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Unified Diff: src/sksl/SkSLIRGenerator.cpp

Issue 2131223002: SkSL performance improvements (Closed) Base URL: https://skia.googlesource.com/skia@master
Patch Set: minor fixes Created 4 years, 5 months ago
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Index: src/sksl/SkSLIRGenerator.cpp
diff --git a/src/sksl/SkSLIRGenerator.cpp b/src/sksl/SkSLIRGenerator.cpp
index 2cc7eacb4d9ec92bd5e0e57c12c8fb6ecb1a7b64..98f9f24c81e0c5b23d8add899c632ebae94a71d6 100644
--- a/src/sksl/SkSLIRGenerator.cpp
+++ b/src/sksl/SkSLIRGenerator.cpp
@@ -68,12 +68,12 @@ public:
IRGenerator::IRGenerator(std::shared_ptr<SymbolTable> symbolTable,
ErrorReporter& errorReporter)
-: fSymbolTable(std::move(symbolTable))
-, fErrors(errorReporter) {
-}
+: fCurrentFunction(nullptr)
+, fSymbolTable(std::move(symbolTable))
+, fErrors(errorReporter) {}
-void IRGenerator::pushSymbolTable() {
- fSymbolTable.reset(new SymbolTable(std::move(fSymbolTable), fErrors));
+void IRGenerator::pushSymbolTable(bool owner) {
+ fSymbolTable.reset(new SymbolTable(std::move(fSymbolTable), fErrors, owner));
}
void IRGenerator::popSymbolTable() {
@@ -141,16 +141,16 @@ Modifiers IRGenerator::convertModifiers(const ASTModifiers& modifiers) {
std::unique_ptr<VarDeclaration> IRGenerator::convertVarDeclaration(const ASTVarDeclaration& decl,
Variable::Storage storage) {
- std::vector<std::shared_ptr<Variable>> variables;
+ std::vector<const Variable*> variables;
std::vector<std::vector<std::unique_ptr<Expression>>> sizes;
std::vector<std::unique_ptr<Expression>> values;
- std::shared_ptr<Type> baseType = this->convertType(*decl.fType);
+ const Type* baseType = this->convertType(*decl.fType);
if (!baseType) {
return nullptr;
}
for (size_t i = 0; i < decl.fNames.size(); i++) {
Modifiers modifiers = this->convertModifiers(decl.fModifiers);
- std::shared_ptr<Type> type = baseType;
+ const Type* type = baseType;
ASSERT(type->kind() != Type::kArray_Kind);
std::vector<std::unique_ptr<Expression>> currentVarSizes;
for (size_t j = 0; j < decl.fSizes[i].size(); j++) {
@@ -172,17 +172,18 @@ std::unique_ptr<VarDeclaration> IRGenerator::convertVarDeclaration(const ASTVarD
count = -1;
name += "[]";
}
- type = std::shared_ptr<Type>(new Type(name, Type::kArray_Kind, type, (int) count));
+ type = new Type(name, Type::kArray_Kind, *type, (int) count);
+ fSymbolTable->takeOwnership((Type*) type);
currentVarSizes.push_back(std::move(size));
} else {
- type = std::shared_ptr<Type>(new Type(type->fName + "[]", Type::kArray_Kind, type,
- -1));
+ type = new Type(type->fName + "[]", Type::kArray_Kind, *type, -1);
+ fSymbolTable->takeOwnership((Type*) type);
currentVarSizes.push_back(nullptr);
}
}
sizes.push_back(std::move(currentVarSizes));
- auto var = std::make_shared<Variable>(decl.fPosition, modifiers, decl.fNames[i], type,
- storage);
+ Variable* var = new Variable(decl.fPosition, modifiers, decl.fNames[i], *type,
+ storage);
variables.push_back(var);
std::unique_ptr<Expression> value;
if (decl.fValues[i]) {
@@ -190,7 +191,7 @@ std::unique_ptr<VarDeclaration> IRGenerator::convertVarDeclaration(const ASTVarD
if (!value) {
return nullptr;
}
- value = this->coerce(std::move(value), type);
+ value = this->coerce(std::move(value), *type);
}
fSymbolTable->add(var->fName, var);
values.push_back(std::move(value));
@@ -298,7 +299,7 @@ std::unique_ptr<Statement> IRGenerator::convertReturn(const ASTReturnStatement&
} else {
if (fCurrentFunction->fReturnType != kVoid_Type) {
fErrors.error(r.fPosition, "expected function to return '" +
- fCurrentFunction->fReturnType->description() + "'");
+ fCurrentFunction->fReturnType.description() + "'");
}
return std::unique_ptr<Statement>(new ReturnStatement(r.fPosition));
}
@@ -316,80 +317,74 @@ std::unique_ptr<Statement> IRGenerator::convertDiscard(const ASTDiscardStatement
return std::unique_ptr<Statement>(new DiscardStatement(d.fPosition));
}
-static std::shared_ptr<Type> expand_generics(std::shared_ptr<Type> type, int i) {
- if (type->kind() == Type::kGeneric_Kind) {
- return type->coercibleTypes()[i];
+static const Type& expand_generics(const Type& type, int i) {
+ if (type.kind() == Type::kGeneric_Kind) {
+ return *type.coercibleTypes()[i];
}
return type;
}
-static void expand_generics(FunctionDeclaration& decl,
+static void expand_generics(const FunctionDeclaration& decl,
SymbolTable& symbolTable) {
for (int i = 0; i < 4; i++) {
- std::shared_ptr<Type> returnType = expand_generics(decl.fReturnType, i);
- std::vector<std::shared_ptr<Variable>> arguments;
+ const Type& returnType = expand_generics(decl.fReturnType, i);
+ std::vector<const Variable*> parameters;
for (const auto& p : decl.fParameters) {
- arguments.push_back(std::shared_ptr<Variable>(new Variable(
- p->fPosition,
- Modifiers(p->fModifiers),
- p->fName,
- expand_generics(p->fType, i),
- Variable::kParameter_Storage)));
+ Variable* var = new Variable(p->fPosition, Modifiers(p->fModifiers), p->fName,
+ expand_generics(p->fType, i),
+ Variable::kParameter_Storage);
+ symbolTable.takeOwnership(var);
+ parameters.push_back(var);
}
- std::shared_ptr<FunctionDeclaration> expanded(new FunctionDeclaration(
- decl.fPosition,
- decl.fName,
- std::move(arguments),
- std::move(returnType)));
+ FunctionDeclaration* expanded = new FunctionDeclaration(decl.fPosition,
+ decl.fName,
+ std::move(parameters),
+ std::move(returnType));
symbolTable.add(expanded->fName, expanded);
}
}
std::unique_ptr<FunctionDefinition> IRGenerator::convertFunction(const ASTFunction& f) {
- std::shared_ptr<SymbolTable> old = fSymbolTable;
- AutoSymbolTable table(this);
bool isGeneric;
- std::shared_ptr<Type> returnType = this->convertType(*f.fReturnType);
+ const Type* returnType = this->convertType(*f.fReturnType);
if (!returnType) {
return nullptr;
}
isGeneric = returnType->kind() == Type::kGeneric_Kind;
- std::vector<std::shared_ptr<Variable>> parameters;
+ std::vector<const Variable*> parameters;
for (const auto& param : f.fParameters) {
- std::shared_ptr<Type> type = this->convertType(*param->fType);
+ const Type* type = this->convertType(*param->fType);
if (!type) {
return nullptr;
}
for (int j = (int) param->fSizes.size() - 1; j >= 0; j--) {
int size = param->fSizes[j];
std::string name = type->name() + "[" + to_string(size) + "]";
- type = std::shared_ptr<Type>(new Type(std::move(name), Type::kArray_Kind,
- std::move(type), size));
+ Type* newType = new Type(std::move(name), Type::kArray_Kind, *type, size);
+ fSymbolTable->takeOwnership(newType);
+ type = newType;
}
std::string name = param->fName;
Modifiers modifiers = this->convertModifiers(param->fModifiers);
Position pos = param->fPosition;
- std::shared_ptr<Variable> var = std::shared_ptr<Variable>(new Variable(
- pos,
- modifiers,
- std::move(name),
- type,
- Variable::kParameter_Storage));
- parameters.push_back(std::move(var));
+ Variable* var = new Variable(pos, modifiers, std::move(name), *type,
+ Variable::kParameter_Storage);
+ fSymbolTable->takeOwnership(var);
+ parameters.push_back(var);
isGeneric |= type->kind() == Type::kGeneric_Kind;
}
// find existing declaration
- std::shared_ptr<FunctionDeclaration> decl;
- auto entry = (*old)[f.fName];
+ const FunctionDeclaration* decl = nullptr;
+ auto entry = (*fSymbolTable)[f.fName];
if (entry) {
- std::vector<std::shared_ptr<FunctionDeclaration>> functions;
+ std::vector<const FunctionDeclaration*> functions;
switch (entry->fKind) {
case Symbol::kUnresolvedFunction_Kind:
- functions = std::static_pointer_cast<UnresolvedFunction>(entry)->fFunctions;
+ functions = ((UnresolvedFunction*) entry)->fFunctions;
break;
case Symbol::kFunctionDeclaration_Kind:
- functions.push_back(std::static_pointer_cast<FunctionDeclaration>(entry));
+ functions.push_back((FunctionDeclaration*) entry);
break;
default:
fErrors.error(f.fPosition, "symbol '" + f.fName + "' was already defined");
@@ -406,11 +401,8 @@ std::unique_ptr<FunctionDefinition> IRGenerator::convertFunction(const ASTFuncti
}
}
if (match) {
- if (returnType != other->fReturnType) {
- FunctionDeclaration newDecl = FunctionDeclaration(f.fPosition,
- f.fName,
- parameters,
- returnType);
+ if (*returnType != other->fReturnType) {
+ FunctionDeclaration newDecl(f.fPosition, f.fName, parameters, *returnType);
fErrors.error(f.fPosition, "functions '" + newDecl.description() +
"' and '" + other->description() +
"' differ only in return type");
@@ -424,7 +416,6 @@ std::unique_ptr<FunctionDefinition> IRGenerator::convertFunction(const ASTFuncti
"declaration and definition");
return nullptr;
}
- fSymbolTable->add(parameters[i]->fName, decl->fParameters[i]);
}
if (other->fDefined) {
fErrors.error(f.fPosition, "duplicate definition of " +
@@ -437,28 +428,31 @@ std::unique_ptr<FunctionDefinition> IRGenerator::convertFunction(const ASTFuncti
}
if (!decl) {
// couldn't find an existing declaration
- decl.reset(new FunctionDeclaration(f.fPosition, f.fName, parameters, returnType));
- for (auto var : parameters) {
- fSymbolTable->add(var->fName, var);
+ decl = new FunctionDeclaration(f.fPosition, f.fName, parameters, *returnType);
+ if (isGeneric) {
+ ASSERT(!f.fBody);
+ expand_generics(*decl, *fSymbolTable);
+ delete decl;
dogben 2016/07/08 19:56:40 Missing return. nit: maybe stack-allocate the Fun
+ } else {
+ fSymbolTable->add(decl->fName, (FunctionDeclaration*) decl);
}
}
- if (isGeneric) {
- ASSERT(!f.fBody);
- expand_generics(*decl, *old);
- } else {
- old->add(decl->fName, decl);
- if (f.fBody) {
- ASSERT(!fCurrentFunction);
- fCurrentFunction = decl;
- decl->fDefined = true;
- std::unique_ptr<Block> body = this->convertBlock(*f.fBody);
- fCurrentFunction = nullptr;
- if (!body) {
- return nullptr;
- }
- return std::unique_ptr<FunctionDefinition>(new FunctionDefinition(f.fPosition, decl,
- std::move(body)));
+ if (f.fBody) {
+ ASSERT(!fCurrentFunction);
+ fCurrentFunction = decl;
+ decl->fDefined = true;
+ std::shared_ptr<SymbolTable> old = fSymbolTable;
+ AutoSymbolTable table(this);
+ for (size_t i = 0; i < parameters.size(); i++) {
+ fSymbolTable->addWithoutOwnership(parameters[i]->fName, decl->fParameters[i]);
+ }
+ std::unique_ptr<Block> body = this->convertBlock(*f.fBody);
+ fCurrentFunction = nullptr;
+ if (!body) {
+ return nullptr;
}
+ return std::unique_ptr<FunctionDefinition>(new FunctionDefinition(f.fPosition, *decl,
+ std::move(body)));
}
return nullptr;
}
@@ -488,28 +482,24 @@ std::unique_ptr<InterfaceBlock> IRGenerator::convertInterfaceBlock(const ASTInte
}
}
}
- std::shared_ptr<Type> type = std::shared_ptr<Type>(new Type(intf.fInterfaceName, fields));
+ Type* type = new Type(intf.fInterfaceName, fields);
+ fSymbolTable->takeOwnership(type);
std::string name = intf.fValueName.length() > 0 ? intf.fValueName : intf.fInterfaceName;
- std::shared_ptr<Variable> var = std::shared_ptr<Variable>(new Variable(intf.fPosition, mods,
- name, type,
- Variable::kGlobal_Storage));
+ Variable* var = new Variable(intf.fPosition, mods, name, *type, Variable::kGlobal_Storage);
if (intf.fValueName.length()) {
old->add(intf.fValueName, var);
-
} else {
for (size_t i = 0; i < fields.size(); i++) {
- std::shared_ptr<Field> field = std::shared_ptr<Field>(new Field(intf.fPosition, var,
- (int) i));
- old->add(fields[i].fName, field);
+ old->add(fields[i].fName, new Field(intf.fPosition, *var, (int) i));
}
}
- return std::unique_ptr<InterfaceBlock>(new InterfaceBlock(intf.fPosition, var));
+ return std::unique_ptr<InterfaceBlock>(new InterfaceBlock(intf.fPosition, *var));
}
-std::shared_ptr<Type> IRGenerator::convertType(const ASTType& type) {
- std::shared_ptr<Symbol> result = (*fSymbolTable)[type.fName];
+const Type* IRGenerator::convertType(const ASTType& type) {
+ const Symbol* result = (*fSymbolTable)[type.fName];
if (result && result->fKind == Symbol::kType_Kind) {
- return std::static_pointer_cast<Type>(result);
+ return (const Type*) result;
}
fErrors.error(type.fPosition, "unknown type '" + type.fName + "'");
return nullptr;
@@ -542,40 +532,40 @@ std::unique_ptr<Expression> IRGenerator::convertExpression(const ASTExpression&
}
std::unique_ptr<Expression> IRGenerator::convertIdentifier(const ASTIdentifier& identifier) {
- std::shared_ptr<Symbol> result = (*fSymbolTable)[identifier.fText];
+ const Symbol* result = (*fSymbolTable)[identifier.fText];
if (!result) {
fErrors.error(identifier.fPosition, "unknown identifier '" + identifier.fText + "'");
return nullptr;
}
switch (result->fKind) {
case Symbol::kFunctionDeclaration_Kind: {
- std::vector<std::shared_ptr<FunctionDeclaration>> f = {
- std::static_pointer_cast<FunctionDeclaration>(result)
+ std::vector<const FunctionDeclaration*> f = {
+ (const FunctionDeclaration*) result
};
return std::unique_ptr<FunctionReference>(new FunctionReference(identifier.fPosition,
- std::move(f)));
+ f));
}
case Symbol::kUnresolvedFunction_Kind: {
- auto f = std::static_pointer_cast<UnresolvedFunction>(result);
+ const UnresolvedFunction* f = (const UnresolvedFunction*) result;
return std::unique_ptr<FunctionReference>(new FunctionReference(identifier.fPosition,
f->fFunctions));
}
case Symbol::kVariable_Kind: {
- std::shared_ptr<Variable> var = std::static_pointer_cast<Variable>(result);
- this->markReadFrom(var);
+ const Variable* var = (const Variable*) result;
+ this->markReadFrom(*var);
return std::unique_ptr<VariableReference>(new VariableReference(identifier.fPosition,
- std::move(var)));
+ *var));
}
case Symbol::kField_Kind: {
- std::shared_ptr<Field> field = std::static_pointer_cast<Field>(result);
+ const Field* field = (const Field*) result;
VariableReference* base = new VariableReference(identifier.fPosition, field->fOwner);
return std::unique_ptr<Expression>(new FieldAccess(std::unique_ptr<Expression>(base),
field->fFieldIndex));
}
case Symbol::kType_Kind: {
- auto t = std::static_pointer_cast<Type>(result);
+ const Type* t = (const Type*) result;
return std::unique_ptr<TypeReference>(new TypeReference(identifier.fPosition,
- std::move(t)));
+ *t));
}
default:
ABORT("unsupported symbol type %d\n", result->fKind);
@@ -584,43 +574,42 @@ std::unique_ptr<Expression> IRGenerator::convertIdentifier(const ASTIdentifier&
}
std::unique_ptr<Expression> IRGenerator::coerce(std::unique_ptr<Expression> expr,
- std::shared_ptr<Type> type) {
+ const Type& type) {
if (!expr) {
return nullptr;
}
- if (*expr->fType == *type) {
+ if (expr->fType == type) {
return expr;
}
this->checkValid(*expr);
- if (*expr->fType == *kInvalid_Type) {
+ if (expr->fType == kInvalid_Type) {
return nullptr;
}
- if (!expr->fType->canCoerceTo(type)) {
- fErrors.error(expr->fPosition, "expected '" + type->description() + "', but found '" +
- expr->fType->description() + "'");
+ if (!expr->fType.canCoerceTo(type)) {
+ fErrors.error(expr->fPosition, "expected '" + type.description() + "', but found '" +
+ expr->fType.description() + "'");
return nullptr;
}
- if (type->kind() == Type::kScalar_Kind) {
+ if (type.kind() == Type::kScalar_Kind) {
std::vector<std::unique_ptr<Expression>> args;
args.push_back(std::move(expr));
- ASTIdentifier id(Position(), type->description());
+ ASTIdentifier id(Position(), type.description());
std::unique_ptr<Expression> ctor = this->convertIdentifier(id);
ASSERT(ctor);
return this->call(Position(), std::move(ctor), std::move(args));
}
- ABORT("cannot coerce %s to %s", expr->fType->description().c_str(),
- type->description().c_str());
+ ABORT("cannot coerce %s to %s", expr->fType.description().c_str(),
+ type.description().c_str());
}
/**
* Determines the operand and result types of a binary expression. Returns true if the expression is
* legal, false otherwise. If false, the values of the out parameters are undefined.
*/
-static bool determine_binary_type(Token::Kind op, std::shared_ptr<Type> left,
- std::shared_ptr<Type> right,
- std::shared_ptr<Type>* outLeftType,
- std::shared_ptr<Type>* outRightType,
- std::shared_ptr<Type>* outResultType,
+static bool determine_binary_type(Token::Kind op, const Type& left, const Type& right,
+ const Type** outLeftType,
+ const Type** outRightType,
+ const Type** outResultType,
bool tryFlipped) {
bool isLogical;
switch (op) {
@@ -638,24 +627,24 @@ static bool determine_binary_type(Token::Kind op, std::shared_ptr<Type> left,
case Token::LOGICALOREQ: // fall through
case Token::LOGICALANDEQ: // fall through
case Token::LOGICALXOREQ:
- *outLeftType = kBool_Type;
- *outRightType = kBool_Type;
- *outResultType = kBool_Type;
- return left->canCoerceTo(kBool_Type) && right->canCoerceTo(kBool_Type);
+ *outLeftType = &kBool_Type;
+ *outRightType = &kBool_Type;
+ *outResultType = &kBool_Type;
+ return left.canCoerceTo(kBool_Type) && right.canCoerceTo(kBool_Type);
case Token::STAR: // fall through
case Token::STAREQ:
// FIXME need to handle non-square matrices
- if (left->kind() == Type::kMatrix_Kind && right->kind() == Type::kVector_Kind) {
- *outLeftType = left;
- *outRightType = right;
- *outResultType = right;
- return left->rows() == right->columns();
+ if (left.kind() == Type::kMatrix_Kind && right.kind() == Type::kVector_Kind) {
+ *outLeftType = &left;
+ *outRightType = &right;
+ *outResultType = &right;
+ return left.rows() == right.columns();
}
- if (left->kind() == Type::kVector_Kind && right->kind() == Type::kMatrix_Kind) {
- *outLeftType = left;
- *outRightType = right;
- *outResultType = left;
- return left->columns() == right->columns();
+ if (left.kind() == Type::kVector_Kind && right.kind() == Type::kMatrix_Kind) {
+ *outLeftType = &left;
+ *outRightType = &right;
+ *outResultType = &left;
+ return left.columns() == right.columns();
}
// fall through
default:
@@ -664,33 +653,33 @@ static bool determine_binary_type(Token::Kind op, std::shared_ptr<Type> left,
// FIXME: need to disallow illegal operations like vec3 > vec3. Also do not currently have
// full support for numbers other than float.
if (left == right) {
- *outLeftType = left;
- *outRightType = left;
+ *outLeftType = &left;
+ *outRightType = &left;
if (isLogical) {
- *outResultType = kBool_Type;
+ *outResultType = &kBool_Type;
} else {
- *outResultType = left;
+ *outResultType = &left;
}
return true;
}
// FIXME: incorrect for shift operations
- if (left->canCoerceTo(right)) {
- *outLeftType = right;
- *outRightType = right;
+ if (left.canCoerceTo(right)) {
+ *outLeftType = &right;
+ *outRightType = &right;
if (isLogical) {
- *outResultType = kBool_Type;
+ *outResultType = &kBool_Type;
} else {
- *outResultType = right;
+ *outResultType = &right;
}
return true;
}
- if ((left->kind() == Type::kVector_Kind || left->kind() == Type::kMatrix_Kind) &&
- (right->kind() == Type::kScalar_Kind)) {
- if (determine_binary_type(op, left->componentType(), right, outLeftType, outRightType,
+ if ((left.kind() == Type::kVector_Kind || left.kind() == Type::kMatrix_Kind) &&
+ (right.kind() == Type::kScalar_Kind)) {
+ if (determine_binary_type(op, left.componentType(), right, outLeftType, outRightType,
outResultType, false)) {
- *outLeftType = (*outLeftType)->toCompound(left->columns(), left->rows());
+ *outLeftType = &(*outLeftType)->toCompound(left.columns(), left.rows());
if (!isLogical) {
- *outResultType = (*outResultType)->toCompound(left->columns(), left->rows());
+ *outResultType = &(*outResultType)->toCompound(left.columns(), left.rows());
}
return true;
}
@@ -713,15 +702,15 @@ std::unique_ptr<Expression> IRGenerator::convertBinaryExpression(
if (!right) {
return nullptr;
}
- std::shared_ptr<Type> leftType;
- std::shared_ptr<Type> rightType;
- std::shared_ptr<Type> resultType;
+ const Type* leftType;
+ const Type* rightType;
+ const Type* resultType;
if (!determine_binary_type(expression.fOperator, left->fType, right->fType, &leftType,
&rightType, &resultType, true)) {
fErrors.error(expression.fPosition, "type mismatch: '" +
Token::OperatorName(expression.fOperator) +
- "' cannot operate on '" + left->fType->fName +
- "', '" + right->fType->fName + "'");
+ "' cannot operate on '" + left->fType.fName +
+ "', '" + right->fType.fName + "'");
return nullptr;
}
switch (expression.fOperator) {
@@ -744,11 +733,12 @@ std::unique_ptr<Expression> IRGenerator::convertBinaryExpression(
break;
}
return std::unique_ptr<Expression>(new BinaryExpression(expression.fPosition,
- this->coerce(std::move(left), leftType),
+ this->coerce(std::move(left),
+ *leftType),
expression.fOperator,
this->coerce(std::move(right),
- rightType),
- resultType));
+ *rightType),
+ *resultType));
}
std::unique_ptr<Expression> IRGenerator::convertTernaryExpression(
@@ -766,34 +756,33 @@ std::unique_ptr<Expression> IRGenerator::convertTernaryExpression(
if (!ifFalse) {
return nullptr;
}
- std::shared_ptr<Type> trueType;
- std::shared_ptr<Type> falseType;
- std::shared_ptr<Type> resultType;
+ const Type* trueType;
+ const Type* falseType;
+ const Type* resultType;
if (!determine_binary_type(Token::EQEQ, ifTrue->fType, ifFalse->fType, &trueType,
&falseType, &resultType, true)) {
fErrors.error(expression.fPosition, "ternary operator result mismatch: '" +
- ifTrue->fType->fName + "', '" +
- ifFalse->fType->fName + "'");
+ ifTrue->fType.fName + "', '" +
+ ifFalse->fType.fName + "'");
return nullptr;
}
ASSERT(trueType == falseType);
- ifTrue = this->coerce(std::move(ifTrue), trueType);
- ifFalse = this->coerce(std::move(ifFalse), falseType);
+ ifTrue = this->coerce(std::move(ifTrue), *trueType);
+ ifFalse = this->coerce(std::move(ifFalse), *falseType);
return std::unique_ptr<Expression>(new TernaryExpression(expression.fPosition,
std::move(test),
std::move(ifTrue),
std::move(ifFalse)));
}
-std::unique_ptr<Expression> IRGenerator::call(
- Position position,
- std::shared_ptr<FunctionDeclaration> function,
- std::vector<std::unique_ptr<Expression>> arguments) {
- if (function->fParameters.size() != arguments.size()) {
- std::string msg = "call to '" + function->fName + "' expected " +
- to_string(function->fParameters.size()) +
+std::unique_ptr<Expression> IRGenerator::call(Position position,
+ const FunctionDeclaration& function,
+ std::vector<std::unique_ptr<Expression>> arguments) {
+ if (function.fParameters.size() != arguments.size()) {
+ std::string msg = "call to '" + function.fName + "' expected " +
+ to_string(function.fParameters.size()) +
" argument";
- if (function->fParameters.size() != 1) {
+ if (function.fParameters.size() != 1) {
msg += "s";
}
msg += ", but found " + to_string(arguments.size());
@@ -801,12 +790,12 @@ std::unique_ptr<Expression> IRGenerator::call(
return nullptr;
}
for (size_t i = 0; i < arguments.size(); i++) {
- arguments[i] = this->coerce(std::move(arguments[i]), function->fParameters[i]->fType);
- if (arguments[i] && (function->fParameters[i]->fModifiers.fFlags & Modifiers::kOut_Flag)) {
+ arguments[i] = this->coerce(std::move(arguments[i]), function.fParameters[i]->fType);
+ if (arguments[i] && (function.fParameters[i]->fModifiers.fFlags & Modifiers::kOut_Flag)) {
this->markWrittenTo(*arguments[i]);
}
}
- return std::unique_ptr<FunctionCall>(new FunctionCall(position, std::move(function),
+ return std::unique_ptr<FunctionCall>(new FunctionCall(position, function,
std::move(arguments)));
}
@@ -815,16 +804,16 @@ std::unique_ptr<Expression> IRGenerator::call(
* if the cost could be computed, false if the call is not valid. Cost has no particular meaning
* other than "lower costs are preferred".
*/
-bool IRGenerator::determineCallCost(std::shared_ptr<FunctionDeclaration> function,
+bool IRGenerator::determineCallCost(const FunctionDeclaration& function,
const std::vector<std::unique_ptr<Expression>>& arguments,
int* outCost) {
- if (function->fParameters.size() != arguments.size()) {
+ if (function.fParameters.size() != arguments.size()) {
return false;
}
int total = 0;
for (size_t i = 0; i < arguments.size(); i++) {
int cost;
- if (arguments[i]->fType->determineCoercionCost(function->fParameters[i]->fType, &cost)) {
+ if (arguments[i]->fType.determineCoercionCost(function.fParameters[i]->fType, &cost)) {
total += cost;
} else {
return false;
@@ -848,40 +837,40 @@ std::unique_ptr<Expression> IRGenerator::call(Position position,
}
FunctionReference* ref = (FunctionReference*) functionValue.get();
int bestCost = INT_MAX;
- std::shared_ptr<FunctionDeclaration> best;
+ const FunctionDeclaration* best = nullptr;
if (ref->fFunctions.size() > 1) {
for (const auto& f : ref->fFunctions) {
int cost;
- if (this->determineCallCost(f, arguments, &cost) && cost < bestCost) {
+ if (this->determineCallCost(*f, arguments, &cost) && cost < bestCost) {
bestCost = cost;
best = f;
}
}
if (best) {
- return this->call(position, std::move(best), std::move(arguments));
+ return this->call(position, *best, std::move(arguments));
}
std::string msg = "no match for " + ref->fFunctions[0]->fName + "(";
std::string separator = "";
for (size_t i = 0; i < arguments.size(); i++) {
msg += separator;
separator = ", ";
- msg += arguments[i]->fType->description();
+ msg += arguments[i]->fType.description();
}
msg += ")";
fErrors.error(position, msg);
return nullptr;
}
- return this->call(position, ref->fFunctions[0], std::move(arguments));
+ return this->call(position, *ref->fFunctions[0], std::move(arguments));
}
std::unique_ptr<Expression> IRGenerator::convertConstructor(
Position position,
- std::shared_ptr<Type> type,
+ const Type& type,
std::vector<std::unique_ptr<Expression>> args) {
// FIXME: add support for structs and arrays
- Type::Kind kind = type->kind();
- if (!type->isNumber() && kind != Type::kVector_Kind && kind != Type::kMatrix_Kind) {
- fErrors.error(position, "cannot construct '" + type->description() + "'");
+ Type::Kind kind = type.kind();
+ if (!type.isNumber() && kind != Type::kVector_Kind && kind != Type::kMatrix_Kind) {
+ fErrors.error(position, "cannot construct '" + type.description() + "'");
return nullptr;
}
if (type == kFloat_Type && args.size() == 1 &&
@@ -893,9 +882,9 @@ std::unique_ptr<Expression> IRGenerator::convertConstructor(
// argument is already the right type, just return it
return std::move(args[0]);
}
- if (type->isNumber()) {
+ if (type.isNumber()) {
if (args.size() != 1) {
- fErrors.error(position, "invalid arguments to '" + type->description() +
+ fErrors.error(position, "invalid arguments to '" + type.description() +
"' constructor, (expected exactly 1 argument, but found " +
to_string(args.size()) + ")");
}
@@ -907,38 +896,38 @@ std::unique_ptr<Expression> IRGenerator::convertConstructor(
this->coerce(std::move(one), type),
this->coerce(std::move(zero),
type)));
- } else if (!args[0]->fType->isNumber()) {
- fErrors.error(position, "invalid argument to '" + type->description() +
+ } else if (!args[0]->fType.isNumber()) {
+ fErrors.error(position, "invalid argument to '" + type.description() +
"' constructor (expected a number or bool, but found '" +
- args[0]->fType->description() + "')");
+ args[0]->fType.description() + "')");
}
} else {
ASSERT(kind == Type::kVector_Kind || kind == Type::kMatrix_Kind);
int actual = 0;
for (size_t i = 0; i < args.size(); i++) {
- if (args[i]->fType->kind() == Type::kVector_Kind ||
- args[i]->fType->kind() == Type::kMatrix_Kind) {
- int columns = args[i]->fType->columns();
- int rows = args[i]->fType->rows();
+ if (args[i]->fType.kind() == Type::kVector_Kind ||
+ args[i]->fType.kind() == Type::kMatrix_Kind) {
+ int columns = args[i]->fType.columns();
+ int rows = args[i]->fType.rows();
args[i] = this->coerce(std::move(args[i]),
- type->componentType()->toCompound(columns, rows));
- actual += args[i]->fType->rows() * args[i]->fType->columns();
- } else if (args[i]->fType->kind() == Type::kScalar_Kind) {
+ type.componentType().toCompound(columns, rows));
+ actual += args[i]->fType.rows() * args[i]->fType.columns();
+ } else if (args[i]->fType.kind() == Type::kScalar_Kind) {
actual += 1;
- if (type->kind() != Type::kScalar_Kind) {
- args[i] = this->coerce(std::move(args[i]), type->componentType());
+ if (type.kind() != Type::kScalar_Kind) {
+ args[i] = this->coerce(std::move(args[i]), type.componentType());
}
} else {
- fErrors.error(position, "'" + args[i]->fType->description() + "' is not a valid "
- "parameter to '" + type->description() + "' constructor");
+ fErrors.error(position, "'" + args[i]->fType.description() + "' is not a valid "
+ "parameter to '" + type.description() + "' constructor");
return nullptr;
}
}
- int min = type->rows() * type->columns();
- int max = type->columns() > 1 ? INT_MAX : min;
+ int min = type.rows() * type.columns();
+ int max = type.columns() > 1 ? INT_MAX : min;
if ((actual < min || actual > max) &&
!((kind == Type::kVector_Kind || kind == Type::kMatrix_Kind) && (actual == 1))) {
- fErrors.error(position, "invalid arguments to '" + type->description() +
+ fErrors.error(position, "invalid arguments to '" + type.description() +
"' constructor (expected " + to_string(min) + " scalar" +
(min == 1 ? "" : "s") + ", but found " + to_string(actual) +
")");
@@ -956,16 +945,16 @@ std::unique_ptr<Expression> IRGenerator::convertPrefixExpression(
}
switch (expression.fOperator) {
case Token::PLUS:
- if (!base->fType->isNumber() && base->fType->kind() != Type::kVector_Kind) {
+ if (!base->fType.isNumber() && base->fType.kind() != Type::kVector_Kind) {
fErrors.error(expression.fPosition,
- "'+' cannot operate on '" + base->fType->description() + "'");
+ "'+' cannot operate on '" + base->fType.description() + "'");
return nullptr;
}
return base;
case Token::MINUS:
- if (!base->fType->isNumber() && base->fType->kind() != Type::kVector_Kind) {
+ if (!base->fType.isNumber() && base->fType.kind() != Type::kVector_Kind) {
fErrors.error(expression.fPosition,
- "'-' cannot operate on '" + base->fType->description() + "'");
+ "'-' cannot operate on '" + base->fType.description() + "'");
return nullptr;
}
if (base->fKind == Expression::kIntLiteral_Kind) {
@@ -978,19 +967,19 @@ std::unique_ptr<Expression> IRGenerator::convertPrefixExpression(
}
return std::unique_ptr<Expression>(new PrefixExpression(Token::MINUS, std::move(base)));
case Token::PLUSPLUS:
- if (!base->fType->isNumber()) {
+ if (!base->fType.isNumber()) {
fErrors.error(expression.fPosition,
"'" + Token::OperatorName(expression.fOperator) +
- "' cannot operate on '" + base->fType->description() + "'");
+ "' cannot operate on '" + base->fType.description() + "'");
return nullptr;
}
this->markWrittenTo(*base);
break;
case Token::MINUSMINUS:
- if (!base->fType->isNumber()) {
+ if (!base->fType.isNumber()) {
fErrors.error(expression.fPosition,
"'" + Token::OperatorName(expression.fOperator) +
- "' cannot operate on '" + base->fType->description() + "'");
+ "' cannot operate on '" + base->fType.description() + "'");
return nullptr;
}
this->markWrittenTo(*base);
@@ -999,7 +988,7 @@ std::unique_ptr<Expression> IRGenerator::convertPrefixExpression(
if (base->fType != kBool_Type) {
fErrors.error(expression.fPosition,
"'" + Token::OperatorName(expression.fOperator) +
- "' cannot operate on '" + base->fType->description() + "'");
+ "' cannot operate on '" + base->fType.description() + "'");
return nullptr;
}
break;
@@ -1012,8 +1001,8 @@ std::unique_ptr<Expression> IRGenerator::convertPrefixExpression(
std::unique_ptr<Expression> IRGenerator::convertIndex(std::unique_ptr<Expression> base,
const ASTExpression& index) {
- if (base->fType->kind() != Type::kArray_Kind && base->fType->kind() != Type::kMatrix_Kind) {
- fErrors.error(base->fPosition, "expected array, but found '" + base->fType->description() +
+ if (base->fType.kind() != Type::kArray_Kind && base->fType.kind() != Type::kMatrix_Kind) {
+ fErrors.error(base->fPosition, "expected array, but found '" + base->fType.description() +
"'");
return nullptr;
}
@@ -1030,21 +1019,21 @@ std::unique_ptr<Expression> IRGenerator::convertIndex(std::unique_ptr<Expression
std::unique_ptr<Expression> IRGenerator::convertField(std::unique_ptr<Expression> base,
const std::string& field) {
- auto fields = base->fType->fields();
+ auto fields = base->fType.fields();
for (size_t i = 0; i < fields.size(); i++) {
if (fields[i].fName == field) {
return std::unique_ptr<Expression>(new FieldAccess(std::move(base), (int) i));
}
}
- fErrors.error(base->fPosition, "type '" + base->fType->description() + "' does not have a "
+ fErrors.error(base->fPosition, "type '" + base->fType.description() + "' does not have a "
"field named '" + field + "");
return nullptr;
}
std::unique_ptr<Expression> IRGenerator::convertSwizzle(std::unique_ptr<Expression> base,
const std::string& fields) {
- if (base->fType->kind() != Type::kVector_Kind) {
- fErrors.error(base->fPosition, "cannot swizzle type '" + base->fType->description() + "'");
+ if (base->fType.kind() != Type::kVector_Kind) {
+ fErrors.error(base->fPosition, "cannot swizzle type '" + base->fType.description() + "'");
return nullptr;
}
std::vector<int> swizzleComponents;
@@ -1058,7 +1047,7 @@ std::unique_ptr<Expression> IRGenerator::convertSwizzle(std::unique_ptr<Expressi
case 'y': // fall through
case 'g': // fall through
case 't':
- if (base->fType->columns() >= 2) {
+ if (base->fType.columns() >= 2) {
swizzleComponents.push_back(1);
break;
}
@@ -1066,7 +1055,7 @@ std::unique_ptr<Expression> IRGenerator::convertSwizzle(std::unique_ptr<Expressi
case 'z': // fall through
case 'b': // fall through
case 'p':
- if (base->fType->columns() >= 3) {
+ if (base->fType.columns() >= 3) {
swizzleComponents.push_back(2);
break;
}
@@ -1074,7 +1063,7 @@ std::unique_ptr<Expression> IRGenerator::convertSwizzle(std::unique_ptr<Expressi
case 'w': // fall through
case 'a': // fall through
case 'q':
- if (base->fType->columns() >= 4) {
+ if (base->fType.columns() >= 4) {
swizzleComponents.push_back(3);
break;
}
@@ -1117,7 +1106,7 @@ std::unique_ptr<Expression> IRGenerator::convertSuffixExpression(
return this->call(expression.fPosition, std::move(base), std::move(arguments));
}
case ASTSuffix::kField_Kind: {
- switch (base->fType->kind()) {
+ switch (base->fType.kind()) {
case Type::kVector_Kind:
return this->convertSwizzle(std::move(base),
((ASTFieldSuffix&) *expression.fSuffix).fField);
@@ -1126,23 +1115,23 @@ std::unique_ptr<Expression> IRGenerator::convertSuffixExpression(
((ASTFieldSuffix&) *expression.fSuffix).fField);
default:
fErrors.error(base->fPosition, "cannot swizzle value of type '" +
- base->fType->description() + "'");
+ base->fType.description() + "'");
return nullptr;
}
}
case ASTSuffix::kPostIncrement_Kind:
- if (!base->fType->isNumber()) {
+ if (!base->fType.isNumber()) {
fErrors.error(expression.fPosition,
- "'++' cannot operate on '" + base->fType->description() + "'");
+ "'++' cannot operate on '" + base->fType.description() + "'");
return nullptr;
}
this->markWrittenTo(*base);
return std::unique_ptr<Expression>(new PostfixExpression(std::move(base),
Token::PLUSPLUS));
case ASTSuffix::kPostDecrement_Kind:
- if (!base->fType->isNumber()) {
+ if (!base->fType.isNumber()) {
fErrors.error(expression.fPosition,
- "'--' cannot operate on '" + base->fType->description() + "'");
+ "'--' cannot operate on '" + base->fType.description() + "'");
return nullptr;
}
this->markWrittenTo(*base);
@@ -1167,8 +1156,8 @@ void IRGenerator::checkValid(const Expression& expr) {
}
}
-void IRGenerator::markReadFrom(std::shared_ptr<Variable> var) {
- var->fIsReadFrom = true;
+void IRGenerator::markReadFrom(const Variable& var) {
+ var.fIsReadFrom = true;
}
static bool has_duplicates(const Swizzle& swizzle) {
@@ -1187,7 +1176,7 @@ static bool has_duplicates(const Swizzle& swizzle) {
void IRGenerator::markWrittenTo(const Expression& expr) {
switch (expr.fKind) {
case Expression::kVariableReference_Kind: {
- const Variable& var = *((VariableReference&) expr).fVariable;
+ const Variable& var = ((VariableReference&) expr).fVariable;
if (var.fModifiers.fFlags & (Modifiers::kConst_Flag | Modifiers::kUniform_Flag)) {
fErrors.error(expr.fPosition,
"cannot modify immutable variable '" + var.fName + "'");
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