/* * LaGUI: A graphical application framework. * Copyright (C) 2022-2023 Wu Yiming * * 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 3 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, see . */ #include "la_5.h" extern LA MAIN; const char* LA_UDF_EXTENSION_STRINGS[]={ "LA_UDF_EXTENSION_FLOAT32", "LA_UDF_EXTENSION_RAW", "", }; int la_IsThisProp(laProp *p, char *id){ return (!strcmp(p->Identifier, id)); } laProp *la_PropLookup(laListHandle *lst, char *ID){ laProp *p = 0, *ip; if (!lst) return 0; p = lstFindItem(ID, la_IsThisProp, lst); if (!p) if (strSame(ID, "identifier")){ for (ip = lst->pFirst; ip; ip = ip->Item.pNext){ if (ip->Tag & LA_AS_IDENTIFIER) return ip; } } return p; } laProp *la_PropLookupIdentifierItem(laListHandle *lst){ laProp *p; if (!lst) return 0; for (p = lst->pFirst; p; p = p->Item.pNext){ if (p->Tag & LA_AS_IDENTIFIER) return p; elif (la_IsThisProp(p, "identifier")) return p; } return 0; } int la_IsThisContainer(laPropContainer *p, char *id){ return (!strcmp(p->Identifier, id)); } laPropContainer *la_ContainerLookup(char *ID){ laPropContainer* pc= lstFindItem(ID, la_IsThisContainer, &MAIN.PropContainers); return pc; } void la_CopyPropPack(laPropPack* From, laPropPack* To) { laPropStep* ps,*fps,*LastPs=0; To->RawThis = From->RawThis; To->EndInstance = From->EndInstance; la_FreePropStepCache(To->Go); To->Go = To->LastPs = 0; for (fps = From->Go; fps; fps = fps->pNext) { ps = memAcquireSimple(sizeof(laPropStep)); ps->p = fps->p; ps->UseInstance = fps->UseInstance; ps->Type = fps->Type; if (LastPs)LastPs->pNext = ps; else { To->Go = ps; } LastPs = ps; } if(!LastPs){ To->LastPs = From->LastPs; } else{ To->LastPs =LastPs; } } laListHandle* laGetUserList(void* HyperUserMem, laProp* Which, int* IsLocal){ laListHandle* users; if(Which && Which->Container){ laPropContainer* pc=Which->Container; if(pc->OtherAlloc || (!pc->Hyper)){ *IsLocal=1; return &pc->LocalUsers; } } *IsLocal=0; return memGetUserList(HyperUserMem); } laItemUserLinker *laUseDataBlock(void *HyperUserMem, laProp *Which, unsigned int FrameDistinguish, void *User, laUserRemoveFunc Remover, int ForceRecalc){ laItemUserLinker *iul; laItemUserLinkerLocal *iull; int local; if (!HyperUserMem) return 0; laListHandle* users = laGetUserList(HyperUserMem, Which, &local); if(!users) return 0; for (iul = users->pFirst; iul; iul = iul->Pointer.pNext){ if(local && (iull=iul) && iull->Instance!=HyperUserMem) continue; if (iul->Which == Which && iul->Pointer.p == User){ iul->FrameDistinguish = FrameDistinguish; if(ForceRecalc) iul->ForceRecalc = ForceRecalc; return iul; } } iul = lstAppendPointerSized(users, User, local?sizeof(laItemUserLinkerLocal):sizeof(laItemUserLinker)); iul->Which = Which; iul->FrameDistinguish = FrameDistinguish; iul->Remove = Remover; iul->ForceRecalc = ForceRecalc; if(local){ iull=iul; iull->Instance=HyperUserMem; } return iul; } void laStopUsingDataBlock(void *HyperUserMem, laProp *prop, laPanel* p){ laItemUserLinker *iul,*next_iul; laItemUserLinkerLocal *iull; int local; if (!HyperUserMem) return; laListHandle* users = laGetUserList(HyperUserMem, prop, &local); if(!users) return; for (iul = users->pFirst; iul; iul = next_iul){ next_iul = iul->Pointer.pNext; if(local && (iull=iul) && iull->Instance!=HyperUserMem) continue; if (/*prop == iul->Which &&*/ iul->Pointer.p == p||iul->Additional==p){ lstRemoveItem(users,iul); memFree(iul); } } } void laDataBlockNoLongerExists(void *HyperUserMem, laListHandle* UserList){ laItemUserLinker *iul,*next_iul; for (iul = UserList->pFirst; iul; iul = next_iul){ next_iul = iul->Pointer.pNext; iul->Remove(HyperUserMem, iul); lstRemoveItem(UserList,iul); memFree(iul); } } //laProp* la_GetGeneralPropFromPath(laProp* General, const char * Path) { // laProp* p; // laListHandle* lst = &General->Sub; // laStringSplitor* ss = strSplitPathByDot(Path); // laStringPart* sp = ss->parts.pFirst; // // while (sp) { // p = la_PropLookup(lst, sp->Content); // lst = &p->Sub; // sp = sp->Item.pNext; // } // // strDestroyStringSplitor(&ss); // return p; //} //laProp* la_GetPropFromPath(laPropPack* Base,const char * Path) { // laProp* p,*LastP=Base?Base->P:0; // laListHandle* lst; // laStringSplitor* ss = strSplitPathByDot(Path); // laStringPart* sp = ss->parts.pFirst; // // if(!Base || !Base->P) // lst = &MAIN.DataRoot.Root->Sub; // else lst = &Base->P->Sub; // // // while (sp) { // p = la_PropLookup(lst, sp->Content); // if (!p && LastP) { // p = la_PropLookup(&la_GetGeneralProp(LastP)->Sub, sp->Content); // } // LastP = p; // lst = &p->Sub; // sp = sp->Item.pNext; // } // // strDestroyStringSplitor(&ss); // // return p; //} void la_NewPropStep(laPropPack *Self, laProp *P, void *UseInstance, char Type){ laPropStep *ps = memAcquireSimple(sizeof(laPropStep)); if (Type == U'.' || Type == U'$'){ ps->p = P; ps->UseInstance = UseInstance; ps->Type = Type; }elif (Type == U'@' || Type == U'=' || Type == U'#'){ ps->p = CreateNewBuffer(char, strlen(P) + 1); strcpy(ps->p, P); ps->UseInstance = UseInstance; ps->Type = Type; } if (!Self->Go){ Self->Go = ps; Self->LastPs = ps; }else{ Self->LastPs->pNext = ps; Self->LastPs = ps; } } void la_FreePropStepCache(laPropStep *GoTarget){ if (!GoTarget) return; if (GoTarget->pNext){ la_FreePropStepCache(GoTarget->pNext); } if (GoTarget->Type == U'@' || GoTarget->Type == U'=' || GoTarget->Type == U'#') FreeMem(GoTarget->p); memFree(GoTarget); } void *la_FindMatchingInstance(void *From, laProp *Sub, laProp *p, laPropStep *Value){ laPropPack Fake; laPropStep FakePs; laPropIterator pi = {0}; void *Inst; char _buf[LA_RAW_CSTR_MAX_LEN]={0}; char*buf=_buf; int val; Fake.LastPs = &FakePs; FakePs.p = p; Inst = laGetInstance(Sub, From, &pi); if (p->PropertyType == LA_PROP_STRING){ _buf[0] = 0; FakePs.UseInstance = Inst; laGetString(&Fake, _buf, &buf); while (!strSame(buf, Value->p)){ Inst = laGetNextInstance(Sub, Inst, &pi); if (!Inst) return 0; _buf[0] = 0; FakePs.UseInstance = Inst; laGetString(&Fake, _buf, &buf); } return Inst; }elif (p->PropertyType == LA_PROP_INT){ FakePs.UseInstance = Inst; val = laGetInt(&Fake); char buf[64]; int compareval=0; int status=sscanf(buf,"%d",&compareval); while (status && status!=EOF && val != compareval){ Inst = laGetNextInstance(Sub, From, &pi); if (!Inst) return 0; FakePs.UseInstance = Inst; val = laGetInt(&Fake); } return Inst; } } int la_GetPropFromPath(laPropPack *Self, laPropPack *Base, const char *Path, void **SpecifiedInstance){ laProp *p = 0; laListHandle *lst=0, *lstB = 0; laStringSplitor *ss = strSplitPath(Path,0); laStringPart *sp = ss ? ss->parts.pFirst : 0; int InstanceNum = 0; if ((!ss && !Base) || !MAIN.DataRoot.Root){ strDestroyStringSplitor(&ss); return 0; } if (!Base || !Base->LastPs){ lst = &MAIN.DataRoot.Root->Props; Self->RawThis = 0; }else{ Self->RawThis = Base; if (Base->LastPs->p->PropertyType==LA_PROP_SUB && ((laSubProp*)Base->LastPs->p)->GetType && Base->EndInstance){ laPropContainer* pc=((laSubProp*)Base->LastPs->p)->GetType(Base->EndInstance); lst = &pc->Props; lstB = pc ? &pc->Props : 0; } if(!lst){ if (!Base->LastPs->p->SubProp){ laProp *p = Base->LastPs->p; p->SubProp = la_ContainerLookup(((laSubProp *)p)->TargetID); } if(Base->LastPs->p->SubProp) lst = &Base->LastPs->p->SubProp->Props; } lstB = Base->LastPs->p->SubExtra ? &Base->LastPs->p->SubExtra->Props : 0; if (!Path || !Path[0] || !ss){ if (Base){ Self->LastPs = Base->LastPs; } } } while (sp){ if (sp->Type == U'.' || sp->Type == U'$'){ void *inst = 0; p = la_PropLookup(lst, sp->Content); if (!p) p = la_PropLookup(lstB, sp->Content); if (!p){ la_FreePropStepCache(Self->Go); Self->Go = Self->LastPs = 0; strDestroyStringSplitor(&ss); return 0; // |-----------------Here Should Include Dollar Instance } // V if (sp->Type == U'$'){ inst = SpecifiedInstance[InstanceNum]; InstanceNum++; }else inst = 0; /*if(Base == &MAIN.PropMatcherContextP->PropLinkPP)la_NewPropStep(Self, p, inst, '*'); else */ la_NewPropStep(Self, p, inst, sp->Type); if (p->PropertyType == LA_PROP_SUB && !p->SubProp){ p->SubProp = la_ContainerLookup(((laSubProp *)p)->TargetID); } lst = p->SubProp ? &p->SubProp->Props : 0; lstB = p->SubExtra ? &p->SubExtra->Props : 0; }else{ if (sp->Type == U'@' || sp->Type == U'=' || sp->Type == U'#'){ // || sp->Type== U'~' la_NewPropStep(Self, sp->Content, 0, sp->Type); } } sp = sp->Item.pNext; } strDestroyStringSplitor(&ss); return 1; } void la_StepPropPack(laPropPack *pp){ laPropStep *ps = pp->Go; laPropPack *This = pp->RawThis; laPropIterator pi; laProp *Lookup; laPropStep *Value; void *UseInstance = 0; if (This){ UseInstance = This->EndInstance; if (ps) ps->UseInstance = UseInstance; }else{ if (!ps) return; UseInstance = MAIN.DataRoot.RootInstance; ps->UseInstance = UseInstance; } if (This && !ps){ pp->EndInstance = UseInstance; pp->LastPs = This->LastPs; return; } while (ps){ // Looks like we have these kind of access grammar: // sub.prop // sub@prop=str_or_int // sub#identifier // TODO: Add sub~index grammar if (ps->p->PropertyType == LA_PROP_SUB){ if (ps->Type == U'@' || ps->Type == U'#'){ } if (ps->Type == U'$') UseInstance = ps->UseInstance; elif (ps->pNext && ps->pNext->Type != U'.'){ if (ps->pNext->Type == U'@'){ Value = ps->pNext->pNext; Lookup = la_PropLookup(&ps->p->SubProp->Props, ps->pNext->p); }elif (ps->pNext->Type == U'#'){ Value = ps->pNext; Lookup = la_PropLookupIdentifierItem(&ps->p->SubProp->Props); } if (Value->Type == U'=' || Value->Type == U'#'){ //MUST! UseInstance = la_FindMatchingInstance(ps->UseInstance, ps->p, Lookup, Value); } Value->UseInstance = UseInstance; if(Value->pNext) Value->pNext->UseInstance = UseInstance; ps = Value->pNext; continue; }else{ void *inst; inst = laGetActiveInstanceStrict(ps->p, UseInstance); if (!inst) inst = laGetInstance(ps->p, UseInstance, 0); UseInstance = inst; } if (!ps->pNext){ pp->EndInstance = UseInstance; break; }else{ ps->pNext->UseInstance = UseInstance; ps = ps->pNext; } continue; }else{ ps->UseInstance = UseInstance; if (!ps->pNext){ pp->EndInstance = UseInstance; break; }else{ ps->pNext->UseInstance = ps; UseInstance = ps; ps = ps->pNext; } } } } void la_RemovePropUserNode(laPropStep *ps){ laPropUserPanel *pup = 0; laPropUser *pu = 0; for (pup = ps->p->UserPanels.pFirst; pup; pup = pup->Item.pNext){ if (pup->Panel == MAIN.PropMatcherContextP) break; } if (!pup) return; for (pu = pup->UserPacks.pFirst; pu; pu = pu->Item.pNext){ if (pu->User == ps) break; } //if (!pu)printf("PROP USER NODE NOT FOUND!\laPropUserPanel:%d,%s,Ps:%s\n",pup->Panel,pup->Panel->Title->Ptr,ps->p->Identifier); //else { if (pu){ lstRemoveItem(&pup->UserPacks, pu); memFree(pu); if (!pup->UserPacks.pFirst){ lstRemoveItem(&ps->p->UserPanels, pup); memFree(pup); } } //} } void la_AddPropUserNode(laPropStep *ps){ laPropUserPanel *pup = 0; laPropUser *pu = 0; for (pup = ps->p->UserPanels.pFirst; pup; pup = pup->Item.pNext){ if (pup->Panel == MAIN.PropMatcherContextP) break; } if (!pup){ pup = memAcquireSimple(sizeof(laPropUserPanel)); pup->Panel = MAIN.PropMatcherContextP; lstAppendItem(&ps->p->UserPanels, pup); } for (pu = pup->UserPacks.pFirst; pu; pu = pu->Item.pNext){ if (pu->User == ps){ pu->FrameDistinguish = MAIN.PropMatcherContextP->FrameDistinguish; return; } } //ELSE pu = memAcquireSimple(sizeof(laPropUser)); pu->User = ps; pu->FrameDistinguish = MAIN.PropMatcherContextP->FrameDistinguish; lstAppendItem(&pup->UserPacks, pu); } void la_UsePropPack(laPropPack *pp, int ForceRecalc){ laPropStep *ps = 0; //if(pp->LastPs && pp->LastPs->p)printf("%s\n",pp->LastPs->p->Identifier); if((!pp->Go) && pp->LastPs){ if (pp->LastPs->Type==U'.'){ laUseDataBlock(pp->RawThis->LastPs->UseInstance, pp->LastPs->p, MAIN.PropMatcherContextP->FrameDistinguish, MAIN.PropMatcherContextP, la_PropPanelUserRemover, ForceRecalc); } } for (ps = pp->Go; ps; ps = ps->pNext){ if (ps->Type==U'.'){ laUseDataBlock(ps->UseInstance, ps->p, MAIN.PropMatcherContextP->FrameDistinguish, MAIN.PropMatcherContextP, la_PropPanelUserRemover, ForceRecalc); } } } void la_StopUsingPropPack(laPropPack *pp){ laPropStep *ps; if((!pp->Go) && pp->LastPs){ if (pp->LastPs->Type==U'.'&&pp->LastPs->p->Container &&pp->LastPs->p->Container->Hyper){ laStopUsingDataBlock(pp->RawThis->LastPs->UseInstance, pp->LastPs->p, MAIN.PropMatcherContextP); } } for (ps = pp->Go; ps; ps = ps->pNext){ if (ps->Type==U'.'&&ps->p->Container&&ps->p->Container->Hyper){ laStopUsingDataBlock(ps->UseInstance, ps->p, MAIN.PropMatcherContextP); } //la_RemovePropUserNode(ps); } } void laNotifyUsersPP(laPropPack *pp){ if(!pp->LastPs) return; void *hi = pp->LastPs->UseInstance; laItemUserLinker *iul; laItemUserLinkerLocal *iull; int local; if (!hi) return; laListHandle* users = laGetUserList(hi, pp->LastPs->p, &local); if(!users) return; for (iul = users->pFirst; iul; iul = iul->Pointer.pNext){ if(local && (iull=iul) && iull->Instance!=hi) continue; if (iul->Remove == la_PropPanelUserRemover){ laPanel *p = iul->Pointer.p; if (iul->Which == pp->LastPs->p && iul->FrameDistinguish == p->FrameDistinguish){ //pthread_spin_lock(&MAIN.csNotifier); if ((iul->Which->PropertyType & LA_PROP_SUB) || iul->ForceRecalc) laRecalcPanel(p); else laRedrawPanel(p); //pthread_spin_unlock(&MAIN.csNotifier); } } } } void laNotifyUsersPPPath(laPropPack *pp, char *path){ laPropPack PP = {0}; if(!path){ laNotifyUsersPP(pp); return; } la_GetPropFromPath(&PP, pp, path, 0); la_StepPropPack(&PP); laNotifyUsersPP(&PP); la_FreePropStepCache(PP.Go); } void laNotifySubPropUsers(laProp *prop, void *Instance){ void *hi = Instance; laItemUserLinker *iul; laItemUserLinkerLocal *iull; int local; if (!hi) return; laListHandle* users = laGetUserList(hi, prop, &local); if(!users) return; for (iul = users->pFirst; iul; iul = iul->Pointer.pNext){ if(local && (iull=iul) && iull->Instance!=hi) continue; if (iul->Remove == la_PropPanelUserRemover){ laPanel *p = iul->Pointer.p; if (iul->Which == prop && iul->FrameDistinguish == p->FrameDistinguish){ //pthread_spin_lock(&MAIN.csNotifier); laRecalcPanel(p); //pthread_spin_unlock(&MAIN.csNotifier); } } } } void laNotifyInstanceUsers(void *Instance){ void *hi = Instance; laItemUserLinker *iul; laItemUserLinkerLocal *iull; int local; if (!hi) return; laListHandle* users = laGetUserList(hi, 0, &local); if(!users) return; for (iul = users->pFirst; iul; iul = iul->Pointer.pNext){ if(local && (iull=iul) && iull->Instance!=hi) continue; if (iul->Remove == la_PropPanelUserRemover){ laPanel *p = iul->Pointer.p; if (iul->FrameDistinguish == p->FrameDistinguish){ laRedrawPanel(p); if(iul->Which&&iul->Which->PropertyType==LA_PROP_SUB){ laRecalcPanel(p); } } } } } void laNotifyUsers(char *Path){ laPropPack PP = {0}; la_GetPropFromPath(&PP, 0, Path, 0); la_StepPropPack(&PP); laNotifyUsersPP(&PP); la_FreePropStepCache(PP.Go); } void laThreadNotifyUsers(char *Path){ laThreadNotifier *tn = CreateNew(laThreadNotifier); strCopyFull(tn->Path, Path); //pthread_spin_lock(&MAIN.csNotifier); lstAppendItem(&MAIN.ThreadNotifiers, tn); //pthread_spin_unlock(&MAIN.csNotifier); } void la_SetPropMathcerContext(laPanel *p){ MAIN.PropMatcherContextP = p; } int laget_InstanceHyperLevel(void* instance){ int level; memGetHead(instance,&level); return level; } int laget_InstanceModified(void* instance){ int level; laMemNodeHyper* m=memGetHead(instance,&level); if(level==2) return m->Modified?1:0; return 0; } void* laget_InstanceUDF(void* unused, laPropIterator* unusedpi){ return MAIN.ManagedUDFs.pFirst; } void* laget_InstanceActiveUDF(void* instance){ int level; laMemNodeHyper* m=memGetHead(instance,&level); if(level==2) return m->FromFile; return 0; } void* laget_DummyManagedUDFSingle(void* unused){ return MAIN.DummyManageUDFSingle; } void* laget_DummyManagedUDFSingleForce(void* unused){ return MAIN.DummyManageUDFSingleForce; } void laset_InstanceUDFFromSingle(void* instance, laUDF* udf){ if(!MAIN._CONTAINER_SETTING || !MAIN._CONTAINER_SETTING->UDFPropagate || !instance){ return; } if(udf == MAIN.DummyManageUDF){ laInvoke(0, "LA_managed_save_new_file", 0,0,0,0); } MAIN._CONTAINER_SETTING->UDFPropagate(instance,udf,0); } void laset_InstanceUDFFromSingleForce(void* instance, laUDF* udf){ if(!MAIN._CONTAINER_SETTING || !MAIN._CONTAINER_SETTING->UDFPropagate || !instance){ return; } if(udf == MAIN.DummyManageUDF){ laInvoke(0, "LA_managed_save_new_file", 0,0,0,0); } MAIN._CONTAINER_SETTING->UDFPropagate(instance,udf,0); } void laset_InstanceUDF(void* instance, void* set){ int level; laMemNodeHyper* m=memGetHead(instance,&level); if(level==2) memAssignRef(instance, &m->FromFile, set); if(set == MAIN.DummyManageUDF){ laInvoke(0, "LA_managed_save_new_file", 0,0,0,0); } } void* laget_InstanceSelf(void* instace){ return instace; } const char* LA_N_A="N/A"; void *la_GetReadDBInstNUID(char *ReferReadNUID); void laget_InstanceUID(void* instance, char* buf, char** ptr){ int level; laMemNodeHyper* m=memGetHead(instance,&level); if(level!=2||!m) return; *ptr=LA_N_A; *ptr=m->NUID.String; } void laset_InstanceUID(void* instance, char* buf){ int level; laMemNodeHyper* m=memGetHead(instance,&level); if(level!=2||!m) return; char _buf[40]; if(!buf[0]){ memCreateNUID(_buf,m); buf=_buf; } laListHandle *l = hsh16MDoHashNUID(&MAIN.DBInst2, m->NUID.String); laMemNodeHyper* im=0; for (im = l->pFirst; im; im = m->Item.pNext){ if(im==m) break; } if(im){ lstRemoveItem(l,im); laListHandle *nl = hsh16MDoHashNUID(&MAIN.DBInst2, buf); lstAppendItem(nl,im); }else{ im=m; /* Unlikely */ } sprintf(m->NUID.String,"%.30s",buf); } void* laget_SaverDummy(void* instance, laPropIterator* pi){ laSubProp* p=MAIN._PROP_SETTING; laListHandle* l = (((char*)instance)+p->ListHandleOffset); if(!l->pFirst){ laSaverDummy* sd=memAcquireHyper(sizeof(laSaverDummy)); lstAppendItem(l,sd); } while(l->pFirst!=l->pLast){ memLeave(lstPopItem(l)); } return l->pFirst; } laSaverDummy* laGetSaverDummy(void* instance, laSubProp* p){ laListHandle* l = (((char*)instance)+p->ListHandleOffset); if(!l->pFirst){ laSaverDummy* sd=memAcquireHyper(sizeof(laSaverDummy)); lstAppendItem(l,sd); } while(l->pFirst!=l->pLast){ memLeave(lstPopItem(l)); } return l->pFirst; } void laPurgeSaverDummy(void* instance, laSubProp* p){ laListHandle* l = (((char*)instance)+p->ListHandleOffset); while(l->pFirst){ memLeave(lstPopItem(l)); } } void la_FreeProperty(laProp* p){ laIntProp *ip;laFloatProp *fp;laEnumProp *ep;laSubProp *sp; if(p->DetachedPP.Go){ la_FreePropStepCache(p->DetachedPP.Go); switch (p->PropertyType){ case LA_PROP_INT: case LA_PROP_INT | LA_PROP_ARRAY: ip = p; free(ip->Detached); break; case LA_PROP_FLOAT: case LA_PROP_FLOAT | LA_PROP_ARRAY: fp = p; free(fp->Detached); break; case LA_PROP_ENUM: case LA_PROP_ENUM | LA_PROP_ARRAY: ep = p; free(ep->Detached); } } if(p->PropertyType&LA_PROP_ENUM){ ep = p; laEnumItem* ei; while(ei=lstPopItem(&ep->Items)){ memFree(ei); } } memFree(p); } void la_FreePropertyContainer(laPropContainer* pc){ laProp* p; while(p=lstPopItem(&pc->Props)){ la_FreeProperty(p); } memFree(pc); } laPropContainer *laAddPropertyContainer(const char *Identifier, const char *Name, const char *Description, uint32_t IconID, laUiDefineFunc DefaultUiDefine, int NodeSize, laContainerPostReadFunc PostRead, laContainerPostReadFunc PostReadIm, int IsHyper){ laPropContainer *pc = memAcquire(sizeof(laPropContainer)); pc->Identifier = Identifier; pc->Name = Name; pc->Description = Description; pc->UiDefine = DefaultUiDefine; pc->IconID = IconID ? IconID : U'📦'; pc->OtherAlloc = (IsHyper&LA_PROP_OTHER_ALLOC)?1:0; pc->Hyper = pc->OtherAlloc?0:(IsHyper&LA_PROP_HYPER_BITS); pc->PostRead = PostRead; pc->PostReadIm = PostReadIm; pc->NodeSize = NodeSize; if (!pc->OtherAlloc){ laAddSubGroup(pc, "__file", "File", "The file this block came from/saves to", "managed_udf", 0,LA_WIDGET_COLLECTION_SELECTOR,laui_ManagedUDFItem,-1,laget_InstanceUDF,laget_InstanceActiveUDF,laget_ListNext,laset_InstanceUDF,0,0,0,LA_UDF_REFER|LA_UDF_IGNORE); laAddIntProperty(pc, "__hyper", "Hyper", "Hyper level of this data block", 0,0,0,0,0,0,0,0,-1,laget_InstanceHyperLevel,0,0,0,0,0,0,0,0,0,LA_READ_ONLY|LA_UDF_IGNORE); laProp* p=laAddEnumProperty(pc, "__modified", "Modified", "Data block is modified", LA_WIDGET_ENUM_ICON_PLAIN,0,0,0,0,-1,laget_InstanceModified,0,0,0,0,0,0,0,0,LA_READ_ONLY|LA_UDF_IGNORE); laAddEnumItemAs(p, "MODIFIED", "Modified", "Data block is modified", 1, U'🌑'); laAddEnumItemAs(p, "CLEAN", "Clean", "Data block is clean", 0, 0); laAddStringProperty(pc, "__uid","UID","UID for shared resoure lookup",0,0,0,0,0,-1,0,laget_InstanceUID,laset_InstanceUID,0,LA_UDF_IGNORE); } laAddSubGroup(pc, "__self", "Self", "Own instance", Identifier,0,0,0,-1,0,laget_InstanceSelf,0,0,0,0,0,LA_UDF_REFER|LA_UDF_IGNORE); lstAppendItem(&MAIN.PropContainers, pc); return pc; } void laPropContainerExtraFunctions(laPropContainer* pc, laContainerBeforeFreeF BeforeFree, laContainerResetF Reset, laContainerUndoTouchedF Touched, laContainerpUDFPropagateF UDFPropagate, laUiDefineFunc MenuUi){ pc->BeforeFree=BeforeFree; pc->Reset=Reset; pc->UndoTouched=Touched; pc->UDFPropagate=UDFPropagate; pc->MenuUiDefine=MenuUi; if(!pc->OtherAlloc && UDFPropagate){ laAddOperatorProperty(pc,"__udf_propagate","Propagate","Propagate UDF to all child nodes", "LA_udf_propagate", 0,0); laAddSubGroup(pc,"__single_udf_propagate","Save to","Assign file to all child nodes (From a ingle-instanced parent)","managed_udf", 0,LA_WIDGET_COLLECTION_SELECTOR,laui_ManagedUDFItem,-1,laget_InstanceUDF,laget_DummyManagedUDFSingle,laget_ListNext,laset_InstanceUDFFromSingle,0,0,0,LA_UDF_REFER|LA_UDF_IGNORE); //laAddSubGroup(pc,"__single_udf_propagate_force","Force","Assign file to all child nodes (From a ingle-instanced parent)","managed_udf", // 0,LA_WIDGET_COLLECTION_SELECTOR,laui_ManagedUDFItem,-1,laget_InstanceUDF,laget_DummyManagedUDFSingleForce,laget_ListNext,laset_InstanceUDFFromSingleForce,0,0,0,LA_UDF_REFER|LA_UDF_IGNORE); } } laProp* laPropContainerManageable(laPropContainer* pc, int offset_of_dummy_list){ if(!pc || pc->OtherAlloc || !offset_of_dummy_list) return 0; if(!MAIN.SaverDummyContainer){ MAIN.SaverDummyContainer = laAddPropertyContainer("la_saver_dummy","Saver Dummy","Saver dummy",0,0,sizeof(laSaverDummy),0,0,2); laAddSubGroup(MAIN.SaverDummyContainer, "__file", "File", "The file this block came from/saves to", "managed_udf", 0,LA_WIDGET_COLLECTION_SELECTOR,laui_ManagedUDFItem,-1,laget_InstanceUDF,laget_InstanceActiveUDF,laget_ListNext,laset_InstanceUDF,0,0,0,LA_UDF_REFER|LA_UDF_IGNORE); } pc->SaverDummy=laAddSubGroup(pc,"__single_saver_dummy","Saver","Saver dummy","la_saver_dummy",0,0,0,-1,0,0,0,0,0,0,offset_of_dummy_list,0); return pc->SaverDummy; } void laContainerAnimationFunctions(laPropContainer* pc, laActionHolderVerifyF ActionHolderVerify){ pc->ActionHolderVerify=ActionHolderVerify; } int la_GetKeyablePropertyStorageSize(laProp* p){ switch(p->PropertyType){ case LA_PROP_INT: case LA_PROP_FLOAT: case LA_PROP_ENUM: return sizeof(uint64_t); case LA_PROP_INT | LA_PROP_ARRAY: case LA_PROP_FLOAT | LA_PROP_ARRAY: case LA_PROP_ENUM | LA_PROP_ARRAY: if(p->GetLen){ return 0; } return sizeof(uint64_t)*p->Len; case LA_PROP_SUB: case LA_PROP_OPERATOR: case LA_PROP_STRING: case LA_PROP_RAW: default: return 0; } } int la_GetPropertySize(int Type){ switch (Type){ case LA_PROP_INT: case LA_PROP_INT | LA_PROP_ARRAY: return sizeof(laIntProp); case LA_PROP_FLOAT: case LA_PROP_FLOAT | LA_PROP_ARRAY: return sizeof(laFloatProp); case LA_PROP_ENUM: case LA_PROP_ENUM | LA_PROP_ARRAY: return sizeof(laEnumProp); case LA_PROP_SUB: return sizeof(laSubProp); case LA_PROP_OPERATOR: return sizeof(laOperatorProp); case LA_PROP_STRING: return sizeof(laStringProp); case LA_PROP_RAW: return sizeof(laRawProp); } return 0; } const char LA_PROP_STR_INT[] = "LA_PROP_INT"; const char LA_PROP_STR_INT_ARR[] = "LA_PROP_INT_ARR"; const char LA_PROP_STR_FLOAT[] = "LA_PROP_FLOAT"; const char LA_PROP_STR_FLOAT_ARR[] = "LA_PROP_FLOAT_ARR"; const char LA_PROP_STR_ENUM[] = "LA_PROP_ENUM"; const char LA_PROP_STR_ENUM_ARR[] = "LA_PROP_ENUM_ARR"; const char LA_PROP_STR_ACT[] = "LA_PROP_ACT"; const char LA_PROP_STR_STR[] = "LA_PROP_STR"; const char LA_PROP_STR_SUB[] = "LA_PROP_SUB"; const char *la_GetPropertyTypeString(int Type){ switch (Type){ case LA_PROP_INT: return LA_PROP_STR_INT; case LA_PROP_INT | LA_PROP_ARRAY: return LA_PROP_STR_INT_ARR; case LA_PROP_FLOAT: return LA_PROP_STR_FLOAT; case LA_PROP_FLOAT | LA_PROP_ARRAY: return LA_PROP_STR_FLOAT_ARR; case LA_PROP_ENUM: return LA_PROP_STR_ENUM; case LA_PROP_ENUM | LA_PROP_ARRAY: return LA_PROP_STR_ENUM_ARR; case LA_PROP_SUB: return LA_PROP_STR_SUB; case LA_PROP_OPERATOR: return LA_PROP_STR_ACT; case LA_PROP_STRING: return LA_PROP_STR_STR; } return 0; } void la_AssignPropertyGeneralSub(laProp *p){ switch (p->PropertyType){ case LA_PROP_INT: p->SubProp = MAIN.GeneralIntSub; break; case LA_PROP_INT | LA_PROP_ARRAY: p->SubProp = MAIN.GeneralIntArraySub; break; case LA_PROP_FLOAT: p->SubProp = MAIN.GeneralFloatSub; break; case LA_PROP_FLOAT | LA_PROP_ARRAY: p->SubProp = MAIN.GeneralFloatArraySub; break; case LA_PROP_ENUM: p->SubProp = MAIN.GeneralEnumSub; break; case LA_PROP_ENUM | LA_PROP_ARRAY: p->SubProp = MAIN.GeneralEnumArraySub; break; case LA_PROP_STRING: p->SubProp = MAIN.GeneralStringSub; break; case LA_PROP_OPERATOR: p->SubProp = MAIN.GeneralOperatorSub; break; case LA_PROP_SUB: p->SubExtra = MAIN.GeneralCollectionSub; break; case LA_PROP_RAW: p->SubExtra = MAIN.GeneralRawSub; break; } } laProp *la_CreateProperty(laPropContainer *Container, int Type, const char *Identifier, const char *Name, const char *Description, const char *Prefix, const char *Unit, laWidget* DefaultWidget, u64bit Tag){ laProp *p = memAcquire(la_GetPropertySize(Type)); p->Identifier = Identifier; p->Name = Name; p->Description = Description; p->Prefix = Prefix; p->Unit = Unit; if(DefaultWidget){ p->DefaultUiType = DefaultWidget->Type; p->DefaultFlags = DefaultWidget->Flags; } p->PropertyType = Type; p->Tag = Tag; p->Container = Container; if (Container) lstAppendItem(&Container->Props, p); p->UDFIsRefer = (Tag & LA_UDF_REFER) ? 1 : 0; p->UDFIgnore = (Tag & LA_UDF_IGNORE) ? 1 : 0; p->UDFOnly = (Tag & LA_UDF_ONLY) ? 1 : 0; p->ReadOnly = (Tag & LA_READ_ONLY) ? 1 : 0; p->IsRadAngle = (Tag & LA_RAD_ANGLE)? 1 : 0; p->UDFHideInSave = (Tag & LA_HIDE_IN_SAVE)? 1 : 0; p->UDFReadProgress = (Tag & LA_PROP_READ_PROGRESS)?1:0; p->CanTranslate = (Tag & LA_TRANSLATE)?1:0; if(p->IsRadAngle&&(!p->Unit)) p->Unit="°"; p->Keyable = (Tag & LA_PROP_KEYABLE)? 1 : 0; if(Tag&LA_PROP_ROTATION){ p->KeySpecialInterpolation=LA_PROP_KEY_INTERPOLATION_ROTATION; } return p; } void la_ClearDetachedProp(laPanel* p){ laProp *np; while(np=lstPopItem(&p->PropLinkContainer->Props)){ free(np->Identifier); memFree(np); } } laProp *la_MakeDetachedProp(laPanel* p, const char *From, const char *Rename){ laIntProp *ip; laFloatProp *fp; laEnumProp *ep; laSubProp *sp; laPropPack TempPP = {0}; int result = 0; result = la_GetPropFromPath(&TempPP, 0, From, 0); if(!result) return 0; laProp *np = memAcquire(la_GetPropertySize(TempPP.LastPs->p->PropertyType)); memcpy(np, TempPP.LastPs->p, la_GetPropertySize(TempPP.LastPs->p->PropertyType)); np->Identifier = CreateNewBuffer(char, 128); strcpy(np->Identifier, Rename); np->DetachedPP.Go = 0; np->DetachedPP.RawThis = 0; np->DetachedPP.LastPs = 0; la_CopyPropPack(&TempPP, &np->DetachedPP); switch (np->PropertyType){ case LA_PROP_INT: case LA_PROP_INT | LA_PROP_ARRAY: ip = np; ip->Detached = CreateNewBuffer(int, np->Len ? np->Len : 1); break; case LA_PROP_FLOAT: case LA_PROP_FLOAT | LA_PROP_ARRAY: fp = np; fp->Detached = CreateNewBuffer(real, np->Len ? np->Len : 1); break; case LA_PROP_ENUM: case LA_PROP_ENUM | LA_PROP_ARRAY: ep = np; ep->Detached = CreateNewBuffer(int, 1); ep->Detached[0] = ((laEnumItem *)ep->Items.pFirst)->Index; break; case LA_PROP_SUB: sp=np; sp->GetCategory=((laSubProp*)np)->GetCategory; break; } lstAppendItem(&p->PropLinkContainer->Props, np); la_AssignPropertyGeneralSub(np); la_FreePropStepCache(TempPP.Go); return np; } laProp *laAddIntProperty(laPropContainer *Container, const char *Identifier, const char *Name, const char *Description, laWidget* DefaultWidget, const char *Prefix, const char *Unit, int Max, int Min, int Step, int DefVal, const int *DefArr, int OffsetSize, laIntGetF Get, laIntSetF Set, int ArrayLength, laArrayGetLenF GetLen, laIntArraySetF SetArr, laIntArrayGetAllF GetAll, laIntArraySetAllF SetAll, laIntArraySetAllArrayF SetAllArr, laIntReadF Read, laIntArrayReadAllF ReadAll, u64bit Tag){ laIntProp *p = la_CreateProperty(Container, LA_PROP_INT, Identifier, Name, Description, Prefix, Unit, DefaultWidget, Tag); if (ArrayLength > 1){ p->Base.Len = ArrayLength; p->Base.PropertyType |= LA_PROP_ARRAY; }else if (GetLen) p->Base.GetLen = GetLen; p->Get = Get; p->Set = Set; p->SetAll = SetAll; p->GetAll = GetAll; p->SetAllArr = SetAllArr; p->SetArr = SetArr; p->DefArr = DefArr; p->DefVal = DefVal; p->Max = Max; p->Min = Min; p->Step = Step ? Step : 1; p->Base.Offset = OffsetSize; p->Base.OffsetIsPointer = (Tag&LA_UDF_REFER) ? 1 : 0; p->Read = Read; p->ReadAll = ReadAll; la_AssignPropertyGeneralSub(p); return p; } laProp *laAddFloatProperty(laPropContainer *Container, const char *Identifier, const char *Name, const char *Description, laWidget* DefaultWidget, const char *Prefix, const char *Unit, real Max, real Min, real Step, real DefVal, const real *DefArr, int OffsetSize, laFloatGetF Get, laFloatSetF Set, int ArrayLength, laArrayGetLenF GetLen, laFloatArraySetF SetArr, laFloatArrayGetAllF GetAll, laFloatArraySetAllF SetAll, laFloatArraySetAllArrayF SetAllArr, laFloatReadF Read, laFloatArrayReadAllF ReadAll, u64bit Tag){ laFloatProp *p = la_CreateProperty(Container, LA_PROP_FLOAT, Identifier, Name, Description, Prefix, Unit, DefaultWidget, Tag); if (ArrayLength > 1){ p->Base.Len = ArrayLength; p->Base.PropertyType |= LA_PROP_ARRAY; }else if (GetLen) p->Base.GetLen = GetLen; p->Get = Get; p->Set = Set; p->SetAll = SetAll; p->GetAll = GetAll; p->SetAllArr = SetAllArr; p->SetArr = SetArr; p->DefArr = DefArr; p->DefVal = DefVal; p->Max = Max; p->Min = Min; p->Step = Step ? Step : 0.01; p->Base.Offset = OffsetSize; p->Base.OffsetIsPointer = (Tag&LA_UDF_REFER) ? 1 : 0; p->Read = Read; p->ReadAll = ReadAll; la_AssignPropertyGeneralSub(p); return p; } laProp *laAddEnumProperty(laPropContainer *Container, const char *Identifier, const char *Name, const char *Description, laWidget* DefaultWidget, const char *Prefix, const char *Unit, int DefVal, const int *DefArr, int OffsetSize, laEnumGetF Get, laEnumSetF Set, int ArrayLength, laArrayGetLenF GetLen, laEnumArraySetF SetArr, laEnumArrayGetAllF GetAll, laEnumArraySetAllF SetAll, laEnumReadF Read, laEnumArrayReadAllF ReadAll, u64bit Tag){ laEnumProp *p = la_CreateProperty(Container, LA_PROP_ENUM, Identifier, Name, Description, Prefix, Unit, DefaultWidget, Tag); if (ArrayLength > 1){ p->Base.Len = ArrayLength; p->Base.PropertyType |= LA_PROP_ARRAY; }else if (GetLen) p->Base.GetLen = GetLen; p->Get = Get; p->Set = Set; p->SetAll = SetAll; p->GetAll = GetAll; p->SetArr = SetArr; p->DefArr = DefArr; p->DefVal = DefVal; p->Base.Offset = OffsetSize; p->Base.OffsetIsPointer = (Tag&LA_UDF_REFER) ? 1 : 0; p->Read = Read; p->ReadAll = ReadAll; la_AssignPropertyGeneralSub(p); return p; } int laAddEnumItem(laProp *p, const char *Identifier, const char *Name, const char *Description, uint32_t IconID){ laEnumItem *ei = memAcquire(sizeof(laEnumItem)); laEnumProp *ep = p; ei->Identifier = Identifier; ei->Name = Name; ei->Description = Description; ei->IconID = IconID; ei->Index = ep->Items.pLast ? ((laEnumItem *)ep->Items.pLast)->Index + 1 : 0; lstAppendItem(&ep->Items, ei); return 1; } int laAddEnumItemAs(laProp *p, const char *Identifier, const char *Name, const char *Description, int Index, uint32_t IconID){ laEnumItem *ei = memAcquire(sizeof(laEnumItem)); laEnumProp *ep = p; ei->Identifier = Identifier; ei->Name = Name; ei->Description = Description; ei->IconID = IconID; ei->Index = Index; lstAppendItem(&ep->Items, ei); return 1; } laProp *laAddStringProperty(laPropContainer *Container, const char *Identifier, const char *Name, const char *Description, laWidget* DefaultWidget, const char *Prefix, const char *Unit, const char *DefStr, int IsSafeString, int OffsetSize, laStringGetLenF GetLen, laStringGetF Get, laStringSetF Set, laStringReadF Read, u64bit Tag){ laStringProp *p = la_CreateProperty(Container, LA_PROP_STRING, Identifier, Name, Description, Prefix, Unit, DefaultWidget, Tag); p->Get = Get; p->Set = Set; p->Getstrlen = GetLen; p->DefStr = DefStr; p->Base.Offset = OffsetSize; p->Base.OffsetIsPointer = (Tag&LA_UDF_LOCAL) ? 0 : 1; p->Read = Read; p->IsSafeString = IsSafeString; la_AssignPropertyGeneralSub(p); return p; } laProp *laAddSubGroup(laPropContainer *Container, const char *Identifier, const char *Name, const char *Description, const char *TargetId, laGetNodeTypeFunc GetType, laWidget* DefaultWidget, laUiDefineFunc DefaultUiDef, int OffsetSize, laSubGetInstanceF Get, laSubGetInstanceF GetActive, laSubGetNextF GetNext, laSubSetInstanceF Set, laSubGetStateF GetState, laSubSetStateF SetState, int ListHandleOffset, u64bit Tag){ laSubProp *p = la_CreateProperty(Container, LA_PROP_SUB, Identifier, Name, Description, 0, 0, DefaultWidget, Tag); p->Base.Offset = OffsetSize; p->Get = Get; p->GetNext = GetNext; p->GetActive = GetActive; p->Set = Set; p->GetState = GetState; p->SetState = SetState; p->TargetID = TargetId; p->Base.OffsetIsPointer = (Tag & LA_UDF_LOCAL) ? 0 : 1; p->Base.UiDefine = DefaultUiDef; p->GetType = GetType; p->ListHandleOffset = ListHandleOffset; p->Base.UDFNoCreate = (Tag & LA_UDF_LOCAL) ? 1 : 0; if (Tag & LA_UDF_SINGLE || (p->Base.OffsetIsPointer && !p->ListHandleOffset && !p->GetNext && !(Tag & LA_UDF_REFER))) p->Base.UDFIsSingle = 1; la_AssignPropertyGeneralSub(p); return p; } void laSubGroupExtraFunctions(laProp* p, laSubUIFilterF* UiFilter, laSubSaveFilterF* SaveFilter, laSubUIThemeF* GetTheme, laSubUIGapF GetGap, laSubUICategoryF GetCategory){ laSubProp *sp=p; sp->UiFilter=UiFilter; sp->SaveFilter=SaveFilter; sp->GetTheme=GetTheme; sp->GetGap=GetGap; sp->GetCategory=GetCategory; } void laSubGroupDetachable(laProp *SubProp, laSubTypeDetachedGet DetachedGet, laSubTypeDetachedGetNext DetachedGetNext){ laSubProp *sp = SubProp; SubProp->Tag |= LA_DETACHABLE; sp->DetachedGet = DetachedGet; sp->DetachedGetNext = DetachedGetNext; } laProp *laAddOperatorProperty(laPropContainer *Container, const char *Identifier, const char *Name, const char *Description, const char *OperatorID, uint32_t IconID, laWidget* DefaultWidget){ laOperatorProp *p = la_CreateProperty(Container, LA_PROP_OPERATOR, Identifier, Name, Description, 0, 0, DefaultWidget, 0); p->OperatorID = OperatorID; p->Base.IconID = IconID; la_AssignPropertyGeneralSub(p); return p; } laProp *laAddRawProperty(laPropContainer *Container, const char *Identifier, const char *Name, const char *Description, int OffsetSize, laRawGetSizeF GetSize, laRawGetF RawGet, laRawSetF RawSet, u64bit Tag){ if(!RawGet && !GetSize) return 0; laRawProp *p = la_CreateProperty(Container, LA_PROP_RAW, Identifier, Name, Description, 0, 0, 0, Tag); p->Base.Offset = OffsetSize; p->Base.OffsetIsPointer = (Tag & LA_UDF_LOCAL) ? 0 : 1; p->RawGet=RawGet; p->RawGetSize=GetSize; p->RawSet=RawSet; la_AssignPropertyGeneralSub(p); return p; } //void laPropertySignal(laProp* p, int Throw, int Catch) { // p->SignalThrow = Throw; // p->SignalCatch = Catch; //} int laIsPropertyReadOnly(laPropPack *pp){ if (pp && pp->LastPs && pp->LastPs->p->ReadOnly) return 1; return 0; } int laGetPrefixP(laPropPack *p, char buf[8][64]){ char *prefix = transLate(p->LastPs->p->Prefix); int i = 0, row = 0; if (!prefix) return 0; int len=strlen(prefix); while ((prefix[i] != U'\0') && (i+=1+strGetStringTerminateBy(&prefix[i], U',', &buf[row]))){ row++; if(i>=len){break;} } return 1; } int laGetPrefix(laProp *p, char buf[8][64]){ char *prefix = transLate(p->Prefix); int i = 0, row = 0; if (!prefix) return 0; while ((prefix[i] != U'\0') && (i += 1 + strGetStringTerminateBy(&prefix[i], U',', &buf[row]))) row++; return 1; } laPropContainer* laGetInstanceType(laPropPack* pp, void* instance){ if(pp->LastPs->p->PropertyType != LA_PROP_SUB) return 0; laSubProp* sp = pp->LastPs->p; if(instance && sp->GetType){ return sp->GetType(instance); } return pp->LastPs->p->SubProp; } laUiDefineFunc laGetPropertyUiDefine(laPropPack* pp, void* instance){ if(pp->LastPs->p->UiDefine) return pp->LastPs->p->UiDefine; laPropContainer* pc=laGetInstanceType(pp, instance); if(pc && pc->UiDefine) return pc->UiDefine; return laui_SubPropInfoDefault; } laPropContainer* la_EnsureSubTarget(laSubProp* sp, void* optional_instance){ if(sp->Base.PropertyType!=LA_PROP_SUB){return sp->Base.SubProp;} if(optional_instance && sp->GetType) return sp->GetType(optional_instance); if(sp->Base.SubProp){ return sp->Base.SubProp; } if(sp->TargetID)sp->Base.SubProp=la_ContainerLookup(sp->TargetID); return sp->Base.SubProp; } int laReadInt(laPropPack *pp, int n){ if (pp->LastPs->p->PropertyType & LA_PROP_INT){ laIntProp *p = pp->LastPs->p; if (p->Read) p->Read(pp->LastPs->UseInstance, n); else laSetInt(pp, n); laNotifyUsersPP(pp); return 1; } return 0; } int laSetInt(laPropPack *pp, int n){ if (pp->LastPs->p->PropertyType & LA_PROP_INT){ laIntProp *p = pp->LastPs->p; if (p->Max != p->Min){ n = n > p->Max ? p->Max : (n < p->Min ? p->Min : n); } if (p->Base.DetachedPP.LastPs){ p->Detached[0] = n; laNotifyUsersPP(pp); return 1; } if (p->Set) p->Set(pp->LastPs->UseInstance, n); elif (pp->LastPs->p->Offset>=0){ if (!p->Base.ElementBytes || p->Base.ElementBytes == 4){ if (pp->LastPs->p->OffsetIsPointer) (**((int **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))) = n; else (*((int *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))) = n; }elif (p->Base.ElementBytes == 2){ if (pp->LastPs->p->OffsetIsPointer) (**((short **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))) = n; else (*((short *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))) = n; }elif (p->Base.ElementBytes == 1){ if (pp->LastPs->p->OffsetIsPointer) (**((char **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))) = n; else (*((BYTE *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))) = n; } } laNotifyUsersPP(pp); return 1; } return 0; } int laGetInt(laPropPack *pp){ int n; if (pp->LastPs->p->PropertyType & LA_PROP_INT){ laIntProp *p = pp->LastPs->p; if (p->Base.DetachedPP.LastPs){ return p->Detached[0]; } if (!pp->LastPs->UseInstance) return 0; if (((laIntProp *)pp->LastPs->p)->Get) return ((laIntProp *)pp->LastPs->p)->Get(pp->LastPs->UseInstance); elif (pp->LastPs->p->Offset>=0){ if (!p->Base.ElementBytes || p->Base.ElementBytes == 4){ if (pp->LastPs->p->OffsetIsPointer) n = (**((int **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))); else n = (*((int *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))); }elif (p->Base.ElementBytes == 2){ if (pp->LastPs->p->OffsetIsPointer) n = (**((short **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))); else n = (*((short *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))); }elif (p->Base.ElementBytes == 1){ if (pp->LastPs->p->OffsetIsPointer) n = (**((char **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))); else n = (*((BYTE *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))); } return n; } } return 0; } int laReadFloat(laPropPack *pp, real n){ if (pp->LastPs->p->PropertyType & LA_PROP_FLOAT){ laFloatProp *p = pp->LastPs->p; if (p->Read) p->Read(pp->LastPs->UseInstance, n); else laSetFloat(pp, n); laNotifyUsersPP(pp); return 1; } return 0; } int laSetFloat(laPropPack *pp, real n){ if (pp->LastPs->p->PropertyType & LA_PROP_FLOAT){ laFloatProp *p = pp->LastPs->p; if (p->Max != p->Min){ n = n > p->Max ? p->Max : (n < p->Min ? p->Min : n); } if (p->Base.DetachedPP.LastPs){ p->Detached[0] = n; laNotifyUsersPP(pp); return 1; } if (p->Set) p->Set(pp->LastPs->UseInstance, n); elif (pp->LastPs->p->Offset>=0){ if (pp->LastPs->p->OffsetIsPointer) (**((real **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))) = n; else (*((real *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))) = n; } laNotifyUsersPP(pp); return 1; } return 0; } real laGetFloat(laPropPack *pp){ if (pp->LastPs->p->PropertyType & LA_PROP_FLOAT){ laFloatProp *p = pp->LastPs->p; if (p->Base.DetachedPP.LastPs){ return p->Detached[0]; } if (!pp->LastPs->UseInstance) return 0; if (((laFloatProp *)pp->LastPs->p)->Get) return ((laFloatProp *)pp->LastPs->p)->Get(pp->LastPs->UseInstance); elif (pp->LastPs->p->Offset>=0){ if (pp->LastPs->p->OffsetIsPointer) return (**((real **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))); else return (*((real *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))); } } return 0; } int laGetArrayLength(laPropPack *pp){ if (!pp->LastPs->p) return 0; if (pp->LastPs->p->GetLen) return pp->LastPs->p->GetLen(pp->LastPs->UseInstance); else{ if(pp->LastPs->p->Len==0) pp->LastPs->p->Len=1; return pp->LastPs->p->Len; } } int laSetIntArraySingle(laPropPack *pp, int index, int n){ laIntProp *p = pp->LastPs->p; if (p->Max != p->Min){ n = n > p->Max ? p->Max : (n < p->Min ? p->Min : n); } if (p->Base.DetachedPP.LastPs){ p->Detached[index] = n; laNotifyUsersPP(pp); return; } if (!pp->LastPs->UseInstance) return 0; if (pp->LastPs->p->PropertyType & LA_PROP_INT){ if (p->SetArr){ p->SetArr(pp->LastPs->UseInstance, index, n); laNotifyUsersPP(pp); return 1; }elif(p->SetAllArr){ int len = laGetArrayLength(pp); int* t=malloc(len*sizeof(int)); laGetIntArray(pp, t); t[index]=n; laSetIntArrayAllArray(pp, t); free(t); return 1; }elif(p->Set){ laSetInt(pp, n); return 1; }elif (pp->LastPs->p->Offset>=0){ int *src = (pp->LastPs->p->OffsetIsPointer) ? ((int **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)) : ((int *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)); src[index] = n; laNotifyUsersPP(pp); return 1; } } return 0; } int laSetIntArrayAll(laPropPack *pp, int n){ laIntProp *p = pp->LastPs->p; if (p->Max != p->Min){ n = n > p->Max ? p->Max : (n < p->Min ? p->Min : n); } if (p->Base.DetachedPP.LastPs){ int i = 0, len = laGetArrayLength(pp); for (i; i < len; i++){ p->Detached[i] = n; } laNotifyUsersPP(pp); return 1; } if (!pp->LastPs->UseInstance) return 0; if (pp->LastPs->p->PropertyType & LA_PROP_INT){ if (p->SetAll) p->SetAll(pp->LastPs->UseInstance, n); else if (p->SetArr){ int i = 0, len = laGetArrayLength(pp); for (i; i < len; i++){ p->SetArr(pp->LastPs->UseInstance, i, n); } }elif (pp->LastPs->p->Offset>=0){ real *src = (pp->LastPs->p->OffsetIsPointer) ? ((real **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)) : ((real *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)); int i = 0, len = laGetArrayLength(pp); for (i; i < len; i++){ src[i] = n; } } laNotifyUsersPP(pp); return 1; } return 0; } int laReadIntArrayAllArray(laPropPack *pp, int *arr){ if (pp->LastPs->p->PropertyType & LA_PROP_INT){ if (((laIntProp *)pp->LastPs->p)->Base.DetachedPP.LastPs){ int i = 0, len = laGetArrayLength(pp); for (i; i < len; i++){ ((laIntProp *)pp->LastPs->p)->Detached[i] = arr[i]; } return 1; } if (!pp->LastPs->UseInstance) return 0; if (((laIntProp *)pp->LastPs->p)->SetAllArr) ((laIntProp *)pp->LastPs->p)->SetAllArr(pp->LastPs->UseInstance, arr); else laSetIntArrayAllArray(pp, arr); laNotifyUsersPP(pp); return 1; } return 0; } int laSetIntArrayAllArray(laPropPack *pp, int *arr){ if (pp->LastPs->p->PropertyType & LA_PROP_INT){ if (((laIntProp *)pp->LastPs->p)->Base.DetachedPP.LastPs){ int i = 0, len = laGetArrayLength(pp); for (i; i < len; i++){ ((laIntProp *)pp->LastPs->p)->Detached[i] = arr[i]; } laNotifyUsersPP(pp); return 1; } if (!pp->LastPs->UseInstance) return 0; if (((laIntProp *)pp->LastPs->p)->SetAllArr) ((laIntProp *)pp->LastPs->p)->SetAllArr(pp->LastPs->UseInstance, arr); else if (((laIntProp *)pp->LastPs->p)->SetArr){ int i = 0, len = laGetArrayLength(pp); for (i; i < len; i++){ ((laIntProp *)pp->LastPs->p)->SetArr(pp->LastPs->UseInstance, i, arr[i]); } }else if (pp->LastPs->p->Offset>=0){ int *src = (pp->LastPs->p->OffsetIsPointer) ? ((int **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)) : ((int *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)); int i = 0, len = laGetArrayLength(pp); for (i; i < len; i++){ src[i] = arr[i]; } } laNotifyUsersPP(pp); return 1; } return 0; } int laGetIntArray(laPropPack *pp, int *result){ if (pp->LastPs->p->PropertyType & LA_PROP_INT){ laIntProp *p = pp->LastPs->p; if (p->Base.DetachedPP.LastPs){ int len = laGetArrayLength(pp); memcpy(result, p->Detached, len * sizeof(int)); return 1; } if (!pp->LastPs->UseInstance) return 0; if (!((laIntProp *)pp->LastPs->p)->GetAll){ int len = laGetArrayLength(pp); if(len==1){ *result=laGetInt(pp); return 1; } if(pp->LastPs->p->Offset>=0){ int *src = (pp->LastPs->p->OffsetIsPointer) ? ((int **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)) : ((int *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)); memcpy(result, src, len * sizeof(int)); }else{ *result=0; } return 1; }else{ ((laIntProp *)pp->LastPs->p)->GetAll(pp->LastPs->UseInstance, result); return 1; } } return 0; } int laSetFloatArraySingle(laPropPack *pp, int index, real n){ laFloatProp *p = pp->LastPs->p; if (p->Max != p->Min){ n = n > p->Max ? p->Max : (n < p->Min ? p->Min : n); } if (p->Base.DetachedPP.LastPs){ p->Detached[index] = n; laNotifyUsersPP(pp); return 1; } if (!pp->LastPs->UseInstance) return 0; if (pp->LastPs->p->PropertyType & LA_PROP_FLOAT){ if (p->SetArr){ p->SetArr(pp->LastPs->UseInstance, index, n); laNotifyUsersPP(pp); return 1; }elif(p->SetAllArr){ int len = laGetArrayLength(pp); real* t=malloc(len*sizeof(real)); laGetFloatArray(pp, t); t[index]=n; laSetFloatArrayAllArray(pp, t); free(t); return 1; }elif(p->Set){ laSetFloat(pp, n); return 1; }elif (pp->LastPs->p->Offset>=0){ real *src = (pp->LastPs->p->OffsetIsPointer) ? ((real **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)) : ((real *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)); src[index] = n; laNotifyUsersPP(pp); return 1; } } return 0; } int laSetFloatArrayAll(laPropPack *pp, real n){ laFloatProp *p = pp->LastPs->p; if (p->Max != p->Min){ n = n > p->Max ? p->Max : (n < p->Min ? p->Min : n); } if (p->Base.DetachedPP.LastPs){ int i = 0, len = laGetArrayLength(pp); for (i; i < len; i++){ p->Detached[i] = n; } laNotifyUsersPP(pp); return 1; } if (!pp->LastPs->UseInstance) return 0; if (pp->LastPs->p->PropertyType & LA_PROP_FLOAT){ if (p->SetAll) p->SetAll(pp->LastPs->UseInstance, n); else if (p->SetArr){ int i = 0, len = laGetArrayLength(pp); for (i; i < len; i++){ p->SetArr(pp->LastPs->UseInstance, i, n); } }else if (pp->LastPs->p->Offset>=0){ real *src = (pp->LastPs->p->OffsetIsPointer) ? ((real **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)) : ((real *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)); int i = 0, len = laGetArrayLength(pp); for (i; i < len; i++){ src[i] = n; } } laNotifyUsersPP(pp); return 1; } return 0; } int laReadFloatArrayAllArray(laPropPack *pp, real *arr){ if (((laFloatProp *)pp->LastPs->p)->Base.DetachedPP.LastPs){ int i = 0, len = laGetArrayLength(pp); for (i; i < len; i++){ ((laFloatProp *)pp->LastPs->p)->Detached[i] = arr[i]; } return 1; } if (!pp->LastPs->UseInstance) return 0; if (pp->LastPs->p->PropertyType & LA_PROP_FLOAT){ if (((laFloatProp *)pp->LastPs->p)->ReadAll) ((laFloatProp *)pp->LastPs->p)->ReadAll(pp->LastPs->UseInstance, arr); else if (((laFloatProp *)pp->LastPs->p)->SetArr){ int i = 0, len = laGetArrayLength(pp); for (i; i < len; i++){ ((laFloatProp *)pp->LastPs->p)->SetArr(pp->LastPs->UseInstance, i, arr[i]); } }else if (pp->LastPs->p->Offset>=0){ real *src = (pp->LastPs->p->OffsetIsPointer) ? ((real **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)) : ((real *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)); int i = 0, len = laGetArrayLength(pp); for (i; i < len; i++){ src[i] = arr[i]; } } laNotifyUsersPP(pp); return 1; } return 0; } int laSetFloatArrayAllArray(laPropPack *pp, real *arr){ if (((laFloatProp *)pp->LastPs->p)->Base.DetachedPP.LastPs){ int i = 0, len = laGetArrayLength(pp); for (i; i < len; i++){ ((laFloatProp *)pp->LastPs->p)->Detached[i] = arr[i]; } laNotifyUsersPP(pp); return 1; } if (!pp->LastPs->UseInstance) return 0; if (pp->LastPs->p->PropertyType & LA_PROP_FLOAT){ if (((laFloatProp *)pp->LastPs->p)->SetAllArr) ((laFloatProp *)pp->LastPs->p)->SetAllArr(pp->LastPs->UseInstance, arr); else if (((laFloatProp *)pp->LastPs->p)->SetArr){ int i = 0, len = laGetArrayLength(pp); for (i; i < len; i++){ ((laFloatProp *)pp->LastPs->p)->SetArr(pp->LastPs->UseInstance, i, arr[i]); } }else if (pp->LastPs->p->Offset>=0){ real *src = (pp->LastPs->p->OffsetIsPointer) ? ((real **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)) : ((real *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)); int i = 0, len = laGetArrayLength(pp); for (i; i < len; i++){ src[i] = arr[i]; } } laNotifyUsersPP(pp); return 1; } return 0; } int laGetFloatArray(laPropPack *pp, real *result){ if (pp->LastPs->p->PropertyType & LA_PROP_FLOAT){ laFloatProp *p = pp->LastPs->p; if (p->Base.DetachedPP.LastPs){ int len = laGetArrayLength(pp); memcpy(result, p->Detached, len * sizeof(real)); return 1; } if (!pp->LastPs->UseInstance) return 0; if (!((laFloatProp *)pp->LastPs->p)->GetAll){ int len = laGetArrayLength(pp); if(len==1){ *result=laGetFloat(pp); return 1; } if(pp->LastPs->p->Offset>=0){ real *src = (pp->LastPs->p->OffsetIsPointer) ? ((real **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)) : ((real *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)); memcpy(result, src, len * sizeof(real)); }else{ *result=0; } return 1; }else{ ((laFloatProp *)pp->LastPs->p)->GetAll(pp->LastPs->UseInstance, result); return 1; } } return 0; } int laReadEnum(laPropPack *pp, int n){ if (pp->LastPs->p->PropertyType & LA_PROP_ENUM){ if (((laEnumProp *)pp->LastPs->p)->Read) ((laEnumProp *)pp->LastPs->p)->Read(pp->LastPs->UseInstance, n); else laSetEnum(pp, n); laNotifyUsersPP(pp); return 1; } return 0; } int laSetEnumExternal(laPropPack *pp, int n){ if (pp->LastPs->p->PropertyType & LA_PROP_ENUM){ laEnumProp *ep = pp->LastPs->p; laEnumItem *ei; int i = 0; for (ei = ep->Items.pFirst; ei; ei = ei->Item.pNext){ if (i == n) break; i++; } laSetEnum(pp, ei->Index); } return 0; } int laSetEnum(laPropPack *pp, int n){ if (pp->LastPs->p->PropertyType & LA_PROP_ENUM){ laEnumProp *p = pp->LastPs->p; if (p->Base.DetachedPP.LastPs){ p->Detached[0] = n; laNotifyUsersPP(pp); return 1; } if (!pp->LastPs->UseInstance) return 0; if (p->Set) p->Set(pp->LastPs->UseInstance, n); elif(p->Base.Offset>=0) { if (!p->Base.ElementBytes || p->Base.ElementBytes == 4){ if (pp->LastPs->p->OffsetIsPointer) (**((int **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))) = n; else (*((int *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))) = n; }elif (p->Base.ElementBytes == 2){ if (pp->LastPs->p->OffsetIsPointer) (**((short **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))) = n; else (*((short *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))) = n; }elif (p->Base.ElementBytes == 1){ if (pp->LastPs->p->OffsetIsPointer) (**((char **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))) = n; else (*((BYTE *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))) = n; } } laNotifyUsersPP(pp); return 1; } return 0; } int laReadEnumArrayAll(laPropPack *pp, int *n){ int i, len = pp->LastPs->p->Len; if (pp->LastPs->p->PropertyType & LA_PROP_ENUM){ if (((laEnumProp *)pp->LastPs->p)->ReadAll) ((laEnumProp *)pp->LastPs->p)->ReadAll(pp->LastPs->UseInstance, n); else for (i = 0; i < len; i++){ laSetEnumArrayIndexed(pp, i, n[i]); } laNotifyUsersPP(pp); return 1; } return 0; } int laSetEnumArrayIndexedExternal(laPropPack *pp, int index, int n){ if (pp->LastPs->p->PropertyType & LA_PROP_ENUM){ laEnumProp *ep = pp->LastPs->p; laEnumItem *ei; int i = 0; for (ei = ep->Items.pFirst; ei; ei = ei->Item.pNext){ if (i == n) break; i++; } laSetEnumArrayIndexed(pp, index,ei->Index); } return 0; } int laSetEnumArrayIndexed(laPropPack *pp, int index, int n){ if (pp->LastPs->p->PropertyType & LA_PROP_ENUM){ laEnumProp *p = pp->LastPs->p; if (p->Base.DetachedPP.LastPs){ p->Detached[index] = n; laNotifyUsersPP(pp);return 1; } if (!pp->LastPs->UseInstance) return 0; if (p->SetArr) p->SetArr(pp->LastPs->UseInstance, index, n); elif(p->Set && index==0){ laSetEnum(pp, n); } elif(p->Base.Offset>=0){ if (!p->Base.ElementBytes || p->Base.ElementBytes == 4){ if (pp->LastPs->p->OffsetIsPointer) (**((int **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset + sizeof(int) * index))) = n; else (*((int *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset + sizeof(int) * index))) = n; }elif (p->Base.ElementBytes == 2){ if (pp->LastPs->p->OffsetIsPointer) (**((short **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset + sizeof(short) * index))) = n; else (*((short *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset + sizeof(short) * index))) = n; }elif (p->Base.ElementBytes == 1){ if (pp->LastPs->p->OffsetIsPointer) (**((char **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset + sizeof(char) * index))) = n; else (*((BYTE *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset + sizeof(char) * index))) = n; } } laNotifyUsersPP(pp); return 1; } return 0; } int laSetEnumArrayAllArray(laPropPack* pp, laEnumItem** ei){ int len=laGetArrayLength(pp); for(int i=0;iIndex); } return 0; } int laSetEnumArrayAll(laPropPack* pp, int EnumN){ int len=laGetArrayLength(pp); laEnumProp *ep = pp->LastPs->p; laEnumItem *ei; int i = 0; for (ei = ep->Items.pFirst; ei; ei = ei->Item.pNext){ if (i == EnumN) break; i++; } for(int i=0;iIndex); } return 0; } laEnumItem *laGetEnum(laPropPack *pp){ int n; laEnumItem *ei; if (pp->LastPs->p->PropertyType & LA_PROP_ENUM){ laEnumProp *p = pp->LastPs->p; if (p->Base.DetachedPP.LastPs){ n = p->Detached[0]; }elif (!pp->LastPs->UseInstance) return 0; elif (p->Get) n = p->Get(pp->LastPs->UseInstance); elif(p->Base.Offset>=0){ if (!pp->LastPs->UseInstance) n = 0; elif (!p->Base.ElementBytes || p->Base.ElementBytes == 4){ if (pp->LastPs->p->OffsetIsPointer) n = (**((int **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))); else n = (*((int *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))); }elif (p->Base.ElementBytes == 2){ if (pp->LastPs->p->OffsetIsPointer) n = (**((short **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))); else n = (*((short *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))); }elif (p->Base.ElementBytes == 1){ if (pp->LastPs->p->OffsetIsPointer) n = (**((char **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))); else n = (*((BYTE *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset))); } } for (ei = p->Items.pFirst; ei; ei = ei->Item.pNext){ if (n == ei->Index) return ei; } } return ((laEnumProp *)pp->LastPs->p)->Items.pFirst; } laEnumItem *laGetEnumArrayIndexed(laPropPack *pp, int index){ int n; int i = 0; laEnumItem *ei; int result[16]; if (pp->LastPs->p->PropertyType & LA_PROP_ENUM){ laEnumProp *p = pp->LastPs->p; if (p->Base.DetachedPP.LastPs){ n = p->Detached[index]; }elif (!p->GetAll){ if(laGetArrayLength(pp)==1){return laGetEnum(pp);} if(p->Base.Offset>=0){ if (!pp->LastPs->UseInstance) n = 0; elif (!p->Base.ElementBytes || p->Base.ElementBytes == 4){ if (pp->LastPs->p->OffsetIsPointer) n = (**((int **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)) + index * sizeof(int)); else n = (*((int *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset + index * sizeof(int)))); }elif (p->Base.ElementBytes == 2){ if (pp->LastPs->p->OffsetIsPointer) n = (**((short **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)) + index * sizeof(short)); else n = (*((short *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset + index * sizeof(short)))); }elif (p->Base.ElementBytes == 1){ if (pp->LastPs->p->OffsetIsPointer) n = (**((char **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)) + index * sizeof(char)); else n = (*((BYTE *)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset + index * sizeof(char)))); } } }else{ if (!pp->LastPs->UseInstance) n = 0; else{ p->GetAll(pp->LastPs->UseInstance, result); n = result[index]; } } for (ei = p->Items.pFirst; ei; ei = ei->Item.pNext){ if (n == ei->Index) return ei; } } return 0; } int laGetEnumArray(laPropPack *pp, laEnumItem **result){ int len = laGetArrayLength(pp); int i = 0; laEnumItem *ei; int Results[16]; laEnumProp *p = pp->LastPs->p; if (p->Base.DetachedPP.LastPs){ for (int i = 0; i < len; i++){ Results[i] = p->Detached[i]; for (ei = ((laEnumProp *)pp->LastPs->p)->Items.pFirst; ei; ei = ei->Item.pNext){ if (ei->Index == Results[i]){result[i] = ei; break;} } } }elif (!((laEnumProp *)pp->LastPs->p)->GetAll){ for (i; i < len; i++){ result[i] = laGetEnumArrayIndexed(pp, i); } return 1; }else{ int a = 0; ((laEnumProp *)pp->LastPs->p)->GetAll(pp->LastPs->UseInstance, Results); for (i = 0; i < len; i++){ for (ei = ((laEnumProp *)pp->LastPs->p)->Items.pFirst; ei; ei = ei->Item.pNext){ if (ei->Index == Results[i]){ result[i] = ei; break; } } } } } laEnumItem *laGetEnumFromIdentifier(laEnumProp *p, char *Identifier){ laEnumItem *ei; for (ei = p->Items.pFirst; ei; ei = ei->Item.pNext){ if (!strcmp(ei->Identifier, Identifier)) return ei; } return 0; } int laEnumHasIcon(laPropPack *pp){ laEnumProp *p = pp->LastPs->p; laEnumItem *ei; if ((p->Base.PropertyType & LA_PROP_ENUM) != LA_PROP_ENUM) return 0; for (ei = p->Items.pFirst; ei; ei = ei->Item.pNext){ if (ei->IconID) return 1; } return 0; } int laGetEnumEntryLen(laPropPack *pp){ int i = 0; laEnumItem *ei; if (pp->LastPs->p->PropertyType & LA_PROP_ENUM){ if (((laEnumProp *)pp->LastPs->p)->GetLen) return ((laEnumProp *)pp->LastPs->p)->GetLen(pp->LastPs->UseInstance); for (ei = ((laEnumProp *)pp->LastPs->p)->Items.pFirst; ei; ei = ei->Item.pNext){ i += 1; } return i; } return 0; } int laReadString(laPropPack *pp, char *str){ if (pp->LastPs->p->PropertyType == LA_PROP_STRING){ if (((laStringProp *)pp->LastPs->p)->Read) ((laStringProp *)pp->LastPs->p)->Read(pp->LastPs->UseInstance, str); else laSetString(pp, str); laNotifyUsersPP(pp); return 1; } return 0; } int laSetString(laPropPack *pp, char *str){ char **add = 0; if (pp->LastPs->p->PropertyType == LA_PROP_STRING){ laStringProp *p = pp->LastPs->p; if (p->Base.DetachedPP.LastPs){ strCopyFull(p->Detached, str); laNotifyUsersPP(pp); return 1; } if (p->Set){ p->Set(pp->LastPs->UseInstance, str); laNotifyUsersPP(pp); return 1; } if (!pp->LastPs->UseInstance) return 0; if (p->IsSafeString){ add = ((char **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)); strSafeSet(add, str); laNotifyUsersPP(pp); return 1; } if (p->Base.Offset){ if (p->Base.OffsetIsPointer){ add = ((char **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)); if (!(*add)) return 0; strCopyFull(*add, str); }else strCopyFull(((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset), str); } laNotifyUsersPP(pp); return 1; } return 0; } int laGetString(laPropPack *pp, char *result, char** direct_result){ if (pp->LastPs->p->PropertyType == LA_PROP_STRING){ laStringProp *p = pp->LastPs->p; if (p->Base.DetachedPP.LastPs){ strCopyFull(result, p->Detached); return 1; } if (!pp->LastPs->UseInstance) return 0; if (p->Get){ p->Get(pp->LastPs->UseInstance, result, direct_result); return 1; } if (pp->LastPs->p->Offset>=0){ if (p->IsSafeString){ laSafeString **add = ((laSafeString **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)); //printf(" -- %s\n",p->Base.Identifier); if ((!pp->LastPs->UseInstance) || (!*add)) return 0; if((*add)->Ptr){ *direct_result = (*add)->Ptr; return 1;} return 0; }else{ if (pp->LastPs->p->OffsetIsPointer) *direct_result=*((char **)((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset)); else *direct_result=((BYTE *)pp->LastPs->UseInstance + pp->LastPs->p->Offset); } } return 1; } return 0; } void *laGetInstance(laProp *sub, void *FromInstance, laPropIterator *Iter){ laSubProp *sp = sub; laPropIterator IT = {0}; if (!Iter) Iter = &IT; if (Iter) Iter->Parent = FromInstance; if (sub->PropertyType == LA_PROP_SUB){ if (sp->Base.DetachedPP.LastPs){ if(sp->DetachedGet) return sp->DetachedGet(0, Iter); return sp->Detached; } if (!FromInstance) return 0; if (sp->Get) return sp->Get(FromInstance, Iter); else if (sp->ListHandleOffset){ void *address = *((u64bit*)((BYTE *)FromInstance + sp->ListHandleOffset)); return address; }else return laGetActiveInstance(sub, FromInstance, Iter); } return 0; } void *laGetNextInstance(laProp *sub, void *ThisInstance, laPropIterator *Iter){ laSubProp *sp = sub; if (sub->PropertyType == LA_PROP_SUB){ if (sp->Base.DetachedPP.LastPs && sp->DetachedGetNext) return sp->DetachedGetNext(ThisInstance, Iter); if (!ThisInstance) return 0; if (sp->GetNext) return (sp->GetNext(ThisInstance, Iter)); else if (sp->ListHandleOffset){ laListItem *li = ThisInstance; return li->pNext; } } return 0; } void *laGetActiveInstanceStrict(laProp *sub, void *FromInstance){ laSubProp *sp = sub; if (sub->PropertyType == LA_PROP_SUB){ if (sp->Base.DetachedPP.LastPs){ return sp->Detached; } if (!FromInstance) return 0; if (sp->GetActive) return sp->GetActive(FromInstance, 0); if (sub->Offset>=0){ if (sub->OffsetIsPointer /*&& (sp->Get||sp->ListHandleOffset)*/){ void **a = (void **)((BYTE *)FromInstance + sub->Offset); return *a; }else return ((BYTE *)FromInstance + sub->Offset); } } return 0; // laGetInstance(sub, FromInstance, 0); } void *laGetActiveInstance(laProp *sub, void *FromInstance, laPropIterator *Iter){ laSubProp *sp = sub; if (sub->PropertyType == LA_PROP_SUB){ if (sp->Base.DetachedPP.LastPs){ return sp->Detached; } if (!FromInstance) return 0; if (sp->GetActive) return sp->GetActive(FromInstance, Iter); if (sp->Get) return laGetInstance(sub, FromInstance, Iter); if (sub->Offset>=0){ if (sub->OffsetIsPointer){ void **a = (void **)((BYTE *)FromInstance + sub->Offset); return *a; }else return ((BYTE *)FromInstance + sub->Offset); } } return 0; } void laSetActiveInstance(laProp *sub, void *FromInstance, void *Instance){ laSubProp *sp = sub; if (sub->PropertyType == LA_PROP_SUB){ MAIN._CONTAINER_SETTING=sub->Container; MAIN._PROP_SETTING=sub; if (sp->Base.DetachedPP.LastPs){ memAssignRef(sp, &sp->Detached, Instance); laNotifySubPropUsers(sp, FromInstance); return; } if (!FromInstance) return; if (sp->SetState){ laNotifySubPropUsers(sp, FromInstance); sp->SetState(FromInstance, Instance, LA_UI_ACTIVE); } if (sp->Set){ laNotifySubPropUsers(sp, FromInstance); sp->Set(FromInstance, Instance); } if (sub->OffsetIsPointer && sub->Offset>=0){ void **a = (void **)((BYTE *)FromInstance + sub->Offset); laNotifySubPropUsers(sp, FromInstance); memAssignRefSafe(sub->Container->Hyper?sp:0,FromInstance, a, Instance); } } return; } void laAppendInstance(laSubProp *sub, void *FromInstance, void *Instance){ if (sub->ListHandleOffset){ lstAppendItem((BYTE *)FromInstance + sub->ListHandleOffset, Instance); } } void* laGetRaw(laPropPack *pp, int* r_size, int* return_is_a_copy){ if (pp->LastPs->p->PropertyType == LA_PROP_RAW){ laRawProp* rp=pp->LastPs->p; if(rp->RawGet){ return rp->RawGet(pp->LastPs->UseInstance, r_size, return_is_a_copy); } int s=rp->RawGetSize(pp->LastPs->UseInstance); void* data=0; if(rp->Base.OffsetIsPointer){ data=*((void**)(((char*)pp->LastPs->UseInstance)+rp->Base.Offset)); } else{ data=((char*)pp->LastPs->UseInstance)+rp->Base.Offset; } *return_is_a_copy=0; if(r_size) *r_size=s; return data; } return 0; } int laSetRaw(laPropPack *pp, void* data, int _size){ if (pp->LastPs->p->PropertyType == LA_PROP_RAW){ laRawProp* rp=pp->LastPs->p; if(rp->RawSet){ rp->RawSet(pp->LastPs->UseInstance, data, _size); return; } if(rp->Base.OffsetIsPointer){ void** target=(((char*)pp->LastPs->UseInstance)+rp->Base.Offset); if(*target) free(*target); void* newd=_size?calloc(1,_size):0; if(_size)memcpy(newd, data, _size); (*target)=newd; } else{ memcpy(((char*)pp->LastPs->UseInstance)+rp->Base.Offset,data,_size); } return 1; } return 0; } int laTryGetInstanceIdentifier(void* Instance, laPropContainer* pc, char* identifier, char** here){ if(!Instance || !pc) return 0; laProp* p=la_PropLookupIdentifierItem(&pc->Props); if(p){ laPropPack PP={0}; laPropStep PS={0}; PS.p=p; PS.Type='.'; PS.UseInstance=Instance; PP.LastPs=&PS; PP.EndInstance=Instance; if(p->PropertyType==LA_PROP_STRING){ laGetString(&PP,identifier,here); } elif(p->PropertyType&LA_PROP_INT){ int r[16]={0}; laGetIntArray(&PP,r); sprintf("(%s=%d)",p->Identifier,r[0]); } elif(p->PropertyType&LA_PROP_FLOAT){ real r[16]={0}; laGetFloatArray(&PP,r); sprintf("(%s=%lf)",p->Identifier,r[0]); } elif(p->PropertyType&LA_PROP_ENUM){ laEnumItem *r[16]={0}; laGetEnumArray(&PP,r); sprintf("(%s=%lf)",p->Identifier,r[0]?r[0]->Identifier:"?"); } else{ sprintf("(%.6x)",identifier); } return 1; } return 0; } int laGetIntRange(laPropPack *pp, int *min, int *max){ laIntProp *p = pp->LastPs->p; if (p->Max != p->Min){ *min = p->Min; *max = p->Max; return 1; } return 0; } int laGetFloatRange(laPropPack *pp, real *min, real *max){ laFloatProp *p = pp->LastPs->p; if (p->Max != p->Min){ *min = p->Min; *max = p->Max; return 1; } return 0; } int laCanGetState(laProp *sub){ laSubProp *sp = sub; if (sub->PropertyType == LA_PROP_SUB){ if (sp->GetState) return 1; } return 0; } int laCanGetTheme(laProp *sub){ laSubProp *sp = sub; if (sub->PropertyType == LA_PROP_SUB){ if (sp->GetTheme) return 1; } return 0; } int laCanGetGap(laProp *sub){ laSubProp *sp = sub; if (sub->PropertyType == LA_PROP_SUB){ if (sp->GetGap) return 1; } return 0; } int laCanGetCategory(laProp *sub){ laSubProp *sp = sub; if (sub->PropertyType == LA_PROP_SUB){ if (sp->GetCategory) return 1; } return 0; } int laGetUiState(laProp *sub, void *Instance){ laSubProp *sp = sub; if (sub->PropertyType == LA_PROP_SUB){ if (sp->GetState) return sp->GetState(Instance); } return 0; } laBoxedTheme* laGetUiTheme(laProp *sub, void* parent, void *Instance){ laSubProp *sp = sub; if (sub->PropertyType == LA_PROP_SUB){ if (sp->GetTheme) return sp->GetTheme(parent,Instance); } return 0; } int laGetUiGap(laProp *sub, void* parent, void *Instance){ laSubProp *sp = sub; if (sub->PropertyType == LA_PROP_SUB){ if (sp->GetGap) return sp->GetGap(parent,Instance); } return 0; } void laGetCategory(laProp *sub, void* parent, void *Instance, char* buf, char** buf_ptr){ laSubProp *sp = sub; if (sub->PropertyType == LA_PROP_SUB){ if (sp->GetCategory) sp->GetCategory(parent,Instance, buf, buf_ptr); } } int laSetState(laProp *sub, void *FromInstance, void *Instance, int State){ laSubProp *sp = sub; if (sub->PropertyType == LA_PROP_SUB){ if (sp->SetState){ laNotifySubPropUsers(sub, FromInstance); return sp->SetState(FromInstance, Instance, State); } } return 0; } int laActuateProp(laPropPack *This, laPropPack *RunPP, laOperator *OptionalFrom, laEvent *e){ if (RunPP->LastPs->p->PropertyType & LA_PROP_OPERATOR){ if (!((laOperatorProp *)RunPP->LastPs->p)->OperatorType){ ((laOperatorProp *)RunPP->LastPs->p)->OperatorType = laGetOperatorType(((laOperatorProp *)RunPP->LastPs->p)->OperatorID); } return laInvokeP(OptionalFrom, ((laOperatorProp *)RunPP->LastPs->p)->OperatorType, e, This, 0, 0); //ARGS } } void laMarkPropChanged(laPropPack* pp){ if(!pp) return; if(!pp->Go){ if(pp->LastPs&&pp->LastPs->p->Container && pp->LastPs->p->Container->Hyper==2 && pp->LastPs->UseInstance){ laMemNodeHyper* m=memGetHead(pp->LastPs->UseInstance,0); m->Modified=1; } } else for(laPropStep* ps=pp->Go;ps;ps=ps->pNext){ if(ps->Type=='.' && ps->p->Container->Hyper==2 && ps->UseInstance){ laMemNodeHyper* m=memGetHead(ps->UseInstance,0); m->Modified=1; } } laMarkPropChanged(pp->RawThis); } void laMarkMemChanged(void* memuser){ int level; laMemNodeHyper* m=memGetHead(memuser,&level); if(level!=2) return; m->Modified=1; } void laMarkMemClean(void* memuser){ int level; laMemNodeHyper* m=memGetHead(memuser,&level); if(level!=2) return; m->Modified=0; } laPropContainer *la_SetGeneralRoot(laPropContainer **GeneralRoot, const char *Identifier, const char *Name, const char *Description){ laPropContainer* ret =memAcquire(sizeof(laPropContainer)); *GeneralRoot = ret; ret->Identifier = Identifier; ret->Name = Name; ret->Description = Description; ret->OtherAlloc=1; lstAppendItem(&MAIN.PropContainers, ret); return ret; } void laSetRootInstance(void *root){ MAIN.DataRoot.RootInstance = root; } laPropContainer *laDefineRoot(){ if (!MAIN.DataRoot.Root) MAIN.DataRoot.Root = laAddPropertyContainer("root", "__ROOT__", "Root Node In NUL4.0 Data System", U'🞈', 0, 0, 0, 0, 2|LA_PROP_OTHER_ALLOC); return MAIN.DataRoot.Root; } void laThrowToTrashBin(void *Data, char *ContainerString){ laPropContainer *pc = la_ContainerLookup(ContainerString); lstAppendItem(&pc->TrashBin, Data); } int laValidateHyper2(laPropContainer* pc, laPropContainer* ParentHyper2, laSafeString** errors){ int pass=1; for(laProp* p=pc->Props.pFirst;p;p=p->Item.pNext){ if(p->PropertyType!=LA_PROP_SUB) continue; laSubProp* sp=p; if(!p->SubProp && !sp->GetType){ p->SubProp=la_ContainerLookup(sp->TargetID); if(!p->SubProp){ strSafePrint(errors, "Unable to locate property container \"%s\".\n", sp->TargetID); pass=0; continue; } laPropContainer* spc=p->SubProp; laPropContainer* sNoHyper2 = ParentHyper2; if(!ParentHyper2){ if(pc->Hyper==2 && (!(p->UDFNoCreate||p->UDFIsRefer||p->UDFIsSingle))){ sNoHyper2=pc; } } if(sNoHyper2){ if(spc->Hyper==2 && !sp->Base.UDFIsRefer){ strSafePrint(errors,\ "Hyper2 list (\"%s\") under another Hyper2 container (\"%s\") is not allowed.\n", sp->TargetID, sNoHyper2->Identifier); pass=0; } } if(!laValidateHyper2(p->SubProp, sNoHyper2, errors)){pass=0;} if(ParentHyper2) ParentHyper2->validated=1; } } return pass; } int laValidateProperties(){ laSafeString* errors=0; int pass=1; for(laPropContainer* pc=MAIN.PropContainers.pFirst;pc;pc=pc->Item.pNext){ if(pc->validated){continue;} if(!laValidateHyper2(pc, 0, &errors)){ pass=0; } pc->validated=1; } if(!pass){ printf("laValidateHyper2 Failed:\n"); printf(errors->Ptr); } return pass; } //==================================[RW] void la_GetWorkingDirectoryInternal(){ char mbuf[2048]; getcwd(mbuf,2048); int len=strlen(mbuf);if(mbuf[len]!=LA_PATH_SEP){ mbuf[len]=LA_PATH_SEP; mbuf[len+1]=0; } strSafeSet(&MAIN.WorkingDirectory, mbuf); } int laGetRelativeDirectory(char *FullFrom, char *FullTo, char *Result){ return 0; //WIN32_FIND_DATA fd; //HANDLE h; //char *PathFrom = 0, *PathTo = 0; //char FullFromP[1024], FullToP[1024]={0}; //char *FileNameOnly = 0; //int seg, i; // //Result[0] = 0; // //if (!FullFrom || !FullTo || FullFrom[0] != FullTo[0]) // return 0; // //strcpy(FullFromP, FullFrom); //strcpy(FullToP, FullTo); // //while (h = FindFirstFile(FullFromP, &fd)) //{ // if (h == INVALID_HANDLE_VALUE || (!(fd.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY))) // { // strDiscardLastSegmentSeperateBy(FullFromP, '/'); // continue; // } // break; //} // //while (h = FindFirstFile(FullToP, &fd)) //{ // if (!(fd.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)) // { // FileNameOnly = strGetLastSegment(FullToP, '/'); // strDiscardLastSegmentSeperateBy(FullToP, '/'); // continue; // } // elif (h == INVALID_HANDLE_VALUE) // { // strDiscardLastSegmentSeperateBy(FullToP, '/'); // continue; // } // break; //} // //strDiscardSameBeginningSeperatedBy(FullFromP, FullToP, &PathFrom, &PathTo, '/'); // //seg = strCountSegmentSeperateBy(PathFrom, '/'); // //for (i = 0; i < seg; i++) //{ // strcat(Result, "../"); //} // //strcat(Result, PathTo); // //if (FileNameOnly) //{ // strcat(Result, "/"); // strcat(Result, FileNameOnly); //} // //return 1; } void laGetUDFRelativeDirectory(laUDF *From, laUDF *To, char *Result){ if (!From || !To) return; laGetRelativeDirectory(From->FileName->Ptr, To->FileName->Ptr, Result); } void laGetFullPath(char *FullFrom, char *Relative, char *Result){ //WIN32_FIND_DATA fd; //HANDLE h; //char *PathFrom = 0, *PathTo = 0; //char FullFromP[1024] = {0}; //int seg, i; // //Result[0] = 0; // //if (!FullFrom) // return 0; // //strcpy(FullFromP, FullFrom); // //while (h = FindFirstFile(FullFromP, &fd)) //{ // if (h == INVALID_HANDLE_VALUE || (!(fd.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY))) // { // strDiscardLastSegmentSeperateBy(FullFromP, '/'); // continue; // } // break; //} //strcpy(Result, FullFromP); ////strcat(Result, "/"); //strcat(Result, Relative); } laUDF *laPrepareUDF(char *FileName){ laUDF *udf = memAcquire(sizeof(laUDF)); strSafeSet(&udf->FileName, FileName); return udf; } int laWriteProp(laUDF *udf, char *Path){ laUDFPropSegment *ps = CreateNew(laUDFPropSegment); strSafeSet(&ps->Path, Path); la_GetPropFromPath(&ps->PP, 0, Path, 0); la_StepPropPack(&ps->PP); lstAppendItem(&udf->PropsToOperate, ps); udf->NumSegmets++; } int laWritePropP(laUDF *udf, laPropPack *pp){ char buf[LA_RAW_CSTR_MAX_LEN] = {0}; laUDFPropSegment *ps = CreateNew(laUDFPropSegment); ps->PPP = pp; udf->NumSegmets++; //la_GetPropPackFullPath(pp, Buf); //strSafeSet(&ps->Path, Buf); lstAppendItem(&udf->PropsToOperate, ps); } int la_IncludeHyper2Instance(laUDF *udf, laPropContainer* pc, void* Instance){ laUDFH2Instance *h2 = memAcquire(sizeof(laUDFH2Instance)); h2->pc=pc; h2->Instance = Instance; lstAppendItem(&udf->H2Instances, h2); udf->HasInstances=1; } int la_ClearHyper2Instances(laUDF* udf){ laUDFH2Instance *h2; while(h2=lstPopItem(&udf->H2Instances)){ memFree(h2); } udf->HasInstances=0; } //void la_UDFAppendPointerRecord(void* UseInstance, laSubProp* p, void** PendingReference,void* ReadInstance) { // //laUDFPointerRecord* upr = &MAIN.PendingPointers[MAIN.NextPendingPointer]; // //if (!ReadInstance) return; // //upr->ReadInstance = ReadInstance; // //upr->PendingReference = PendingReference; // //upr->SubProp = p; // //upr->UseInstance = UseInstance; // //MAIN.NextPendingPointer++; //} //void la_UDFAppendNUIDRecord(void* UseInstance, laSubProp* p, void** PendingReference, char * ReadNUID) { // //laUDFPointerRecord* upr = &MAIN.PendingPointers[MAIN.NextPendingPointer]; // //if (!ReadNUID) return; // //upr->NUID = CreateNewBuffer(char, 23); // //strcpy(upr->NUID, ReadNUID); // //upr->PendingReference = PendingReference; // //upr->SubProp = p; // //upr->UseInstance = UseInstance; // //MAIN.NextPendingPointer++; //} //void la_UDFAppendPointerSync(void* ReadInstance, void* ActualInstance) { // //laUDFPointerSync* ups = CreateNew(laUDFPointerSync); // //ups->ReadPointer = ReadInstance; // //ups->ActualPointer = ActualInstance; // //hsh65536InsertItem(&MAIN.PointerSync, ups, ReadInstance); //} //void la_UDFAppendNUIDSync(char * ReadNUID, void* ActualInstance) { // //laUDFPointerSync* ups = CreateNew(laUDFPointerSync); // //ups->NUID = CreateNewBuffer(char, 23); // //memcpy(ups->NUID, ReadNUID,sizeof(char)*23); // //ups->ActualPointer = ActualInstance; // //hsh65536InsertItem(&MAIN.PointerSync, ups, (long)ReadNUID[15]); //} void la_UDFAppendSharedTypePointer(char *ID, void *Pointer){ laSharedTypeItem *sti = memAcquireSimple(sizeof(laSharedTypeItem)); strCopyFull(sti->ID, ID); sti->Pointer = Pointer; lstAppendItem(&MAIN.SharedTypePointerSync, sti); } #define la_UseUDF(udf) udf->Used = 1 u64bit la_Tell(laUDF *udf){ if (udf->DiskFile) return ftell(udf->DiskFile); else return udf->Seek; } int la_Seek(laUDF *udf, u64bit Offset){ if (udf->DiskFile) return fseek(udf->DiskFile, Offset, SEEK_SET); udf->Seek = Offset; return 1; } u64bit la_FileSize(laUDF* udf){ if(udf->DiskFile){ u64bit a=ftell(udf->DiskFile); fseek(udf->DiskFile,0,SEEK_END); u64bit sz=ftell(udf->DiskFile); fseek(udf->DiskFile,a,SEEK_SET); return sz; } return udf->FileContentSize; } void la_WriteString(laUDF *udf, char *String){ short size = strlen(String); fwrite(&size, sizeof(short), 1, udf->DiskFile); if (size) fwrite(String, size*sizeof(char), 1, udf->DiskFile); } void la_WriteOnlyString(laUDF *udf, char *String){ fwrite(String, strlen(String), 1, udf->DiskFile); } void la_WriteOnlyMBString(laUDF *udf, char *String){ fwrite(String, strlen(String), 1, udf->DiskFile); } void la_WriteInt(laUDF *udf, int Data){ fwrite(&Data, sizeof(int), 1, udf->DiskFile); } void la_WriteUByte(laUDF *udf, unsigned char Data){ fwrite(&Data, sizeof(unsigned char), 1, udf->DiskFile); } void la_WriteShort(laUDF *udf, short Data){ fwrite(&Data, sizeof(short), 1, udf->DiskFile); } void la_WriteLong(laUDF *udf, u64bit Data){ fwrite(&Data, sizeof(u64bit), 1, udf->DiskFile); } void la_WritePointer(laUDF *udf, void *Data){ fwrite(&Data, sizeof(void *), 1, udf->DiskFile); } void la_WriteFloat(laUDF *udf, real Data){ fwrite(&Data, sizeof(real), 1, udf->DiskFile); } void la_WriteSized(laUDF *udf, void* Data, int size){ printf("%x %d\n",Data,size); fwrite(Data, size, 1, udf->DiskFile); } short la_ReadShort(laUDF *udf){ short result; if(!udf->FileContent){ fread(&result, sizeof(short), 1, udf->DiskFile); } else{ memcpy(&result, udf->FileContent + udf->Seek, sizeof(short)); udf->Seek += sizeof(short); } return result; } u8bit la_ReadUByte(laUDF *udf){ u8bit result; if(!udf->FileContent){ fread(&result, sizeof(u8bit), 1, udf->DiskFile); } else{ memcpy(&result, udf->FileContent + udf->Seek, sizeof(u8bit)); udf->Seek += sizeof(u8bit); } return result; } int la_ReadInt(laUDF *udf){ int result; if(!udf->FileContent){ fread(&result, sizeof(int), 1, udf->DiskFile); } else{ memcpy(&result, udf->FileContent + udf->Seek, sizeof(int)); udf->Seek += sizeof(int); } return result; } u64bit la_ReadLong(laUDF *udf){ u64bit result; if(!udf->FileContent){ fread(&result, sizeof(u64bit), 1, udf->DiskFile); } else{ memcpy(&result, udf->FileContent + udf->Seek, sizeof(u64bit)); udf->Seek += sizeof(u64bit); } return result; } void *la_ReadPointer(laUDF *udf){ u64bit result = 0; if(!udf->FileContent){ fread(&result, sizeof(u64bit), 1, udf->DiskFile); } else{ memcpy(&result, udf->FileContent + udf->Seek, sizeof(u64bit)); udf->Seek += sizeof(u64bit); } return (void *)result; } real la_ReadFloat(laUDF *udf){ real result; if(!udf->FileContent){ fread(&result, sizeof(real), 1, udf->DiskFile); } else{ memcpy(&result, udf->FileContent + udf->Seek, sizeof(real)); udf->Seek += sizeof(real); } return result; } void la_ReadString(laUDF *udf, char *buffer){ short len = la_ReadShort(udf); if (len){ if(!udf->FileContent){ fread(buffer, sizeof(char) * len, 1, udf->DiskFile); } else{ memcpy(buffer, udf->FileContent + udf->Seek, sizeof(char) * len); udf->Seek += sizeof(char) * len; } } buffer[len] = 0; } void la_ReadOnlyString(laUDF *udf, short len, char *buffer){ if(!udf->FileContent){ fread(buffer, sizeof(char) * len, 1, udf->DiskFile); } else{ memcpy(buffer, udf->FileContent + udf->Seek, sizeof(char) * len); udf->Seek += sizeof(char) * len; } buffer[len] = 0; } void la_ReadHyperData(laUDF *udf, void* HyperUserMem){ short NumUsers, i; //void *CreatorInstance = la_ReadLong(udf); laMemNodeHyper h_ = {0}; laMemNodeHyper *h=HyperUserMem?memGetHead(HyperUserMem, 0):&h_; //la_UDFAppendPointerRecord(0, 0, &h->CreatedBy,CreatorInstance); la_ReadString(udf, h->NUID.String); h->TimeCreated.Year = la_ReadShort(udf); h->TimeCreated.Month = la_ReadUByte(udf); h->TimeCreated.Day = la_ReadUByte(udf); h->TimeCreated.Hour = la_ReadUByte(udf); h->TimeCreated.Minute = la_ReadUByte(udf); h->TimeCreated.Second = la_ReadUByte(udf); } void la_PeekHyperUID(laUDF *udf, char* buf){ int pos=la_Tell(udf); la_ReadString(udf, buf); la_Seek(udf, pos); } void la_ReadBuffer(laUDF *udf, u64bit Size, void *Result){ if(!udf->FileContent){ fread(Result, Size, 1, udf->DiskFile); } else{ memcpy(Result, udf->FileContent + udf->Seek, Size); udf->Seek += Size; } } void* la_ReadRaw(laUDF *udf, int* _sz){ int _size = la_ReadInt(udf); if (_size){ void* data=calloc(1,_size); la_ReadBuffer(udf, _size, data); if(_sz) *_sz=_size; return data; } return 0; } void la_WriteSingleProperty(laUDF *udf, void *FromInstance, laProp *p){ la_WriteString(udf, p->Identifier); } void la_GetPropPackFullPath(laPropPack *pp, char *result){ char buf[1024], upbuf[1024]={0}; if(!pp){result[0]=0; return;} laPropStep *ps; buf[0] = U'\0'; upbuf[0] = 0; if (pp->Go){ for (ps = pp->Go; ps; ps = ps->pNext){ //if (!ps->p||!ps->p->Identifier) strcat(buf, "?"); if(ps->Type=='.') strcat(buf, ps->p->Identifier); if(ps->Type=='#' ||ps->Type=='@' ||ps->Type=='=') {char b2[2]={0}; b2[0]= ps->Type; strcat(buf, b2); strcat(buf, ps->p);} if (ps->pNext && ps->pNext->Type=='.') strcat(buf, "."); } }else{ if(pp->LastPs){ if(pp->LastPs->p->Identifier) strcat(buf, pp->LastPs->p->Identifier); else { strcat(buf,"?"); } } if (pp->RawThis && pp->RawThis->LastPs->p != pp->LastPs->p) strcat(buf, pp->LastPs->p->Identifier); } if (pp->RawThis){ la_GetPropPackFullPath(pp->RawThis, upbuf); if (pp->RawThis->LastPs->p != pp->LastPs->p) strcat(upbuf, "."); strcat(upbuf, buf); strCopyFull(result, upbuf); }else strCopyFull(result, buf); } void la_GetPropPackPath(laPropPack *pp, char *result){ char buf[1024], upbuf[1024]={0}; laPropStep *ps; buf[0] = U'\0'; upbuf[0] = 0; char Sep[2] = {0}; for (ps = pp->Go; ps; ps = ps->pNext){ if (!ps->p->Identifier) break; if (ps->Type == U'.' || !ps->Type) strcat(buf, ps->p->Identifier); else strcat(buf, ps->p); if (ps->pNext) strcat(buf, (Sep[0] = ((laPropStep *)ps->pNext)->Type) ? Sep : "."); } strCopyFull(result, buf); } int la_ReadIntProp(laUDF *udf, laPropPack *pp){ laProp *p; int Data[16] = {0}; int len = 0; int i; if (!pp){ int mode = la_ReadShort(udf); if (mode == LA_UDF_ARRAY_MARK_32){ len = la_ReadShort(udf); for (i = 0; i < len; i++) la_ReadInt(udf); }else Data[0] = la_ReadInt(udf); return Data[0]; } p = pp->LastPs->p; if (p->PropertyType & LA_PROP_ARRAY){ la_ReadShort(udf); //mark len = la_ReadShort(udf); //len = laGetArrayLength(pp); for (i = 0; i < len; i++){ Data[i] = la_ReadInt(udf); } laReadIntArrayAllArray(pp, Data); }else{ la_ReadShort(udf); Data[0] = la_ReadInt(udf); laReadInt(pp, Data[0]); } return Data[0]; } real la_ReadFloatProp(laUDF *udf, laPropPack *pp){ laProp *p; real Data[16] = {0}; int len = 0; int i; if (!pp){ int mode = la_ReadShort(udf); if (mode == LA_UDF_ARRAY_MARK_64){ len = la_ReadShort(udf); for (i = 0; i < len; i++) la_ReadFloat(udf); }else Data[0] = la_ReadFloat(udf); return Data[0]; } p = pp->LastPs->p; if (p->PropertyType & LA_PROP_ARRAY){ la_ReadShort(udf); //mark len = la_ReadShort(udf); //len = laGetArrayLength(pp); for (i = 0; i < len; i++){ Data[i] = la_ReadFloat(udf); } if (pp) laReadFloatArrayAllArray(pp, Data); }else{ la_ReadShort(udf); Data[0] = la_ReadFloat(udf); if (pp) laReadFloat(pp, Data[0]); } return Data[0]; } void la_ReadStringProp(laUDF *udf, laPropPack *pp){ char buf[LA_RAW_CSTR_MAX_LEN]={0}; //XXX: long string not correct... int len = 0; int i; buf[0] = 0; la_ReadShort(udf); la_ReadString(udf, buf); if (pp) laReadString(pp, buf); } void la_ReadStringPropAsIdentifier(laUDF *udf, char *buf){ //char buf[LA_RAW_CSTR_MAX_LEN]={0}; int len = 0; int i; buf[0] = 0; la_ReadShort(udf); la_ReadString(udf, buf); } void la_WriteIntProp(laUDF *udf, laPropPack *pp){ laProp *p = pp->LastPs->p; int Data[16] = {0}; int len = 0; int i; if (p->PropertyType & LA_PROP_ARRAY){ la_WriteShort(udf, LA_UDF_ARRAY_MARK_32); laGetIntArray(pp, Data); len = laGetArrayLength(pp); la_WriteShort(udf, len); for (i = 0; i < len; i++){ la_WriteInt(udf, Data[i]); } }else{ la_WriteShort(udf, LA_UDF_REGULAR_MARK_32); Data[0] = laGetInt(pp); la_WriteInt(udf, Data[0]); } } void la_WriteFloatProp(laUDF *udf, laPropPack *pp){ laProp *p = pp->LastPs->p; real Data[16] = {0}; int len = 0; int i; if (p->PropertyType & LA_PROP_ARRAY){ la_WriteShort(udf, LA_UDF_ARRAY_MARK_64); laGetFloatArray(pp, Data); len = laGetArrayLength(pp); la_WriteShort(udf, len); for (i = 0; i < len; i++){ la_WriteFloat(udf, Data[i]); } }else{ la_WriteShort(udf, LA_UDF_REGULAR_MARK_64); Data[0] = laGetFloat(pp); la_WriteFloat(udf, Data[0]); } } void la_WriteStringProp(laUDF *udf, laPropPack *pp){ laProp *p = pp->LastPs->p; char _buf[LA_RAW_CSTR_MAX_LEN]={0}; char* buf=_buf; int len = 0; int i; buf[0] = 0; la_WriteShort(udf, LA_UDF_STRING_MARK); laGetString(pp, _buf, &buf); la_WriteString(udf, buf); } void la_ReadEnumProp(laUDF *udf, laPropPack *pp, char* orig_string){ laProp *p; int Data[16] = {0}; int len = 0; int i; char buf[LA_RAW_CSTR_MAX_LEN]={0}; if (!pp){ int mode = la_ReadShort(udf); if (mode == LA_UDF_ARRAY_MARK_32){ len = la_ReadShort(udf); for (i = 0; i < len; i++) la_ReadString(udf, buf); //la_ReadInt(udf); }else la_ReadString(udf, buf); //la_ReadInt(udf); if(orig_string)strcpy(orig_string, buf); return; } p = pp->LastPs->p; if (p->PropertyType & LA_PROP_ARRAY){ la_ReadShort(udf); len = la_ReadShort(udf); for (i = 0; i < len; i++){ la_ReadString(udf, buf); Data[i] = laGetEnumFromIdentifier(p, buf)->Index; //Data[i] = la_ReadInt(udf); } if (pp) laReadEnumArrayAll(pp, Data); }else{ la_ReadShort(udf); la_ReadString(udf, buf); Data[0] = laGetEnumFromIdentifier(p, buf)->Index; //Data[0] = la_ReadInt(udf); if (pp) laReadEnum(pp, Data[0]); } } void la_WriteEnumProp(laUDF *udf, laPropPack *pp){ laProp *p = pp->LastPs->p; laEnumItem *Data[16] = {0}; int len = 0; int i; if (p->PropertyType & LA_PROP_ARRAY){ la_WriteShort(udf, (LA_UDF_ARRAY_MARK_32 | LA_UDF_STRING_MARK)); laGetEnumArray(pp, Data); len = laGetArrayLength(pp); la_WriteShort(udf, len); for (i = 0; i < len; i++){ la_WriteString(udf, Data[i]->Identifier); //la_WriteInt(udf, Data[i]->Index); } }else{ la_WriteShort(udf, LA_UDF_STRING_MARK); Data[0] = laGetEnum(pp); la_WriteString(udf, Data[0]->Identifier); //la_WriteInt(udf, Data[0]->Index); } } void la_ReadRawProp(laUDF *udf, laPropPack *pp){ la_ReadShort(udf);//mark int _size=0; void* data=la_ReadRaw(udf,&_size); if (pp) laSetRaw(pp, data, _size); free(data); } void la_WriteRawProp(laUDF *udf, laPropPack *pp){ laProp *p = pp->LastPs->p; void* data; int _size=0, IsCopy=0; data=laGetRaw(pp, &_size, &IsCopy); la_WriteShort(udf, LA_UDF_RAW_MARK); if(!data){ _size=0; } la_WriteInt(udf,_size); if(_size){ la_WriteSized(udf,data,_size); } if(IsCopy && data){ free(data); } } void la_WriteHyperData(laUDF *udf, void *HyperUserMem){ int loc = 0, res = 0, i = 0; laItemUserLinker *iul; laMemNodeHyper* h=memGetHead(HyperUserMem, 0); //la_WriteLong(udf, h->CreatedBy); la_WriteString(udf, h->NUID.String); la_WriteShort(udf, h->TimeCreated.Year); la_WriteUByte(udf, h->TimeCreated.Month); la_WriteUByte(udf, h->TimeCreated.Day); la_WriteUByte(udf, h->TimeCreated.Hour); la_WriteUByte(udf, h->TimeCreated.Minute); la_WriteUByte(udf, h->TimeCreated.Second); } laSharedTypeItem *la_ReferringToSharedResource(void *p){ laSharedTypeItem *sti; for (sti = MAIN.SharedTypePointerSync.pFirst; sti; sti = sti->Item.pNext){ if (sti->Pointer == p) return sti; } return 0; } void *la_FindSharedResouce(char *id){ laSharedTypeItem *sti; for (sti = MAIN.SharedTypePointerSync.pFirst; sti; sti = sti->Item.pNext){ if (strSame(id, sti->ID)) return sti->Pointer; } return 0; } void la_AppendHyperRecord(laUDF *udf, void *HyperUserMem, laPropContainer* pc, u64bit Seek){ laUDFHyperRecordItem *hri = lstAppendPointerSized(&udf->HyperRecords, HyperUserMem, sizeof(laUDFHyperRecordItem)); hri->Seek = Seek; hri->pc = pc; } void* la_NextH2Instance(laUDF* udf){ udf->CurrentH2Instance=udf->CurrentH2Instance?udf->CurrentH2Instance->Item.pNext:0; } int la_WriteProp(laUDF *udf, laPropPack *pp, int FromThis, int UseInstanceList){ laProp *p = pp->LastPs->p, *subp = 0; laPropStep SubPS = {0}; laPropPack SubPP = {0}; laPropIterator pi = {0}; laSharedTypeItem *sti; laMemNodeHyper *hi; void *inst = 0; u64bit pReserve = 0, pContinue = 0; int ItemNum = 0, PropNum = 0; int counted = 0; u64bit pEachCount; SubPP.LastPs = &SubPS; if (p->PropertyType == LA_PROP_OPERATOR) return 0; if ((!pp->RawThis) || FromThis){ char FullPath[1024]={0}; FullPath[0] = 0; la_GetPropPackFullPath(pp, FullPath); la_WriteString(udf, FullPath); }else{ la_WriteString(udf, p->Identifier); } switch (p->PropertyType){ case LA_PROP_SUB: if (p->UDFIsRefer){ inst = laGetActiveInstanceStrict(p, pp->LastPs->UseInstance); if (sti = la_ReferringToSharedResource(inst)){ la_WriteShort(udf, LA_UDF_SHARE_RESOURCE); la_WriteString(udf, sti->ID); }else{ if (!p->SubProp){ p->SubProp = la_ContainerLookup(((laSubProp *)p)->TargetID); } if (p->SubProp->Hyper == 2){ la_WriteShort(udf, LA_UDF_REFER | LA_UDF_HYPER_ITEM); if (!inst) la_WriteString(udf, ""); else la_WriteString(udf, ((laMemNodeHyper *)memGetHead(inst,0))->NUID.String); udf->TotalRefs++; }else{ la_WriteShort(udf, LA_UDF_REFER); la_WritePointer(udf, inst); } pp->EndInstance = inst; } udf->TotalRefs++; }else{ la_EnsureSubTarget(p,0); la_WriteShort(udf, LA_UDF_COLLECTION); pReserve = la_Tell(udf); la_WriteInt(udf, 0); //num items if (((laSubProp*)p)->GetType) la_WriteInt(udf, LA_UDF_VARIABLE_NODE_SIZE); else la_WriteInt(udf, LA_UDF_FIXED_NODE_SIZE); la_WriteShort(udf, LA_UDF_ACTIVE); la_WritePointer(udf, laGetActiveInstance(p, pp->LastPs->UseInstance, &pi)); if (FromThis){ inst = pp->EndInstance; }else{ inst = laGetInstance(p, pp->LastPs->UseInstance, &pi); pp->EndInstance = inst; } while (inst){ if(((laSubProp*)p)->SaveFilter && (!((laSubProp*)p)->SaveFilter(pp->LastPs->UseInstance, inst))){ inst = laGetNextInstance(p, inst, &pi); pp->EndInstance = inst; continue; } laPropContainer* pc=p->SubProp; int need_type=0; if (((laSubProp*)p)->GetType){ pc=((laSubProp*)p)->GetType(inst); need_type=1; } if (pc->Hyper == 2){ if((!p->UDFIsSingle) && UseInstanceList&&inst!=udf->CurrentH2Instance->Instance){ inst = laGetNextInstance(p, inst, &pi); pp->EndInstance = inst; continue;} if(need_type){ la_WriteString(udf, pc->Identifier); } hi = inst; la_WriteShort(udf, LA_UDF_HYPER_ITEM); la_AppendHyperRecord(udf, inst, p->SubProp, la_Tell(udf)); la_WriteHyperData(udf, inst); memMarkClean(inst); }else{ if(need_type){ la_WriteString(udf, pc->Identifier); } la_WriteShort(udf, LA_UDF_ITEM); } ItemNum++; la_WritePointer(udf, inst); la_WriteInt(udf, laGetUiState(p, pp->LastPs->UseInstance)); PropNum=0; pEachCount = la_Tell(udf); la_WriteShort(udf, 0); for (subp = pc->Props.pFirst; subp; subp = subp->Item.pNext){ if (subp->UDFIgnore) continue; SubPP.RawThis = pp; SubPS.p = subp; SubPS.UseInstance = inst; if (la_WriteProp(udf, &SubPP, 0, UseInstanceList)) PropNum++; } if (FromThis){ inst = 0; }else{ inst = laGetNextInstance(p, inst, &pi); pp->EndInstance = inst; if(UseInstanceList&&pc->Hyper==2&&(!p->UDFIsSingle)){ la_NextH2Instance(udf); if(!udf->CurrentH2Instance) inst=0; } } pContinue = la_Tell(udf); la_Seek(udf, pEachCount); la_WriteShort(udf, PropNum); la_Seek(udf, pContinue); } pContinue = la_Tell(udf); la_Seek(udf, pReserve); la_WriteInt(udf, ItemNum); la_Seek(udf, pContinue); } break; case LA_PROP_INT: case LA_PROP_ARRAY | LA_PROP_INT: la_WriteIntProp(udf, pp); break; case LA_PROP_FLOAT: case LA_PROP_ARRAY | LA_PROP_FLOAT: la_WriteFloatProp(udf, pp); break; case LA_PROP_STRING: la_WriteStringProp(udf, pp); break; case LA_PROP_ENUM: case LA_PROP_ARRAY | LA_PROP_ENUM: la_WriteEnumProp(udf, pp); break; case LA_PROP_RAW: la_WriteRawProp(udf, pp); break; default: break; } return 1; } void la_AddPostReadNode(void *Instance, laContainerPostReadFunc Func){ laUDFPostRead *upr = lstAppendPointerSized(&MAIN.PostReadNodes, Instance, sizeof(laUDFPostRead)); upr->Instance = Instance; upr->Func = Func; lstAppendItem(&MAIN.PostReadNodes, upr); } laUDFContentNode *la_AppendUDFContentNode(laUDFContentInstance *Parent, laPropPack *ForMe, u64bit FileSeek){ char FullPath[256]={0}; laUDFContentNode *ucn = CreateNew(laUDFContentNode); FullPath[0] = 0; laProp *p = ForMe->LastPs->p; strSafeSet(&ucn->Identifier, p->Identifier); sprintf(FullPath, "%s.%s", Parent->Parent->FullPath->Ptr, p->Identifier); strSafeSet(&ucn->FullPath, FullPath); ucn->PP.Go = &ucn->FakePS; ucn->PP.LastPs = &ucn->FakePS; ucn->FakePS.p = p; ucn->FakePS.Type = U'.'; ucn->PP.RawThis = &Parent->Parent->PP; ucn->Parent = Parent; ucn->FileSeek = FileSeek; lstAppendItem(&Parent->Children, ucn); return ucn; } laUDFContentInstance *la_AppendUDFContentInstance(laUDFContentNode *Parent, u64bit FileSeek){ laUDFContentInstance *uci = CreateNew(laUDFContentInstance); uci->FileSeek = FileSeek; uci->Parent = Parent; strSafePrint(&uci->Identifier,"Instance at seek 0x%0x", FileSeek); lstAppendItem(&Parent->Instances, uci); return uci; } void la_DestroyUDFContentNodeTreeRecursive(laUDFContentNode *ucn, int FreeRoot){ laUDFContentNode *ucni, *NextUCNI; laUDFContentInstance *ucii, *NextUCII; for (ucii = ucn->Instances.pFirst; ucii; ucii = NextUCII){ NextUCII = ucii->Item.pNext; for (ucni = ucii->Children.pFirst; ucni; ucni = NextUCNI){ NextUCNI = ucni->Item.pNext; strSafeDestroy(&ucii->Identifier); lstRemoveItem(&ucii->Children, ucni); la_DestroyUDFContentNodeTreeRecursive(ucni, 1); } lstRemoveItem(&ucn->Instances, ucii); FreeMem(ucii); } strSafeDestroy(&ucn->Identifier); strSafeDestroy(&ucn->FullPath); if (FreeRoot) FreeMem(ucn); } void *la_GetReadDBInstNUID(char *ReferReadNUID){ if (!ReferReadNUID) return 0; laListHandle *l = hsh16MDoHashNUID(&MAIN.DBInst2, ReferReadNUID); for (laMemNodeHyper* m = l->pFirst; m; m = m->Item.pNext){ if (!strcmp(ReferReadNUID, m->NUID.String)) return ((unsigned char*)m)+sizeof(laMemNodeHyper); } return 0; } void *la_GetReadDBInstPtr(void *ReferRead){ if (!ReferRead) return 0; laListHandle *l = hsh16MDoHashLongPtr(&MAIN.DBInst1, ReferRead); for (laMemNode* m = l->pFirst; m; m = m->Item.pNext){ if (ReferRead == m->ReadInstance) return ((unsigned char*)m)+sizeof(laMemNode); } return 0; } void la_AddDataInst(void *ReadInstance, char *ReadNUID, void *ActualInstance){ laListHandle* l=0; void* head=memGetHead(ActualInstance, 0); if (ReadNUID) l = hsh16MDoHashNUID(&MAIN.DBInst2, ReadNUID); else { l = hsh16MDoHashLongPtr(&MAIN.DBInst1, ReadInstance); ((laMemNode*)head)->ReadInstance = ReadInstance; } lstPushItem(l, head); //always push so we get the latest during ptr sync. } laPtrSync *la_AddPtrSyncDirect(void *Refer, void *Parent, laProp *Sub){ laPtrSync *ps = memAcquireSimple(sizeof(laPtrSync)); ps->RefDB = Refer; ps->Parent = Parent; ps->Prop = Sub; return ps; } laPtrSyncCommand *la_AddPtrSyncCommand(void *ReadRefer, void *ParentInst, char *ReadNUID, laProp *Sub){ laPtrSyncCommand *psc = memAcquireSimple(sizeof(laPtrSyncCommand)); psc->Target = la_AddPtrSyncDirect(0, ParentInst, Sub); psc->ReadInstance = ReadRefer; if (ReadNUID){ strcpy(psc->ReadNUID.String, ReadNUID); lstAppendItem(&MAIN.PtrSyncHyper2Commands, psc); } else{ lstAppendItem(&MAIN.PtrSyncAddressCommands, psc); } return psc; } void la_ResetInstance(void* inst, laPropContainer* pc, int IsListItem); void laRequestAdditionalRegistry(laUDFRegistry* r); laUDFOwnHyperItem* laNewHyperResource(char* uid); laUDFOwnHyperItem* laFindHyperResource(char* uid); void la_LoadAdditionalRegistries(){ laUDFRegistry* r; while(r=lstPopPointer(&MAIN.PendingResourceRequests)){ laManagedUDF* m; logPrint("[INFO] Loading additional resource: %s\n",r->Path->Ptr); laUDF* udf = laOpenUDF(r->Path->Ptr, 1, 0, &m); if (udf){ laExtractUDF(udf, m, LA_UDF_MODE_OVERWRITE, 0); laCloseUDF(udf); }else{ logPrint("[WARN] Can't open resource: %s\n",r->Path->Ptr); } } } void la_ExecutePtrSyncCommand(int Mode){ int i; laPtrSyncCommand *psc,*NextPSC; laPtrSync *ps; void *dbi; laListHandle *lps, *ldbi; laListHandle L2 = {0}; int FailCount = 0, AllCount = 0; while (psc = lstPopItem(&MAIN.PtrSyncAddressCommands)){ ps = psc->Target; dbi=0; if (psc->ReadInstance) dbi = la_GetReadDBInstPtr(psc->ReadInstance); if (dbi){ //if (Mode == LA_udf_read)dbi->ReadInst = dbi->ActualInst; //?? ps->RefDB = dbi; laSetActiveInstance(ps->Prop, ps->Parent, dbi); }else{ FailCount++; } AllCount++; memFree(psc); } laUDFOwnHyperItem* ohi; for(psc=MAIN.PtrSyncHyper2Commands.pFirst;psc;psc=NextPSC){ NextPSC=psc->Item.pNext; ps = psc->Target; dbi=0; if (psc->ReadNUID.String[0]) dbi = la_GetReadDBInstNUID(psc->ReadNUID.String); if (dbi){ //if (Mode == LA_udf_read)dbi->ReadInst = dbi->ActualInst; //?? ps->RefDB = dbi; laSetActiveInstance(ps->Prop, ps->Parent, dbi); lstRemoveItem(&MAIN.PtrSyncHyper2Commands,psc);memFree(psc); }else{ if(!(ohi=laFindHyperResource(psc->ReadNUID.String))){ logPrint("Can't find resource %s\n", psc->ReadNUID.String); lstRemoveItem(&MAIN.PtrSyncHyper2Commands,psc);memFree(psc); FailCount++; }else{ laRequestAdditionalRegistry(ohi->Registry); lstRemoveItem(&MAIN.PtrSyncHyper2Commands,psc); lstPushItem(&MAIN.PtrSyncHyper2Commands,psc); continue; } } AllCount++; } logPrint("Reference Match: Total %d, Failed %d\n", AllCount, FailCount); la_LoadAdditionalRegistries(); } int la_ExtractFakeProp(laUDF *udf){ char buf[LA_RAW_CSTR_MAX_LEN] = {0}; void *Instance = 0; void *ReadInstance; int ReadState; int NumItems; short PropNumPerItem; void *ActiveInstance; int i, j; int ItemType; short mode, len; int VariableNodeSize; short PreMode; mode = la_ReadShort(udf); switch (mode){ case LA_UDF_REGULAR_MARK_32: la_ReadInt(udf); break; case LA_UDF_REGULAR_MARK_64: la_ReadFloat(udf); break; case (LA_UDF_ARRAY_MARK_32 | LA_UDF_STRING_MARK): len = la_ReadShort(udf); for (i = 0; i < len; i++) la_ReadString(udf, buf); break; case LA_UDF_ARRAY_MARK_32: len = la_ReadShort(udf); for (i = 0; i < len; i++) la_ReadInt(udf); break; case LA_UDF_ARRAY_MARK_64: len = la_ReadShort(udf); for (i = 0; i < len; i++) la_ReadFloat(udf); break; case LA_UDF_STRING_MARK: la_ReadString(udf, buf); break; case LA_UDF_SHARE_RESOURCE: la_ReadString(udf, buf); break; case LA_UDF_REFER: la_ReadPointer(udf); break; case (short)(LA_UDF_REFER | LA_UDF_HYPER_ITEM): la_ReadString(udf, buf); break; case LA_UDF_COLLECTION: NumItems = la_ReadInt(udf); VariableNodeSize = la_ReadInt(udf); VariableNodeSize = (VariableNodeSize == LA_UDF_VARIABLE_NODE_SIZE) ? 1 : 0; la_ReadShort(udf); //active mark ActiveInstance = la_ReadPointer(udf); for (i = 0; i < NumItems; i++){ if(VariableNodeSize){ la_ReadString(udf,buf); } ItemType = la_ReadShort(udf); if (ItemType == LA_UDF_HYPER_ITEM){ la_ReadHyperData(udf, 0); } ReadInstance = la_ReadPointer(udf); ReadState = la_ReadInt(udf); PropNumPerItem=la_ReadShort(udf); for (j = 0; j < PropNumPerItem; j++){ la_ReadString(udf, buf); la_ExtractFakeProp(udf); } } break; default: ReadState = ReadState; break; } return 0; } int la_ExtractProp(laUDF *udf, laManagedUDF* mUDF, laPropPack *pp, void *ParentInst, int Mode, laUDFContentNode *Parent){ laPropStep SubPS = {0}; laPropPack SubPP = {0}; char buf[LA_RAW_CSTR_MAX_LEN] = {0}; laProp *p = pp->LastPs->p, *subp; short SubMode, ItemType = 0; void *Instance = 0; void *ReadInstance; int ReadState; int NumItems; short PropNumPerItem; void *ActiveInstance; short PreReadMode; int i, j; int VariableNodeSize; char NodeType[128]={0}; int EStatus = 0; laUDFContentInstance *uci; real ReadF; int ReadI; int IsExceptionNode = 0; SubPP.LastPs = &SubPS; switch (p->PropertyType){ case LA_PROP_SUB: la_EnsureSubTarget(p, 0); SubMode = la_ReadShort(udf); if (SubMode == LA_UDF_SHARE_RESOURCE){ if (!Parent){ la_ReadString(udf, buf); laSetActiveInstance(p, pp->LastPs->UseInstance, la_FindSharedResouce(buf)); } }elif (SubMode == LA_UDF_REFER){ Instance = la_ReadPointer(udf); if (Instance && !Parent && p->Offset>=0){ if (p->OffsetIsPointer) la_AddPtrSyncCommand(Instance, ParentInst, 0, p); else la_AddDataInst(Instance, 0, ((BYTE *)pp->LastPs->UseInstance + p->Offset)); } }elif (SubMode == (short)(LA_UDF_REFER | LA_UDF_HYPER_ITEM)){ char NUID[32]={0}; NUID[0] = 0; la_ReadString(udf, NUID); if (NUID[0] && !Parent){ la_AddPtrSyncCommand(0, ParentInst, NUID, p); } }elif (SubMode == LA_UDF_COLLECTION){ laProp **PreList = 0; void *ThisDBInst = 0; NumItems = la_ReadInt(udf); VariableNodeSize = la_ReadInt(udf); VariableNodeSize = (VariableNodeSize == LA_UDF_VARIABLE_NODE_SIZE) ? 1 : 0; la_ReadShort(udf); //active mark ActiveInstance = la_ReadPointer(udf); if (NumItems == 0) break; if (p->UDFNoCreate){ laPropIterator PI = {0}; ItemType = la_ReadShort(udf); if (Parent) uci = la_AppendUDFContentInstance(Parent, la_Tell(udf)); Instance = laGetInstance(p, pp->LastPs->UseInstance, &PI); la_ResetInstance(Instance, p->SubProp,0); if (ItemType == LA_UDF_HYPER_ITEM){ if (p->SubProp->Hyper == 2){ if (!Parent && !IsExceptionNode) la_ReadHyperData(udf, Instance); else la_ReadHyperData(udf, 0); if(mUDF) memAssignRef(Instance, &((laMemNodeHyper*)memGetHead(Instance, 0))->FromFile, mUDF); memMarkClean(Instance); }else la_ReadHyperData(udf, 0); if(Mode==LA_UDF_MODE_APPEND){ lstAppendPointer(&MAIN.RenewHyper2s,Instance); } } if (!Parent && p->SubProp->PostRead) la_AddPostReadNode(Instance, p->SubProp->PostRead); ReadInstance = la_ReadPointer(udf); ReadState = la_ReadInt(udf); if (!Parent) ThisDBInst=Instance; PropNumPerItem = la_ReadShort(udf); for (j = 0; j < PropNumPerItem; j++){ int result; laUDFContentNode *ucn; la_ReadString(udf, buf); subp = la_PropLookup(&p->SubProp->Props, buf); SubPP.RawThis = pp; SubPS.p = subp; SubPS.UseInstance = Instance; if ((!subp) ||subp->UDFIgnore){la_ExtractFakeProp(udf); continue;} if (subp&&!subp->SubProp){ subp->SubProp = la_ContainerLookup(((laSubProp *)subp)->TargetID); } if (subp&& Parent && subp->PropertyType == LA_PROP_SUB){ if (!subp->UDFIsRefer && !IsExceptionNode){ ucn = la_AppendUDFContentNode(uci, &SubPP, la_Tell(udf)); result = la_ExtractProp(udf, mUDF, &SubPP, ThisDBInst, Mode, ucn); }else{ result = la_ExtractFakeProp(udf);} }else{ result = (IsExceptionNode||!subp) ? result = la_ExtractFakeProp(udf) : la_ExtractProp(udf, mUDF, &SubPP, ThisDBInst, Mode, Parent); } EStatus = result ? result : EStatus; } if (!Parent && p->SubProp->PostReadIm) p->SubProp->PostReadIm(Instance); }else{ if(Mode==LA_UDF_MODE_APPEND && p->UDFIsSingle){ logPrint("[Note] Mode is APPEND but property '%s' only allows one instance, will overwrite.\n", p->Identifier); } for (i = 0; i < NumItems; i++){ int RealSize=0; laUDF *SaveUDF = 0; int SaveItemType = 0;IsExceptionNode = 0; Instance=0; laPropContainer* pc=p->SubProp; if(VariableNodeSize){ la_ReadString(udf, NodeType); pc=la_ContainerLookup(NodeType); if(!pc){pc=p->SubProp;} RealSize=pc->NodeSize; } ItemType = la_ReadShort(udf); if (Parent) uci = la_AppendUDFContentInstance(Parent, la_Tell(udf)); if(p->UDFReadProgress){ laShowProgress((real)i/NumItems,-1); } //printf("add pc %s\n",pc->Identifier); if(pc==LA_PC_SOCKET_OUT || pc==LA_PC_SOCKET_IN){ laGraphRequestRebuild(); } int replaced=0; if (udf){ int IsItem=((laSubProp*)p)->ListHandleOffset?1:0; RealSize = RealSize ? RealSize : p->SubProp->NodeSize; if (!Parent && !IsExceptionNode){ if (p->UDFIsSingle && pp->EndInstance){ Instance = pp->EndInstance; la_ResetInstance(Instance, pc, IsItem); replaced=1; } else{ // if overwrite, find the instance here for hyper2, if not Hyper 2 then notice can't overwrite. if (pc->Hyper == 2){ if(Mode==LA_UDF_MODE_OVERWRITE && ItemType == LA_UDF_HYPER_ITEM){ laUID uid; la_PeekHyperUID(udf, &uid.String); Instance = la_GetReadDBInstNUID(uid.String); if(Instance){ la_ResetInstance(Instance, pc,IsItem); replaced=1; } else{ /*logPrint("[Note] Hyper2 item [%s] from property '%s' hasn't been loaded yet, will append.\n", uid.String, p->Identifier);*/ } } if(!Instance) Instance = memAcquireHyperNoAppend(RealSize); memMarkClean(Instance); }elif (pc->Hyper == 1) Instance = memAcquire(RealSize); else Instance = memAcquireSimple(RealSize); } } if (ItemType == LA_UDF_HYPER_ITEM){ if (pc->Hyper == 2){ la_ReadHyperData(udf, Instance); if(mUDF) memAssignRef(Instance, &((laMemNodeHyper*)memGetHead(Instance, 0))->FromFile, mUDF); } else la_ReadHyperData(udf, 0); if(Mode==LA_UDF_MODE_APPEND){ lstAppendPointer(&MAIN.RenewHyper2s,Instance); } } if (!Parent && !IsExceptionNode){ if (pc->PostRead) la_AddPostReadNode(Instance, pc->PostRead); } ReadInstance = la_ReadPointer(udf); ReadState = la_ReadInt(udf); if (!Parent && !IsExceptionNode && !replaced){ la_AddDataInst(ReadInstance, pc->Hyper == 2 ? ((laMemNodeHyper *)memGetHead(Instance,0))->NUID.String : 0, Instance); } ThisDBInst = Instance; PropNumPerItem = la_ReadShort(udf); for (j = 0; j < PropNumPerItem; j++){ u64bit ThisSeek; la_ReadString(udf, buf); subp = la_PropLookup(&pc->Props, buf); if ((!subp) || subp->UDFIgnore) la_ExtractFakeProp(udf); else{ int result; laUDFContentNode *ucn; ThisSeek = la_Tell(udf); SubPP.RawThis = pp; SubPS.p = subp; SubPS.UseInstance = Instance; la_EnsureSubTarget(subp, 0); if (Parent && subp->PropertyType == LA_PROP_SUB && subp->SubProp){ if (!subp->UDFIsRefer && !IsExceptionNode){ ucn = la_AppendUDFContentNode(uci, &SubPP, ThisSeek); result = la_ExtractProp(udf, mUDF, &SubPP, ThisDBInst, Mode, ucn); }else{ result = la_ExtractFakeProp(udf); } }else{ result = IsExceptionNode ? la_ExtractFakeProp(udf) : la_ExtractProp(udf, mUDF, &SubPP, ThisDBInst, Mode, Parent); } EStatus = result ? result : EStatus; } } if (!Parent && !IsExceptionNode && !replaced){ if (pc->PostReadIm) pc->PostReadIm(Instance); if (pp->LastPs->UseInstance){ if (!p->UDFIsSingle){ if (((laSubProp *)p)->ListHandleOffset){ laListHandle* inst_lst=(BYTE *)pp->LastPs->UseInstance + ((laSubProp *)p)->ListHandleOffset; if(p->Container->SaverDummy && p==p->Container->SaverDummy){ laPurgeSaverDummy(pp->LastPs->UseInstance,p); } lstAppendItem(inst_lst, Instance); }else{ lstAppendItem(&pc->FailedNodes, Instance); EStatus = 1; } }else{ if (!p->UDFNoCreate){ laSetActiveInstance(p, pp->LastPs->UseInstance, Instance); } } if (ReadInstance == ActiveInstance) laSetActiveInstance(p, pp->LastPs->UseInstance, Instance); }else{ if (!p->UDFIsSingle){ lstAppendItem(&pc->FailedNodes, Instance); EStatus = 1; } } } } } } if (PreList) memFree(PreList); } break; case LA_PROP_INT: case LA_PROP_ARRAY | LA_PROP_INT: ReadI = la_ReadIntProp(udf, Parent ? 0 : pp); if (Parent && p->Tag & LA_AS_IDENTIFIER){ sprintf(buf, "%d", ReadI); strSafeSet(&((laUDFContentInstance *)Parent->Instances.pLast)->Identifier, buf); } break; case LA_PROP_FLOAT: case LA_PROP_ARRAY | LA_PROP_FLOAT: ReadF = la_ReadFloatProp(udf, Parent ? 0 : pp); if (Parent && p->Tag & LA_AS_IDENTIFIER){ sprintf(buf, "%lf", ReadF); strSafeSet(&((laUDFContentInstance *)Parent->Instances.pLast)->Identifier, buf); } break; case LA_PROP_STRING: if (Parent && p->Tag & LA_AS_IDENTIFIER){ la_ReadStringPropAsIdentifier(udf, buf); strSafeSet(&((laUDFContentInstance *)Parent->Instances.pLast)->Identifier, buf); }else{ la_ReadStringProp(udf, Parent ? 0 : pp); } break; case LA_PROP_ENUM: case LA_PROP_ARRAY | LA_PROP_ENUM: la_ReadEnumProp(udf, Parent ? 0 : pp, buf); if (Parent && p->Tag & LA_AS_IDENTIFIER){ strSafeSet(&((laUDFContentInstance *)Parent->Instances.pLast)->Identifier, buf); } break; case LA_PROP_RAW: la_ReadRawProp(udf, pp); break; default: break; } return EStatus; } int la_RematchPointers(int Mode){ laUDFPostRead *uprd; void* inst; la_ExecutePtrSyncCommand(Mode); while(uprd=lstPopItem(&MAIN.PostReadNodes)){ uprd->Func(uprd->Instance); memFree(uprd); } while(inst=lstPopPointer(&MAIN.RenewHyper2s)){ laMemNodeHyper* h=memGetHead(inst,0);memMakeHyperData(h);memAssignRef(h,&h->FromFile,0); } } int laPackUDF(laUDF *udf, int UseInstanceList, int DoBackup){ laUDFPropSegment *ps; short NumSegments = 0; u64bit RefPos; u64bit nuidSeekRef; u64bit nuidActualSeek; char Root[1024]={0}; char FilePath[1024]={0}; if(DoBackup){ char BackupPath[1024]; sprintf(BackupPath,"%s~",udf->FileName->Ptr); laCopyFile(BackupPath,udf->FileName->Ptr); } udf->DiskFile = fopen(udf->FileName->Ptr, "wb"); if (!udf->DiskFile) return 0; la_WriteOnlyMBString(udf, LA_UDF_IDENTIFIER); u64bit SizeAndExt=la_Tell(udf); // reserved for extension switches and file size verifications. la_WritePointer(udf, 0); RefPos = la_Tell(udf); la_WriteLong(udf, 0); //How Many Refs. la_WriteShort(udf, udf->NumSegmets); la_WriteLong(udf, LA_UDF_NUID_SEEK); nuidSeekRef = la_Tell(udf); la_WritePointer(udf, 0); //Seek pos for nuid list; printf("Packing %s:\n", udf->FileName->Ptr); udf->CurrentH2Instance=udf->H2Instances.pFirst; while (ps = lstPopItem(&udf->PropsToOperate)){ printf(" %-15s\n", ps->Path ? ps->Path->Ptr : ps->PPP->LastPs->p->Identifier); la_WriteProp(udf, ps->PPP ? ps->PPP : &ps->PP, ps->PPP ? 1 : 0, UseInstanceList); la_FreePropStepCache(ps->PP.Go); strSafeDestroy(&ps->Path); FreeMem(ps); } printf("[ALL DONE]\n"); nuidActualSeek = la_Tell(udf); la_WriteHyperRecords(udf); u64bit ActualSize=la_Tell(udf); la_Seek(udf, RefPos); la_WriteLong(udf, udf->TotalRefs); la_Seek(udf, nuidSeekRef); la_WritePointer(udf, nuidActualSeek); la_Seek(udf, SizeAndExt); la_WritePointer(udf, (ActualSize&(0x0000ffffffffffff))<<16); udf->Modified = 0; laCloseUDF(udf); laHideProgress(); return 1; } int laExtractUDF(laUDF *udf, laManagedUDF* mUDF, int Mode, laListHandle *Parent){ char Identifier[9] = {0}; char buf[1024]={0}; short Version, NumSegments; //laPropStep SubPS = { 0 }; int PointerBits; laPropPack SubPP = {0}; int i; int EStatus = 0; u64bit SeekRef; int IsPart; laUDFContentNode *ucni = Parent; la_ReadBuffer(udf, sizeof(LA_UDF_IDENTIFIER) - 1, Identifier); // file size verification and extension switches. u64bit verification=la_ReadPointer(udf); u64bit FileSize=verification>>16; int Extensions=verification&0xffff; if(FileSize && FileSizeFileName->Ptr); return 0; } /*udf->TotalRefs = */ la_ReadLong(udf); NumSegments = la_ReadShort(udf); la_ReadLong(udf); //seek mark SeekRef = la_ReadPointer(udf); logPrintNew("Extracting UDF %s:\n", udf->FileName->Ptr); //MAIN.NextPendingPointer = 0; //MAIN.PendingPointers = CreateNewBuffer(laUDFPointerRecord, udf->TotalRefs); //SubPP.LastPs = &SubP; if (!udf->PropsToOperate.pFirst){ //Extract All for (i = 0; i < NumSegments; i++){ laUDFContentNode *ucn; laUDFContentInstance *uci; void *dbi = 0; int result; int LastOffset; la_ReadString(udf, buf); LastOffset = strlen(buf) - 1; buf[LastOffset] = buf[LastOffset] == U'.' ? 0 : buf[LastOffset]; logPrint(" Prop Segment \"%s\" ...\n", buf); la_GetPropFromPath(&SubPP, 0, buf, 0); la_StepPropPack(&SubPP); if (Parent){ ucni = CreateNew(laUDFContentNode); la_GetPropFromPath(&ucni->PP, 0, buf, 0); la_StepPropPack(&ucni->PP); strSafeSet(&ucni->FullPath, buf); strSafeSet(&ucni->Identifier, buf); ucni->FileSeek = la_Tell(udf); lstAppendItem(Parent, ucni); } dbi = SubPP.EndInstance; //la_GetWriteDBInst(SubPP.EndInstance); result = (SubPP.LastPs&&SubPP.LastPs->p)? la_ExtractProp(udf, mUDF, &SubPP, dbi, Mode, ucni): la_ExtractFakeProp(udf); EStatus = result ? result : EStatus; laNotifyUsersPP(&SubPP); logPrint(" [Done]\n", buf); la_FreePropStepCache(SubPP.Go); SubPP.Go = 0; } } la_RematchPointers(Mode); laHideProgress(); return EStatus; } laManagedUDF* la_FindManagedUDF(char* FileName){ for(laManagedUDF* m=MAIN.ManagedUDFs.pFirst;m;m=m->Item.pNext){ if(m->udf&&m->udf->FileName&&!strcmp(m->udf->FileName->Ptr,FileName)) return m; } return 0; } laManagedUDF* la_EnsureManagedUDF(char* FileName, int PutAtTop){ laManagedUDF* m; if(!(m=la_FindManagedUDF(FileName))){ m=memAcquire(sizeof(laManagedUDF)); strSafeSet(&m->BaseName, strGetLastSegment(FileName,LA_PATH_SEP)); if(PutAtTop) lstPushItem(&MAIN.ManagedUDFs, m); else lstAppendItem(&MAIN.ManagedUDFs, m); } return m; } void la_MakeDummyManagedUDF(){ MAIN.DummyManageUDF=la_EnsureManagedUDF("< Save as a new file >", 1); if(!MAIN.DummyManageUDFSingle){ MAIN.DummyManageUDFSingle=memAcquire(sizeof(laManagedUDF)); strSafeSet(&MAIN.DummyManageUDFSingle->BaseName, "< Choose file >"); MAIN.DummyManageUDFSingleForce=memAcquire(sizeof(laManagedUDF)); strSafeSet(&MAIN.DummyManageUDFSingleForce->BaseName, "< Force >"); } } void laSaveProp(char* path){ if(!path || !path[0]) return; laManagedSaveProp* msp=0; for(laManagedSaveProp* m=MAIN.ManagedSaveProps.pFirst;m;m=m->Item.pNext){ if(!strcmp(m->Path->Ptr,path)){ msp=m; break; } } if(!msp){ msp=memAcquireSimple(sizeof(laManagedSaveProp)); lstAppendItem(&MAIN.ManagedSaveProps, msp); } strSafeSet(&msp->Path, path); } void laClearSaveProp(){ laManagedSaveProp* m; while(m=lstPopItem(&MAIN.ManagedSaveProps)) { strSafeDestroy(&m->Path); memFree(m); } } int la_ScanForModifiedRecursive(laPropPack* pp, int ReturnIfAnyMod, int ReturnIfAnyEmpty, int* rempty, int RegisterToUDF){ int result=0; laProp* p=pp->LastPs->p; laPropIterator pi={0}; if(p->PropertyType!=LA_PROP_SUB || p->UDFIsRefer || p->UDFIgnore || p->UDFOnly) return 0; la_EnsureSubTarget(p, 0); //if(p->SubProp && p->SubProp->Hyper!=2) return 0; void* inst = laGetInstance(p, pp->LastPs->UseInstance, &pi); while(inst){ laPropContainer* pc=la_EnsureSubTarget(p, inst); if(pc->Hyper!=2){ laPropPack spp={0}; laPropStep sps={0}; spp.LastPs=&sps; for(laProp* sp=pc->Props.pFirst;sp;sp=sp->Item.pNext){ sps.UseInstance=inst; sps.p=sp; if(sp->PropertyType==LA_PROP_SUB) { result|=la_ScanForModifiedRecursive(&spp, ReturnIfAnyMod, ReturnIfAnyEmpty, rempty, RegisterToUDF); if((ReturnIfAnyMod||ReturnIfAnyEmpty)&&result)return result; } } }else{ laMemNodeHyper* m = memGetHead(inst,0); if(!m->FromFile || m->FromFile==MAIN.DummyManageUDF){ result|=1; if(rempty)*rempty|=1; if((ReturnIfAnyMod||ReturnIfAnyEmpty)&&result)return result; } if((!p->UDFIsSingle)&&RegisterToUDF&&m->FromFile&&m->FromFile->udf){ la_IncludeHyper2Instance(m->FromFile->udf, pc, inst); } if(m->Modified){ if(m->FromFile && m->FromFile->udf){ m->FromFile->udf->Modified=1; } result|=1; if(ReturnIfAnyMod&&result)return result; } } inst=laGetNextInstance(p,inst,&pi); } return result; } int laRegisterModifications(int ReturnIfAnyMod, int ReturnIfAnyEmpty, int* rempty, int RegisterToUDF){ int result=0, registered; if(RegisterToUDF){ReturnIfAnyMod=ReturnIfAnyEmpty=0;} for(laManagedUDF* m=MAIN.ManagedUDFs.pFirst;m;m=m->Item.pNext){ if(!m->udf)continue; m->udf->Modified=0; la_ClearHyper2Instances(m->udf); } for(laManagedSaveProp* msp=MAIN.ManagedSaveProps.pFirst;msp;msp=msp->Item.pNext){ laPropPack PP={0}; registered=0; if(msp->Path&&msp->Path->Ptr&&la_GetPropFromPath(&PP, 0, msp->Path->Ptr, 0)){ la_StepPropPack(&PP); result|=la_ScanForModifiedRecursive(&PP, ReturnIfAnyMod, ReturnIfAnyEmpty, rempty, RegisterToUDF); for(laManagedUDF* m=MAIN.ManagedUDFs.pFirst;m;m=m->Item.pNext){ if(!m->udf)continue; if(m->udf->HasInstances){ laWriteProp(m->udf,msp->Path->Ptr); m->udf->HasInstances=0; } } if((ReturnIfAnyMod||ReturnIfAnyEmpty)&&result)return result; la_FreePropStepCache(PP.Go); } } return result; } void la_ReadUDFToMemory(laUDF *udf){ if (udf->FileContent) return; fseek(udf->DiskFile, 0, SEEK_END); u64bit SeekEnd = ftell(udf->DiskFile); fseek(udf->DiskFile, 0, SEEK_SET); udf->FileContent = calloc(1, SeekEnd); udf->FileContentSize=SeekEnd; fread(udf->FileContent, SeekEnd, 1, udf->DiskFile); udf->Seek = 0; } void la_ReadOwnHyperItems(laUDF *udf, laUDFRegistry* r){ int Count, i; laUDFOwnHyperItem *ohi; Count = la_ReadLong(udf); int Seek; char name[256]; laUID uid; for (i = 0; i < Count; i++){ la_ReadString(udf, uid.String); la_ReadString(udf, name); Seek=la_ReadPointer(udf); laPropContainer* pc = la_ContainerLookup(name); if(!laFindHyperResource(uid.String)){ ohi = laNewHyperResource(uid.String); ohi->Registry = r; ohi->Seek = Seek; strcpy(ohi->NUID.String, uid.String); //logPrint("Found Resource: %s | %s\n",ohi->NUID.String,name); } else {logPrint("Duplicated Resource: %s | %s\n",uid.String,name);} } } int la_WriteHyperRecords(laUDF *udf){ int i = 0; u64bit CountSeek = la_Tell(udf); u64bit EndSeek; laUDFHyperRecordItem *hri; laMemNodeHyper* h; la_WriteLong(udf, 0); while (hri = lstPopItem(&udf->HyperRecords)){ h=memGetHead(hri->HyperUserMem, 0); la_WriteString(udf, h->NUID.String); if(hri->pc) la_WriteString(udf, hri->pc->Identifier); else la_WriteString(udf, ""); la_WritePointer(udf, hri->Seek); i++; memFree(hri); } EndSeek = la_Tell(udf); la_Seek(udf, CountSeek); la_WriteLong(udf, i); la_Seek(udf, EndSeek); return i; } laUDF *laOpenUDF(char *FileName, int ReadToMemory, laUDFRegistry* ReadRegistryRef, laManagedUDF** UseManaged){ char Identifier[9] = {0}; u64bit SeekRef; laUDF *udf; u64bit extensions; char FilePath[1024]={0}; udf=memAcquire(sizeof(laUDF)); strSafeSet(&udf->FileName, FileName); udf->DiskFile = fopen(udf->FileName->Ptr, "rb"); if (!udf->DiskFile) return 0; if(ReadToMemory){ la_ReadUDFToMemory(udf); fclose(udf->DiskFile); udf->DiskFile = 0; } la_ReadBuffer(udf, sizeof(LA_UDF_IDENTIFIER) - 1, Identifier); if (!strSame(Identifier, LA_UDF_IDENTIFIER)){ laCloseUDF(udf); logPrintNew("\"%s\" is not a UDF file.\n", FileName); return 0; } if(UseManaged){ laManagedUDF* m=la_EnsureManagedUDF(FileName, 0); if(!m->udf) m->udf=udf; udf->Managed=1; *UseManaged=m; } extensions = la_ReadPointer(udf); udf->TotalRefs = la_ReadLong(udf); //total refs udf->NumSegmets = la_ReadShort(udf); //num segments la_ReadLong(udf); //seek mark SeekRef = la_ReadPointer(udf); la_Seek(udf, SeekRef); if(ReadRegistryRef){ la_ReadOwnHyperItems(udf, ReadRegistryRef); } la_Seek(udf, 0); udf->Opened = 1; return udf; } void laCloseUDF(laUDF *udf){ laUDFOwnHyperItem *ohi; laUDFHyperRecordItem *hri; laUDFPropSegment *ps; if (udf->DiskFile){ fclose(udf->DiskFile); udf->DiskFile=0; }; while (lstPopPointer(&udf->OwnHyperItems)); while (lstPopPointer(&udf->HyperRecords)); if(udf->CurrentH2Instance){ logPrint("[WARN] udf->CurrentH2Instance!=0 after UDF packing.\n"); udf->CurrentH2Instance=0; } udf->NumSegmets=0; la_ClearHyper2Instances(udf); if(udf->FileContent) FreeMem(udf->FileContent); if(!udf->Managed){ strSafeDestroy(&udf->FileName); memFree(udf); } } int laLoadHyperResources(char* uid_search){ int count=0; logPrintNew("Loading extra resources \"%s\"\n",uid_search); for(laUDFOwnHyperItem* ohi=MAIN.UDFResources.pFirst;ohi;ohi=ohi->Item.pNext){ if(strstr(ohi->NUID.String,uid_search)){ laRequestAdditionalRegistry(ohi->Registry); count++; }; } if(count){ la_LoadAdditionalRegistries(); } return count; } laUDFOwnHyperItem* laFindHyperResource(char* uid){ for(laUDFOwnHyperItem* ohi=MAIN.UDFResources.pFirst;ohi;ohi=ohi->Item.pNext){ if(!strcmp(uid, ohi->NUID.String)) return ohi; } return 0; } laUDFOwnHyperItem* laNewHyperResource(char* uid){ laUDFOwnHyperItem* ohi = memAcquireSimple(sizeof(laUDFOwnHyperItem)); lstAppendItem(&MAIN.UDFResources, ohi); return ohi; } laUDFRegistry* laFindUDFRegistry(char* Path){ for(laUDFRegistry* r=MAIN.ResourceRegistries.pFirst;r;r=r->Item.pNext){ if(r->Path && !strcmp(Path, r->Path->Ptr)) return r; } return 0; } laUDFRegistry* laCreateUDFRegistry(char* Path){ if(!Path) return 0; laUDFRegistry* r = memAcquire(sizeof(laUDFRegistry)); strSafeSet(&r->Path, Path); lstAppendItem(&MAIN.ResourceRegistries, r); return r; } void laRequestAdditionalRegistry(laUDFRegistry* r){ if(la_FindManagedUDF(r->Path->Ptr)) return; if(lstHasPointer(&MAIN.PendingResourceRequests, r)) return; logPrint("[INFO] Request additional resources in: %s\n", r->Path->Ptr); lstAppendPointer(&MAIN.PendingResourceRequests,r); } void laClearUDFRegistries(){ laUDFOwnHyperItem* ohi; laUDFRegistry* r; while(ohi=lstPopItem(&MAIN.UDFResources)) memFree(ohi); while(r=lstPopItem(&MAIN.ResourceRegistries)){ strSafeDestroy(&r->Path); memFree(r); } } void laGetSubResourceDirectories(char* rootpath_with_slash, laListHandle* out){ laSafeString*s=0; strSafePrint(&s, "%sUDFExtra" LA_PATH_SEPSTR, rootpath_with_slash); lstAppendPointer(out,s); char Final[1024]; sprintf(Final, "%s.udfextra",rootpath_with_slash); FILE* f=fopen(Final, "r"); if(!f){ return; } char dir[1024]; while(fgets(dir,1024,f)){ laSafeString*s=0; strSafePrint(&s, "%s%s" LA_PATH_SEPSTR, rootpath_with_slash, dir); lstAppendPointer(out,s); } fclose(f); } void laRefreshUDFResourcesIn(char* rootpath){ char Final[2048]; int NumFiles=-1; int len = strlen(rootpath); if (rootpath[len - 1] != LA_PATH_SEP) strcat(rootpath, LA_PATH_SEPSTR); #ifdef __linux__ struct dirent **NameList=0; NumFiles=scandir(rootpath,&NameList,0,alphasort); for(int i=0;id_name, '.'); int file_okay=0; for(laExtensionType* et=MAIN.ExtraExtensions.pFirst;et;et=et->Item.pNext){ if(et->FileType==LA_FILETYPE_UDF && strSame(et->Extension,format)){file_okay=1;break;} } if(!file_okay) continue; struct stat s; sprintf(Final, "%s%s",rootpath,d->d_name); stat(Final, &s); if (!S_ISDIR(s.st_mode)){ if(!laFindUDFRegistry(Final)){ laUDFRegistry* r = laCreateUDFRegistry(Final); laUDF* udf = laOpenUDF(Final, 0, r, 0); if(udf) laCloseUDF(udf); } } } for (int i=0;iItem.pNext) { if (et->FileType == LA_FILETYPE_UDF && strSame(et->Extension, format)) { file_okay = 1; break; } } if (file_okay) { sprintf(Final, "%s%s", rootpath, FindFileData.cFileName); struct stat s; stat(Final, &s); if (!(s.st_mode & S_IFDIR)) { if (!laFindUDFRegistry(Final)) { laUDFRegistry* r = laCreateUDFRegistry(Final); laUDF* udf = laOpenUDF(Final, 0, r, 0); if (udf) laCloseUDF(udf); } } } if (!FindNextFile(hFind, &FindFileData)) break; } #endif if (NumFiles >= 0) { laListHandle additionals = { 0 }; laSafeString* s; laGetSubResourceDirectories(rootpath, &additionals); while (s = lstPopPointer(&additionals)) { laRefreshUDFResourcesIn(s->Ptr); strSafeDestroy(&s); } } } void laRefreshUDFRegistries(){ laClearUDFRegistries(); char LookupM[PATH_MAX]; for(laResourceFolder* rf = MAIN.ResourceFolders.pFirst;rf;rf=rf->Item.pNext){ if(!rf->Path) continue; realpath(rf->Path->Ptr, LookupM); laRefreshUDFResourcesIn(LookupM); } } void laStopManageUDF(laManagedUDF* m){ if(!m) return; lstRemoveItem(&MAIN.ManagedUDFs,m); if(m->udf) { m->udf->Managed=0; laCloseUDF(m->udf); }; strSafeDestroy(&m->BaseName); memFree(m); } void laClearManagedUDF(){ laManagedUDF* m; while(m=MAIN.ManagedUDFs.pFirst){ laStopManageUDF(m); } } void laSaveManagedUDF(){ laRegisterModifications(0,0,0,1); for(laManagedUDF* m=MAIN.ManagedUDFs.pFirst;m;m=m->Item.pNext){ if(!m->udf) continue; if(m->udf->PropsToOperate.pFirst){ laPackUDF(m->udf, 1, 1); } laCloseUDF(m->udf);// just in case } } void laPropagateUDF(laPropContainer* pc, void* inst, int force){ if(!pc->UDFPropagate) return; void* udf=laget_InstanceActiveUDF(inst); if(udf==MAIN.DummyManageUDF) return; pc->UDFPropagate(inst, udf, force); } //==========================================================================[Manifest] void laAddResourceFolder(char* Path){ laResourceFolder* rf=memAcquire(sizeof(laResourceFolder)); if(Path) strSafeSet(&rf->Path, Path); lstAppendItem(&MAIN.ResourceFolders, rf); } void laRemoveResourceFolder(laResourceFolder* rf){ strSafeDestroy(&rf->Path); lstRemoveItem(&MAIN.ResourceFolders, rf); memFree(rf); } void la_ClearUDFRegistryAndFolders(){ laResourceFolder* rf; while(rf=MAIN.ResourceFolders.pFirst){ laRemoveResourceFolder(rf); } laClearUDFRegistries(); } //==========================================================================[undo] void laPushDifferenceOnly(char* Description, u64bit hint){ laDiff* d=memAcquire(sizeof(laDiff)); lstAppendItem(&MAIN.Differences, d); if(MAIN.HeadDifference && Description) strSafeSet(&MAIN.HeadDifference->Description,Description); d->Hint=hint; MAIN.HeadDifference=d; laNotifyUsers("la.differences"); } void laPushDifferences(char* Description, u64bit hint){ memFreeRemainingLeftNodes(); laPushDifferenceOnly(Description,hint); } void la_FreeInstance(void* inst, laPropContainer* pc, int no_free); void la_FreeDBInst(laDBInst* dbi, int no_freeinst, int cleanup_only, int SkipInstances); void la_FreeDBProp(laDBProp* dbp, int cleanup_only, int SkipInstances){ //printf("free dbp %s %x\n",dbp->p->Identifier,dbp); if(dbp->p->PropertyType==LA_PROP_SUB){ if((((laSubProp*)dbp->p)->ListHandleOffset||dbp->p->UDFNoCreate||dbp->p->UDFIsSingle)&&(!dbp->p->UDFIsRefer)&&(!SkipInstances)){ laDBSubProp* dsp=dbp; laDBInst* si; //printf("fdbp %s %x %x %x\n",dbp->p->Identifier,dsp->Instances.pFirst,dsp->Instances.pLast,((laListItem*)dsp->Instances.pFirst)->pNext); while(si=lstPopItem(&dsp->Instances)){ la_FreeDBInst(si,dbp->p->UDFNoCreate||(!dbp->p->OffsetIsPointer),cleanup_only,SkipInstances); } } // prevent freeing the data; }elif(dbp->p->PropertyType==LA_PROP_STRING && ((laStringProp*)dbp->p)->IsSafeString){ strSafeSet(&dbp->Data,0); }elif(dbp->p->PropertyType==LA_PROP_RAW){ printf("raw dbp %s\n",dbp->p->Identifier); free(dbp->Data); }else{ //printf("-data- %x\n",dbp->Data); memFree(dbp->Data); } memFree(dbp); } void la_FreeDBInst(laDBInst* dbi, int no_freeinst, int cleanup_only, int SkipInstances){ laListHandle* l=hsh65536DoHashLongPtr(MAIN.DBInstLink,dbi->OriginalInstance); lstRemoveItem(l, &dbi->Item2); //printf("free dbi %s %x\n", dbi->pc->Identifier,dbi); laDBProp* dbp; while(dbp=lstPopItem(&dbi->Props)){ la_FreeDBProp(dbp, cleanup_only,SkipInstances); } if(dbi->OriginalInstance && (!cleanup_only)) la_FreeInstance(dbi->OriginalInstance, dbi->pc, no_freeinst); memFree(dbi); } void la_FreeDiffCommand(laDiffCommand* dc, laDiff* d, int FromLeft){ //printf("freedc %s\n",dc->p->Identifier); if(dc->p->PropertyType==LA_PROP_SUB && (((laSubProp*)dc->p)->ListHandleOffset||dc->p->UDFNoCreate||dc->p->UDFIsSingle) && (!dc->p->UDFIsRefer)){ laDiffCommandInst* dci; laDiffCommandSub* dcs=dc; while(dci=lstPopItem(&dcs->AddedInst)){ if(!FromLeft) la_FreeDBInst(dci->DBInst,(dc->p->UDFNoCreate||(!dc->p->OffsetIsPointer)),0,0); memFree(dci); } while(dci=lstPopItem(&dcs->MovedInst)){ memFree(dci); } while(dci=lstPopItem(&dcs->RemovedInst)){ if(FromLeft) la_FreeDBInst(dci->DBInst,(dc->p->UDFNoCreate||(!dc->p->OffsetIsPointer)),0,1); memFree(dci); } }elif(dc->p->PropertyType==LA_PROP_STRING && ((laStringProp*)dc->p)->IsSafeString){ strSafeSet(&dc->Data,0); }elif(dc->p->PropertyType==LA_PROP_RAW){ printf("raw %s\n",dc->p->Identifier); free(dc->Data); } memFree(dc); } void la_FreeDifference(laDiff* d, int FromLeft){ laDiffCommand* dc; laDiffCommandCustom* dcc; laDiffExtraTouched* det; while(dc=lstPopItem(&d->Commands)){ la_FreeDiffCommand(dc,d,FromLeft); } while(dcc=lstPopItem(&d->CustomCommands)){ if(dcc->Free) dcc->Free(dcc->Data, FromLeft); } while(det=lstPopItem(&d->ExtraTouched)){ memFree(det); } //if(d->Description&&d->Description->Ptr){printf("%s\n",d->Description->Ptr);} strSafeDestroy(&d->Description); } void laFreeNewerDifferences(){ laDiff* PrevD; if(MAIN.HeadDifference==MAIN.Differences.pLast) return; for(laDiff* d=MAIN.Differences.pLast;d;d=PrevD){ PrevD=d->Item.pPrev; lstRemoveItem(&MAIN.Differences,d); la_FreeDifference(d,0); if(MAIN.HeadDifference==d){ MAIN.HeadDifference=PrevD; laPushDifferenceOnly(0,0); break; } } } void laFreeOlderDifferences(int KeepHowMany){ laDiff* endd; int count=0; for(endd=MAIN.HeadDifference;endd;endd=endd->Item.pPrev){ if(count>=KeepHowMany) break; count++; } if(!endd) return; laDiff* d,*NextD; while(d=lstPopItem(&MAIN.Differences)){ NextD=MAIN.Differences.pFirst; la_FreeDifference(d,1); if(MAIN.HeadDifference==d){ MAIN.HeadDifference=NextD; laPushDifferenceOnly(0,0); break; } if(d==endd){ break; } } } void la_FreeAllDifferences(){ laFreeNewerDifferences(); laFreeOlderDifferences(1); } void la_NoLongerRecordUndo(){ la_FreeAllDifferences(); laDBProp*dbp; while(dbp=lstPopItem(&MAIN.RootDBInst.Props)){ la_FreeDBProp(dbp,1,0); } laDBRecordedProp* p; while(p=lstPopItem(&MAIN.DBRecordedProps)){ strSafeDestroy(&p->OriginalPath); memFree(p); } hshFree(&MAIN.DBInstLink); } void la_RelinkDBInst(laDBInst* dbi, void* New_OriginalInstance){ if(dbi->OriginalInstance){ laListHandle* l=hsh65536DoHashLongPtr(MAIN.DBInstLink,dbi->OriginalInstance); lstRemoveItem(l, &dbi->Item2); } dbi->OriginalInstance = New_OriginalInstance; laListHandle* l=hsh65536DoHashLongPtr(MAIN.DBInstLink,dbi->OriginalInstance); lstPushItem(l, &dbi->Item2); } laDBInst* laAddDBInst(laDBProp* parent, void* inst, laPropContainer* pc, laDiff* Begin){ laDBInst* dbi=memAcquire(sizeof(laDBInst)); if(!Begin) Begin=MAIN.HeadDifference; dbi->pc=pc; if(parent){ lstAppendItem(&((laDBSubProp*)parent)->Instances, dbi); } la_RelinkDBInst(dbi, inst); return dbi; } laDBProp* laAddDBProp(laDBInst* dbi, laProp* p, void* data){ int size=sizeof(laDBProp); if(p->PropertyType==LA_PROP_SUB && (!p->UDFIsRefer)){size=sizeof(laDBSubProp);} elif(p->PropertyType==LA_PROP_RAW){size=sizeof(laDBRawProp);} laDBProp* dbp=memAcquire(size); dbp->p=p; dbp->Data=data; lstAppendItem(&dbi->Props, dbp); return dbp; } void laAddDBPReferAcquire(laDBProp* dbp){ if(!dbp->Data) return; if(!lstHasPointer(&MAIN.DBInstPendingAcquireDBP, dbp)) lstAppendPointer(&MAIN.DBInstPendingAcquireDBP, dbp); } void laAddDiffCMDReferAcquire(laDiffCommand* ds){ if(!ds->Data) return; if(!lstHasPointer(&MAIN.DBInstPendingAcquireDiffCMD, ds)) lstAppendPointer(&MAIN.DBInstPendingAcquireDiffCMD, ds); } laDiffCommand* la_GiveDiffCommand(laDiff* diff, laDBInst* Instance, laProp* p, void* Data){ for(laDiffCommand* dc=diff->Commands.pFirst;dc;dc=dc->Item.pNext){ if(dc->Instance == Instance && dc->p == p) return dc; } int size=sizeof(laDiffCommand); if(p->PropertyType==LA_PROP_SUB && (!(p->UDFIsRefer||p->UDFIsSingle||p->UDFNoCreate))){size=sizeof(laDiffCommandSub);} elif(p->PropertyType==LA_PROP_RAW){size=sizeof(laDiffCommandRaw);} laDiffCommand* dc = memAcquire(size); dc->Instance=Instance; dc->p=p; dc->Data = Data; lstAppendItem(&diff->Commands,dc); return dc; } void la_GiveExtraTouched(laDiff* diff, laDBInst* dbi){ if(!dbi->pc->UndoTouched) return; laDiffExtraTouched* det=memAcquire(sizeof(laDiffExtraTouched)); det->dbi=dbi; lstAppendItem(&diff->ExtraTouched,det); } int la_AddIntDBProp(laDBInst* dbi, laDBProp* dbp, laDiff* diff, laPropPack *pp){ laProp *p = pp->LastPs->p; int *Data; int len = laGetArrayLength(pp); int ret=0; Data= memAcquireSimple(sizeof(int)*len); laGetIntArray(pp, Data); if(diff&&dbp){ if(memcmp(dbp->Data, Data, sizeof(int)*len)){ la_GiveDiffCommand(diff, dbi, p, dbp->Data); dbp->Data=Data; ret=1; } else memFree(Data); } else laAddDBProp(dbi, p, Data); return ret; } int la_AddFloatDBProp(laDBInst* dbi, laDBProp* dbp, laDiff* diff, laPropPack *pp){ laProp *p = pp->LastPs->p; real *Data; int len = laGetArrayLength(pp); int ret=0; Data= memAcquireSimple(sizeof(real)*len); laGetFloatArray(pp, Data); if(diff&&dbp){ if(memcmp(dbp->Data, Data, sizeof(real)*len)){ la_GiveDiffCommand(diff, dbi, p, dbp->Data); dbp->Data=Data; ret=1; } else memFree(Data); } else laAddDBProp(dbi, p, Data); return ret; } int la_AddStringDBProp(laDBInst* dbi, laDBProp* dbp, laDiff* diff, laPropPack *pp){ laProp *p = pp->LastPs->p; char _buf[LA_RAW_CSTR_MAX_LEN]={0}; char* buf=_buf; int ret=0; laGetString(pp, _buf, &buf); if(diff&&dbp){ if((!dbp->Data&&buf[0]) || (buf[0] && strcmp(buf, ((laSafeString*)dbp->Data)->Ptr)) || (!buf[0]&&dbp->Data)){ laDiffCommand* dc=la_GiveDiffCommand(diff, dbi, p, dbp->Data); dbp->Data=0; strSafeSet(&dbp->Data, buf); ret=1; } }else{ laDBProp* dbp=laAddDBProp(dbi, p, 0); strSafeSet(&dbp->Data, buf); } return ret; } int la_AddEnumDBProp(laDBInst* dbi, laDBProp* dbp, laDiff* diff, laPropPack *pp){ laProp *p = pp->LastPs->p; laEnumItem **Data=0; int len = laGetArrayLength(pp); int ret=0; Data= memAcquireSimple(sizeof(laEnumItem*)*len); laGetEnumArray(pp, Data); if(diff&&dbp){ if(memcmp(dbp->Data, Data, sizeof(laEnumItem*)*len)){ la_GiveDiffCommand(diff, dbi, p, dbp->Data); dbp->Data=Data; ret=1; } else memFree(Data); }else laAddDBProp(dbi, p, Data); return ret; } int la_AddRawDBProp(laDBInst* dbi, laDBRawProp* dbp, laDiff* diff, laPropPack *pp){ laProp *p = pp->LastPs->p; int *Data; int s=0; int ret=0; int IsCopy=0; Data=laGetRaw(pp,&s,&IsCopy); if(diff&&dbp){ if(dbp->DataSize!=s || (!dbp->Data&&Data) || (!Data&&dbp->Data) || (dbp->Data&&Data&&memcmp(dbp->Data, Data, s))){ printf("s%d %x %d \n",s,Data,dbp->DataSize); void* NewData=(s&&Data)?calloc(1,s):0; if(s&&Data)memcpy(NewData, Data, s); laDiffCommandRaw* dcr=la_GiveDiffCommand(diff, dbi, p, dbp->Data); dcr->DataSize=dbp->DataSize; dbp->Data=NewData; dbp->DataSize=s; ret=1; } } else{ void* NewData=s?calloc(1,s):0; if(s) memcpy(NewData, Data, s); laDBRawProp* dbp=laAddDBProp(dbi, p, NewData); dbp->DataSize=s; } if(IsCopy){ free(Data); } return ret; } laDiffCommandInst* la_NewDiffCommandInst(laDBInst* DBInst, laDBInst* Prev, laDBInst* Next){ laDiffCommandInst* dci=memAcquire(sizeof(laDiffCommandInst)); dci->DBInst = DBInst; dci->OriginalPrev = Prev; dci->OriginalNext = Next; dci->BeforePrev = DBInst->Item.pPrev; dci->BeforeNext = DBInst->Item.pNext; return dci; } laDBInst* la_GetDiffDBInst(laListHandle* NewAdded, laListHandle* Master, void* instance){ if(!instance) return 0; for(laDiffTemp* dt=NewAdded->pFirst;dt;dt=dt->Item.pNext){ if(((laDBInst*)dt->p)->OriginalInstance == instance) return dt->p; } for(laDBInst* dbi=Master->pFirst;dbi;dbi=dbi->Item.pNext){ if(dbi->OriginalInstance==instance) return dbi; } return 0; } int la_GenerateListDifferences(laDBInst* dbi, laDBSubProp* dbp, laPropPack* pp, laDiff* diff){ laProp *p = pp->LastPs->p, *subp = 0; laPropIterator pi={0}; void* inst; int any=0; laListHandle New={0}, NewAdded={0}, NewDeleted={0}, NewMoved={0}; inst = laGetInstance(p, pp->LastPs->UseInstance, &pi); pp->EndInstance = inst; while (inst){ lstAppendPointer(&New, inst); inst = laGetNextInstance(p, inst, &pi); pp->EndInstance = inst; } for(laDBInst* dbi=dbp->Instances.pFirst;dbi;dbi=dbi->Item.pNext){ void* OldPrev=dbi->Item.pPrev?((laDBInst*)dbi->Item.pPrev)->OriginalInstance:0; void* OldNext=dbi->Item.pNext?((laDBInst*)dbi->Item.pNext)->OriginalInstance:0; int found=0; for(laListItemPointer* lip=New.pFirst;lip;lip=lip->pNext){ void* NewPrev=lip->pPrev?((laListItemPointer*)lip->pPrev)->p:0; void* NewNext=lip->pNext?((laListItemPointer*)lip->pNext)->p:0; if(lip->p == dbi->OriginalInstance){ found=1; if(OldPrev==NewPrev && OldNext==NewNext){break;} else{ laDiffTemp* dt=lstAppendPointerSized(&NewMoved, dbi, sizeof(laDiffTemp)); dt->tPrev=dbi->Item.pPrev; dt->tNext=dbi->Item.pNext; dt->nPrev=NewPrev; dt->nNext=NewNext;break;} } } if(!found){ laDiffTemp* dt=lstAppendPointerSized(&NewDeleted, dbi, sizeof(laDiffTemp));dt->tPrev=dbi->Item.pPrev;dt->tNext=dbi->Item.pNext; any++; } } for(laListItemPointer* lip=New.pFirst;lip;lip=lip->pNext){ int found=0; for(laDBInst* dbi=dbp->Instances.pFirst;dbi;dbi=dbi->Item.pNext){ if(lip->p == dbi->OriginalInstance){ found=1; } } if(!found){ any++; laDiffTemp* dt=lstAppendPointerSized(&NewAdded, lip->p, sizeof(laDiffTemp)); void* NewPrev=lip->pPrev?((laListItemPointer*)lip->pPrev)->p:0; void* NewNext=lip->pNext?((laListItemPointer*)lip->pNext)->p:0; dt->tPrev=NewPrev; dt->tNext=NewNext; laPropContainer* spc=p->SubProp; if(((laSubProp*)p)->GetType){spc=((laSubProp*)p)->GetType(lip->p);} laDBInst* newdbi=laAddDBInst(0, lip->p, spc, diff); dt->p=newdbi; for (subp = spc->Props.pFirst; subp; subp = subp->Item.pNext){ if (subp->UDFIgnore || subp->UDFOnly) continue; if (subp->PropertyType == LA_PROP_OPERATOR) continue; laPropStep SubPS = {0}; laPropPack SubPP = {0}; laPropIterator pi={0}; SubPP.RawThis = pp; SubPS.p = subp; SubPS.UseInstance = lip->p; SubPP.LastPs=&SubPS; any+=laIterateDB(newdbi, &SubPP, 0, 0); } } } for(laDiffTemp* lip=NewAdded.pFirst;lip;lip=lip->Item.pNext){ laDBInst* newdbi=lip->p; lip->tPrev = la_GetDiffDBInst(&NewAdded, &dbp->Instances, lip->tPrev); lip->tNext = la_GetDiffDBInst(&NewAdded, &dbp->Instances, lip->tNext); } for(laDiffTemp* lip=NewMoved.pFirst;lip;lip=lip->Item.pNext){ laDBInst* newdbi=lip->p; lip->tPrev = la_GetDiffDBInst(&NewAdded, &dbp->Instances, lip->nPrev); lip->tNext = la_GetDiffDBInst(&NewAdded, &dbp->Instances, lip->nNext); } laDiffCommandSub* dc=(NewAdded.pFirst||NewDeleted.pFirst||NewMoved.pFirst)?la_GiveDiffCommand(diff, dbi, p, 0):0; for(laDiffTemp* lip=NewAdded.pFirst;lip;lip=lip->Item.pNext){ lstAppendItem(&dc->AddedInst, la_NewDiffCommandInst(lip->p, 0, 0)); laDBInst* newdbi=lip->p; newdbi->Item.pPrev = lip->tPrev; newdbi->Item.pNext = lip->tNext; if(!newdbi->Item.pPrev){dbp->Instances.pFirst=newdbi;} if(!newdbi->Item.pNext){dbp->Instances.pLast=newdbi;} } for(laDiffTemp* lip=NewMoved.pFirst;lip;lip=lip->Item.pNext){ laDBInst* dbi=lip->p; lstAppendItem(&dc->MovedInst, la_NewDiffCommandInst(dbi, lip->tPrev, lip->tNext)); laDBInst* newdbi=lip->p; newdbi->Item.pPrev = lip->tPrev; newdbi->Item.pNext = lip->tNext; if(!dbi->Item.pPrev){dbp->Instances.pFirst=dbi;} if(!dbi->Item.pNext){dbp->Instances.pLast=dbi;} } if(!New.pFirst){ dbp->Instances.pFirst=dbp->Instances.pLast=0; } for(laDiffTemp* lip=NewDeleted.pFirst;lip;lip=lip->Item.pNext){printf("deleted %x %x\n", dbi, dbi->OriginalInstance); laDBInst* dbi=lip->p; lstAppendItem(&dc->RemovedInst, la_NewDiffCommandInst(dbi, lip->tPrev, lip->tNext)); memTake(dbi->OriginalInstance); //if(!dbi->Item.pPrev){dbp->Instances.pFirst=dbi->Item.pNext;} //if(!dbi->Item.pNext){dbp->Instances.pLast=dbi->Item.pPrev;} dbi->Item.pPrev=dbi->Item.pNext=0; //lstRemoveItem(&dbp->Instances, dbi); laPropStep SubPS = {0}; laPropPack SubPP = {0}; laPropIterator pi={0}; laDBProp* dpi=0; SubPP.LastPs = &SubPS; laPropContainer* spc=p->SubProp; if(((laSubProp*)p)->GetType){spc=((laSubProp*)p)->GetType(dbi->OriginalInstance);} dpi=dbi->Props.pFirst; for (subp = spc->Props.pFirst; subp; subp = subp->Item.pNext){ if (subp->PropertyType == LA_PROP_OPERATOR) continue; if (subp->UDFIgnore || subp->UDFOnly) continue; if((!dpi)||dpi->p!=subp) printf("Prop doesn't match\n"); SubPP.RawThis = pp; SubPS.p = subp; SubPS.UseInstance = dbi->OriginalInstance; int thisany=laIterateDB(dbi, &SubPP, diff, dpi); dpi=dpi->Item.pNext; if(thisany){ any+=thisany; la_GiveExtraTouched(diff,dbi); } } dbi=dbi->Item.pNext; } //printf("%x ~ %x\n", dbp->Instances.pFirst, dbp->Instances.pLast); //laListItem* item = laGetInstance(p, pp->LastPs->UseInstance, &pi); //while (item){ // printf(" %x [%x] %x\n",item->pPrev, item, item->pNext); // item = laGetNextInstance(p, item, &pi); //} return any; } int laIterateDB(laDBInst* parent, laPropPack* pp, laDiff* diff, laDBProp* dp){ laProp *p = pp->LastPs->p, *subp = 0; laPropStep SubPS = {0}; laPropPack SubPP = {0}; laPropIterator pi={0}; laDBProp* dbp; laDBSubProp* dsp; laDBInst* dbi; laDBProp* dpi=0; void *inst = 0; SubPP.LastPs = &SubPS; int any=0; switch (p->PropertyType){ case LA_PROP_SUB: if (p->UDFIsRefer){ if(!parent) return 0; inst = laGetActiveInstanceStrict(p, pp->LastPs->UseInstance); if(diff){ if(inst!=dp->Data) la_GiveDiffCommand(diff, parent, p, dp->Data); dp->Data=inst; any++; }else{ laDBProp* rdbp=laAddDBProp(parent, p, inst); } }else{ if (!p->SubProp) p->SubProp = la_ContainerLookup(((laSubProp *)p)->TargetID); if(diff){ any+=la_GenerateListDifferences(parent, dp, pp, diff); dsp=dp; dbi=dsp->Instances.pFirst; dbp=dsp; } else{ dbp=laAddDBProp(parent, p, laGetActiveInstance(p, pp->LastPs->UseInstance, &pi)); } inst = laGetInstance(p, pp->LastPs->UseInstance, &pi); pp->EndInstance = inst; while (inst){ //printf("work %x\n",inst); laPropContainer* spc=p->SubProp; if(((laSubProp*)p)->GetType){spc=((laSubProp*)p)->GetType(inst);} if(!spc){ inst = laGetNextInstance(p, inst, &pi); continue; } // unlikely, because not registered if(diff){ if(dbi->OriginalInstance != inst){ printf("dbi/inst doesn't match.\n"); } dpi=dbi->Props.pFirst; }else{ dbi = laAddDBInst(dbp, inst, spc, 0); } for (subp = spc->Props.pFirst; subp; subp = subp->Item.pNext){ if (subp->PropertyType == LA_PROP_OPERATOR) continue; if (subp->UDFIgnore || subp->UDFOnly) continue; if(diff && ((!dpi)||dpi->p!=subp)){ printf("Prop doesn't match\n");} SubPP.RawThis = pp; SubPS.p = subp; SubPS.UseInstance = inst; int thisany=laIterateDB(dbi, &SubPP, diff, dpi); if(diff && dpi){ dpi=dpi->Item.pNext; if(thisany){ any+=thisany; la_GiveExtraTouched(diff,dbi); } } } inst = laGetNextInstance(p, inst, &pi); pp->EndInstance = inst; if(diff){ dbi=dbi->Item.pNext; } } } break; case LA_PROP_INT: case LA_PROP_ARRAY | LA_PROP_INT: any+=la_AddIntDBProp(parent, dp, diff, pp); break; case LA_PROP_FLOAT: case LA_PROP_ARRAY | LA_PROP_FLOAT: any+=la_AddFloatDBProp(parent, dp, diff, pp); break; case LA_PROP_STRING: any+=la_AddStringDBProp(parent, dp, diff, pp); break; case LA_PROP_ENUM: case LA_PROP_ARRAY | LA_PROP_ENUM: any+=la_AddEnumDBProp(parent, dp, diff, pp); break; case LA_PROP_RAW: any+=la_AddRawDBProp(parent,dp,diff,pp); break; default: break; } return any; } void la_RestoreIntDBProp(laDBProp* dbp, laDiffCommand* dc){ laPropPack pp={0}; laPropStep ps={0}; ps.p=dc->p; pp.LastPs=&ps; ps.UseInstance=dc->Instance->OriginalInstance; int *Data; Data=dc->Data; dc->Data=dbp->Data; dbp->Data=Data; laSetIntArrayAllArray(&pp, dbp->Data); } void la_RestoreFloatDBProp(laDBProp* dbp, laDiffCommand* dc){ laPropPack pp={0}; laPropStep ps={0}; ps.p=dc->p; pp.LastPs=&ps; ps.UseInstance=dc->Instance->OriginalInstance; int *Data; Data=dc->Data; dc->Data=dbp->Data; dbp->Data=Data; laSetFloatArrayAllArray(&pp, dbp->Data); } void la_RestoreStringDBProp(laDBProp* dbp, laDiffCommand* dc){ laPropPack pp={0}; laPropStep ps={0}; ps.p=dc->p; pp.LastPs=&ps; ps.UseInstance=dc->Instance->OriginalInstance; int *Data; Data=dc->Data; dc->Data=dbp->Data; dbp->Data=Data; laSetString(&pp, dbp->Data?((laSafeString*)dbp->Data)->Ptr:0); } void la_RestoreEnumDBProp(laDBProp* dbp, laDiffCommand* dc){ laPropPack pp={0}; laPropStep ps={0}; ps.p=dc->p; pp.LastPs=&ps; ps.UseInstance=dc->Instance->OriginalInstance; int *Data; Data=dc->Data; dc->Data=dbp->Data; dbp->Data=Data; laSetEnumArrayAllArray(&pp, dbp->Data); } void la_RestoreRawDBProp(laDBRawProp* dbp, laDiffCommandRaw* dc){ laPropPack pp={0}; laPropStep ps={0}; ps.p=dc->p; pp.LastPs=&ps; ps.UseInstance=dc->Instance->OriginalInstance; int *Data; Data=dc->Data; dc->Data=dbp->Data; dbp->Data=Data; LA_SWAP(int, dc->DataSize, dbp->DataSize); laSetRaw(&pp,dbp->Data,dbp->DataSize); } void la_AddUndoPostNode(laDBInst* dbi){ if((!dbi->pc) || (!dbi->pc->UndoTouched)) return; for(laDiffPost* dp=MAIN.DiffTouched.pLast;dp;dp=dp->Item.pPrev){ if(dp->instance==dbi->OriginalInstance&&dp->Touched==dbi->pc->UndoTouched) return; } laDiffPost* dp=lstAppendPointerSized(&MAIN.DiffTouched, dbi->OriginalInstance, sizeof(laDiffPost)); dp->Touched=dbi->pc->UndoTouched; } void la_ExecUndoPtrSync(laDiff* d){ int hint=d->Hint; laDiffPtrSync* dps; laDiffPost* dp; laDBInstPendingRelink* dpr; while(dp=lstPopItem(&MAIN.DiffTouched)){ dp->Touched(dp->instance, hint); memFree(dp); } for(laDiffExtraTouched*det=d->ExtraTouched.pFirst;det;det=det->Item.pNext){ det->dbi->pc->UndoTouched(det->dbi->OriginalInstance, hint); } } void la_FreeInstance(void* inst, laPropContainer* pc, int no_free){ //if(p->PropertyType!=LA_PROP_SUB) return; //if(!p->SubProp || ((laSubProp*)p)->TargetID) p->SubProp=la_ContainerLookup(((laSubProp*)p)->TargetID); //laPropContainer* pc=p->SubProp; if(((laSubProp*)p)->GetType) pc=((laSubProp*)p)->GetType(inst); //printf("freeinst %s %x\n",pc->Name,inst); if(pc->BeforeFree) pc->BeforeFree(inst); laPropStep SubPS = {0}; laPropPack SubPP = {0}; laPropIterator pi={0}; SubPP.LastPs=&SubPS; for(laProp* p=pc->Props.pFirst;p;p=p->Item.pNext){ if(p->PropertyType==LA_PROP_STRING && ((laStringProp*)p)->IsSafeString){ SubPS.p=p; SubPS.UseInstance=inst; laSetString(&SubPP, 0); continue; } //if(p->PropertyType!=LA_PROP_SUB || p->UDFIsRefer) continue; //void* si = laGetInstance(p, SubPP.LastPs->UseInstance, &pi); SubPP.EndInstance = si; void* NextSi=0; //printf("freeinst p %s\n",p->Name); //while (si){ // printf("%x --inst %x\n",SubPP.LastPs->UseInstance,si); // NextSi = laGetNextInstance(p, si, &pi); // if(!p->UDFNoCreate){ laSubProp* sp=p; // if(!sp->ListHandleOffset){ logPrint("[WARN] prop '%s' UDFNoCreate==0 and no ListHandleOffset. Node not removed.\n", p->Identifier); } // else{ lstRemoveItem(inst + sp->ListHandleOffset, si); } // } // la_FreeInstance(si, p, p->UDFNoCreate||(!p->OffsetIsPointer)); // si=NextSi; SubPP.EndInstance = si; //} } if(!no_free && !pc->OtherAlloc) memFree(inst); } void la_ResetInstance(void* inst, laPropContainer* pc, int IsListItem){ if(pc->SaverDummy) laMarkMemClean(((char*)inst)+((laSubProp*)pc->SaverDummy)->ListHandleOffset); if(pc->Reset) pc->Reset(inst); //else { int a=IsListItem?sizeof(laListItem):0; memset(((char*)inst)+a,0,pc->NodeSize-a); } } laListHandle* la_GetOriginalListHandle(laDiffCommandSub* dcs){ laProp*p =dcs->Base.p; if(p->PropertyType!=LA_PROP_SUB||p->UDFIsRefer||!((laSubProp*)p)->ListHandleOffset) return 0; laSubProp* sp=dcs->Base.p; void* addr=((char*)dcs->Base.Instance->OriginalInstance)+((laSubProp*)p)->ListHandleOffset; return addr; } void la_UndoListDifferences(laDBSubProp* dsp, laDiffCommandSub* dcs){ laListHandle* ol=la_GetOriginalListHandle(dcs); for(laDiffCommandInst* dci=dcs->AddedInst.pFirst;dci;dci=dci->Item.pNext){ if(dcs->Base.p->UDFNoCreate){ la_ResetInstance(dci->DBInst->OriginalInstance,dci->DBInst->pc,((laSubProp*)dcs->Base.p)->ListHandleOffset?1:0); continue; } dci->OriginalPrev = dci->DBInst->Item.pPrev; dci->OriginalNext = dci->DBInst->Item.pNext; //if(dsp->Instances.pFirst == dci->DBInst){ dsp->Instances.pFirst=dci->DBInst->Item.pNext; ol->pFirst=dci->DBInst->Item.pNext?((laDBInst*)dci->DBInst->Item.pNext)->OriginalInstance:0; } //if(dsp->Instances.pLast == dci->DBInst){ dsp->Instances.pLast=dci->DBInst->Item.pPrev; ol->pLast=dci->DBInst->Item.pPrev?((laDBInst*)dci->DBInst->Item.pPrev)->OriginalInstance:0; } //dci->DBInst->Item.pPrev = dci->DBInst->Item.pNext=0; } for(laDiffCommandInst* dci=dcs->AddedInst.pFirst;dci;dci=dci->Item.pNext){ if(dcs->Base.p->UDFNoCreate){ continue; } lstRemoveItem(&dsp->Instances, dci->DBInst); lstRemoveItem(ol, dci->DBInst->OriginalInstance); laListItem* li = dci->DBInst->OriginalInstance; } for(laDiffCommandInst* dci=dcs->RemovedInst.pFirst;dci;dci=dci->Item.pNext){ if(dcs->Base.p->UDFNoCreate) continue; dci->DBInst->Item.pPrev = dci->OriginalPrev; dci->DBInst->Item.pNext = dci->OriginalNext; printf("add removed %x \n", dci->DBInst->OriginalInstance); void* orig = dci->DBInst->OriginalInstance; } for(laDiffCommandInst* dci=dcs->RemovedInst.pFirst;dci;dci=dci->Item.pNext){ if(dcs->Base.p->UDFNoCreate) continue; ((laListItem*)dci->DBInst->OriginalInstance)->pPrev=dci->OriginalPrev?dci->OriginalPrev->OriginalInstance:0; ((laListItem*)dci->DBInst->OriginalInstance)->pNext=dci->OriginalNext?dci->OriginalNext->OriginalInstance:0; if(!dci->DBInst->Item.pPrev){ dsp->Instances.pFirst=dci->DBInst; ol->pFirst=dci->DBInst->OriginalInstance; } if(!dci->DBInst->Item.pNext){ dsp->Instances.pLast=dci->DBInst; ol->pLast=dci->DBInst->OriginalInstance; } } for(laDiffCommandInst* dci=dcs->MovedInst.pFirst;dci;dci=dci->Item.pNext){ dci->DBInst->Item.pPrev = dci->BeforePrev; ((laListItem*)dci->DBInst->OriginalInstance)->pPrev=dci->BeforePrev?dci->BeforePrev->OriginalInstance:0; dci->DBInst->Item.pNext = dci->BeforeNext; ((laListItem*)dci->DBInst->OriginalInstance)->pNext=dci->BeforeNext?dci->BeforeNext->OriginalInstance:0; if(!dci->DBInst->Item.pPrev){ dsp->Instances.pFirst=dci->DBInst; ol->pFirst=dci->DBInst->OriginalInstance; } if(!dci->DBInst->Item.pNext){ dsp->Instances.pLast=dci->DBInst; ol->pLast=dci->DBInst->OriginalInstance; } } } void la_RedoListDifferences(laDBSubProp* dsp, laDiffCommandSub* dcs){ laListHandle* ol=la_GetOriginalListHandle(dcs); for(laDiffCommandInst* dci=dcs->RemovedInst.pFirst;dci;dci=dci->Item.pNext){ if(dcs->Base.p->UDFNoCreate){ la_ResetInstance(dci->DBInst->OriginalInstance,dci->DBInst->pc,((laSubProp*)dcs->Base.p)->ListHandleOffset?1:0); continue; } //dci->OriginalPrev = dci->DBInst->Item.pPrev; //dci->OriginalNext = dci->DBInst->Item.pNext; lstRemoveItem(&dsp->Instances, dci->DBInst); lstRemoveItem(ol, dci->DBInst->OriginalInstance); laListItem* li = dci->DBInst->OriginalInstance; printf("remove %x \n", dci->DBInst->OriginalInstance); } for(laDiffCommandInst* dci=dcs->AddedInst.pFirst;dci;dci=dci->Item.pNext){ if(dcs->Base.p->UDFNoCreate) continue; dci->DBInst->Item.pPrev = dci->OriginalPrev; dci->DBInst->Item.pNext = dci->OriginalNext; void* orig = dci->DBInst->OriginalInstance; } for(laDiffCommandInst* dci=dcs->AddedInst.pFirst;dci;dci=dci->Item.pNext){ if(dcs->Base.p->UDFNoCreate) continue; ((laListItem*)dci->DBInst->OriginalInstance)->pPrev=dci->OriginalPrev?dci->OriginalPrev->OriginalInstance:0; ((laListItem*)dci->DBInst->OriginalInstance)->pNext=dci->OriginalNext?dci->OriginalNext->OriginalInstance:0; if(!dci->DBInst->Item.pPrev){ dsp->Instances.pFirst=dci->DBInst; ol->pFirst=dci->DBInst->OriginalInstance; } if(!dci->DBInst->Item.pNext){ dsp->Instances.pLast=dci->DBInst; ol->pLast=dci->DBInst->OriginalInstance; } } for(laDiffCommandInst* dci=dcs->MovedInst.pFirst;dci;dci=dci->Item.pNext){ dci->DBInst->Item.pPrev = dci->OriginalPrev; ((laListItem*)dci->DBInst->OriginalInstance)->pPrev=dci->OriginalPrev?dci->OriginalPrev->OriginalInstance:0; dci->DBInst->Item.pNext = dci->OriginalNext; ((laListItem*)dci->DBInst->OriginalInstance)->pNext=dci->OriginalNext?dci->OriginalNext->OriginalInstance:0; if(!dci->DBInst->Item.pPrev){ dsp->Instances.pFirst=dci->DBInst; ol->pFirst=dci->DBInst->OriginalInstance; } if(!dci->DBInst->Item.pNext){ dsp->Instances.pLast=dci->DBInst; ol->pLast=dci->DBInst->OriginalInstance; } } } laDBProp* la_FindDBProp(laDBInst* dbi, laProp* p){ for(laDBProp* dbp=dbi->Props.pFirst;dbp;dbp=dbp->Item.pNext){ if(dbp->p==p) return dbp; } return 0; } laDiff* laSwapDBState(int Redo){ laDiff* diff=MAIN.HeadDifference; if(!diff) return 0; if(Redo){ if(diff==MAIN.Differences.pLast) return 0; }else{ diff=diff->Item.pPrev; if(!diff) return 0; } for(laDiffCommand* dc=diff->Commands.pFirst;dc;dc=dc->Item.pNext){ //printf("do %s\n",dc->p->Identifier); laDBProp* dbp=la_FindDBProp(dc->Instance, dc->p); if(!dbp){ printf("Can't find dbp from prop!\n");} switch (dc->p->PropertyType){ case LA_PROP_SUB: if(dc->p->UDFIsRefer){ LA_SWAP(void*,dc->Data,dbp->Data); laSetActiveInstance(dbp->p, dc->Instance->OriginalInstance, dbp->Data); }else{ if(Redo) la_RedoListDifferences(dbp,dc); else la_UndoListDifferences(dbp,dc); } la_AddUndoPostNode(dc->Instance); break; case LA_PROP_INT: case LA_PROP_ARRAY | LA_PROP_INT: la_RestoreIntDBProp(dbp, dc); la_AddUndoPostNode(dc->Instance); break; case LA_PROP_FLOAT: case LA_PROP_ARRAY | LA_PROP_FLOAT: la_RestoreFloatDBProp(dbp, dc); la_AddUndoPostNode(dc->Instance); break; case LA_PROP_STRING: la_RestoreStringDBProp(dbp, dc); la_AddUndoPostNode(dc->Instance); break; case LA_PROP_ENUM: case LA_PROP_ARRAY | LA_PROP_ENUM: la_RestoreEnumDBProp(dbp, dc); la_AddUndoPostNode(dc->Instance); break; case LA_PROP_RAW: la_RestoreRawDBProp(dbp, dc); la_AddUndoPostNode(dc->Instance); break; default: break; } laPropPack PP={0}; laPropStep PS={0}; PP.LastPs=&PS; PS.p=dbp->p; PS.UseInstance=dc->Instance->OriginalInstance; laNotifyUsersPP(&PP); } for(laDiffCommandCustom* dcc=diff->CustomCommands.pFirst;dcc;dcc=dcc->Item.pNext){ if(Redo){ if(dcc->Redo) dcc->Redo(dcc->Data); } else { if(dcc->Undo) dcc->Undo(dcc->Data); } } if(Redo){ MAIN.HeadDifference=diff->Item.pNext; } else{ MAIN.HeadDifference=diff; } return diff; } void laUndo(){ laDiff* d; if(d=laSwapDBState(0)){ la_ExecUndoPtrSync(d); laNotifyUsers("la.differences"); } } void laRedo(){ laDiff* d; if(d=laSwapDBState(1)){ la_ExecUndoPtrSync(d); laNotifyUsers("la.differences"); } } void laPrintDBInst(laDBInst* dbi, int Level){ if(dbi!=&MAIN.RootDBInst){ printf("%*c", Level, ' '); printf("%s | %.6x [%.6x] %.6x | %.6x [%.6x] %.6x\n", dbi->pc->Identifier, dbi->Item.pPrev, dbi, dbi->Item.pNext, dbi->Item.pPrev?((laDBInst*)dbi->Item.pPrev)->OriginalInstance:0, dbi->OriginalInstance, dbi->Item.pNext?((laDBInst*)dbi->Item.pNext)->OriginalInstance:0); }else{ printf("Root:\n"); } for(laDBProp* dbp=dbi->Props.pFirst;dbp;dbp=dbp->Item.pNext){ if(dbp->p->PropertyType==LA_PROP_SUB && !dbp->p->UDFIsRefer){ laDBSubProp* dsp=dbp; for(laDBInst* dbii=dsp->Instances.pFirst;dbii;dbii=dbii->Item.pNext){ laPrintDBInst(dbii, Level+4); } } } } void laPrintDBInstInfo(){ laPrintDBInst(&MAIN.RootDBInst, 0); } void laAddRootDBInst(char* path){ laPropPack PP={0}; if(!la_GetPropFromPath(&PP,0,path,0)) return; if(!MAIN.DBInstLink){ hsh65536Init(&MAIN.DBInstLink); } la_StepPropPack(&PP); laIterateDB(&MAIN.RootDBInst, &PP, 0, 0); la_FreePropStepCache(PP.Go); laDBRecordedProp* rp=lstAppendPointerSized(&MAIN.DBRecordedProps, 0, sizeof(laDBRecordedProp)); strSafeSet(&rp->OriginalPath,path); } void laPropPackToLocal(laPropPack* ToPP, laPropPack* pp){ if(pp->RawThis) laPropPackToLocal(ToPP, pp->RawThis); for(laPropStep* ps=pp->Go;ps;ps=ps->pNext){ la_NewPropStep(ToPP, ps->p, ps->UseInstance, '.'); } ToPP->EndInstance = pp->EndInstance; } laDBProp* laFindDBProp(laDBInst* parent, laProp* p, void* Instance, laDBInst** r_DBInst){ laDBProp* rp=0; for(laDBProp* dp=parent->Props.pFirst;dp;dp=dp->Item.pNext){ if(dp->p == p) {rp=dp; break;} } if(!rp) return 0; if(rp->p->PropertyType==LA_PROP_SUB && !rp->p->UDFIsRefer && r_DBInst && Instance){ laDBSubProp* dsp=rp; for(laDBInst* dbii=dsp->Instances.pFirst;dbii;dbii=dbii->Item.pNext){ if(dbii->OriginalInstance == Instance) { *r_DBInst=dbii; break; } } } return rp; } laDBProp* laFindStartingDBProp(laProp* p, void* Instance, laPropContainer* InstancePC, laDBInst** r_DBInst){ if(!Instance||Instance==MAIN.DataRoot.RootInstance){ for(laDBProp*dbp=MAIN.RootDBInst.Props.pFirst;dbp;dbp=dbp->Item.pNext){ if(dbp->p == p){ *r_DBInst=&MAIN.RootDBInst; return dbp; } } } /* If root not found try to find it in the hash. */ if(!MAIN.DBInstLink){ return 0; } laListHandle* l=hsh65536DoHashLongPtr(MAIN.DBInstLink, Instance); if(!l) return 0; for(laListItem* li=l->pFirst;li;li=li->pNext){ laDBInst* dbi=(laDBInst*)(((char*)li)-sizeof(laListItem)); if(dbi->OriginalInstance==Instance && dbi->pc==InstancePC){ if(p){ for(laDBProp*dbp=dbi->Props.pFirst;dbp;dbp=dbp->Item.pNext){ if(dbp->p == p){ *r_DBInst=dbi; return dbp; } } } else{ *r_DBInst=dbi; return 0; } } } return 0; } void laRecordCustomDifferences(void* Data, laDiffCommandUndoF Undo, laDiffCommandRedoF Redo, laDiffCommandFreeF Free){ laDiffCommandCustom* dcc=memAcquire(sizeof(laDiffCommandCustom)); dcc->Data=Data; dcc->Undo=Undo; dcc->Redo=Redo; dcc->Free=Free; lstAppendItem(&MAIN.HeadDifference->CustomCommands,dcc); } int laRecordDifferences(laPropPack* base, char* path){ laPropPack PP={0}; if(!la_GetPropFromPath(&PP,base,path,0)) return 0; la_StepPropPack(&PP); //laPropPackToLocal(&LocalPP, &PP); int success=0; laDBInst* FromDBI; //=laSkipDB(&LocalPP, &MAIN.RootDBInst, &dbp); laDBProp* dbp=laFindStartingDBProp(PP.LastPs->p, PP.LastPs->UseInstance, PP.LastPs->p->Container, &FromDBI); if(FromDBI && dbp){ laFreeNewerDifferences(); laIterateDB(FromDBI, &PP, MAIN.HeadDifference, dbp); if(MAIN.HeadDifference->Commands.pFirst){ success = 1; } }else{ success = 0; printf("Prop not recorded as DBInst.\n"); } la_FreePropStepCache(PP.Go); return success; } int laRecordInstanceDifferences(void* instance, const char* container){ laPropContainer* pc=la_ContainerLookup(container); if(!pc) return 0; laDBInst* FromDBI=0; laFindStartingDBProp(0,instance,pc,&FromDBI); if(!FromDBI) return 0; laPropPack PP={0}; laPropStep PS={0}; PS.UseInstance=instance; PP.LastPs=&PS; int freed=0, success=0, any=0; for(laProp* p=pc->Props.pFirst;p;p=p->Item.pNext){ PS.p = p; laDBProp* dbp=laFindDBProp(FromDBI, p, 0,0); if(FromDBI && dbp){ if(!freed){ laFreeNewerDifferences(); freed=1; } any+=laIterateDB(FromDBI, &PP, MAIN.HeadDifference, dbp); if(MAIN.HeadDifference->Commands.pFirst){ success = 1; } } } if(any){ la_GiveExtraTouched(MAIN.HeadDifference,FromDBI); } return success; } void laRecordAndPush(laPropPack* base, char* path, char* description, uint64_t hint){ if(laRecordDifferences(base, path)){ laPushDifferences(description, hint); } } void laRecordAndPushProp(laPropPack* base, char* path){ char buf[256]={0}; if(laRecordDifferences(base, path)){ la_GetPropPackFullPath(base,&buf[strlen(buf)]);if(path){sprintf(&buf[strlen(buf)],"%s%s",base?".":"",path);} laPushDifferences(buf, 0); } } void laRecordEverythingAndPush(){ for(laDBRecordedProp* rp=MAIN.DBRecordedProps.pFirst;rp;rp=rp->Item.pNext){ laRecordAndPushProp(0, rp->OriginalPath->Ptr); } if(MAIN.PushEverything){ MAIN.PushEverything(); } } void laSetDiffCallback(laDiffPushEverythingF PushEverything){ MAIN.PushEverything=PushEverything; }