392 lines
9.9 KiB
C++
392 lines
9.9 KiB
C++
// Copyright (C) 2020 Jérôme Leclercq
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// This file is part of the "Nazara Engine - Shader generator"
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// For conditions of distribution and use, see copyright notice in Config.hpp
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#include <Nazara/Shader/Ast/AstCloner.hpp>
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#include <stdexcept>
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#include <Nazara/Shader/Debug.hpp>
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namespace Nz::ShaderAst
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{
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ExpressionPtr AstCloner::Clone(Expression& expr)
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{
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expr.Visit(*this);
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assert(m_statementStack.empty() && m_expressionStack.size() == 1);
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return PopExpression();
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}
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StatementPtr AstCloner::Clone(Statement& statement)
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{
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statement.Visit(*this);
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assert(m_expressionStack.empty() && m_statementStack.size() == 1);
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return PopStatement();
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}
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ExpressionPtr AstCloner::CloneExpression(Expression& expr)
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{
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expr.Visit(*this);
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return PopExpression();
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}
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StatementPtr AstCloner::CloneStatement(Statement& statement)
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{
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statement.Visit(*this);
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return PopStatement();
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}
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StatementPtr AstCloner::Clone(BranchStatement& node)
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{
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auto clone = std::make_unique<BranchStatement>();
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clone->condStatements.reserve(node.condStatements.size());
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for (auto& cond : node.condStatements)
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{
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auto& condStatement = clone->condStatements.emplace_back();
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condStatement.condition = CloneExpression(cond.condition);
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condStatement.statement = CloneStatement(cond.statement);
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}
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clone->elseStatement = CloneStatement(node.elseStatement);
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return clone;
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}
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StatementPtr AstCloner::Clone(ConditionalStatement& node)
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{
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auto clone = std::make_unique<ConditionalStatement>();
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clone->optionIndex = node.optionIndex;
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clone->statement = CloneStatement(node.statement);
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return clone;
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}
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StatementPtr AstCloner::Clone(DeclareExternalStatement& node)
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{
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auto clone = std::make_unique<DeclareExternalStatement>();
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clone->externalVars = node.externalVars;
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clone->varIndex = node.varIndex;
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return clone;
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}
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StatementPtr AstCloner::Clone(DeclareFunctionStatement& node)
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{
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auto clone = std::make_unique<DeclareFunctionStatement>();
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clone->depthWrite = node.depthWrite;
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clone->earlyFragmentTests = node.earlyFragmentTests;
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clone->entryStage = node.entryStage;
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clone->funcIndex = node.funcIndex;
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clone->name = node.name;
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clone->optionName = node.optionName;
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clone->parameters = node.parameters;
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clone->returnType = node.returnType;
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clone->varIndex = node.varIndex;
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clone->statements.reserve(node.statements.size());
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for (auto& statement : node.statements)
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clone->statements.push_back(CloneStatement(statement));
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return clone;
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}
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StatementPtr AstCloner::Clone(DeclareOptionStatement& node)
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{
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auto clone = std::make_unique<DeclareOptionStatement>();
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clone->initialValue = CloneExpression(node.initialValue);
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clone->optIndex = node.optIndex;
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clone->optName = node.optName;
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clone->optType = node.optType;
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return clone;
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}
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StatementPtr AstCloner::Clone(DeclareStructStatement& node)
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{
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auto clone = std::make_unique<DeclareStructStatement>();
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clone->structIndex = node.structIndex;
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clone->description = node.description;
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return clone;
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}
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StatementPtr AstCloner::Clone(DeclareVariableStatement& node)
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{
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auto clone = std::make_unique<DeclareVariableStatement>();
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clone->varIndex = node.varIndex;
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clone->varName = node.varName;
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clone->varType = node.varType;
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clone->initialExpression = CloneExpression(node.initialExpression);
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return clone;
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}
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StatementPtr AstCloner::Clone(DiscardStatement& /*node*/)
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{
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return std::make_unique<DiscardStatement>();
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}
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StatementPtr AstCloner::Clone(ExpressionStatement& node)
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{
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auto clone = std::make_unique<ExpressionStatement>();
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clone->expression = CloneExpression(node.expression);
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return clone;
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}
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StatementPtr AstCloner::Clone(MultiStatement& node)
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{
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auto clone = std::make_unique<MultiStatement>();
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clone->statements.reserve(node.statements.size());
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for (auto& statement : node.statements)
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clone->statements.push_back(CloneStatement(statement));
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return clone;
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}
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StatementPtr AstCloner::Clone(NoOpStatement& /*node*/)
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{
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return std::make_unique<NoOpStatement>();
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}
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StatementPtr AstCloner::Clone(ReturnStatement& node)
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{
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auto clone = std::make_unique<ReturnStatement>();
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clone->returnExpr = CloneExpression(node.returnExpr);
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return clone;
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}
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ExpressionPtr AstCloner::Clone(AccessIdentifierExpression& node)
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{
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auto clone = std::make_unique<AccessIdentifierExpression>();
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clone->identifiers = node.identifiers;
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clone->expr = CloneExpression(node.expr);
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clone->cachedExpressionType = node.cachedExpressionType;
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return clone;
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}
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ExpressionPtr AstCloner::Clone(AccessIndexExpression& node)
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{
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auto clone = std::make_unique<AccessIndexExpression>();
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clone->expr = CloneExpression(node.expr);
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clone->indices.reserve(node.indices.size());
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for (auto& parameter : node.indices)
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clone->indices.push_back(CloneExpression(parameter));
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clone->cachedExpressionType = node.cachedExpressionType;
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return clone;
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}
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ExpressionPtr AstCloner::Clone(AssignExpression& node)
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{
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auto clone = std::make_unique<AssignExpression>();
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clone->op = node.op;
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clone->left = CloneExpression(node.left);
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clone->right = CloneExpression(node.right);
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clone->cachedExpressionType = node.cachedExpressionType;
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return clone;
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}
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ExpressionPtr AstCloner::Clone(BinaryExpression& node)
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{
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auto clone = std::make_unique<BinaryExpression>();
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clone->op = node.op;
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clone->left = CloneExpression(node.left);
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clone->right = CloneExpression(node.right);
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clone->cachedExpressionType = node.cachedExpressionType;
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return clone;
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}
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ExpressionPtr AstCloner::Clone(CallFunctionExpression& node)
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{
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auto clone = std::make_unique<CallFunctionExpression>();
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clone->targetFunction = node.targetFunction;
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clone->parameters.reserve(node.parameters.size());
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for (auto& parameter : node.parameters)
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clone->parameters.push_back(CloneExpression(parameter));
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clone->cachedExpressionType = node.cachedExpressionType;
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return clone;
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}
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ExpressionPtr AstCloner::Clone(CallMethodExpression& node)
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{
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auto clone = std::make_unique<CallMethodExpression>();
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clone->methodName = node.methodName;
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clone->object = CloneExpression(node.object);
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clone->parameters.reserve(node.parameters.size());
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for (auto& parameter : node.parameters)
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clone->parameters.push_back(CloneExpression(parameter));
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clone->cachedExpressionType = node.cachedExpressionType;
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return clone;
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}
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ExpressionPtr AstCloner::Clone(CastExpression& node)
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{
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auto clone = std::make_unique<CastExpression>();
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clone->targetType = node.targetType;
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std::size_t expressionCount = 0;
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for (auto& expr : node.expressions)
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{
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if (!expr)
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break;
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clone->expressions[expressionCount++] = CloneExpression(expr);
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}
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clone->cachedExpressionType = node.cachedExpressionType;
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return clone;
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}
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ExpressionPtr AstCloner::Clone(ConditionalExpression& node)
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{
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auto clone = std::make_unique<ConditionalExpression>();
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clone->optionIndex = node.optionIndex;
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clone->falsePath = CloneExpression(node.falsePath);
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clone->truePath = CloneExpression(node.truePath);
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clone->cachedExpressionType = node.cachedExpressionType;
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return clone;
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}
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ExpressionPtr AstCloner::Clone(ConstantExpression& node)
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{
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auto clone = std::make_unique<ConstantExpression>();
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clone->value = node.value;
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clone->cachedExpressionType = node.cachedExpressionType;
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return clone;
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}
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ExpressionPtr AstCloner::Clone(IdentifierExpression& node)
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{
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auto clone = std::make_unique<IdentifierExpression>();
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clone->identifier = node.identifier;
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clone->cachedExpressionType = node.cachedExpressionType;
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return clone;
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}
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ExpressionPtr AstCloner::Clone(IntrinsicExpression& node)
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{
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auto clone = std::make_unique<IntrinsicExpression>();
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clone->intrinsic = node.intrinsic;
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clone->parameters.reserve(node.parameters.size());
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for (auto& parameter : node.parameters)
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clone->parameters.push_back(CloneExpression(parameter));
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clone->cachedExpressionType = node.cachedExpressionType;
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return clone;
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}
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ExpressionPtr AstCloner::Clone(SelectOptionExpression& node)
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{
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auto clone = std::make_unique<SelectOptionExpression>();
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clone->optionName = node.optionName;
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clone->falsePath = CloneExpression(node.falsePath);
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clone->truePath = CloneExpression(node.truePath);
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clone->cachedExpressionType = node.cachedExpressionType;
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return clone;
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}
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ExpressionPtr AstCloner::Clone(SwizzleExpression& node)
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{
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auto clone = std::make_unique<SwizzleExpression>();
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clone->componentCount = node.componentCount;
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clone->components = node.components;
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clone->expression = CloneExpression(node.expression);
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clone->cachedExpressionType = node.cachedExpressionType;
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return clone;
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}
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ExpressionPtr AstCloner::Clone(VariableExpression& node)
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{
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auto clone = std::make_unique<VariableExpression>();
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clone->variableId = node.variableId;
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clone->cachedExpressionType = node.cachedExpressionType;
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return clone;
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}
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ExpressionPtr AstCloner::Clone(UnaryExpression& node)
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{
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auto clone = std::make_unique<UnaryExpression>();
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clone->expression = CloneExpression(node.expression);
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clone->op = node.op;
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clone->cachedExpressionType = node.cachedExpressionType;
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return clone;
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}
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#define NAZARA_SHADERAST_EXPRESSION(NodeType) void AstCloner::Visit(NodeType& node) \
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{ \
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PushExpression(Clone(node)); \
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}
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#define NAZARA_SHADERAST_STATEMENT(NodeType) void AstCloner::Visit(NodeType& node) \
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{ \
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PushStatement(Clone(node)); \
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}
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#include <Nazara/Shader/Ast/AstNodeList.hpp>
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void AstCloner::PushExpression(ExpressionPtr expression)
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{
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m_expressionStack.emplace_back(std::move(expression));
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}
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void AstCloner::PushStatement(StatementPtr statement)
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{
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m_statementStack.emplace_back(std::move(statement));
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}
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ExpressionPtr AstCloner::PopExpression()
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{
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assert(!m_expressionStack.empty());
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ExpressionPtr expr = std::move(m_expressionStack.back());
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m_expressionStack.pop_back();
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return expr;
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}
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StatementPtr AstCloner::PopStatement()
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{
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assert(!m_statementStack.empty());
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StatementPtr expr = std::move(m_statementStack.back());
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m_statementStack.pop_back();
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return expr;
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}
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}
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