WHLSLVisitor.cpp   [plain text]

/*
 * Copyright (C) 2019 Apple Inc. All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *
 * THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
 * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
 * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
 * THE POSSIBILITY OF SUCH DAMAGE.
 */

#include "config.h"
#include "WHLSLVisitor.h"

#if ENABLE(WEBGPU)

#include "WHLSLAST.h"
#include "WHLSLProgram.h"

namespace WebCore {

namespace WHLSL {

void Visitor::visit(Program& program)
{
    // These visiting functions might add new global statements, so don't use foreach syntax.
    for (size_t i = 0; i < program.typeDefinitions().size(); ++i)
        checkErrorAndVisit(program.typeDefinitions()[i]);
    for (size_t i = 0; i < program.structureDefinitions().size(); ++i)
        checkErrorAndVisit(program.structureDefinitions()[i]);
    for (size_t i = 0; i < program.enumerationDefinitions().size(); ++i)
        checkErrorAndVisit(program.enumerationDefinitions()[i]);
    for (size_t i = 0; i < program.functionDefinitions().size(); ++i)
        checkErrorAndVisit(program.functionDefinitions()[i]);
    for (size_t i = 0; i < program.nativeFunctionDeclarations().size(); ++i)
        checkErrorAndVisit(program.nativeFunctionDeclarations()[i]);
    for (size_t i = 0; i < program.nativeTypeDeclarations().size(); ++i)
        checkErrorAndVisit(program.nativeTypeDeclarations()[i]);
}

void Visitor::visit(AST::UnnamedType& unnamedType)
{
    if (is<AST::TypeReference>(unnamedType))
        checkErrorAndVisit(downcast<AST::TypeReference>(unnamedType));
    else if (is<AST::PointerType>(unnamedType))
        checkErrorAndVisit(downcast<AST::PointerType>(unnamedType));
    else if (is<AST::ArrayReferenceType>(unnamedType))
        checkErrorAndVisit(downcast<AST::ArrayReferenceType>(unnamedType));
    else
        checkErrorAndVisit(downcast<AST::ArrayType>(unnamedType));
}

void Visitor::visit(AST::NamedType& namedType)
{
    if (is<AST::TypeDefinition>(namedType))
        checkErrorAndVisit(downcast<AST::TypeDefinition>(namedType));
    else if (is<AST::StructureDefinition>(namedType))
        checkErrorAndVisit(downcast<AST::StructureDefinition>(namedType));
    else if (is<AST::EnumerationDefinition>(namedType))
        checkErrorAndVisit(downcast<AST::EnumerationDefinition>(namedType));
    else
        checkErrorAndVisit(downcast<AST::NativeTypeDeclaration>(namedType));
}

void Visitor::visit(AST::TypeDefinition& typeDefinition)
{
    checkErrorAndVisit(typeDefinition.type());
}

void Visitor::visit(AST::StructureDefinition& structureDefinition)
{
    for (auto& structureElement : structureDefinition.structureElements())
        checkErrorAndVisit(structureElement);
}

void Visitor::visit(AST::EnumerationDefinition& enumerationDefinition)
{
    checkErrorAndVisit(enumerationDefinition.type());
    for (auto& enumerationMember : enumerationDefinition.enumerationMembers())
        checkErrorAndVisit(enumerationMember);
}

void Visitor::visit(AST::FunctionDefinition& functionDefinition)
{
    checkErrorAndVisit(static_cast<AST::FunctionDeclaration&>(functionDefinition));
    checkErrorAndVisit(functionDefinition.block());
}

void Visitor::visit(AST::NativeFunctionDeclaration& nativeFunctionDeclaration)
{
    checkErrorAndVisit(static_cast<AST::FunctionDeclaration&>(nativeFunctionDeclaration));
}

void Visitor::visit(AST::NativeTypeDeclaration& nativeTypeDeclaration)
{
    for (auto& typeArgument : nativeTypeDeclaration.typeArguments())
        checkErrorAndVisit(typeArgument);
}

void Visitor::visit(AST::TypeReference& typeReference)
{
    for (auto& typeArgument : typeReference.typeArguments())
        checkErrorAndVisit(typeArgument);
    if (typeReference.maybeResolvedType() && is<AST::TypeDefinition>(typeReference.resolvedType())) {
        auto& typeDefinition = downcast<AST::TypeDefinition>(typeReference.resolvedType());
        checkErrorAndVisit(typeDefinition.type());
    }
}

void Visitor::visit(AST::PointerType& pointerType)
{
    checkErrorAndVisit(static_cast<AST::ReferenceType&>(pointerType));
}

void Visitor::visit(AST::ArrayReferenceType& arrayReferenceType)
{
    checkErrorAndVisit(static_cast<AST::ReferenceType&>(arrayReferenceType));
}

void Visitor::visit(AST::ArrayType& arrayType)
{
    checkErrorAndVisit(arrayType.type());
}

void Visitor::visit(AST::StructureElement& structureElement)
{
    checkErrorAndVisit(structureElement.type());
    if (structureElement.semantic())
        checkErrorAndVisit(*structureElement.semantic());
}

void Visitor::visit(AST::EnumerationMember&)
{
}

void Visitor::visit(AST::FunctionDeclaration& functionDeclaration)
{
    checkErrorAndVisit(functionDeclaration.attributeBlock());
    checkErrorAndVisit(functionDeclaration.type());
    for (auto& parameter : functionDeclaration.parameters())
        checkErrorAndVisit(parameter);
    if (functionDeclaration.semantic())
        checkErrorAndVisit(*functionDeclaration.semantic());
}

void Visitor::visit(AST::TypeArgument& typeArgument)
{
    WTF::visit(WTF::makeVisitor([&](AST::ConstantExpression& constantExpression) {
        checkErrorAndVisit(constantExpression);
    }, [&](Ref<AST::TypeReference>& typeReference) {
        checkErrorAndVisit(typeReference);
    }), typeArgument);
}

void Visitor::visit(AST::ReferenceType& referenceType)
{
    checkErrorAndVisit(referenceType.elementType());
}

void Visitor::visit(AST::Semantic& semantic)
{
    WTF::visit(WTF::makeVisitor([&](AST::BuiltInSemantic& builtInSemantic) {
        checkErrorAndVisit(builtInSemantic);
    }, [&](AST::ResourceSemantic& resourceSemantic) {
        checkErrorAndVisit(resourceSemantic);
    }, [&](AST::SpecializationConstantSemantic& specializationConstantSemantic) {
        checkErrorAndVisit(specializationConstantSemantic);
    }, [&](AST::StageInOutSemantic& stageInOutSemantic) {
        checkErrorAndVisit(stageInOutSemantic);
    }), semantic);
}

void Visitor::visit(AST::ConstantExpression& constantExpression)
{
    constantExpression.visit(WTF::makeVisitor([&](AST::IntegerLiteral& integerLiteral) {
        checkErrorAndVisit(integerLiteral);
    }, [&](AST::UnsignedIntegerLiteral& unsignedIntegerLiteral) {
        checkErrorAndVisit(unsignedIntegerLiteral);
    }, [&](AST::FloatLiteral& floatLiteral) {
        checkErrorAndVisit(floatLiteral);
    }, [&](AST::BooleanLiteral& booleanLiteral) {
        checkErrorAndVisit(booleanLiteral);
    }, [&](AST::EnumerationMemberLiteral& enumerationMemberLiteral) {
        checkErrorAndVisit(enumerationMemberLiteral);
    }));
}

void Visitor::visit(AST::AttributeBlock& attributeBlock)
{
    for (auto& functionAttribute : attributeBlock)
        checkErrorAndVisit(functionAttribute);
}

void Visitor::visit(AST::BuiltInSemantic&)
{
}

void Visitor::visit(AST::ResourceSemantic&)
{
}

void Visitor::visit(AST::SpecializationConstantSemantic&)
{
}

void Visitor::visit(AST::StageInOutSemantic&)
{
}

void Visitor::visit(AST::IntegerLiteral& integerLiteral)
{
    checkErrorAndVisit(integerLiteral.type());
}

void Visitor::visit(AST::UnsignedIntegerLiteral& unsignedIntegerLiteral)
{
    checkErrorAndVisit(unsignedIntegerLiteral.type());
}

void Visitor::visit(AST::FloatLiteral& floatLiteral)
{
    checkErrorAndVisit(floatLiteral.type());
}

void Visitor::visit(AST::BooleanLiteral&)
{
}

void Visitor::visit(AST::IntegerLiteralType& integerLiteralType)
{
    if (integerLiteralType.maybeResolvedType())
        checkErrorAndVisit(integerLiteralType.resolvedType());
    checkErrorAndVisit(integerLiteralType.preferredType());
}

void Visitor::visit(AST::UnsignedIntegerLiteralType& unsignedIntegerLiteralType)
{
    if (unsignedIntegerLiteralType.maybeResolvedType())
        checkErrorAndVisit(unsignedIntegerLiteralType.resolvedType());
    checkErrorAndVisit(unsignedIntegerLiteralType.preferredType());
}

void Visitor::visit(AST::FloatLiteralType& floatLiteralType)
{
    if (floatLiteralType.maybeResolvedType())
        checkErrorAndVisit(floatLiteralType.resolvedType());
    checkErrorAndVisit(floatLiteralType.preferredType());
}

void Visitor::visit(AST::EnumerationMemberLiteral&)
{
}

void Visitor::visit(AST::FunctionAttribute& functionAttribute)
{
    WTF::visit(WTF::makeVisitor([&](AST::NumThreadsFunctionAttribute& numThreadsFunctionAttribute) {
        checkErrorAndVisit(numThreadsFunctionAttribute);
    }), functionAttribute);
}

void Visitor::visit(AST::NumThreadsFunctionAttribute&)
{
}

void Visitor::visit(AST::Block& block)
{
    for (auto& statement : block.statements())
        checkErrorAndVisit(statement);
}

void Visitor::visit(AST::StatementList& statementList)
{
    for (auto& statement : statementList.statements())
        checkErrorAndVisit(statement);
}

void Visitor::visit(AST::Statement& statement)
{
    switch (statement.kind()) {
    case AST::Statement::Kind::Block:
        checkErrorAndVisit(downcast<AST::Block>(statement));
        break;
    case AST::Statement::Kind::Break:
        checkErrorAndVisit(downcast<AST::Break>(statement));
        break;
    case AST::Statement::Kind::Continue:
        checkErrorAndVisit(downcast<AST::Continue>(statement));
        break;
    case AST::Statement::Kind::DoWhileLoop:
        checkErrorAndVisit(downcast<AST::DoWhileLoop>(statement));
        break;
    case AST::Statement::Kind::EffectfulExpression:
        checkErrorAndVisit(downcast<AST::EffectfulExpressionStatement>(statement));
        break;
    case AST::Statement::Kind::Fallthrough:
        checkErrorAndVisit(downcast<AST::Fallthrough>(statement));
        break;
    case AST::Statement::Kind::ForLoop:
        checkErrorAndVisit(downcast<AST::ForLoop>(statement));
        break;
    case AST::Statement::Kind::If:
        checkErrorAndVisit(downcast<AST::IfStatement>(statement));
        break;
    case AST::Statement::Kind::Return:
        checkErrorAndVisit(downcast<AST::Return>(statement));
        break;
    case AST::Statement::Kind::StatementList:
        checkErrorAndVisit(downcast<AST::StatementList>(statement));
        break;
    case AST::Statement::Kind::SwitchCase:
        checkErrorAndVisit(downcast<AST::SwitchCase>(statement));
        break;
    case AST::Statement::Kind::Switch:
        checkErrorAndVisit(downcast<AST::SwitchStatement>(statement));
        break;
    case AST::Statement::Kind::VariableDeclarations:
        checkErrorAndVisit(downcast<AST::VariableDeclarationsStatement>(statement));
        break;
    case AST::Statement::Kind::WhileLoop:
        checkErrorAndVisit(downcast<AST::WhileLoop>(statement));
        break;
    }
}

void Visitor::visit(AST::Break&)
{
}

void Visitor::visit(AST::Continue&)
{
}

void Visitor::visit(AST::DoWhileLoop& doWhileLoop)
{
    checkErrorAndVisit(doWhileLoop.body());
    checkErrorAndVisit(doWhileLoop.conditional());
}

void Visitor::visit(AST::Expression& expression)
{
    switch (expression.kind()) {
    case AST::Expression::Kind::Assignment:
        checkErrorAndVisit(downcast<AST::AssignmentExpression>(expression));
        break;
    case AST::Expression::Kind::BooleanLiteral:
        checkErrorAndVisit(downcast<AST::BooleanLiteral>(expression));
        break;
    case AST::Expression::Kind::Call:
        checkErrorAndVisit(downcast<AST::CallExpression>(expression));
        break;
    case AST::Expression::Kind::Comma:
        checkErrorAndVisit(downcast<AST::CommaExpression>(expression));
        break;
    case AST::Expression::Kind::Dereference:
        checkErrorAndVisit(downcast<AST::DereferenceExpression>(expression));
        break;
    case AST::Expression::Kind::FloatLiteral:
        checkErrorAndVisit(downcast<AST::FloatLiteral>(expression));
        break;
    case AST::Expression::Kind::IntegerLiteral:
        checkErrorAndVisit(downcast<AST::IntegerLiteral>(expression));
        break;
    case AST::Expression::Kind::Logical:
        checkErrorAndVisit(downcast<AST::LogicalExpression>(expression));
        break;
    case AST::Expression::Kind::LogicalNot:
        checkErrorAndVisit(downcast<AST::LogicalNotExpression>(expression));
        break;
    case AST::Expression::Kind::MakeArrayReference:
        checkErrorAndVisit(downcast<AST::MakeArrayReferenceExpression>(expression));
        break;
    case AST::Expression::Kind::MakePointer:
        checkErrorAndVisit(downcast<AST::MakePointerExpression>(expression));
        break;
    case AST::Expression::Kind::Dot:
        checkErrorAndVisit(downcast<AST::DotExpression>(expression));
        break;
    case AST::Expression::Kind::GlobalVariableReference:
        checkErrorAndVisit(downcast<AST::GlobalVariableReference>(expression));
        break;
    case AST::Expression::Kind::Index:
        checkErrorAndVisit(downcast<AST::IndexExpression>(expression));
        break;
    case AST::Expression::Kind::ReadModifyWrite:
        checkErrorAndVisit(downcast<AST::ReadModifyWriteExpression>(expression));
        break;
    case AST::Expression::Kind::Ternary:
        checkErrorAndVisit(downcast<AST::TernaryExpression>(expression));
        break;
    case AST::Expression::Kind::UnsignedIntegerLiteral:
        checkErrorAndVisit(downcast<AST::UnsignedIntegerLiteral>(expression));
        break;
    case AST::Expression::Kind::EnumerationMemberLiteral:
        checkErrorAndVisit(downcast<AST::EnumerationMemberLiteral>(expression));
        break;
    case AST::Expression::Kind::VariableReference:
        checkErrorAndVisit(downcast<AST::VariableReference>(expression));
        break;
    }
}

void Visitor::visit(AST::DotExpression& dotExpression)
{
    checkErrorAndVisit(static_cast<AST::PropertyAccessExpression&>(dotExpression));
}

void Visitor::visit(AST::GlobalVariableReference& globalVariableReference)
{
    checkErrorAndVisit(globalVariableReference.base());
}

void Visitor::visit(AST::IndexExpression& indexExpression)
{
    checkErrorAndVisit(indexExpression.indexExpression());
    checkErrorAndVisit(static_cast<AST::PropertyAccessExpression&>(indexExpression));
}

void Visitor::visit(AST::PropertyAccessExpression& expression)
{
    checkErrorAndVisit(expression.base());
}

void Visitor::visit(AST::EffectfulExpressionStatement& effectfulExpressionStatement)
{
    checkErrorAndVisit(effectfulExpressionStatement.effectfulExpression());
}

void Visitor::visit(AST::Fallthrough&)
{
}

void Visitor::visit(AST::ForLoop& forLoop)
{
    checkErrorAndVisit(forLoop.initialization());
    if (forLoop.condition())
        checkErrorAndVisit(*forLoop.condition());
    if (forLoop.increment())
        checkErrorAndVisit(*forLoop.increment());
    checkErrorAndVisit(forLoop.body());
}

void Visitor::visit(AST::IfStatement& ifStatement)
{
    checkErrorAndVisit(ifStatement.conditional());
    checkErrorAndVisit(ifStatement.body());
    if (ifStatement.elseBody())
        checkErrorAndVisit(*ifStatement.elseBody());
}

void Visitor::visit(AST::Return& returnStatement)
{
    if (returnStatement.value())
        checkErrorAndVisit(*returnStatement.value());
}

void Visitor::visit(AST::SwitchCase& switchCase)
{
    if (switchCase.value())
        checkErrorAndVisit(*switchCase.value());
    checkErrorAndVisit(switchCase.block());
}

void Visitor::visit(AST::SwitchStatement& switchStatement)
{
    checkErrorAndVisit(switchStatement.value());
    for (auto& switchCase : switchStatement.switchCases())
        checkErrorAndVisit(switchCase);
}

void Visitor::visit(AST::VariableDeclarationsStatement& variableDeclarationsStatement)
{
    for (auto& variableDeclaration : variableDeclarationsStatement.variableDeclarations())
        checkErrorAndVisit(variableDeclaration.get());
}

void Visitor::visit(AST::WhileLoop& whileLoop)
{
    checkErrorAndVisit(whileLoop.conditional());
    checkErrorAndVisit(whileLoop.body());
}

void Visitor::visit(AST::VariableDeclaration& variableDeclaration)
{
    if (variableDeclaration.type())
        checkErrorAndVisit(*variableDeclaration.type());
    if (variableDeclaration.semantic())
        checkErrorAndVisit(*variableDeclaration.semantic());
    if (variableDeclaration.initializer())
        checkErrorAndVisit(*variableDeclaration.initializer());
}

void Visitor::visit(AST::AssignmentExpression& assignmentExpression)
{
    checkErrorAndVisit(assignmentExpression.left());
    checkErrorAndVisit(assignmentExpression.right());
}

void Visitor::visit(AST::CallExpression& callExpression)
{
    for (auto& argument : callExpression.arguments())
        checkErrorAndVisit(argument);
    if (callExpression.castReturnType())
        checkErrorAndVisit(*callExpression.castReturnType());
}

void Visitor::visit(AST::CommaExpression& commaExpression)
{
    for (auto& expression : commaExpression.list())
        checkErrorAndVisit(expression);
}

void Visitor::visit(AST::DereferenceExpression& dereferenceExpression)
{
    checkErrorAndVisit(dereferenceExpression.pointer());
}

void Visitor::visit(AST::LogicalExpression& logicalExpression)
{
    checkErrorAndVisit(logicalExpression.left());
    checkErrorAndVisit(logicalExpression.right());
}

void Visitor::visit(AST::LogicalNotExpression& logicalNotExpression)
{
    checkErrorAndVisit(logicalNotExpression.operand());
}

void Visitor::visit(AST::MakeArrayReferenceExpression& makeArrayReferenceExpression)
{
    checkErrorAndVisit(makeArrayReferenceExpression.leftValue());
}

void Visitor::visit(AST::MakePointerExpression& makePointerExpression)
{
    checkErrorAndVisit(makePointerExpression.leftValue());
}

void Visitor::visit(AST::ReadModifyWriteExpression& readModifyWriteExpression)
{
    checkErrorAndVisit(readModifyWriteExpression.leftValue());
    checkErrorAndVisit(readModifyWriteExpression.oldValue());
    checkErrorAndVisit(readModifyWriteExpression.newValue());
    checkErrorAndVisit(readModifyWriteExpression.newValueExpression());
    checkErrorAndVisit(readModifyWriteExpression.resultExpression());
}

void Visitor::visit(AST::TernaryExpression& ternaryExpression)
{
    checkErrorAndVisit(ternaryExpression.predicate());
    checkErrorAndVisit(ternaryExpression.bodyExpression());
    checkErrorAndVisit(ternaryExpression.elseExpression());
}

void Visitor::visit(AST::VariableReference&)
{
}

} // namespace WHLSL

} // namespace WebCore

#endif // ENABLE(WEBGPU)