/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * */ #include "common/debug.h" #include "sludge/allfiles.h" #include "sludge/variable.h" #include "sludge/moreio.h" #include "sludge/newfatal.h" #include "sludge/stringy.h" #include "sludge/objtypes.h" #include "sludge/people.h" #include "sludge/fileset.h" #include "sludge/sludge.h" namespace Sludge { const char *typeName[] = { "undefined", "number", "user function", "string", "built-in function", "file", "stack", "object type", "animation", "costume" }; extern char *outputDir; void unlinkVar(variable &thisVar) { switch (thisVar.varType) { case SVT_STRING: delete[] thisVar.varData.theString; thisVar.varData.theString = NULL; break; case SVT_STACK: thisVar.varData.theStack->timesUsed--; if (thisVar.varData.theStack->timesUsed <= 0) { while (thisVar.varData.theStack->first) trimStack(thisVar.varData.theStack->first); delete thisVar.varData.theStack; thisVar.varData.theStack = NULL; } break; case SVT_FASTARRAY: thisVar.varData.fastArray->timesUsed--; if (thisVar.varData.theStack->timesUsed <= 0) { delete thisVar.varData.fastArray->fastVariables; delete[] thisVar.varData.fastArray; thisVar.varData.fastArray = NULL; } break; case SVT_ANIM: deleteAnim(thisVar.varData.animHandler); break; default: break; } } void setVariable(variable &thisVar, variableType vT, int value) { unlinkVar(thisVar); thisVar.varType = vT; thisVar.varData.intValue = value; } void newAnimationVariable(variable &thisVar, personaAnimation *i) { unlinkVar(thisVar); thisVar.varType = SVT_ANIM; thisVar.varData.animHandler = i; } personaAnimation *getAnimationFromVar(variable &thisVar) { if (thisVar.varType == SVT_ANIM) return copyAnim(thisVar.varData.animHandler); if (thisVar.varType == SVT_INT && thisVar.varData.intValue == 0) return makeNullAnim(); fatal("Expecting an animation variable; found variable of type", typeName[thisVar.varType]); return NULL; } void newCostumeVariable(variable &thisVar, persona *i) { unlinkVar(thisVar); thisVar.varType = SVT_COSTUME; thisVar.varData.costumeHandler = i; } persona *getCostumeFromVar(variable &thisVar) { persona *p = NULL; switch (thisVar.varType) { case SVT_ANIM: p = new persona; if (!checkNew(p)) return NULL; p->numDirections = 1; p->animation = new personaAnimation *[3]; if (!checkNew(p->animation)) return NULL; for (int iii = 0; iii < 3; iii++) p->animation[iii] = copyAnim(thisVar.varData.animHandler); break; case SVT_COSTUME: return thisVar.varData.costumeHandler; break; default: fatal("Expecting an animation variable; found variable of type", typeName[thisVar.varType]); } return p; } int stackSize(const stackHandler *me) { int r = 0; variableStack *a = me->first; while (a) { r++; a = a->next; } return r; } bool getSavedGamesStack(stackHandler *sH, char *ext) { char *pattern = joinStrings("*", ext); if (!pattern) return false; variable newName; newName.varType = SVT_NULL; #if 0 DIR *dir = opendir("."); if (!dir) return false; struct dirent *d = readdir(dir); while (d != NULL) { if (!strcmp(d->d_name + strlen(d->d_name) - strlen(ext), ext)) { d->d_name[strlen(d->d_name) - strlen(ext)] = 0; char *decoded = decodeFilename(d->d_name); makeTextVar(newName, decoded); delete[] decoded; if (!addVarToStack(newName, sH->first)) return false; if (sH->last == NULL) sH->last = sH->first; } d = readdir(dir); } closedir(dir); #endif delete[] pattern; pattern = NULL; return true; } bool copyStack(const variable &from, variable &to) { to.varType = SVT_STACK; to.varData.theStack = new stackHandler; if (!checkNew(to.varData.theStack)) return false; to.varData.theStack->first = NULL; to.varData.theStack->last = NULL; to.varData.theStack->timesUsed = 1; variableStack *a = from.varData.theStack->first; #if DEBUG_STACKINESS { char *str = getTextFromAnyVar(from); stackDebug((stackfp, "in copyStack, copying %s\n", str)); delete[] str; } #endif while (a) { addVarToStack(a->thisVar, to.varData.theStack->first); if (to.varData.theStack->last == NULL) { #if DEBUG_STACKINESS stackDebug((stackfp, "LAST")); #endif to.varData.theStack->last = to.varData.theStack->first; } #if DEBUG_STACKINESS { char *str = getTextFromAnyVar(a->thisVar); stackDebug((stackfp, "\ta->thisVar = %s (%p)\n", str, to.varData.theStack->first)); delete[] str; } #endif a = a->next; } #if DEBUG_STACKINESS { char *str = getTextFromAnyVar(to); stackDebug((stackfp, "finished copy, got %s\n", str)); delete[] str; stackDebug((stackfp, "first = %p\n", to.varData.theStack->first)); stackDebug((stackfp, "last = %p\n", to.varData.theStack->last)); } #endif return true; } /*void newStackVar (variable & thisVar) { unlinkVar (thisVar); thisVar.varType = VT_STACK; thisVar.varData.theStack = NULL; } */ void addVariablesInSecond(variable &var1, variable &var2) { if (var1.varType == SVT_INT && var2.varType == SVT_INT) { var2.varData.intValue += var1.varData.intValue; } else { char *string1 = getTextFromAnyVar(var1); char *string2 = getTextFromAnyVar(var2); unlinkVar(var2); var2.varData.theString = joinStrings(string1, string2); var2.varType = SVT_STRING; delete[] string1; delete[] string2; } } int compareVars(const variable &var1, const variable &var2) { int re = 0; if (var1.varType == var2.varType) { switch (var1.varType) { case SVT_NULL: re = 1; break; case SVT_COSTUME: re = (var1.varData.costumeHandler == var2.varData.costumeHandler); break; case SVT_ANIM: re = (var1.varData.animHandler == var2.varData.animHandler); break; case SVT_STRING: re = (strcmp(var1.varData.theString, var2.varData.theString) == 0); break; case SVT_STACK: re = (var1.varData.theStack == var2.varData.theStack); break; default: re = (var1.varData.intValue == var2.varData.intValue); } } return re; } void compareVariablesInSecond(const variable &var1, variable &var2) { setVariable(var2, SVT_INT, compareVars(var1, var2)); } void makeTextVar(variable &thisVar, const char *txt) { unlinkVar(thisVar); thisVar.varType = SVT_STRING; thisVar.varData.theString = copyString(txt); } bool loadStringToVar(variable &thisVar, int value) { makeTextVar(thisVar, getNumberedString(value)); return (bool)(thisVar.varData.theString != NULL); } char *getTextFromAnyVar(const variable &from) { switch (from.varType) { case SVT_STRING: return copyString(from.varData.theString); case SVT_FASTARRAY: { char *builder = copyString("FAST:"); char *builder2; char *grabText; for (int i = 0; i < from.varData.fastArray->size; i++) { builder2 = joinStrings(builder, " "); if (!builder2) return NULL; delete builder; grabText = getTextFromAnyVar(from.varData.fastArray->fastVariables[i]); builder = joinStrings(builder2, grabText); if (!builder) return NULL; delete grabText; grabText = NULL; delete builder2; builder2 = NULL; } return builder; } case SVT_STACK: { char *builder = copyString("ARRAY:"); char *builder2; char *grabText; variableStack *stacky = from.varData.theStack->first; while (stacky) { builder2 = joinStrings(builder, " "); if (!builder2) return NULL; delete[] builder; grabText = getTextFromAnyVar(stacky->thisVar); builder = joinStrings(builder2, grabText); if (!builder) return NULL; delete[] grabText; grabText = NULL; delete[] builder2; builder2 = NULL; stacky = stacky->next; } return builder; } case SVT_INT: { char *buff = new char[10]; if (!checkNew(buff)) return NULL; sprintf(buff, "%i", from.varData.intValue); return buff; } case SVT_FILE: { // char * buff = new char[15]; // if (! checkNew (buff)) return NULL; // sprintf (buff, "FILE %i", from.varData.intValue); return joinStrings("", resourceNameFromNum(from.varData.intValue)); } /* case SVT_ANIM: { char * buff = new char[20]; if (! checkNew (buff)) return NULL; sprintf (buff, "%p", from.varData.animHandler); return buff; }*/ case SVT_OBJTYPE: { objectType *thisType = findObjectType(from.varData.intValue); if (thisType) return copyString(thisType->screenName); } default: break; } return copyString(typeName[from.varType]); } bool getBoolean(const variable &from) { switch (from.varType) { case SVT_NULL: return false; case SVT_INT: return (bool)(from.varData.intValue != 0); case SVT_STACK: return (bool)(from.varData.theStack->first != NULL); case SVT_STRING: return (bool)(from.varData.theString[0] != 0); case SVT_FASTARRAY: return (bool)(from.varData.fastArray->size != 0); default: break; } return true; } bool copyMain(const variable &from, variable &to) { to.varType = from.varType; switch (to.varType) { case SVT_INT: case SVT_FUNC: case SVT_BUILT: case SVT_FILE: case SVT_OBJTYPE: to.varData.intValue = from.varData.intValue; return true; case SVT_FASTARRAY: to.varData.fastArray = from.varData.fastArray; to.varData.fastArray->timesUsed++; return true; case SVT_STRING: to.varData.theString = copyString(from.varData.theString); return to.varData.theString ? true : false; case SVT_STACK: to.varData.theStack = from.varData.theStack; to.varData.theStack->timesUsed++; return true; case SVT_COSTUME: to.varData.costumeHandler = from.varData.costumeHandler; return true; case SVT_ANIM: to.varData.animHandler = copyAnim(from.varData.animHandler); return true; case SVT_NULL: return true; default: break; } fatal("Unknown value type"); return false; } bool copyVariable(const variable &from, variable &to) { unlinkVar(to); return copyMain(from, to); } variable *fastArrayGetByIndex(fastArrayHandler *vS, uint theIndex) { if (theIndex < 0 || theIndex >= vS->size) return NULL; return &vS->fastVariables[theIndex]; } bool makeFastArraySize(variable &to, int size) { if (size < 0) return fatal("Can't create a fast array with a negative number of elements!"); unlinkVar(to); to.varType = SVT_FASTARRAY; to.varData.fastArray = new fastArrayHandler; if (!checkNew(to.varData.fastArray)) return false; to.varData.fastArray->fastVariables = new variable[size]; if (!checkNew(to.varData.fastArray->fastVariables)) return false; for (int i = 0; i < size; i++) { initVarNew(to.varData.fastArray->fastVariables[i]); } to.varData.fastArray->size = size; to.varData.fastArray->timesUsed = 1; return true; } bool makeFastArrayFromStack(variable &to, const stackHandler *stacky) { int size = stackSize(stacky); if (!makeFastArraySize(to, size)) return false; // Now let's fill up the new array variableStack *allV = stacky->first; size = 0; while (allV) { copyMain(allV->thisVar, to.varData.fastArray->fastVariables[size]); size++; allV = allV->next; } return true; } /* bool moveVariable (variable & from, variable & to) { unlinkVar (to); memcpy (& to, & from, sizeof (variable)); from.varType = SVT_NULL; } */ bool addVarToStack(const variable &va, variableStack *&thisStack) { variableStack *newStack = new variableStack; if (!checkNew(newStack)) return false; if (!copyMain(va, newStack->thisVar)) return false; newStack->next = thisStack; thisStack = newStack; //debug(kSludgeDebugStackMachine, "Variable %s was added to stack", getTextFromAnyVar(va)); return true; } bool addVarToStackQuick(variable &va, variableStack *&thisStack) { variableStack *newStack = new variableStack; if (!checkNew(newStack)) return false; // if (! copyMain (va, newStack -> thisVar)) return false; memcpy(&(newStack->thisVar), &va, sizeof(variable)); va.varType = SVT_NULL; newStack->next = thisStack; thisStack = newStack; //debug(kSludgeDebugStackMachine, "Variable %s was added to stack quick", getTextFromAnyVar(va)); return true; } bool stackSetByIndex(variableStack *vS, uint theIndex, const variable &va) { while (theIndex--) { vS = vS->next; if (!vS) return fatal("Index past end of stack."); } return copyVariable(va, vS->thisVar); } variable *stackGetByIndex(variableStack *vS, uint theIndex) { while (theIndex--) { vS = vS->next; if (!vS) { return NULL; } } return &(vS->thisVar); } int deleteVarFromStack(const variable &va, variableStack *&thisStack, bool allOfEm) { variableStack **huntVar = &thisStack; variableStack *killMe; int reply = 0; while (*huntVar) { if (compareVars((*huntVar)->thisVar, va)) { killMe = *huntVar; *huntVar = killMe->next; unlinkVar(killMe->thisVar); delete killMe; if (!allOfEm) return 1; reply++; } else { huntVar = &((*huntVar)->next); } } return reply; } // Would be a LOT better just to keep this up to date in the above function... ah well variableStack *stackFindLast(variableStack *hunt) { if (hunt == NULL) return NULL; while (hunt->next) hunt = hunt->next; return hunt; } bool getValueType(int &toHere, variableType vT, const variable &v) { //if (! v) return false; if (v.varType != vT) { Common::String e1 = "Can only perform specified operation on a value which is of type "; e1 += typeName[vT]; Common::String e2 = "... value supplied was of type "; e2 += typeName[v.varType]; fatal(e1, e2); return false; } toHere = v.varData.intValue; return true; } void trimStack(variableStack *&stack) { variableStack *killMe = stack; stack = stack->next; //debug(kSludgeDebugStackMachine, "Variable %s was removed from stack", getTextFromAnyVar(killMe->thisVar)); // When calling this, we've ALWAYS checked that stack != NULL unlinkVar(killMe->thisVar); delete killMe; } } // End of namespace Sludge