void QFStageConfigWidgetThread::run() { stopped=false; while (!stopped) { nextInstruction(); msleep(THREAD_TIMEOUT); } }
void controlUI() { if (game.state == GAME) { if (intrp.running && testButton(PSP_CTRL_CROSS,1)) stopProgram(); } if (game.state != GAME_FUNC_SETTING) return; // Function selector ui.func_selected += testButton(PSP_CTRL_RTRIGGER,1) - testButton(PSP_CTRL_LTRIGGER,1); ui.func_selected += FUNC_NBR * ((ui.func_selected < 0) - (ui.func_selected >= FUNC_NBR)); // Matrix selector ui.matrix_x += testButton(PSP_CTRL_RIGHT,1) - testButton(PSP_CTRL_LEFT,1); ui.matrix_y += testButton(PSP_CTRL_DOWN,1) - testButton(PSP_CTRL_UP,1); ui.matrix_x += MATRIX_W * ((ui.matrix_x < 0) - (ui.matrix_x >= MATRIX_W)); ui.matrix_y += MATRIX_H * ((ui.matrix_y < 0) - (ui.matrix_y >= MATRIX_H)); if (testButton(PSP_CTRL_CROSS,1)) { game.func_matrix[ui.matrix_x][ui.matrix_y] = ui.func_selected + 1; nextInstruction(); } else if (testButton(PSP_CTRL_CIRCLE,1)) game.func_matrix[ui.matrix_x][ui.matrix_y] = 0; else if (testButton(PSP_CTRL_SELECT,1)) clearFuncMatrix(); }
void Iterator::interpretInstruction() { // Interpret the instruction. mOperations.interpretInstruction(*mInstruction, *mState); // Leave the instruction. mCallback->onInstructionExit(*mInstruction); if (mInstruction == --(*mBasicBlock)->end()) { mCallback->onBasicBlockExit(**mBasicBlock); if (mBasicBlock == --(*mFunction)->end()) { (*mFunction)->updateOutputState(); mCallback->onFunctionExit(**mFunction); if (mFunction == --mModule.end()) { mModule.updateGlobalState(); mCallback->onModuleExit(); } } } // Move to the next instruction. nextInstruction(); }
void Z80::simulateFrame() { while ( m_cyclesSinceLastFrame <= (1.0/50.0) / CLOCK_TIME ) { nextInstruction(); } m_cyclesSinceLastFrame = 0; }
// Initializes the data, gets the first instruction, and gets // first token void secondPass(FILE* infile, FILE* outfile, FILE* bfile){ binfile = bfile; outputBuffer[16] = 0; initScanner(infile, outfile); spAddress = DEFAULT_START_ADDRESS; spNotDone = nextInstruction(); spToken = nextToken(); program(); }
// The purported end of an instruction has been reached, so // check for the newline, get the next instruction, get // its first token, and increment the address counter. void finishInstruction(){ spToken = nextToken(); accept(TC_NEWLINE, "Too many tokens in instruction."); spNotDone = nextInstruction(); if (spNotDone){ spAddress++; spToken = nextToken(); } }
GlyphViewerDialogExtension::GlyphViewerDialogExtension (QWidget* parent) : GlyphViewerDialogExtensionBase (parent) { connect( buttonFirstInstruction, SIGNAL( clicked() ), parent, SLOT( firstInstruction() ) ); connect( buttonBackInstruction, SIGNAL( clicked() ), parent, SLOT( backInstruction() ) ); connect( buttonPreviousInstruction, SIGNAL( clicked() ), parent, SLOT( previousInstruction() ) ); connect( buttonNextInstruction, SIGNAL( clicked() ), parent, SLOT( nextInstruction() ) ); connect( buttonForwardInstruction, SIGNAL( clicked() ), parent, SLOT( forwardInstruction() ) ); connect( buttonLastInstruction, SIGNAL( clicked() ), parent, SLOT( lastInstruction() ) ); connect( buttonStackViewer, SIGNAL( clicked() ), parent, SLOT( openStackViewer() ) ); connect( buttonStorageViewer, SIGNAL( clicked() ), parent, SLOT( openStorageViewer() ) ); connect( buttonCVTViewer, SIGNAL( clicked() ), parent, SLOT( openCVTViewer() ) ); connect( buttonGraphicsStateViewer, SIGNAL( clicked() ), parent, SLOT( openGraphicsStateViewer() ) ); }
Instruction* ReturnInstruction::execute(ExecutionThread *executor, bool *wait) { Q_UNUSED(wait); Q_UNUSED(executor); setRunning(true); if (m_valid && statement) { ProgramVariables *vars = scheme()->variables(); drzewo_skladn *t = statement->syntacticTree(); if (t) { result = execute_statement(this, t, vars); scheme()->setFunctionReturnValue(result); qDebug() << "return value=" << result.toString(); } } setRunning(false); return nextInstruction(); }
void Iterator::initialize() { mInitialized = true; nextInstruction(); }
/* * START THE VM */ void startVM(Vm* vm) { vm->PC = 0; while (charArrayToInt(0,2,vm->IR) != 99) { nextInstruction(vm); switch (charArrayToInt(0,2,vm->IR)) { case 0: o0(vm); break; case 1: o1(vm); break; case 2: o2(vm); break; case 3: o3(vm); break; case 4: o4(vm); break; case 5: o5(vm); break; case 6: o6(vm); break; case 7: o7(vm); break; case 8: o8(vm); break; case 9: o9(vm); break; case 10: o10(vm); break; case 11: o11(vm); break; case 12: o12(vm); break; case 13: o13(vm); break; case 14: o14(vm); break; case 15: o15(vm); break; case 16: o16(vm); break; case 17: o17(vm); break; case 18: o18(vm); break; case 19: o19(vm); break; case 20: o20(vm); break; case 21: o21(vm); break; case 22: o22(vm); break; case 23: o23(vm); break; case 24: o24(vm); break; case 25: o25(vm); break; case 26: o26(vm); break; case 27: o27(vm); break; case 28: o28(vm); break; case 29: o29(vm); break; case 30: o30(vm); break; case 31: o31(vm); break; case 32: o32(vm); break; case 33: o33(vm); break; case 34: o34(vm); break; case 35: o35(vm); break; case 99: o99(vm); break; default: // Code break; } displayVmFinal(vm); } }