git-svn-id: https://svn.microneil.com/svn/CodeDweller/branches/adeniz_1@102 d34b734f-a00e-4b39-a726-e4eeb87269ab

8 년 전 · 2cc85b9b53
--- a/multitasking.cpp
+++ b/multitasking.cpp
@@ -0,0 +1,27 @@
 // multitasking.cpp
 // Copyright 2015 MicroNeil Research Corporation

 #include "multitasking.hpp"

 void MultiTasker::processBatch(size_t n, MultiTaskQueue& q, bool StopOnWait) {
    size_t batchSize = n;
    while(batchSize--) {
        MultiTask& t = q.get();
        switch(t.task()) {
            case Running: { working.put(t); break; }
            case Waiting: { waiting.put(t); if(StopOnWait) return; break; }
            case Finished: { finished.put(t); break; }
        }
    }
 }

 MultiTaskState MultiTasker::task() {
    size_t workingBatchSize = working.size();
    size_t waitingBatchSize = waiting.size();
    processBatch(workingBatchSize, working);
    processBatch(waitingBatchSize, waiting, true);

    if(false == working.empty()) { return Running; }
    else if (false == waiting.empty()) { return Waiting; }
    else { return Finished; }
 }
--- a/multitasking.hpp
+++ b/multitasking.hpp
@@ -0,0 +1,46 @@
 #ifndef M_MultiTasking
 #define M_MultiTasking

 #include <cstddef>
 #include <queue>

 enum MultiTaskState {Running, Waiting, Finished};

 class MultiTask {
  public:
    virtual MultiTaskState task() = 0;
 };

 class MultiTaskQueue : public std::queue<MultiTask*> {
  public:

    void put(MultiTask& T) { push(&T); }
    MultiTask& get() { MultiTask& T = *(front()); pop(); return T; }

 };

 class MultiTasker : public MultiTask {
  private:
    void processBatch(size_t n, MultiTaskQueue& q, bool StopOnWait = false);

  public:
    MultiTaskQueue working;
    MultiTaskQueue waiting;
    MultiTaskQueue finished;
    MultiTaskState task();

    bool isReady() { return (false == working.empty()); }
    bool isWaiting() { return (false == waiting.empty() && true == working.empty()); }
    bool isFinished() { return (true == working.empty() && true == waiting.empty()); }
    bool hasWork() { return (false == isFinished()); }

    size_t completed() { return finished.size(); }
    size_t pending() { return (working.size() + waiting.size()); }
    size_t total() { return (working.size() + waiting.size() + finished.size()); }

    void put(MultiTask& t) { working.put(t); }
    MultiTask& get() { return finished.get(); }
    bool canGet() { return (false == finished.empty()); }
 };

 #endif // M_MultiTasking
--- a/multitaskingExample.cpp
+++ b/multitaskingExample.cpp
@@ -0,0 +1,176 @@
 #include <iostream>
 #include <vector>
 #include <string>
 #include <sstream>
 #include <cstdlib>
 #include "../CodeDweller/timing.hpp"
 #include "multitasking.hpp"

 using namespace std;

 class TaskHistory : public vector<string> {
  public:
    void post(string stuff) {
        push_back(stuff);
    }
 };

 string makeProgressMessage(int m) {
    stringstream messageBuilder;
    messageBuilder << "Making Progress (" << m << ")";
    return messageBuilder.str();
 }

 class TestTask : public MultiTask {
  private:
    string myName;
    TaskHistory& myHistory;
    Timeout myReadyTimeout;

    MultiTaskState task() {
        if(false == myReadyTimeout.isExpired()) return Waiting;
        int myChangedMind = rand() % 100;
        MultiTaskState myNewState = Running;
        switch(myChangedMind) {
            case 0: {
                myHistory.post("I'm Finished!");
                myNewState = Finished;
                break;
            }

            case 1:
            case 3:
            case 5:
            case 51:
            case 53:
            case 55:
            case 71:
            case 73:
            case 75:
            case 9: {
                myHistory.post("I need a nap...");
                myReadyTimeout.restart();
                myNewState = Waiting;
                break;
            }

            default: {
                myHistory.post(makeProgressMessage(myChangedMind));
                myNewState = Running;
                break;
            }
        }
        return myNewState;
    }

    static const int napDuration = 10;

  public:

    TestTask(string theName, TaskHistory& theHistory) :
      myName(theName),
      myHistory(theHistory),
      myReadyTimeout(napDuration) {
    }

    string name() { return myName; }

 };

 void outputHistory(TaskHistory& H) {
    for(vector<string>::iterator s = H.begin(); s != H.end(); ++s) {
        cout << *s << endl;
    }
 }

 int main() {
    unsigned long seed = 1234;
    srand(seed);
    cout << "MultiTasker Demo! seed(" << seed << ")" << endl;

    TaskHistory H0, H1, H2, H3, H4, H5, H6, H7, H8, H9;
    TestTask T0("Random Job 0", H0);
    TestTask T1("Random Job 1", H1);
    TestTask T2("Random Job 2", H2);
    TestTask T3("Random Job 3", H3);
    TestTask T4("Random Job 4", H4);
    TestTask T5("Random Job 5", H5);
    TestTask T6("Random Job 6", H6);
    TestTask T7("Random Job 7", H7);
    TestTask T8("Random Job 8", H8);
    TestTask T9("Random Job 9", H9);

    MultiTasker M0;
    M0.put(T0); cout << "Pending Count: " << M0.pending() << endl;
    M0.put(T1); cout << "Pending Count: " << M0.pending() << endl;
    M0.put(T2); cout << "Pending Count: " << M0.pending() << endl;
    M0.put(T3); cout << "Pending Count: " << M0.pending() << endl;
    M0.put(T4); cout << "Pending Count: " << M0.pending() << endl;
    M0.put(T5); cout << "Pending Count: " << M0.pending() << endl;
    M0.put(T6); cout << "Pending Count: " << M0.pending() << endl;
    M0.put(T7); cout << "Pending Count: " << M0.pending() << endl;
    M0.put(T8); cout << "Pending Count: " << M0.pending() << endl;
    M0.put(T9); cout << "Pending Count: " << M0.pending() << endl;

    PollTimer NothingToDo(10,50);

    while(M0.hasWork()) {
        M0.task();
        cout
            << "In Work: " << M0.pending()
            << ", Working: " << M0.working.size()
            << ", Waiting: " << M0.waiting.size()
            << ", Finished: " << M0.finished.size();

        if(M0.isReady()) {
            cout << endl;
            NothingToDo.reset();
        }
        else if(M0.isWaiting()) {
            cout << " pause..." << endl;
            NothingToDo.pause();
        }
    }

    cout << endl << endl << "M0 Complete Order..." << endl;
    bool firstT = true;
    while(M0.canGet()) {
        TestTask& T = (TestTask&) M0.get();
        if(firstT) { firstT = false; }
        else { cout << ", "; }
        cout << T.name();
    }

    cout << endl << endl << "T0(" << T0.name() << ") History..." << endl;
    outputHistory(H0);

    cout << endl << endl << "T1(" << T1.name() << ") History..." << endl;
    outputHistory(H1);

    cout << endl << endl << "T2(" << T2.name() << ") History..." << endl;
    outputHistory(H2);

    cout << endl << endl << "T3(" << T3.name() << ") History..." << endl;
    outputHistory(H3);

    cout << endl << endl << "T4(" << T4.name() << ") History..." << endl;
    outputHistory(H4);

    cout << endl << endl << "T5(" << T5.name() << ") History..." << endl;
    outputHistory(H5);

    cout << endl << endl << "T6(" << T6.name() << ") History..." << endl;
    outputHistory(H6);

    cout << endl << endl << "T7(" << T7.name() << ") History..." << endl;
    outputHistory(H7);

    cout << endl << endl << "T8(" << T8.name() << ") History..." << endl;
    outputHistory(H8);

    cout << endl << endl << "T9(" << T9.name() << ") History..." << endl;
    outputHistory(H9);

    return 0;
 }