@@ -0,0 +1,8 | |||
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1 | using System; | |
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2 | ||
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3 | namespace Implab.Components { | |
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4 | public interface IFactory<out T> { | |
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5 | T Create(); | |
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6 | } | |
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7 | } | |
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8 |
@@ -0,0 +1,141 | |||
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1 | using System; | |
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2 | using Implab.Parsing; | |
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3 | ||
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4 | namespace Implab.Components { | |
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5 | public class RunnableComponent : Disposable, IRunnable, IInitializable { | |
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6 | class Automaton : DFAutomaton<ExecutionState> { | |
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7 | static readonly EDFADefinition<ExecutionState> _dfa; | |
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8 | ||
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9 | static Automaton() { | |
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10 | ||
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11 | var token = Token | |
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12 | .New(ExecutionState.Uninitialized).Optional() // we can skip uninitialized state | |
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13 | .Cat( | |
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14 | Token.New(ExecutionState.Ready) // uninitialized -> initial | |
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15 | .Cat( | |
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16 | Token.New(ExecutionState.Starting) // initial -> starting | |
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17 | .Cat( | |
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18 | Token.New(ExecutionState.Running) // running -> {stopping -> stopped | failed } | |
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19 | .Cat( | |
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20 | Token.New(ExecutionState.Stopping) // running -> stopping | |
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21 | .Cat( | |
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22 | Token.New(ExecutionState.Stopped) // stopping -> stopped | |
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23 | .Or(Token.New(ExecutionState.Failed)) // stopping -> failed | |
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24 | ) | |
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25 | .Or(Token.New(ExecutionState.Failed)) // running -> failed | |
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26 | ) | |
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27 | .Or(Token.New(ExecutionState.Failed)) // starting -> failed | |
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28 | ).EClosure() | |
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29 | ) | |
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30 | .Or(Token.New(ExecutionState.Failed)) // uninitialized->failed | |
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31 | .Cat(Token.New(ExecutionState.Disposed).Tag(0)) // ... -> disposed | |
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32 | ); | |
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33 | ||
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34 | var builder = new DFABuilder(); | |
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35 | token.Accept(builder); | |
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36 | ||
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37 | var _dfa = new EDFADefinition<ExecutionState>(EnumAlphabet<ExecutionState>.FullAlphabet); | |
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38 | builder.BuildDFA(_dfa); // don't optimize dfa to avoid remapping of the alphabet | |
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39 | ||
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40 | } | |
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41 | ||
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42 | public Automaton() : base(_dfa.States, INITIAL_STATE, ExecutionState.Reserved) { | |
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43 | } | |
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44 | ||
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45 | public void MoveTo(ExecutionState state) { | |
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46 | ||
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47 | if (!CanMove((int)state)) | |
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48 | throw new InvalidOperationException(String.Format("Illegal state transition from {0} to {1}", Current, state)); | |
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49 | Move((int)state); | |
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50 | m_context.info = state; | |
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51 | } | |
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52 | ||
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53 | public ExecutionState Current { | |
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54 | get { | |
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55 | return (ExecutionState)m_context.info; | |
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56 | } | |
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57 | } | |
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58 | } | |
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59 | ||
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60 | readonly Automaton m_automaton = new Automaton(); | |
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61 | IPromise m_pending; | |
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62 | Exception m_lastError; | |
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63 | ||
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64 | protected RunnableComponent(bool initialized) { | |
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65 | if (initialized) | |
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66 | m_automaton.MoveTo(ExecutionState.Ready); | |
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67 | else | |
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68 | m_automaton.MoveTo(ExecutionState.Uninitialized); | |
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69 | } | |
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70 | ||
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71 | #region IInitializable implementation | |
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72 | ||
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73 | public void Init() { | |
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74 | ||
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75 | } | |
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76 | ||
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77 | #endregion | |
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78 | ||
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79 | #region IRunnable implementation | |
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80 | ||
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81 | public IPromise Start() { | |
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82 | return Safe.InvokePromise(() => { | |
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83 | Promise promise; | |
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84 | lock (m_automaton) { | |
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85 | if (m_automaton.Current == ExecutionState.Starting) | |
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86 | return m_pending; | |
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87 | m_automaton.MoveTo(ExecutionState.Starting); | |
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88 | m_pending = promise = new Promise(); | |
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89 | } | |
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90 | ||
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91 | var start = Safe.InvokePromise(OnStart); | |
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92 | promise.On(null, null, start.Cancel); | |
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93 | start.On(promise.Resolve, promise.Reject, promise.CancelOperation); | |
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94 | ||
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95 | return promise.Then(() => { | |
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96 | lock(m_automaton) { | |
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97 | m_automaton.MoveTo(ExecutionState.Running); | |
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98 | m_pending = null; | |
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99 | } | |
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100 | ||
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101 | Run(); | |
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102 | }, err => { | |
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103 | if (BeginTransition(RUNNING_REQUIRE)) { | |
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104 | m_lastError = err; | |
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105 | CompleteTransition(FAILED_STATE); | |
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106 | throw new PromiseTransientException(err); | |
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107 | } | |
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108 | throw new OperationCanceledException(); | |
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109 | }, reason => { | |
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110 | throw new OperationCanceledException("The operation was cancelled", reason); | |
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111 | }); | |
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112 | }); | |
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113 | } | |
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114 | ||
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115 | protected virtual IPromise OnStart() { | |
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116 | return Promise.SUCCESS; | |
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117 | } | |
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118 | ||
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119 | protected virtual void Run() { | |
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120 | } | |
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121 | ||
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122 | public IPromise Stop() { | |
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123 | throw new NotImplementedException(); | |
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124 | } | |
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125 | ||
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126 | public ExecutionState State { | |
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127 | get { | |
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128 | throw new NotImplementedException(); | |
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129 | } | |
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130 | } | |
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131 | ||
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132 | public Exception LastError { | |
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133 | get { | |
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134 | throw new NotImplementedException(); | |
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135 | } | |
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136 | } | |
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137 | ||
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138 | #endregion | |
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139 | } | |
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140 | } | |
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141 |
@@ -12,27 +12,12 namespace Implab.Fx { | |||
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12 | 12 | m_target = target; |
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13 | 13 | } |
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14 | 14 | |
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15 |
protected override void Signal |
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15 | protected override void SignalHandler(HandlerDescriptor handler, int signal) { | |
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16 | 16 | if (m_target.InvokeRequired) |
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17 |
m_target.BeginInvoke(new Action<Promise<T>.HandlerDescriptor>(base.Signal |
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18 | else | |
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19 | base.SignalSuccess(handler); | |
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20 | } | |
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21 | ||
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22 | protected override void SignalCancelled(Promise<T>.HandlerDescriptor handler, Exception reason) { | |
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23 | if (m_target.InvokeRequired) | |
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24 | m_target.BeginInvoke(new Action<Promise<T>.HandlerDescriptor,Exception>(base.SignalCancelled), handler, reason); | |
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17 | m_target.BeginInvoke(new Action<Promise<T>.HandlerDescriptor, int>(base.SignalHandler), handler, signal); | |
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25 | 18 | else |
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26 |
base.Signal |
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19 | base.SignalHandler(handler, signal); | |
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27 | 20 | } |
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28 | ||
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29 | protected override void SignalError(Promise<T>.HandlerDescriptor handler, Exception error) { | |
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30 | if (m_target.InvokeRequired) | |
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31 | m_target.BeginInvoke(new Action<Promise<T>.HandlerDescriptor,Exception>(base.SignalError), handler, error); | |
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32 | else | |
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33 | base.SignalError(handler, error); | |
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34 | } | |
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35 | ||
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36 | 21 | } |
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37 | 22 | } |
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38 | 23 |
@@ -8,9 +8,9 namespace Implab { | |||
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8 | 8 | |
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9 | 9 | const int UNRESOLVED_SATE = 0; |
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10 | 10 | const int TRANSITIONAL_STATE = 1; |
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11 | const int SUCCEEDED_STATE = 2; | |
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12 | const int REJECTED_STATE = 3; | |
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13 | const int CANCELLED_STATE = 4; | |
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11 | protected const int SUCCEEDED_STATE = 2; | |
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12 | protected const int REJECTED_STATE = 3; | |
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13 | protected const int CANCELLED_STATE = 4; | |
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14 | 14 | |
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15 | 15 | const int CANCEL_NOT_REQUESTED = 0; |
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16 | 16 | const int CANCEL_REQUESTING = 1; |
@@ -22,7 +22,8 namespace Implab { | |||
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22 | 22 | Exception m_error; |
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23 | 23 | int m_handlersCount; |
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24 | 24 | |
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25 | readonly THandler[] m_handlers = new THandler[RESERVED_HANDLERS_COUNT]; | |
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25 | //readonly THandler[] m_handlers = new THandler[RESERVED_HANDLERS_COUNT]; | |
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26 | THandler[] m_handlers; | |
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26 | 27 | MTQueue<THandler> m_extraHandlers; |
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27 | 28 | int m_handlerPointer = -1; |
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28 | 29 | int m_handlersCommited; |
@@ -60,7 +61,7 namespace Implab { | |||
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60 | 61 | |
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61 | 62 | protected void EndSetResult() { |
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62 | 63 | CompleteTransit(SUCCEEDED_STATE); |
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63 |
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64 | Signal(); | |
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64 | 65 | } |
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65 | 66 | |
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66 | 67 | |
@@ -78,14 +79,13 namespace Implab { | |||
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78 | 79 | protected void SetError(Exception error) { |
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79 | 80 | if (BeginTransit()) { |
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80 | 81 | if (error is OperationCanceledException) { |
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82 | m_error = error.InnerException; | |
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81 | 83 | CompleteTransit(CANCELLED_STATE); |
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82 | m_error = error.InnerException; | |
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83 | OnCancelled(); | |
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84 | 84 | } else { |
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85 | 85 | m_error = error is PromiseTransientException ? error.InnerException : error; |
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86 | 86 | CompleteTransit(REJECTED_STATE); |
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87 | OnError(); | |
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88 | 87 | } |
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88 | Signal(); | |
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89 | 89 | } else { |
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90 | 90 | WaitTransition(); |
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91 | 91 | if (m_state == SUCCEEDED_STATE) |
@@ -101,22 +101,18 namespace Implab { | |||
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101 | 101 | if (BeginTransit()) { |
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102 | 102 | m_error = reason; |
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103 | 103 | CompleteTransit(CANCELLED_STATE); |
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104 |
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104 | Signal(); | |
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105 | 105 | } |
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106 | 106 | } |
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107 | 107 | |
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108 |
protected abstract void Signal |
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109 | ||
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110 | protected abstract void SignalError(THandler handler, Exception error); | |
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108 | protected abstract void SignalHandler(THandler handler, int signal); | |
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111 | 109 | |
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112 | protected abstract void SignalCancelled(THandler handler, Exception reason); | |
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113 | ||
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114 | void OnSuccess() { | |
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110 | void Signal() { | |
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115 | 111 | var hp = m_handlerPointer; |
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116 | 112 | var slot = hp +1 ; |
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117 | 113 | while (slot < m_handlersCommited) { |
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118 | 114 | if (Interlocked.CompareExchange(ref m_handlerPointer, slot, hp) == hp) { |
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119 |
Signal |
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115 | SignalHandler(m_handlers[slot], m_state); | |
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120 | 116 | } |
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121 | 117 | hp = m_handlerPointer; |
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122 | 118 | slot = hp +1 ; |
@@ -126,43 +122,7 namespace Implab { | |||
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126 | 122 | if (m_extraHandlers != null) { |
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127 | 123 | THandler handler; |
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128 | 124 | while (m_extraHandlers.TryDequeue(out handler)) |
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129 |
Signal |
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130 | } | |
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131 | } | |
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132 | ||
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133 | void OnError() { | |
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134 | var hp = m_handlerPointer; | |
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135 | var slot = hp +1 ; | |
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136 | while (slot < m_handlersCommited) { | |
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137 | if (Interlocked.CompareExchange(ref m_handlerPointer, slot, hp) == hp) { | |
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138 | SignalError(m_handlers[slot],m_error); | |
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139 | } | |
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140 | hp = m_handlerPointer; | |
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141 | slot = hp +1 ; | |
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142 | } | |
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143 | ||
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144 | if (m_extraHandlers != null) { | |
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145 | THandler handler; | |
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146 | while (m_extraHandlers.TryDequeue(out handler)) | |
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147 | SignalError(handler, m_error); | |
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148 | } | |
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149 | } | |
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150 | ||
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151 | void OnCancelled() { | |
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152 | var hp = m_handlerPointer; | |
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153 | var slot = hp +1 ; | |
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154 | while (slot < m_handlersCommited) { | |
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155 | if (Interlocked.CompareExchange(ref m_handlerPointer, slot, hp) == hp) { | |
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156 | SignalCancelled(m_handlers[slot], m_error); | |
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157 | } | |
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158 | hp = m_handlerPointer; | |
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159 | slot = hp +1 ; | |
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160 | } | |
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161 | ||
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162 | if (m_extraHandlers != null) { | |
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163 | THandler handler; | |
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164 | while (m_extraHandlers.TryDequeue(out handler)) | |
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165 | SignalCancelled(handler, m_error); | |
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125 | SignalHandler(handler, m_state); | |
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166 | 126 | } |
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167 | 127 | } |
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168 | 128 | |
@@ -194,12 +154,15 namespace Implab { | |||
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194 | 154 | |
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195 | 155 | if (m_state > 1) { |
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196 | 156 | // the promise is in the resolved state, just invoke the handler |
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197 |
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157 | SignalHandler(handler, m_state); | |
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198 | 158 | } else { |
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199 | 159 | var slot = Interlocked.Increment(ref m_handlersCount) - 1; |
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200 | 160 | |
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201 | 161 | if (slot < RESERVED_HANDLERS_COUNT) { |
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202 | 162 | |
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163 | if (slot == 0) | |
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164 | Interlocked.CompareExchange(ref m_handlers, new THandler[RESERVED_HANDLERS_COUNT], null); | |
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165 | ||
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203 | 166 | m_handlers[slot] = handler; |
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204 | 167 | |
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205 | 168 | while (slot != Interlocked.CompareExchange(ref m_handlersCommited, slot + 1, slot)) { |
@@ -212,7 +175,7 namespace Implab { | |||
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212 | 175 | if (slot < m_handlersCommited) { |
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213 | 176 | if (Interlocked.CompareExchange(ref m_handlerPointer, slot, hp) != hp) |
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214 | 177 | continue; |
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215 |
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178 | SignalHandler(m_handlers[slot], m_state); | |
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216 | 179 | } |
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217 | 180 | break; |
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218 | 181 | } while(true); |
@@ -233,24 +196,8 namespace Implab { | |||
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233 | 196 | // therefore we need to fetch a handler from the queue and execute it |
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234 | 197 | // note that fetched handler may be not the one that we have added |
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235 | 198 | // even we can fetch no handlers at all :) |
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236 |
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237 | } | |
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238 | } | |
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199 | SignalHandler(handler, m_state); | |
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239 | 200 | } |
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240 | ||
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241 | protected void InvokeHandler(THandler handler) { | |
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242 | switch (m_state) { | |
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243 | case SUCCEEDED_STATE: | |
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244 | SignalSuccess(handler); | |
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245 | break; | |
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246 | case CANCELLED_STATE: | |
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247 | SignalCancelled(handler, m_error); | |
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248 | break; | |
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249 | case REJECTED_STATE: | |
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250 | SignalError(handler, m_error); | |
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251 | break; | |
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252 | default: | |
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253 | throw new Exception(String.Format("Invalid promise state {0}", m_state)); | |
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254 | 201 | } |
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255 | 202 | } |
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256 | 203 |
@@ -71,16 +71,20 namespace Implab { | |||
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71 | 71 | |
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72 | 72 | #region implemented abstract members of AbstractPromise |
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73 | 73 | |
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74 |
protected override void Signal |
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74 | protected override void SignalHandler(HandlerDescriptor handler, int signal) { | |
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75 | switch (signal) { | |
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76 | case SUCCEEDED_STATE: | |
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75 | 77 | handler.SignalSuccess(); |
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78 | break; | |
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79 | case REJECTED_STATE: | |
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80 | handler.SignalError(Error); | |
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81 | break; | |
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82 | case CANCELLED_STATE: | |
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83 | handler.SignalCancel(CancellationReason); | |
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84 | break; | |
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85 | default: | |
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86 | throw new InvalidOperationException(String.Format("Invalid promise signal: {0}", signal)); | |
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76 | 87 | } |
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77 | ||
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78 | protected override void SignalError(HandlerDescriptor handler, Exception error) { | |
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79 | handler.SignalError(error); | |
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80 | } | |
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81 | ||
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82 | protected override void SignalCancelled(HandlerDescriptor handler, Exception reason) { | |
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83 | handler.SignalCancel(reason); | |
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84 | 88 | } |
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85 | 89 | |
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86 | 90 | protected override Signal GetResolveSignal() { |
@@ -175,16 +175,20 namespace Implab { | |||
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175 | 175 | return signal; |
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176 | 176 | } |
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177 | 177 | |
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178 |
protected override void Signal |
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178 | protected override void SignalHandler(HandlerDescriptor handler, int signal) { | |
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179 | switch (signal) { | |
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180 | case SUCCEEDED_STATE: | |
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179 | 181 | handler.SignalSuccess(m_result); |
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182 | break; | |
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183 | case REJECTED_STATE: | |
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184 | handler.SignalError(Error); | |
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185 | break; | |
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186 | case CANCELLED_STATE: | |
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187 | handler.SignalCancel(CancellationReason); | |
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188 | break; | |
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189 | default: | |
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190 | throw new InvalidOperationException(String.Format("Invalid promise signal: {0}", signal)); | |
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180 | 191 | } |
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181 | ||
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182 | protected override void SignalError(HandlerDescriptor handler, Exception error) { | |
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183 | handler.SignalError(error); | |
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184 | } | |
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185 | ||
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186 | protected override void SignalCancelled(HandlerDescriptor handler, Exception reason) { | |
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187 | handler.SignalCancel(reason); | |
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188 | 192 | } |
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189 | 193 | |
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190 | 194 | #endregion |
@@ -1,8 +1,9 | |||
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1 | 1 | namespace Implab.Components { |
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2 | 2 | |
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3 | 3 | public enum ExecutionState { |
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4 | Reserved = 0, | |
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4 | 5 | Uninitialized, |
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5 |
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6 | Ready, | |
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6 | 7 | Starting, |
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7 | 8 | Running, |
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8 | 9 | Stopping, |
@@ -182,6 +182,8 | |||
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182 | 182 | <Compile Include="Components\App.cs" /> |
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183 | 183 | <Compile Include="Components\IRunnable.cs" /> |
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184 | 184 | <Compile Include="Components\ExecutionState.cs" /> |
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185 | <Compile Include="Components\RunnableComponent.cs" /> | |
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186 | <Compile Include="Components\IFactory.cs" /> | |
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185 | 187 | </ItemGroup> |
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186 | 188 | <Import Project="$(MSBuildBinPath)\Microsoft.CSharp.targets" /> |
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187 | 189 | <ItemGroup /> |
@@ -1,13 +1,9 | |||
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1 | 1 | using Implab.Parsing; |
|
2 | using System; | |
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3 | using System.Collections.Generic; | |
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4 | 2 | using System.Linq; |
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5 | using System.Text; | |
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6 | using System.Threading.Tasks; | |
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7 | 3 | |
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8 | 4 | namespace Implab.JSON { |
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9 |
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|
10 |
public enum TokenType |
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5 | class JSONGrammar : Grammar<JSONGrammar> { | |
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6 | public enum TokenType { | |
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11 | 7 | None, |
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12 | 8 | BeginObject, |
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13 | 9 | EndObject, |
@@ -1,12 +1,7 | |||
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1 | using Implab; | |
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2 | using Implab.Parsing; | |
|
1 | using Implab.Parsing; | |
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3 | 2 | using System; |
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4 | using System.Collections.Generic; | |
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5 | 3 | using System.Diagnostics; |
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6 | 4 | using System.IO; |
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7 | using System.Linq; | |
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8 | using System.Text; | |
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9 | using System.Threading.Tasks; | |
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10 | 5 | |
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11 | 6 | namespace Implab.JSON { |
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12 | 7 | /// <summary> |
@@ -192,11 +187,10 namespace Implab.JSON { | |||
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192 | 187 | if (m_memberContext == MemberContext.MemberName) { |
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193 | 188 | m_context.info.memberName = (string)tokenValue; |
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194 | 189 | break; |
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195 |
} |
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|
190 | } | |
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196 | 191 |
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197 | 192 |
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198 | 193 |
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199 | } | |
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200 | 194 | case JsonTokenType.Number: |
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201 | 195 | m_elementType = JSONElementType.Value; |
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202 | 196 | m_elementValue = tokenValue; |
@@ -11,7 +11,7 namespace Implab.Parsing { | |||
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11 | 11 | public const int UNCLASSIFIED = 0; |
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12 | 12 | |
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13 | 13 | int m_nextId = 1; |
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14 | int[] m_map; | |
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14 | readonly int[] m_map; | |
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15 | 15 | |
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16 | 16 | public int Count { |
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17 | 17 | get { return m_nextId; } |
@@ -1,9 +1,4 | |||
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1 |
using |
|
|
2 | using System; | |
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3 | using System.Collections.Generic; | |
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4 | using System.Linq; | |
|
5 | using System.Text; | |
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6 | using System.Threading.Tasks; | |
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1 | using System; | |
|
7 | 2 | |
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8 | 3 | namespace Implab.Parsing { |
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9 | 4 | public class AltToken: BinaryToken { |
@@ -7,7 +7,7 using System.Threading.Tasks; | |||
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7 | 7 | |
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8 | 8 | namespace Implab.Parsing { |
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9 | 9 | public class CDFADefinition : DFADefinitionBase { |
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10 | Alphabet m_alphabet; | |
|
10 | readonly Alphabet m_alphabet; | |
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11 | 11 | |
|
12 | 12 | public Alphabet Alphabet { |
|
13 | 13 | get { return m_alphabet; } |
@@ -1,9 +1,4 | |||
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1 |
using |
|
|
2 | using System; | |
|
3 | using System.Collections.Generic; | |
|
4 | using System.Linq; | |
|
5 | using System.Text; | |
|
6 | using System.Threading.Tasks; | |
|
1 | using System; | |
|
7 | 2 | |
|
8 | 3 | namespace Implab.Parsing { |
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9 | 4 | public class CatToken : BinaryToken { |
@@ -166,7 +166,7 namespace Implab.Parsing { | |||
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166 | 166 | |
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167 | 167 | int[] GetStateTags(HashSet<int> state) { |
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168 | 168 | Debug.Assert(state != null); |
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169 |
return state.Where( |
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|
169 | return state.Where(m_ends.ContainsKey).Select(pos => m_ends[pos]).ToArray(); | |
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170 | 170 | } |
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171 | 171 | |
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172 | 172 | int DefineState(IDFADefinition automa, HashSet<int> state) { |
@@ -15,7 +15,7 namespace Implab.Parsing { | |||
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15 | 15 | |
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16 | 16 | DFAStateDescriptior[] m_statesArray; |
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17 | 17 | |
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18 |
p |
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18 | protected DFADefinitionBase() { | |
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19 | 19 | m_states = new List<DFAStateDescriptior>(); |
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20 | 20 | |
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21 | 21 | m_states.Add(new DFAStateDescriptior()); |
@@ -47,7 +47,7 namespace Implab.Parsing { | |||
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47 | 47 | |
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48 | 48 | public int AddState(int[] tag) { |
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49 | 49 | var index = m_states.Count; |
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50 |
bool final = tag |
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50 | bool final = tag != null && tag.Length != 0; | |
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51 | 51 | m_states.Add(new DFAStateDescriptior { |
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52 | 52 | final = final, |
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53 | 53 | transitions = new int[AlphabetSize], |
@@ -139,7 +139,7 namespace Implab.Parsing { | |||
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139 | 139 | |
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140 | 140 | // строим карты соотвествия оптимальных состояний с оригинальными |
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141 | 141 | |
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142 |
var initialState = optimalStates. |
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|
142 | var initialState = optimalStates.Single(x => x.Contains(INITIAL_STATE)); | |
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143 | 143 | |
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144 | 144 | // карта получения оптимального состояния по соотвествующему ему простому состоянию |
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145 | 145 | int[] reveseOptimalMap = new int[m_states.Count]; |
@@ -184,9 +184,7 namespace Implab.Parsing { | |||
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184 | 184 | foreach (var term in A) { |
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185 | 185 | // ищем все переходы класса по символу term |
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186 | 186 | var s2 = reveseOptimalMap[ |
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187 |
optimalMap[s].Select(x => m_states[x].transitions[term]) // все элементарн |
|
|
188 | .Where(x => x != 0) // только допустимые | |
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189 | .FirstOrDefault() // первое допустимое элементарное состояние, если есть | |
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187 | optimalMap[s].Select(x => m_states[x].transitions[term]).FirstOrDefault(x => x != 0) // первое допустимое элементарное состояние, если есть | |
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190 | 188 | ]; |
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191 | 189 | |
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192 | 190 | HashSet<int> A2; |
@@ -52,5 +52,10 namespace Implab.Parsing { | |||
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52 | 52 | Debug.Assert(input > 0 && input < m_context.states[m_context.current].transitions.Length); |
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53 | 53 | m_context.current = m_context.states[m_context.current].transitions[input]; |
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54 | 54 | } |
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55 | ||
|
56 | protected bool CanMove(int input) { | |
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57 | Debug.Assert(input > 0 && input < m_context.states[m_context.current].transitions.Length); | |
|
58 | return m_context.states[m_context.current].transitions[input] != UNREACHEBLE_STATE; | |
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55 | 59 | } |
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56 | 60 | } |
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61 | } |
@@ -1,20 +1,15 | |||
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1 | 1 | using Implab; |
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2 | 2 | using System; |
|
3 | using System.Collections.Generic; | |
|
4 | using System.Linq; | |
|
5 | using System.Text; | |
|
6 | using System.Threading.Tasks; | |
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7 | 3 | |
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8 | 4 | namespace Implab.Parsing { |
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9 | 5 | public class EDFADefinition<T> : DFADefinitionBase where T : struct, IConvertible { |
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10 | EnumAlphabet<T> m_alphabet; | |
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6 | readonly EnumAlphabet<T> m_alphabet; | |
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11 | 7 | |
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12 | 8 | public EnumAlphabet<T> Alphabet { |
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13 | 9 | get { return m_alphabet; } |
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14 | 10 | } |
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15 | 11 | |
|
16 | public EDFADefinition(EnumAlphabet<T> alphabet) | |
|
17 | : base() { | |
|
12 | public EDFADefinition(EnumAlphabet<T> alphabet) { | |
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18 | 13 | Safe.ArgumentNotNull(alphabet, "alphabet"); |
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19 | 14 | m_alphabet = alphabet; |
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20 | 15 | } |
@@ -1,11 +1,9 | |||
|
1 |
using |
|
|
2 | using System; | |
|
1 | using System; | |
|
3 | 2 | using System.Collections.Generic; |
|
4 | 3 | using System.Diagnostics; |
|
5 | 4 | using System.Globalization; |
|
6 | 5 | using System.Linq; |
|
7 | using System.Text; | |
|
8 | using System.Threading.Tasks; | |
|
6 | using System.Diagnostics.CodeAnalysis; | |
|
9 | 7 | |
|
10 | 8 | namespace Implab.Parsing { |
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11 | 9 | /// <summary> |
@@ -13,10 +11,11 namespace Implab.Parsing { | |||
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13 | 11 | /// </summary> |
|
14 | 12 | /// <typeparam name="T">Тип перечислений</typeparam> |
|
15 | 13 | public class EnumAlphabet<T> : AlphabetBase<T> where T : struct, IConvertible { |
|
14 | [SuppressMessage("Microsoft.Design", "CA1000:DoNotDeclareStaticMembersOnGenericTypes")] | |
|
16 | 15 | static readonly T[] _symbols; |
|
17 | 16 | static readonly EnumAlphabet<T> _fullAlphabet; |
|
18 | 17 | |
|
19 |
[S |
|
|
18 | [SuppressMessage("Microsoft.Design", "CA1065:DoNotRaiseExceptionsInUnexpectedLocations")] | |
|
20 | 19 | static EnumAlphabet() { |
|
21 | 20 | if (!typeof(T).IsEnum) |
|
22 | 21 | throw new InvalidOperationException("Invalid generic parameter, enumeration is required"); |
@@ -10,16 +10,8 namespace Implab { | |||
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10 | 10 | m_context = context; |
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11 | 11 | } |
|
12 | 12 | |
|
13 |
protected override void Signal |
|
|
14 |
m_context.Post(x => base.Signal |
|
|
15 | } | |
|
16 | ||
|
17 | protected override void SignalError(Promise<T>.HandlerDescriptor handler, Exception error) { | |
|
18 | m_context.Post(x => base.SignalError(handler, error), null); | |
|
19 | } | |
|
20 | ||
|
21 | protected override void SignalCancelled(Promise<T>.HandlerDescriptor handler, Exception reason) { | |
|
22 | m_context.Post(x => base.SignalCancelled(handler, reason), null); | |
|
13 | protected override void SignalHandler(HandlerDescriptor handler, int signal) { | |
|
14 | m_context.Post(x => base.SignalHandler(handler, signal), null); | |
|
23 | 15 | } |
|
24 | 16 | } |
|
25 | 17 | } |
@@ -1,12 +1,5 | |||
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1 | 1 | using System; |
|
2 | using Implab.Diagnostics; | |
|
3 | using Implab.Parallels; | |
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4 | 2 | using Implab; |
|
5 | using System.Collections.Generic; | |
|
6 | using System.Collections.Concurrent; | |
|
7 | using System.Threading; | |
|
8 | using Implab.JSON; | |
|
9 | using System.IO; | |
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10 | 3 | using System.Threading.Tasks; |
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11 | 4 | |
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12 | 5 | namespace MonoPlay { |
@@ -27,7 +20,10 namespace MonoPlay { | |||
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27 | 20 | } |
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28 | 21 | |
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29 | 22 | static IPromise<int> DoItem(int x) { |
|
30 | return Promise<int>.FromResult(x + 1); | |
|
23 | //return Promise<int>.FromResult(x + 1); | |
|
24 | var p = new Promise<int>(); | |
|
25 | p.Resolve(x+1); | |
|
26 | return p; | |
|
31 | 27 | } |
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32 | 28 | |
|
33 | 29 | static async Task<int> DoWork() { |
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