/* ScummVM - Scumm Interpreter * Copyright (C) 2004-2005 The ScummVM project * * The ReInherit Engine is (C)2000-2003 by Daniel Balsom. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * * $Header$ * */ // Scripting module: Script resource handling functions #include "saga/saga.h" #include "saga/gfx.h" #include "saga/rscfile_mod.h" #include "saga/console.h" #include "saga/script.h" #include "saga/stream.h" #include "saga/interface.h" #include "saga/itedata.h" #include "saga/scene.h" #include "saga/events.h" #include "saga/actor.h" #include "saga/objectmap.h" #include "saga/isomap.h" namespace Saga { // Initializes the scripting module. // Loads script resource look-up table, initializes script data system Script::Script(SagaEngine *vm) : _vm(vm){ RSCFILE_CONTEXT *resourceContext; byte *resourcePointer; size_t resourceLength; int prevTell; int result; int i, j; byte *stringsPointer; size_t stringsLength; //initialize member variables _dbg_thread = 0; _dbg_singlestep = 0; _scriptContext = 0; _voiceLUTPresent = false; _abortEnabled = true; _skipSpeeches = false; _conversingThread = NULL; _firstObjectSet = false; _secondObjectNeeded = false; _pendingVerb = kVerbNone; _currentVerb = kVerbNone; _stickyVerb = kVerbWalkTo; _leftButtonVerb = kVerbNone; _rightButtonVerb = kVerbNone; _pointerObject = ID_NOTHING; _staticSize = 0; _commonBufferSize = COMMON_BUFFER_SIZE; _commonBuffer = (byte*)malloc(_commonBufferSize); memset(_commonBuffer, 0, _commonBufferSize); debug(8, "Initializing scripting subsystem"); // Load script resource file context _scriptContext = _vm->getFileContext(GAME_SCRIPTFILE, 0); if (_scriptContext == NULL) { error("Script::Script() Couldn't get script file context"); } resourceContext = _vm->getFileContext(GAME_RESOURCEFILE, 0); if (resourceContext == NULL) { error("Script::Script() Couldn't get resource file context"); } debug(3, "Loading module LUT from resource %u.", _vm->getResourceDescription()->moduleLUTResourceId); result = RSC_LoadResource(resourceContext, _vm->getResourceDescription()->moduleLUTResourceId, &resourcePointer, &resourceLength); if (result != SUCCESS) { error("Script::Script() Couldn't load module LUT resource"); } // Create logical script LUT from resource if (resourceLength % S_LUT_ENTRYLEN_ITECD == 0) { _modulesLUTEntryLen = S_LUT_ENTRYLEN_ITECD; } else if (resourceLength % S_LUT_ENTRYLEN_ITEDISK == 0) { _modulesLUTEntryLen = S_LUT_ENTRYLEN_ITEDISK; } else { error("Script::Script() Invalid script lookup table length (%d)", resourceLength); } // Calculate number of entries _modulesCount = resourceLength / _modulesLUTEntryLen; debug(3, "LUT has %d entries.", _modulesCount); // Allocate space for logical LUT _modules = (ModuleData *)malloc(_modulesCount * sizeof(*_modules)); if (_modules == NULL) { memoryError("Script::Script()"); } // Convert LUT resource to logical LUT MemoryReadStreamEndian scriptS(resourcePointer, resourceLength, IS_BIG_ENDIAN); for (i = 0; i < _modulesCount; i++) { memset(&_modules[i], 0, sizeof(ModuleData)); prevTell = scriptS.pos(); _modules[i].scriptResourceId = scriptS.readUint16(); _modules[i].stringsResourceId = scriptS.readUint16(); _modules[i].voicesResourceId = scriptS.readUint16(); if (_modules[i].voicesResourceId > 0) { _voiceLUTPresent = true; } // Skip the unused portion of the structure for (j = scriptS.pos(); j < prevTell + _modulesLUTEntryLen; j++) { if (scriptS.readByte() != 0) warning("Unused scriptLUT part isn't really unused for LUT %d (pos: %d)", i, j); } } RSC_FreeResource(resourcePointer); // TODO // // In ITE, the "main strings" resource contains both the verb strings // and the object names. // // In IHNM, the "main strings" does not contain the verb strings. // Instead, it looks as if the object names are divided over several // different string lists. One per character, perhaps? // // Or maybe I'm looking at the wrong resource. I found the IHNM one by // trial and error... result = RSC_LoadResource(resourceContext, _vm->getResourceDescription()->mainStringsResourceId, &stringsPointer, &stringsLength); if ((result != SUCCESS) || (stringsLength == 0)) { error("Error loading strings list resource"); } _vm->loadStrings(_mainStrings, stringsPointer, stringsLength); RSC_FreeResource(stringsPointer); setupScriptFuncList(); _initialized = true; } // Shut down script module gracefully; free all allocated module resources Script::~Script() { if (!_initialized) { error("Script not initialized"); } debug(8, "Shutting down scripting subsystem."); _mainStrings.freeMem(); freeModules(); free(_modules); free(_commonBuffer); _initialized = false; } void Script::loadModule(int scriptModuleNumber) { byte *resourcePointer; size_t resourceLength; int result; // Validate script number if ((scriptModuleNumber < 0) || (scriptModuleNumber >= _modulesCount)) { error("Script::loadScript() Invalid script module number"); } if (_modules[scriptModuleNumber].loaded) { return; } // Initialize script data structure debug(3, "Loading script module #%d", scriptModuleNumber); result = RSC_LoadResource(_scriptContext, _modules[scriptModuleNumber].scriptResourceId, &resourcePointer, &resourceLength); if (result != SUCCESS) { error("Script::loadModule() unable to load module base resource"); } loadModuleBase(_modules[scriptModuleNumber], resourcePointer, resourceLength); RSC_FreeResource(resourcePointer); result = RSC_LoadResource(_scriptContext, _modules[scriptModuleNumber].stringsResourceId, &resourcePointer, &resourceLength); if ((result != SUCCESS) || (resourceLength == 0)) { error("Script::loadModule() Error loading strings list resource"); } _vm->loadStrings(_modules[scriptModuleNumber].strings, resourcePointer, resourceLength); RSC_FreeResource(resourcePointer); if (_modules[scriptModuleNumber].voicesResourceId > 0) { result = RSC_LoadResource(_scriptContext, _modules[scriptModuleNumber].voicesResourceId, &resourcePointer, &resourceLength); if (result != SUCCESS) { error("Script::loadModule() Error loading voice LUT resource"); } loadModuleVoiceLUT(_modules[scriptModuleNumber], resourcePointer, resourceLength); RSC_FreeResource(resourcePointer); } _modules[scriptModuleNumber].staticOffset = _staticSize; _staticSize += _modules[scriptModuleNumber].staticSize; if (_staticSize > _commonBufferSize) { error("Script::loadModule() _staticSize > _commonBufferSize"); } _modules[scriptModuleNumber].loaded = true; } void Script::freeModules() { int i; for (i = 0; i < _modulesCount; i++) { if (_modules[i].loaded) { _modules[i].freeMem(); } } _staticSize = 0; } void Script::loadModuleBase(ModuleData &module, const byte *resourcePointer, size_t resourceLength) { int i; debug(3, "Loading module base..."); module.moduleBase = (byte*)malloc(resourceLength); module.moduleBaseSize = resourceLength; memcpy(module.moduleBase, resourcePointer, resourceLength); MemoryReadStreamEndian scriptS(module.moduleBase, module.moduleBaseSize, IS_BIG_ENDIAN); module.entryPointsCount = scriptS.readUint16(); scriptS.readUint16(); //skip module.entryPointsTableOffset = scriptS.readUint16(); scriptS.readUint16(); //skip if ((module.moduleBaseSize - module.entryPointsTableOffset) < (module.entryPointsCount * SCRIPT_TBLENTRY_LEN)) { error("Script::loadModuleBase() Invalid table offset"); } if (module.entryPointsCount > SCRIPT_MAX) { error("Script::loadModuleBase()Script limit exceeded"); } module.entryPoints = (EntryPoint *)malloc(module.entryPointsCount * sizeof(*module.entryPoints)); if (module.entryPoints == NULL) { memoryError("Script::loadModuleBase"); } // Read in the entrypoint table module.staticSize = scriptS.readUint16(); while (scriptS.pos() < module.entryPointsTableOffset) scriptS.readByte(); for (i = 0; i < module.entryPointsCount; i++) { // First uint16 is the offset of the entrypoint name from the start // of the bytecode resource, second uint16 is the offset of the // bytecode itself for said entrypoint module.entryPoints[i].nameOffset = scriptS.readUint16(); module.entryPoints[i].offset = scriptS.readUint16(); // Perform a simple range check on offset values if ((module.entryPoints[i].nameOffset >= module.moduleBaseSize) || (module.entryPoints[i].offset >= module.moduleBaseSize)) { error("Script::loadModuleBase() Invalid offset encountered in script entrypoint table"); } } } void Script::loadModuleVoiceLUT(ModuleData &module, const byte *resourcePointer, size_t resourceLength) { uint16 i; module.voiceLUT.voicesCount = resourceLength / 2; if (module.voiceLUT.voicesCount != module.strings.stringsCount) { error("Script::loadModuleVoiceLUT() Voice LUT entries do not match strings entries"); } module.voiceLUT.voices = (uint16 *)malloc(module.voiceLUT.voicesCount * sizeof(*module.voiceLUT.voices)); if (module.voiceLUT.voices == NULL) { error("Script::loadModuleVoiceLUT() not enough memory"); } MemoryReadStreamEndian scriptS(resourcePointer, resourceLength, IS_BIG_ENDIAN); for (i = 0; i < module.voiceLUT.voicesCount; i++) { module.voiceLUT.voices[i] = scriptS.readUint16(); } } void Script::scriptInfo() { /* uint32 n_entrypoints; uint32 i; char *name_ptr; if (currentScript() == NULL) { return; } if (!currentScript()->loaded) { return; } n_entrypoints = currentScript()->bytecode->n_entrypoints; _vm->_console->DebugPrintf("Current script contains %d entrypoints:\n", n_entrypoints); for (i = 0; i < n_entrypoints; i++) { name_ptr = (char *)currentScript()->bytecode->bytecode_p + currentScript()->bytecode->entrypoints[i].name_offset; _vm->_console->DebugPrintf("%lu: %s\n", i, name_ptr); }*/ } void Script::scriptExec(int argc, const char **argv) { /* uint16 ep_num; ep_num = atoi(argv[1]); if (_dbg_thread == NULL) { _vm->_console->DebugPrintf("Creating debug thread...\n"); _dbg_thread = createThread(); if (_dbg_thread == NULL) { _vm->_console->DebugPrintf("Thread creation failed.\n"); return; } } if (ep_num >= currentScript()->bytecode->n_entrypoints) { _vm->_console->DebugPrintf("Invalid entrypoint.\n"); return; } executeThread(_dbg_thread, ep_num);*/ } // verb void Script::showVerb(int statusColor) { const char *verbName; const char *object1Name; const char *object2Name; char statusString[STATUS_TEXT_LEN]; if (_leftButtonVerb == kVerbNone) { _vm->_interface->setStatusText(""); return; } verbName = _mainStrings.getString(_leftButtonVerb - 1); if (objectTypeId(_currentObject[0]) == kGameObjectNone) { _vm->_interface->setStatusText(verbName, statusColor); return; } object1Name = _vm->getObjectName(_currentObject[0]); if (!_secondObjectNeeded) { snprintf(statusString, STATUS_TEXT_LEN, "%s %s", verbName, object1Name); _vm->_interface->setStatusText(statusString, statusColor); return; } if (objectTypeId(_currentObject[1]) != kGameObjectNone) { object2Name = _vm->getObjectName(_currentObject[1]); } else { object2Name = ""; } if (_leftButtonVerb == kVerbGive) { snprintf(statusString, STATUS_TEXT_LEN, "Give %s to %s", object1Name, object2Name); _vm->_interface->setStatusText(statusString, statusColor); } else { if (_leftButtonVerb == kVerbUse) { snprintf(statusString, STATUS_TEXT_LEN, "Use %s with %s", object1Name, object2Name); _vm->_interface->setStatusText(statusString, statusColor); } else { snprintf(statusString, STATUS_TEXT_LEN, "%s %s", verbName, object1Name); _vm->_interface->setStatusText(statusString, statusColor); } } } void Script::setVerb(int verb) { _pendingObject[0] = ID_NOTHING; _currentObject[0] = ID_NOTHING; _pendingObject[1] = ID_NOTHING; _currentObject[1] = ID_NOTHING; _firstObjectSet = false; _secondObjectNeeded = false; // The pointer object will be updated again immediately. This way the // new verb will be applied to it. It's not exactly how the original // engine did it, but it appears to work. _pointerObject = ID_NOTHING; setLeftButtonVerb( verb ); showVerb(); } void Script::setLeftButtonVerb(int verb) { int oldVerb = _currentVerb; _currentVerb = _leftButtonVerb = verb; if ((_currentVerb != oldVerb) && (_vm->_interface->getMode() == kPanelMain)){ if (oldVerb > kVerbNone) _vm->_interface->setVerbState(oldVerb, 2); if (_currentVerb > kVerbNone) _vm->_interface->setVerbState(_currentVerb, 2); } } void Script::setRightButtonVerb(int verb) { int oldVerb = _rightButtonVerb; _rightButtonVerb = verb; if ((_rightButtonVerb != oldVerb) && (_vm->_interface->getMode() == kPanelMain)){ if (oldVerb > kVerbNone) _vm->_interface->setVerbState(oldVerb, 2); if (_rightButtonVerb > kVerbNone) _vm->_interface->setVerbState(_rightButtonVerb, 2); } } void Script::doVerb() { int scriptEntrypointNumber = 0; int scriptModuleNumber = 0; int objectType; EVENT event; const char *excuseText; int excuseSampleResourceId; const HitZone *hitZone; objectType = objectTypeId(_pendingObject[0]); if (_pendingVerb == kVerbGive) { scriptEntrypointNumber = _vm->_actor->getObjectScriptEntrypointNumber(_pendingObject[1]); if (_vm->_actor->getObjectFlags(_pendingObject[1]) & (kFollower|kProtagonist|kExtended)) { scriptModuleNumber = 0; } else { scriptModuleNumber = _vm->_scene->getScriptModuleNumber(); } } else { if (_pendingVerb == kVerbUse) { if ((objectTypeId(_pendingObject[1]) > kGameObjectNone) && (objectType < objectTypeId(_pendingObject[1]))) { SWAP(_pendingObject[0], _pendingObject[1]); objectType = objectTypeId(_pendingObject[0]); } } if (objectType == kGameObjectHitZone) { scriptModuleNumber = _vm->_scene->getScriptModuleNumber(); hitZone = _vm->_scene->_objectMap->getHitZone(objectIdToIndex(_pendingObject[0])); if ((hitZone->getFlags() & kHitZoneExit) == 0) { scriptEntrypointNumber = hitZone->getScriptNumber(); } } else { if (objectType & (kGameObjectActor | kGameObjectObject)) { scriptEntrypointNumber = _vm->_actor->getObjectScriptEntrypointNumber(_pendingObject[0]); if ((objectType == kGameObjectActor) && !(_vm->_actor->getObjectFlags(_pendingObject[0]) & (kFollower|kProtagonist|kExtended))) { scriptModuleNumber = _vm->_scene->getScriptModuleNumber(); } else { scriptModuleNumber = 0; } } } } if (scriptEntrypointNumber > 0) { event.type = ONESHOT_EVENT; event.code = SCRIPT_EVENT; event.op = EVENT_EXEC_NONBLOCKING; event.time = 0; event.param = scriptModuleNumber; event.param2 = scriptEntrypointNumber; event.param3 = _pendingVerb; // Action event.param4 = _pendingObject[0]; // Object event.param5 = _pendingObject[1]; // With Object event.param6 = (objectType == kGameObjectActor) ? _pendingObject[0] : ID_PROTAG; // Actor _vm->_events->queue(&event); } else { _vm->getExcuseInfo(_pendingVerb, excuseText, excuseSampleResourceId); if (excuseText) _vm->_actor->actorSpeech(ID_PROTAG, &excuseText, 1, excuseSampleResourceId, 0); } if ((_currentVerb == kVerbWalkTo) || (_currentVerb == kVerbLookAt)) { _stickyVerb = _currentVerb; } _pendingVerb = kVerbNone; _currentObject[0] = _currentObject[1] = ID_NOTHING; setLeftButtonVerb(_stickyVerb); setPointerVerb(); } void Script::setPointerVerb() { if (_vm->_interface->isActive()) { _pointerObject = ID_PROTAG; whichObject(_vm->mousePos()); } } void Script::hitObject(bool leftButton) { int verb; verb = leftButton ? _leftButtonVerb : _rightButtonVerb; if (verb > kVerbNone) { if (_firstObjectSet) { if (_secondObjectNeeded) { _pendingObject[0] = _currentObject[0]; _pendingObject[1] = _currentObject[1]; _pendingVerb = verb; _leftButtonVerb = verb; if (_pendingVerb > kVerbNone) showVerb(kITEColorBrightWhite); else showVerb(); _secondObjectNeeded = false; _firstObjectSet = false; return; } } else { if (verb == kVerbGive) { _secondObjectNeeded = true; } else { if (verb == kVerbUse) { if (_currentObjectFlags[0] & kObjUseWith) { _secondObjectNeeded = true; } } } if (!_secondObjectNeeded) { _pendingObject[0] = _currentObject[0]; _pendingObject[1] = ID_NOTHING; _pendingVerb = verb; _secondObjectNeeded = false; _firstObjectSet = false; } else { _firstObjectSet = true; } } _leftButtonVerb = verb; if (_pendingVerb > kVerbNone) showVerb(kITEColorBrightWhite); else showVerb(); } } void Script::playfieldClick(const Point& mousePoint, bool leftButton) { Location pickLocation; const HitZone *hitZone; Point specialPoint; _vm->_actor->abortSpeech(); if ((_vm->_actor->_protagonist->currentAction != kActionWait) && (_vm->_actor->_protagonist->currentAction != kActionFreeze) && (_vm->_actor->_protagonist->currentAction != kActionWalkToLink) && (_vm->_actor->_protagonist->currentAction != kActionWalkToPoint)) { return; } if (_pendingVerb > kVerbNone) { setLeftButtonVerb(kVerbWalkTo); } if (_pointerObject != ID_NOTHING) { hitObject( leftButton ); } else { _pendingObject[0] = ID_NOTHING; _pendingObject[1] = ID_NOTHING; _pendingVerb = kVerbWalkTo; } // tiled stuff if (_vm->_scene->getFlags() & kSceneFlagISO) { _vm->_isoMap->screenPointToTileCoords(mousePoint, pickLocation); } else { pickLocation.fromScreenPoint(mousePoint); } hitZone = NULL; if (objectTypeId(_pendingObject[0]) == kGameObjectHitZone) { hitZone = _vm->_scene->_objectMap->getHitZone(objectIdToIndex(_pendingObject[0])); } else { if ((_pendingVerb == kVerbUse) && (objectTypeId(_pendingObject[1]) == kGameObjectHitZone)) { hitZone = _vm->_scene->_objectMap->getHitZone(objectIdToIndex(_pendingObject[1])); } } if (hitZone != NULL) { if (hitZone->getFlags() & kHitZoneNoWalk) { _vm->_actor->actorFaceTowardsPoint(ID_PROTAG, pickLocation); doVerb(); return; } if (hitZone->getFlags() & kHitZoneProject) { if (!hitZone->getSpecialPoint(specialPoint)) { error("Script::playfieldClick SpecialPoint not found"); } // tiled stuff if (_vm->_scene->getFlags() & kSceneFlagISO) { pickLocation.u() = specialPoint.x; pickLocation.v() = specialPoint.y; pickLocation.z = _vm->_actor->_protagonist->location.z; } else { pickLocation.fromScreenPoint(specialPoint); } } } switch (_pendingVerb) { case kVerbWalkTo: case kVerbPickUp: case kVerbOpen: case kVerbClose: case kVerbUse: _vm->_actor->actorWalkTo(ID_PROTAG, pickLocation); break; case kVerbLookAt: if (objectTypeId(_pendingObject[0]) != kGameObjectActor ) { _vm->_actor->actorWalkTo(ID_PROTAG, pickLocation); } else { doVerb(); } break; case kVerbTalkTo: case kVerbGive: doVerb(); break; } } void Script::whichObject(const Point& mousePoint) { uint16 objectId; int16 objectFlags; int newRightButtonVerb; uint16 newObjectId; ActorData *actor; ObjectData *obj; Point pickPoint; Location pickLocation; int hitZoneIndex; const HitZone * hitZone; PanelButton * panelButton; objectId = ID_NOTHING; objectFlags = 0; _leftButtonVerb = _currentVerb; newRightButtonVerb = kVerbNone; if (_vm->_actor->_protagonist->currentAction != kActionWalkDir) { if (_vm->getSceneHeight() >= mousePoint.y) { newObjectId = _vm->_actor->hitTest(mousePoint, true); if (newObjectId != ID_NOTHING) { if (objectTypeId(newObjectId) == kGameObjectObject) { objectId = newObjectId; objectFlags = 0; newRightButtonVerb = kVerbLookAt; if ((_currentVerb == kVerbTalkTo) || ((_currentVerb == kVerbGive) && _firstObjectSet)) { objectId = ID_NOTHING; newObjectId = ID_NOTHING; } } else { actor = _vm->_actor->getActor(newObjectId); objectId = newObjectId; objectFlags = kObjUseWith; newRightButtonVerb = kVerbTalkTo; if ((_currentVerb == kVerbPickUp) || (_currentVerb == kVerbOpen) || (_currentVerb == kVerbClose) || ((_currentVerb == kVerbGive) && !_firstObjectSet) || ((_currentVerb == kVerbUse) && !(actor->flags & kFollower))) { objectId = ID_NOTHING; newObjectId = ID_NOTHING; } } } if (newObjectId == ID_NOTHING) { pickPoint = mousePoint; if (_vm->_scene->getFlags() & kSceneFlagISO) { pickPoint.y -= _vm->_actor->_protagonist->location.z; _vm->_isoMap->screenPointToTileCoords(pickPoint, pickLocation); pickLocation.toScreenPointUV(pickPoint); } hitZoneIndex = _vm->_scene->_objectMap->hitTest(pickPoint); if ((hitZoneIndex != -1)) { hitZone = _vm->_scene->_objectMap->getHitZone(hitZoneIndex); objectId = hitZone->getHitZoneId(); objectFlags = 0; newRightButtonVerb = hitZone->getRightButtonVerb() & 0x7f; if (newRightButtonVerb == kVerbWalkOnly) { if (_firstObjectSet) { objectId = ID_NOTHING; } else { newRightButtonVerb = _leftButtonVerb = kVerbWalkTo; } } else { if (newRightButtonVerb == kVerbLookOnly) { if (_firstObjectSet) { objectId = ID_NOTHING; } else { newRightButtonVerb = _leftButtonVerb = kVerbLookAt; } } } if (newRightButtonVerb >= kVerbOptions) { newRightButtonVerb = kVerbNone; } if ((_currentVerb == kVerbTalkTo) || ((_currentVerb == kVerbGive) && _firstObjectSet)) { objectId = ID_NOTHING; newObjectId = ID_NOTHING; } if ((_leftButtonVerb == kVerbUse) && (hitZone->getRightButtonVerb() & 0x80)) { objectFlags = kObjUseWith; } } } } else { if ((_currentVerb == kVerbTalkTo) || ((_currentVerb == kVerbGive) && _firstObjectSet)) { // no way } else { panelButton = _vm->_interface->inventoryHitTest(mousePoint); if (panelButton) { objectId = _vm->_interface->getInventoryContentByPanelButton(panelButton); if (objectId != 0) { obj = _vm->_actor->getObj(objectId); newRightButtonVerb = kVerbLookAt; if (obj->interactBits & kObjUseWith) { objectFlags = kObjUseWith; } } } } if ((_currentVerb == kVerbPickUp) || (_currentVerb == kVerbTalkTo) || (_currentVerb == kVerbWalkTo)) { _leftButtonVerb = kVerbLookAt; } } } if (objectId != _pointerObject) { _pointerObject = objectId; _currentObject[_firstObjectSet ? 1 : 0] = objectId; _currentObjectFlags[_firstObjectSet ? 1 : 0] = objectFlags; if (_pendingVerb == kVerbNone) { showVerb(); } } if (newRightButtonVerb != _rightButtonVerb) { setRightButtonVerb(newRightButtonVerb); } } // console wrappers void Script::CF_script_togglestep() { _dbg_singlestep = !_dbg_singlestep; } } // End of namespace Saga