// Ryzom - MMORPG Framework // Copyright (C) 2010 Winch Gate Property Limited // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero 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 Affero General Public License for more details. // // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . #include "stdpch.h" #include "script_vm.h" #include "script_compiler.h" using namespace std; using namespace NLMISC; namespace AIVM { ////////////////////////////////////////////////////////////////////////////// // Library management // ////////////////////////////////////////////////////////////////////////////// CLibrary* CLibrary::_instance = NULL; CLibrary::TLibContainer CLibrary::_libs; #if !FINAL_VERSION CVariable AIScriptDisplayPrint("aiscript", "AIScriptDisplayPrint", "Display the script 'print's in the AIS log.", true, 0, true); #else CVariable AIScriptDisplayPrint("aiscript", "AIScriptDisplayPrint", "Display the script 'print's in the AIS log.", false, 0, true); #endif CVariable AIScriptDisplayLog("aiscript", "AIScriptDisplayLog", "Display the script 'log's in the AIS log.", true, 0, true); void CLibrary::addLib(std::string const& name, std::string const& code) { vector codeVect; size_t start, end; start = 0; // Cut code in lines while (start byteCode = AICOMP::CCompiler::getInstance().compileCode(codeVect, name); if (byteCode!=NULL) addLib(name, byteCode); } void CLibrary::addLib(std::string const& name, std::vector const& code) { NLMISC::CSmartPtr byteCode=AICOMP::CCompiler::getInstance().compileCode(code, name); if (byteCode!=NULL) addLib(name, byteCode); } void CLibrary::addLib(std::string const& name, NLMISC::CSmartPtr const& byteCode) { if (byteCode==NULL) { nlwarning("Trying to register an empty library script."); return; } nlinfo("Adding script library %s", name.c_str()); _libs.insert(std::make_pair(name, byteCode)); } ////////////////////////////////////////////////////////////////////////////// // Virtual machine // ////////////////////////////////////////////////////////////////////////////// CSmartPtr CLibrary::getLib(std::string const& name) { TLibContainer::const_iterator it = _libs.find(name); if (it!=_libs.end()) return it->second; else return CSmartPtr(NULL); } CScriptVM* CScriptVM::_Instance = NULL; CScriptVM* CScriptVM::getInstance() { if (_Instance==NULL) _Instance = new CScriptVM; return _Instance; } void CScriptVM::destroyInstance() { if (_Instance!=NULL) { delete _Instance; _Instance = NULL; } } void CScriptVM::interpretCode( IScriptContext* thisContext, IScriptContext* parentContext, IScriptContext* callerContext, CByteCodeEntry const& codeScriptEntry) { NLMISC::CSmartPtr const& byteCode = codeScriptEntry.code(); size_t startIndex = codeScriptEntry.index(); if (byteCode.isNull()) return; vector const& opcodes = byteCode->_opcodes; static TStringId parentStrId = CStringMapper::map("parent"); static TStringId callerStrId = CStringMapper::map("caller"); CScriptStack stack; size_t index = startIndex; string currentString; while (index < opcodes.size()) { #if !FINAL_VERSION EOpcode op = (EOpcode)opcodes[index]; #endif switch (opcodes[index]) { default: case INVALID_OPCODE: nlwarning("Invalid Opcode for Group '%s' with code in '%s'", thisContext->getContextName().c_str(), byteCode->_sourceName.c_str()); nlassert(false); break; case EOP: return; // End Of Program case EQ: // == Need: Value1: Value2 After: Value1==Value2 (Boolean as float) { const float res=stack.top(1)==stack.top()?1.f:0.f; stack.pop(); stack.top()=res; ++index; } continue; case NEQ: // != Need: Value1: Value2 After: Value1!=Value2 (Boolean as float) { const float res=stack.top(1)!=stack.top()?1.f:0.f; stack.pop(); stack.top()=res; index++; } continue; case INF: // < Need: Value1: Value2 After: Value1 Need: Value1: Value2 After: Value1>Value2 (Boolean as float) { const float res=stack.top(1)>stack.top()?1.f:0.f; stack.pop(); stack.top()=res; index++; } continue; case SUPEQ: // >= Need: Value1: Value2 After: Value1>=Value2 (Boolean as float) { const float res=stack.top(1)>=stack.top()?1.f:0.f; stack.pop(); stack.top()=res; index++; } continue; case ADD: // + Need: Value1: Value2 After: Value1+Value2 { CScriptStack::CStackEntry &entry0=stack.top(); CScriptStack::CStackEntry &entry1=stack.top(1); nlassert((entry0.type()==CScriptStack::EFloat||entry0.type()==CScriptStack::EString) &&(entry1.type()==CScriptStack::EFloat||entry1.type()==CScriptStack::EString)); breakable { if (entry0.type()==entry1.type()) { if (entry0.type()==CScriptStack::EFloat) (float&)entry1+=(float&)entry0; else (string&)entry1+=(string&)entry0; } else { if (entry0.type()==CScriptStack::EFloat) (string&)entry1+=toString("%g", (float&)entry0); else { const float value=entry1; entry1=toString("%g", value); (string&)entry1+=(string&)entry0; } } } stack.pop(); index++; } continue; case SUB: // - Need: Value1: Value2 After: Value1-Value2 { const float val=stack.top(); stack.pop(); (float&)stack.top()-=val; index++; } continue; case MUL: // * Need: Value1: Value2 After: Value1/Value2 { float &res=stack.top(1); res*=(float&)stack.top(); stack.pop(); index++; } continue; case DIV: // / Need: Value1: Value2 After: Value1/Value2 !Exception Gestion. { float &res=stack.top(1); const float &divisor=stack.top(); if (divisor==0) res=1; else res/=divisor; stack.pop(); index++; } continue; case AND: // && Need: Value1: Value2 After: Value1&&Value2 { const bool val1=(float&)stack.top(1)!=0.f; const bool val2=(float&)stack.top()!=0.f; stack.pop(); stack.top()=(val1&&val2)?1.f:0.f; index++; } continue; case OR: // || Need: Value1: Value2 After: Value1||Value2 { const bool val1=(float&)stack.top(1)!=0.f; const bool val2=(float&)stack.top()!=0.f; stack.pop(); stack.top()=(val1||val2)?1.f:0.f; index++; } continue; case NOT: // ! Need: Value After: !Value { float &val=stack.top(); val=(val==0.f)?1.f:0.f; index++; } continue; case PUSH_ON_STACK: // Set a Value (float) Need: - After: Value(float) { stack.push(*((float*)&opcodes[index+1])); index+=2; } continue; case POP: // Pop Need: ValToPop After: - { stack.pop(); index++; } continue; case SET_VAR_VAL: // Set a Value to a Var. Need: VarName: VarValue After: - { float f = 0.0f; switch (stack.top().type()) { case CScriptStack::EString: { string &str=stack.top(); f=(float)atof(str.c_str()); } break; case CScriptStack::EFloat: { f = (float&)stack.top(); } break; default: nlwarning("Stack top type invalid, poping top value!"); } stack.pop(); thisContext->setLogicVar(*((TStringId*)&opcodes[index+1]), f); index+=2; } continue; case SET_STR_VAR_VAL: // Set a Value to a Var. Need: VarName: VarValue After: - { switch (stack.top().type()) { case CScriptStack::EString: { thisContext->setStrLogicVar(*((TStringId*)&opcodes[index+1]), stack.top()); } break; case CScriptStack::EFloat: { float const& val = stack.top(); thisContext->setStrLogicVar(*((TStringId*)&opcodes[index+1]),NLMISC::toString("%g", val)); } break; default: nlwarning("Stack top type invalid, poping top value!"); thisContext->setStrLogicVar(*((TStringId*)&opcodes[index+1]),std::string()); } stack.pop(); index+=2; } continue; case SET_CTX_VAR_VAL: // Set a Value to a Var. Need: VarName: VarValue After: - { switch (stack.top().type()) { case CScriptStack::EContext: { thisContext->setCtxLogicVar(*((TStringId*)&opcodes[index+1]), stack.top()); } break; default: nlwarning("Stack top type invalid, poping top value!"); thisContext->setCtxLogicVar(*((TStringId*)&opcodes[index+1]), (IScriptContext*)0); } stack.pop(); index+=2; } continue; case PUSH_VAR_VAL: // Push the Value of a Var. Need: - (VarName on next IP) After: VarValue(float) { const float f=thisContext->getLogicVar(*((TStringId*)&opcodes[index+1])); stack.push(f); index+=2; } continue; case PUSH_STR_VAR_VAL: // Push the Value of a Var. Need: - (VarName on next IP) After: VarValue(float) { std::string str = thisContext->getStrLogicVar(*((TStringId*)&opcodes[index+1])); stack.push(str); index+=2; } continue; case PUSH_CTX_VAR_VAL: // Push the Value of a Var. Need: - (VarName on next IP) After: VarValue(float) { IScriptContext* ctx = thisContext->getCtxLogicVar(*((TStringId*)&opcodes[index+1])); stack.push(ctx); index+=2; } continue; /* case SET_OTHER_VAR_VAL: { const TStringId strId=*((TStringId*)&opcodes[index+1]); IScriptContext* otherContext = NULL; if (strId==parentStrId) { otherContext = parentContext; } else if (strId==callerStrId) { otherContext = callerContext; } else { otherContext = thisContext->findContext(strId); } float f = 0.0f; switch (stack.top().type()) //stack.type(0)) { case CScriptStack::EString: { string& str = stack.top(); f = (float)atof(str.c_str()); } break; case CScriptStack::EFloat: { f = (float&)stack.top(); } break; default: nlwarning("Stack top type invalid, poping top value!"); } if (otherContext) otherContext->setLogicVar(*((TStringId*)&opcodes[index+2]), f); stack.pop(); index+=3; } continue; case SET_OTHER_STR_VAR_VAL: { const TStringId strId=*((TStringId*)&opcodes[index+1]); IScriptContext* otherContext = NULL; if (strId==parentStrId) { otherContext = parentContext; } else if (strId==callerStrId) { otherContext = callerContext; } else { otherContext = thisContext->findContext(strId); } std::string str; switch (stack.top().type()) { case CScriptStack::EString: { str = (string&)stack.top(); } break; case CScriptStack::EFloat: { float& val = (float&)stack.top(); str = NLMISC::toString("%g", val); } break; default: nlwarning("Stack top type invalid, poping top value!"); } if (otherContext) otherContext->setStrLogicVar(*((TStringId*)&opcodes[index+2]), str); stack.pop(); index += 3; } continue; case SET_OTHER_CTX_VAR_VAL: { TStringId const strId = *((TStringId*)&opcodes[index+1]); IScriptContext* otherContext = NULL; if (strId==parentStrId) { otherContext = parentContext; } else if (strId==callerStrId) { otherContext = callerContext; } else { otherContext = thisContext->findContext(strId); } IScriptContext* ctx = (IScriptContext*)0; switch (stack.top().type()) { case CScriptStack::EContext: { ctx = (IScriptContext*)stack.top(); } break; default: nlwarning("Stack top type invalid, poping top value!"); } if (otherContext) otherContext->setCtxLogicVar(*((TStringId*)&opcodes[index+2]), ctx); stack.pop(); index += 3; } continue; case PUSH_OTHER_VAR_VAL: { const TStringId strId=*((TStringId*)&opcodes[index+1]); IScriptContext* otherContext = NULL; if (strId==parentStrId) { otherContext = parentContext; } else if (strId==callerStrId) { otherContext = callerContext; } else { otherContext = thisContext->findContext(strId); } float f; if (otherContext) f = otherContext->getLogicVar(*((TStringId*)&opcodes[index+2])); else f = 1.0f; stack.push(f); index += 3; } continue; case PUSH_OTHER_STR_VAR_VAL: { const TStringId strId=*((TStringId*)&opcodes[index+1]); IScriptContext* otherContext = NULL; if (strId==parentStrId) { otherContext = parentContext; } else if (strId==callerStrId) { otherContext = callerContext; } else { otherContext = thisContext->findContext(strId); } if (otherContext) stack.push(otherContext->getStrLogicVar(*((TStringId*)&opcodes[index+2]))); else stack.push(std::string()); // accepted coz const & index += 3; } continue; case PUSH_OTHER_CTX_VAR_VAL: { TStringId const strId = *((TStringId*)&opcodes[index+1]); IScriptContext* otherContext = NULL; if (strId==parentStrId) { otherContext = parentContext; } else if (strId==callerStrId) { otherContext = callerContext; } else { otherContext = thisContext->findContext(strId); } if (otherContext) stack.push(otherContext->getCtxLogicVar(*((TStringId*)&opcodes[index+2]))); else stack.push((IScriptContext*)0); index += 3; } continue; */ case SET_CONTEXT_VAR_VAL: { IScriptContext* otherContext = (IScriptContext*)0; switch (stack.top().type()) { case CScriptStack::EContext: { otherContext = (IScriptContext*)stack.top(); } break; default: nlwarning("Stack top type invalid, poping top value!"); } stack.pop(); float f = 0.0f; switch (stack.top().type()) //stack.type(0)) { case CScriptStack::EString: { string& str = stack.top(); f = (float)atof(str.c_str()); } break; case CScriptStack::EFloat: { f = (float&)stack.top(); } break; default: nlwarning("Stack top type invalid, poping top value!"); } if (otherContext) otherContext->setLogicVar(*((TStringId*)&opcodes[index+1]), f); stack.pop(); index+=2; } continue; case SET_CONTEXT_STR_VAR_VAL: { IScriptContext* otherContext = (IScriptContext*)0; switch (stack.top().type()) { case CScriptStack::EContext: { otherContext = (IScriptContext*)stack.top(); } break; default: nlwarning("Stack top type invalid, poping top value!"); } stack.pop(); std::string str; switch (stack.top().type()) { case CScriptStack::EString: { str = (string&)stack.top(); } break; case CScriptStack::EFloat: { float& val = (float&)stack.top(); str = NLMISC::toString("%g", val); } break; default: nlwarning("Stack top type invalid, poping top value!"); } if (otherContext) otherContext->setStrLogicVar(*((TStringId*)&opcodes[index+1]), str); stack.pop(); index += 2; } continue; case SET_CONTEXT_CTX_VAR_VAL: { IScriptContext* otherContext = (IScriptContext*)0; switch (stack.top().type()) { case CScriptStack::EContext: { otherContext = (IScriptContext*)stack.top(); } break; default: nlwarning("Stack top type invalid, poping top value!"); } stack.pop(); IScriptContext* ctx = (IScriptContext*)0; switch (stack.top().type()) { case CScriptStack::EContext: { ctx = (IScriptContext*)stack.top(); } break; default: nlwarning("Stack top type invalid, poping top value!"); } if (otherContext) otherContext->setCtxLogicVar(*((TStringId*)&opcodes[index+1]), ctx); stack.pop(); index += 2; } continue; case PUSH_CONTEXT_VAR_VAL: { IScriptContext* otherContext = (IScriptContext*)0; switch (stack.top().type()) { case CScriptStack::EContext: { otherContext = (IScriptContext*)stack.top(); } break; default: nlwarning("Stack top type invalid, poping top value!"); } stack.pop(); float f; if (otherContext) f = otherContext->getLogicVar(*((TStringId*)&opcodes[index+1])); else f = 1.0f; stack.push(f); index += 2; } continue; case PUSH_CONTEXT_STR_VAR_VAL: { IScriptContext* otherContext = (IScriptContext*)0; switch (stack.top().type()) { case CScriptStack::EContext: { otherContext = (IScriptContext*)stack.top(); } break; default: nlwarning("Stack top type invalid, poping top value!"); } stack.pop(); if (otherContext) stack.push(otherContext->getStrLogicVar(*((TStringId*)&opcodes[index+1]))); else stack.push(std::string()); // accepted coz const & index += 2; } continue; case PUSH_CONTEXT_CTX_VAR_VAL: { IScriptContext* otherContext = (IScriptContext*)0; switch (stack.top().type()) { case CScriptStack::EContext: { otherContext = (IScriptContext*)stack.top(); } break; default: nlwarning("Stack top type invalid, poping top value!"); } stack.pop(); if (otherContext) stack.push(otherContext->getCtxLogicVar(*((TStringId*)&opcodes[index+1]))); else stack.push((IScriptContext*)0); index += 2; } continue; case JUMP: // Jump + nb size_t to jump (relative). Need: NewJumpOffset After: - { index+=opcodes[index+1]+1; // AGI .. Not Opt } continue; case JE: // Jump if last stack value is FALSE(==0). Need: BoolValue(float) (NewJumpOffset on Next Ip) After: - { if ((float&)stack.top()==0.f) index+=opcodes[index+1]+1; // AGI .. Not Opt else index+=2; stack.pop(); } continue; case JNE: // Jump if last stack value is TRUE(!=0). Need: BoolValue(float) (NewJumpOffset on Next Ip) After: - { if ((float&)stack.top()!=0.f) index+=opcodes[index+1]+1; // AGI .. Not Opt else index+=2; stack.pop(); } continue; case PUSH_PRINT_STRING: { currentString+=CStringMapper::unmap(*((TStringId*)&opcodes[index+1])); // strPt.substr(1,strPt.size()-2); index+=2; } continue; case PUSH_PRINT_VAR: { float const val = thisContext->getLogicVar(*((TStringId*)&opcodes[index+1])); currentString += NLMISC::toString("%g", val); index += 2; } continue; case PUSH_PRINT_STR_VAR: { string const str = thisContext->getStrLogicVar(*((TStringId*)&opcodes[index+1])); currentString += str; index += 2; } continue; case PRINT_STRING: { if (AIScriptDisplayPrint) { nlinfo(currentString.c_str()); } currentString.resize(0); ++index; } continue; case LOG_STRING: { if (AIScriptDisplayLog) { nlinfo(currentString.c_str()); } currentString.resize(0); ++index; } continue; case FUNCTION: { // on_event TStringId const eventName = *((TStringId*)&opcodes[index+1]); IScriptContext* const sc = stack.top(); stack.pop(); if (sc) sc->setScriptCallBack(eventName, CByteCodeEntry(byteCode, index+4)); index+=2; } continue; case CALL: { // set_event const TStringId eventName=*((TStringId*)&opcodes[index+1]); IScriptContext* const sc = stack.top(); stack.pop(); if (sc) sc->callScriptCallBack(thisContext, eventName, 0, "", "", &stack); index+=2; } continue; case PUSH_THIS: { IScriptContext* const sc=thisContext; stack.push(sc); index++; } continue; case PUSH_GROUP: { const TStringId strId=*((TStringId*)&opcodes[index+1]); IScriptContext* otherContext = NULL; if (strId==parentStrId) { otherContext = parentContext; } else if (strId==callerStrId) { otherContext = callerContext; } else { otherContext = thisContext->findContext(strId); } if (!otherContext) nlinfo("Group %s unknown, pushing a NULL context on the stack, this may lead to bad behaviours", CStringMapper::unmap(strId).c_str()); stack.push(otherContext); index+=2; } continue; case PUSH_STRING: { const string &str = CStringMapper::unmap(*((TStringId*)&opcodes[index+1])); stack.push(str); index+=2; } continue; case ASSIGN_FUNC_FROM: { const TStringId srcFunc=CStringMapper::map(stack.top()); stack.pop(); IScriptContext* const src=stack.top(); stack.pop(); const TStringId destFunc=CStringMapper::map(stack.top()); stack.pop(); IScriptContext* const dest=stack.top(); stack.pop(); if ( dest && src ) { CByteCodeEntry const* pcode = src->getScriptCallBackPtr(srcFunc); if (pcode!=NULL) dest->setScriptCallBack(destFunc, *pcode); } index++; } continue; case NATIVE_CALL: { IScriptContext* const sc = stack.top(); stack.pop(); string const& funcName = CStringMapper::unmap(*((TStringId*)&opcodes[++index])); int mode = (int)opcodes[++index]; string const& inParamsSig = CStringMapper::unmap(*((TStringId*)&opcodes[++index])); string const& outParamsSig = CStringMapper::unmap(*((TStringId*)&opcodes[++index])); if (sc) { sc->callNativeCallBack(thisContext, funcName, mode, inParamsSig, outParamsSig, &stack); } else { nlwarning("Calling a native function (%s) on a NULL group/context, rebuilding stack (this situation previously led to unknown behaviour, most of the time crashes)", funcName.c_str()); // If we have parameters we got to rebuild the stack if (!inParamsSig.empty()) { for (size_t i=0; iinterpretCodeOnChildren(CByteCodeEntry(byteCode, index+3)); } index++; // let's go to jump .. } continue; case SWITCH: { // !!!!! size_t compValue=0; switch (stack.top().type()) { case CScriptStack::EString: { TStringId strId = CStringMapper::map(stack.top()); stack.pop(); compValue = *((size_t*)&strId); } break; case CScriptStack::EFloat: { float val = (float&)stack.top(); stack.pop(); compValue = *((size_t*)&val); } break; default: nlwarning("Stack top type invalid, poping top value"); stack.pop(); } size_t nbCase=opcodes[index+1]; index+=2; // SWITCH + #Case stack.push((int)(index+opcodes[index])); // push the absolute address for RET. index++; size_t offset=index; bool found=false; while (nbCase>0) { if (compValue==opcodes[offset]) // we could replace this with binary retrieval. { index=offset+1; index+=opcodes[index]; // we jump at the random sequence. found=true; break; } nbCase--; offset+=2; } // if not found, don't do anything. if (!found) { index=(int&)stack.top(); stack.pop(); } } continue; case INCR: // Increment top of stack. { float &f = stack.top(); ++f; ++index; } continue; case DECR: // Decrement top of stack. { float &f = stack.top(); --f; ++index; } continue; case CONCAT: // Concatenates 2 strings { (string&)stack.top(1) += (string&)stack.top(); stack.pop(); } continue; case FTOS: // Convert a float to a string { stack.top()=NLMISC::toString("%g", (float&)stack.top()); } continue; } nlassert(false); // must use continue !! Non implementé. } } }