 | case JSONGrammar.TokenType.StringBound: | |
|
83 | return m_builder.ToString(); | |
|
84 | case JSONGrammar.TokenType.UnescapedChar: | |
|
85 | m_scanner.CopyTokenTo(m_builder); | |
|
86 | break; | |
|
87 | case JSONGrammar.TokenType.EscapedUnicode: // \xXXXX - unicode escape sequence | |
|
88 | m_scanner.CopyTokenTo(buf, 0); | |
|
89 | m_builder.Append(StringTranslator.TranslateHexUnicode(buf, 2)); | |
|
90 | pos++; | |
|
91 | break; | |
|
92 | case JSONGrammar.TokenType.EscapedChar: // \t - escape sequence | |
|
93 | m_scanner.CopyTokenTo(buf, 0); | |
|
94 | m_builder.Append(StringTranslator.TranslateEscapedChar(buf[1])); | |
|
95 | break; | |
|
96 | } | |
|
97 | ||
|
98 | } | |
|
99 | ||
|
100 | throw new ParserException("Unexpected end of data"); | |
|
101 | } | |
|
102 | ||
|
103 | protected override void Dispose(bool disposing) { | |
|
104 | if (disposing) | |
|
105 | Safe.Dispose(m_scanner); | |
|
106 | base.Dispose(disposing); | |
|
107 | } | |
|
108 | } | |
|
109 | } |
@@ -0,0 +1,319 | |||
|
1 | using System; | |
|
2 | using System.Collections.Generic; | |
|
3 | using System.IO; | |
|
4 | using System.Globalization; | |
|
5 | using System.Diagnostics; | |
|
6 | ||
|
7 | namespace Implab.Formats.JSON { | |
|
8 | public class JSONWriter { | |
|
9 | struct Context { | |
|
10 | public bool needComma; | |
|
11 | public JSONElementContext element; | |
|
12 | } | |
|
13 | Stack<Context> m_contextStack = new Stack<Context>(); | |
|
14 | Context m_context; | |
|
15 | ||
|
16 | const int BUFFER_SIZE = 64; | |
|
17 | ||
|
18 | TextWriter m_writer; | |
|
19 | readonly bool m_indent = true; | |
|
20 | readonly int m_indentSize = 4; | |
|
21 | readonly char[] m_buffer = new char[BUFFER_SIZE]; | |
|
22 | int m_bufferPos; | |
|
23 | ||
|
24 | static readonly char [] _hex = { '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'a', 'b', 'c', 'd', 'e', 'f' }; | |
|
25 | static readonly char [] _escapeBKS, | |
|
26 | _escapeFWD, | |
|
27 | _escapeCR, | |
|
28 | _escapeNL, | |
|
29 | _escapeTAB, | |
|
30 | _escapeBSLASH, | |
|
31 | _escapeQ; | |
|
32 | ||
|
33 | static JSONWriter() { | |
|
34 | _escapeBKS = "\\b".ToCharArray(); | |
|
35 | _escapeFWD = "\\f".ToCharArray(); | |
|
36 | _escapeCR = "\\r".ToCharArray(); | |
|
37 | _escapeNL = "\\n".ToCharArray(); | |
|
38 | _escapeTAB = "\\t".ToCharArray(); | |
|
39 | _escapeBSLASH = "\\\\".ToCharArray(); | |
|
40 | _escapeQ = "\\\"".ToCharArray(); | |
|
41 | } | |
|
42 | ||
|
43 | public JSONWriter(TextWriter writer) { | |
|
44 | Safe.ArgumentNotNull(writer, "writer"); | |
|
45 | m_writer = writer; | |
|
46 | } | |
|
47 | ||
|
48 | public JSONWriter(TextWriter writer, bool indent) { | |
|
49 | Safe.ArgumentNotNull(writer, "writer"); | |
|
50 | ||
|
51 | m_writer = writer; | |
|
52 | m_indent = indent; | |
|
53 | } | |
|
54 | ||
|
55 | void WriteIndent() { | |
|
56 | if (m_indent) { | |
|
57 | var indent = new char[m_contextStack.Count * m_indentSize + 1]; | |
|
58 | indent[0] = '\n'; | |
|
59 | for (int i = 1; i < indent.Length; i++) | |
|
60 | indent[i] = ' '; | |
|
61 | m_writer.Write(new String(indent)); | |
|
62 | } else { | |
|
63 | m_writer.Write(' '); | |
|
64 | } | |
|
65 | } | |
|
66 | ||
|
67 | void WriteMemberName(string name) { | |
|
68 | Safe.ArgumentNotEmpty(name, "name"); | |
|
69 | if (m_context.element != JSONElementContext.Object) | |
|
70 | OperationNotApplicable("WriteMember"); | |
|
71 | if (m_context.needComma) | |
|
72 | m_writer.Write(","); | |
|
73 | ||
|
74 | WriteIndent(); | |
|
75 | m_context.needComma = true; | |
|
76 | Write(name); | |
|
77 | m_writer.Write(" : "); | |
|
78 | } | |
|
79 | ||
|
80 | public void WriteValue(string name, string value) { | |
|
81 | WriteMemberName(name); | |
|
82 | Write(value); | |
|
83 | } | |
|
84 | ||
|
85 | public void WriteValue(string name, bool value) { | |
|
86 | WriteMemberName(name); | |
|
87 | Write(value); | |
|
88 | } | |
|
89 | ||
|
90 | public void WriteValue(string name, double value) { | |
|
91 | WriteMemberName(name); | |
|
92 | Write(value); | |
|
93 | } | |
|
94 | ||
|
95 | public void WriteValue(string value) { | |
|
96 | if (m_context.element == JSONElementContext.Array) { | |
|
97 | ||
|
98 | if (m_context.needComma) | |
|
99 | m_writer.Write(","); | |
|
100 | WriteIndent(); | |
|
101 | m_context.needComma = true; | |
|
102 | ||
|
103 | Write(value); | |
|
104 | } else if (m_context.element == JSONElementContext.None) { | |
|
105 | Write(value); | |
|
106 | m_context.element = JSONElementContext.Closed; | |
|
107 | } else { | |
|
108 | OperationNotApplicable("WriteValue"); | |
|
109 | } | |
|
110 | } | |
|
111 | ||
|
112 | public void WriteValue(bool value) { | |
|
113 | if (m_context.element == JSONElementContext.Array) { | |
|
114 | ||
|
115 | if (m_context.needComma) | |
|
116 | m_writer.Write(","); | |
|
117 | WriteIndent(); | |
|
118 | m_context.needComma = true; | |
|
119 | ||
|
120 | Write(value); | |
|
121 | } else if (m_context.element == JSONElementContext.None) { | |
|
122 | Write(value); | |
|
123 | m_context.element = JSONElementContext.Closed; | |
|
124 | } else { | |
|
125 | OperationNotApplicable("WriteValue"); | |
|
126 | } | |
|
127 | } | |
|
128 | ||
|
129 | public void WriteValue(double value) { | |
|
130 | if (m_context.element == JSONElementContext.Array) { | |
|
131 | ||
|
132 | if (m_context.needComma) | |
|
133 | m_writer.Write(","); | |
|
134 | WriteIndent(); | |
|
135 | m_context.needComma = true; | |
|
136 | ||
|
137 | Write(value); | |
|
138 | } else if (m_context.element == JSONElementContext.None) { | |
|
139 | Write(value); | |
|
140 | m_context.element = JSONElementContext.Closed; | |
|
141 | } else { | |
|
142 | OperationNotApplicable("WriteValue"); | |
|
143 | } | |
|
144 | } | |
|
145 | ||
|
146 | public void BeginObject() { | |
|
147 | if (m_context.element != JSONElementContext.None && m_context.element != JSONElementContext.Array) | |
|
148 | OperationNotApplicable("BeginObject"); | |
|
149 | if (m_context.needComma) | |
|
150 | m_writer.Write(","); | |
|
151 | ||
|
152 | WriteIndent(); | |
|
153 | ||
|
154 | m_context.needComma = true; | |
|
155 | ||
|
156 | m_contextStack.Push(m_context); | |
|
157 | ||
|
158 | m_context = new Context { element = JSONElementContext.Object, needComma = false }; | |
|
159 | m_writer.Write("{"); | |
|
160 | } | |
|
161 | ||
|
162 | public void BeginObject(string name) { | |
|
163 | WriteMemberName(name); | |
|
164 | ||
|
165 | m_contextStack.Push(m_context); | |
|
166 | ||
|
167 | m_context = new Context { element = JSONElementContext.Object, needComma = false }; | |
|
168 | m_writer.Write("{"); | |
|
169 | } | |
|
170 | ||
|
171 | public void EndObject() { | |
|
172 | if (m_context.element != JSONElementContext.Object) | |
|
173 | OperationNotApplicable("EndObject"); | |
|
174 | ||
|
175 | m_context = m_contextStack.Pop(); | |
|
176 | if (m_contextStack.Count == 0) | |
|
177 | m_context.element = JSONElementContext.Closed; | |
|
178 | WriteIndent(); | |
|
179 | m_writer.Write("}"); | |
|
180 | } | |
|
181 | ||
|
182 | public void BeginArray() { | |
|
183 | if (m_context.element != JSONElementContext.None && m_context.element != JSONElementContext.Array) | |
|
184 | throw new InvalidOperationException(); | |
|
185 | if (m_context.needComma) { | |
|
186 | m_writer.Write(","); | |
|
187 | ||
|
188 | } | |
|
189 | m_context.needComma = true; | |
|
190 | ||
|
191 | WriteIndent(); | |
|
192 | m_contextStack.Push(m_context); | |
|
193 | m_context = new Context { element = JSONElementContext.Array, needComma = false }; | |
|
194 | m_writer.Write("["); | |
|
195 | } | |
|
196 | ||
|
197 | public void BeginArray(string name) { | |
|
198 | WriteMemberName(name); | |
|
199 | ||
|
200 | m_contextStack.Push(m_context); | |
|
201 | ||
|
202 | m_context = new Context { element = JSONElementContext.Array, needComma = false }; | |
|
203 | m_writer.Write("["); | |
|
204 | } | |
|
205 | ||
|
206 | public void EndArray() { | |
|
207 | if (m_context.element != JSONElementContext.Array) | |
|
208 | OperationNotApplicable("EndArray"); | |
|
209 | ||
|
210 | m_context = m_contextStack.Pop(); | |
|
211 | if (m_contextStack.Count == 0) | |
|
212 | m_context.element = JSONElementContext.Closed; | |
|
213 | WriteIndent(); | |
|
214 | m_writer.Write("]"); | |
|
215 | } | |
|
216 | ||
|
217 | void Write(bool value) { | |
|
218 | m_writer.Write(value ? "true" : "false"); | |
|
219 | } | |
|
220 | ||
|
221 | void FlushBuffer() { | |
|
222 | if (m_bufferPos > 0) { | |
|
223 | m_writer.Write(m_buffer, 0, m_bufferPos); | |
|
224 | m_bufferPos = 0; | |
|
225 | } | |
|
226 | } | |
|
227 | ||
|
228 | void Write(string value) { | |
|
229 | if (value == null) { | |
|
230 | m_writer.Write("null"); | |
|
231 | return; | |
|
232 | } | |
|
233 | ||
|
234 | Debug.Assert(m_bufferPos == 0); | |
|
235 | ||
|
236 | var chars = value.ToCharArray(); | |
|
237 | m_buffer[m_bufferPos++] = '"'; | |
|
238 | ||
|
239 | // Analysis disable once ForCanBeConvertedToForeach | |
|
240 | for (int i = 0; i < chars.Length; i++) { | |
|
241 | var ch = chars[i]; | |
|
242 | ||
|
243 | char[] escapeSeq; | |
|
244 | ||
|
245 | switch (ch) { | |
|
246 | case '\b': | |
|
247 | escapeSeq = _escapeBKS; | |
|
248 | break; | |
|
249 | case '\f': | |
|
250 | escapeSeq = _escapeFWD; | |
|
251 | break; | |
|
252 | case '\r': | |
|
253 | escapeSeq = _escapeCR; | |
|
254 | break; | |
|
255 | case '\n': | |
|
256 | escapeSeq = _escapeNL; | |
|
257 | break; | |
|
258 | case '\t': | |
|
259 | escapeSeq = _escapeTAB; | |
|
260 | break; | |
|
261 | case '\\': | |
|
262 | escapeSeq = _escapeBSLASH; | |
|
263 | break; | |
|
264 | case '"': | |
|
265 | escapeSeq = _escapeQ; | |
|
266 | break; | |
|
267 | default: | |
|
268 | if (ch < 0x20) { | |
|
269 | if (m_bufferPos + 6 > BUFFER_SIZE) | |
|
270 | FlushBuffer(); | |
|
271 | ||
|
272 | m_buffer[m_bufferPos++] = '\\'; | |
|
273 | m_buffer[m_bufferPos++] = 'u'; | |
|
274 | m_buffer[m_bufferPos++] = '0'; | |
|
275 | m_buffer[m_bufferPos++] = '0'; | |
|
276 | m_buffer[m_bufferPos++] = _hex[ch >> 4 & 0xf]; | |
|
277 | m_buffer[m_bufferPos++] = _hex[ch & 0xf]; | |
|
278 | ||
|
279 | } else { | |
|
280 | if (m_bufferPos >= BUFFER_SIZE) | |
|
281 | FlushBuffer(); | |
|
282 | m_buffer[m_bufferPos++] = ch; | |
|
283 | } | |
|
284 | continue; | |
|
285 | } | |
|
286 | ||
|
287 | if (m_bufferPos + escapeSeq.Length > BUFFER_SIZE) | |
|
288 | FlushBuffer(); | |
|
289 | ||
|
290 | Array.Copy(escapeSeq, 0, m_buffer, m_bufferPos, escapeSeq.Length); | |
|
291 | m_bufferPos += escapeSeq.Length; | |
|
292 | ||
|
293 | } | |
|
294 | ||
|
295 | if (m_bufferPos >= BUFFER_SIZE) | |
|
296 | FlushBuffer(); | |
|
297 | ||
|
298 | m_buffer[m_bufferPos++] = '"'; | |
|
299 | ||
|
300 | FlushBuffer(); | |
|
301 | } | |
|
302 | ||
|
303 | void Write(double value) { | |
|
304 | if (double.IsNaN(value)) | |
|
305 | Write("NaN"); | |
|
306 | else if (double.IsNegativeInfinity(value)) | |
|
307 | Write("-Infinity"); | |
|
308 | else if (double.IsPositiveInfinity(value)) | |
|
309 | Write("Infinity"); | |
|
310 | else | |
|
311 | m_writer.Write(value.ToString(CultureInfo.InvariantCulture)); | |
|
312 | } | |
|
313 | ||
|
314 | void OperationNotApplicable(string opName) { | |
|
315 | throw new InvalidOperationException(String.Format("The operation '{0}' isn't applicable in the context of '{1}'", opName, m_context.element )); | |
|
316 | } | |
|
317 | ||
|
318 | } | |
|
319 | } |
@@ -0,0 +1,335 | |||
|
1 | using Implab; | |
|
2 | using System; | |
|
3 | using System.Collections.Generic; | |
|
4 | using System.Globalization; | |
|
5 | using System.IO; | |
|
6 | using System.Xml; | |
|
7 | ||
|
8 | namespace Implab.Formats.JSON { | |
|
9 | public class JSONXmlReader : XmlReader { | |
|
10 | ||
|
11 | enum ValueContext { | |
|
12 | Undefined, | |
|
13 | ElementStart, | |
|
14 | ElementValue, | |
|
15 | ElementEnd, | |
|
16 | ElementEmpty | |
|
17 | } | |
|
18 | ||
|
19 | struct LocalNameContext { | |
|
20 | public string localName; | |
|
21 | public bool isArray; | |
|
22 | } | |
|
23 | ||
|
24 | JSONParser m_parser; | |
|
25 | ValueContext m_valueContext; | |
|
26 | ReadState m_state = ReadState.Initial; | |
|
27 | Stack<LocalNameContext> m_localNameStack = new Stack<LocalNameContext>(); | |
|
28 | LocalNameContext m_localName; | |
|
29 | int m_depthCorrection; | |
|
30 | ||
|
31 | readonly string m_rootName; | |
|
32 | readonly string m_prefix; | |
|
33 | readonly string m_namespaceUri; | |
|
34 | readonly bool m_flattenArrays; | |
|
35 | readonly string m_arrayItemName; | |
|
36 | readonly XmlNameTable m_nameTable; | |
|
37 | ||
|
38 | JSONXmlReader(JSONParser parser, JSONXmlReaderOptions options) { | |
|
39 | m_parser = parser; | |
|
40 | ||
|
41 | if (options != null) { | |
|
42 | m_prefix = options.NodesPrefix ?? String.Empty; | |
|
43 | m_namespaceUri = options.NamespaceURI ?? String.Empty; | |
|
44 | m_rootName = options.RootName ?? "json"; | |
|
45 | m_flattenArrays = options.FlattenArrays; | |
|
46 | m_arrayItemName = options.ArrayItemName ?? "item"; | |
|
47 | m_nameTable = options.NameTable ?? new NameTable(); | |
|
48 | } else { | |
|
49 | m_prefix = String.Empty; | |
|
50 | m_namespaceUri = String.Empty; | |
|
51 | m_rootName = "json"; | |
|
52 | m_flattenArrays = false; | |
|
53 | m_arrayItemName = "item"; | |
|
54 | m_nameTable = new NameTable(); | |
|
55 | } | |
|
56 | } | |
|
57 | ||
|
58 | /// <summary> | |
|
59 | /// Always 0, JSON doesn't support attributes | |
|
60 | /// </summary> | |
|
61 | public override int AttributeCount { | |
|
62 | get { return 0; } | |
|
63 | } | |
|
64 | ||
|
65 | public override string BaseURI { | |
|
66 | get { return String.Empty; } | |
|
67 | } | |
|
68 | ||
|
69 | public override int Depth { | |
|
70 | get { | |
|
71 | return m_localNameStack.Count + m_depthCorrection; | |
|
72 | } | |
|
73 | } | |
|
74 | ||
|
75 | public override bool EOF { | |
|
76 | get { return m_parser.EOF; } | |
|
77 | } | |
|
78 | ||
|
79 | /// <summary> | |
|
80 | /// Always throws an exception | |
|
81 | /// </summary> | |
|
82 | /// <param name="i"></param> | |
|
83 | /// <returns></returns> | |
|
84 | public override string GetAttribute(int i) { | |
|
85 | throw new ArgumentOutOfRangeException(); | |
|
86 | } | |
|
87 | ||
|
88 | /// <summary> | |
|
89 | /// Always returns empty string | |
|
90 | /// </summary> | |
|
91 | /// <param name="name"></param> | |
|
92 | /// <param name="namespaceURI"></param> | |
|
93 | /// <returns></returns> | |
|
94 | public override string GetAttribute(string name, string namespaceURI) { | |
|
95 | return String.Empty; | |
|
96 | } | |
|
97 | ||
|
98 | /// <summary> | |
|
99 | /// Always returns empty string | |
|
100 | /// </summary> | |
|
101 | /// <param name="name"></param> | |
|
102 | /// <returns></returns> | |
|
103 | public override string GetAttribute(string name) { | |
|
104 | return String.Empty; | |
|
105 | } | |
|
106 | ||
|
107 | public override bool IsEmptyElement { | |
|
108 | get { return m_parser.ElementType == JSONElementType.Value && m_valueContext == ValueContext.ElementEmpty; } | |
|
109 | } | |
|
110 | ||
|
111 | public override string LocalName { | |
|
112 | get { return m_localName.localName; } | |
|
113 | } | |
|
114 | ||
|
115 | public override string LookupNamespace(string prefix) { | |
|
116 | if (String.IsNullOrEmpty(prefix) || prefix == m_prefix) | |
|
117 | return m_namespaceUri; | |
|
118 | ||
|
119 | return String.Empty; | |
|
120 | } | |
|
121 | ||
|
122 | public override bool MoveToAttribute(string name, string ns) { | |
|
123 | return false; | |
|
124 | } | |
|
125 | ||
|
126 | public override bool MoveToAttribute(string name) { | |
|
127 | return false; | |
|
128 | } | |
|
129 | ||
|
130 | public override bool MoveToElement() { | |
|
131 | return false; | |
|
132 | } | |
|
133 | ||
|
134 | public override bool MoveToFirstAttribute() { | |
|
135 | return false; | |
|
136 | } | |
|
137 | ||
|
138 | public override bool MoveToNextAttribute() { | |
|
139 | return false; | |
|
140 | } | |
|
141 | ||
|
142 | public override XmlNameTable NameTable { | |
|
143 | get { return m_nameTable; } | |
|
144 | } | |
|
145 | ||
|
146 | public override string NamespaceURI { | |
|
147 | get { return m_namespaceUri; } | |
|
148 | } | |
|
149 | ||
|
150 | public override XmlNodeType NodeType { | |
|
151 | get { | |
|
152 | switch (m_parser.ElementType) { | |
|
153 | case JSONElementType.BeginObject: | |
|
154 | case JSONElementType.BeginArray: | |
|
155 | return XmlNodeType.Element; | |
|
156 | case JSONElementType.EndObject: | |
|
157 | case JSONElementType.EndArray: | |
|
158 | return XmlNodeType.EndElement; | |
|
159 | case JSONElementType.Value: | |
|
160 | switch (m_valueContext) { | |
|
161 | case ValueContext.ElementStart: | |
|
162 | case ValueContext.ElementEmpty: | |
|
163 | return XmlNodeType.Element; | |
|
164 | case ValueContext.ElementValue: | |
|
165 | return XmlNodeType.Text; | |
|
166 | case ValueContext.ElementEnd: | |
|
167 | return XmlNodeType.EndElement; | |
|
168 | default: | |
|
169 | throw new InvalidOperationException(); | |
|
170 | } | |
|
171 | default: | |
|
172 | throw new InvalidOperationException(); | |
|
173 | } | |
|
174 | } | |
|
175 | } | |
|
176 | ||
|
177 | public override string Prefix { | |
|
178 | get { return m_prefix; } | |
|
179 | } | |
|
180 | ||
|
181 | public override bool Read() { | |
|
182 | if (m_state != ReadState.Interactive && m_state != ReadState.Initial) | |
|
183 | return false; | |
|
184 | ||
|
185 | if (m_state == ReadState.Initial) | |
|
186 | m_state = ReadState.Interactive; | |
|
187 | ||
|
188 | try { | |
|
189 | switch (m_parser.ElementType) { | |
|
190 | case JSONElementType.Value: | |
|
191 | switch (m_valueContext) { | |
|
192 | case ValueContext.ElementStart: | |
|
193 | SetLocalName(String.Empty); | |
|
194 | m_valueContext = ValueContext.ElementValue; | |
|
195 | return true; | |
|
196 | case ValueContext.ElementValue: | |
|
197 | RestoreLocalName(); | |
|
198 | m_valueContext = ValueContext.ElementEnd; | |
|
199 | return true; | |
|
200 | case ValueContext.ElementEmpty: | |
|
201 | case ValueContext.ElementEnd: | |
|
202 | RestoreLocalName(); | |
|
203 | break; | |
|
204 | } | |
|
205 | break; | |
|
206 | case JSONElementType.EndArray: | |
|
207 | case JSONElementType.EndObject: | |
|
208 | RestoreLocalName(); | |
|
209 | break; | |
|
210 | } | |
|
211 | string itemName = m_parser.ElementType == JSONElementType.None ? m_rootName : m_flattenArrays ? m_localName.localName : m_arrayItemName; | |
|
212 | while (m_parser.Read()) { | |
|
213 | if (!String.IsNullOrEmpty(m_parser.ElementName)) | |
|
214 | itemName = m_parser.ElementName; | |
|
215 | ||
|
216 | switch (m_parser.ElementType) { | |
|
217 | case JSONElementType.BeginArray: | |
|
218 | if (m_flattenArrays && !m_localName.isArray) { | |
|
219 | m_depthCorrection--; | |
|
220 | SetLocalName(itemName, true); | |
|
221 | continue; | |
|
222 | } | |
|
223 | SetLocalName(itemName, true); | |
|
224 | break; | |
|
225 | case JSONElementType.BeginObject: | |
|
226 | SetLocalName(itemName); | |
|
227 | break; | |
|
228 | case JSONElementType.EndArray: | |
|
229 | if (m_flattenArrays && !m_localNameStack.Peek().isArray) { | |
|
230 | RestoreLocalName(); | |
|
231 | m_depthCorrection++; | |
|
232 | continue; | |
|
233 | } | |
|
234 | break; | |
|
235 | case JSONElementType.EndObject: | |
|
236 | break; | |
|
237 | case JSONElementType.Value: | |
|
238 | SetLocalName(itemName); | |
|
239 | m_valueContext = m_parser.ElementValue == null ? ValueContext.ElementEmpty : ValueContext.ElementStart; | |
|
240 | break; | |
|
241 | } | |
|
242 | return true; | |
|
243 | } | |
|
244 | ||
|
245 | m_state = ReadState.EndOfFile; | |
|
246 | return false; | |
|
247 | } catch { | |
|
248 | m_state = ReadState.Error; | |
|
249 | throw; | |
|
250 | } | |
|
251 | } | |
|
252 | ||
|
253 | public override bool ReadAttributeValue() { | |
|
254 | return false; | |
|
255 | } | |
|
256 | ||
|
257 | public override ReadState ReadState { | |
|
258 | get { return m_state; } | |
|
259 | } | |
|
260 | ||
|
261 | public override void ResolveEntity() { | |
|
262 | // do nothing | |
|
263 | } | |
|
264 | ||
|
265 | public override string Value { | |
|
266 | get { | |
|
267 | if (m_parser.ElementValue == null) | |
|
268 | return String.Empty; | |
|
269 | if (Convert.GetTypeCode(m_parser.ElementValue) == TypeCode.Double) | |
|
270 | return ((double)m_parser.ElementValue).ToString(CultureInfo.InvariantCulture); | |
|
271 | return m_parser.ElementValue.ToString(); | |
|
272 | } | |
|
273 | } | |
|
274 | ||
|
275 | void SetLocalName(string name) { | |
|
276 | m_localNameStack.Push(m_localName); | |
|
277 | m_localName.localName = name; | |
|
278 | m_localName.isArray = false; | |
|
279 | } | |
|
280 | ||
|
281 | void SetLocalName(string name, bool isArray) { | |
|
282 | m_localNameStack.Push(m_localName); | |
|
283 | m_localName.localName = name; | |
|
284 | m_localName.isArray = isArray; | |
|
285 | } | |
|
286 | ||
|
287 | void RestoreLocalName() { | |
|
288 | m_localName = m_localNameStack.Pop(); | |
|
289 | } | |
|
290 | ||
|
291 | public override void Close() { | |
|
292 | ||
|
293 | } | |
|
294 | ||
|
295 | protected override void Dispose(bool disposing) { | |
|
296 | #if MONO | |
|
297 | disposing = true; | |
|
298 | #endif | |
|
299 | if (disposing) { | |
|
300 | m_parser.Dispose(); | |
|
301 | } | |
|
302 | base.Dispose(disposing); | |
|
303 | } | |
|
304 | ||
|
305 | public static JSONXmlReader Create(string file, JSONXmlReaderOptions options) { | |
|
306 | return Create(File.OpenText(file), options); | |
|
307 | } | |
|
308 | ||
|
309 | /// <summary> | |
|
310 | /// Creates the XmlReader for the specified text stream with JSON data. | |
|
311 | /// </summary> | |
|
312 | /// <param name="reader">Text reader.</param> | |
|
313 | /// <param name="options">Options.</param> | |
|
314 | /// <remarks> | |
|
315 | /// The reader will be disposed when the XmlReader is disposed. | |
|
316 | /// </remarks> | |
|
317 | public static JSONXmlReader Create(TextReader reader, JSONXmlReaderOptions options) { | |
|
318 | return new JSONXmlReader(new JSONParser(reader), options); | |
|
319 | } | |
|
320 | ||
|
321 | /// <summary> | |
|
322 | /// Creates the XmlReader for the specified stream with JSON data. | |
|
323 | /// </summary> | |
|
324 | /// <param name="stream">Stream.</param> | |
|
325 | /// <param name="options">Options.</param> | |
|
326 | /// <remarks> | |
|
327 | /// The stream will be disposed when the XmlReader is disposed. | |
|
328 | /// </remarks> | |
|
329 | public static JSONXmlReader Create(Stream stream, JSONXmlReaderOptions options) { | |
|
330 | Safe.ArgumentNotNull(stream, "stream"); | |
|
331 | // HACK don't dispose StreaReader to keep stream opened | |
|
332 | return Create(new StreamReader(stream), options); | |
|
333 | } | |
|
334 | } | |
|
335 | } |
@@ -0,0 +1,62 | |||
|
1 | ||
|
2 | using System.Xml; | |
|
3 | ||
|
4 | namespace Implab.Formats.JSON { | |
|
5 | /// <summary> | |
|
6 | /// Набор необязательных параметров для <see cref="JSONXmlReader"/>, позволяющий управлять процессом | |
|
7 | /// интерпретации <c>JSON</c> документа. | |
|
8 | /// </summary> | |
|
9 | public class JSONXmlReaderOptions { | |
|
10 | /// <summary> | |
|
11 | /// Пространство имен в котором будут располагаться читаемые элементы документа | |
|
12 | /// </summary> | |
|
13 | public string NamespaceURI { | |
|
14 | get; | |
|
15 | set; | |
|
16 | } | |
|
17 | ||
|
18 | /// <summary> | |
|
19 | /// Интерпретировать массивы как множественные элементы (убирает один уровень вложенности), иначе массив | |
|
20 | /// представляется в виде узла, дочерними элементами которого являются элементы массива, имена дочерних элементов | |
|
21 | /// определяются свойством <see cref="ArrayItemName"/>. По умолчанию <c>false</c>. | |
|
22 | /// </summary> | |
|
23 | public bool FlattenArrays { | |
|
24 | get; | |
|
25 | set; | |
|
26 | } | |
|
27 | ||
|
28 | /// <summary> | |
|
29 | /// Префикс, для узлов документа | |
|
30 | /// </summary> | |
|
31 | public string NodesPrefix { | |
|
32 | get; | |
|
33 | set; | |
|
34 | } | |
|
35 | ||
|
36 | /// <summary> | |
|
37 | /// Имя корневого элемента в xml документе | |
|
38 | /// </summary> | |
|
39 | public string RootName { | |
|
40 | get; | |
|
41 | set; | |
|
42 | } | |
|
43 | ||
|
44 | /// <summary> | |
|
45 | /// Имя элемента для массивов, если не включена опция <see cref="FlattenArrays"/>. | |
|
46 | /// По умолчанию <c>item</c>. | |
|
47 | /// </summary> | |
|
48 | public string ArrayItemName { | |
|
49 | get; | |
|
50 | set; | |
|
51 | } | |
|
52 | ||
|
53 | /// <summary> | |
|
54 | /// Таблица атомизированных строк для построения документа. | |
|
55 | /// </summary> | |
|
56 | public XmlNameTable NameTable { | |
|
57 | get; | |
|
58 | set; | |
|
59 | } | |
|
60 | ||
|
61 | } | |
|
62 | } |
@@ -0,0 +1,44 | |||
|
1 | namespace Implab.Formats.JSON { | |
|
2 | /// <summary> | |
|
3 | /// Тип токенов, возвращаемых <see cref="JSONScanner"/>. | |
|
4 | /// </summary> | |
|
5 | public enum JsonTokenType : int { | |
|
6 | None = 0, | |
|
7 | /// <summary> | |
|
8 | /// Начало объекта | |
|
9 | /// </summary> | |
|
10 | BeginObject, | |
|
11 | /// <summary> | |
|
12 | /// Конец объекта | |
|
13 | /// </summary> | |
|
14 | EndObject, | |
|
15 | /// <summary> | |
|
16 | /// Начало массива | |
|
17 | /// </summary> | |
|
18 | BeginArray, | |
|
19 | /// <summary> | |
|
20 | /// Конец массива | |
|
21 | /// </summary> | |
|
22 | EndArray, | |
|
23 | /// <summary> | |
|
24 | /// Строка | |
|
25 | /// </summary> | |
|
26 | String, | |
|
27 | /// <summary> | |
|
28 | /// Число | |
|
29 | /// </summary> | |
|
30 | Number, | |
|
31 | /// <summary> | |
|
32 | /// Литерал | |
|
33 | /// </summary> | |
|
34 | Literal, | |
|
35 | /// <summary> | |
|
36 | /// Разделитель имени <c>:</c> | |
|
37 | /// </summary> | |
|
38 | NameSeparator, | |
|
39 | /// <summary> | |
|
40 | /// Разделитель имени <c>,</c> | |
|
41 | /// </summary> | |
|
42 | ValueSeparator | |
|
43 | } | |
|
44 | } |
@@ -0,0 +1,52 | |||
|
1 | using Implab; | |
|
2 | using Implab.Formats; | |
|
3 | using System; | |
|
4 | using System.Collections.Generic; | |
|
5 | using System.Diagnostics; | |
|
6 | using System.Linq; | |
|
7 | using System.Text; | |
|
8 | using System.Threading.Tasks; | |
|
9 | ||
|
10 | namespace Implab.Formats.JSON { | |
|
11 | /// <summary> | |
|
12 | /// Класс для преобразования экранированной строки JSON | |
|
13 | /// </summary> | |
|
14 | static class StringTranslator { | |
|
15 | static readonly char[] _escMap; | |
|
16 | static readonly int[] _hexMap; | |
|
17 | ||
|
18 | static StringTranslator() { | |
|
19 | var chars = new char[] { 'b', 'f', 't', 'r', 'n', '\\', '/' }; | |
|
20 | var vals = new char[] { '\b', '\f', '\t', '\r', '\n', '\\', '/' }; | |
|
21 | ||
|
22 | _escMap = new char[chars.Max() + 1]; | |
|
23 | ||
|
24 | for (int i = 0; i < chars.Length; i++) | |
|
25 | _escMap[chars[i]] = vals[i]; | |
|
26 | ||
|
27 | var hexs = new char[] { '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'a', 'b', 'c', 'd', 'e', 'f', 'A', 'B', 'C', 'D', 'E', 'F' }; | |
|
28 | var ints = new int[] { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 10, 11, 12, 13, 14, 15 }; | |
|
29 | ||
|
30 | _hexMap = new int[hexs.Max() + 1]; | |
|
31 | ||
|
32 | for (int i = 0; i < hexs.Length; i++) | |
|
33 | _hexMap[hexs[i]] = ints[i]; | |
|
34 | ||
|
35 | } | |
|
36 | ||
|
37 | internal static char TranslateEscapedChar(char symbol) { | |
|
38 | return _escMap[symbol]; | |
|
39 | } | |
|
40 | ||
|
41 | internal static char TranslateHexUnicode(char[] symbols, int offset) { | |
|
42 | Debug.Assert(symbols != null); | |
|
43 | Debug.Assert(symbols.Length - offset >= 4); | |
|
44 | ||
|
45 | int value = (_hexMap[symbols[offset]] << 12) | |
|
46 | | (_hexMap[symbols[offset + 1]] << 8) | |
|
47 | | (_hexMap[symbols[offset + 2]] << 4) | |
|
48 | | (_hexMap[symbols[offset + 3]]); | |
|
49 | return (char)value; | |
|
50 | } | |
|
51 | } | |
|
52 | } |
@@ -0,0 +1,30 | |||
|
1 | using System; | |
|
2 | using System.IO; | |
|
3 | ||
|
4 | namespace Implab.Formats { | |
|
5 | public class ReaderScanner: TextScanner { | |
|
6 | const int CHUNK_SIZE = 1024*4; | |
|
7 | const int BUFFER_MAX = CHUNK_SIZE*1024; | |
|
8 | ||
|
9 | readonly TextReader m_reader; | |
|
10 | ||
|
11 | public ReaderScanner(TextReader reader, int limit, int chunk) : base(limit, chunk) { | |
|
12 | Safe.ArgumentNotNull(reader, "reader"); | |
|
13 | m_reader = reader; | |
|
14 | } | |
|
15 | ||
|
16 | public ReaderScanner(TextReader reader) : this(reader, BUFFER_MAX, CHUNK_SIZE) { | |
|
17 | } | |
|
18 | ||
|
19 | protected override int Read(char[] buffer, int offset, int size) { | |
|
20 | return m_reader.Read(buffer, offset, size); | |
|
21 | } | |
|
22 | ||
|
23 | protected override void Dispose(bool disposing) { | |
|
24 | if (disposing) | |
|
25 | Safe.Dispose(m_reader); | |
|
26 | base.Dispose(disposing); | |
|
27 | } | |
|
28 | } | |
|
29 | } | |
|
30 |
@@ -0,0 +1,30 | |||
|
1 | namespace Implab.Formats { | |
|
2 | /// <summary> | |
|
3 | /// Represents a scanner configuration usefull to recongnize token, based on the DFA. | |
|
4 | /// </summary> | |
|
5 | public class ScannerContext<TTag> { | |
|
6 | ||
|
7 | public int[,] Dfa { get; private set; } | |
|
8 | ||
|
9 | public bool[] Final { get; private set; } | |
|
10 | ||
|
11 | public TTag[][] Tags { get; private set; } | |
|
12 | ||
|
13 | public int State { get; private set; } | |
|
14 | ||
|
15 | public int[] Alphabet { get; private set; } | |
|
16 | ||
|
17 | public ScannerContext(int[,] dfa, bool[] final, TTag[][] tags, int state, int[] alphabet) { | |
|
18 | Dfa = dfa; | |
|
19 | Final = final; | |
|
20 | Tags = tags; | |
|
21 | State = state; | |
|
22 | Alphabet = alphabet; | |
|
23 | } | |
|
24 | ||
|
25 | public bool Execute(TextScanner scanner, out TTag[] tag) { | |
|
26 | return scanner.ReadToken(Dfa, Final, Tags, State, Alphabet, out tag); | |
|
27 | } | |
|
28 | } | |
|
29 | } | |
|
30 |
@@ -0,0 +1,18 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab.Formats { | |
|
4 | public class StringScanner: TextScanner { | |
|
5 | const int CHUNK_SIZE = 1024; | |
|
6 | ||
|
7 | public StringScanner(string text) : base(null) { | |
|
8 | Safe.ArgumentNotNull(text, "text"); | |
|
9 | var data = text.ToCharArray(); | |
|
10 | Feed(data, 0, data.Length); | |
|
11 | } | |
|
12 | ||
|
13 | protected override int Read(char[] buffer, int offset, int size) { | |
|
14 | return 0; | |
|
15 | } | |
|
16 | } | |
|
17 | } | |
|
18 |
@@ -0,0 +1,157 | |||
|
1 | using System; | |
|
2 | using Implab.Components; | |
|
3 | using System.Diagnostics; | |
|
4 | using Implab.Automaton; | |
|
5 | using System.Text; | |
|
6 | ||
|
7 | namespace Implab.Formats { | |
|
8 | public abstract class TextScanner : Disposable { | |
|
9 | readonly int m_bufferMax; | |
|
10 | readonly int m_chunkSize; | |
|
11 | ||
|
12 | char[] m_buffer; | |
|
13 | int m_bufferOffset; | |
|
14 | int m_bufferSize; | |
|
15 | int m_tokenOffset; | |
|
16 | int m_tokenLength; | |
|
17 | ||
|
18 | /// <summary> | |
|
19 | /// Initializes a new instance of the <see cref="Implab.Formats.TextScanner"/> class. | |
|
20 | /// </summary> | |
|
21 | /// <param name="bufferMax">Buffer max.</param> | |
|
22 | /// <param name="chunkSize">Chunk size.</param> | |
|
23 | protected TextScanner(int bufferMax, int chunkSize) { | |
|
24 | Debug.Assert(m_chunkSize <= m_bufferMax); | |
|
25 | ||
|
26 | m_bufferMax = bufferMax; | |
|
27 | m_chunkSize = chunkSize; | |
|
28 | } | |
|
29 | ||
|
30 | /// <summary> | |
|
31 | /// Initializes a new instance of the <see cref="Implab.Formats.TextScanner"/> class. | |
|
32 | /// </summary> | |
|
33 | /// <param name="buffer">Buffer.</param> | |
|
34 | protected TextScanner(char[] buffer) { | |
|
35 | if (buffer != null) { | |
|
36 | m_buffer = buffer; | |
|
37 | m_bufferSize = buffer.Length; | |
|
38 | } | |
|
39 | } | |
|
40 | ||
|
41 | /// <summary> | |
|
42 | /// (hungry) Reads the next token. | |
|
43 | /// </summary> | |
|
44 | /// <returns><c>true</c>, if token internal was read, <c>false</c> if there is no more tokens in the stream.</returns> | |
|
45 | /// <param name="dfa">The transition map for the automaton</param> | |
|
46 | /// <param name="final">Final states of the automaton.</param> | |
|
47 | /// <param name="tags">Tags.</param> | |
|
48 | /// <param name="state">The initial state for the automaton.</param> | |
|
49 | /// <param name="alphabet"></param> | |
|
50 | /// <param name = "tag"></param> | |
|
51 | internal bool ReadToken<TTag>(int[,] dfa, bool[] final, TTag[][] tags, int state, int[] alphabet, out TTag[] tag) { | |
|
52 | m_tokenLength = 0; | |
|
53 | tag = null; | |
|
54 | ||
|
55 | var maxSymbol = alphabet.Length - 1; | |
|
56 | int next; | |
|
57 | do { | |
|
58 | // after the next chunk is read the offset in the buffer may change | |
|
59 | int pos = m_bufferOffset + m_tokenLength; | |
|
60 | next = state; | |
|
61 | while (pos < m_bufferSize) { | |
|
62 | var ch = m_buffer[pos]; | |
|
63 | ||
|
64 | next = dfa[next, ch > maxSymbol ? AutomatonConst.UNCLASSIFIED_INPUT : alphabet[ch]]; | |
|
65 | ||
|
66 | if (next == AutomatonConst.UNREACHABLE_STATE) | |
|
67 | break; | |
|
68 | ||
|
69 | state = next; | |
|
70 | pos++; | |
|
71 | } | |
|
72 | m_tokenLength = pos - m_bufferOffset; | |
|
73 | } while (next != AutomatonConst.UNREACHABLE_STATE && Feed()); | |
|
74 | ||
|
75 | m_tokenOffset = m_bufferOffset; | |
|
76 | m_bufferOffset += m_tokenLength; | |
|
77 | ||
|
78 | if (final[state]) { | |
|
79 | tag = tags[state]; | |
|
80 | return true; | |
|
81 | } | |
|
82 | ||
|
83 | if (m_bufferOffset == m_bufferSize) { | |
|
84 | if (m_tokenLength == 0) //EOF | |
|
85 | return false; | |
|
86 | ||
|
87 | throw new ParserException(); | |
|
88 | } | |
|
89 | ||
|
90 | throw new ParserException(String.Format("Unexpected symbol '{0}'", m_buffer[m_bufferOffset])); | |
|
91 | ||
|
92 | } | |
|
93 | ||
|
94 | protected void Feed(char[] buffer, int offset, int length) { | |
|
95 | m_buffer = buffer; | |
|
96 | m_bufferOffset = offset; | |
|
97 | m_bufferSize = offset + length; | |
|
98 | } | |
|
99 | ||
|
100 | protected bool Feed() { | |
|
101 | if (m_chunkSize <= 0) | |
|
102 | return false; | |
|
103 | ||
|
104 | if (m_buffer != null) { | |
|
105 | var free = m_buffer.Length - m_bufferSize; | |
|
106 | ||
|
107 | if (free < m_chunkSize) { | |
|
108 | free += m_chunkSize; | |
|
109 | var used = m_bufferSize - m_bufferOffset; | |
|
110 | var size = used + free; | |
|
111 | ||
|
112 | if (size > m_bufferMax) | |
|
113 | throw new ParserException(String.Format("The buffer limit ({0} Kb) is reached", m_bufferMax / 1024)); | |
|
114 | ||
|
115 | var temp = new char[size]; | |
|
116 | ||
|
117 | var read = Read(temp, used, m_chunkSize); | |
|
118 | if (read == 0) | |
|
119 | return false; | |
|
120 | ||
|
121 | Array.Copy(m_buffer, m_bufferOffset, temp, 0, used); | |
|
122 | ||
|
123 | m_bufferOffset = 0; | |
|
124 | m_bufferSize = used + read; | |
|
125 | m_buffer = temp; | |
|
126 | } else { | |
|
127 | var read = Read(m_buffer, m_bufferSize, m_chunkSize); | |
|
128 | if (read == 0) | |
|
129 | return false; | |
|
130 | m_bufferSize += m_chunkSize; | |
|
131 | } | |
|
132 | return true; | |
|
133 | } else { | |
|
134 | Debug.Assert(m_bufferOffset == 0); | |
|
135 | m_buffer = new char[m_chunkSize]; | |
|
136 | m_bufferSize = Read(m_buffer, 0, m_chunkSize); | |
|
137 | return (m_bufferSize != 0); | |
|
138 | } | |
|
139 | } | |
|
140 | ||
|
141 | protected abstract int Read(char[] buffer, int offset, int size); | |
|
142 | ||
|
143 | public string GetTokenValue() { | |
|
144 | return new String(m_buffer, m_tokenOffset, m_tokenLength); | |
|
145 | } | |
|
146 | ||
|
147 | public void CopyTokenTo(char[] buffer, int offset) { | |
|
148 | Array.Copy(m_buffer, m_tokenOffset,buffer, offset, m_tokenLength); | |
|
149 | } | |
|
150 | ||
|
151 | public void CopyTokenTo(StringBuilder sb) { | |
|
152 | sb.Append(m_buffer, m_tokenOffset, m_tokenLength); | |
|
153 | } | |
|
154 | ||
|
155 | } | |
|
156 | } | |
|
157 |
@@ -0,0 +1,26 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab { | |
|
4 | public class FuncChainTask<TResult> : FuncChainTaskBase<TResult>, IDeferred { | |
|
5 | readonly Func<IPromise<TResult>> m_task; | |
|
6 | ||
|
7 | public FuncChainTask(Func<IPromise<TResult>> task, Func<Exception, IPromise<TResult>> error, Func<Exception, IPromise<TResult>> cancel, bool autoCancellable) | |
|
8 | : base(error, cancel, autoCancellable) { | |
|
9 | m_task = task; | |
|
10 | } | |
|
11 | ||
|
12 | public void Resolve() { | |
|
13 | if (m_task != null && LockCancelation()) { | |
|
14 | try { | |
|
15 | var operation = m_task(); | |
|
16 | operation.On(SetResult, HandleErrorInternal, HandleCancelInternal); | |
|
17 | CancellationRequested(operation.Cancel); | |
|
18 | } catch (OperationCanceledException reason) { | |
|
19 | HandleCancelInternal(reason); | |
|
20 | } catch (Exception err) { | |
|
21 | HandleErrorInternal(err); | |
|
22 | } | |
|
23 | } | |
|
24 | } | |
|
25 | } | |
|
26 | } No newline at end of file |
@@ -0,0 +1,54 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab { | |
|
4 | public class FuncChainTaskBase<TResult> : AbstractTask<TResult> { | |
|
5 | readonly Func<Exception, IPromise<TResult>> m_error; | |
|
6 | readonly Func<Exception, IPromise<TResult>> m_cancel; | |
|
7 | ||
|
8 | protected FuncChainTaskBase( Func<Exception, IPromise<TResult>> error, Func<Exception, IPromise<TResult>> cancel, bool autoCancellable) { | |
|
9 | m_error = error; | |
|
10 | m_cancel = cancel; | |
|
11 | if (autoCancellable) | |
|
12 | CancellationRequested(CancelOperation); | |
|
13 | } | |
|
14 | ||
|
15 | public void Reject(Exception error) { | |
|
16 | if (LockCancelation()) | |
|
17 | HandleErrorInternal(error); | |
|
18 | } | |
|
19 | ||
|
20 | public override void CancelOperation(Exception reason) { | |
|
21 | if (LockCancelation()) | |
|
22 | HandleCancelInternal(reason); | |
|
23 | } | |
|
24 | ||
|
25 | protected void HandleErrorInternal(Exception error) { | |
|
26 | if (m_error != null) { | |
|
27 | try { | |
|
28 | var p = m_error(error); | |
|
29 | p.On(SetResult, SetErrorInternal, SetCancelledInternal); | |
|
30 | CancellationRequested(p.Cancel); | |
|
31 | } catch(Exception err) { | |
|
32 | SetErrorInternal(err); | |
|
33 | } | |
|
34 | } else { | |
|
35 | SetErrorInternal(error); | |
|
36 | } | |
|
37 | } | |
|
38 | ||
|
39 | protected void HandleCancelInternal(Exception reason) { | |
|
40 | if (m_cancel != null) { | |
|
41 | try { | |
|
42 | var p = m_cancel(reason); | |
|
43 | p.On(SetResult, HandleErrorInternal, SetCancelledInternal); | |
|
44 | CancellationRequested(p.Cancel); | |
|
45 | } catch (Exception err) { | |
|
46 | HandleErrorInternal(err); | |
|
47 | } | |
|
48 | } else { | |
|
49 | HandleErrorInternal(reason ?? new OperationCanceledException()); | |
|
50 | } | |
|
51 | } | |
|
52 | } | |
|
53 | } | |
|
54 |
@@ -0,0 +1,25 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab { | |
|
4 | public class FuncChainTask<TArg,TResult> : FuncChainTaskBase<TResult>, IDeferred<TArg> { | |
|
5 | readonly Func<TArg, IPromise<TResult>> m_task; | |
|
6 | ||
|
7 | public FuncChainTask(Func<TArg, IPromise<TResult>> task, Func<Exception, IPromise<TResult>> error, Func<Exception, IPromise<TResult>> cancel, bool autoCancellable) : base(error, cancel, autoCancellable){ | |
|
8 | m_task = task; | |
|
9 | } | |
|
10 | ||
|
11 | public void Resolve(TArg value) { | |
|
12 | if (m_task != null && LockCancelation()) { | |
|
13 | try { | |
|
14 | var operation = m_task(value); | |
|
15 | operation.On(SetResult, HandleErrorInternal, SetCancelled); | |
|
16 | CancellationRequested(operation.Cancel); | |
|
17 | } catch (OperationCanceledException reason) { | |
|
18 | HandleCancelInternal(reason); | |
|
19 | } catch (Exception err) { | |
|
20 | HandleErrorInternal(err); | |
|
21 | } | |
|
22 | } | |
|
23 | } | |
|
24 | } | |
|
25 | } No newline at end of file |
@@ -0,0 +1,25 | |||
|
1 | using System; | |
|
2 | using System.Threading; | |
|
3 | ||
|
4 | namespace Implab { | |
|
5 | public class FuncTask<T> : FuncTaskBase<T>, IDeferred { | |
|
6 | readonly Func<T> m_task; | |
|
7 | ||
|
8 | public FuncTask(Func<T> task, Func<Exception, T> error, Func<Exception, T> cancel, bool autoCancellable) : base(error, cancel, autoCancellable) { | |
|
9 | m_task = task; | |
|
10 | } | |
|
11 | ||
|
12 | public void Resolve() { | |
|
13 | if (m_task != null && LockCancelation()) { | |
|
14 | try { | |
|
15 | SetResult(m_task()); | |
|
16 | } catch(OperationCanceledException reason) { | |
|
17 | HandleCancelInternal(reason); | |
|
18 | } catch(Exception err) { | |
|
19 | HandleErrorInternal(err); | |
|
20 | } | |
|
21 | } | |
|
22 | } | |
|
23 | } | |
|
24 | } | |
|
25 |
@@ -0,0 +1,52 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab { | |
|
4 | public class FuncTaskBase<TResult> : AbstractTask<TResult> { | |
|
5 | readonly Func<Exception, TResult> m_cancel; | |
|
6 | readonly Func<Exception, TResult> m_error; | |
|
7 | ||
|
8 | protected FuncTaskBase( Func<Exception, TResult> error, Func<Exception, TResult> cancel, bool autoCancellable) { | |
|
9 | m_error = error; | |
|
10 | m_cancel = cancel; | |
|
11 | if (autoCancellable) | |
|
12 | CancellationRequested(CancelOperation); | |
|
13 | } | |
|
14 | ||
|
15 | public void Reject(Exception error) { | |
|
16 | Safe.ArgumentNotNull(error, "error"); | |
|
17 | if (LockCancelation()) | |
|
18 | HandleErrorInternal(error); | |
|
19 | } | |
|
20 | ||
|
21 | protected void HandleErrorInternal(Exception error) { | |
|
22 | if (m_error != null) { | |
|
23 | try { | |
|
24 | SetResult(m_error(error)); | |
|
25 | } catch(Exception err) { | |
|
26 | SetErrorInternal(err); | |
|
27 | } | |
|
28 | } else { | |
|
29 | SetErrorInternal(error); | |
|
30 | } | |
|
31 | } | |
|
32 | ||
|
33 | public override void CancelOperation(Exception reason) { | |
|
34 | if (LockCancelation()) | |
|
35 | HandleCancelInternal(reason); | |
|
36 | } | |
|
37 | ||
|
38 | protected void HandleCancelInternal(Exception reason) { | |
|
39 | if (m_cancel != null) { | |
|
40 | try { | |
|
41 | SetResult(m_cancel(reason)); | |
|
42 | } catch (Exception err) { | |
|
43 | HandleErrorInternal(err); | |
|
44 | } | |
|
45 | } else { | |
|
46 | HandleErrorInternal(reason ?? new OperationCanceledException()); | |
|
47 | } | |
|
48 | } | |
|
49 | ||
|
50 | } | |
|
51 | } | |
|
52 |
@@ -0,0 +1,24 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab { | |
|
4 | public class FuncTask<TArg, TResult> : FuncTaskBase<TResult>, IDeferred<TArg> { | |
|
5 | readonly Func<TArg, TResult> m_task; | |
|
6 | ||
|
7 | public FuncTask(Func<TArg, TResult> task, Func<Exception, TResult> error,Func<Exception, TResult> cancel, bool autoCancellable) : base(error,cancel, autoCancellable) { | |
|
8 | m_task = task; | |
|
9 | } | |
|
10 | ||
|
11 | public void Resolve(TArg value) { | |
|
12 | if (m_task != null && LockCancelation()) { | |
|
13 | try { | |
|
14 | SetResult(m_task(value)); | |
|
15 | } catch(OperationCanceledException reason) { | |
|
16 | HandleCancelInternal(reason); | |
|
17 | } catch(Exception err) { | |
|
18 | HandleErrorInternal(err); | |
|
19 | } | |
|
20 | } | |
|
21 | } | |
|
22 | } | |
|
23 | } | |
|
24 |
@@ -0,0 +1,36 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab { | |
|
4 | public interface ICancellationToken { | |
|
5 | /// <summary> | |
|
6 | /// Indicates wherther the cancellation was requested. | |
|
7 | /// </summary> | |
|
8 | bool IsCancellationRequested { get ; } | |
|
9 | ||
|
10 | /// <summary> | |
|
11 | /// The reason why the operation should be cancelled. | |
|
12 | /// </summary> | |
|
13 | Exception CancellationReason { get ; } | |
|
14 | ||
|
15 | /// <summary> | |
|
16 | /// Accepts if requested. | |
|
17 | /// </summary> | |
|
18 | /// <returns><c>true</c>, if if requested was accepted, <c>false</c> otherwise.</returns> | |
|
19 | bool CancelOperationIfRequested(); | |
|
20 | ||
|
21 | /// <summary> | |
|
22 | /// Sets the token to cancelled state. | |
|
23 | /// </summary> | |
|
24 | /// <param name="reason">The reason why the operation was cancelled.</param> | |
|
25 | void CancelOperation(Exception reason); | |
|
26 | ||
|
27 | /// <summary> | |
|
28 | /// Adds the listener for the cancellation request, is the cancellation was requested the <paramref name="handler"/> | |
|
29 | /// is executed immediatelly. | |
|
30 | /// </summary> | |
|
31 | /// <param name="handler">The handler which will be executed if the cancel occurs.</param> | |
|
32 | void CancellationRequested(Action<Exception> handler); | |
|
33 | ||
|
34 | } | |
|
35 | } | |
|
36 |
@@ -0,0 +1,24 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab { | |
|
4 | /// <summary> | |
|
5 | /// Deferred result, usually used by asynchronous services as the service part of the promise. | |
|
6 | /// </summary> | |
|
7 | public interface IDeferred : ICancellationToken { | |
|
8 | ||
|
9 | void Resolve(); | |
|
10 | ||
|
11 | /// <summary> | |
|
12 | /// Reject the promise with the specified error. | |
|
13 | /// </summary> | |
|
14 | /// <param name="error">The reason why the promise is rejected.</param> | |
|
15 | /// <remarks> | |
|
16 | /// Some exceptions are treated in a special case: | |
|
17 | /// <see cref="OperationCanceledException"/> is interpreted as call to <see cref="Cancel()"/> method, | |
|
18 | /// and <see cref="PromiseTransientException"/> is always unwrapped and its | |
|
19 | /// <see cref="PromiseTransientException.InnerException"> is used as the reason to reject promise. | |
|
20 | /// </remarks> | |
|
21 | void Reject(Exception error); | |
|
22 | } | |
|
23 | } | |
|
24 |
@@ -0,0 +1,10 | |||
|
1 | using System; | |
|
2 | ||
|
3 | namespace Implab { | |
|
4 | public interface IDeferred<in T> : ICancellationToken { | |
|
5 | void Resolve(T value); | |
|
6 | ||
|
7 | void Reject(Exception error); | |
|
8 | } | |
|
9 | } | |
|
10 |
This diff has been collapsed as it changes many lines, (631 lines changed) Show them Hide them | |||
@@ -0,0 +1,631 | |||
|
1 | using System.Threading; | |
|
2 | using System.Collections.Generic; | |
|
3 | using System; | |
|
4 | using System.Collections; | |
|
5 | using System.Diagnostics; | |
|
6 | ||
|
7 | namespace Implab.Parallels { | |
|
8 | public class AsyncQueue<T> : IEnumerable<T> { | |
|
9 | class Chunk { | |
|
10 | public Chunk next; | |
|
11 | ||
|
12 | int m_low; | |
|
13 | int m_hi; | |
|
14 | int m_alloc; | |
|
15 | readonly int m_size; | |
|
16 | readonly T[] m_data; | |
|
17 | ||
|
18 | public Chunk(int size) { | |
|
19 | m_size = size; | |
|
20 | m_data = new T[size]; | |
|
21 | } | |
|
22 | ||
|
23 | public Chunk(int size, T value) { | |
|
24 | m_size = size; | |
|
25 | m_hi = 1; | |
|
26 | m_alloc = 1; | |
|
27 | m_data = new T[size]; | |
|
28 | m_data[0] = value; | |
|
29 | } | |
|
30 | ||
|
31 | public Chunk(int size, T[] data, int offset, int length, int alloc) { | |
|
32 | m_size = size; | |
|
33 | m_hi = length; | |
|
34 | m_alloc = alloc; | |
|
35 | m_data = new T[size]; | |
|
36 | Array.Copy(data, offset, m_data, 0, length); | |
|
37 | } | |
|
38 | ||
|
39 | public int Low { | |
|
40 | get { return m_low; } | |
|
41 | } | |
|
42 | ||
|
43 | public int Hi { | |
|
44 | get { return m_hi; } | |
|
45 | } | |
|
46 | ||
|
47 | public int Size { | |
|
48 | get { return m_size; } | |
|
49 | } | |
|
50 | ||
|
51 | public bool TryEnqueue(T value, out bool extend) { | |
|
52 | var alloc = Interlocked.Increment(ref m_alloc) - 1; | |
|
53 | ||
|
54 | if (alloc >= m_size) { | |
|
55 | extend = alloc == m_size; | |
|
56 | return false; | |
|
57 | } | |
|
58 | ||
|
59 | extend = false; | |
|
60 | m_data[alloc] = value; | |
|
61 | ||
|
62 | while (alloc != Interlocked.CompareExchange(ref m_hi, alloc + 1, alloc)) { | |
|
63 | // spin wait for commit | |
|
64 | } | |
|
65 | return true; | |
|
66 | } | |
|
67 | ||
|
68 | /// <summary> | |
|
69 | /// Prevents from allocating new space in the chunk and waits for all write operations to complete | |
|
70 | /// </summary> | |
|
71 | public void Commit() { | |
|
72 | var actual = Math.Min(Interlocked.Exchange(ref m_alloc, m_size + 1), m_size); | |
|
73 | ||
|
74 | while (m_hi != actual) | |
|
75 | Thread.MemoryBarrier(); | |
|
76 | } | |
|
77 | ||
|
78 | public bool TryDequeue(out T value, out bool recycle) { | |
|
79 | int low; | |
|
80 | do { | |
|
81 | low = m_low; | |
|
82 | if (low >= m_hi) { | |
|
83 | value = default(T); | |
|
84 | recycle = (low == m_size); | |
|
85 | return false; | |
|
86 | } | |
|
87 | } while(low != Interlocked.CompareExchange(ref m_low, low + 1, low)); | |
|
88 | ||
|
89 | recycle = (low == m_size - 1); | |
|
90 | value = m_data[low]; | |
|
91 | ||
|
92 | return true; | |
|
93 | } | |
|
94 | ||
|
95 | public bool TryEnqueueBatch(T[] batch, int offset, int length, out int enqueued, out bool extend) { | |
|
96 | //int alloc; | |
|
97 | //int allocSize; | |
|
98 | ||
|
99 | var alloc = Interlocked.Add(ref m_alloc, length) - length; | |
|
100 | if (alloc > m_size) { | |
|
101 | // the chunk is full and someone already | |
|
102 | // creating the new one | |
|
103 | enqueued = 0; // nothing was added | |
|
104 | extend = false; // the caller shouldn't try to extend the queue | |
|
105 | return false; // nothing was added | |
|
106 | } | |
|
107 | ||
|
108 | enqueued = Math.Min(m_size - alloc, length); | |
|
109 | extend = length > enqueued; | |
|
110 | ||
|
111 | if (enqueued == 0) | |
|
112 | return false; | |
|
113 | ||
|
114 | ||
|
115 | Array.Copy(batch, offset, m_data, alloc, enqueued); | |
|
116 | ||
|
117 | while (alloc != Interlocked.CompareExchange(ref m_hi, alloc + enqueued, alloc)) { | |
|
118 | // spin wait for commit | |
|
119 | } | |
|
120 | ||
|
121 | return true; | |
|
122 | } | |
|
123 | ||
|
124 | public bool TryDequeueBatch(T[] buffer, int offset, int length,out int dequeued, out bool recycle) { | |
|
125 | int low, hi, batchSize; | |
|
126 | ||
|
127 | do { | |
|
128 | low = m_low; | |
|
129 | hi = m_hi; | |
|
130 | if (low >= hi) { | |
|
131 | dequeued = 0; | |
|
132 | recycle = (low == m_size); // recycling could be restarted and we need to signal again | |
|
133 | return false; | |
|
134 | } | |
|
135 | batchSize = Math.Min(hi - low, length); | |
|
136 | } while(low != Interlocked.CompareExchange(ref m_low, low + batchSize, low)); | |
|
137 | ||
|
138 | recycle = (low == m_size - batchSize); | |
|
139 | dequeued = batchSize; | |
|
140 | ||
|
141 | Array.Copy(m_data, low, buffer, offset, batchSize); | |
|
142 | ||
|
143 | return true; | |
|
144 | } | |
|
145 | ||
|
146 | public T GetAt(int pos) { | |
|
147 | return m_data[pos]; | |
|
148 | } | |
|
149 | } | |
|
150 | ||
|
151 | public const int DEFAULT_CHUNK_SIZE = 32; | |
|
152 | public const int MAX_CHUNK_SIZE = 262144; | |
|
153 | ||
|
154 | Chunk m_first; | |
|
155 | Chunk m_last; | |
|
156 | ||
|
157 | /// <summary> | |
|
158 | /// Adds the specified value to the queue. | |
|
159 | /// </summary> | |
|
160 | /// <param name="value">Tha value which will be added to the queue.</param> | |
|
161 | public virtual void Enqueue(T value) { | |
|
162 | var last = m_last; | |
|
163 | // spin wait to the new chunk | |
|
164 | bool extend = true; | |
|
165 | while (last == null || !last.TryEnqueue(value, out extend)) { | |
|
166 | // try to extend queue | |
|
167 | if (extend || last == null) { | |
|
168 | var chunk = new Chunk(DEFAULT_CHUNK_SIZE, value); | |
|
169 | if (EnqueueChunk(last, chunk)) | |
|
170 | break; // success! exit! | |
|
171 | last = m_last; | |
|
172 | } else { | |
|
173 | while (last == m_last) { | |
|
174 | Thread.MemoryBarrier(); | |
|
175 | } | |
|
176 | last = m_last; | |
|
177 | } | |
|
178 | } | |
|
179 | } | |
|
180 | ||
|
181 | /// <summary> | |
|
182 | /// Adds the specified data to the queue. | |
|
183 | /// </summary> | |
|
184 | /// <param name="data">The buffer which contains the data to be enqueued.</param> | |
|
185 | /// <param name="offset">The offset of the data in the buffer.</param> | |
|
186 | /// <param name="length">The size of the data to read from the buffer.</param> | |
|
187 | public virtual void EnqueueRange(T[] data, int offset, int length) { | |
|
188 | if (data == null) | |
|
189 | throw new ArgumentNullException("data"); | |
|
190 | if (length == 0) | |
|
191 | return; | |
|
192 | if (offset < 0) | |
|
193 | throw new ArgumentOutOfRangeException("offset"); | |
|
194 | if (length < 1 || offset + length > data.Length) | |
|
195 | throw new ArgumentOutOfRangeException("length"); | |
|
196 | ||
|
197 | var last = m_last; | |
|
198 | ||
|
199 | bool extend; | |
|
200 | int enqueued; | |
|
201 | ||
|
202 | while (length > 0) { | |
|
203 | extend = true; | |
|
204 | if (last != null && last.TryEnqueueBatch(data, offset, length, out enqueued, out extend)) { | |
|
205 | length -= enqueued; | |
|
206 | offset += enqueued; | |
|
207 | } | |
|
208 | ||
|
209 | if (extend) { | |
|
210 | // there was no enough space in the chunk | |
|
211 | // or there was no chunks in the queue | |
|
212 | ||
|
213 | while (length > 0) { | |
|
214 | ||
|
215 | var size = Math.Min(length, MAX_CHUNK_SIZE); | |
|
216 | ||
|
217 | var chunk = new Chunk( | |
|
218 | Math.Max(size, DEFAULT_CHUNK_SIZE), | |
|
219 | data, | |
|
220 | offset, | |
|
221 | size, | |
|
222 | length // length >= size | |
|
223 | ); | |
|
224 | ||
|
225 | if (!EnqueueChunk(last, chunk)) { | |
|
226 | // looks like the queue has been updated then proceed from the beginning | |
|
227 | last = m_last; | |
|
228 | break; | |
|
229 | } | |
|
230 | ||
|
231 | // we have successfully added the new chunk | |
|
232 | last = chunk; | |
|
233 | length -= size; | |
|
234 | offset += size; | |
|
235 | } | |
|
236 | } else { | |
|
237 | // we don't need to extend the queue, if we successfully enqueued data | |
|
238 | if (length == 0) | |
|
239 | break; | |
|
240 | ||
|
241 | // if we need to wait while someone is extending the queue | |
|
242 | // spinwait | |
|
243 | while (last == m_last) { | |
|
244 | Thread.MemoryBarrier(); | |
|
245 | } | |
|
246 | ||
|
247 | last = m_last; | |
|
248 | } | |
|
249 | } | |
|
250 | } | |
|
251 | ||
|
252 | /// <summary> | |
|
253 | /// Tries to retrieve the first element from the queue. | |
|
254 | /// </summary> | |
|
255 | /// <returns><c>true</c>, if element is dequeued, <c>false</c> otherwise.</returns> | |
|
256 | /// <param name="value">The value of the dequeued element.</param> | |
|
257 | public bool TryDequeue(out T value) { | |
|
258 | var chunk = m_first; | |
|
259 | bool recycle; | |
|
260 | while (chunk != null) { | |
|
261 | ||
|
262 | var result = chunk.TryDequeue(out value, out recycle); | |
|
263 | ||
|
264 | if (recycle) // this chunk is waste | |
|
265 | RecycleFirstChunk(chunk); | |
|
266 | else | |
|
267 | return result; // this chunk is usable and returned actual result | |
|
268 | ||
|
269 | if (result) // this chunk is waste but the true result is always actual | |
|
270 | return true; | |
|
271 | ||
|
272 | // try again | |
|
273 | chunk = m_first; | |
|
274 | } | |
|
275 | ||
|
276 | // the queue is empty | |
|
277 | value = default(T); | |
|
278 | return false; | |
|
279 | } | |
|
280 | ||
|
281 | /// <summary> | |
|
282 | /// Tries to dequeue the specified amount of data from the queue. | |
|
283 | /// </summary> | |
|
284 | /// <returns><c>true</c>, if data was deuqueued, <c>false</c> otherwise.</returns> | |
|
285 | /// <param name="buffer">The buffer to which the data will be written.</param> | |
|
286 | /// <param name="offset">The offset in the buffer at which the data will be written.</param> | |
|
287 | /// <param name="length">The maximum amount of data to be retrieved.</param> | |
|
288 | /// <param name="dequeued">The actual amout of the retrieved data.</param> | |
|
289 | public bool TryDequeueRange(T[] buffer, int offset, int length, out int dequeued) { | |
|
290 | if (buffer == null) | |
|
291 | throw new ArgumentNullException("buffer"); | |
|
292 | if (offset < 0) | |
|
293 | throw new ArgumentOutOfRangeException("offset"); | |
|
294 | if (length < 1 || offset + length > buffer.Length) | |
|
295 | throw new ArgumentOutOfRangeException("length"); | |
|
296 | ||
|
297 | var chunk = m_first; | |
|
298 | bool recycle; | |
|
299 | dequeued = 0; | |
|
300 | while (chunk != null) { | |
|
301 | ||
|
302 | int actual; | |
|
303 | if (chunk.TryDequeueBatch(buffer, offset, length, out actual, out recycle)) { | |
|
304 | offset += actual; | |
|
305 | length -= actual; | |
|
306 | dequeued += actual; | |
|
307 | } | |
|
308 | ||
|
309 | if (recycle) // this chunk is waste | |
|
310 | RecycleFirstChunk(chunk); | |
|
311 | else if (actual == 0) | |
|
312 | break; // the chunk is usable, but doesn't contain any data (it's the last chunk in the queue) | |
|
313 | ||
|
314 | if (length == 0) | |
|
315 | return true; | |
|
316 | ||
|
317 | // we still may dequeue something | |
|
318 | // try again | |
|
319 | chunk = m_first; | |
|
320 | } | |
|
321 | ||
|
322 | return dequeued != 0; | |
|
323 | } | |
|
324 | ||
|
325 | /// <summary> | |
|
326 | /// Tries to dequeue all remaining data in the first chunk. | |
|
327 | /// </summary> | |
|
328 | /// <returns><c>true</c>, if data was dequeued, <c>false</c> otherwise.</returns> | |
|
329 | /// <param name="buffer">The buffer to which the data will be written.</param> | |
|
330 | /// <param name="offset">The offset in the buffer at which the data will be written.</param> | |
|
331 | /// <param name="length">Tha maximum amount of the data to be dequeued.</param> | |
|
332 | /// <param name="dequeued">The actual amount of the dequeued data.</param> | |
|
333 | public bool TryDequeueChunk(T[] buffer, int offset, int length, out int dequeued) { | |
|
334 | if (buffer == null) | |
|
335 | throw new ArgumentNullException("buffer"); | |
|
336 | if (offset < 0) | |
|
337 | throw new ArgumentOutOfRangeException("offset"); | |
|
338 | if (length < 1 || offset + length > buffer.Length) | |
|
339 | throw new ArgumentOutOfRangeException("length"); | |
|
340 | ||
|
341 | var chunk = m_first; | |
|
342 | bool recycle; | |
|
343 | dequeued = 0; | |
|
344 | ||
|
345 | while (chunk != null) { | |
|
346 | ||
|
347 | int actual; | |
|
348 | if (chunk.TryDequeueBatch(buffer, offset, length, out actual, out recycle)) { | |
|
349 | dequeued = actual; | |
|
350 | } | |
|
351 | ||
|
352 | if (recycle) // this chunk is waste | |
|
353 | RecycleFirstChunk(chunk); | |
|
354 | ||
|
355 | // if we have dequeued any data, then return | |
|
356 | if (dequeued != 0) | |
|
357 | return true; | |
|
358 | ||
|
359 | // we still may dequeue something | |
|
360 | // try again | |
|
361 | chunk = m_first; | |
|
362 | } | |
|
363 | ||
|
364 | return false; | |
|
365 | } | |
|
366 | ||
|
367 | bool EnqueueChunk(Chunk last, Chunk chunk) { | |
|
368 | if (Interlocked.CompareExchange(ref m_last, chunk, last) != last) | |
|
369 | return false; | |
|
370 | ||
|
371 | if (last != null) | |
|
372 | last.next = chunk; | |
|
373 | else { | |
|
374 | m_first = chunk; | |
|
375 | } | |
|
376 | return true; | |
|
377 | } | |
|
378 | ||
|
379 | void RecycleFirstChunk(Chunk first) { | |
|
380 | var next = first.next; | |
|
381 | ||
|
382 | if (first != Interlocked.CompareExchange(ref m_first, next, first)) | |
|
383 | return; | |
|
384 | ||
|
385 | if (next == null) { | |
|
386 | ||
|
387 | if (first != Interlocked.CompareExchange(ref m_last, null, first)) { | |
|
388 | /*while (first.next == null) | |
|
389 | Thread.MemoryBarrier();*/ | |
|
390 | ||
|
391 | // race | |
|
392 | // someone already updated the tail, restore the pointer to the queue head | |
|
393 | m_first = first; | |
|
394 | } | |
|
395 | // the tail is updated | |
|
396 | } | |
|
397 | ||
|
398 | // we need to update the head | |
|
399 | //Interlocked.CompareExchange(ref m_first, next, first); | |
|
400 | // if the head is already updated then give up | |
|
401 | //return; | |
|
402 | ||
|
403 | } | |
|
404 | ||
|
405 | public void Clear() { | |
|
406 | // start the new queue | |
|
407 | var chunk = new Chunk(DEFAULT_CHUNK_SIZE); | |
|
408 | ||
|
409 | do { | |
|
410 | Thread.MemoryBarrier(); | |
|
411 | var first = m_first; | |
|
412 | var last = m_last; | |
|
413 | ||
|
414 | if (last == null) // nothing to clear | |
|
415 | return; | |
|
416 | ||
|
417 | if (first == null || (first.next == null && first != last)) // inconcistency | |
|
418 | continue; | |
|
419 | ||
|
420 | // here we will create inconsistency which will force others to spin | |
|
421 | // and prevent from fetching. chunk.next = null | |
|
422 | if (first != Interlocked.CompareExchange(ref m_first, chunk, first)) | |
|
423 | continue;// inconsistent | |
|
424 | ||
|
425 | m_last = chunk; | |
|
426 | ||
|
427 | return; | |
|
428 | ||
|
429 | } while(true); | |
|
430 | } | |
|
431 | ||
|
432 | public T[] Drain() { | |
|
433 | // start the new queue | |
|
434 | var chunk = new Chunk(DEFAULT_CHUNK_SIZE); | |
|
435 | ||
|
436 | do { | |
|
437 | Thread.MemoryBarrier(); | |
|
438 | var first = m_first; | |
|
439 | var last = m_last; | |
|
440 | ||
|
441 | if (last == null) | |
|
442 | return new T[0]; | |
|
443 | ||
|
444 | if (first == null || (first.next == null && first != last)) | |
|
445 | continue; | |
|
446 | ||
|
447 | // here we will create inconsistency which will force others to spin | |
|
448 | // and prevent from fetching. chunk.next = null | |
|
449 | if (first != Interlocked.CompareExchange(ref m_first, chunk, first)) | |
|
450 | continue;// inconsistent | |
|
451 | ||
|
452 | last = Interlocked.Exchange(ref m_last, chunk); | |
|
453 | ||
|
454 | return ReadChunks(first, last); | |
|
455 | ||
|
456 | } while(true); | |
|
457 | } | |
|
458 | ||
|
459 | static T[] ReadChunks(Chunk chunk, object last) { | |
|
460 | var result = new List<T>(); | |
|
461 | var buffer = new T[DEFAULT_CHUNK_SIZE]; | |
|
462 | int actual; | |
|
463 | bool recycle; | |
|
464 | while (chunk != null) { | |
|
465 | // ensure all write operations on the chunk are complete | |
|
466 | chunk.Commit(); | |
|
467 | ||
|
468 | // we need to read the chunk using this way | |
|
469 | // since some client still may completing the dequeue | |
|
470 | // operation, such clients most likely won't get results | |
|
471 | while (chunk.TryDequeueBatch(buffer, 0, buffer.Length, out actual, out recycle)) | |
|
472 | result.AddRange(new ArraySegmentCollection(buffer, 0, actual)); | |
|
473 | ||
|
474 | if (chunk == last) { | |
|
475 | chunk = null; | |
|
476 | } else { | |
|
477 | while (chunk.next == null) | |
|
478 | Thread.MemoryBarrier(); | |
|
479 | chunk = chunk.next; | |
|
480 | } | |
|
481 | } | |
|
482 | ||
|
483 | return result.ToArray(); | |
|
484 | } | |
|
485 | ||
|
486 | struct ArraySegmentCollection : ICollection<T> { | |
|
487 | readonly T[] m_data; | |
|
488 | readonly int m_offset; | |
|
489 | readonly int m_length; | |
|
490 | ||
|
491 | public ArraySegmentCollection(T[] data, int offset, int length) { | |
|
492 | m_data = data; | |
|
493 | m_offset = offset; | |
|
494 | m_length = length; | |
|
495 | } | |
|
496 | ||
|
497 | #region ICollection implementation | |
|
498 | ||
|
499 | public void Add(T item) { | |
|
500 | throw new NotSupportedException(); | |
|
501 | } | |
|
502 | ||
|
503 | public void Clear() { | |
|
504 | throw new NotSupportedException(); | |
|
505 | } | |
|
506 | ||
|
507 | public bool Contains(T item) { | |
|
508 | return false; | |
|
509 | } | |
|
510 | ||
|
511 | public void CopyTo(T[] array, int arrayIndex) { | |
|
512 | Array.Copy(m_data,m_offset,array,arrayIndex, m_length); | |
|
513 | } | |
|
514 | ||
|
515 | public bool Remove(T item) { | |
|
516 | throw new NotSupportedException(); | |
|
517 | } | |
|
518 | ||
|
519 | public int Count { | |
|
520 | get { | |
|
521 | return m_length; | |
|
522 | } | |
|
523 | } | |
|
524 | ||
|
525 | public bool IsReadOnly { | |
|
526 | get { | |
|
527 | return true; | |
|
528 | } | |
|
529 | } | |
|
530 | ||
|
531 | #endregion | |
|
532 | ||
|
533 | #region IEnumerable implementation | |
|
534 | ||
|
535 | public IEnumerator<T> GetEnumerator() { | |
|
536 | for (int i = m_offset; i < m_length + m_offset; i++) | |
|
537 | yield return m_data[i]; | |
|
538 | } | |
|
539 | ||
|
540 | #endregion | |
|
541 | ||
|
542 | #region IEnumerable implementation | |
|
543 | ||
|
544 | IEnumerator IEnumerable.GetEnumerator() { | |
|
545 | return GetEnumerator(); | |
|
546 | } | |
|
547 | ||
|
548 | #endregion | |
|
549 | } | |
|
550 | ||
|
551 | #region IEnumerable implementation | |
|
552 | ||
|
553 | class Enumerator : IEnumerator<T> { | |
|
554 | Chunk m_current; | |
|
555 | int m_pos = -1; | |
|
556 | ||
|
557 | public Enumerator(Chunk fisrt) { | |
|
558 | m_current = fisrt; | |
|
559 | } | |
|
560 | ||
|
561 | #region IEnumerator implementation | |
|
562 | ||
|
563 | public bool MoveNext() { | |
|
564 | if (m_current == null) | |
|
565 | return false; | |
|
566 | ||
|
567 | if (m_pos == -1) | |
|
568 | m_pos = m_current.Low; | |
|
569 | else | |
|
570 | m_pos++; | |
|
571 | ||
|
572 | if (m_pos == m_current.Hi) { | |
|
573 | ||
|
574 | m_current = m_pos == m_current.Size ? m_current.next : null; | |
|
575 | ||
|
576 | m_pos = 0; | |
|
577 | ||
|
578 | if (m_current == null) | |
|
579 | return false; | |
|
580 | } | |
|
581 | ||
|
582 | return true; | |
|
583 | } | |
|
584 | ||
|
585 | public void Reset() { | |
|
586 | throw new NotSupportedException(); | |
|
587 | } | |
|
588 | ||
|
589 | object IEnumerator.Current { | |
|
590 | get { | |
|
591 | return Current; | |
|
592 | } | |
|
593 | } | |
|
594 | ||
|
595 | #endregion | |
|
596 | ||
|
597 | #region IDisposable implementation | |
|
598 | ||
|
599 | public void Dispose() { | |
|
600 | } | |
|
601 | ||
|
602 | #endregion | |
|
603 | ||
|
604 | #region IEnumerator implementation | |
|
605 | ||
|
606 | public T Current { | |
|
607 | get { | |
|
608 | if (m_pos == -1 || m_current == null) | |
|
609 | throw new InvalidOperationException(); | |
|
610 | return m_current.GetAt(m_pos); | |
|
611 | } | |
|
612 | } | |
|
613 | ||
|
614 | #endregion | |
|
615 | } | |
|
616 | ||
|
617 | public IEnumerator<T> GetEnumerator() { | |
|
618 | return new Enumerator(m_first); | |
|
619 | } | |
|
620 | ||
|
621 | #endregion | |
|
622 | ||
|
623 | #region IEnumerable implementation | |
|
624 | ||
|
625 | IEnumerator IEnumerable.GetEnumerator() { | |
|
626 | return GetEnumerator(); | |
|
627 | } | |
|
628 | ||
|
629 | #endregion | |
|
630 | } | |
|
631 | } |
@@ -0,0 +1,101 | |||
|
1 | using System; | |
|
2 | using System.Threading; | |
|
3 | ||
|
4 | namespace Implab.Parallels { | |
|
5 | public class BlockingQueue<T> : AsyncQueue<T> { | |
|
6 | readonly object m_lock = new object(); | |
|
7 | ||
|
8 | public override void Enqueue(T value) { | |
|
9 | base.Enqueue(value); | |
|
10 | lock (m_lock) | |
|
11 | Monitor.Pulse(m_lock); | |
|
12 | } | |
|
13 | ||
|
14 | public override void EnqueueRange(T[] data, int offset, int length) { | |
|
15 | base.EnqueueRange(data, offset, length); | |
|
16 | if (length > 1) | |
|
17 | lock (m_lock) | |
|
18 | Monitor.PulseAll(m_lock); | |
|
19 | else | |
|
20 | lock (m_lock) | |
|
21 | Monitor.Pulse(m_lock); | |
|
22 | } | |
|
23 | ||
|
24 | public T GetItem(int timeout) { | |
|
25 | T item; | |
|
26 | ||
|
27 | if (!TryDequeue(out item)) { | |
|
28 | var t1 = Environment.TickCount; | |
|
29 | var dt = timeout; | |
|
30 | ||
|
31 | lock (m_lock) { | |
|
32 | while (!TryDequeue(out item)) { | |
|
33 | if (!Monitor.Wait(m_lock, dt)) | |
|
34 | throw new TimeoutException(); | |
|
35 | if (timeout >= 0) { | |
|
36 | dt = timeout - Environment.TickCount + t1; | |
|
37 | if (dt < 0) | |
|
38 | throw new TimeoutException(); | |
|
39 | } | |
|
40 | } | |
|
41 | } | |
|
42 | } | |
|
43 | return item; | |
|
44 | } | |
|
45 | ||
|
46 | public T GetItem() { | |
|
47 | T item; | |
|
48 | if (!TryDequeue(out item)) | |
|
49 | lock (m_lock) { | |
|
50 | while (!TryDequeue(out item)) | |
|
51 | Monitor.Wait(m_lock); | |
|
52 | } | |
|
53 | return item; | |
|
54 | } | |
|
55 | ||
|
56 | public T[] GetRange(int max, int timeout) { | |
|
57 | Safe.ArgumentInRange(max, 1, Int32.MaxValue, "max"); | |
|
58 | ||
|
59 | var buffer = new T[max]; | |
|
60 | int actual; | |
|
61 | if (!TryDequeueRange(buffer, 0, max, out actual)) { | |
|
62 | var t1 = Environment.TickCount; | |
|
63 | var dt = timeout; | |
|
64 | ||
|
65 | lock (m_lock) { | |
|
66 | while (!TryDequeueRange(buffer, 0, max, out actual)) { | |
|
67 | ||
|
68 | if (!Monitor.Wait(m_lock, dt)) | |
|
69 | throw new TimeoutException(); | |
|
70 | ||
|
71 | if (timeout >= 0) { | |
|
72 | dt = timeout - Environment.TickCount + t1; | |
|
73 | if (dt < 0) | |
|
74 | throw new TimeoutException(); | |
|
75 | } | |
|
76 | } | |
|
77 | } | |
|
78 | } | |
|
79 | ||
|
80 | var data = new T[actual]; | |
|
81 | Array.Copy(buffer, data, actual); | |
|
82 | return data; | |
|
83 | } | |
|
84 | ||
|
85 | public T[] GetRange(int max) { | |
|
86 | Safe.ArgumentInRange(max, 1, Int32.MaxValue, "max"); | |
|
87 | ||
|
88 | var buffer = new T[max]; | |
|
89 | int actual; | |
|
90 | if (!TryDequeueRange(buffer, 0, max, out actual)) | |
|
91 | lock (m_lock) | |
|
92 | while (!TryDequeueRange(buffer, 0, max, out actual)) | |
|
93 | Monitor.Wait(m_lock); | |
|
94 | ||
|
95 | var data = new T[actual]; | |
|
96 | Array.Copy(buffer, data, actual); | |
|
97 | return data; | |
|
98 | } | |
|
99 | } | |
|
100 | } | |
|
101 |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644, binary diff hidden |
|
1 | NO CONTENT: new file 100644, binary diff hidden |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644, binary diff hidden |
|
1 | NO CONTENT: new file 100644, binary diff hidden |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644, binary diff hidden |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644, binary diff hidden |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644, binary diff hidden |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644, binary diff hidden |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: new file 100644, binary diff hidden |
|
1 | NO CONTENT: new file 100644, binary diff hidden |
|
1 | NO CONTENT: new file 100644 | |
The requested commit or file is too big and content was truncated. Show full diff |
@@ -1,15 +1,20 | |||
|
1 | 1 | syntax: glob |
|
2 | 2 | Implab.Test/bin/ |
|
3 | 3 | *.user |
|
4 | 4 | Implab.Test/obj/ |
|
5 | 5 | *.userprefs |
|
6 | 6 | Implab/bin/ |
|
7 | 7 | Implab/obj/ |
|
8 | 8 | TestResults/ |
|
9 | 9 | Implab.Fx/obj/ |
|
10 | 10 | Implab.Fx/bin/ |
|
11 | 11 | Implab.Fx.Test/bin/ |
|
12 | 12 | Implab.Fx.Test/obj/ |
|
13 | 13 | _ReSharper.Implab/ |
|
14 | 14 | Implab.Diagnostics.Interactive/bin/ |
|
15 | 15 | Implab.Diagnostics.Interactive/obj/ |
|
16 | MonoPlay/bin/ | |
|
17 | MonoPlay/obj/ | |
|
18 | Implab.Test/Implab.Format.Test/bin/ | |
|
19 | Implab.Test/Implab.Format.Test/obj/ | |
|
20 | *.suo |
@@ -1,122 +1,122 | |||
|
1 | 1 | using Implab.Parallels; |
|
2 | 2 | using System; |
|
3 | 3 | using System.Collections.Generic; |
|
4 | 4 | using System.Linq; |
|
5 | 5 | using System.Text; |
|
6 | 6 | using System.Threading; |
|
7 | 7 | using System.Threading.Tasks; |
|
8 | 8 | using System.Windows.Forms; |
|
9 | 9 | |
|
10 | 10 | namespace Implab.Diagnostics.Interactive |
|
11 | 11 | { |
|
12 |
public class InteractiveListener: |
|
|
12 | public class InteractiveListener: ListenerBase | |
|
13 | 13 | { |
|
14 | 14 | TraceForm m_form; |
|
15 | 15 | |
|
16 | 16 | SynchronizationContext m_syncGuiThread; |
|
17 |
readonly Promise |
|
|
17 | readonly Promise m_guiStarted = new Promise(); | |
|
18 | 18 | |
|
19 | 19 | readonly IPromise m_guiFinished; |
|
20 | readonly IPromise m_workerFinished = new Promise<object>(); | |
|
20 | // readonly IPromise m_workerFinished = new Promise<object>(); | |
|
21 | 21 | |
|
22 | 22 | readonly MTQueue<TraceViewItem> m_queue = new MTQueue<TraceViewItem>(); |
|
23 | 23 | readonly AutoResetEvent m_queueEvent = new AutoResetEvent(false); |
|
24 | 24 | |
|
25 | 25 | int m_queueLength; |
|
26 | 26 | bool m_exitPending; |
|
27 | 27 | |
|
28 | 28 | readonly object m_pauseLock = new object(); |
|
29 | 29 | bool m_paused; |
|
30 | 30 | readonly ManualResetEvent m_pauseEvent = new ManualResetEvent(true); |
|
31 | 31 | |
|
32 |
public InteractiveListener( |
|
|
33 |
m_guiFinished = AsyncPool. |
|
|
34 |
m_workerFinished = AsyncPool. |
|
|
32 | public InteractiveListener() { | |
|
33 | m_guiFinished = AsyncPool.RunThread(GuiThread); | |
|
34 | /*m_workerFinished = */AsyncPool.RunThread(QueueThread); | |
|
35 | 35 | |
|
36 | 36 | m_guiStarted.Join(); |
|
37 | 37 | } |
|
38 | 38 | |
|
39 | 39 | void GuiThread() { |
|
40 | 40 | m_form = new TraceForm(); // will create SynchronizationContext |
|
41 | 41 | |
|
42 | 42 | m_form.PauseEvents += (s,a) => Pause(); |
|
43 | 43 | m_form.ResumeEvents += (s, a) => Resume(); |
|
44 | 44 | |
|
45 | 45 | m_syncGuiThread = SynchronizationContext.Current; |
|
46 | 46 | m_guiStarted.Resolve(); |
|
47 | 47 | Application.Run(); |
|
48 | 48 | } |
|
49 | 49 | |
|
50 | 50 | void QueueThread() { |
|
51 | 51 | while (!m_exitPending) { |
|
52 | 52 | if (m_paused) |
|
53 | 53 | m_pauseEvent.WaitOne(); |
|
54 | 54 | |
|
55 | 55 | TraceViewItem item; |
|
56 | 56 | if (m_queue.TryDequeue(out item)) { |
|
57 | 57 | Interlocked.Decrement(ref m_queueLength); |
|
58 | 58 | |
|
59 | 59 | m_syncGuiThread.Send(x => m_form.AddTraceEvent(item),null); |
|
60 | 60 | } else { |
|
61 | 61 | m_queueEvent.WaitOne(); |
|
62 | 62 | } |
|
63 | 63 | } |
|
64 | 64 | } |
|
65 | 65 | |
|
66 | 66 | public void Pause() { |
|
67 | 67 | // for consistency we need to set this properties atomically |
|
68 | 68 | lock (m_pauseLock) { |
|
69 | 69 | m_pauseEvent.Reset(); |
|
70 | 70 | m_paused = true; |
|
71 | 71 | } |
|
72 | 72 | } |
|
73 | 73 | |
|
74 | 74 | public void Resume() { |
|
75 | 75 | // for consistency we need to set this properties atomically |
|
76 | 76 | lock (m_pauseLock) { |
|
77 | 77 | m_paused = false; |
|
78 | 78 | m_pauseEvent.Set(); |
|
79 | 79 | } |
|
80 | 80 | } |
|
81 | 81 | |
|
82 | 82 | void Enqueue(TraceViewItem item) { |
|
83 | 83 | m_queue.Enqueue(item); |
|
84 | 84 | if (Interlocked.Increment(ref m_queueLength) == 1) |
|
85 | 85 | m_queueEvent.Set(); |
|
86 | 86 | } |
|
87 | 87 | |
|
88 | 88 | public void ShowForm() { |
|
89 | 89 | m_syncGuiThread.Post(x => m_form.Show(), null); |
|
90 | 90 | } |
|
91 | 91 | |
|
92 | 92 | public void HideForm() { |
|
93 | 93 | m_syncGuiThread.Post(x => m_form.Hide(), null); |
|
94 | 94 | } |
|
95 | 95 | |
|
96 | 96 | void Terminate() { |
|
97 | 97 | m_exitPending = true; |
|
98 | 98 | Resume(); |
|
99 | 99 | m_syncGuiThread.Post(x => Application.ExitThread(), null); |
|
100 | 100 | } |
|
101 | 101 | |
|
102 | 102 | protected override void Dispose(bool disposing) { |
|
103 | 103 | if (disposing) { |
|
104 | 104 | Terminate(); |
|
105 | 105 | m_guiFinished.Join(); |
|
106 | 106 | } |
|
107 | 107 | base.Dispose(disposing); |
|
108 | 108 | } |
|
109 | 109 | |
|
110 | protected override void WriteEntry(TraceContext context, EventText text, string channel) { | |
|
110 | public override void Write(LogEventArgs args, object entry) { | |
|
111 | 111 | var item = new TraceViewItem { |
|
112 |
Indent = |
|
|
113 |
Message = |
|
|
114 |
Thread = |
|
|
115 |
Channel = |
|
|
112 | Indent = args.Operation.Level, | |
|
113 | Message = entry.ToString(), | |
|
114 | Thread = args.ThreadId, | |
|
115 | Channel = args.ChannelName, | |
|
116 | 116 | Timestamp = Environment.TickCount |
|
117 | 117 | }; |
|
118 | 118 | |
|
119 | 119 | Enqueue(item); |
|
120 | 120 | } |
|
121 | 121 | } |
|
122 | 122 | } |
@@ -1,94 +1,114 | |||
|
1 | 1 | <?xml version="1.0" encoding="utf-8"?> |
|
2 | 2 | <Project ToolsVersion="4.0" DefaultTargets="Build" xmlns="http://schemas.microsoft.com/developer/msbuild/2003"> |
|
3 | 3 | <PropertyGroup> |
|
4 | 4 | <Configuration Condition=" '$(Configuration)' == '' ">Debug</Configuration> |
|
5 | 5 | <Platform Condition=" '$(Platform)' == '' ">AnyCPU</Platform> |
|
6 | <ProductVersion> | |
|
7 | </ProductVersion> | |
|
6 | <ProductVersion>8.0.30703</ProductVersion> | |
|
8 | 7 | <SchemaVersion>2.0</SchemaVersion> |
|
9 | 8 | <ProjectGuid>{2F31E405-E267-4195-A05D-574093C21209}</ProjectGuid> |
|
10 | 9 | <OutputType>Library</OutputType> |
|
11 | 10 | <AppDesignerFolder>Properties</AppDesignerFolder> |
|
12 | 11 | <RootNamespace>Implab.Fx.Test</RootNamespace> |
|
13 | 12 | <AssemblyName>Implab.Fx.Test</AssemblyName> |
|
14 |
<TargetFrameworkVersion>v4. |
|
|
13 | <TargetFrameworkVersion>v4.5</TargetFrameworkVersion> | |
|
15 | 14 | <FileAlignment>512</FileAlignment> |
|
16 | 15 | <ProjectTypeGuids>{3AC096D0-A1C2-E12C-1390-A8335801FDAB};{FAE04EC0-301F-11D3-BF4B-00C04F79EFBC}</ProjectTypeGuids> |
|
16 | <TargetFrameworkProfile /> | |
|
17 | 17 | </PropertyGroup> |
|
18 | 18 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Debug|AnyCPU' "> |
|
19 | 19 | <DebugSymbols>true</DebugSymbols> |
|
20 | 20 | <DebugType>full</DebugType> |
|
21 | 21 | <Optimize>false</Optimize> |
|
22 | 22 | <OutputPath>bin\Debug\</OutputPath> |
|
23 | 23 | <DefineConstants>DEBUG;TRACE</DefineConstants> |
|
24 | 24 | <ErrorReport>prompt</ErrorReport> |
|
25 | 25 | <WarningLevel>4</WarningLevel> |
|
26 | <Prefer32Bit>false</Prefer32Bit> | |
|
26 | 27 | </PropertyGroup> |
|
27 | 28 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Release|AnyCPU' "> |
|
28 | 29 | <DebugType>pdbonly</DebugType> |
|
29 | 30 | <Optimize>true</Optimize> |
|
30 | 31 | <OutputPath>bin\Release\</OutputPath> |
|
31 | 32 | <DefineConstants>TRACE</DefineConstants> |
|
32 | 33 | <ErrorReport>prompt</ErrorReport> |
|
33 | 34 | <WarningLevel>4</WarningLevel> |
|
35 | <Prefer32Bit>false</Prefer32Bit> | |
|
36 | </PropertyGroup> | |
|
37 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Debug 4.5|AnyCPU' "> | |
|
38 | <DebugSymbols>true</DebugSymbols> | |
|
39 | <DebugType>full</DebugType> | |
|
40 | <Optimize>false</Optimize> | |
|
41 | <OutputPath>bin\Debug\</OutputPath> | |
|
42 | <DefineConstants>DEBUG;TRACE</DefineConstants> | |
|
43 | <ErrorReport>prompt</ErrorReport> | |
|
44 | <WarningLevel>4</WarningLevel> | |
|
45 | <Prefer32Bit>false</Prefer32Bit> | |
|
46 | </PropertyGroup> | |
|
47 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Release 4.5|AnyCPU' "> | |
|
48 | <DebugType>pdbonly</DebugType> | |
|
49 | <Optimize>true</Optimize> | |
|
50 | <OutputPath>bin\Release\</OutputPath> | |
|
51 | <DefineConstants>TRACE</DefineConstants> | |
|
52 | <ErrorReport>prompt</ErrorReport> | |
|
53 | <WarningLevel>4</WarningLevel> | |
|
54 | <Prefer32Bit>false</Prefer32Bit> | |
|
34 | 55 | </PropertyGroup> |
|
35 | 56 | <ItemGroup> |
|
36 | 57 | <Reference Include="Microsoft.VisualStudio.QualityTools.UnitTestFramework, Version=10.0.0.0, Culture=neutral, PublicKeyToken=b03f5f7f11d50a3a, processorArchitecture=MSIL" /> |
|
37 | 58 | <Reference Include="System" /> |
|
38 | 59 | <Reference Include="System.Core"> |
|
39 | 60 | <RequiredTargetFramework>3.5</RequiredTargetFramework> |
|
40 | 61 | </Reference> |
|
41 | 62 | <Reference Include="System.Data" /> |
|
42 | 63 | <Reference Include="System.Drawing" /> |
|
43 | 64 | <Reference Include="System.Windows.Forms" /> |
|
44 | 65 | <Reference Include="System.Xml" /> |
|
45 | 66 | <Reference Include="WindowsBase" /> |
|
46 | 67 | </ItemGroup> |
|
47 | 68 | <ItemGroup> |
|
48 | <CodeAnalysisDependentAssemblyPaths Condition=" '$(VS100COMNTOOLS)' != '' " Include="$(VS100COMNTOOLS)..\IDE\PrivateAssemblies"> | |
|
49 | <Visible>False</Visible> | |
|
50 | </CodeAnalysisDependentAssemblyPaths> | |
|
51 | </ItemGroup> | |
|
52 | <ItemGroup> | |
|
53 | 69 | <Compile Include="Properties\AssemblyInfo.cs" /> |
|
54 | 70 | <Compile Include="OverlayTest.cs" /> |
|
55 | 71 | <Compile Include="Sample\MainForm.cs"> |
|
56 | 72 | <SubType>Form</SubType> |
|
57 | 73 | </Compile> |
|
58 | 74 | <Compile Include="Sample\MainForm.Designer.cs"> |
|
59 | 75 | <DependentUpon>MainForm.cs</DependentUpon> |
|
60 | 76 | </Compile> |
|
61 | 77 | <Compile Include="Sample\OverlayForm.cs"> |
|
62 | 78 | <SubType>Form</SubType> |
|
63 | 79 | </Compile> |
|
64 | 80 | <Compile Include="Sample\OverlayForm.Designer.cs"> |
|
65 | 81 | <DependentUpon>OverlayForm.cs</DependentUpon> |
|
66 | 82 | </Compile> |
|
67 | 83 | </ItemGroup> |
|
68 | 84 | <ItemGroup> |
|
69 | 85 | <EmbeddedResource Include="Sample\MainForm.resx"> |
|
70 | 86 | <DependentUpon>MainForm.cs</DependentUpon> |
|
87 | <LogicalName> | |
|
88 | </LogicalName> | |
|
71 | 89 | </EmbeddedResource> |
|
72 | 90 | <EmbeddedResource Include="Sample\OverlayForm.resx"> |
|
73 | 91 | <DependentUpon>OverlayForm.cs</DependentUpon> |
|
92 | <LogicalName> | |
|
93 | </LogicalName> | |
|
74 | 94 | </EmbeddedResource> |
|
75 | 95 | </ItemGroup> |
|
76 | 96 | <ItemGroup> |
|
77 | 97 | <ProjectReference Include="..\Implab.Fx\Implab.Fx.csproj"> |
|
78 | 98 | <Project>{06E706F8-6881-43EB-927E-FFC503AF6ABC}</Project> |
|
79 | 99 | <Name>Implab.Fx</Name> |
|
80 | 100 | </ProjectReference> |
|
81 | 101 | <ProjectReference Include="..\Implab\Implab.csproj"> |
|
82 | 102 | <Project>{F550F1F8-8746-4AD0-9614-855F4C4B7F05}</Project> |
|
83 | 103 | <Name>Implab</Name> |
|
84 | 104 | </ProjectReference> |
|
85 | 105 | </ItemGroup> |
|
86 | 106 | <Import Project="$(MSBuildBinPath)\Microsoft.CSharp.targets" /> |
|
87 | 107 | <!-- To modify your build process, add your task inside one of the targets below and uncomment it. |
|
88 | 108 | Other similar extension points exist, see Microsoft.Common.targets. |
|
89 | 109 | <Target Name="BeforeBuild"> |
|
90 | 110 | </Target> |
|
91 | 111 | <Target Name="AfterBuild"> |
|
92 | 112 | </Target> |
|
93 | 113 | --> |
|
94 | 114 | </Project> No newline at end of file |
@@ -1,35 +1,38 | |||
|
1 | using System; | |
|
2 | using System.Text; | |
|
3 | using System.Collections.Generic; | |
|
4 | using System.Linq; | |
|
1 | using System.Windows.Forms; | |
|
2 | using Implab.Fx.Test.Sample; | |
|
3 | using Implab.Fx; | |
|
4 | ||
|
5 | #if MONO | |
|
6 | ||
|
7 | using NUnit.Framework; | |
|
8 | using TestClassAttribute = NUnit.Framework.TestFixtureAttribute; | |
|
9 | using TestMethod = NUnit.Framework.TestAttribute; | |
|
10 | ||
|
11 | #else | |
|
12 | ||
|
5 | 13 | using Microsoft.VisualStudio.TestTools.UnitTesting; |
|
6 | using System.Windows.Forms; | |
|
7 | using Implab.Fx.Test.Sample; | |
|
8 | using System.Drawing; | |
|
9 | using Implab.Fx; | |
|
14 | ||
|
15 | #endif | |
|
10 | 16 | |
|
11 | 17 | namespace Implab.Fx.Test |
|
12 | 18 | { |
|
13 | 19 | [TestClass] |
|
14 | 20 | public class OverlayTest |
|
15 | 21 | { |
|
16 | 22 | [TestMethod] |
|
17 | 23 | public void TestMethod1() |
|
18 | 24 | { |
|
19 | 25 | var mainForm = new MainForm(); |
|
20 | 26 | |
|
21 | 27 | mainForm.ButtonEvent += (sender, args) => |
|
22 | 28 | { |
|
23 | 29 | var overlay = new OverlayForm(); |
|
24 |
mainForm.OverlayFadeIn(overlay). |
|
|
25 | o => o.ButtonEvent += (s2, args2) => | |
|
26 | { | |
|
27 | o.CloseFadeOut(); | |
|
28 | } | |
|
30 | mainForm.OverlayFadeIn(overlay).On( | |
|
31 | o => o.ButtonEvent += (s2, args2) => o.CloseFadeOut() | |
|
29 | 32 | ); |
|
30 | 33 | }; |
|
31 | 34 | |
|
32 | 35 | Application.Run(mainForm); |
|
33 | 36 | } |
|
34 | 37 | } |
|
35 | 38 | } |
@@ -1,89 +1,95 | |||
|
1 | 1 | using System; |
|
2 | 2 | using System.Collections.Generic; |
|
3 | 3 | using System.Linq; |
|
4 | 4 | using System.Text; |
|
5 | 5 | using System.Windows.Forms; |
|
6 | 6 | using System.Diagnostics; |
|
7 | 7 | |
|
8 | 8 | namespace Implab.Fx |
|
9 | 9 | { |
|
10 | 10 | public static class AnimationHelpers |
|
11 | 11 | { |
|
12 | 12 | public static Animation<TTarget> AnimateProperty<TTarget, TVal>(this Animation<TTarget> animation, Action<TTarget, TVal> setter, Func<TTarget, TVal> getter, TVal newValue, Func<TVal, TVal, int, int, TVal> fx) where TTarget : class |
|
13 | 13 | { |
|
14 | 14 | if (animation == null) |
|
15 | 15 | throw new ArgumentNullException("animation"); |
|
16 | 16 | |
|
17 | 17 | TVal oldValue = getter(animation.Traget); |
|
18 | 18 | |
|
19 | 19 | animation.Step += (target, elaped, duration) => |
|
20 | 20 | { |
|
21 | 21 | var value = fx(oldValue, newValue, elaped, duration); |
|
22 | 22 | setter(target, value); |
|
23 | 23 | }; |
|
24 | 24 | |
|
25 | 25 | return animation; |
|
26 | 26 | } |
|
27 | 27 | |
|
28 | 28 | public static Animation<T> AnimateTransparency<T>(this T ctl, float newValue) where T : Form |
|
29 | 29 | { |
|
30 | 30 | var anim = new Animation<T>(ctl); |
|
31 | 31 | |
|
32 | 32 | anim.AnimateProperty( |
|
33 | 33 | (target, value) => target.Opacity = value, |
|
34 | 34 | target => target.Opacity, |
|
35 | 35 | newValue, |
|
36 | 36 | (ov, nv, el, du) => ov + ((float)el / du) * (nv - ov) |
|
37 | 37 | ); |
|
38 | 38 | return anim; |
|
39 | 39 | } |
|
40 | 40 | |
|
41 | 41 | public static IPromise<T> CloseFadeOut<T>(this T ctl) where T : Form |
|
42 | 42 | { |
|
43 | 43 | var anim = ctl.AnimateTransparency(0); |
|
44 | 44 | |
|
45 | return anim.Play().DispatchToControl(ctl).Then(frm => frm.Close()); | |
|
45 | return anim | |
|
46 | .Play() | |
|
47 | .DispatchToControl(ctl) | |
|
48 | .Then(frm => { | |
|
49 | frm.Close(); | |
|
50 | return frm; | |
|
51 | }); | |
|
46 | 52 | } |
|
47 | 53 | |
|
48 | 54 | public static IPromise<T> OverlayFadeIn<T>(this Form that, T overlay) where T : Form |
|
49 | 55 | { |
|
50 | 56 | if (that == null) |
|
51 | 57 | throw new ArgumentNullException("that"); |
|
52 | 58 | if (overlay == null) |
|
53 | 59 | throw new ArgumentNullException("overlay"); |
|
54 | 60 | |
|
55 | 61 | // setup overlay |
|
56 | 62 | overlay.Opacity = 0; |
|
57 | 63 | overlay.FormBorderStyle = FormBorderStyle.None; |
|
58 | 64 | overlay.ShowInTaskbar = false; |
|
59 | 65 | |
|
60 | 66 | that.AddOwnedForm(overlay); |
|
61 | 67 | |
|
62 | 68 | EventHandler handler = (object sender, EventArgs args) => |
|
63 | 69 | { |
|
64 | 70 | overlay.Bounds = that.RectangleToScreen(that.ClientRectangle); |
|
65 | 71 | }; |
|
66 | 72 | |
|
67 | 73 | // attach handlers |
|
68 | 74 | that.Move += handler; |
|
69 | 75 | that.Resize += handler; |
|
70 | 76 | that.Shown += handler; |
|
71 | 77 | |
|
72 | 78 | // remove handlers to release overlay |
|
73 | 79 | overlay.FormClosed += (sender, args) => |
|
74 | 80 | { |
|
75 | 81 | that.Move -= handler; |
|
76 | 82 | that.Resize -= handler; |
|
77 | 83 | that.Shown -= handler; |
|
78 | 84 | }; |
|
79 | 85 | |
|
80 | 86 | overlay.Show(that); |
|
81 | 87 | overlay.Bounds = that.RectangleToScreen(that.ClientRectangle); |
|
82 | 88 | |
|
83 | 89 | return overlay |
|
84 | 90 | .AnimateTransparency(1) |
|
85 | 91 | .Play() |
|
86 | 92 | .DispatchToControl(overlay); |
|
87 | 93 | } |
|
88 | 94 | } |
|
89 | 95 | } |
@@ -1,64 +1,88 | |||
|
1 | 1 | <?xml version="1.0" encoding="utf-8"?> |
|
2 | 2 | <Project ToolsVersion="4.0" DefaultTargets="Build" xmlns="http://schemas.microsoft.com/developer/msbuild/2003"> |
|
3 | 3 | <PropertyGroup> |
|
4 | 4 | <Configuration Condition=" '$(Configuration)' == '' ">Debug</Configuration> |
|
5 | 5 | <Platform Condition=" '$(Platform)' == '' ">AnyCPU</Platform> |
|
6 | 6 | <ProductVersion>8.0.30703</ProductVersion> |
|
7 | 7 | <SchemaVersion>2.0</SchemaVersion> |
|
8 | 8 | <ProjectGuid>{06E706F8-6881-43EB-927E-FFC503AF6ABC}</ProjectGuid> |
|
9 | 9 | <OutputType>Library</OutputType> |
|
10 | 10 | <AppDesignerFolder>Properties</AppDesignerFolder> |
|
11 | 11 | <RootNamespace>Implab.Fx</RootNamespace> |
|
12 | 12 | <AssemblyName>Implab.Fx</AssemblyName> |
|
13 |
<TargetFrameworkVersion>v4. |
|
|
13 | <TargetFrameworkVersion>v4.5</TargetFrameworkVersion> | |
|
14 | 14 | <FileAlignment>512</FileAlignment> |
|
15 | <ReleaseVersion>0.2</ReleaseVersion> | |
|
16 | <TargetFrameworkProfile /> | |
|
15 | 17 | </PropertyGroup> |
|
16 | 18 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Debug|AnyCPU' "> |
|
17 | 19 | <DebugSymbols>true</DebugSymbols> |
|
18 | 20 | <DebugType>full</DebugType> |
|
19 | 21 | <Optimize>false</Optimize> |
|
20 | 22 | <OutputPath>bin\Debug\</OutputPath> |
|
21 | 23 | <DefineConstants>DEBUG;TRACE</DefineConstants> |
|
22 | 24 | <ErrorReport>prompt</ErrorReport> |
|
23 | 25 | <WarningLevel>4</WarningLevel> |
|
26 | <Prefer32Bit>false</Prefer32Bit> | |
|
24 | 27 | </PropertyGroup> |
|
25 | 28 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Release|AnyCPU' "> |
|
26 | 29 | <DebugType>pdbonly</DebugType> |
|
27 | 30 | <Optimize>true</Optimize> |
|
28 | 31 | <OutputPath>bin\Release\</OutputPath> |
|
29 | 32 | <DefineConstants>TRACE</DefineConstants> |
|
30 | 33 | <ErrorReport>prompt</ErrorReport> |
|
31 | 34 | <WarningLevel>4</WarningLevel> |
|
35 | <Prefer32Bit>false</Prefer32Bit> | |
|
36 | </PropertyGroup> | |
|
37 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Debug 4.5|AnyCPU' "> | |
|
38 | <DebugSymbols>true</DebugSymbols> | |
|
39 | <DebugType>full</DebugType> | |
|
40 | <Optimize>false</Optimize> | |
|
41 | <OutputPath>bin\Debug\</OutputPath> | |
|
42 | <DefineConstants>DEBUG;TRACE</DefineConstants> | |
|
43 | <ErrorReport>prompt</ErrorReport> | |
|
44 | <WarningLevel>4</WarningLevel> | |
|
45 | <Prefer32Bit>false</Prefer32Bit> | |
|
46 | </PropertyGroup> | |
|
47 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Release 4.5|AnyCPU' "> | |
|
48 | <DebugType>pdbonly</DebugType> | |
|
49 | <Optimize>true</Optimize> | |
|
50 | <OutputPath>bin\Release\</OutputPath> | |
|
51 | <DefineConstants>TRACE</DefineConstants> | |
|
52 | <ErrorReport>prompt</ErrorReport> | |
|
53 | <WarningLevel>4</WarningLevel> | |
|
54 | <Prefer32Bit>false</Prefer32Bit> | |
|
32 | 55 | </PropertyGroup> |
|
33 | 56 | <ItemGroup> |
|
34 | 57 | <Reference Include="System" /> |
|
35 | 58 | <Reference Include="System.Core" /> |
|
36 | 59 | <Reference Include="System.Drawing" /> |
|
37 | 60 | <Reference Include="System.Windows.Forms" /> |
|
38 | 61 | <Reference Include="System.Xml.Linq" /> |
|
39 | 62 | <Reference Include="System.Data.DataSetExtensions" /> |
|
40 | 63 | <Reference Include="Microsoft.CSharp" /> |
|
41 | 64 | <Reference Include="System.Data" /> |
|
42 | 65 | <Reference Include="System.Xml" /> |
|
43 | 66 | </ItemGroup> |
|
44 | 67 | <ItemGroup> |
|
45 | 68 | <Compile Include="Animation.cs" /> |
|
46 | 69 | <Compile Include="AnimationHelpers.cs" /> |
|
47 | 70 | <Compile Include="PromiseHelpers.cs" /> |
|
48 | 71 | <Compile Include="Properties\AssemblyInfo.cs" /> |
|
72 | <Compile Include="ControlBoundPromise.cs" /> | |
|
49 | 73 | </ItemGroup> |
|
50 | 74 | <ItemGroup> |
|
51 | 75 | <ProjectReference Include="..\Implab\Implab.csproj"> |
|
52 |
<Project>{ |
|
|
76 | <Project>{F550F1F8-8746-4AD0-9614-855F4C4B7F05}</Project> | |
|
53 | 77 | <Name>Implab</Name> |
|
54 | 78 | </ProjectReference> |
|
55 | 79 | </ItemGroup> |
|
56 | 80 | <Import Project="$(MSBuildToolsPath)\Microsoft.CSharp.targets" /> |
|
57 | 81 | <!-- To modify your build process, add your task inside one of the targets below and uncomment it. |
|
58 | 82 | Other similar extension points exist, see Microsoft.Common.targets. |
|
59 | 83 | <Target Name="BeforeBuild"> |
|
60 | 84 | </Target> |
|
61 | 85 | <Target Name="AfterBuild"> |
|
62 | 86 | </Target> |
|
63 | 87 | --> |
|
64 | 88 | </Project> No newline at end of file |
@@ -1,95 +1,43 | |||
|
1 | 1 | using System; |
|
2 | using System.Collections.Generic; | |
|
3 | using System.Linq; | |
|
4 | using System.Text; | |
|
5 | 2 | using System.Windows.Forms; |
|
6 | 3 | using System.Threading; |
|
7 | 4 | |
|
8 | 5 | namespace Implab.Fx |
|
9 | 6 | { |
|
10 | 7 | public static class PromiseHelpers |
|
11 | 8 | { |
|
12 | 9 | /// <summary> |
|
13 | 10 | /// Перенаправляет обработку обещания в поток указанного элемента управления. |
|
14 | 11 | /// </summary> |
|
15 | 12 | /// <typeparam name="T">Тип результата обещания</typeparam> |
|
16 | 13 | /// <param name="that">Исходное обещание</param> |
|
17 | 14 | /// <param name="ctl">Элемент управления</param> |
|
18 | 15 | /// <returns>Новое обещание, обработчики которого будут выполнены в потоке элемента управления.</returns> |
|
19 | 16 | /// <exception cref="ArgumentNullException">Параметр не может быть <c>null</c>.</exception> |
|
20 | 17 | /// <example> |
|
21 | 18 | /// client |
|
22 | 19 | /// .Get("description.txt") // returns a promise |
|
23 |
/// .Di |
|
|
20 | /// .DispatchToControl(m_ctl) // handle the promise in the thread of the control | |
|
24 | 21 | /// .Then( |
|
25 | 22 | /// description => m_ctl.Text = description // now it's safe |
|
26 | 23 | /// ) |
|
27 | 24 | /// </example> |
|
28 | public static Promise<T> DispatchToControl<T>(this Promise<T> that, Control ctl) | |
|
29 | { | |
|
30 | if (that == null) | |
|
31 | throw new ArgumentNullException("that"); | |
|
32 | if (ctl == null) | |
|
33 | throw new ArgumentNullException("ctl"); | |
|
34 | ||
|
35 | var directed = new Promise<T>(); | |
|
36 | ||
|
37 | that.Then( | |
|
38 | res => | |
|
25 | public static IPromise<T> DispatchToControl<T>(this IPromise<T> that, Control ctl) | |
|
39 | 26 |
|
|
40 | if (ctl.InvokeRequired) | |
|
41 | ctl.Invoke(new Action<T>(directed.Resolve), res); | |
|
42 | else | |
|
43 | directed.Resolve(res); | |
|
44 | }, | |
|
45 | err => | |
|
46 | { | |
|
47 | if (ctl.InvokeRequired) | |
|
48 | ctl.Invoke(new Action<Exception>(directed.Reject), err); | |
|
49 |
|
|
|
50 |
|
|
|
51 | } | |
|
27 | Safe.ArgumentNotNull(that, "that"); | |
|
28 | Safe.ArgumentNotNull(ctl, "ctl"); | |
|
29 | ||
|
30 | var directed = new ControlBoundPromise<T>(ctl); | |
|
31 | ||
|
32 | directed.On(that.Cancel, PromiseEventType.Cancelled); | |
|
33 | ||
|
34 | that.On( | |
|
35 | directed.Resolve, | |
|
36 | directed.Reject, | |
|
37 | directed.Cancel | |
|
52 | 38 | ); |
|
53 | 39 | |
|
54 | 40 | return directed; |
|
55 | 41 | } |
|
56 | ||
|
57 | /// <summary> | |
|
58 | /// Направляет обработку обещания в текущий поток, если у него существует контекст синхронизации. | |
|
59 | /// </summary> | |
|
60 | /// <typeparam name="T">Тип результата обещания.</typeparam> | |
|
61 | /// <param name="that">Обещание которое нужно обработать в текущем потоке.</param> | |
|
62 | /// <returns>Перенаправленное обещание.</returns> | |
|
63 | public static Promise<T> DispatchToCurrentThread<T>(this Promise<T> that) | |
|
64 | { | |
|
65 | var sync = SynchronizationContext.Current; | |
|
66 | if (sync == null) | |
|
67 | throw new InvalidOperationException("The current thread doesn't have a syncronization context"); | |
|
68 | return DispatchToSyncContext(that, sync); | |
|
69 | } | |
|
70 | ||
|
71 | /// <summary> | |
|
72 | /// Направляет обработку обещания в указанный контекст синхронизации. | |
|
73 | /// </summary> | |
|
74 | /// <typeparam name="T">Тип результата обещания.</typeparam> | |
|
75 | /// <param name="that">Обещание, которое требуется обработать в указанном контексте синхронизации.</param> | |
|
76 | /// <param name="sync">Контекст синхронизации в который будет направлено обещание.</param> | |
|
77 | /// <returns>Новое обещание, которое будет обрабатываться в указанном контексте.</returns> | |
|
78 | public static Promise<T> DispatchToSyncContext<T>(this Promise<T> that, SynchronizationContext sync) | |
|
79 | { | |
|
80 | if (that == null) | |
|
81 | throw new ArgumentNullException("that"); | |
|
82 | if (sync == null) | |
|
83 | throw new ArgumentNullException("sync"); | |
|
84 | ||
|
85 | var d = new Promise<T>(); | |
|
86 | ||
|
87 | that.Then( | |
|
88 | res => sync.Post(state => d.Resolve(res), null), | |
|
89 | err => sync.Post(state => d.Reject(err), null) | |
|
90 | ); | |
|
91 | ||
|
92 | return d; | |
|
93 | 42 |
|
|
94 | 43 | } |
|
95 | } |
@@ -1,36 +1,35 | |||
|
1 | 1 | using System.Reflection; |
|
2 | 2 | using System.Runtime.CompilerServices; |
|
3 | 3 | using System.Runtime.InteropServices; |
|
4 | 4 | |
|
5 | 5 | // General Information about an assembly is controlled through the following |
|
6 | 6 | // set of attributes. Change these attribute values to modify the information |
|
7 | 7 | // associated with an assembly. |
|
8 | 8 | [assembly: AssemblyTitle("Implab.Fx")] |
|
9 | 9 | [assembly: AssemblyDescription("")] |
|
10 | 10 | [assembly: AssemblyConfiguration("")] |
|
11 | 11 | [assembly: AssemblyCompany("")] |
|
12 | 12 | [assembly: AssemblyProduct("Implab.Fx")] |
|
13 | 13 | [assembly: AssemblyCopyright("Copyright © 2013")] |
|
14 | 14 | [assembly: AssemblyTrademark("")] |
|
15 | 15 | [assembly: AssemblyCulture("")] |
|
16 | 16 | |
|
17 | 17 | // Setting ComVisible to false makes the types in this assembly not visible |
|
18 | 18 | // to COM components. If you need to access a type in this assembly from |
|
19 | 19 | // COM, set the ComVisible attribute to true on that type. |
|
20 | 20 | [assembly: ComVisible(false)] |
|
21 | 21 | |
|
22 | 22 | // The following GUID is for the ID of the typelib if this project is exposed to COM |
|
23 | 23 | [assembly: Guid("d239c29f-98e2-4942-9569-554a8511d07b")] |
|
24 | 24 | |
|
25 | 25 | // Version information for an assembly consists of the following four values: |
|
26 | 26 | // |
|
27 | 27 | // Major Version |
|
28 | 28 | // Minor Version |
|
29 | 29 | // Build Number |
|
30 | 30 | // Revision |
|
31 | 31 | // |
|
32 | 32 | // You can specify all the values or you can default the Build and Revision Numbers |
|
33 | 33 | // by using the '*' as shown below: |
|
34 | 34 | // [assembly: AssemblyVersion("1.0.*")] |
|
35 |
[assembly: AssemblyVersion(" |
|
|
36 | [assembly: AssemblyFileVersion("1.0.0.0")] | |
|
35 | [assembly: AssemblyVersion("2.0.*")] |
This diff has been collapsed as it changes many lines, (571 lines changed) Show them Hide them | |||
@@ -1,386 +1,863 | |||
|
1 | 1 | using System; |
|
2 | using Microsoft.VisualStudio.TestTools.UnitTesting; | |
|
3 | 2 | using System.Reflection; |
|
4 | 3 | using System.Threading; |
|
5 | 4 | using Implab.Parallels; |
|
6 | 5 | |
|
6 | #if MONO | |
|
7 | ||
|
8 | using NUnit.Framework; | |
|
9 | using TestClassAttribute = NUnit.Framework.TestFixtureAttribute; | |
|
10 | using TestMethodAttribute = NUnit.Framework.TestAttribute; | |
|
11 | ||
|
12 | #else | |
|
13 | ||
|
14 | using Microsoft.VisualStudio.TestTools.UnitTesting; | |
|
15 | ||
|
16 | #endif | |
|
17 | ||
|
7 | 18 | namespace Implab.Test { |
|
8 | 19 | [TestClass] |
|
9 | 20 | public class AsyncTests { |
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10 | 21 | [TestMethod] |
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11 | 22 | public void ResolveTest() { |
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12 | 23 | int res = -1; |
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13 | 24 | var p = new Promise<int>(); |
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14 | 25 | p.Then(x => res = x); |
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15 | 26 | p.Resolve(100); |
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16 | 27 | |
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17 | 28 | Assert.AreEqual(100, res); |
|
18 | 29 | } |
|
19 | 30 | |
|
20 | 31 | [TestMethod] |
|
21 | 32 | public void RejectTest() { |
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22 | 33 | int res = -1; |
|
23 | 34 | Exception err = null; |
|
24 | 35 | |
|
25 | 36 | var p = new Promise<int>(); |
|
26 | p.Then(x => res = x, e => err = e); | |
|
37 | p.Then( | |
|
38 | x => res = x, | |
|
39 | e => { | |
|
40 | err = e; | |
|
41 | return -2; | |
|
42 | } | |
|
43 | ); | |
|
27 | 44 | p.Reject(new ApplicationException("error")); |
|
28 | 45 | |
|
29 | 46 | Assert.AreEqual(res, -1); |
|
30 | 47 | Assert.AreEqual(err.Message, "error"); |
|
31 | 48 | |
|
32 | 49 | } |
|
33 | 50 | |
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34 | 51 | [TestMethod] |
|
52 | public void CancelExceptionTest() { | |
|
53 | var p = new Promise<bool>(); | |
|
54 | p.CancelOperation(null); | |
|
55 | ||
|
56 | var p2 = p.Then(x => x, null, reason => { | |
|
57 | throw new ApplicationException("CANCELLED"); | |
|
58 | }); | |
|
59 | ||
|
60 | try { | |
|
61 | p2.Join(); | |
|
62 | Assert.Fail(); | |
|
63 | } catch (ApplicationException err) { | |
|
64 | Assert.AreEqual("CANCELLED", err.InnerException.Message); | |
|
65 | } | |
|
66 | ||
|
67 | } | |
|
68 | ||
|
69 | [TestMethod] | |
|
70 | public void ContinueOnCancelTest() { | |
|
71 | var p = new Promise<bool>(); | |
|
72 | p.CancelOperation(null); | |
|
73 | ||
|
74 | var p2 = p | |
|
75 | .Then(x => x, null, reason => { | |
|
76 | throw new ApplicationException("CANCELLED"); | |
|
77 | }) | |
|
78 | .Then(x => x, e => true); | |
|
79 | ||
|
80 | Assert.AreEqual(true, p2.Join()); | |
|
81 | } | |
|
82 | ||
|
83 | [TestMethod] | |
|
35 | 84 | public void JoinSuccessTest() { |
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36 | 85 | var p = new Promise<int>(); |
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37 | 86 | p.Resolve(100); |
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38 | 87 | Assert.AreEqual(p.Join(), 100); |
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39 | 88 | } |
|
40 | 89 | |
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41 | 90 | [TestMethod] |
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42 | 91 | public void JoinFailTest() { |
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43 | 92 | var p = new Promise<int>(); |
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44 | 93 | p.Reject(new ApplicationException("failed")); |
|
45 | 94 | |
|
46 | 95 | try { |
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47 | 96 | p.Join(); |
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48 | 97 | throw new ApplicationException("WRONG!"); |
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49 | 98 | } catch (TargetInvocationException err) { |
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50 | 99 | Assert.AreEqual(err.InnerException.Message, "failed"); |
|
51 | 100 | } catch { |
|
52 | 101 | Assert.Fail("Got wrong excaption"); |
|
53 | 102 | } |
|
54 | 103 | } |
|
55 | 104 | |
|
56 | 105 | [TestMethod] |
|
57 | 106 | public void MapTest() { |
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58 | 107 | var p = new Promise<int>(); |
|
59 | 108 | |
|
60 |
var p2 = p. |
|
|
109 | var p2 = p.Then(x => x.ToString()); | |
|
61 | 110 | p.Resolve(100); |
|
62 | 111 | |
|
63 | 112 | Assert.AreEqual(p2.Join(), "100"); |
|
64 | 113 | } |
|
65 | 114 | |
|
66 | 115 | [TestMethod] |
|
67 | 116 | public void FixErrorTest() { |
|
68 | 117 | var p = new Promise<int>(); |
|
69 | 118 | |
|
70 |
var p2 = p. |
|
|
119 | var p2 = p.Then(x => x, e => 101); | |
|
71 | 120 | |
|
72 | 121 | p.Reject(new Exception()); |
|
73 | 122 | |
|
74 | 123 | Assert.AreEqual(p2.Join(), 101); |
|
75 | 124 | } |
|
76 | 125 | |
|
77 | 126 | [TestMethod] |
|
78 | 127 | public void ChainTest() { |
|
79 | 128 | var p1 = new Promise<int>(); |
|
80 | 129 | |
|
81 | 130 | var p3 = p1.Chain(x => { |
|
82 | 131 | var p2 = new Promise<string>(); |
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83 | 132 | p2.Resolve(x.ToString()); |
|
84 | 133 | return p2; |
|
85 | 134 | }); |
|
86 | 135 | |
|
87 | 136 | p1.Resolve(100); |
|
88 | 137 | |
|
89 | 138 | Assert.AreEqual(p3.Join(), "100"); |
|
90 | 139 | } |
|
91 | 140 | |
|
92 | 141 | [TestMethod] |
|
142 | public void ChainFailTest() { | |
|
143 | var p1 = new Promise<int>(); | |
|
144 | ||
|
145 | var p3 = p1.Chain(x => { | |
|
146 | var p2 = new Promise<string>(); | |
|
147 | p2.Reject(new Exception("DIE!!!")); | |
|
148 | return p2; | |
|
149 | }); | |
|
150 | ||
|
151 | p1.Resolve(100); | |
|
152 | ||
|
153 | Assert.IsTrue(p3.IsResolved); | |
|
154 | } | |
|
155 | ||
|
156 | [TestMethod] | |
|
93 | 157 | public void PoolTest() { |
|
94 | 158 | var pid = Thread.CurrentThread.ManagedThreadId; |
|
95 | 159 | var p = AsyncPool.Invoke(() => Thread.CurrentThread.ManagedThreadId); |
|
96 | 160 | |
|
97 | 161 | Assert.AreNotEqual(pid, p.Join()); |
|
98 | 162 | } |
|
99 | 163 | |
|
100 | 164 | [TestMethod] |
|
101 | 165 | public void WorkerPoolSizeTest() { |
|
102 |
var pool = new WorkerPool(5, 10, |
|
|
166 | var pool = new WorkerPool(5, 10, 1); | |
|
103 | 167 | |
|
104 | 168 | Assert.AreEqual(5, pool.PoolSize); |
|
105 | 169 | |
|
106 | 170 | pool.Invoke(() => { Thread.Sleep(100000000); return 10; }); |
|
107 | 171 | pool.Invoke(() => { Thread.Sleep(100000000); return 10; }); |
|
108 | 172 | pool.Invoke(() => { Thread.Sleep(100000000); return 10; }); |
|
109 | 173 | |
|
110 | 174 | Assert.AreEqual(5, pool.PoolSize); |
|
111 | 175 | |
|
112 | 176 | for (int i = 0; i < 100; i++) |
|
113 | 177 | pool.Invoke(() => { Thread.Sleep(100000000); return 10; }); |
|
114 | 178 | Thread.Sleep(200); |
|
115 | 179 | Assert.AreEqual(10, pool.PoolSize); |
|
116 | 180 | |
|
117 | 181 | pool.Dispose(); |
|
118 | 182 | } |
|
119 | 183 | |
|
120 | 184 | [TestMethod] |
|
121 | 185 | public void WorkerPoolCorrectTest() { |
|
122 | 186 | var pool = new WorkerPool(0,1000,100); |
|
123 | 187 | |
|
124 | int iterations = 1000; | |
|
188 | const int iterations = 1000; | |
|
125 | 189 | int pending = iterations; |
|
126 | 190 | var stop = new ManualResetEvent(false); |
|
127 | 191 | |
|
128 | 192 | var count = 0; |
|
129 | 193 | for (int i = 0; i < iterations; i++) { |
|
130 | 194 | pool |
|
131 | 195 | .Invoke(() => 1) |
|
132 | 196 | .Then(x => Interlocked.Add(ref count, x)) |
|
133 | 197 | .Then(x => Math.Log10(x)) |
|
134 |
. |
|
|
198 | .On(() => { | |
|
135 | 199 | Interlocked.Decrement(ref pending); |
|
136 | 200 | if (pending == 0) |
|
137 | 201 | stop.Set(); |
|
138 | }); | |
|
202 | }, PromiseEventType.All); | |
|
139 | 203 | } |
|
140 | 204 | |
|
141 | 205 | stop.WaitOne(); |
|
142 | 206 | |
|
143 | 207 | Assert.AreEqual(iterations, count); |
|
144 | 208 | Console.WriteLine("Max threads: {0}", pool.MaxRunningThreads); |
|
145 | 209 | pool.Dispose(); |
|
146 | 210 | |
|
147 | 211 | } |
|
148 | 212 | |
|
149 | 213 | [TestMethod] |
|
150 | 214 | public void WorkerPoolDisposeTest() { |
|
151 | 215 | var pool = new WorkerPool(5, 20); |
|
152 | 216 | Assert.AreEqual(5, pool.PoolSize); |
|
153 | 217 | pool.Dispose(); |
|
154 | 218 | Thread.Sleep(500); |
|
155 | 219 | Assert.AreEqual(0, pool.PoolSize); |
|
156 | 220 | pool.Dispose(); |
|
157 | 221 | } |
|
158 | 222 | |
|
159 | 223 | [TestMethod] |
|
160 | 224 | public void MTQueueTest() { |
|
161 | 225 | var queue = new MTQueue<int>(); |
|
162 | 226 | int res; |
|
163 | 227 | |
|
164 | 228 | queue.Enqueue(10); |
|
165 | 229 | Assert.IsTrue(queue.TryDequeue(out res)); |
|
166 | 230 | Assert.AreEqual(10, res); |
|
167 | 231 | Assert.IsFalse(queue.TryDequeue(out res)); |
|
168 | 232 | |
|
169 | 233 | for (int i = 0; i < 1000; i++) |
|
170 | 234 | queue.Enqueue(i); |
|
171 | 235 | |
|
172 | 236 | for (int i = 0; i < 1000; i++) { |
|
173 | 237 | queue.TryDequeue(out res); |
|
174 | 238 | Assert.AreEqual(i, res); |
|
175 | 239 | } |
|
176 | 240 | |
|
177 | 241 | int writers = 0; |
|
178 | 242 | int readers = 0; |
|
179 | 243 | var stop = new ManualResetEvent(false); |
|
180 | 244 | int total = 0; |
|
181 | 245 | |
|
182 | int itemsPerWriter = 1000; | |
|
183 |
int writersCount = |
|
|
246 | const int itemsPerWriter = 10000; | |
|
247 | const int writersCount = 10; | |
|
184 | 248 | |
|
185 | 249 | for (int i = 0; i < writersCount; i++) { |
|
186 | 250 | Interlocked.Increment(ref writers); |
|
187 | var wn = i; | |
|
188 | 251 | AsyncPool |
|
189 |
. |
|
|
252 | .RunThread(() => { | |
|
190 | 253 | for (int ii = 0; ii < itemsPerWriter; ii++) { |
|
191 | 254 | queue.Enqueue(1); |
|
192 | 255 | } |
|
193 | 256 | return 1; |
|
194 | 257 | }) |
|
195 |
. |
|
|
258 | .On(() => Interlocked.Decrement(ref writers), PromiseEventType.All); | |
|
196 | 259 | } |
|
197 | 260 | |
|
198 | 261 | for (int i = 0; i < 10; i++) { |
|
199 | 262 | Interlocked.Increment(ref readers); |
|
200 | var wn = i; | |
|
201 | 263 | AsyncPool |
|
202 |
. |
|
|
264 | .RunThread(() => { | |
|
203 | 265 | int t; |
|
204 | 266 | do { |
|
205 | 267 | while (queue.TryDequeue(out t)) |
|
206 | 268 | Interlocked.Add(ref total, t); |
|
207 | 269 | } while (writers > 0); |
|
208 | 270 | return 1; |
|
209 | 271 | }) |
|
210 |
. |
|
|
272 | .On(() => { | |
|
211 | 273 | Interlocked.Decrement(ref readers); |
|
212 | 274 | if (readers == 0) |
|
213 | 275 | stop.Set(); |
|
214 | }); | |
|
276 | }, PromiseEventType.All); | |
|
215 | 277 | } |
|
216 | 278 | |
|
217 | 279 | stop.WaitOne(); |
|
218 | 280 | |
|
219 |
Assert.AreEqual( |
|
|
281 | Assert.AreEqual(100000, total); | |
|
282 | } | |
|
283 | ||
|
284 | [TestMethod] | |
|
285 | public void AsyncQueueTest() { | |
|
286 | var queue = new AsyncQueue<int>(); | |
|
287 | int res; | |
|
288 | ||
|
289 | queue.Enqueue(10); | |
|
290 | Assert.IsTrue(queue.TryDequeue(out res)); | |
|
291 | Assert.AreEqual(10, res); | |
|
292 | Assert.IsFalse(queue.TryDequeue(out res)); | |
|
293 | ||
|
294 | for (int i = 0; i < 1000; i++) | |
|
295 | queue.Enqueue(i); | |
|
296 | ||
|
297 | for (int i = 0; i < 1000; i++) { | |
|
298 | queue.TryDequeue(out res); | |
|
299 | Assert.AreEqual(i, res); | |
|
300 | } | |
|
301 | ||
|
302 | const int count = 10000000; | |
|
303 | ||
|
304 | int res1 = 0, res2 = 0; | |
|
305 | var t1 = Environment.TickCount; | |
|
306 | ||
|
307 | AsyncPool.RunThread( | |
|
308 | () => { | |
|
309 | for (var i = 0; i < count; i++) | |
|
310 | queue.Enqueue(1); | |
|
311 | Console.WriteLine("done writer #1: {0} ms", Environment.TickCount - t1); | |
|
312 | }, | |
|
313 | () => { | |
|
314 | for (var i = 0; i < count; i++) | |
|
315 | queue.Enqueue(2); | |
|
316 | Console.WriteLine("done writer #2: {0} ms", Environment.TickCount - t1); | |
|
317 | }, | |
|
318 | () => { | |
|
319 | int temp; | |
|
320 | int i = 0; | |
|
321 | while (i < count) | |
|
322 | if (queue.TryDequeue(out temp)) { | |
|
323 | i++; | |
|
324 | res1 += temp; | |
|
325 | } | |
|
326 | Console.WriteLine("done reader #1: {0} ms", Environment.TickCount - t1); | |
|
327 | }, | |
|
328 | () => { | |
|
329 | int temp; | |
|
330 | int i = 0; | |
|
331 | while (i < count) | |
|
332 | if (queue.TryDequeue(out temp)) { | |
|
333 | i++; | |
|
334 | res2 += temp; | |
|
335 | } | |
|
336 | Console.WriteLine("done reader #2: {0} ms", Environment.TickCount - t1); | |
|
337 | } | |
|
338 | ) | |
|
339 | .Bundle() | |
|
340 | .Join(); | |
|
341 | ||
|
342 | Assert.AreEqual(count * 3, res1 + res2); | |
|
343 | ||
|
344 | Console.WriteLine( | |
|
345 | "done: {0} ms, summ#1: {1}, summ#2: {2}, total: {3}, count: {4}", | |
|
346 | Environment.TickCount - t1, | |
|
347 | res1, | |
|
348 | res2, | |
|
349 | res1 + res2, | |
|
350 | count | |
|
351 | ); | |
|
352 | } | |
|
353 | ||
|
354 | [TestMethod] | |
|
355 | public void AsyncQueueBatchTest() { | |
|
356 | var queue = new AsyncQueue<int>(); | |
|
357 | ||
|
358 | const int wBatch = 29; | |
|
359 | const int wCount = 400000; | |
|
360 | const int total = wBatch * wCount * 2; | |
|
361 | const int summ = wBatch * wCount * 3; | |
|
362 | ||
|
363 | int r1 = 0, r2 = 0; | |
|
364 | const int rBatch = 111; | |
|
365 | int read = 0; | |
|
366 | ||
|
367 | var t1 = Environment.TickCount; | |
|
368 | ||
|
369 | AsyncPool.RunThread( | |
|
370 | () => { | |
|
371 | var buffer = new int[wBatch]; | |
|
372 | for(int i = 0; i<wBatch; i++) | |
|
373 | buffer[i] = 1; | |
|
374 | ||
|
375 | for(int i =0; i < wCount; i++) | |
|
376 | queue.EnqueueRange(buffer,0,wBatch); | |
|
377 | Console.WriteLine("done writer #1: {0} ms", Environment.TickCount - t1); | |
|
378 | }, | |
|
379 | () => { | |
|
380 | var buffer = new int[wBatch]; | |
|
381 | for(int i = 0; i<wBatch; i++) | |
|
382 | buffer[i] = 2; | |
|
383 | ||
|
384 | for(int i =0; i < wCount; i++) | |
|
385 | queue.EnqueueRange(buffer,0,wBatch); | |
|
386 | Console.WriteLine("done writer #2: {0} ms", Environment.TickCount - t1); | |
|
387 | }, | |
|
388 | () => { | |
|
389 | var buffer = new int[rBatch]; | |
|
390 | ||
|
391 | while(read < total) { | |
|
392 | int actual; | |
|
393 | if (queue.TryDequeueRange(buffer,0,rBatch,out actual)) { | |
|
394 | for(int i=0; i< actual; i++) | |
|
395 | r1 += buffer[i]; | |
|
396 | Interlocked.Add(ref read, actual); | |
|
397 | } | |
|
398 | } | |
|
399 | ||
|
400 | Console.WriteLine("done reader #1: {0} ms", Environment.TickCount - t1); | |
|
401 | }, | |
|
402 | () => { | |
|
403 | var buffer = new int[rBatch]; | |
|
404 | ||
|
405 | while(read < total) { | |
|
406 | int actual; | |
|
407 | if (queue.TryDequeueRange(buffer,0,rBatch,out actual)) { | |
|
408 | for(int i=0; i< actual; i++) | |
|
409 | r2 += buffer[i]; | |
|
410 | Interlocked.Add(ref read, actual); | |
|
411 | } | |
|
412 | } | |
|
413 | ||
|
414 | Console.WriteLine("done reader #2: {0} ms", Environment.TickCount - t1); | |
|
415 | } | |
|
416 | ) | |
|
417 | .Bundle() | |
|
418 | .Join(); | |
|
419 | ||
|
420 | Assert.AreEqual(summ , r1 + r2); | |
|
421 | ||
|
422 | Console.WriteLine( | |
|
423 | "done: {0} ms, summ#1: {1}, summ#2: {2}, total: {3}, count: {4}", | |
|
424 | Environment.TickCount - t1, | |
|
425 | r1, | |
|
426 | r2, | |
|
427 | r1 + r2, | |
|
428 | total | |
|
429 | ); | |
|
430 | } | |
|
431 | ||
|
432 | [TestMethod] | |
|
433 | public void AsyncQueueChunkDequeueTest() { | |
|
434 | var queue = new AsyncQueue<int>(); | |
|
435 | ||
|
436 | const int wBatch = 31; | |
|
437 | const int wCount = 200000; | |
|
438 | const int total = wBatch * wCount * 3; | |
|
439 | const int summ = wBatch * wCount * 6; | |
|
440 | ||
|
441 | int r1 = 0, r2 = 0; | |
|
442 | const int rBatch = 1024; | |
|
443 | int read = 0; | |
|
444 | ||
|
445 | var t1 = Environment.TickCount; | |
|
446 | ||
|
447 | AsyncPool.RunThread( | |
|
448 | () => { | |
|
449 | var buffer = new int[wBatch]; | |
|
450 | for(int i = 0; i<wBatch; i++) | |
|
451 | buffer[i] = 1; | |
|
452 | ||
|
453 | for(int i =0; i < wCount; i++) | |
|
454 | queue.EnqueueRange(buffer,0,wBatch); | |
|
455 | Console.WriteLine("done writer #1: {0} ms", Environment.TickCount - t1); | |
|
456 | }, | |
|
457 | () => { | |
|
458 | var buffer = new int[wBatch]; | |
|
459 | for(int i = 0; i<wBatch; i++) | |
|
460 | buffer[i] = 2; | |
|
461 | ||
|
462 | for(int i =0; i < wCount; i++) | |
|
463 | queue.EnqueueRange(buffer,0,wBatch); | |
|
464 | Console.WriteLine("done writer #2: {0} ms", Environment.TickCount - t1); | |
|
465 | }, | |
|
466 | () => { | |
|
467 | var buffer = new int[wBatch]; | |
|
468 | for(int i = 0; i<wBatch; i++) | |
|
469 | buffer[i] = 3; | |
|
470 | ||
|
471 | for(int i =0; i < wCount; i++) | |
|
472 | queue.EnqueueRange(buffer,0,wBatch); | |
|
473 | Console.WriteLine("done writer #3: {0} ms", Environment.TickCount - t1); | |
|
474 | }, | |
|
475 | () => { | |
|
476 | var buffer = new int[rBatch]; | |
|
477 | int count = 1; | |
|
478 | double avgchunk = 0; | |
|
479 | while(read < total) { | |
|
480 | int actual; | |
|
481 | if (queue.TryDequeueChunk(buffer,0,rBatch,out actual)) { | |
|
482 | for(int i=0; i< actual; i++) | |
|
483 | r2 += buffer[i]; | |
|
484 | Interlocked.Add(ref read, actual); | |
|
485 | avgchunk = avgchunk*(count-1)/count + actual/(double)count; | |
|
486 | count ++; | |
|
487 | } | |
|
488 | } | |
|
489 | ||
|
490 | Console.WriteLine("done reader #2: {0} ms, avg chunk size: {1}", Environment.TickCount - t1, avgchunk); | |
|
491 | } | |
|
492 | ) | |
|
493 | .Bundle() | |
|
494 | .Join(); | |
|
495 | ||
|
496 | Assert.AreEqual(summ , r1 + r2); | |
|
497 | ||
|
498 | Console.WriteLine( | |
|
499 | "done: {0} ms, summ#1: {1}, summ#2: {2}, total: {3}, count: {4}", | |
|
500 | Environment.TickCount - t1, | |
|
501 | r1, | |
|
502 | r2, | |
|
503 | r1 + r2, | |
|
504 | total | |
|
505 | ); | |
|
506 | } | |
|
507 | ||
|
508 | [TestMethod] | |
|
509 | public void AsyncQueueDrainTest() { | |
|
510 | var queue = new AsyncQueue<int>(); | |
|
511 | ||
|
512 | const int wBatch = 11; | |
|
513 | const int wCount = 200000; | |
|
514 | const int total = wBatch * wCount * 3; | |
|
515 | const int summ = wBatch * wCount * 3; | |
|
516 | ||
|
517 | int r1 = 0, r2 = 0; | |
|
518 | const int rBatch = 11; | |
|
519 | int read = 0; | |
|
520 | ||
|
521 | var t1 = Environment.TickCount; | |
|
522 | ||
|
523 | AsyncPool.RunThread( | |
|
524 | () => { | |
|
525 | var buffer = new int[wBatch]; | |
|
526 | for(int i = 0; i<wBatch; i++) | |
|
527 | buffer[i] = 1; | |
|
528 | ||
|
529 | for(int i =0; i < wCount; i++) | |
|
530 | queue.EnqueueRange(buffer,0,wBatch); | |
|
531 | Console.WriteLine("done writer #1: {0} ms", Environment.TickCount - t1); | |
|
532 | }, | |
|
533 | () => { | |
|
534 | for(int i =0; i < wCount * wBatch; i++) | |
|
535 | queue.Enqueue(1); | |
|
536 | Console.WriteLine("done writer #2: {0} ms", Environment.TickCount - t1); | |
|
537 | }, | |
|
538 | () => { | |
|
539 | var buffer = new int[wBatch]; | |
|
540 | for(int i = 0; i<wBatch; i++) | |
|
541 | buffer[i] = 1; | |
|
542 | ||
|
543 | for(int i =0; i < wCount; i++) | |
|
544 | queue.EnqueueRange(buffer,0,wBatch); | |
|
545 | Console.WriteLine("done writer #3: {0} ms", Environment.TickCount - t1); | |
|
546 | }, | |
|
547 | /*() => { | |
|
548 | int temp; | |
|
549 | int count = 0; | |
|
550 | while (read < total) | |
|
551 | if (queue.TryDequeue(out temp)) { | |
|
552 | count++; | |
|
553 | r1 += temp; | |
|
554 | Interlocked.Increment(ref read); | |
|
555 | } | |
|
556 | Console.WriteLine("done reader #1: {0} ms, {1} count", Environment.TickCount - t1, count); | |
|
557 | },*/ | |
|
558 | /*() => { | |
|
559 | var buffer = new int[rBatch]; | |
|
560 | var count = 0; | |
|
561 | while(read < total) { | |
|
562 | int actual; | |
|
563 | if (queue.TryDequeueRange(buffer,0,rBatch,out actual)) { | |
|
564 | for(int i=0; i< actual; i++) | |
|
565 | r1 += buffer[i]; | |
|
566 | Interlocked.Add(ref read, actual); | |
|
567 | count += actual; | |
|
568 | } | |
|
569 | } | |
|
570 | ||
|
571 | Console.WriteLine("done reader #1: {0} ms, {1} items", Environment.TickCount - t1, count); | |
|
572 | },*/ | |
|
573 | () => { | |
|
574 | var count = 0; | |
|
575 | while(read < total) { | |
|
576 | var buffer = queue.Drain(); | |
|
577 | for(int i=0; i< buffer.Length; i++) | |
|
578 | r1 += buffer[i]; | |
|
579 | Interlocked.Add(ref read, buffer.Length); | |
|
580 | count += buffer.Length; | |
|
581 | } | |
|
582 | Console.WriteLine("done reader #1: {0} ms, {1} items", Environment.TickCount - t1, count); | |
|
583 | }, | |
|
584 | () => { | |
|
585 | var count = 0; | |
|
586 | while(read < total) { | |
|
587 | var buffer = queue.Drain(); | |
|
588 | for(int i=0; i< buffer.Length; i++) | |
|
589 | r2 += buffer[i]; | |
|
590 | Interlocked.Add(ref read, buffer.Length); | |
|
591 | count += buffer.Length; | |
|
592 | } | |
|
593 | Console.WriteLine("done reader #2: {0} ms, {1} items", Environment.TickCount - t1, count); | |
|
594 | } | |
|
595 | ) | |
|
596 | .Bundle() | |
|
597 | .Join(); | |
|
598 | ||
|
599 | Assert.AreEqual(summ , r1 + r2); | |
|
600 | ||
|
601 | Console.WriteLine( | |
|
602 | "done: {0} ms, summ#1: {1}, summ#2: {2}, total: {3}, count: {4}", | |
|
603 | Environment.TickCount - t1, | |
|
604 | r1, | |
|
605 | r2, | |
|
606 | r1 + r2, | |
|
607 | total | |
|
608 | ); | |
|
220 | 609 | } |
|
221 | 610 | |
|
222 | 611 | [TestMethod] |
|
223 | 612 | public void ParallelMapTest() { |
|
224 | 613 | |
|
225 | int count = 100000; | |
|
614 | const int count = 100000; | |
|
226 | 615 | |
|
227 |
|
|
|
616 | var args = new double[count]; | |
|
228 | 617 | var rand = new Random(); |
|
229 | 618 | |
|
230 | 619 | for (int i = 0; i < count; i++) |
|
231 | 620 | args[i] = rand.NextDouble(); |
|
232 | 621 | |
|
233 | 622 | var t = Environment.TickCount; |
|
234 | 623 | var res = args.ParallelMap(x => Math.Sin(x*x), 4).Join(); |
|
235 | 624 | |
|
236 | 625 | Console.WriteLine("Map complete in {0} ms", Environment.TickCount - t); |
|
237 | 626 | |
|
238 | 627 | t = Environment.TickCount; |
|
239 | 628 | for (int i = 0; i < count; i++) |
|
240 | 629 | Assert.AreEqual(Math.Sin(args[i] * args[i]), res[i]); |
|
241 | 630 | Console.WriteLine("Verified in {0} ms", Environment.TickCount - t); |
|
242 | 631 | } |
|
243 | 632 | |
|
244 | 633 | [TestMethod] |
|
245 | 634 | public void ChainedMapTest() { |
|
246 | 635 | |
|
247 |
using (var pool = new WorkerPool( |
|
|
248 | int count = 10000; | |
|
636 | using (var pool = new WorkerPool()) { | |
|
637 | const int count = 10000; | |
|
249 | 638 | |
|
250 |
|
|
|
639 | var args = new double[count]; | |
|
251 | 640 | var rand = new Random(); |
|
252 | 641 | |
|
253 | 642 | for (int i = 0; i < count; i++) |
|
254 | 643 | args[i] = rand.NextDouble(); |
|
255 | 644 | |
|
256 | 645 | var t = Environment.TickCount; |
|
257 | 646 | var res = args |
|
258 | 647 | .ChainedMap( |
|
648 | // Analysis disable once AccessToDisposedClosure | |
|
259 | 649 | x => pool.Invoke( |
|
260 | 650 | () => Math.Sin(x * x) |
|
261 | 651 | ), |
|
262 | 652 | 4 |
|
263 | 653 | ) |
|
264 | 654 | .Join(); |
|
265 | 655 | |
|
266 | 656 | Console.WriteLine("Map complete in {0} ms", Environment.TickCount - t); |
|
267 | 657 | |
|
268 | 658 | t = Environment.TickCount; |
|
269 | 659 | for (int i = 0; i < count; i++) |
|
270 | 660 | Assert.AreEqual(Math.Sin(args[i] * args[i]), res[i]); |
|
271 | 661 | Console.WriteLine("Verified in {0} ms", Environment.TickCount - t); |
|
272 | 662 | Console.WriteLine("Max workers: {0}", pool.MaxRunningThreads); |
|
273 | 663 | } |
|
274 | 664 | } |
|
275 | 665 | |
|
276 | 666 | [TestMethod] |
|
277 | 667 | public void ParallelForEachTest() { |
|
278 | 668 | |
|
279 | int count = 100000; | |
|
669 | const int count = 100000; | |
|
280 | 670 | |
|
281 |
|
|
|
671 | var args = new int[count]; | |
|
282 | 672 | var rand = new Random(); |
|
283 | 673 | |
|
284 | 674 | for (int i = 0; i < count; i++) |
|
285 | 675 | args[i] = (int)(rand.NextDouble() * 100); |
|
286 | 676 | |
|
287 | 677 | int result = 0; |
|
288 | 678 | |
|
289 | 679 | var t = Environment.TickCount; |
|
290 | 680 | args.ParallelForEach(x => Interlocked.Add(ref result, x), 4).Join(); |
|
291 | 681 | |
|
292 | 682 | Console.WriteLine("Iteration complete in {0} ms, result: {1}", Environment.TickCount - t, result); |
|
293 | 683 | |
|
294 | 684 | int result2 = 0; |
|
295 | 685 | |
|
296 | 686 | t = Environment.TickCount; |
|
297 | 687 | for (int i = 0; i < count; i++) |
|
298 | 688 | result2 += args[i]; |
|
299 | 689 | Assert.AreEqual(result2, result); |
|
300 | 690 | Console.WriteLine("Verified in {0} ms", Environment.TickCount - t); |
|
301 | 691 | } |
|
302 | 692 | |
|
303 | 693 | [TestMethod] |
|
304 | 694 | public void ComplexCase1Test() { |
|
305 | 695 | var flags = new bool[3]; |
|
306 | 696 | |
|
307 | 697 | // op1 (aync 200ms) => op2 (async 200ms) => op3 (sync map) |
|
308 | 698 | |
|
309 | var p = PromiseHelper | |
|
699 | var step1 = PromiseHelper | |
|
310 | 700 | .Sleep(200, "Alan") |
|
311 |
. |
|
|
701 | .On(() => flags[0] = true, PromiseEventType.Cancelled); | |
|
702 | var p = step1 | |
|
312 | 703 | .Chain(x => |
|
313 | 704 | PromiseHelper |
|
314 | 705 | .Sleep(200, "Hi, " + x) |
|
315 |
. |
|
|
316 |
. |
|
|
706 | .Then(y => y) | |
|
707 | .On(() => flags[1] = true, PromiseEventType.Cancelled) | |
|
317 | 708 | ) |
|
318 |
. |
|
|
319 |
|
|
|
709 | .On(() => flags[2] = true, PromiseEventType.Cancelled); | |
|
710 | step1.Join(); | |
|
320 | 711 | p.Cancel(); |
|
321 | 712 | try { |
|
322 | 713 | Assert.AreEqual(p.Join(), "Hi, Alan"); |
|
323 | 714 | Assert.Fail("Shouldn't get here"); |
|
324 | 715 | } catch (OperationCanceledException) { |
|
325 | 716 | } |
|
326 | 717 | |
|
327 | 718 | Assert.IsFalse(flags[0]); |
|
328 | 719 | Assert.IsTrue(flags[1]); |
|
329 | 720 | Assert.IsTrue(flags[2]); |
|
330 | 721 | } |
|
331 | 722 | |
|
332 | 723 | [TestMethod] |
|
333 | 724 | public void ChainedCancel1Test() { |
|
334 | // при отмене сцепленной асинхронной операции все обещание должно | |
|
335 | // завершаться ошибкой OperationCanceledException | |
|
725 | // при отмене сцепленной асинхронной операции все обещание должно | |
|
726 | // завершаться ошибкой OperationCanceledException | |
|
336 | 727 | var p = PromiseHelper |
|
337 | 728 | .Sleep(1, "Hi, HAL!") |
|
338 |
. |
|
|
339 | // запускаем две асинхронные операции | |
|
729 | .Then(x => { | |
|
730 | // запускаем две асинхронные операции | |
|
340 | 731 | var result = PromiseHelper.Sleep(1000, "HEM ENABLED!!!"); |
|
341 | // вторая операция отменяет первую до завершения | |
|
732 | // вторая операция отменяет первую до завершения | |
|
342 | 733 | PromiseHelper |
|
343 | 734 | .Sleep(100, "HAL, STOP!") |
|
344 |
.Then( |
|
|
735 | .Then(result.Cancel); | |
|
345 | 736 | return result; |
|
346 | 737 | }); |
|
347 | 738 | try { |
|
348 | 739 | p.Join(); |
|
349 | 740 | } catch (TargetInvocationException err) { |
|
350 | 741 | Assert.IsTrue(err.InnerException is OperationCanceledException); |
|
351 | 742 | } |
|
352 | 743 | } |
|
353 | 744 | |
|
354 | 745 | [TestMethod] |
|
355 | 746 | public void ChainedCancel2Test() { |
|
356 | // при отмене цепочки обещаний, вложенные операции также должны отменяться | |
|
357 | IPromiseBase p = null; | |
|
747 | // при отмене цепочки обещаний, вложенные операции также должны отменяться | |
|
358 | 748 | var pSurvive = new Promise<bool>(); |
|
359 |
var hemStarted = new |
|
|
360 | p = PromiseHelper | |
|
749 | var hemStarted = new Signal(); | |
|
750 | var p = PromiseHelper | |
|
361 | 751 | .Sleep(1, "Hi, HAL!") |
|
362 |
.Chain( |
|
|
752 | .Chain(() => { | |
|
363 | 753 | hemStarted.Set(); |
|
364 | // запускаем две асинхронные операции | |
|
754 | // запускаем две асинхронные операции | |
|
365 | 755 | var result = PromiseHelper |
|
366 |
.Sleep( |
|
|
367 |
.Then( |
|
|
756 | .Sleep(2000, "HEM ENABLED!!!") | |
|
757 | .Then(() => pSurvive.Resolve(false)); | |
|
368 | 758 | |
|
369 | 759 | result |
|
370 |
. |
|
|
760 | .On(() => pSurvive.Resolve(true), PromiseEventType.Cancelled); | |
|
371 | 761 | |
|
372 | 762 | return result; |
|
373 | 763 | }); |
|
374 | 764 | |
|
375 |
hemStarted.Wait |
|
|
765 | hemStarted.Wait(); | |
|
376 | 766 | p.Cancel(); |
|
377 | 767 | |
|
378 | 768 | try { |
|
379 | 769 | p.Join(); |
|
770 | Assert.Fail(); | |
|
380 | 771 | } catch (OperationCanceledException) { |
|
772 | } | |
|
381 | 773 |
|
|
382 | 774 |
|
|
775 | ||
|
776 | [TestMethod] | |
|
777 | public void SharedLockTest() { | |
|
778 | var l = new SharedLock(); | |
|
779 | int shared = 0; | |
|
780 | int exclusive = 0; | |
|
781 | var s1 = new Signal(); | |
|
782 | var log = new AsyncQueue<string>(); | |
|
783 | ||
|
784 | try { | |
|
785 | AsyncPool.RunThread( | |
|
786 | () => { | |
|
787 | log.Enqueue("Reader #1 started"); | |
|
788 | try { | |
|
789 | l.LockShared(); | |
|
790 | log.Enqueue("Reader #1 lock got"); | |
|
791 | if (Interlocked.Increment(ref shared) == 2) | |
|
792 | s1.Set(); | |
|
793 | s1.Wait(); | |
|
794 | log.Enqueue("Reader #1 finished"); | |
|
795 | Interlocked.Decrement(ref shared); | |
|
796 | } finally { | |
|
797 | l.Release(); | |
|
798 | log.Enqueue("Reader #1 lock released"); | |
|
383 | 799 | } |
|
800 | }, | |
|
801 | () => { | |
|
802 | log.Enqueue("Reader #2 started"); | |
|
803 | ||
|
804 | try { | |
|
805 | l.LockShared(); | |
|
806 | log.Enqueue("Reader #2 lock got"); | |
|
807 | ||
|
808 | if (Interlocked.Increment(ref shared) == 2) | |
|
809 | s1.Set(); | |
|
810 | s1.Wait(); | |
|
811 | log.Enqueue("Reader #2 upgrading to writer"); | |
|
812 | Interlocked.Decrement(ref shared); | |
|
813 | l.Upgrade(); | |
|
814 | log.Enqueue("Reader #2 upgraded"); | |
|
815 | ||
|
816 | Assert.AreEqual(1, Interlocked.Increment(ref exclusive)); | |
|
817 | Assert.AreEqual(0, shared); | |
|
818 | log.Enqueue("Reader #2 finished"); | |
|
819 | Interlocked.Decrement(ref exclusive); | |
|
820 | } finally { | |
|
821 | l.Release(); | |
|
822 | log.Enqueue("Reader #2 lock released"); | |
|
823 | } | |
|
824 | }, | |
|
825 | () => { | |
|
826 | log.Enqueue("Writer #1 started"); | |
|
827 | try { | |
|
828 | l.LockExclusive(); | |
|
829 | log.Enqueue("Writer #1 got the lock"); | |
|
830 | Assert.AreEqual(1, Interlocked.Increment(ref exclusive)); | |
|
831 | Interlocked.Decrement(ref exclusive); | |
|
832 | log.Enqueue("Writer #1 is finished"); | |
|
833 | } finally { | |
|
834 | l.Release(); | |
|
835 | log.Enqueue("Writer #1 lock released"); | |
|
836 | } | |
|
837 | } | |
|
838 | ).Bundle().Join(1000); | |
|
839 | log.Enqueue("Done"); | |
|
840 | } catch(Exception error) { | |
|
841 | log.Enqueue(error.Message); | |
|
842 | throw; | |
|
843 | } finally { | |
|
844 | foreach (var m in log) | |
|
845 | Console.WriteLine(m); | |
|
384 | 846 | } |
|
385 | 847 | } |
|
386 | 848 | |
|
849 | #if NET_4_5 | |
|
850 | ||
|
851 | [TestMethod] | |
|
852 | public async void TaskInteropTest() { | |
|
853 | var promise = new Promise<int>(); | |
|
854 | promise.Resolve(10); | |
|
855 | var res = await promise; | |
|
856 | ||
|
857 | Assert.AreEqual(10, res); | |
|
858 | } | |
|
859 | ||
|
860 | #endif | |
|
861 | } | |
|
862 | } | |
|
863 |
@@ -1,66 +1,84 | |||
|
1 | 1 | <?xml version="1.0" encoding="utf-8"?> |
|
2 | 2 | <Project ToolsVersion="4.0" DefaultTargets="Build" xmlns="http://schemas.microsoft.com/developer/msbuild/2003"> |
|
3 | 3 | <PropertyGroup> |
|
4 | 4 | <Configuration Condition=" '$(Configuration)' == '' ">Debug</Configuration> |
|
5 | 5 | <Platform Condition=" '$(Platform)' == '' ">AnyCPU</Platform> |
|
6 | <ProductVersion> | |
|
7 | </ProductVersion> | |
|
6 | <ProductVersion>8.0.30703</ProductVersion> | |
|
8 | 7 | <SchemaVersion>2.0</SchemaVersion> |
|
9 | 8 | <ProjectGuid>{63F92C0C-61BF-48C0-A377-8D67C3C661D0}</ProjectGuid> |
|
10 | 9 | <OutputType>Library</OutputType> |
|
11 | 10 | <AppDesignerFolder>Properties</AppDesignerFolder> |
|
12 | 11 | <RootNamespace>Implab.Test</RootNamespace> |
|
13 | 12 | <AssemblyName>Implab.Test</AssemblyName> |
|
14 |
<TargetFrameworkVersion>v4. |
|
|
13 | <TargetFrameworkVersion>v4.5</TargetFrameworkVersion> | |
|
15 | 14 | <FileAlignment>512</FileAlignment> |
|
16 | 15 | <ProjectTypeGuids>{3AC096D0-A1C2-E12C-1390-A8335801FDAB};{FAE04EC0-301F-11D3-BF4B-00C04F79EFBC}</ProjectTypeGuids> |
|
16 | <TargetFrameworkProfile /> | |
|
17 | 17 | </PropertyGroup> |
|
18 | 18 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Debug|AnyCPU' "> |
|
19 | 19 | <DebugSymbols>true</DebugSymbols> |
|
20 | 20 | <DebugType>full</DebugType> |
|
21 | 21 | <Optimize>false</Optimize> |
|
22 | 22 | <OutputPath>bin\Debug\</OutputPath> |
|
23 | 23 | <DefineConstants>DEBUG;TRACE</DefineConstants> |
|
24 | 24 | <ErrorReport>prompt</ErrorReport> |
|
25 | 25 | <WarningLevel>4</WarningLevel> |
|
26 | <Prefer32Bit>false</Prefer32Bit> | |
|
26 | 27 | </PropertyGroup> |
|
27 | 28 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Release|AnyCPU' "> |
|
28 | 29 | <DebugType>pdbonly</DebugType> |
|
29 | 30 | <Optimize>true</Optimize> |
|
30 | 31 | <OutputPath>bin\Release\</OutputPath> |
|
31 | 32 | <DefineConstants>TRACE</DefineConstants> |
|
32 | 33 | <ErrorReport>prompt</ErrorReport> |
|
33 | 34 | <WarningLevel>4</WarningLevel> |
|
35 | <Prefer32Bit>false</Prefer32Bit> | |
|
36 | </PropertyGroup> | |
|
37 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Debug 4.5|AnyCPU' "> | |
|
38 | <DebugSymbols>true</DebugSymbols> | |
|
39 | <DebugType>full</DebugType> | |
|
40 | <Optimize>false</Optimize> | |
|
41 | <OutputPath>bin\Debug\</OutputPath> | |
|
42 | <DefineConstants>DEBUG;TRACE</DefineConstants> | |
|
43 | <ErrorReport>prompt</ErrorReport> | |
|
44 | <WarningLevel>4</WarningLevel> | |
|
45 | <Prefer32Bit>false</Prefer32Bit> | |
|
46 | </PropertyGroup> | |
|
47 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Release 4.5|AnyCPU' "> | |
|
48 | <DebugType>pdbonly</DebugType> | |
|
49 | <Optimize>true</Optimize> | |
|
50 | <OutputPath>bin\Release\</OutputPath> | |
|
51 | <DefineConstants>TRACE</DefineConstants> | |
|
52 | <ErrorReport>prompt</ErrorReport> | |
|
53 | <WarningLevel>4</WarningLevel> | |
|
54 | <Prefer32Bit>false</Prefer32Bit> | |
|
34 | 55 | </PropertyGroup> |
|
35 | 56 | <ItemGroup> |
|
36 | 57 | <Reference Include="Microsoft.VisualStudio.QualityTools.UnitTestFramework, Version=10.0.0.0, Culture=neutral, PublicKeyToken=b03f5f7f11d50a3a, processorArchitecture=MSIL" /> |
|
37 | 58 | <Reference Include="System" /> |
|
38 | 59 | <Reference Include="System.Core"> |
|
39 | 60 | <RequiredTargetFramework>3.5</RequiredTargetFramework> |
|
40 | 61 | </Reference> |
|
41 | 62 | </ItemGroup> |
|
42 | 63 | <ItemGroup> |
|
43 | <CodeAnalysisDependentAssemblyPaths Condition=" '$(VS100COMNTOOLS)' != '' " Include="$(VS100COMNTOOLS)..\IDE\PrivateAssemblies"> | |
|
44 | <Visible>False</Visible> | |
|
45 | </CodeAnalysisDependentAssemblyPaths> | |
|
46 | </ItemGroup> | |
|
47 | <ItemGroup> | |
|
48 | 64 | <Compile Include="AsyncTests.cs" /> |
|
65 | <Compile Include="CancelationTests.cs" /> | |
|
49 | 66 | <Compile Include="PromiseHelper.cs" /> |
|
50 | 67 | <Compile Include="Properties\AssemblyInfo.cs" /> |
|
68 | <Compile Include="RunnableComponentTests.cs" /> | |
|
51 | 69 | </ItemGroup> |
|
52 | 70 | <ItemGroup> |
|
53 | 71 | <ProjectReference Include="..\Implab\Implab.csproj"> |
|
54 | 72 | <Project>{99B95D0D-9CF9-4F70-8ADF-F4D0AA5CB0D9}</Project> |
|
55 | 73 | <Name>Implab</Name> |
|
56 | 74 | </ProjectReference> |
|
57 | 75 | </ItemGroup> |
|
58 | 76 | <Import Project="$(MSBuildBinPath)\Microsoft.CSharp.targets" /> |
|
59 | 77 | <!-- To modify your build process, add your task inside one of the targets below and uncomment it. |
|
60 | 78 | Other similar extension points exist, see Microsoft.Common.targets. |
|
61 | 79 | <Target Name="BeforeBuild"> |
|
62 | 80 | </Target> |
|
63 | 81 | <Target Name="AfterBuild"> |
|
64 | 82 | </Target> |
|
65 | 83 | --> |
|
66 | 84 | </Project> No newline at end of file |
@@ -1,17 +1,14 | |||
|
1 | 1 | using Implab.Parallels; |
|
2 | using System; | |
|
3 | using System.Collections.Generic; | |
|
4 | using System.Linq; | |
|
5 | using System.Text; | |
|
6 | 2 | using System.Threading; |
|
7 | 3 | |
|
8 | 4 | namespace Implab.Test { |
|
9 | class PromiseHelper { | |
|
10 | public static Promise<T> Sleep<T>(int timeout, T retVal) { | |
|
11 | return AsyncPool.Invoke(() => { | |
|
5 | static class PromiseHelper { | |
|
6 | public static IPromise<T> Sleep<T>(int timeout, T retVal) { | |
|
7 | return AsyncPool.Invoke((ct) => { | |
|
8 | ct.CancellationRequested(ct.CancelOperation); | |
|
12 | 9 | Thread.Sleep(timeout); |
|
13 | 10 | return retVal; |
|
14 | 11 | }); |
|
15 | 12 | } |
|
16 | 13 | } |
|
17 | 14 | } |
@@ -1,35 +1,34 | |||
|
1 | 1 | using System.Reflection; |
|
2 | 2 | using System.Runtime.CompilerServices; |
|
3 | 3 | using System.Runtime.InteropServices; |
|
4 | 4 | |
|
5 | 5 | // General Information about an assembly is controlled through the following |
|
6 | 6 | // set of attributes. Change these attribute values to modify the information |
|
7 | 7 | // associated with an assembly. |
|
8 | 8 | [assembly: AssemblyTitle("Implab.Test")] |
|
9 | 9 | [assembly: AssemblyDescription("")] |
|
10 | 10 | [assembly: AssemblyConfiguration("")] |
|
11 | 11 | [assembly: AssemblyCompany("")] |
|
12 | 12 | [assembly: AssemblyProduct("Implab.Test")] |
|
13 | 13 | [assembly: AssemblyCopyright("Copyright © 2013")] |
|
14 | 14 | [assembly: AssemblyTrademark("")] |
|
15 | 15 | [assembly: AssemblyCulture("")] |
|
16 | 16 | |
|
17 | 17 | // Setting ComVisible to false makes the types in this assembly not visible |
|
18 | 18 | // to COM components. If you need to access a type in this assembly from |
|
19 | 19 | // COM, set the ComVisible attribute to true on that type. |
|
20 | 20 | [assembly: ComVisible(false)] |
|
21 | 21 | |
|
22 | 22 | // The following GUID is for the ID of the typelib if this project is exposed to COM |
|
23 | 23 | [assembly: Guid("bfcae720-21eb-4411-b70a-6eeab99071de")] |
|
24 | 24 | |
|
25 | 25 | // Version information for an assembly consists of the following four values: |
|
26 | 26 | // |
|
27 | 27 | // Major Version |
|
28 | 28 | // Minor Version |
|
29 | 29 | // Build Number |
|
30 | 30 | // Revision |
|
31 | 31 | // |
|
32 | 32 | // You can specify all the values or you can default the Build and Revision Numbers |
|
33 | 33 | // by using the '*' as shown below: |
|
34 |
[assembly: AssemblyVersion(" |
|
|
35 | [assembly: AssemblyFileVersion("1.0.0.0")] | |
|
34 | [assembly: AssemblyVersion("0.0.*")] |
@@ -1,51 +1,270 | |||
|
1 | 1 | |
|
2 | 2 | Microsoft Visual Studio Solution File, Format Version 11.00 |
|
3 | 3 | # Visual Studio 2010 |
|
4 | 4 | Project("{FAE04EC0-301F-11D3-BF4B-00C04F79EFBC}") = "Implab", "Implab\Implab.csproj", "{F550F1F8-8746-4AD0-9614-855F4C4B7F05}" |
|
5 | 5 | EndProject |
|
6 | 6 | Project("{2150E333-8FDC-42A3-9474-1A3956D46DE8}") = "Solution Items", "Solution Items", "{CE8D8D18-437A-445C-B662-4C2CE79A76F6}" |
|
7 | 7 | ProjectSection(SolutionItems) = preProject |
|
8 | 8 | Implab.vsmdi = Implab.vsmdi |
|
9 | 9 | Local.testsettings = Local.testsettings |
|
10 | 10 | TraceAndTestImpact.testsettings = TraceAndTestImpact.testsettings |
|
11 | 11 | EndProjectSection |
|
12 | 12 | EndProject |
|
13 | 13 | Project("{FAE04EC0-301F-11D3-BF4B-00C04F79EFBC}") = "Implab.Test", "Implab.Test\Implab.Test.csproj", "{63F92C0C-61BF-48C0-A377-8D67C3C661D0}" |
|
14 | 14 | EndProject |
|
15 | 15 | Project("{FAE04EC0-301F-11D3-BF4B-00C04F79EFBC}") = "Implab.Fx", "Implab.Fx\Implab.Fx.csproj", "{06E706F8-6881-43EB-927E-FFC503AF6ABC}" |
|
16 | 16 | EndProject |
|
17 | 17 | Project("{FAE04EC0-301F-11D3-BF4B-00C04F79EFBC}") = "Implab.Fx.Test", "Implab.Fx.Test\Implab.Fx.Test.csproj", "{2F31E405-E267-4195-A05D-574093C21209}" |
|
18 | 18 | EndProject |
|
19 | 19 | Global |
|
20 | GlobalSection(TestCaseManagementSettings) = postSolution | |
|
21 | CategoryFile = Implab.vsmdi | |
|
22 | EndGlobalSection | |
|
23 | 20 | GlobalSection(SolutionConfigurationPlatforms) = preSolution |
|
24 | 21 | Debug|Any CPU = Debug|Any CPU |
|
25 | 22 | Release|Any CPU = Release|Any CPU |
|
23 | Debug 4.5|Any CPU = Debug 4.5|Any CPU | |
|
24 | Release 4.5|Any CPU = Release 4.5|Any CPU | |
|
26 | 25 | EndGlobalSection |
|
27 | 26 | GlobalSection(ProjectConfigurationPlatforms) = postSolution |
|
28 |
{ |
|
|
29 |
{ |
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32 | 45 | {63F92C0C-61BF-48C0-A377-8D67C3C661D0}.Debug|Any CPU.ActiveCfg = Debug|Any CPU |
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33 | 46 | {63F92C0C-61BF-48C0-A377-8D67C3C661D0}.Debug|Any CPU.Build.0 = Debug|Any CPU |
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47 | {63F92C0C-61BF-48C0-A377-8D67C3C661D0}.Release 4.5|Any CPU.ActiveCfg = Release 4.5|Any CPU | |
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48 | {63F92C0C-61BF-48C0-A377-8D67C3C661D0}.Release 4.5|Any CPU.Build.0 = Release 4.5|Any CPU | |
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36 |
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58 | {F550F1F8-8746-4AD0-9614-855F4C4B7F05}.Release|Any CPU.Build.0 = Release|Any CPU | |
|
59 | EndGlobalSection | |
|
60 | GlobalSection(NestedProjects) = preSolution | |
|
61 | EndGlobalSection | |
|
62 | GlobalSection(MonoDevelopProperties) = preSolution | |
|
63 | StartupItem = Implab\Implab.csproj | |
|
64 | Policies = $0 | |
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65 | $0.CSharpFormattingPolicy = $1 | |
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66 | $1.IndentSwitchBody = True | |
|
67 | $1.NamespaceBraceStyle = EndOfLine | |
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68 | $1.ClassBraceStyle = EndOfLine | |
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69 | $1.InterfaceBraceStyle = EndOfLine | |
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71 | $1.EnumBraceStyle = EndOfLine | |
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72 | $1.MethodBraceStyle = EndOfLine | |
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73 | $1.ConstructorBraceStyle = EndOfLine | |
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74 | $1.DestructorBraceStyle = EndOfLine | |
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75 | $1.BeforeMethodDeclarationParentheses = False | |
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76 | $1.BeforeMethodCallParentheses = False | |
|
77 | $1.BeforeConstructorDeclarationParentheses = False | |
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78 | $1.NewLineBeforeConstructorInitializerColon = NewLine | |
|
79 | $1.NewLineAfterConstructorInitializerColon = SameLine | |
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80 | $1.BeforeIndexerDeclarationBracket = False | |
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81 | $1.BeforeDelegateDeclarationParentheses = False | |
|
82 | $1.NewParentheses = False | |
|
83 | $1.SpacesBeforeBrackets = False | |
|
84 | $1.inheritsSet = Mono | |
|
85 | $1.inheritsScope = text/x-csharp | |
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86 | $1.scope = text/x-csharp | |
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100 | $4.inheritsScope = text/plain | |
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108 | $6.TabsToSpaces = False | |
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109 | $6.inheritsSet = VisualStudio | |
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110 | $6.inheritsScope = text/plain | |
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111 | $6.scope = text/plain | |
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119 | $9.IncludeInstanceMembers = True | |
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121 | $8.NamingRule = $10 | |
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124 | $10.VisibilityMask = VisibilityMask | |
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125 | $10.NamingStyle = PascalCase | |
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126 | $10.IncludeInstanceMembers = True | |
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127 | $10.IncludeStaticEntities = True | |
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128 | $8.NamingRule = $11 | |
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129 | $11.Name = Interfaces | |
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130 | $11.RequiredPrefixes = $12 | |
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131 | $12.String = I | |
|
132 | $11.AffectedEntity = Interface | |
|
133 | $11.VisibilityMask = VisibilityMask | |
|
134 | $11.NamingStyle = PascalCase | |
|
135 | $11.IncludeInstanceMembers = True | |
|
136 | $11.IncludeStaticEntities = True | |
|
137 | $8.NamingRule = $13 | |
|
138 | $13.Name = Attributes | |
|
139 | $13.RequiredSuffixes = $14 | |
|
140 | $14.String = Attribute | |
|
141 | $13.AffectedEntity = CustomAttributes | |
|
142 | $13.VisibilityMask = VisibilityMask | |
|
143 | $13.NamingStyle = PascalCase | |
|
144 | $13.IncludeInstanceMembers = True | |
|
145 | $13.IncludeStaticEntities = True | |
|
146 | $8.NamingRule = $15 | |
|
147 | $15.Name = Event Arguments | |
|
148 | $15.RequiredSuffixes = $16 | |
|
149 | $16.String = EventArgs | |
|
150 | $15.AffectedEntity = CustomEventArgs | |
|
151 | $15.VisibilityMask = VisibilityMask | |
|
152 | $15.NamingStyle = PascalCase | |
|
153 | $15.IncludeInstanceMembers = True | |
|
154 | $15.IncludeStaticEntities = True | |
|
155 | $8.NamingRule = $17 | |
|
156 | $17.Name = Exceptions | |
|
157 | $17.RequiredSuffixes = $18 | |
|
158 | $18.String = Exception | |
|
159 | $17.AffectedEntity = CustomExceptions | |
|
160 | $17.VisibilityMask = VisibilityMask | |
|
161 | $17.NamingStyle = PascalCase | |
|
162 | $17.IncludeInstanceMembers = True | |
|
163 | $17.IncludeStaticEntities = True | |
|
164 | $8.NamingRule = $19 | |
|
165 | $19.Name = Methods | |
|
166 | $19.AffectedEntity = Methods | |
|
167 | $19.VisibilityMask = VisibilityMask | |
|
168 | $19.NamingStyle = PascalCase | |
|
169 | $19.IncludeInstanceMembers = True | |
|
170 | $19.IncludeStaticEntities = True | |
|
171 | $8.NamingRule = $20 | |
|
172 | $20.Name = Static Readonly Fields | |
|
173 | $20.AffectedEntity = ReadonlyField | |
|
174 | $20.VisibilityMask = Internal, Protected, Public | |
|
175 | $20.NamingStyle = CamelCase | |
|
176 | $20.IncludeInstanceMembers = False | |
|
177 | $20.IncludeStaticEntities = True | |
|
178 | $8.NamingRule = $21 | |
|
179 | $21.Name = Fields (Non Private) | |
|
180 | $21.AffectedEntity = Field | |
|
181 | $21.VisibilityMask = Internal, Public | |
|
182 | $21.NamingStyle = CamelCase | |
|
183 | $21.IncludeInstanceMembers = True | |
|
184 | $21.IncludeStaticEntities = True | |
|
185 | $8.NamingRule = $22 | |
|
186 | $22.Name = ReadOnly Fields (Non Private) | |
|
187 | $22.AffectedEntity = ReadonlyField | |
|
188 | $22.VisibilityMask = Internal, Public | |
|
189 | $22.NamingStyle = CamelCase | |
|
190 | $22.IncludeInstanceMembers = True | |
|
191 | $22.IncludeStaticEntities = False | |
|
192 | $8.NamingRule = $23 | |
|
193 | $23.Name = Fields (Private) | |
|
194 | $23.RequiredPrefixes = $24 | |
|
195 | $24.String = m_ | |
|
196 | $23.AffectedEntity = Field, ReadonlyField | |
|
197 | $23.VisibilityMask = Private, Protected | |
|
198 | $23.NamingStyle = CamelCase | |
|
199 | $23.IncludeInstanceMembers = True | |
|
200 | $23.IncludeStaticEntities = False | |
|
201 | $8.NamingRule = $25 | |
|
202 | $25.Name = Static Fields (Private) | |
|
203 | $25.RequiredPrefixes = $26 | |
|
204 | $26.String = _ | |
|
205 | $25.AffectedEntity = Field | |
|
206 | $25.VisibilityMask = Private | |
|
207 | $25.NamingStyle = CamelCase | |
|
208 | $25.IncludeInstanceMembers = False | |
|
209 | $25.IncludeStaticEntities = True | |
|
210 | $8.NamingRule = $27 | |
|
211 | $27.Name = ReadOnly Fields (Private) | |
|
212 | $27.RequiredPrefixes = $28 | |
|
213 | $28.String = m_ | |
|
214 | $27.AffectedEntity = ReadonlyField | |
|
215 | $27.VisibilityMask = Private, Protected | |
|
216 | $27.NamingStyle = CamelCase | |
|
217 | $27.IncludeInstanceMembers = True | |
|
218 | $27.IncludeStaticEntities = False | |
|
219 | $8.NamingRule = $29 | |
|
220 | $29.Name = Constant Fields | |
|
221 | $29.AffectedEntity = ConstantField | |
|
222 | $29.VisibilityMask = VisibilityMask | |
|
223 | $29.NamingStyle = AllUpper | |
|
224 | $29.IncludeInstanceMembers = True | |
|
225 | $29.IncludeStaticEntities = True | |
|
226 | $8.NamingRule = $30 | |
|
227 | $30.Name = Properties | |
|
228 | $30.AffectedEntity = Property | |
|
229 | $30.VisibilityMask = VisibilityMask | |
|
230 | $30.NamingStyle = PascalCase | |
|
231 | $30.IncludeInstanceMembers = True | |
|
232 | $30.IncludeStaticEntities = True | |
|
233 | $8.NamingRule = $31 | |
|
234 | $31.Name = Events | |
|
235 | $31.AffectedEntity = Event | |
|
236 | $31.VisibilityMask = VisibilityMask | |
|
237 | $31.NamingStyle = PascalCase | |
|
238 | $31.IncludeInstanceMembers = True | |
|
239 | $31.IncludeStaticEntities = True | |
|
240 | $8.NamingRule = $32 | |
|
241 | $32.Name = Enum Members | |
|
242 | $32.AffectedEntity = EnumMember | |
|
243 | $32.VisibilityMask = VisibilityMask | |
|
244 | $32.NamingStyle = PascalCase | |
|
245 | $32.IncludeInstanceMembers = True | |
|
246 | $32.IncludeStaticEntities = True | |
|
247 | $8.NamingRule = $33 | |
|
248 | $33.Name = Parameters | |
|
249 | $33.AffectedEntity = Parameter, LocalVariable | |
|
250 | $33.VisibilityMask = VisibilityMask | |
|
251 | $33.NamingStyle = CamelCase | |
|
252 | $33.IncludeInstanceMembers = True | |
|
253 | $33.IncludeStaticEntities = True | |
|
254 | $8.NamingRule = $34 | |
|
255 | $34.Name = Type Parameters | |
|
256 | $34.RequiredPrefixes = $35 | |
|
257 | $35.String = T | |
|
258 | $34.AffectedEntity = TypeParameter | |
|
259 | $34.VisibilityMask = VisibilityMask | |
|
260 | $34.NamingStyle = PascalCase | |
|
261 | $34.IncludeInstanceMembers = True | |
|
262 | $34.IncludeStaticEntities = True | |
|
263 | EndGlobalSection | |
|
264 | GlobalSection(TestCaseManagementSettings) = postSolution | |
|
265 | CategoryFile = Implab.vsmdi | |
|
44 | 266 | EndGlobalSection |
|
45 | 267 | GlobalSection(SolutionProperties) = preSolution |
|
46 | 268 | HideSolutionNode = FALSE |
|
47 | 269 | EndGlobalSection |
|
48 | GlobalSection(MonoDevelopProperties) = preSolution | |
|
49 | StartupItem = Implab\Implab.csproj | |
|
50 | EndGlobalSection | |
|
51 | 270 | EndGlobal |
@@ -1,34 +1,22 | |||
|
1 | 1 | using System; |
|
2 | using System.Collections.Generic; | |
|
3 | using System.Linq; | |
|
4 | 2 | using System.Text; |
|
5 | 3 | |
|
6 | 4 | namespace Implab.Diagnostics { |
|
7 |
public class ConsoleTraceListener: |
|
|
5 | public class ConsoleTraceListener: ListenerBase { | |
|
8 | 6 | |
|
9 | 7 | static readonly object _consoleLock = new object(); |
|
10 | 8 | |
|
11 | public ConsoleTraceListener() | |
|
12 | : base(true) { | |
|
13 | ||
|
14 | } | |
|
15 | ||
|
16 | public ConsoleTraceListener(bool global) | |
|
17 | : base(global) { | |
|
18 | ||
|
19 | } | |
|
20 | ||
|
21 | protected override void WriteEntry(TraceContext context, EventText text, string channel) { | |
|
9 | public override void Write(LogEventArgs args, object entry) { | |
|
22 | 10 | var msg = new StringBuilder(); |
|
23 | 11 | |
|
24 |
for (int i = 0; i < |
|
|
12 | for (int i = 0; i < args.Operation.Level; i++) | |
|
25 | 13 | msg.Append(" "); |
|
26 |
msg.AppendFormat("[{0}]: |
|
|
14 | msg.AppendFormat("[{0}]: {1}", args.ThreadId, entry); | |
|
27 | 15 | |
|
28 | 16 | lock (_consoleLock) { |
|
29 |
Console.ForegroundColor = (ConsoleColor)( |
|
|
30 |
Console.WriteLine(msg |
|
|
17 | Console.ForegroundColor = (ConsoleColor)(args.ThreadId % 15 + 1); | |
|
18 | Console.WriteLine(msg); | |
|
31 | 19 | } |
|
32 | 20 | } |
|
33 | 21 | } |
|
34 | 22 | } |
@@ -1,81 +1,81 | |||
|
1 | 1 | using System; |
|
2 | 2 | using System.Collections.Generic; |
|
3 | 3 | using System.Linq; |
|
4 | 4 | using System.Text; |
|
5 | 5 | |
|
6 | 6 | namespace Implab.Diagnostics { |
|
7 | 7 | /// <summary> |
|
8 | 8 | /// Канал, через который публикуются события журнала. |
|
9 | 9 | /// </summary> |
|
10 | 10 | /// <typeparam name="TEvent">Тип событий в канале</typeparam> |
|
11 | 11 | /// <remarks> |
|
12 | 12 | /// Событиями журнала могут быть любые типы, например строки, в которых будет передаваться |
|
13 | 13 | /// информация, или структуры с набором полей, описывающих важность, текст и другую информацию. |
|
14 | 14 | /// </remarks> |
|
15 | 15 | public class LogChannel<TEvent> { |
|
16 | 16 | static LogChannel<TEvent> _default = new LogChannel<TEvent>(); |
|
17 | 17 | |
|
18 | 18 | /// <summary> |
|
19 | 19 | /// Канал по-умолчанию для событий типа <typeparam name="TEvent"/>. |
|
20 | 20 | /// </summary> |
|
21 | 21 | public static LogChannel<TEvent> Default { |
|
22 | 22 | get { |
|
23 | 23 | return _default; |
|
24 | 24 | } |
|
25 | 25 | } |
|
26 | 26 | |
|
27 | 27 | /// <summary> |
|
28 | 28 | /// Событие появление новой записи в журнале, на это событие подписываются слушатели. |
|
29 | 29 | /// </summary> |
|
30 |
public event EventHandler< |
|
|
30 | public event EventHandler<LogEventArgs<TEvent>> Events; | |
|
31 | 31 | |
|
32 | 32 | /// <summary> |
|
33 | 33 | /// Имя канала, полезно для отображения в журнале |
|
34 | 34 | /// </summary> |
|
35 | 35 | public string Name { |
|
36 | 36 | get; |
|
37 | 37 | private set; |
|
38 | 38 | } |
|
39 | 39 | |
|
40 | 40 | /// <summary> |
|
41 | 41 | /// Создает журнал, имя типа событий назначается в качетве имени канала. |
|
42 | 42 | /// </summary> |
|
43 | 43 | public LogChannel() |
|
44 | 44 | : this(null) { |
|
45 | 45 | } |
|
46 | 46 | |
|
47 | 47 | /// <summary> |
|
48 | 48 | /// Содает канал с указанным именем. |
|
49 | 49 | /// </summary> |
|
50 | 50 | /// <param name="name">Имя канала.</param> |
|
51 | 51 | public LogChannel(string name) { |
|
52 | 52 | if (String.IsNullOrEmpty(name)) |
|
53 | 53 | name = typeof(TEvent).Name; |
|
54 | 54 | Name = name; |
|
55 | 55 | } |
|
56 | 56 | |
|
57 | 57 | /// <summary> |
|
58 | 58 | /// Отправляет запись журнала через канал подписчикам. |
|
59 | 59 | /// </summary> |
|
60 | 60 | /// <param name="data">Запись журнала.</param> |
|
61 | 61 | /// <remarks> |
|
62 | 62 | /// Контекст трассировки от которого рассылается сообщение определяется автоматически из текущего потока. |
|
63 | 63 | /// </remarks> |
|
64 | 64 | public void LogEvent(TEvent data) { |
|
65 | 65 | var t = Events; |
|
66 | if (t!= null) | |
|
67 | t(TraceContext.Current,new ValueEventArgs<TEvent>(data)); | |
|
68 | } | |
|
69 | ||
|
70 | /// <summary> | |
|
71 | /// Отправляет запись журнала через канал подписчикам. | |
|
72 | /// </summary> | |
|
73 | /// <param name="data">Запись журнала.</param> | |
|
74 | /// <param name="context">Контекст трассировки от которого рассылается сообщение/</param> | |
|
75 | public void LogEvent(TraceContext context,TEvent data) { | |
|
76 |
|
|
|
77 |
|
|
|
78 | t(context, new ValueEventArgs<TEvent>(data)); | |
|
66 | if (t != null) { | |
|
67 | var traceContext = TraceContext.Instance; | |
|
68 | t( | |
|
69 | this, | |
|
70 | new LogEventArgs<TEvent>( | |
|
71 | data, | |
|
72 | Name, | |
|
73 | traceContext.ThreadId, | |
|
74 | traceContext.CurrentOperation, | |
|
75 | traceContext.CurrentOperation.Duration | |
|
76 | ) | |
|
77 | ); | |
|
79 | 78 | } |
|
80 | 79 | } |
|
81 | 80 | } |
|
81 | } |
@@ -1,47 +1,45 | |||
|
1 | 1 | using System; |
|
2 | using System.Collections.Generic; | |
|
3 | using System.Linq; | |
|
4 | using System.Text; | |
|
5 | using System.Threading.Tasks; | |
|
6 | 2 | |
|
7 | 3 | namespace Implab.Diagnostics { |
|
8 | 4 | public class LogicalOperation { |
|
5 | public static readonly LogicalOperation EMPTY = new LogicalOperation("__EMPTY__", null); | |
|
6 | ||
|
9 | 7 | readonly LogicalOperation m_parent; |
|
10 | 8 | readonly string m_name; |
|
11 | 9 | readonly int m_level; |
|
12 | 10 | readonly int m_timestamp; |
|
13 | 11 | |
|
14 | 12 | public LogicalOperation() |
|
15 | 13 | : this(null, null) { |
|
16 | 14 | } |
|
17 | 15 | |
|
18 | 16 | public LogicalOperation(string name, LogicalOperation parent) { |
|
19 | 17 | m_name = name ?? String.Empty; |
|
20 | 18 | m_parent = parent; |
|
21 | 19 | |
|
22 | 20 | m_level = parent == null ? 0 : parent.Level + 1; |
|
23 | 21 | m_timestamp = Environment.TickCount; |
|
24 | 22 | } |
|
25 | 23 | |
|
26 | 24 | public int Duration { |
|
27 | 25 | get { |
|
28 | 26 | var dt = Environment.TickCount - m_timestamp; |
|
29 | 27 | return dt < 0 ? int.MaxValue + dt : dt; // handle overflow |
|
30 | 28 | } |
|
31 | 29 | } |
|
32 | 30 | |
|
33 | 31 | public LogicalOperation Parent { |
|
34 | 32 | get { |
|
35 | 33 | return m_parent; |
|
36 | 34 | } |
|
37 | 35 | } |
|
38 | 36 | |
|
39 | 37 | public int Level { |
|
40 | 38 | get { return m_level; } |
|
41 | 39 | } |
|
42 | 40 | |
|
43 | 41 | public string Name { |
|
44 | 42 | get { return m_name; } |
|
45 | 43 | } |
|
46 | 44 | } |
|
47 | 45 | } |
@@ -1,47 +1,46 | |||
|
1 | 1 | using System; |
|
2 | using System.Collections.Generic; | |
|
3 | 2 | using System.IO; |
|
4 | using System.Linq; | |
|
5 | 3 | using System.Text; |
|
6 | 4 | |
|
7 | 5 | namespace Implab.Diagnostics { |
|
8 |
public class TextFileListener: |
|
|
6 | public class TextFileListener: ListenerBase { | |
|
9 | 7 | readonly TextWriter m_textWriter; |
|
10 | 8 | |
|
11 |
public TextFileListener(string fileName |
|
|
12 | : base(global) { | |
|
9 | public TextFileListener(string fileName) { | |
|
13 | 10 | m_textWriter = File.CreateText(fileName); |
|
14 | 11 | |
|
15 | 12 | m_textWriter.WriteLine("LOG {0}", DateTime.Now); |
|
16 | Register(this); | |
|
17 | 13 | } |
|
18 | 14 | |
|
19 | protected override void WriteEntry(TraceContext context, EventText text, string channel) { | |
|
15 | #region implemented abstract members of ListenerBase | |
|
16 | ||
|
17 | public override void Write(LogEventArgs args, object entry) { | |
|
20 | 18 | var msg = new StringBuilder(); |
|
21 |
for (int i = 0; i < |
|
|
19 | for (int i = 0; i < args.Operation.Level; i++) | |
|
22 | 20 | msg.Append(" "); |
|
23 |
msg.AppendFormat("[{0}]:{1}: {2}", |
|
|
21 | msg.AppendFormat("[{0}]:{1}: {2}", args.ThreadId, args.ChannelName, entry); | |
|
24 | 22 | |
|
25 | 23 | lock (m_textWriter) { |
|
26 | 24 | if (!IsDisposed) { |
|
27 | 25 | // тут гарантировано еще не освобожден m_textWriter |
|
28 |
m_textWriter.WriteLine(msg |
|
|
26 | m_textWriter.WriteLine(msg); | |
|
29 | 27 | m_textWriter.Flush(); |
|
30 | 28 | } |
|
31 | 29 | } |
|
32 | 30 | } |
|
33 | 31 | |
|
32 | #endregion | |
|
34 | 33 | |
|
35 | 34 | protected override void Dispose(bool disposing) { |
|
36 | 35 | base.Dispose(disposing); |
|
37 | 36 | if (disposing) { |
|
38 | 37 | // IsDisposed = true |
|
39 | 38 | lock (m_textWriter) { |
|
40 | 39 | Safe.Dispose(m_textWriter); |
|
41 | 40 | } |
|
42 | 41 | } |
|
43 | 42 | } |
|
44 | 43 | |
|
45 | 44 | |
|
46 | 45 | } |
|
47 | 46 | } |
@@ -1,238 +1,83 | |||
|
1 | 1 | using System; |
|
2 | 2 | using System.Collections.Generic; |
|
3 | using System.Linq; | |
|
4 | using System.Text; | |
|
5 | 3 | using System.Threading; |
|
6 | using System.Threading.Tasks; | |
|
7 | 4 | |
|
8 | 5 | namespace Implab.Diagnostics { |
|
9 | 6 | /// <summary> |
|
10 | /// Контекст трассировки, привязывается к потоку и содержит в себе информацию о стеке логических операций. | |
|
7 | /// Trace context is bound to the specific thread, each thread has it's own ThreadContext. | |
|
11 | 8 | /// </summary> |
|
12 | 9 | /// <remarks> |
|
13 | /// Контекст трассировки передается слушателям событий для определения места, где возникло событие. | |
|
10 | /// ThreadContext manages relations between logical operations and threads. | |
|
14 | 11 | /// </remarks> |
|
15 | 12 | public class TraceContext { |
|
16 | LogicalOperation m_currentOperation; | |
|
17 | readonly LogicalOperation m_bound; | |
|
18 | readonly int m_threadId; | |
|
19 | 13 | |
|
20 | 14 | [ThreadStatic] |
|
21 |
static TraceContext _c |
|
|
15 | static TraceContext _instance; | |
|
16 | ||
|
17 | OperationContext m_current = OperationContext.EMPTY; | |
|
18 | readonly Stack<OperationContext> m_stack = new Stack<OperationContext>(); | |
|
19 | readonly int m_threadId; | |
|
22 | 20 | |
|
23 | /// <summary> | |
|
24 | /// Текущий контекст трассировки для потока, создается астоматически при первом обращении. | |
|
25 | /// </summary> | |
|
26 | public static TraceContext Current { | |
|
21 | public static TraceContext Instance { | |
|
27 | 22 | get { |
|
28 |
if (_c |
|
|
29 |
_c |
|
|
30 | _current.LogEvent(TraceEventType.Created,"[{0}]", _current.ThreadId); | |
|
31 | } | |
|
32 | return _current; | |
|
23 | if (_instance == null) | |
|
24 | _instance = new TraceContext(); | |
|
25 | return _instance; | |
|
33 | 26 | } |
|
34 | 27 | } |
|
35 | 28 | |
|
36 |
TraceContext( |
|
|
37 | : this(context, false) { | |
|
38 | } | |
|
39 | ||
|
40 | TraceContext(TraceContext context, bool attach) { | |
|
41 | if (context == null) | |
|
42 | throw new ArgumentNullException("context"); | |
|
43 | ||
|
44 | m_currentOperation = context.CurrentOperation; | |
|
45 | m_bound = attach ? context.BoundOperation : context.CurrentOperation; | |
|
46 | m_threadId = Thread.CurrentThread.ManagedThreadId; | |
|
47 | } | |
|
48 | ||
|
49 | TraceContext() { | |
|
50 | m_currentOperation = new LogicalOperation(); | |
|
51 | m_bound = m_currentOperation; | |
|
29 | public TraceContext() { | |
|
52 | 30 | m_threadId = Thread.CurrentThread.ManagedThreadId; |
|
53 | 31 | } |
|
54 | 32 | |
|
55 | /// <summary> | |
|
56 | /// При необходимости копирует состояние контекста трассивровки в текущий поток. | |
|
57 | /// </summary> | |
|
58 | /// <param name="from">Исходный контекст трассировки, который передается.</param> | |
|
59 | /// <remarks> | |
|
60 | /// <para> | |
|
61 | /// Копирование происходит за счет создания нового контекста трассировки и заполнением его | |
|
62 | /// состояния из переданного контекста. При этом копируется стек операций, однако в новом | |
|
63 | /// контексте ранее начатые логические операции не могут быть завершены. | |
|
64 | /// </para> | |
|
65 | /// <para> | |
|
66 | /// Если передача состояния состоялась, то вызывается событие трассировки <see cref="TraceEventType.Fork"/>. | |
|
67 | /// </para> | |
|
68 | /// </remarks> | |
|
69 | public static void Fork(TraceContext from) { | |
|
70 | if (_current == from) | |
|
71 | return; | |
|
72 | if (from != null) { | |
|
73 | var context = new TraceContext(from); | |
|
74 | context.LogEvent(TraceEventType.Fork, "[{0}]-->[{1}]",from.ThreadId, context.ThreadId); | |
|
75 | _current = context; | |
|
76 | } else { | |
|
77 | _current = new TraceContext(); | |
|
78 | } | |
|
33 | public int ThreadId { | |
|
34 | get { return m_threadId; } | |
|
79 | 35 | } |
|
80 | 36 | |
|
81 | /// <summary> | |
|
82 | /// Задает текущему потоку указанный контекст, текущей поток может заканчивать ранее начатые | |
|
83 | /// логические операции в указанном контексте. | |
|
84 | /// </summary> | |
|
85 | /// <param name="source"></param> | |
|
86 | public static void Attach(TraceContext source) { | |
|
87 | if (_current == source) | |
|
88 | return; | |
|
89 | if (source != null) { | |
|
90 | var context = new TraceContext(source, true); | |
|
91 | context.LogEvent(TraceEventType.Attach, "[{0}]-->[{1}]", source.ThreadId, context.ThreadId); | |
|
92 | _current = context; | |
|
93 | } else { | |
|
94 | _current = new TraceContext(); | |
|
37 | public LogicalOperation CurrentOperation { | |
|
38 | get { | |
|
39 | return m_current.CurrentOperation; | |
|
95 | 40 | } |
|
96 | 41 | } |
|
97 | 42 | |
|
98 | /// <summary> | |
|
99 | /// Отсоединяет текущий контекст трассировки от потока, для дальнейшей его передачи другому потоку | |
|
100 | /// <see cref="Attach(TraceContext)"/>. | |
|
101 | /// </summary> | |
|
102 | /// <returns>Контекст трассировки потока</returns> | |
|
103 | /// <remarks> | |
|
104 | /// После отсоединения контекста трассировки от потока, при первом обращении к трассировке в этом | |
|
105 | /// потоке будет создан новый контекст. | |
|
106 | /// </remarks> | |
|
107 | public static TraceContext Detach() { | |
|
108 | var context = Current; | |
|
109 | context.LogEvent(TraceEventType.Detach, null); | |
|
110 | _current = null; | |
|
111 | return context; | |
|
43 | public void EnterLogicalOperation(LogicalOperation operation, bool takeOwnership) { | |
|
44 | //var prev = CurrentOperation; | |
|
45 | //LogChannel<TraceEvent>.Default.LogEvent(new TraceEvent(takeOwnership ? TraceEventType.Attach : TraceEventType.Enter, String.Format("{0} -> {1}",prev.Name, operation.Name))); | |
|
46 | m_stack.Push(m_current); | |
|
47 | m_current = new OperationContext(operation, takeOwnership); | |
|
112 | 48 | } |
|
113 | 49 | |
|
114 | /// <summary> | |
|
115 | /// Создает постоянную копию текущего контекста, данную копию можно хранить и использовать для передачи через <see cref="Fork(TraceContext)"/> | |
|
116 | /// </summary> | |
|
117 | /// <returns>Копия текущего контекста трассировки.</returns> | |
|
118 | public static TraceContext Snapshot() { | |
|
119 | return _current == null ? new TraceContext() : new TraceContext(_current,false); | |
|
50 | public void StartLogicalOperation(string name) { | |
|
51 | LogChannel<TraceEvent>.Default.LogEvent(new TraceEvent(TraceEventType.OperationStarted, name)); | |
|
52 | m_current.BeginLogicalOperation(name); | |
|
53 | } | |
|
54 | ||
|
55 | public void StartLogicalOperation() { | |
|
56 | StartLogicalOperation(String.Empty); | |
|
120 | 57 | } |
|
121 | 58 | |
|
122 | /// <summary> | |
|
123 | /// Выполняет переданное действие в указанном контексте трассировки, по окончании восстанавливает предыдущий контекст трассировки потока. | |
|
124 | /// </summary> | |
|
125 | /// <param name="action"></param> | |
|
126 | public void Invoke(Action action) { | |
|
127 | if (action == null) | |
|
128 | throw new ArgumentNullException("action"); | |
|
129 | var old = _current; | |
|
130 | Fork(this); | |
|
131 | try { | |
|
132 | action(); | |
|
133 | } finally { | |
|
134 | if(_current != null) | |
|
135 | _current.EndAllOperations(); | |
|
136 | _current = old; | |
|
59 | public void EndLogicalOperation() { | |
|
60 | var op = m_current.EndLogicalOperation(); | |
|
61 | LogChannel<TraceEvent>.Default.LogEvent(new TraceEvent(TraceEventType.OperationCompleted, String.Format("-{0} : {1}ms",op.Name, op.Duration))); | |
|
137 | 62 |
|
|
63 | ||
|
64 | public LogicalOperation DetachLogicalOperation() { | |
|
65 | var prev = m_current.DetachLogicalOperation(); | |
|
66 | //LogChannel<TraceEvent>.Default.LogEvent(new TraceEvent(TraceEventType.Detach, String.Format("{0} -> {1}",prev.Name, CurrentOperation.Name))); | |
|
67 | return prev; | |
|
138 | 68 | } |
|
139 | 69 | |
|
140 | /// <summary> | |
|
141 | /// Текущая логическая операция. | |
|
142 | /// </summary> | |
|
143 | public LogicalOperation CurrentOperation { | |
|
144 | get { | |
|
145 | return m_currentOperation; | |
|
70 | public void Leave() { | |
|
71 | if (m_stack.Count > 0) { | |
|
72 | m_current.Leave(); | |
|
73 | //var prev = CurrentOperation; | |
|
74 | m_current = m_stack.Pop(); | |
|
75 | //LogChannel<TraceEvent>.Default.LogEvent(new TraceEvent(TraceEventType.Leave, String.Format("{0} -> {1}", prev.Name, CurrentOperation.Name))); | |
|
76 | } else { | |
|
77 | TraceLog.TraceWarning("Attempt to leave the last operation context"); | |
|
78 | m_current = OperationContext.EMPTY; | |
|
146 | 79 | } |
|
147 | 80 | } |
|
148 | ||
|
149 | /// <summary> | |
|
150 | /// Операция ниже которой нельзя опускаться в стеке логических операций, т.е. она не может быть завершена в текущем контексте. | |
|
151 | /// </summary> | |
|
152 | public LogicalOperation BoundOperation { | |
|
153 | get { | |
|
154 | return m_bound; | |
|
155 | } | |
|
156 | } | |
|
157 | ||
|
158 | /// <summary> | |
|
159 | /// Поток, в котором создан контекст трассировки. | |
|
160 | /// </summary> | |
|
161 | public int ThreadId { | |
|
162 | get { | |
|
163 | return m_threadId; | |
|
164 | 81 | } |
|
165 | 82 | } |
|
166 | 83 | |
|
167 | /// <summary> | |
|
168 | /// Начинает безымянную логическую операцию. | |
|
169 | /// </summary> | |
|
170 | public void StartLogicalOperation() { | |
|
171 | StartLogicalOperation(null); | |
|
172 | } | |
|
173 | ||
|
174 | /// <summary> | |
|
175 | /// Начинает логическую операцию с указанным именем. Созданная операция будет добвалена в стек логических операций контекста, затем будет создано соответсвующее событие. | |
|
176 | /// </summary> | |
|
177 | /// <param name="name">Имя начинаемой операции.</param> | |
|
178 | public void StartLogicalOperation(string name) { | |
|
179 | m_currentOperation = new LogicalOperation(name, m_currentOperation); | |
|
180 | LogEvent(TraceEventType.OperationStarted, name); | |
|
181 | } | |
|
182 | ||
|
183 | /// <summary> | |
|
184 | /// Заканчивает логическую операцию начатую в текущем контексте. Операции, начатые в других контекстах не могут быть закончены в текущем контексте. | |
|
185 | /// </summary> | |
|
186 | /// <remarks> | |
|
187 | /// При вызове данного метода создается событие журнала трассировки, либо о завершении операции, либо об ошибки, поскольку данная операция | |
|
188 | /// начата в другом контексте. | |
|
189 | /// </remarks> | |
|
190 | public void EndLogicalOperation() { | |
|
191 | if (m_bound == m_currentOperation) { | |
|
192 | LogEvent(TraceEventType.Error, "Trying to end the operation which isn't belongs to current trace"); | |
|
193 | } else { | |
|
194 | var op = m_currentOperation; | |
|
195 | LogEvent(TraceEventType.OperationCompleted, "{0} {1} ms", op.Name, op.Duration); | |
|
196 | m_currentOperation = m_currentOperation.Parent; | |
|
197 | } | |
|
198 | } | |
|
199 | ||
|
200 | /// <summary> | |
|
201 | /// Создает копию контекста и возвращается на предыдущую операцию в текущем контексте, это позволяет начать операцию в одном потоке, а завершить - в другом. | |
|
202 | /// </summary> | |
|
203 | /// <returns>Контекст трассировки, который можно присоединить к другому потоку.</returns> | |
|
204 | public TraceContext DetachLogicalOperation() { | |
|
205 | if (m_bound == m_currentOperation) { | |
|
206 | return new TraceContext(); | |
|
207 | } else { | |
|
208 | var detached = new TraceContext(this, true); | |
|
209 | m_currentOperation = m_currentOperation.Parent; | |
|
210 | return detached; | |
|
211 | } | |
|
212 | } | |
|
213 | ||
|
214 | public void BindLogicalOperationToPromise(IPromise promise) { | |
|
215 | Safe.ArgumentNotNull(promise, "promise"); | |
|
216 | ||
|
217 | var ctx = DetachLogicalOperation(); | |
|
218 | promise.Finally(() => { | |
|
219 | var old = _current; | |
|
220 | TraceContext.Attach(ctx); | |
|
221 | TraceContext.Current.EndLogicalOperation(); | |
|
222 | _current = old; | |
|
223 | }); | |
|
224 | } | |
|
225 | ||
|
226 | /// <summary> | |
|
227 | /// Заврешает все начатые в этом контексте операции | |
|
228 | /// </summary> | |
|
229 | public void EndAllOperations() { | |
|
230 | while (m_bound != m_currentOperation) | |
|
231 | EndLogicalOperation(); | |
|
232 | } | |
|
233 | ||
|
234 | void LogEvent(TraceEventType type, string format, params object[] args) { | |
|
235 | LogChannel<TraceEvent>.Default.LogEvent(this, TraceEvent.Create(type, format, args)); | |
|
236 | } | |
|
237 | } | |
|
238 | } |
@@ -1,34 +1,29 | |||
|
1 | 1 | using System; |
|
2 | using System.Collections.Generic; | |
|
3 | using System.Linq; | |
|
4 | using System.Text; | |
|
5 | 2 | |
|
6 | 3 | namespace Implab.Diagnostics { |
|
7 | 4 | public class TraceEvent { |
|
8 | 5 | public string Message { |
|
9 | 6 | get; |
|
10 | 7 | private set; |
|
11 | 8 | } |
|
12 | 9 | |
|
13 | 10 | public TraceEventType EventType { |
|
14 | 11 | get; |
|
15 | 12 | private set; |
|
16 | 13 | } |
|
17 | 14 | |
|
18 | 15 | public TraceEvent(TraceEventType type, string message) { |
|
19 | 16 | EventType = type; |
|
20 | 17 | Message = message; |
|
21 | 18 | } |
|
22 | 19 | |
|
23 | 20 | public override string ToString() { |
|
24 | if (EventType == TraceEventType.Information) | |
|
21 | /*return EventType == TraceEventType.Information ? Message : String.Format("{0}: {1}", EventType, Message);*/ | |
|
25 | 22 |
|
|
26 | else | |
|
27 | return String.Format("{0}: {1}", EventType, Message); | |
|
28 | 23 | } |
|
29 | 24 | |
|
30 | 25 | public static TraceEvent Create(TraceEventType type, string format, params object[] args) { |
|
31 | 26 | return new TraceEvent(type, format == null ? String.Empty : String.Format(format, args)); |
|
32 | 27 | } |
|
33 | 28 | } |
|
34 | 29 | } |
@@ -1,19 +1,19 | |||
|
1 | 1 | using System; |
|
2 | 2 | using System.Collections.Generic; |
|
3 | 3 | using System.Linq; |
|
4 | 4 | using System.Text; |
|
5 | 5 | using System.Threading.Tasks; |
|
6 | 6 | |
|
7 | 7 | namespace Implab.Diagnostics { |
|
8 | 8 | public enum TraceEventType { |
|
9 | 9 | Information = 1, |
|
10 | 10 | Warning, |
|
11 | 11 | Error, |
|
12 | 12 | OperationStarted, |
|
13 | 13 | OperationCompleted, |
|
14 | Fork, | |
|
15 | 14 | Attach, |
|
16 | 15 | Detach, |
|
17 |
|
|
|
16 | Enter, | |
|
17 | Leave | |
|
18 | 18 | } |
|
19 | 19 | } |
@@ -1,55 +1,50 | |||
|
1 | 1 | using System; |
|
2 | 2 | using System.Collections.Generic; |
|
3 | 3 | using System.Diagnostics; |
|
4 | 4 | using System.Linq; |
|
5 | 5 | using System.Text; |
|
6 | 6 | using System.Threading.Tasks; |
|
7 | 7 | |
|
8 | 8 | namespace Implab.Diagnostics { |
|
9 | 9 | /// <summary> |
|
10 | 10 | /// Класс для публикации событий выполнения программы, события публикуются через <see cref="LogChannel{TraceEvent}"/>. |
|
11 | 11 | /// Журнал трассировки отражает логический ход выполнения программы и существует всегда, поскольку тесно связан с |
|
12 | 12 | /// контекстом трассировки. |
|
13 | 13 | /// </summary> |
|
14 | 14 | public static class TraceLog { |
|
15 | 15 | [Conditional("TRACE")] |
|
16 | 16 | public static void StartLogicalOperation() { |
|
17 |
TraceContext. |
|
|
17 | TraceContext.Instance.StartLogicalOperation(); | |
|
18 | 18 | } |
|
19 | 19 | |
|
20 | 20 | [Conditional("TRACE")] |
|
21 | 21 | public static void StartLogicalOperation(string name) { |
|
22 |
TraceContext. |
|
|
22 | TraceContext.Instance.StartLogicalOperation(name); | |
|
23 | 23 | } |
|
24 | 24 | |
|
25 | 25 | [Conditional("TRACE")] |
|
26 | 26 | public static void EndLogicalOperation() { |
|
27 |
TraceContext. |
|
|
28 | } | |
|
29 | ||
|
30 | [Conditional("TRACE")] | |
|
31 | public static void BindLogicalOperationToPromise(IPromise promise) { | |
|
32 | TraceContext.Current.BindLogicalOperationToPromise(promise); | |
|
27 | TraceContext.Instance.EndLogicalOperation(); | |
|
33 | 28 | } |
|
34 | 29 | |
|
35 | 30 | [Conditional("TRACE")] |
|
36 | 31 | public static void TraceInformation(string format, params object[] arguments) { |
|
37 | 32 | LogChannel<TraceEvent>.Default.LogEvent(TraceEvent.Create(TraceEventType.Information, format, arguments)); |
|
38 | 33 | } |
|
39 | 34 | |
|
40 | 35 | [Conditional("TRACE")] |
|
41 | 36 | public static void TraceWarning(string format, params object[] arguments) { |
|
42 | 37 | LogChannel<TraceEvent>.Default.LogEvent(TraceEvent.Create(TraceEventType.Warning, format, arguments)); |
|
43 | 38 | } |
|
44 | 39 | |
|
45 | 40 | [Conditional("TRACE")] |
|
46 | 41 | public static void TraceError(string format, params object[] arguments) { |
|
47 | 42 | LogChannel<TraceEvent>.Default.LogEvent(TraceEvent.Create(TraceEventType.Error, format, arguments)); |
|
48 | 43 | } |
|
49 | 44 | |
|
50 | 45 | [Conditional("TRACE")] |
|
51 | 46 | public static void TraceError(Exception err) { |
|
52 | 47 | TraceError("{0}", err); |
|
53 | 48 | } |
|
54 | 49 | } |
|
55 | 50 | } |
@@ -1,10 +1,8 | |||
|
1 | 1 | using System; |
|
2 | using System.Collections.Generic; | |
|
3 | using System.Linq; | |
|
4 | using System.Text; | |
|
5 | 2 | |
|
6 | 3 | namespace Implab { |
|
7 | 4 | public interface ICancellable { |
|
8 |
|
|
|
5 | void Cancel(); | |
|
6 | void Cancel(Exception reason); | |
|
9 | 7 | } |
|
10 | 8 | } |
@@ -1,37 +1,66 | |||
|
1 | 1 | using System; |
|
2 | 2 | using System.Collections.Generic; |
|
3 | 3 | using System.Linq; |
|
4 | 4 | using System.Text; |
|
5 | 5 | |
|
6 | 6 | namespace Implab { |
|
7 | 7 | public interface IPromise: ICancellable { |
|
8 | /// <summary> | |
|
9 | /// Check whereather the promise has no more than one dependent promise. | |
|
10 | /// </summary> | |
|
11 | bool IsExclusive { | |
|
12 | get; | |
|
13 | } | |
|
14 | 8 | |
|
15 | 9 | /// <summary> |
|
16 | 10 | /// Тип результата, получаемого через данное обещание. |
|
17 | 11 | /// </summary> |
|
18 | 12 | Type PromiseType { get; } |
|
19 | 13 | |
|
14 | /// <summary> | |
|
15 | /// Обещание является выполненым, либо успешно, либо с ошибкой, либо отменено. | |
|
16 | /// </summary> | |
|
20 | 17 | bool IsResolved { get; } |
|
21 | 18 | |
|
19 | /// <summary> | |
|
20 | /// Обещание было отменено. | |
|
21 | /// </summary> | |
|
22 | 22 | bool IsCancelled { get; } |
|
23 | 23 | |
|
24 | IPromise Then(Action success,ErrorHandler error); | |
|
25 | IPromise Then(Action success); | |
|
26 | IPromise Error(ErrorHandler error); | |
|
27 | IPromise Anyway(Action handler); | |
|
28 | IPromise Finally(Action handler); | |
|
29 | IPromise Cancelled(Action handler); | |
|
24 | /// <summary> | |
|
25 | /// Исключение возникшее в результате выполнения обещания, либо причина отмены. | |
|
26 | /// </summary> | |
|
27 | Exception Error { get; } | |
|
30 | 28 | |
|
29 | /// <summary> | |
|
30 | /// Adds specified listeners to the current promise. | |
|
31 | /// </summary> | |
|
32 | /// <param name="success">The handler called on the successful promise completion.</param> | |
|
33 | /// <param name="error">The handler is called if an error while completing the promise occurred.</param> | |
|
34 | /// <param name="cancel">The handler is called in case of promise cancellation.</param> | |
|
35 | /// <returns>The current promise.</returns> | |
|
36 | IPromise On(Action success, Action<Exception> error, Action<Exception> cancel); | |
|
37 | IPromise On(Action success, Action<Exception> error); | |
|
38 | IPromise On(Action success); | |
|
39 | ||
|
40 | /// <summary> | |
|
41 | /// Adds specified listeners to the current promise. | |
|
42 | /// </summary> | |
|
43 | /// <param name="handler">The handler called on the specified events.</param> | |
|
44 | /// <param name = "events">The combination of flags denoting the events for which the | |
|
45 | /// handler shoud be called.</param> | |
|
46 | /// <returns>The current promise.</returns> | |
|
47 | IPromise On(Action handler, PromiseEventType events); | |
|
48 | ||
|
49 | /// <summary> | |
|
50 | /// Преобразует результат обещания к заданному типу и возвращает новое обещание. | |
|
51 | /// </summary> | |
|
31 | 52 | IPromise<T> Cast<T>(); |
|
32 | 53 | |
|
54 | /// <summary> | |
|
55 | /// Синхронизирует текущий поток с обещанием. | |
|
56 | /// </summary> | |
|
33 | 57 | void Join(); |
|
58 | /// <summary> | |
|
59 | /// Синхронизирует текущий поток с обещанием. | |
|
60 | /// </summary> | |
|
61 | /// <param name="timeout">Время ожидания, по его истечению возникнет исключение.</param> | |
|
62 | /// <exception cref="TimeoutException">Превышено время ожидания.</exception> | |
|
34 | 63 | void Join(int timeout); |
|
35 | 64 | |
|
36 | 65 | } |
|
37 | 66 | } |
@@ -1,31 +1,25 | |||
|
1 | 1 | using System; |
|
2 | using System.Collections.Generic; | |
|
3 | using System.Linq; | |
|
4 | using System.Text; | |
|
2 | ||
|
3 | namespace Implab { | |
|
4 | public interface IPromise<out T> : IPromise { | |
|
5 | 5 | |
|
6 | namespace Implab | |
|
7 | { | |
|
8 | public interface IPromise<T>: IPromise | |
|
9 | { | |
|
6 | IPromise<T> On(Action<T> success, Action<Exception> error, Action<Exception> cancel); | |
|
7 | ||
|
8 | IPromise<T> On(Action<T> success, Action<Exception> error); | |
|
9 | ||
|
10 | IPromise<T> On(Action<T> success); | |
|
10 | 11 | |
|
11 | 12 | new T Join(); |
|
13 | ||
|
12 | 14 | new T Join(int timeout); |
|
13 | 15 | |
|
14 | IPromise<T> Then(ResultHandler<T> success, ErrorHandler error); | |
|
15 | IPromise<T> Then(ResultHandler<T> success, ErrorHandler<T> error); | |
|
16 | IPromise<T> Then(ResultHandler<T> success); | |
|
17 | new IPromise<T> Error(ErrorHandler error); | |
|
18 | IPromise<T> Error(ErrorHandler<T> error); | |
|
16 | new IPromise<T> On(Action success, Action<Exception> error, Action<Exception> cancel); | |
|
17 | ||
|
18 | new IPromise<T> On(Action success, Action<Exception> error); | |
|
19 | 19 | |
|
20 | IPromise<T2> Map<T2>(ResultMapper<T,T2> mapper, ErrorHandler error); | |
|
21 | IPromise<T2> Map<T2>(ResultMapper<T, T2> mapper); | |
|
20 | new IPromise<T> On(Action success); | |
|
22 | 21 | |
|
23 | IPromise<T2> Chain<T2>(ChainedOperation<T, T2> chained, ErrorHandler error); | |
|
24 | IPromise<T2> Chain<T2>(ChainedOperation<T, T2> chained); | |
|
25 | ||
|
26 | new IPromise<T> Cancelled(Action handler); | |
|
27 | new IPromise<T> Finally(Action handler); | |
|
28 | new IPromise<T> Anyway(Action handler); | |
|
22 | new IPromise<T> On(Action handler, PromiseEventType events); | |
|
29 | 23 | |
|
30 | 24 | } |
|
31 | 25 | } |
@@ -1,14 +1,11 | |||
|
1 | 1 | using System; |
|
2 | using System.Collections.Generic; | |
|
3 | using System.Linq; | |
|
4 | using System.Text; | |
|
5 | 2 | |
|
6 | 3 | namespace Implab { |
|
7 | 4 | public interface ITaskController: IProgressHandler, ICancellable { |
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8 | 5 | bool IsCancelled { |
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9 | 6 | get; |
|
10 | 7 | } |
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11 | 8 | |
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12 | 9 | event EventHandler Cancelled; |
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13 | 10 | } |
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14 | 11 | } |
@@ -1,105 +1,276 | |||
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1 | 1 | <?xml version="1.0" encoding="utf-8"?> |
|
2 | 2 | <Project DefaultTargets="Build" ToolsVersion="4.0" xmlns="http://schemas.microsoft.com/developer/msbuild/2003"> |
|
3 | 3 | <PropertyGroup> |
|
4 | 4 | <Configuration Condition=" '$(Configuration)' == '' ">Debug</Configuration> |
|
5 | 5 | <Platform Condition=" '$(Platform)' == '' ">AnyCPU</Platform> |
|
6 | 6 | <ProjectGuid>{F550F1F8-8746-4AD0-9614-855F4C4B7F05}</ProjectGuid> |
|
7 | 7 | <OutputType>Library</OutputType> |
|
8 | 8 | <RootNamespace>Implab</RootNamespace> |
|
9 | 9 | <AssemblyName>Implab</AssemblyName> |
|
10 | <TargetFrameworkVersion>v4.5</TargetFrameworkVersion> | |
|
11 | <ReleaseVersion>0.2</ReleaseVersion> | |
|
12 | <ProductVersion>8.0.30703</ProductVersion> | |
|
13 | <SchemaVersion>2.0</SchemaVersion> | |
|
10 | 14 | </PropertyGroup> |
|
11 | 15 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Debug|AnyCPU' "> |
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12 | 16 | <DebugSymbols>true</DebugSymbols> |
|
13 | 17 | <DebugType>full</DebugType> |
|
14 | 18 | <Optimize>false</Optimize> |
|
15 | 19 | <OutputPath>bin\Debug</OutputPath> |
|
16 | 20 | <DefineConstants>TRACE;DEBUG;</DefineConstants> |
|
17 | 21 | <ErrorReport>prompt</ErrorReport> |
|
18 | 22 | <WarningLevel>4</WarningLevel> |
|
19 | 23 | <ConsolePause>false</ConsolePause> |
|
20 | 24 | <RunCodeAnalysis>true</RunCodeAnalysis> |
|
21 | 25 | </PropertyGroup> |
|
22 | 26 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Release|AnyCPU' "> |
|
23 | 27 | <DebugType>full</DebugType> |
|
24 | 28 | <Optimize>true</Optimize> |
|
25 | 29 | <OutputPath>bin\Release</OutputPath> |
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26 | 30 | <ErrorReport>prompt</ErrorReport> |
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27 | 31 | <WarningLevel>4</WarningLevel> |
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28 | 32 | <ConsolePause>false</ConsolePause> |
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29 | 33 | </PropertyGroup> |
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34 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Debug 4.5|AnyCPU' "> | |
|
35 | <DebugSymbols>true</DebugSymbols> | |
|
36 | <DebugType>full</DebugType> | |
|
37 | <Optimize>false</Optimize> | |
|
38 | <OutputPath>bin\Debug</OutputPath> | |
|
39 | <DefineConstants>TRACE;DEBUG;NET_4_5</DefineConstants> | |
|
40 | <ErrorReport>prompt</ErrorReport> | |
|
41 | <WarningLevel>4</WarningLevel> | |
|
42 | <RunCodeAnalysis>true</RunCodeAnalysis> | |
|
43 | <ConsolePause>false</ConsolePause> | |
|
44 | </PropertyGroup> | |
|
45 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Release 4.5|AnyCPU' "> | |
|
46 | <Optimize>true</Optimize> | |
|
47 | <OutputPath>bin\Release</OutputPath> | |
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48 | <ErrorReport>prompt</ErrorReport> | |
|
49 | <WarningLevel>4</WarningLevel> | |
|
50 | <ConsolePause>false</ConsolePause> | |
|
51 | <DefineConstants>NET_4_5</DefineConstants> | |
|
52 | </PropertyGroup> | |
|
53 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'DebugMono|AnyCPU' "> | |
|
54 | <DebugSymbols>true</DebugSymbols> | |
|
55 | <DebugType>full</DebugType> | |
|
56 | <Optimize>false</Optimize> | |
|
57 | <OutputPath>bin\Debug</OutputPath> | |
|
58 | <DefineConstants>TRACE;DEBUG;NET_4_5;MONO</DefineConstants> | |
|
59 | <ErrorReport>prompt</ErrorReport> | |
|
60 | <WarningLevel>4</WarningLevel> | |
|
61 | <RunCodeAnalysis>true</RunCodeAnalysis> | |
|
62 | <ConsolePause>false</ConsolePause> | |
|
63 | </PropertyGroup> | |
|
64 | <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'ReleaseMono|AnyCPU' "> | |
|
65 | <Optimize>true</Optimize> | |
|
66 | <OutputPath>bin\Release</OutputPath> | |
|
67 | <DefineConstants>NET_4_5;MONO;</DefineConstants> | |
|
68 | <ErrorReport>prompt</ErrorReport> | |
|
69 | <WarningLevel>4</WarningLevel> | |
|
70 | <ConsolePause>false</ConsolePause> | |
|
71 | </PropertyGroup> | |
|
30 | 72 | <ItemGroup> |
|
31 | 73 | <Reference Include="System" /> |
|
32 | 74 | <Reference Include="System.Xml" /> |
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75 | <Reference Include="mscorlib" /> | |
|
33 | 76 | </ItemGroup> |
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34 | 77 | <ItemGroup> |
|
35 | <Compile Include="Component.cs" /> | |
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36 | 78 | <Compile Include="CustomEqualityComparer.cs" /> |
|
37 | 79 | <Compile Include="Diagnostics\ConsoleTraceListener.cs" /> |
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38 | 80 | <Compile Include="Diagnostics\EventText.cs" /> |
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39 | <Compile Include="Diagnostics\IEventTextFormatter.cs" /> | |
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40 | 81 | <Compile Include="Diagnostics\LogChannel.cs" /> |
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41 | 82 | <Compile Include="Diagnostics\LogicalOperation.cs" /> |
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42 | 83 | <Compile Include="Diagnostics\TextFileListener.cs" /> |
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43 | <Compile Include="Diagnostics\TextListenerBase.cs" /> | |
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44 | 84 | <Compile Include="Diagnostics\TraceLog.cs" /> |
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45 | <Compile Include="Diagnostics\TraceContext.cs" /> | |
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46 | 85 | <Compile Include="Diagnostics\TraceEvent.cs" /> |
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47 | 86 | <Compile Include="Diagnostics\TraceEventType.cs" /> |
|
48 | <Compile Include="Disposable.cs" /> | |
|
49 | 87 | <Compile Include="ICancellable.cs" /> |
|
50 | 88 | <Compile Include="IProgressHandler.cs" /> |
|
51 | 89 | <Compile Include="IProgressNotifier.cs" /> |
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52 | 90 | <Compile Include="IPromiseT.cs" /> |
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53 | 91 | <Compile Include="IPromise.cs" /> |
|
54 | 92 | <Compile Include="IServiceLocator.cs" /> |
|
55 | 93 | <Compile Include="ITaskController.cs" /> |
|
56 | <Compile Include="JSON\JSONElementContext.cs" /> | |
|
57 | <Compile Include="JSON\JSONElementType.cs" /> | |
|
58 | <Compile Include="JSON\JSONGrammar.cs" /> | |
|
59 | <Compile Include="JSON\JSONParser.cs" /> | |
|
60 | <Compile Include="JSON\JSONScanner.cs" /> | |
|
61 | <Compile Include="JSON\JsonTokenType.cs" /> | |
|
62 | <Compile Include="JSON\JSONWriter.cs" /> | |
|
63 | <Compile Include="JSON\JSONXmlReader.cs" /> | |
|
64 | <Compile Include="JSON\JSONXmlReaderOptions.cs" /> | |
|
65 | <Compile Include="JSON\StringTranslator.cs" /> | |
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66 | 94 | <Compile Include="Parallels\DispatchPool.cs" /> |
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67 | 95 | <Compile Include="Parallels\ArrayTraits.cs" /> |
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68 | 96 | <Compile Include="Parallels\MTQueue.cs" /> |
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69 | 97 | <Compile Include="Parallels\WorkerPool.cs" /> |
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70 | <Compile Include="Parsing\Alphabet.cs" /> | |
|
71 | <Compile Include="Parsing\AlphabetBase.cs" /> | |
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72 | <Compile Include="Parsing\AltToken.cs" /> | |
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73 | <Compile Include="Parsing\BinaryToken.cs" /> | |
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74 | <Compile Include="Parsing\CatToken.cs" /> | |
|
75 | <Compile Include="Parsing\CDFADefinition.cs" /> | |
|
76 | <Compile Include="Parsing\DFABuilder.cs" /> | |
|
77 | <Compile Include="Parsing\DFADefinitionBase.cs" /> | |
|
78 | <Compile Include="Parsing\DFAStateDescriptor.cs" /> | |
|
79 | <Compile Include="Parsing\DFAutomaton.cs" /> | |
|
80 | <Compile Include="Parsing\EDFADefinition.cs" /> | |
|
81 | <Compile Include="Parsing\EmptyToken.cs" /> | |
|
82 | <Compile Include="Parsing\EndToken.cs" /> | |
|
83 | <Compile Include="Parsing\EnumAlphabet.cs" /> | |
|
84 | <Compile Include="Parsing\Grammar.cs" /> | |
|
85 | <Compile Include="Parsing\IAlphabet.cs" /> | |
|
86 | <Compile Include="Parsing\IDFADefinition.cs" /> | |
|
87 | <Compile Include="Parsing\IVisitor.cs" /> | |
|
88 | <Compile Include="Parsing\ParserException.cs" /> | |
|
89 | <Compile Include="Parsing\Scanner.cs" /> | |
|
90 | <Compile Include="Parsing\StarToken.cs" /> | |
|
91 | <Compile Include="Parsing\SymbolToken.cs" /> | |
|
92 | <Compile Include="Parsing\Token.cs" /> | |
|
93 | <Compile Include="SafePool.cs" /> | |
|
94 | <Compile Include="ServiceLocator.cs" /> | |
|
95 | <Compile Include="TaskController.cs" /> | |
|
96 | 98 | <Compile Include="ProgressInitEventArgs.cs" /> |
|
97 | 99 | <Compile Include="Properties\AssemblyInfo.cs" /> |
|
98 | <Compile Include="Promise.cs" /> | |
|
99 | 100 | <Compile Include="Parallels\AsyncPool.cs" /> |
|
100 | 101 | <Compile Include="Safe.cs" /> |
|
101 | 102 | <Compile Include="ValueEventArgs.cs" /> |
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103 | <Compile Include="PromiseExtensions.cs" /> | |
|
104 | <Compile Include="SyncContextPromise.cs" /> | |
|
105 | <Compile Include="Diagnostics\OperationContext.cs" /> | |
|
106 | <Compile Include="Diagnostics\TraceContext.cs" /> | |
|
107 | <Compile Include="Diagnostics\LogEventArgs.cs" /> | |
|
108 | <Compile Include="Diagnostics\LogEventArgsT.cs" /> | |
|
109 | <Compile Include="Diagnostics\Extensions.cs" /> | |
|
110 | <Compile Include="PromiseEventType.cs" /> | |
|
111 | <Compile Include="Parallels\AsyncQueue.cs" /> | |
|
112 | <Compile Include="PromiseT.cs" /> | |
|
113 | <Compile Include="IDeferred.cs" /> | |
|
114 | <Compile Include="IDeferredT.cs" /> | |
|
115 | <Compile Include="Promise.cs" /> | |
|
116 | <Compile Include="PromiseTransientException.cs" /> | |
|
117 | <Compile Include="Parallels\Signal.cs" /> | |
|
118 | <Compile Include="Parallels\SharedLock.cs" /> | |
|
119 | <Compile Include="Diagnostics\ILogWriter.cs" /> | |
|
120 | <Compile Include="Diagnostics\ListenerBase.cs" /> | |
|
121 | <Compile Include="Parallels\BlockingQueue.cs" /> | |
|
122 | <Compile Include="AbstractEvent.cs" /> | |
|
123 | <Compile Include="AbstractPromise.cs" /> | |
|
124 | <Compile Include="AbstractPromiseT.cs" /> | |
|
125 | <Compile Include="FuncTask.cs" /> | |
|
126 | <Compile Include="FuncTaskBase.cs" /> | |
|
127 | <Compile Include="FuncTaskT.cs" /> | |
|
128 | <Compile Include="ActionChainTaskBase.cs" /> | |
|
129 | <Compile Include="ActionChainTask.cs" /> | |
|
130 | <Compile Include="ActionChainTaskT.cs" /> | |
|
131 | <Compile Include="FuncChainTaskBase.cs" /> | |
|
132 | <Compile Include="FuncChainTask.cs" /> | |
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133 | <Compile Include="FuncChainTaskT.cs" /> | |
|
134 | <Compile Include="ActionTaskBase.cs" /> | |
|
135 | <Compile Include="ActionTask.cs" /> | |
|
136 | <Compile Include="ActionTaskT.cs" /> | |
|
137 | <Compile Include="ICancellationToken.cs" /> | |
|
138 | <Compile Include="SuccessPromise.cs" /> | |
|
139 | <Compile Include="SuccessPromiseT.cs" /> | |
|
140 | <Compile Include="PromiseAwaiterT.cs" /> | |
|
141 | <Compile Include="PromiseAwaiter.cs" /> | |
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142 | <Compile Include="Components\ComponentContainer.cs" /> | |
|
143 | <Compile Include="Components\Disposable.cs" /> | |
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144 | <Compile Include="Components\DisposablePool.cs" /> | |
|
145 | <Compile Include="Components\ObjectPool.cs" /> | |
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146 | <Compile Include="Components\ServiceLocator.cs" /> | |
|
147 | <Compile Include="Components\IInitializable.cs" /> | |
|
148 | <Compile Include="TaskController.cs" /> | |
|
149 | <Compile Include="Components\App.cs" /> | |
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150 | <Compile Include="Components\IRunnable.cs" /> | |
|
151 | <Compile Include="Components\ExecutionState.cs" /> | |
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152 | <Compile Include="Components\RunnableComponent.cs" /> | |
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153 | <Compile Include="Components\IFactory.cs" /> | |
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154 | <Compile Include="Automaton\IAlphabet.cs" /> | |
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155 | <Compile Include="Automaton\ParserException.cs" /> | |
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156 | <Compile Include="Automaton\IndexedAlphabetBase.cs" /> | |
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157 | <Compile Include="Automaton\IAlphabetBuilder.cs" /> | |
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158 | <Compile Include="Automaton\RegularExpressions\AltToken.cs" /> | |
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159 | <Compile Include="Automaton\RegularExpressions\BinaryToken.cs" /> | |
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160 | <Compile Include="Automaton\RegularExpressions\CatToken.cs" /> | |
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161 | <Compile Include="Automaton\RegularExpressions\StarToken.cs" /> | |
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162 | <Compile Include="Automaton\RegularExpressions\SymbolToken.cs" /> | |
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163 | <Compile Include="Automaton\RegularExpressions\EmptyToken.cs" /> | |
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164 | <Compile Include="Automaton\RegularExpressions\Token.cs" /> | |
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165 | <Compile Include="Automaton\RegularExpressions\IVisitor.cs" /> | |
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166 | <Compile Include="Automaton\AutomatonTransition.cs" /> | |
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167 | <Compile Include="Formats\JSON\JSONElementContext.cs" /> | |
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168 | <Compile Include="Formats\JSON\JSONElementType.cs" /> | |
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169 | <Compile Include="Formats\JSON\JSONGrammar.cs" /> | |
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170 | <Compile Include="Formats\JSON\JSONParser.cs" /> | |
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171 | <Compile Include="Formats\JSON\JSONScanner.cs" /> | |
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172 | <Compile Include="Formats\JSON\JsonTokenType.cs" /> | |
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173 | <Compile Include="Formats\JSON\JSONWriter.cs" /> | |
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174 | <Compile Include="Formats\JSON\JSONXmlReader.cs" /> | |
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175 | <Compile Include="Formats\JSON\JSONXmlReaderOptions.cs" /> | |
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176 | <Compile Include="Formats\JSON\StringTranslator.cs" /> | |
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177 | <Compile Include="Automaton\MapAlphabet.cs" /> | |
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178 | <Compile Include="Formats\CharAlphabet.cs" /> | |
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179 | <Compile Include="Formats\ByteAlphabet.cs" /> | |
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180 | <Compile Include="Automaton\IDFATable.cs" /> | |
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181 | <Compile Include="Automaton\IDFATableBuilder.cs" /> | |
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182 | <Compile Include="Automaton\DFATable.cs" /> | |
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183 | <Compile Include="Automaton\RegularExpressions\RegularExpressionVisitor.cs" /> | |
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184 | <Compile Include="Automaton\RegularExpressions\ITaggedDFABuilder.cs" /> | |
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185 | <Compile Include="Formats\TextScanner.cs" /> | |
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186 | <Compile Include="Formats\StringScanner.cs" /> | |
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187 | <Compile Include="Formats\ReaderScanner.cs" /> | |
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188 | <Compile Include="Formats\ScannerContext.cs" /> | |
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189 | <Compile Include="Formats\Grammar.cs" /> | |
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190 | <Compile Include="Automaton\RegularExpressions\EndTokenT.cs" /> | |
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191 | <Compile Include="Automaton\RegularExpressions\EndToken.cs" /> | |
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192 | <Compile Include="Automaton\RegularExpressions\RegularExpressionVisitorT.cs" /> | |
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193 | <Compile Include="Automaton\AutomatonConst.cs" /> | |
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194 | <Compile Include="Automaton\RegularExpressions\RegularDFA.cs" /> | |
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195 | <Compile Include="Components\LazyAndWeak.cs" /> | |
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196 | <Compile Include="AbstractTask.cs" /> | |
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197 | <Compile Include="AbstractTaskT.cs" /> | |
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102 | 198 | </ItemGroup> |
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103 | 199 | <Import Project="$(MSBuildBinPath)\Microsoft.CSharp.targets" /> |
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104 | 200 | <ItemGroup /> |
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201 | <ProjectExtensions> | |
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202 | <MonoDevelop> | |
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203 | <Properties> | |
|
204 | <Policies> | |
|
205 | <CSharpFormattingPolicy IndentSwitchBody="True" NamespaceBraceStyle="EndOfLine" ClassBraceStyle="EndOfLine" InterfaceBraceStyle="EndOfLine" StructBraceStyle="EndOfLine" EnumBraceStyle="EndOfLine" MethodBraceStyle="EndOfLine" ConstructorBraceStyle="EndOfLine" DestructorBraceStyle="EndOfLine" BeforeMethodDeclarationParentheses="False" BeforeMethodCallParentheses="False" BeforeConstructorDeclarationParentheses="False" NewLineBeforeConstructorInitializerColon="NewLine" NewLineAfterConstructorInitializerColon="SameLine" BeforeIndexerDeclarationBracket="False" BeforeDelegateDeclarationParentheses="False" NewParentheses="False" SpacesBeforeBrackets="False" inheritsSet="Mono" inheritsScope="text/x-csharp" scope="text/x-csharp" /> | |
|
206 | <TextStylePolicy FileWidth="120" EolMarker="Unix" inheritsSet="VisualStudio" inheritsScope="text/plain" scope="text/x-csharp" /> | |
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207 | <DotNetNamingPolicy DirectoryNamespaceAssociation="PrefixedHierarchical" ResourceNamePolicy="MSBuild" /> | |
|
208 | <TextStylePolicy FileWidth="120" TabsToSpaces="False" inheritsSet="VisualStudio" inheritsScope="text/plain" scope="application/xml" /> | |
|
209 | <XmlFormattingPolicy inheritsSet="Mono" inheritsScope="application/xml" scope="application/xml" /> | |
|
210 | <TextStylePolicy FileWidth="120" TabsToSpaces="False" inheritsSet="VisualStudio" inheritsScope="text/plain" scope="text/plain" /> | |
|
211 | <NameConventionPolicy> | |
|
212 | <Rules> | |
|
213 | <NamingRule Name="Namespaces" AffectedEntity="Namespace" VisibilityMask="VisibilityMask" NamingStyle="PascalCase" IncludeInstanceMembers="True" IncludeStaticEntities="True" /> | |
|
214 | <NamingRule Name="Types" AffectedEntity="Class, Struct, Enum, Delegate" VisibilityMask="VisibilityMask" NamingStyle="PascalCase" IncludeInstanceMembers="True" IncludeStaticEntities="True" /> | |
|
215 | <NamingRule Name="Interfaces" AffectedEntity="Interface" VisibilityMask="VisibilityMask" NamingStyle="PascalCase" IncludeInstanceMembers="True" IncludeStaticEntities="True"> | |
|
216 | <RequiredPrefixes> | |
|
217 | <String>I</String> | |
|
218 | </RequiredPrefixes> | |
|
219 | </NamingRule> | |
|
220 | <NamingRule Name="Attributes" AffectedEntity="CustomAttributes" VisibilityMask="VisibilityMask" NamingStyle="PascalCase" IncludeInstanceMembers="True" IncludeStaticEntities="True"> | |
|
221 | <RequiredSuffixes> | |
|
222 | <String>Attribute</String> | |
|
223 | </RequiredSuffixes> | |
|
224 | </NamingRule> | |
|
225 | <NamingRule Name="Event Arguments" AffectedEntity="CustomEventArgs" VisibilityMask="VisibilityMask" NamingStyle="PascalCase" IncludeInstanceMembers="True" IncludeStaticEntities="True"> | |
|
226 | <RequiredSuffixes> | |
|
227 | <String>EventArgs</String> | |
|
228 | </RequiredSuffixes> | |
|
229 | </NamingRule> | |
|
230 | <NamingRule Name="Exceptions" AffectedEntity="CustomExceptions" VisibilityMask="VisibilityMask" NamingStyle="PascalCase" IncludeInstanceMembers="True" IncludeStaticEntities="True"> | |
|
231 | <RequiredSuffixes> | |
|
232 | <String>Exception</String> | |
|
233 | </RequiredSuffixes> | |
|
234 | </NamingRule> | |
|
235 | <NamingRule Name="Methods" AffectedEntity="Methods" VisibilityMask="VisibilityMask" NamingStyle="PascalCase" IncludeInstanceMembers="True" IncludeStaticEntities="True" /> | |
|
236 | <NamingRule Name="Static Readonly Fields" AffectedEntity="ReadonlyField" VisibilityMask="Internal, Protected, Public" NamingStyle="CamelCase" IncludeInstanceMembers="False" IncludeStaticEntities="True" /> | |
|
237 | <NamingRule Name="Fields (Non Private)" AffectedEntity="Field" VisibilityMask="Internal, Public" NamingStyle="CamelCase" IncludeInstanceMembers="True" IncludeStaticEntities="True" /> | |
|
238 | <NamingRule Name="ReadOnly Fields (Non Private)" AffectedEntity="ReadonlyField" VisibilityMask="Internal, Public" NamingStyle="CamelCase" IncludeInstanceMembers="True" IncludeStaticEntities="False" /> | |
|
239 | <NamingRule Name="Fields (Private)" AffectedEntity="Field, ReadonlyField" VisibilityMask="Private, Protected" NamingStyle="CamelCase" IncludeInstanceMembers="True" IncludeStaticEntities="False"> | |
|
240 | <RequiredPrefixes> | |
|
241 | <String>m_</String> | |
|
242 | </RequiredPrefixes> | |
|
243 | </NamingRule> | |
|
244 | <NamingRule Name="Static Fields (Private)" AffectedEntity="Field" VisibilityMask="Private" NamingStyle="CamelCase" IncludeInstanceMembers="False" IncludeStaticEntities="True"> | |
|
245 | <RequiredPrefixes> | |
|
246 | <String>_</String> | |
|
247 | </RequiredPrefixes> | |
|
248 | </NamingRule> | |
|
249 | <NamingRule Name="ReadOnly Fields (Private)" AffectedEntity="ReadonlyField" VisibilityMask="Private, Protected" NamingStyle="CamelCase" IncludeInstanceMembers="True" IncludeStaticEntities="False"> | |
|
250 | <RequiredPrefixes> | |
|
251 | <String>m_</String> | |
|
252 | </RequiredPrefixes> | |
|
253 | </NamingRule> | |
|
254 | <NamingRule Name="Constant Fields" AffectedEntity="ConstantField" VisibilityMask="VisibilityMask" NamingStyle="AllUpper" IncludeInstanceMembers="True" IncludeStaticEntities="True" /> | |
|
255 | <NamingRule Name="Properties" AffectedEntity="Property" VisibilityMask="VisibilityMask" NamingStyle="PascalCase" IncludeInstanceMembers="True" IncludeStaticEntities="True" /> | |
|
256 | <NamingRule Name="Events" AffectedEntity="Event" VisibilityMask="VisibilityMask" NamingStyle="PascalCase" IncludeInstanceMembers="True" IncludeStaticEntities="True" /> | |
|
257 | <NamingRule Name="Enum Members" AffectedEntity="EnumMember" VisibilityMask="VisibilityMask" NamingStyle="PascalCase" IncludeInstanceMembers="True" IncludeStaticEntities="True" /> | |
|
258 | <NamingRule Name="Parameters" AffectedEntity="Parameter, LocalVariable" VisibilityMask="VisibilityMask" NamingStyle="CamelCase" IncludeInstanceMembers="True" IncludeStaticEntities="True" /> | |
|
259 | <NamingRule Name="Type Parameters" AffectedEntity="TypeParameter" VisibilityMask="VisibilityMask" NamingStyle="PascalCase" IncludeInstanceMembers="True" IncludeStaticEntities="True"> | |
|
260 | <RequiredPrefixes> | |
|
261 | <String>T</String> | |
|
262 | </RequiredPrefixes> | |
|
263 | </NamingRule> | |
|
264 | </Rules> | |
|
265 | </NameConventionPolicy> | |
|
266 | </Policies> | |
|
267 | </Properties> | |
|
268 | </MonoDevelop> | |
|
269 | </ProjectExtensions> | |
|
270 | <ItemGroup> | |
|
271 | <Folder Include="Components\" /> | |
|
272 | <Folder Include="Automaton\RegularExpressions\" /> | |
|
273 | <Folder Include="Formats\" /> | |
|
274 | <Folder Include="Formats\JSON\" /> | |
|
275 | </ItemGroup> | |
|
105 | 276 | </Project> No newline at end of file |
@@ -1,191 +1,207 | |||
|
1 | 1 | using Implab.Diagnostics; |
|
2 | 2 | using System; |
|
3 | using System.Collections.Generic; | |
|
4 | 3 | using System.Diagnostics; |
|
5 | using System.Linq; | |
|
6 | using System.Text; | |
|
7 | 4 | using System.Threading; |
|
8 | 5 | |
|
9 | 6 | namespace Implab.Parallels { |
|
10 | 7 | public static class ArrayTraits { |
|
11 | 8 | class ArrayIterator<TSrc> : DispatchPool<int> { |
|
12 | 9 | readonly Action<TSrc> m_action; |
|
13 | 10 | readonly TSrc[] m_source; |
|
14 | 11 | readonly Promise<int> m_promise = new Promise<int>(); |
|
15 |
readonly |
|
|
12 | readonly LogicalOperation m_logicalOperation; | |
|
16 | 13 | |
|
17 | 14 | int m_pending; |
|
18 | 15 | int m_next; |
|
19 | 16 | |
|
20 | 17 | public ArrayIterator(TSrc[] source, Action<TSrc> action, int threads) |
|
21 | 18 | : base(threads) { |
|
22 | 19 | |
|
23 | 20 | Debug.Assert(source != null); |
|
24 | 21 | Debug.Assert(action != null); |
|
25 | 22 | |
|
26 |
m_ |
|
|
23 | m_logicalOperation = TraceContext.Instance.CurrentOperation; | |
|
27 | 24 | m_next = 0; |
|
28 | 25 | m_source = source; |
|
29 | 26 | m_pending = source.Length; |
|
30 | 27 | m_action = action; |
|
31 | 28 | |
|
32 |
m_promise. |
|
|
33 | m_promise.Cancelled(() => Dispose()); | |
|
29 | m_promise.On(Dispose, PromiseEventType.All); | |
|
34 | 30 | |
|
35 | 31 | InitPool(); |
|
36 | 32 | } |
|
37 | 33 | |
|
38 | 34 | public Promise<int> Promise { |
|
39 | 35 | get { |
|
40 | 36 | return m_promise; |
|
41 | 37 | } |
|
42 | 38 | } |
|
43 | 39 | |
|
44 | 40 | protected override void Worker() { |
|
45 | TraceContext.Fork(m_traceContext); | |
|
41 | TraceContext.Instance.EnterLogicalOperation(m_logicalOperation, false); | |
|
42 | try { | |
|
46 | 43 | base.Worker(); |
|
44 | } finally { | |
|
45 | TraceContext.Instance.Leave(); | |
|
46 | } | |
|
47 | 47 | } |
|
48 | 48 | |
|
49 | 49 | protected override bool TryDequeue(out int unit) { |
|
50 | 50 | unit = Interlocked.Increment(ref m_next) - 1; |
|
51 |
return unit |
|
|
51 | return unit < m_source.Length; | |
|
52 | 52 | } |
|
53 | 53 | |
|
54 | 54 | protected override void InvokeUnit(int unit) { |
|
55 | 55 | try { |
|
56 | 56 | m_action(m_source[unit]); |
|
57 | 57 | var pending = Interlocked.Decrement(ref m_pending); |
|
58 | 58 | if (pending == 0) |
|
59 | 59 | m_promise.Resolve(m_source.Length); |
|
60 | 60 | } catch (Exception e) { |
|
61 | 61 | m_promise.Reject(e); |
|
62 | 62 | } |
|
63 | 63 | } |
|
64 | 64 | } |
|
65 | 65 | |
|
66 | 66 | class ArrayMapper<TSrc, TDst>: DispatchPool<int> { |
|
67 | 67 | readonly Func<TSrc, TDst> m_transform; |
|
68 | 68 | readonly TSrc[] m_source; |
|
69 | 69 | readonly TDst[] m_dest; |
|
70 | 70 | readonly Promise<TDst[]> m_promise = new Promise<TDst[]>(); |
|
71 |
readonly |
|
|
71 | readonly LogicalOperation m_logicalOperation; | |
|
72 | 72 | |
|
73 | 73 | int m_pending; |
|
74 | 74 | int m_next; |
|
75 | 75 | |
|
76 | 76 | public ArrayMapper(TSrc[] source, Func<TSrc, TDst> transform, int threads) |
|
77 | 77 | : base(threads) { |
|
78 | 78 | |
|
79 | 79 | Debug.Assert (source != null); |
|
80 | 80 | Debug.Assert( transform != null); |
|
81 | 81 | |
|
82 | 82 | m_next = 0; |
|
83 | 83 | m_source = source; |
|
84 | 84 | m_dest = new TDst[source.Length]; |
|
85 | 85 | m_pending = source.Length; |
|
86 | 86 | m_transform = transform; |
|
87 |
m_ |
|
|
87 | m_logicalOperation = TraceContext.Instance.CurrentOperation; | |
|
88 | 88 | |
|
89 |
m_promise. |
|
|
90 | m_promise.Cancelled(() => Dispose()); | |
|
89 | m_promise.On(Dispose, PromiseEventType.All); | |
|
91 | 90 | |
|
92 | 91 | InitPool(); |
|
93 | 92 | } |
|
94 | 93 | |
|
95 | 94 | public Promise<TDst[]> Promise { |
|
96 | 95 | get { |
|
97 | 96 | return m_promise; |
|
98 | 97 | } |
|
99 | 98 | } |
|
100 | 99 | |
|
101 | 100 | protected override void Worker() { |
|
102 |
TraceContext. |
|
|
101 | TraceContext.Instance.EnterLogicalOperation(m_logicalOperation,false); | |
|
102 | try { | |
|
103 | 103 | base.Worker(); |
|
104 | } finally { | |
|
105 | TraceContext.Instance.Leave(); | |
|
106 | } | |
|
104 | 107 | } |
|
105 | 108 | |
|
106 | 109 | protected override bool TryDequeue(out int unit) { |
|
107 | 110 | unit = Interlocked.Increment(ref m_next) - 1; |
|
108 |
return unit |
|
|
111 | return unit < m_source.Length; | |
|
109 | 112 | } |
|
110 | 113 | |
|
111 | 114 | protected override void InvokeUnit(int unit) { |
|
112 | 115 | try { |
|
113 | 116 | m_dest[unit] = m_transform(m_source[unit]); |
|
114 | 117 | var pending = Interlocked.Decrement(ref m_pending); |
|
115 | 118 | if (pending == 0) |
|
116 | 119 | m_promise.Resolve(m_dest); |
|
117 | 120 | } catch (Exception e) { |
|
118 | 121 | m_promise.Reject(e); |
|
119 | 122 | } |
|
120 | 123 | } |
|
121 | 124 | } |
|
122 | 125 | |
|
123 | 126 | public static IPromise<TDst[]> ParallelMap<TSrc, TDst> (this TSrc[] source, Func<TSrc,TDst> transform, int threads) { |
|
124 | 127 | if (source == null) |
|
125 | 128 | throw new ArgumentNullException("source"); |
|
126 | 129 | if (transform == null) |
|
127 | 130 | throw new ArgumentNullException("transform"); |
|
128 | 131 | |
|
129 | 132 | var mapper = new ArrayMapper<TSrc, TDst>(source, transform, threads); |
|
130 | 133 | return mapper.Promise; |
|
131 | 134 | } |
|
132 | 135 | |
|
133 | 136 | public static IPromise<int> ParallelForEach<TSrc>(this TSrc[] source, Action<TSrc> action, int threads) { |
|
134 | 137 | if (source == null) |
|
135 | 138 | throw new ArgumentNullException("source"); |
|
136 | 139 | if (action == null) |
|
137 | 140 | throw new ArgumentNullException("action"); |
|
138 | 141 | |
|
139 | 142 | var iter = new ArrayIterator<TSrc>(source, action, threads); |
|
140 | 143 | return iter.Promise; |
|
141 | 144 | } |
|
142 | 145 | |
|
143 |
public static IPromise<TDst[]> ChainedMap<TSrc, TDst>(this TSrc[] source, |
|
|
146 | public static IPromise<TDst[]> ChainedMap<TSrc, TDst>(this TSrc[] source, Func<TSrc, IPromise<TDst>> transform, int threads) { | |
|
144 | 147 | if (source == null) |
|
145 | 148 | throw new ArgumentNullException("source"); |
|
146 | 149 | if (transform == null) |
|
147 | 150 | throw new ArgumentNullException("transform"); |
|
148 | 151 | if (threads <= 0) |
|
149 | throw new ArgumentOutOfRangeException("Threads number must be greater then zero"); | |
|
152 | throw new ArgumentOutOfRangeException("threads","Threads number must be greater then zero"); | |
|
150 | 153 | |
|
151 | 154 | if (source.Length == 0) |
|
152 |
return Promise<TDst[]>.Result |
|
|
155 | return Promise<TDst[]>.FromResult(new TDst[0]); | |
|
153 | 156 | |
|
154 | 157 | var promise = new Promise<TDst[]>(); |
|
155 | 158 | var res = new TDst[source.Length]; |
|
156 | 159 | var pending = source.Length; |
|
157 | 160 | |
|
158 | var semaphore = new Semaphore(threads, threads); | |
|
161 | object locker = new object(); | |
|
162 | int slots = threads; | |
|
159 | 163 | |
|
160 | AsyncPool.InvokeNewThread(() => { | |
|
164 | // Analysis disable AccessToDisposedClosure | |
|
165 | AsyncPool.RunThread<int>(() => { | |
|
161 | 166 | for (int i = 0; i < source.Length; i++) { |
|
162 | 167 | if(promise.IsResolved) |
|
163 | 168 | break; // stop processing in case of error or cancellation |
|
164 | 169 | var idx = i; |
|
165 | semaphore.WaitOne(); | |
|
170 | ||
|
171 | if (Interlocked.Decrement(ref slots) < 0) { | |
|
172 | lock(locker) { | |
|
173 | while(slots < 0) | |
|
174 | Monitor.Wait(locker); | |
|
175 | } | |
|
176 | } | |
|
177 | ||
|
166 | 178 | try { |
|
167 |
|
|
|
168 |
|
|
|
169 | p1.Cancelled(() => semaphore.Release()); | |
|
170 |
|
|
|
179 | transform(source[i]) | |
|
180 | .On( x => { | |
|
181 | Interlocked.Increment(ref slots); | |
|
182 | lock (locker) { | |
|
183 | Monitor.Pulse(locker); | |
|
184 | } | |
|
185 | }) | |
|
186 | .On( | |
|
171 | 187 | x => { |
|
172 | 188 | res[idx] = x; |
|
173 | 189 | var left = Interlocked.Decrement(ref pending); |
|
174 | 190 | if (left == 0) |
|
175 | 191 | promise.Resolve(res); |
|
176 | 192 | }, |
|
177 |
|
|
|
193 | promise.Reject | |
|
178 | 194 | ); |
|
179 | 195 | |
|
180 | 196 | } catch (Exception e) { |
|
181 | 197 | promise.Reject(e); |
|
182 | 198 | } |
|
183 | 199 | } |
|
184 | 200 | return 0; |
|
185 | 201 | }); |
|
186 | 202 | |
|
187 |
return promise |
|
|
203 | return promise; | |
|
188 | 204 | } |
|
189 | 205 | |
|
190 | 206 | } |
|
191 | 207 | } |
@@ -1,71 +1,155 | |||
|
1 | 1 | using Implab.Diagnostics; |
|
2 | 2 | using System; |
|
3 | 3 | using System.Threading; |
|
4 | using System.Linq; | |
|
4 | 5 | |
|
5 | 6 | namespace Implab.Parallels { |
|
6 | 7 | /// <summary> |
|
7 | 8 | /// Класс для распаралеливания задач. |
|
8 | 9 | /// </summary> |
|
9 | 10 | /// <remarks> |
|
10 | 11 | /// Используя данный класс и лямда выражения можно распараллелить |
|
11 | 12 | /// вычисления, для этого используется концепция обещаний. |
|
12 | 13 | /// </remarks> |
|
13 | 14 | public static class AsyncPool { |
|
14 | 15 | |
|
15 | 16 | public static IPromise<T> Invoke<T>(Func<T> func) { |
|
16 | 17 | var p = new Promise<T>(); |
|
17 |
var caller = TraceContext. |
|
|
18 | var caller = TraceContext.Instance.CurrentOperation; | |
|
18 | 19 | |
|
19 | 20 | ThreadPool.QueueUserWorkItem(param => { |
|
20 |
TraceContext. |
|
|
21 | TraceContext.Instance.EnterLogicalOperation(caller,false); | |
|
21 | 22 | try { |
|
22 | 23 | p.Resolve(func()); |
|
23 | 24 | } catch(Exception e) { |
|
24 | 25 | p.Reject(e); |
|
26 | } finally { | |
|
27 | TraceContext.Instance.Leave(); | |
|
28 | } | |
|
29 | }); | |
|
30 | ||
|
31 | return p; | |
|
32 | } | |
|
33 | ||
|
34 | public static IPromise<T> Invoke<T>(Func<ICancellationToken, T> func) { | |
|
35 | var p = new Promise<T>(); | |
|
36 | var caller = TraceContext.Instance.CurrentOperation; | |
|
37 | ||
|
38 | ThreadPool.QueueUserWorkItem(param => { | |
|
39 | TraceContext.Instance.EnterLogicalOperation(caller,false); | |
|
40 | try { | |
|
41 | p.Resolve(func(p)); | |
|
42 | } catch(Exception e) { | |
|
43 | p.Reject(e); | |
|
44 | } finally { | |
|
45 | TraceContext.Instance.Leave(); | |
|
25 | 46 | } |
|
26 | 47 | }); |
|
27 | 48 | |
|
28 | 49 | return p; |
|
29 | 50 | } |
|
30 | 51 | |
|
31 |
public static IPromise<T> |
|
|
52 | public static IPromise<T> RunThread<T>(Func<T> func) { | |
|
32 | 53 | var p = new Promise<T>(); |
|
33 | 54 | |
|
34 |
var caller = TraceContext. |
|
|
55 | var caller = TraceContext.Instance.CurrentOperation; | |
|
35 | 56 | |
|
36 | 57 | var worker = new Thread(() => { |
|
37 |
TraceContext. |
|
|
58 | TraceContext.Instance.EnterLogicalOperation(caller,false); | |
|
38 | 59 | try { |
|
39 | 60 | p.Resolve(func()); |
|
40 | 61 | } catch (Exception e) { |
|
41 | 62 | p.Reject(e); |
|
63 | } finally { | |
|
64 | TraceContext.Instance.Leave(); | |
|
65 | } | |
|
66 | }); | |
|
67 | worker.IsBackground = true; | |
|
68 | worker.Start(); | |
|
69 | ||
|
70 | return p; | |
|
71 | } | |
|
72 | ||
|
73 | public static IPromise<T> RunThread<T>(Func<ICancellationToken, T> func) { | |
|
74 | var p = new Promise<T>(); | |
|
75 | ||
|
76 | var caller = TraceContext.Instance.CurrentOperation; | |
|
77 | ||
|
78 | var worker = new Thread(() => { | |
|
79 | TraceContext.Instance.EnterLogicalOperation(caller,false); | |
|
80 | try { | |
|
81 | p.Resolve(func(p)); | |
|
82 | } catch (Exception e) { | |
|
83 | p.Reject(e); | |
|
84 | } finally { | |
|
85 | TraceContext.Instance.Leave(); | |
|
42 | 86 | } |
|
43 | 87 | }); |
|
44 | 88 | worker.IsBackground = true; |
|
45 | 89 | worker.Start(); |
|
46 | 90 | |
|
47 | 91 | return p; |
|
48 | 92 | } |
|
49 | 93 | |
|
50 | 94 | |
|
51 |
public static IPromise |
|
|
52 |
var p = new Promise |
|
|
95 | public static IPromise RunThread(Action func) { | |
|
96 | var p = new Promise(); | |
|
53 | 97 | |
|
54 |
var caller = TraceContext. |
|
|
98 | var caller = TraceContext.Instance.CurrentOperation; | |
|
55 | 99 | |
|
56 | 100 | var worker = new Thread(() => { |
|
57 |
TraceContext. |
|
|
101 | TraceContext.Instance.EnterLogicalOperation(caller,false); | |
|
58 | 102 | try { |
|
59 | 103 | func(); |
|
60 | 104 | p.Resolve(); |
|
61 | 105 | } catch (Exception e) { |
|
62 | 106 | p.Reject(e); |
|
107 | } finally { | |
|
108 | TraceContext.Instance.Leave(); | |
|
63 | 109 | } |
|
64 | 110 | }); |
|
65 | 111 | worker.IsBackground = true; |
|
66 | 112 | worker.Start(); |
|
67 | 113 | |
|
68 | 114 | return p; |
|
69 | 115 | } |
|
116 | ||
|
117 | public static IPromise RunThread(Action<ICancellationToken> func) { | |
|
118 | var p = new Promise(); | |
|
119 | ||
|
120 | var caller = TraceContext.Instance.CurrentOperation; | |
|
121 | ||
|
122 | var worker = new Thread(() => { | |
|
123 | TraceContext.Instance.EnterLogicalOperation(caller,false); | |
|
124 | try { | |
|
125 | func(p); | |
|
126 | p.Resolve(); | |
|
127 | } catch (Exception e) { | |
|
128 | p.Reject(e); | |
|
129 | } finally { | |
|
130 | TraceContext.Instance.Leave(); | |
|
131 | } | |
|
132 | }); | |
|
133 | worker.IsBackground = true; | |
|
134 | worker.Start(); | |
|
135 | ||
|
136 | return p; | |
|
137 | } | |
|
138 | ||
|
139 | public static IPromise[] RunThread(params Action[] func) { | |
|
140 | return func.Select(f => RunThread(f)).ToArray(); | |
|
141 | } | |
|
142 | ||
|
143 | public static IPromise[] RunThread(params Action<ICancellationToken>[] func) { | |
|
144 | return func.Select(f => RunThread(f)).ToArray(); | |
|
145 | } | |
|
146 | ||
|
147 | public static IPromise<T>[] RunThread<T>(params Func<T>[] func) { | |
|
148 | return func.Select(f => RunThread(f)).ToArray(); | |
|
149 | } | |
|
150 | ||
|
151 | public static IPromise<T>[] RunThread<T>(params Func<ICancellationToken, T>[] func) { | |
|
152 | return func.Select(f => RunThread(f)).ToArray(); | |
|
70 | 153 | } |
|
71 | 154 | } |
|
155 | } |
@@ -1,334 +1,197 | |||
|
1 | 1 | using System; |
|
2 | using System.Collections.Generic; | |
|
3 | using System.Linq; | |
|
4 | using System.Text; | |
|
5 | 2 | using System.Threading; |
|
6 | using System.Diagnostics; | |
|
7 | 3 | |
|
8 | 4 | namespace Implab.Parallels { |
|
9 | 5 | public abstract class DispatchPool<TUnit> : IDisposable { |
|
10 | readonly int m_minThreads; | |
|
11 | readonly int m_maxThreads; | |
|
6 | readonly int m_minThreadsLimit; | |
|
7 | readonly int m_maxThreadsLimit; | |
|
8 | readonly int m_releaseTimeout = 1000; // the timeout while the working thread will wait for the new tasks before exit | |
|
12 | 9 | |
|
13 |
int m_ |
|
|
14 | int m_activeThreads = 0; // the count of threads which are active | |
|
15 | int m_sleepingThreads = 0; // the count of currently inactive threads | |
|
16 | int m_maxRunningThreads = 0; // the meximum reached size of the pool | |
|
17 | int m_exitRequired = 0; // the pool is going to shutdown, all unused workers are released | |
|
18 | int m_releaseTimeout = 100; // the timeout while the working thread will wait for the new tasks before exit | |
|
19 | int m_wakeEvents = 0; // the count of wake events | |
|
10 | int m_threads; // the current size of the pool | |
|
11 | int m_maxRunningThreads; // the meximum reached size of the pool | |
|
12 | int m_exit; // the pool is going to shutdown, all unused workers are released | |
|
20 | 13 | |
|
21 | AutoResetEvent m_hasTasks = new AutoResetEvent(false); | |
|
14 | readonly object m_signal = new object(); // used to pulse waiting threads | |
|
22 | 15 | |
|
23 | 16 | protected DispatchPool(int min, int max) { |
|
24 | 17 | if (min < 0) |
|
25 | 18 | throw new ArgumentOutOfRangeException("min"); |
|
26 | 19 | if (max <= 0) |
|
27 | 20 | throw new ArgumentOutOfRangeException("max"); |
|
28 | 21 | |
|
29 | 22 | if (min > max) |
|
30 | 23 | min = max; |
|
31 | m_minThreads = min; | |
|
32 | m_maxThreads = max; | |
|
24 | m_minThreadsLimit = min; | |
|
25 | m_maxThreadsLimit = max; | |
|
33 | 26 | } |
|
34 | 27 | |
|
35 | 28 | protected DispatchPool(int threads) |
|
36 | 29 | : this(threads, threads) { |
|
37 | 30 | } |
|
38 | 31 | |
|
39 | 32 | protected DispatchPool() { |
|
40 | int maxThreads, maxCP; | |
|
41 | ThreadPool.GetMaxThreads(out maxThreads, out maxCP); | |
|
42 | 33 | |
|
43 | m_minThreads = 0; | |
|
44 |
m_maxThreads = |
|
|
34 | m_minThreadsLimit = 0; | |
|
35 | m_maxThreadsLimit = Environment.ProcessorCount; | |
|
45 | 36 | } |
|
46 | 37 | |
|
47 | 38 | protected void InitPool() { |
|
48 | for (int i = 0; i < m_minThreads; i++) | |
|
39 | for (int i = 0; i < m_minThreadsLimit; i++) | |
|
49 | 40 | StartWorker(); |
|
50 | 41 | } |
|
51 | 42 | |
|
52 | 43 | public int PoolSize { |
|
53 | 44 | get { |
|
54 | return m_createdThreads; | |
|
55 | } | |
|
56 | } | |
|
57 | ||
|
58 | public int ActiveThreads { | |
|
59 | get { | |
|
60 | return m_activeThreads; | |
|
45 | Thread.MemoryBarrier(); | |
|
46 | return m_threads; | |
|
61 | 47 | } |
|
62 | 48 | } |
|
63 | 49 | |
|
64 | 50 | public int MaxRunningThreads { |
|
65 | 51 | get { |
|
52 | Thread.MemoryBarrier(); | |
|
66 | 53 | return m_maxRunningThreads; |
|
67 | 54 | } |
|
68 | 55 | } |
|
69 | 56 | |
|
70 | 57 | protected bool IsDisposed { |
|
71 | 58 | get { |
|
72 | return m_exitRequired != 0; | |
|
59 | Thread.MemoryBarrier(); | |
|
60 | return m_exit == 1; | |
|
73 | 61 | } |
|
74 | 62 | } |
|
75 | 63 | |
|
76 | 64 | protected abstract bool TryDequeue(out TUnit unit); |
|
77 | 65 | |
|
78 | #region thread execution traits | |
|
79 | int SignalThread() { | |
|
80 | var signals = Interlocked.Increment(ref m_wakeEvents); | |
|
81 | if(signals == 1) | |
|
82 | m_hasTasks.Set(); | |
|
83 | return signals; | |
|
66 | bool Dequeue(out TUnit unit, int timeout) { | |
|
67 | int ts = Environment.TickCount; | |
|
68 | if (TryDequeue(out unit)) | |
|
69 | return true; | |
|
70 | lock (m_signal) { | |
|
71 | while (!TryDequeue(out unit) && m_exit == 0) | |
|
72 | if(!Monitor.Wait(m_signal, Math.Max(0, ts + timeout - Environment.TickCount))) { | |
|
73 | // timeout | |
|
74 | return false; | |
|
84 | 75 | } |
|
85 | ||
|
86 | bool FetchSignalOrWait(int timeout) { | |
|
87 | var start = Environment.TickCount; | |
|
88 | ||
|
89 | // означает, что поток владеет блокировкой и при успешном получении сигнала должен | |
|
90 | // ее вернуть, чтобы другой ожидающий поток смог | |
|
91 | bool hasLock = false; | |
|
92 | do { | |
|
93 | int signals; | |
|
94 | do { | |
|
95 | signals = m_wakeEvents; | |
|
96 | if (signals == 0) | |
|
97 | break; | |
|
98 | } while (Interlocked.CompareExchange(ref m_wakeEvents, signals - 1, signals) != signals); | |
|
99 | ||
|
100 | if (signals >= 1) { | |
|
101 | if (signals > 1 && hasLock) | |
|
102 | m_hasTasks.Set(); | |
|
76 | // queue item or terminate | |
|
77 | Monitor.Pulse(m_signal); | |
|
78 | if (m_exit == 1) | |
|
79 | return false; | |
|
80 | } | |
|
103 | 81 |
|
|
104 | 82 |
|
|
105 | 83 | |
|
106 | if (timeout != -1) | |
|
107 | timeout = Math.Max(0, timeout - (Environment.TickCount - start)); | |
|
108 | ||
|
109 | // если сигналов больше не осталось, то первый поток, который дошел сюда сбросит событие | |
|
110 | // и уйдет на пустой цикл, после чего заблокируется | |
|
111 | ||
|
112 | hasLock = true; | |
|
113 | } while (m_hasTasks.WaitOne(timeout)); | |
|
114 | ||
|
115 | return false; | |
|
116 | } | |
|
117 | ||
|
118 | bool Sleep(int timeout) { | |
|
119 | Interlocked.Increment(ref m_sleepingThreads); | |
|
120 | if (FetchSignalOrWait(timeout)) { | |
|
121 | Interlocked.Decrement(ref m_sleepingThreads); | |
|
122 | return true; | |
|
123 | } else { | |
|
124 | Interlocked.Decrement(ref m_sleepingThreads); | |
|
125 | return false; | |
|
126 | } | |
|
84 | protected void SignalThread() { | |
|
85 | lock (m_signal) { | |
|
86 | Monitor.Pulse(m_signal); | |
|
127 | 87 | } |
|
128 | #endregion | |
|
129 | ||
|
130 | /// <summary> | |
|
131 | /// Запускает либо новый поток, если раньше не было ни одного потока, либо устанавливает событие пробуждение одного спящего потока | |
|
132 | /// </summary> | |
|
133 | protected void GrowPool() { | |
|
134 | if (m_exitRequired != 0) | |
|
135 | return; | |
|
136 | if (m_sleepingThreads > m_wakeEvents) { | |
|
137 | //Console.WriteLine("Waking threads (sleeps {0}, pending {1})", m_sleepingThreads, m_wakeEvents); | |
|
138 | ||
|
139 | // all sleeping threads may gone | |
|
140 | SignalThread(); // wake a sleeping thread; | |
|
141 | ||
|
142 | // we can't check whether signal has been processed | |
|
143 | // anyway it may take some time for the thread to start | |
|
144 | // we will ensure that at least one thread is running | |
|
145 | ||
|
146 | EnsurePoolIsAlive(); | |
|
147 | } else { | |
|
148 | // if there is no sleeping threads in the pool | |
|
149 | if (!StartWorker()) { | |
|
150 | // we haven't started a new thread, but the current can be on the way to terminate and it can't process the queue | |
|
151 | // send it a signal to spin again | |
|
152 | SignalThread(); | |
|
153 | EnsurePoolIsAlive(); | |
|
154 | } | |
|
155 | } | |
|
156 | } | |
|
157 | ||
|
158 | protected void EnsurePoolIsAlive() { | |
|
159 | if (AllocateThreadSlot(1)) { | |
|
160 | // if there were no threads in the pool | |
|
161 | var worker = new Thread(this.Worker); | |
|
162 | worker.IsBackground = true; | |
|
163 | worker.Start(); | |
|
164 | } | |
|
165 | } | |
|
166 | ||
|
167 | protected virtual bool Suspend() { | |
|
168 | //no tasks left, exit if the thread is no longer needed | |
|
169 | bool last; | |
|
170 | bool requestExit; | |
|
171 | ||
|
172 | // if threads have a timeout before releasing | |
|
173 | if (m_releaseTimeout > 0) | |
|
174 | requestExit = !Sleep(m_releaseTimeout); | |
|
175 | else | |
|
176 | requestExit = true; | |
|
177 | ||
|
178 | if (!requestExit) | |
|
179 | return true; | |
|
180 | ||
|
181 | // release unsused thread | |
|
182 | if (requestExit && ReleaseThreadSlot(out last)) { | |
|
183 | // in case at the moment the last thread was being released | |
|
184 | // a new task was added to the queue, we need to try | |
|
185 | // to revoke the thread to avoid the situation when the task is left unprocessed | |
|
186 | if (last && FetchSignalOrWait(0)) { // FetchSignalOrWait(0) will fetch pending task or will return false | |
|
187 | SignalThread(); // since FetchSignalOrWait(0) has fetched the signal we need to reschedule it | |
|
188 | return AllocateThreadSlot(1); // ensure that at least one thread is alive | |
|
189 | } | |
|
190 | ||
|
191 | return false; | |
|
192 | } | |
|
193 | ||
|
194 | // wait till infinity | |
|
195 | Sleep(-1); | |
|
196 | ||
|
197 | return true; | |
|
198 | 88 | } |
|
199 | 89 | |
|
200 | 90 | #region thread slots traits |
|
201 | 91 | |
|
202 | 92 | bool AllocateThreadSlot() { |
|
203 | 93 | int current; |
|
204 | 94 | // use spins to allocate slot for the new thread |
|
205 | 95 | do { |
|
206 |
current = m_ |
|
|
207 |
if (current >= m_maxThreads || m_exit |
|
|
96 | current = m_threads; | |
|
97 | if (current >= m_maxThreadsLimit || m_exit == 1) | |
|
208 | 98 | // no more slots left or the pool has been disposed |
|
209 | 99 | return false; |
|
210 |
} while (current != Interlocked.CompareExchange(ref m_ |
|
|
100 | } while (current != Interlocked.CompareExchange(ref m_threads, current + 1, current)); | |
|
211 | 101 | |
|
212 | 102 | UpdateMaxThreads(current + 1); |
|
213 | 103 | |
|
214 | 104 | return true; |
|
215 | 105 | } |
|
216 | 106 | |
|
217 | 107 | bool AllocateThreadSlot(int desired) { |
|
218 |
if (desired - 1 != Interlocked.CompareExchange(ref m_ |
|
|
108 | if (desired - 1 != Interlocked.CompareExchange(ref m_threads, desired, desired - 1)) | |
|
219 | 109 | return false; |
|
220 | 110 | |
|
221 | 111 | UpdateMaxThreads(desired); |
|
222 | 112 | |
|
223 | 113 | return true; |
|
224 | 114 | } |
|
225 | 115 | |
|
226 | 116 | bool ReleaseThreadSlot(out bool last) { |
|
227 | 117 | last = false; |
|
228 | 118 | int current; |
|
229 | 119 | // use spins to release slot for the new thread |
|
120 | Thread.MemoryBarrier(); | |
|
230 | 121 | do { |
|
231 |
current = m_ |
|
|
232 |
if (current <= m_minThreads && m_exit |
|
|
122 | current = m_threads; | |
|
123 | if (current <= m_minThreadsLimit && m_exit == 0) | |
|
233 | 124 | // the thread is reserved |
|
234 | 125 | return false; |
|
235 |
} while (current != Interlocked.CompareExchange(ref m_ |
|
|
126 | } while (current != Interlocked.CompareExchange(ref m_threads, current - 1, current)); | |
|
236 | 127 | |
|
237 | 128 | last = (current == 1); |
|
238 | 129 | |
|
239 | 130 | return true; |
|
240 | 131 | } |
|
241 | 132 | |
|
242 | /// <summary> | |
|
243 | /// releases thread slot unconditionally, used during cleanup | |
|
244 | /// </summary> | |
|
245 | /// <returns>true - no more threads left</returns> | |
|
246 | bool ReleaseThreadSlotAnyway() { | |
|
247 | var left = Interlocked.Decrement(ref m_createdThreads); | |
|
248 | return left == 0; | |
|
249 | } | |
|
250 | ||
|
251 | 133 | void UpdateMaxThreads(int count) { |
|
252 | 134 | int max; |
|
253 | 135 | do { |
|
254 | 136 | max = m_maxRunningThreads; |
|
255 | 137 | if (max >= count) |
|
256 | 138 | break; |
|
257 | 139 | } while(max != Interlocked.CompareExchange(ref m_maxRunningThreads, count, max)); |
|
258 | 140 | } |
|
259 | 141 | |
|
260 | 142 | #endregion |
|
261 | 143 | |
|
262 | bool StartWorker() { | |
|
144 | protected bool StartWorker() { | |
|
263 | 145 | if (AllocateThreadSlot()) { |
|
264 | 146 | // slot successfully allocated |
|
265 |
var worker = new Thread( |
|
|
147 | var worker = new Thread(Worker); | |
|
266 | 148 | worker.IsBackground = true; |
|
267 | 149 | worker.Start(); |
|
268 | 150 | |
|
269 | 151 | return true; |
|
270 |
} |
|
|
152 | } | |
|
271 | 153 |
|
|
272 | 154 |
|
|
273 | } | |
|
274 | 155 | |
|
275 | 156 | protected abstract void InvokeUnit(TUnit unit); |
|
276 | 157 | |
|
277 | 158 | protected virtual void Worker() { |
|
278 | 159 | TUnit unit; |
|
279 | //Console.WriteLine("{0}: Active", Thread.CurrentThread.ManagedThreadId); | |
|
280 | Interlocked.Increment(ref m_activeThreads); | |
|
160 | bool last; | |
|
281 | 161 | do { |
|
282 | // exit if requested | |
|
283 | if (m_exitRequired != 0) { | |
|
284 | // release the thread slot | |
|
285 | Interlocked.Decrement(ref m_activeThreads); | |
|
286 | if (ReleaseThreadSlotAnyway()) // it was the last worker | |
|
287 | m_hasTasks.Dispose(); | |
|
288 | else | |
|
289 | SignalThread(); // wake next worker | |
|
162 | while (Dequeue(out unit, m_releaseTimeout)) { | |
|
163 | InvokeUnit(unit); | |
|
164 | } | |
|
165 | if(!ReleaseThreadSlot(out last)) | |
|
166 | continue; | |
|
167 | // queue may be not empty | |
|
168 | if (last && TryDequeue(out unit)) { | |
|
169 | InvokeUnit(unit); | |
|
170 | if (AllocateThreadSlot(1)) | |
|
171 | continue; | |
|
172 | // we can safely exit since pool is alive | |
|
173 | } | |
|
290 | 174 |
|
|
175 | } while(true); | |
|
291 | 176 |
|
|
292 | 177 | |
|
293 | // fetch task | |
|
294 | if (TryDequeue(out unit)) { | |
|
295 | InvokeUnit(unit); | |
|
296 | continue; | |
|
297 | } | |
|
298 | Interlocked.Decrement(ref m_activeThreads); | |
|
299 | ||
|
300 | // entering suspend state | |
|
301 | // keep this thread and wait | |
|
302 | if (!Suspend()) | |
|
303 | break; | |
|
304 | //Console.WriteLine("{0}: Awake", Thread.CurrentThread.ManagedThreadId); | |
|
305 | Interlocked.Increment(ref m_activeThreads); | |
|
306 | } while (true); | |
|
307 | //Console.WriteLine("{0}: Exited", Thread.CurrentThread.ManagedThreadId); | |
|
308 | } | |
|
309 | 178 | |
|
310 | 179 | protected virtual void Dispose(bool disposing) { |
|
311 | 180 | if (disposing) { |
|
312 | if (m_exitRequired == 0) { | |
|
313 | if (Interlocked.CompareExchange(ref m_exitRequired, 1, 0) != 0) | |
|
314 | return; | |
|
315 | ||
|
181 | if (0 == Interlocked.CompareExchange(ref m_exit, 1, 0)) { // implies memory barrier | |
|
316 | 182 | // wake sleeping threads |
|
317 | if (m_createdThreads > 0) | |
|
318 | 183 |
|
|
319 | else | |
|
320 | m_hasTasks.Dispose(); | |
|
321 | 184 | GC.SuppressFinalize(this); |
|
322 | 185 | } |
|
323 | 186 | } |
|
324 | 187 | } |
|
325 | 188 | |
|
326 | 189 | public void Dispose() { |
|
327 | 190 | Dispose(true); |
|
328 | 191 | } |
|
329 | 192 | |
|
330 | 193 | ~DispatchPool() { |
|
331 | 194 | Dispose(false); |
|
332 | 195 | } |
|
333 | 196 | } |
|
334 | 197 | } |
@@ -1,75 +1,143 | |||
|
1 | using System; | |
|
1 | using System.Threading; | |
|
2 | 2 | using System.Collections.Generic; |
|
3 |
using System |
|
|
4 |
using System. |
|
|
5 | using System.Threading; | |
|
3 | using System; | |
|
4 | using System.Collections; | |
|
6 | 5 | |
|
7 | 6 | namespace Implab.Parallels { |
|
8 | public class MTQueue<T> { | |
|
7 | public class MTQueue<T> : IEnumerable<T> { | |
|
9 | 8 | class Node { |
|
10 | 9 | public Node(T value) { |
|
11 | 10 | this.value = value; |
|
12 | 11 | } |
|
13 | 12 | public readonly T value; |
|
14 | 13 | public Node next; |
|
15 | 14 | } |
|
16 | 15 | |
|
17 | 16 | Node m_first; |
|
18 | 17 | Node m_last; |
|
19 | 18 | |
|
20 | 19 | public void Enqueue(T value) { |
|
20 | Thread.MemoryBarrier(); | |
|
21 | ||
|
21 | 22 | var last = m_last; |
|
22 | 23 | var next = new Node(value); |
|
23 | 24 | |
|
25 | // Interlocaked.CompareExchange implies Thread.MemoryBarrier(); | |
|
26 | // to ensure that the next node is completely constructed | |
|
24 | 27 | while (last != Interlocked.CompareExchange(ref m_last, next, last)) |
|
25 | 28 | last = m_last; |
|
26 | 29 | |
|
27 | 30 | if (last != null) |
|
28 | 31 | last.next = next; |
|
29 | 32 | else |
|
30 | 33 | m_first = next; |
|
31 | 34 | } |
|
32 | 35 | |
|
33 | 36 | public bool TryDequeue(out T value) { |
|
34 | 37 | Node first; |
|
35 |
Node next |
|
|
38 | Node next; | |
|
36 | 39 | value = default(T); |
|
37 | 40 | |
|
41 | Thread.MemoryBarrier(); | |
|
38 | 42 | do { |
|
39 | 43 | first = m_first; |
|
40 | 44 | if (first == null) |
|
41 | 45 | return false; |
|
42 | 46 | next = first.next; |
|
43 | 47 | if (next == null) { |
|
44 | 48 | // this is the last element, |
|
45 | 49 | // then try to update the tail |
|
46 | 50 | if (first != Interlocked.CompareExchange(ref m_last, null, first)) { |
|
47 | 51 | // this is the race condition |
|
48 | 52 | if (m_last == null) |
|
49 | 53 | // the queue is empty |
|
50 | 54 | return false; |
|
51 | 55 | // tail has been changed, we need to restart |
|
52 | 56 | continue; |
|
53 | 57 | } |
|
54 | 58 | |
|
55 | 59 | // tail succesfully updated and first.next will never be changed |
|
56 | 60 | // other readers will fail due to inconsistency m_last != m_fist && m_first.next == null |
|
57 | 61 | // however the parallel writer may update the m_first since the m_last is null |
|
58 | 62 | |
|
59 | 63 | // so we need to fix inconsistency by setting m_first to null or if it has been |
|
60 | 64 | // updated by the writer already then we should just to give up |
|
61 | 65 | Interlocked.CompareExchange(ref m_first, null, first); |
|
62 | 66 | break; |
|
63 | 67 | |
|
64 |
} |
|
|
68 | } | |
|
65 | 69 |
|
|
66 | 70 |
|
|
67 | 71 |
|
|
68 | } | |
|
69 | 72 | } while (true); |
|
70 | 73 | |
|
71 | 74 | value = first.value; |
|
72 | 75 | return true; |
|
73 | 76 | } |
|
77 | ||
|
78 | #region IEnumerable implementation | |
|
79 | ||
|
80 | class Enumerator : IEnumerator<T> { | |
|
81 | Node m_current; | |
|
82 | Node m_first; | |
|
83 | ||
|
84 | public Enumerator(Node first) { | |
|
85 | m_first = first; | |
|
86 | } | |
|
87 | ||
|
88 | #region IEnumerator implementation | |
|
89 | ||
|
90 | public bool MoveNext() { | |
|
91 | m_current = m_current == null ? m_first : m_current.next; | |
|
92 | return m_current != null; | |
|
93 | } | |
|
94 | ||
|
95 | public void Reset() { | |
|
96 | m_current = null; | |
|
97 | } | |
|
98 | ||
|
99 | object IEnumerator.Current { | |
|
100 | get { | |
|
101 | if (m_current == null) | |
|
102 | throw new InvalidOperationException(); | |
|
103 | return m_current.value; | |
|
74 | 104 | } |
|
75 | 105 | } |
|
106 | ||
|
107 | #endregion | |
|
108 | ||
|
109 | #region IDisposable implementation | |
|
110 | ||
|
111 | public void Dispose() { | |
|
112 | } | |
|
113 | ||
|
114 | #endregion | |
|
115 | ||
|
116 | #region IEnumerator implementation | |
|
117 | ||
|
118 | public T Current { | |
|
119 | get { | |
|
120 | if (m_current == null) | |
|
121 | throw new InvalidOperationException(); | |
|
122 | return m_current.value; | |
|
123 | } | |
|
124 | } | |
|
125 | ||
|
126 | #endregion | |
|
127 | } | |
|
128 | ||
|
129 | public IEnumerator<T> GetEnumerator() { | |
|
130 | return new Enumerator(m_first); | |
|
131 | } | |
|
132 | ||
|
133 | #endregion | |
|
134 | ||
|
135 | #region IEnumerable implementation | |
|
136 | ||
|
137 | IEnumerator IEnumerable.GetEnumerator() { | |
|
138 | return GetEnumerator(); | |
|
139 | } | |
|
140 | ||
|
141 | #endregion | |
|
142 | } | |
|
143 | } |
|
1 | NO CONTENT: modified file | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: modified file | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: modified file | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: modified file | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: modified file | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: file was removed |
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1 | NO CONTENT: file was removed |
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1 | NO CONTENT: file was removed |
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1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
|
1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
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1 | NO CONTENT: file was removed | |
The requested commit or file is too big and content was truncated. Show full diff |
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