/* * Copyright (c) 2014 - 2019 Christian Schoenebeck and Andreas Persson * * http://www.linuxsampler.org * * This file is part of LinuxSampler and released under the same terms. * See README file for details. */ #include #include #include "tree.h" #include "../common/global_private.h" #include namespace LinuxSampler { bool isNoOperation(StatementRef statement) { return statement->statementType() == STMT_NOOP; } Node::Node() { } Node::~Node() { } void Node::printIndents(int n) { for (int i = 0; i < n; ++i) printf(" "); fflush(stdout); } String IntExpr::evalCastToStr() { return ToString(evalInt()); } String IntArrayExpr::evalCastToStr() { String s = "{"; for (vmint i = 0; i < arraySize(); ++i) { vmint val = evalIntElement(i); if (i) s += ","; s += ToString(val); } s += "}"; return s; } vmint IntLiteral::evalInt() { return value; } void IntLiteral::dump(int level) { printIndents(level); printf("IntLiteral %lld\n", value); } void StringLiteral::dump(int level) { printIndents(level); printf("StringLiteral: '%s'\n", value.c_str()); } vmint Add::evalInt() { IntExpr* pLHS = dynamic_cast(&*lhs); IntExpr* pRHS = dynamic_cast(&*rhs);; return (pLHS && pRHS) ? pLHS->evalInt() + pRHS->evalInt() : 0; } void Add::dump(int level) { printIndents(level); printf("Add(\n"); lhs->dump(level+1); printIndents(level); printf(",\n"); rhs->dump(level+1); printIndents(level); printf(")\n"); } vmint Sub::evalInt() { IntExpr* pLHS = dynamic_cast(&*lhs); IntExpr* pRHS = dynamic_cast(&*rhs);; return (pLHS && pRHS) ? pLHS->evalInt() - pRHS->evalInt() : 0; } void Sub::dump(int level) { printIndents(level); printf("Sub(\n"); lhs->dump(level+1); printIndents(level); printf(",\n"); rhs->dump(level+1); printIndents(level); printf(")\n"); } vmint Mul::evalInt() { IntExpr* pLHS = dynamic_cast(&*lhs); IntExpr* pRHS = dynamic_cast(&*rhs);; return (pLHS && pRHS) ? pLHS->evalInt() * pRHS->evalInt() : 0; } void Mul::dump(int level) { printIndents(level); printf("Mul(\n"); lhs->dump(level+1); printIndents(level); printf(",\n"); rhs->dump(level+1); printIndents(level); printf(")\n"); } vmint Div::evalInt() { IntExpr* pLHS = dynamic_cast(&*lhs); IntExpr* pRHS = dynamic_cast(&*rhs); if (!pLHS || !pRHS) return 0; vmint l = pLHS->evalInt(); vmint r = pRHS->evalInt(); if (r == 0) return 0; return l / r; } void Div::dump(int level) { printIndents(level); printf("Div(\n"); lhs->dump(level+1); printIndents(level); printf(",\n"); rhs->dump(level+1); printIndents(level); printf(")\n"); } vmint Mod::evalInt() { IntExpr* pLHS = dynamic_cast(&*lhs); IntExpr* pRHS = dynamic_cast(&*rhs);; return (pLHS && pRHS) ? pLHS->evalInt() % pRHS->evalInt() : 0; } void Mod::dump(int level) { printIndents(level); printf("Mod(\n"); lhs->dump(level+1); printIndents(level); printf(",\n"); rhs->dump(level+1); printIndents(level); printf(")\n"); } void Args::dump(int level) { printIndents(level); printf("Args(\n"); for (std::vector::iterator it = args.begin() ; it != args.end() ; ++it) { (*it)->dump(level+1); } printIndents(level); printf(")\n"); } bool Args::isPolyphonic() const { for (vmint i = 0; i < args.size(); ++i) if (args[i]->isPolyphonic()) return true; return false; } EventHandlers::EventHandlers() { //printf("EventHandlers::Constructor 0x%lx\n", (long long)this); } EventHandlers::~EventHandlers() { } void EventHandlers::add(EventHandlerRef arg) { args.push_back(arg); } void EventHandlers::dump(int level) { printIndents(level); printf("EventHandlers {\n"); for (std::vector::iterator it = args.begin() ; it != args.end() ; ++it) { (*it)->dump(level+1); } printIndents(level); printf("}\n"); } EventHandler* EventHandlers::eventHandlerByName(const String& name) const { for (vmint i = 0; i < args.size(); ++i) if (args.at(i)->eventHandlerName() == name) return const_cast(&*args.at(i)); return NULL; } EventHandler* EventHandlers::eventHandler(uint index) const { if (index >= args.size()) return NULL; return const_cast(&*args.at(index)); } bool EventHandlers::isPolyphonic() const { for (vmint i = 0; i < args.size(); ++i) if (args[i]->isPolyphonic()) return true; return false; } Assignment::Assignment(VariableRef variable, ExpressionRef value) : variable(variable), value(value) { } void Assignment::dump(int level) { printIndents(level); printf("Assignment\n"); } StmtFlags_t Assignment::exec() { if (!variable) return StmtFlags_t(STMT_ABORT_SIGNALLED | STMT_ERROR_OCCURRED); variable->assign(&*value); return STMT_SUCCESS; } EventHandler::EventHandler(StatementsRef statements) { this->statements = statements; usingPolyphonics = statements->isPolyphonic(); } void EventHandler::dump(int level) { printIndents(level); printf("EventHandler {\n"); statements->dump(level+1); printIndents(level); printf("}\n"); } void Statements::dump(int level) { printIndents(level); printf("Statements {\n"); for (std::vector::iterator it = args.begin() ; it != args.end() ; ++it) { (*it)->dump(level+1); } printIndents(level); printf("}\n"); } Statement* Statements::statement(uint i) { if (i >= args.size()) return NULL; return &*args.at(i); } bool Statements::isPolyphonic() const { for (vmint i = 0; i < args.size(); ++i) if (args[i]->isPolyphonic()) return true; return false; } DynamicVariableCall::DynamicVariableCall(const String& name, ParserContext* ctx, VMDynVar* v) : Variable(ctx, 0, false), dynVar(v), varName(name) { } vmint DynamicVariableCall::evalInt() { VMIntExpr* expr = dynamic_cast(dynVar); if (!expr) return 0; return expr->evalInt(); } String DynamicVariableCall::evalStr() { VMStringExpr* expr = dynamic_cast(dynVar); if (!expr) return ""; return expr->evalStr(); } String DynamicVariableCall::evalCastToStr() { if (dynVar->exprType() == STRING_EXPR) { return evalStr(); } else { VMIntExpr* intExpr = dynamic_cast(dynVar); return intExpr ? ToString(intExpr->evalInt()) : ""; } } void DynamicVariableCall::dump(int level) { printIndents(level); printf("Dynamic Variable '%s'\n", varName.c_str()); } void FunctionCall::dump(int level) { printIndents(level); printf("FunctionCall '%s' args={\n", functionName.c_str()); args->dump(level+1); printIndents(level); printf("}\n"); } ExprType_t FunctionCall::exprType() const { if (!fn) return EMPTY_EXPR; return fn->returnType(); } VMFnResult* FunctionCall::execVMFn() { if (!fn) return NULL; // assuming here that all argument checks (amount and types) have been made // at parse time, to avoid time intensive checks on each function call return fn->exec(dynamic_cast(&*args)); } StmtFlags_t FunctionCall::exec() { VMFnResult* result = execVMFn(); if (!result) return StmtFlags_t(STMT_ABORT_SIGNALLED | STMT_ERROR_OCCURRED); return result->resultFlags(); } vmint FunctionCall::evalInt() { VMFnResult* result = execVMFn(); if (!result) return 0; VMIntExpr* intExpr = dynamic_cast(result->resultValue()); if (!intExpr) return 0; return intExpr->evalInt(); } VMIntArrayExpr* FunctionCall::asIntArray() const { VMFnResult* result = const_cast(this)->execVMFn(); if (!result) return 0; VMIntArrayExpr* intArrExpr = dynamic_cast(result->resultValue()); return intArrExpr; } String FunctionCall::evalStr() { VMFnResult* result = execVMFn(); if (!result) return ""; VMStringExpr* strExpr = dynamic_cast(result->resultValue()); if (!strExpr) return ""; return strExpr->evalStr(); } String FunctionCall::evalCastToStr() { VMFnResult* result = execVMFn(); if (!result) return ""; if (result->resultValue()->exprType() == STRING_EXPR) { VMStringExpr* strExpr = dynamic_cast(result->resultValue()); return strExpr ? strExpr->evalStr() : ""; } else { VMIntExpr* intExpr = dynamic_cast(result->resultValue()); return intExpr ? ToString(intExpr->evalInt()) : ""; } } IntVariable::IntVariable(ParserContext* ctx) : Variable(ctx, ctx ? ctx->globalIntVarCount++ : 0, false), polyphonic(false) { //printf("globalIntVar parserctx=0x%lx memPOS=%d\n", ctx, memPos); assert(ctx); } inline static vmint postfixInc(vmint& object, vmint incBy) { const vmint i = object; object += incBy; return i; } IntVariable::IntVariable(ParserContext* ctx, bool polyphonic, bool bConst, vmint size) : Variable(ctx, !ctx ? 0 : polyphonic ? postfixInc(ctx->polyphonicIntVarCount, size) : postfixInc(ctx->globalIntVarCount, size), bConst), polyphonic(polyphonic) { //printf("InvVar size=%d parserCtx=0x%lx\n", size, (uint64_t)ctx); if (polyphonic) { //printf("polyIntVar memPOS=%d\n", memPos); assert(ctx); } } void IntVariable::assign(Expression* expr) { IntExpr* intExpr = dynamic_cast(expr); if (intExpr) { if (polyphonic) context->execContext->polyphonicIntMemory[memPos] = intExpr->evalInt(); else (*context->globalIntMemory)[memPos] = intExpr->evalInt(); } } vmint IntVariable::evalInt() { //printf("IntVariable::eval pos=%d\n", memPos); if (polyphonic) { //printf("evalInt() poly memPos=%d execCtx=0x%lx\n", memPos, (uint64_t)context->execContext); return context->execContext->polyphonicIntMemory[memPos]; } return (*context->globalIntMemory)[memPos]; } void IntVariable::dump(int level) { printIndents(level); printf("IntVariable\n"); //printf("IntVariable memPos=%d\n", memPos); } //ConstIntVariable::ConstIntVariable(ParserContext* ctx, int value) ConstIntVariable::ConstIntVariable(vmint value) : IntVariable(NULL,false,true), value(value) { } void ConstIntVariable::assign(Expression* expr) { // ignore assignment /* printf("ConstIntVariable::assign()\n"); IntExpr* intExpr = dynamic_cast(expr); if (intExpr) { value = intExpr->evalInt(); } */ } vmint ConstIntVariable::evalInt() { return value; } void ConstIntVariable::dump(int level) { printIndents(level); printf("ConstIntVariable val=%lld\n", value); } BuiltInIntVariable::BuiltInIntVariable(const String& name, VMIntPtr* ptr) : IntVariable(NULL,false,false), name(name), ptr(ptr) { } void BuiltInIntVariable::assign(Expression* expr) { IntExpr* valueExpr = dynamic_cast(expr); if (!valueExpr) return; ptr->assign(valueExpr->evalInt()); } vmint BuiltInIntVariable::evalInt() { return ptr->evalInt(); } void BuiltInIntVariable::dump(int level) { printIndents(level); printf("Built-in IntVar '%s'\n", name.c_str()); } PolyphonicIntVariable::PolyphonicIntVariable(ParserContext* ctx) : IntVariable(ctx,true,false) { } void PolyphonicIntVariable::dump(int level) { printIndents(level); printf("PolyphonicIntVariable\n"); } IntArrayVariable::IntArrayVariable(ParserContext* ctx, vmint size) : Variable(ctx, 0, false) { values.resize(size); memset(&values[0], 0, size * sizeof(vmint)); } IntArrayVariable::IntArrayVariable(ParserContext* ctx, vmint size, ArgsRef values, bool _bConst) : Variable(ctx, 0, _bConst) { this->values.resize(size); for (vmint i = 0; i < values->argsCount(); ++i) { VMIntExpr* expr = dynamic_cast(values->arg(i)); if (expr) this->values[i] = expr->evalInt(); } } IntArrayVariable::IntArrayVariable(ParserContext* ctx, bool bConst) : Variable(ctx, 0, bConst) { } vmint IntArrayVariable::evalIntElement(vmuint i) { if (i >= values.size()) return 0; return values[i]; } void IntArrayVariable::assignIntElement(vmuint i, vmint value) { if (i >= values.size()) return; values[i] = value; } void IntArrayVariable::dump(int level) { printIndents(level); printf("IntArray("); for (vmint i = 0; i < values.size(); ++i) { if (i % 12 == 0) { printf("\n"); printIndents(level+1); } printf("%lld, ", values[i]); } printIndents(level); printf(")\n"); } BuiltInIntArrayVariable::BuiltInIntArrayVariable(const String& name, VMInt8Array* array) : IntArrayVariable(NULL, false), name(name), array(array) { } vmint BuiltInIntArrayVariable::evalIntElement(vmuint i) { return i >= array->size ? 0 : array->data[i]; } void BuiltInIntArrayVariable::assignIntElement(vmuint i, vmint value) { if (i >= array->size) return; array->data[i] = value; } void BuiltInIntArrayVariable::dump(int level) { printIndents(level); printf("Built-In Int Array Variable '%s'\n", name.c_str()); } IntArrayElement::IntArrayElement(IntArrayExprRef array, IntExprRef arrayIndex) : IntVariable(NULL, false, false, 0), array(array), index(arrayIndex) { } void IntArrayElement::assign(Expression* expr) { IntExpr* valueExpr = dynamic_cast(expr); if (!valueExpr) return; vmint value = valueExpr->evalInt(); if (!index) return; vmint idx = index->evalInt(); if (idx < 0 || idx >= array->arraySize()) return; array->assignIntElement(idx, value); } vmint IntArrayElement::evalInt() { if (!index) return 0; vmint idx = index->evalInt(); if (idx < 0 || idx >= array->arraySize()) return 0; return array->evalIntElement(idx); } void IntArrayElement::dump(int level) { printIndents(level); printf("IntArrayElement\n"); } StringVariable::StringVariable(ParserContext* ctx) : Variable(ctx,ctx->globalStrVarCount++,false) { } StringVariable::StringVariable(ParserContext* ctx, bool bConst) : Variable(ctx,0,bConst) { } void StringVariable::assign(Expression* expr) { StringExpr* strExpr = dynamic_cast(expr); (*context->globalStrMemory)[memPos] = strExpr->evalStr(); } String StringVariable::evalStr() { //printf("StringVariable::eval pos=%d\n", memPos); return (*context->globalStrMemory)[memPos]; } void StringVariable::dump(int level) { printIndents(level); printf("StringVariable memPos=%lld\n", memPos); } ConstStringVariable::ConstStringVariable(ParserContext* ctx, String _value) : StringVariable(ctx,true), value(_value) { } void ConstStringVariable::assign(Expression* expr) { // ignore assignment // StringExpr* strExpr = dynamic_cast(expr); // if (strExpr) value = strExpr->evalStr(); } String ConstStringVariable::evalStr() { return value; } void ConstStringVariable::dump(int level) { printIndents(level); printf("ConstStringVariable val='%s'\n", value.c_str()); } void If::dump(int level) { printIndents(level); if (ifStatements && elseStatements) printf("if cond stmts1 else stmts2 end if\n"); else if (ifStatements) printf("if cond statements end if\n"); else printf("if [INVALID]\n"); } vmint If::evalBranch() { if (condition->evalInt()) return 0; if (elseStatements) return 1; return -1; } Statements* If::branch(vmuint i) const { if (i == 0) return (Statements*) &*ifStatements; if (i == 1) return (elseStatements) ? (Statements*) &*elseStatements : NULL; return NULL; } bool If::isPolyphonic() const { if (condition->isPolyphonic() || ifStatements->isPolyphonic()) return true; return elseStatements ? elseStatements->isPolyphonic() : false; } void SelectCase::dump(int level) { printIndents(level); if (select) if (select->isConstExpr()) printf("Case select %lld\n", select->evalInt()); else printf("Case select [runtime expr]\n"); else printf("Case select NULL\n"); for (vmint i = 0; i < branches.size(); ++i) { printIndents(level+1); CaseBranch& branch = branches[i]; if (branch.from && branch.to) if (branch.from->isConstExpr() && branch.to->isConstExpr()) printf("case %lld to %lld\n", branch.from->evalInt(), branch.to->evalInt()); else if (branch.from->isConstExpr() && !branch.to->isConstExpr()) printf("case %lld to [runtime expr]\n", branch.from->evalInt()); else if (!branch.from->isConstExpr() && branch.to->isConstExpr()) printf("case [runtime expr] to %lld\n", branch.to->evalInt()); else printf("case [runtime expr] to [runtime expr]\n"); else if (branch.from) if (branch.from->isConstExpr()) printf("case %lld\n", branch.from->evalInt()); else printf("case [runtime expr]\n"); else printf("case NULL\n"); } } vmint SelectCase::evalBranch() { vmint value = select->evalInt(); for (vmint i = 0; i < branches.size(); ++i) { if (branches.at(i).from && branches.at(i).to) { // i.e. "case 4 to 7" ... if (branches.at(i).from->evalInt() <= value && branches.at(i).to->evalInt() >= value) return i; } else { // i.e. "case 5" ... if (branches.at(i).from->evalInt() == value) return i; } } return -1; } Statements* SelectCase::branch(vmuint i) const { if (i < branches.size()) return const_cast( &*branches[i].statements ); return NULL; } bool SelectCase::isPolyphonic() const { if (select->isPolyphonic()) return true; for (vmint i = 0; i < branches.size(); ++i) if (branches[i].statements->isPolyphonic()) return true; return false; } // void Case::addBranch(IntExprRef condition, StatementsRef statements) { // CaseBranchRef b = new CaseBranchRef; // b->from = condition; // b->statements = statements; // branches.push_back(b); // } // // void Case::addBranch(IntExprRef from, IntExprRef to, StatementsRef statements) { // CaseBranchRef b = new CaseBranchRef; // b->from = from; // b->to = to; // b->statements = statements; // branches.push_back(b); // } // // void Case::addBranch(CaseBranchRef branch) { // branches.push_back(branch); // } void While::dump(int level) { printIndents(level); if (m_condition) if (m_condition->isConstExpr()) printf("while (%lld) {\n", m_condition->evalInt()); else printf("while ([runtime expr]) {\n"); else printf("while ([INVALID]) {\n"); m_statements->dump(level+1); printIndents(level); printf("}\n"); } Statements* While::statements() const { return (m_statements) ? const_cast( &*m_statements ) : NULL; } bool While::evalLoopStartCondition() { if (!m_condition) return false; return m_condition->evalInt(); } void SyncBlock::dump(int level) { printIndents(level); printf("sync {\n"); m_statements->dump(level+1); printIndents(level); printf("}\n"); } Statements* SyncBlock::statements() const { return (m_statements) ? const_cast( &*m_statements ) : NULL; } void Neg::dump(int level) { printIndents(level); printf("Negative Expr\n"); } String ConcatString::evalStr() { // temporaries required here to enforce the associative left (to right) order // ( required for GCC and Visual Studio, see: // http://stackoverflow.com/questions/25842902/why-stdstring-concatenation-operator-works-like-right-associative-one // Personally I am not convinced that this is "not a bug" of the // compiler/STL implementation and the allegedly underlying "function call" // nature causing this is IMO no profound reason that the C++ language's // "+" operator's left associativity is ignored. -- Christian, 2016-07-14 ) String l = lhs->evalCastToStr(); String r = rhs->evalCastToStr(); return l + r; } void ConcatString::dump(int level) { printIndents(level); printf("ConcatString(\n"); lhs->dump(level+1); printIndents(level); printf(",\n"); rhs->dump(level+1); printIndents(level); printf(")"); } bool ConcatString::isConstExpr() const { return lhs->isConstExpr() && rhs->isConstExpr(); } vmint Relation::evalInt() { switch (type) { case LESS_THAN: return lhs->evalInt() < rhs->evalInt(); case GREATER_THAN: return lhs->evalInt() > rhs->evalInt(); case LESS_OR_EQUAL: return lhs->evalInt() <= rhs->evalInt(); case GREATER_OR_EQUAL: return lhs->evalInt() >= rhs->evalInt(); case EQUAL: if (lhs->exprType() == STRING_EXPR || rhs->exprType() == STRING_EXPR) return lhs->evalCastToStr() == rhs->evalCastToStr(); else return lhs->evalInt() == rhs->evalInt(); case NOT_EQUAL: if (lhs->exprType() == STRING_EXPR || rhs->exprType() == STRING_EXPR) return lhs->evalCastToStr() != rhs->evalCastToStr(); else return lhs->evalInt() != rhs->evalInt(); } return 0; } void Relation::dump(int level) { printIndents(level); printf("Relation(\n"); lhs->dump(level+1); printIndents(level); switch (type) { case LESS_THAN: printf("LESS_THAN\n"); break; case GREATER_THAN: printf("GREATER_THAN\n"); break; case LESS_OR_EQUAL: printf("LESS_OR_EQUAL\n"); break; case GREATER_OR_EQUAL: printf("GREATER_OR_EQUAL\n"); break; case EQUAL: printf("EQUAL\n"); break; case NOT_EQUAL: printf("NOT_EQUAL\n"); break; } rhs->dump(level+1); printIndents(level); printf(")\n"); } bool Relation::isConstExpr() const { return lhs->isConstExpr() && rhs->isConstExpr(); } vmint Or::evalInt() { IntExpr* pLHS = dynamic_cast(&*lhs); if (pLHS->evalInt()) return 1; IntExpr* pRHS = dynamic_cast(&*rhs);; return (pRHS->evalInt()) ? 1 : 0; } void Or::dump(int level) { printIndents(level); printf("Or(\n"); lhs->dump(level+1); printIndents(level); printf(",\n"); rhs->dump(level+1); printIndents(level); printf(")\n"); } vmint BitwiseOr::evalInt() { IntExpr* pLHS = dynamic_cast(&*lhs); IntExpr* pRHS = dynamic_cast(&*rhs); return pLHS->evalInt() | pRHS->evalInt(); } void BitwiseOr::dump(int level) { printIndents(level); printf("BitwiseOr(\n"); lhs->dump(level+1); printIndents(level); printf(",\n"); rhs->dump(level+1); printIndents(level); printf(")\n"); } vmint And::evalInt() { IntExpr* pLHS = dynamic_cast(&*lhs); if (!pLHS->evalInt()) return 0; IntExpr* pRHS = dynamic_cast(&*rhs); return (pRHS->evalInt()) ? 1 : 0; } void And::dump(int level) { printIndents(level); printf("And(\n"); lhs->dump(level+1); printIndents(level); printf(",\n"); rhs->dump(level+1); printIndents(level); printf(")\n"); } vmint BitwiseAnd::evalInt() { IntExpr* pLHS = dynamic_cast(&*lhs); IntExpr* pRHS = dynamic_cast(&*rhs); return pLHS->evalInt() & pRHS->evalInt(); } void BitwiseAnd::dump(int level) { printIndents(level); printf("BitwiseAnd(\n"); lhs->dump(level+1); printIndents(level); printf(",\n"); rhs->dump(level+1); printIndents(level); printf(")\n"); } void Not::dump(int level) { printIndents(level); printf("Not(\n"); expr->dump(level+1); printIndents(level); printf(")\n"); } void BitwiseNot::dump(int level) { printIndents(level); printf("BitwiseNot(\n"); expr->dump(level+1); printIndents(level); printf(")\n"); } StatementsRef ParserContext::userFunctionByName(const String& name) { if (!userFnTable.count(name)) { return StatementsRef(); } return userFnTable.find(name)->second; } VariableRef ParserContext::variableByName(const String& name) { if (!vartable.count(name)) { return VariableRef(); } return vartable.find(name)->second; } VariableRef ParserContext::globalVar(const String& name) { if (!vartable.count(name)) { //printf("No global var '%s'\n", name.c_str()); //for (std::map::const_iterator it = vartable.begin(); it != vartable.end(); ++it) // printf("-> var '%s'\n", it->first.c_str()); return VariableRef(); } return vartable.find(name)->second; } IntVariableRef ParserContext::globalIntVar(const String& name) { return globalVar(name); } StringVariableRef ParserContext::globalStrVar(const String& name) { return globalVar(name); } ParserContext::~ParserContext() { destroyScanner(); if (globalIntMemory) { delete globalIntMemory; globalIntMemory = NULL; } } void ParserContext::addErr(int firstLine, int lastLine, int firstColumn, int lastColumn, const char* txt) { ParserIssue e; e.type = PARSER_ERROR; e.txt = txt; e.firstLine = firstLine; e.lastLine = lastLine; e.firstColumn = firstColumn; e.lastColumn = lastColumn; vErrors.push_back(e); vIssues.push_back(e); } void ParserContext::addWrn(int firstLine, int lastLine, int firstColumn, int lastColumn, const char* txt) { ParserIssue w; w.type = PARSER_WARNING; w.txt = txt; w.firstLine = firstLine; w.lastLine = lastLine; w.firstColumn = firstColumn; w.lastColumn = lastColumn; vWarnings.push_back(w); vIssues.push_back(w); } void ParserContext::addPreprocessorComment(int firstLine, int lastLine, int firstColumn, int lastColumn) { CodeBlock block; block.firstLine = firstLine; block.lastLine = lastLine; block.firstColumn = firstColumn; block.lastColumn = lastColumn; vPreprocessorComments.push_back(block); } bool ParserContext::setPreprocessorCondition(const char* name) { if (builtinPreprocessorConditions.count(name)) return false; if (userPreprocessorConditions.count(name)) return false; userPreprocessorConditions.insert(name); return true; } bool ParserContext::resetPreprocessorCondition(const char* name) { if (builtinPreprocessorConditions.count(name)) return false; if (!userPreprocessorConditions.count(name)) return false; userPreprocessorConditions.erase(name); return true; } bool ParserContext::isPreprocessorConditionSet(const char* name) { if (builtinPreprocessorConditions.count(name)) return true; return userPreprocessorConditions.count(name); } std::vector ParserContext::issues() const { return vIssues; } std::vector ParserContext::errors() const { return vErrors; } std::vector ParserContext::warnings() const { return vWarnings; } std::vector ParserContext::preprocessorComments() const { return vPreprocessorComments; } VMEventHandler* ParserContext::eventHandler(uint index) { if (!handlers) return NULL; return handlers->eventHandler(index); } VMEventHandler* ParserContext::eventHandlerByName(const String& name) { if (!handlers) return NULL; return handlers->eventHandlerByName(name); } void ParserContext::registerBuiltInConstIntVariables(const std::map& vars) { for (std::map::const_iterator it = vars.begin(); it != vars.end(); ++it) { ConstIntVariableRef ref = new ConstIntVariable(it->second); vartable[it->first] = ref; } } void ParserContext::registerBuiltInIntVariables(const std::map& vars) { for (std::map::const_iterator it = vars.begin(); it != vars.end(); ++it) { BuiltInIntVariableRef ref = new BuiltInIntVariable(it->first, it->second); vartable[it->first] = ref; } } void ParserContext::registerBuiltInIntArrayVariables(const std::map& vars) { for (std::map::const_iterator it = vars.begin(); it != vars.end(); ++it) { BuiltInIntArrayVariableRef ref = new BuiltInIntArrayVariable(it->first, it->second); vartable[it->first] = ref; } } void ParserContext::registerBuiltInDynVariables(const std::map& vars) { for (std::map::const_iterator it = vars.begin(); it != vars.end(); ++it) { DynamicVariableCallRef ref = new DynamicVariableCall(it->first, this, it->second); vartable[it->first] = ref; } } ExecContext::ExecContext() : status(VM_EXEC_NOT_RUNNING), flags(STMT_SUCCESS), stackFrame(-1), suspendMicroseconds(0), instructionsCount(0) { exitRes.value = NULL; } void ExecContext::forkTo(VMExecContext* ectx) const { ExecContext* child = dynamic_cast(ectx); child->polyphonicIntMemory.copyFlatFrom(polyphonicIntMemory); child->status = VM_EXEC_SUSPENDED; child->flags = STMT_SUCCESS; child->stack.copyFlatFrom(stack); child->stackFrame = stackFrame; child->suspendMicroseconds = 0; child->instructionsCount = 0; } } // namespace LinuxSampler