/* * Copyright 2016 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "stdio.h" #include "SkSLParser.h" #include "ast/SkSLASTBinaryExpression.h" #include "ast/SkSLASTBlock.h" #include "ast/SkSLASTBoolLiteral.h" #include "ast/SkSLASTBreakStatement.h" #include "ast/SkSLASTCallSuffix.h" #include "ast/SkSLASTContinueStatement.h" #include "ast/SkSLASTDiscardStatement.h" #include "ast/SkSLASTDoStatement.h" #include "ast/SkSLASTEnum.h" #include "ast/SkSLASTExpression.h" #include "ast/SkSLASTExpressionStatement.h" #include "ast/SkSLASTExtension.h" #include "ast/SkSLASTFieldSuffix.h" #include "ast/SkSLASTFloatLiteral.h" #include "ast/SkSLASTForStatement.h" #include "ast/SkSLASTFunction.h" #include "ast/SkSLASTIdentifier.h" #include "ast/SkSLASTIfStatement.h" #include "ast/SkSLASTIndexSuffix.h" #include "ast/SkSLASTInterfaceBlock.h" #include "ast/SkSLASTIntLiteral.h" #include "ast/SkSLASTModifiersDeclaration.h" #include "ast/SkSLASTParameter.h" #include "ast/SkSLASTPrefixExpression.h" #include "ast/SkSLASTReturnStatement.h" #include "ast/SkSLASTSection.h" #include "ast/SkSLASTStatement.h" #include "ast/SkSLASTSuffixExpression.h" #include "ast/SkSLASTSwitchCase.h" #include "ast/SkSLASTSwitchStatement.h" #include "ast/SkSLASTTernaryExpression.h" #include "ast/SkSLASTType.h" #include "ast/SkSLASTVarDeclaration.h" #include "ast/SkSLASTVarDeclarationStatement.h" #include "ast/SkSLASTWhileStatement.h" #include "ir/SkSLSymbolTable.h" #include "ir/SkSLModifiers.h" #include "ir/SkSLType.h" namespace SkSL { #define MAX_PARSE_DEPTH 50 class AutoDepth { public: AutoDepth(Parser* p) : fParser(p) { fParser->fDepth++; } ~AutoDepth() { fParser->fDepth--; } bool checkValid() { if (fParser->fDepth > MAX_PARSE_DEPTH) { fParser->error(fParser->peek(), String("exceeded max parse depth")); return false; } return true; } private: Parser* fParser; }; Parser::Parser(const char* text, size_t length, SymbolTable& types, ErrorReporter& errors) : fText(text) , fPushback(Token::INVALID, -1, -1) , fTypes(types) , fErrors(errors) { fLexer.start(text, length); } /* (directive | section | declaration)* END_OF_FILE */ std::vector<std::unique_ptr<ASTDeclaration>> Parser::file() { std::vector<std::unique_ptr<ASTDeclaration>> result; for (;;) { switch (this->peek().fKind) { case Token::END_OF_FILE: return result; case Token::DIRECTIVE: { std::unique_ptr<ASTDeclaration> decl = this->directive(); if (decl) { result.push_back(std::move(decl)); } break; } case Token::SECTION: { std::unique_ptr<ASTDeclaration> section = this->section(); if (section) { result.push_back(std::move(section)); } break; } default: { std::unique_ptr<ASTDeclaration> decl = this->declaration(); if (!decl) { continue; } result.push_back(std::move(decl)); } } } } Token Parser::nextRawToken() { if (fPushback.fKind != Token::INVALID) { Token result = fPushback; fPushback.fKind = Token::INVALID; return result; } Token result = fLexer.next(); return result; } Token Parser::nextToken() { Token token = this->nextRawToken(); while (token.fKind == Token::WHITESPACE || token.fKind == Token::LINE_COMMENT || token.fKind == Token::BLOCK_COMMENT) { token = this->nextRawToken(); } return token; } void Parser::pushback(Token t) { ASSERT(fPushback.fKind == Token::INVALID); fPushback = std::move(t); } Token Parser::peek() { if (fPushback.fKind == Token::INVALID) { fPushback = this->nextToken(); } return fPushback; } bool Parser::checkNext(Token::Kind kind, Token* result) { if (fPushback.fKind != Token::INVALID && fPushback.fKind != kind) { return false; } Token next = this->nextToken(); if (next.fKind == kind) { if (result) { *result = next; } return true; } this->pushback(std::move(next)); return false; } bool Parser::expect(Token::Kind kind, const char* expected, Token* result) { Token next = this->nextToken(); if (next.fKind == kind) { if (result) { *result = std::move(next); } return true; } else { this->error(next, "expected " + String(expected) + ", but found '" + this->text(next) + "'"); return false; } } StringFragment Parser::text(Token token) { return StringFragment(fText + token.fOffset, token.fLength); } void Parser::error(Token token, String msg) { this->error(token.fOffset, msg); } void Parser::error(int offset, String msg) { fErrors.error(offset, msg); } bool Parser::isType(StringFragment name) { return nullptr != fTypes[name]; } /* DIRECTIVE(#version) INT_LITERAL ("es" | "compatibility")? | DIRECTIVE(#extension) IDENTIFIER COLON IDENTIFIER */ std::unique_ptr<ASTDeclaration> Parser::directive() { Token start; if (!this->expect(Token::DIRECTIVE, "a directive", &start)) { return nullptr; } StringFragment text = this->text(start); if (text == "#version") { this->expect(Token::INT_LITERAL, "a version number"); Token next = this->peek(); StringFragment nextText = this->text(next); if (nextText == "es" || nextText == "compatibility") { this->nextToken(); } // version is ignored for now; it will eventually become an error when we stop pretending // to be GLSL return nullptr; } else if (text == "#extension") { Token name; if (!this->expect(Token::IDENTIFIER, "an identifier", &name)) { return nullptr; } if (!this->expect(Token::COLON, "':'")) { return nullptr; } // FIXME: need to start paying attention to this token if (!this->expect(Token::IDENTIFIER, "an identifier")) { return nullptr; } return std::unique_ptr<ASTDeclaration>(new ASTExtension(start.fOffset, String(this->text(name)))); } else { this->error(start, "unsupported directive '" + this->text(start) + "'"); return nullptr; } } /* SECTION LBRACE (LPAREN IDENTIFIER RPAREN)? <any sequence of tokens with balanced braces> RBRACE */ std::unique_ptr<ASTDeclaration> Parser::section() { Token start; if (!this->expect(Token::SECTION, "a section token", &start)) { return nullptr; } String argument; if (this->peek().fKind == Token::LPAREN) { this->nextToken(); Token argToken; if (!this->expect(Token::IDENTIFIER, "an identifier", &argToken)) { return nullptr; } argument = this->text(argToken); if (!this->expect(Token::RPAREN, "')'")) { return nullptr; } } if (!this->expect(Token::LBRACE, "'{'")) { return nullptr; } String text; int level = 1; for (;;) { Token next = this->nextRawToken(); switch (next.fKind) { case Token::LBRACE: ++level; break; case Token::RBRACE: --level; break; case Token::END_OF_FILE: this->error(start, "reached end of file while parsing section"); return nullptr; default: break; } if (!level) { break; } text += this->text(next); } StringFragment name = this->text(start); ++name.fChars; --name.fLength; return std::unique_ptr<ASTDeclaration>(new ASTSection(start.fOffset, String(name), argument, text)); } /* ENUM CLASS IDENTIFIER LBRACE (IDENTIFIER (EQ expression)? (COMMA IDENTIFIER (EQ expression))*)? RBRACE */ std::unique_ptr<ASTDeclaration> Parser::enumDeclaration() { Token start; if (!this->expect(Token::ENUM, "'enum'", &start)) { return nullptr; } if (!this->expect(Token::CLASS, "'class'")) { return nullptr; } Token name; if (!this->expect(Token::IDENTIFIER, "an identifier", &name)) { return nullptr; } if (!this->expect(Token::LBRACE, "'{'")) { return nullptr; } fTypes.add(this->text(name), std::unique_ptr<Symbol>(new Type(this->text(name), Type::kEnum_Kind))); std::vector<StringFragment> names; std::vector<std::unique_ptr<ASTExpression>> values; if (!this->checkNext(Token::RBRACE)) { Token id; if (!this->expect(Token::IDENTIFIER, "an identifier", &id)) { return nullptr; } names.push_back(this->text(id)); if (this->checkNext(Token::EQ)) { std::unique_ptr<ASTExpression> value = this->assignmentExpression(); if (!value) { return nullptr; } values.push_back(std::move(value)); } else { values.push_back(nullptr); } while (!this->checkNext(Token::RBRACE)) { if (!this->expect(Token::COMMA, "','")) { return nullptr; } if (!this->expect(Token::IDENTIFIER, "an identifier", &id)) { return nullptr; } names.push_back(this->text(id)); if (this->checkNext(Token::EQ)) { std::unique_ptr<ASTExpression> value = this->assignmentExpression(); if (!value) { return nullptr; } values.push_back(std::move(value)); } else { values.push_back(nullptr); } } } this->expect(Token::SEMICOLON, "';'"); return std::unique_ptr<ASTDeclaration>(new ASTEnum(name.fOffset, this->text(name), names, std::move(values))); } /* enumDeclaration | modifiers (structVarDeclaration | type IDENTIFIER ((LPAREN parameter (COMMA parameter)* RPAREN (block | SEMICOLON)) | SEMICOLON) | interfaceBlock) */ std::unique_ptr<ASTDeclaration> Parser::declaration() { Token lookahead = this->peek(); if (lookahead.fKind == Token::ENUM) { return this->enumDeclaration(); } Modifiers modifiers = this->modifiers(); lookahead = this->peek(); if (lookahead.fKind == Token::IDENTIFIER && !this->isType(this->text(lookahead))) { // we have an identifier that's not a type, could be the start of an interface block return this->interfaceBlock(modifiers); } if (lookahead.fKind == Token::STRUCT) { return this->structVarDeclaration(modifiers); } if (lookahead.fKind == Token::SEMICOLON) { this->nextToken(); return std::unique_ptr<ASTDeclaration>(new ASTModifiersDeclaration(modifiers)); } std::unique_ptr<ASTType> type(this->type()); if (!type) { return nullptr; } if (type->fKind == ASTType::kStruct_Kind && this->checkNext(Token::SEMICOLON)) { return nullptr; } Token name; if (!this->expect(Token::IDENTIFIER, "an identifier", &name)) { return nullptr; } if (this->checkNext(Token::LPAREN)) { std::vector<std::unique_ptr<ASTParameter>> parameters; while (this->peek().fKind != Token::RPAREN) { if (parameters.size() > 0) { if (!this->expect(Token::COMMA, "','")) { return nullptr; } } std::unique_ptr<ASTParameter> parameter = this->parameter(); if (!parameter) { return nullptr; } parameters.push_back(std::move(parameter)); } this->nextToken(); std::unique_ptr<ASTBlock> body; if (!this->checkNext(Token::SEMICOLON)) { body = this->block(); if (!body) { return nullptr; } } return std::unique_ptr<ASTDeclaration>(new ASTFunction(name.fOffset, modifiers, std::move(type), this->text(name), std::move(parameters), std::move(body))); } else { return this->varDeclarationEnd(modifiers, std::move(type), this->text(name)); } } /* modifiers type IDENTIFIER varDeclarationEnd */ std::unique_ptr<ASTVarDeclarations> Parser::varDeclarations() { Modifiers modifiers = this->modifiers(); std::unique_ptr<ASTType> type(this->type()); if (!type) { return nullptr; } Token name; if (!this->expect(Token::IDENTIFIER, "an identifier", &name)) { return nullptr; } return this->varDeclarationEnd(modifiers, std::move(type), this->text(name)); } /* STRUCT IDENTIFIER LBRACE varDeclaration* RBRACE */ std::unique_ptr<ASTType> Parser::structDeclaration() { if (!this->expect(Token::STRUCT, "'struct'")) { return nullptr; } Token name; if (!this->expect(Token::IDENTIFIER, "an identifier", &name)) { return nullptr; } if (!this->expect(Token::LBRACE, "'{'")) { return nullptr; } std::vector<Type::Field> fields; while (this->peek().fKind != Token::RBRACE) { std::unique_ptr<ASTVarDeclarations> decl = this->varDeclarations(); if (!decl) { return nullptr; } for (const auto& var : decl->fVars) { auto type = (const Type*) fTypes[decl->fType->fName]; for (int i = (int) var.fSizes.size() - 1; i >= 0; i--) { if (!var.fSizes[i] || var.fSizes[i]->fKind != ASTExpression::kInt_Kind) { this->error(decl->fOffset, "array size in struct field must be a constant"); return nullptr; } uint64_t columns = ((ASTIntLiteral&) *var.fSizes[i]).fValue; String name = type->name() + "[" + to_string(columns) + "]"; type = new Type(name, Type::kArray_Kind, *type, (int) columns); fTypes.takeOwnership((Type*) type); } fields.push_back(Type::Field(decl->fModifiers, var.fName, type)); if (var.fValue) { this->error(decl->fOffset, "initializers are not permitted on struct fields"); } } } if (!this->expect(Token::RBRACE, "'}'")) { return nullptr; } fTypes.add(this->text(name), std::unique_ptr<Type>(new Type(name.fOffset, this->text(name), fields))); return std::unique_ptr<ASTType>(new ASTType(name.fOffset, this->text(name), ASTType::kStruct_Kind, std::vector<int>())); } /* structDeclaration ((IDENTIFIER varDeclarationEnd) | SEMICOLON) */ std::unique_ptr<ASTVarDeclarations> Parser::structVarDeclaration(Modifiers modifiers) { std::unique_ptr<ASTType> type = this->structDeclaration(); if (!type) { return nullptr; } Token name; if (this->checkNext(Token::IDENTIFIER, &name)) { std::unique_ptr<ASTVarDeclarations> result = this->varDeclarationEnd(modifiers, std::move(type), this->text(name)); if (result) { for (const auto& var : result->fVars) { if (var.fValue) { this->error(var.fValue->fOffset, "struct variables cannot be initialized"); } } } return result; } this->expect(Token::SEMICOLON, "';'"); return nullptr; } /* (LBRACKET expression? RBRACKET)* (EQ assignmentExpression)? (COMMA IDENTIFER (LBRACKET expression? RBRACKET)* (EQ assignmentExpression)?)* SEMICOLON */ std::unique_ptr<ASTVarDeclarations> Parser::varDeclarationEnd(Modifiers mods, std::unique_ptr<ASTType> type, StringFragment name) { std::vector<ASTVarDeclaration> vars; std::vector<std::unique_ptr<ASTExpression>> currentVarSizes; while (this->checkNext(Token::LBRACKET)) { if (this->checkNext(Token::RBRACKET)) { currentVarSizes.push_back(nullptr); } else { std::unique_ptr<ASTExpression> size(this->expression()); if (!size) { return nullptr; } currentVarSizes.push_back(std::move(size)); if (!this->expect(Token::RBRACKET, "']'")) { return nullptr; } } } std::unique_ptr<ASTExpression> value; if (this->checkNext(Token::EQ)) { value = this->assignmentExpression(); if (!value) { return nullptr; } } vars.emplace_back(name, std::move(currentVarSizes), std::move(value)); while (this->checkNext(Token::COMMA)) { Token name; if (!this->expect(Token::IDENTIFIER, "an identifier", &name)) { return nullptr; } currentVarSizes.clear(); value.reset(); while (this->checkNext(Token::LBRACKET)) { if (this->checkNext(Token::RBRACKET)) { currentVarSizes.push_back(nullptr); } else { std::unique_ptr<ASTExpression> size(this->expression()); if (!size) { return nullptr; } currentVarSizes.push_back(std::move(size)); if (!this->expect(Token::RBRACKET, "']'")) { return nullptr; } } } if (this->checkNext(Token::EQ)) { value = this->assignmentExpression(); if (!value) { return nullptr; } } vars.emplace_back(this->text(name), std::move(currentVarSizes), std::move(value)); } if (!this->expect(Token::SEMICOLON, "';'")) { return nullptr; } return std::unique_ptr<ASTVarDeclarations>(new ASTVarDeclarations(std::move(mods), std::move(type), std::move(vars))); } /* modifiers type IDENTIFIER (LBRACKET INT_LITERAL RBRACKET)? */ std::unique_ptr<ASTParameter> Parser::parameter() { Modifiers modifiers = this->modifiersWithDefaults(0); std::unique_ptr<ASTType> type = this->type(); if (!type) { return nullptr; } Token name; if (!this->expect(Token::IDENTIFIER, "an identifier", &name)) { return nullptr; } std::vector<int> sizes; while (this->checkNext(Token::LBRACKET)) { Token sizeToken; if (!this->expect(Token::INT_LITERAL, "a positive integer", &sizeToken)) { return nullptr; } sizes.push_back(SkSL::stoi(this->text(sizeToken))); if (!this->expect(Token::RBRACKET, "']'")) { return nullptr; } } return std::unique_ptr<ASTParameter>(new ASTParameter(name.fOffset, modifiers, std::move(type), this->text(name), std::move(sizes))); } /** EQ INT_LITERAL */ int Parser::layoutInt() { if (!this->expect(Token::EQ, "'='")) { return -1; } Token resultToken; if (this->expect(Token::INT_LITERAL, "a non-negative integer", &resultToken)) { return SkSL::stoi(this->text(resultToken)); } return -1; } /** EQ IDENTIFIER */ StringFragment Parser::layoutIdentifier() { if (!this->expect(Token::EQ, "'='")) { return StringFragment(); } Token resultToken; if (!this->expect(Token::IDENTIFIER, "an identifier", &resultToken)) { return StringFragment(); } return this->text(resultToken); } /** EQ <any sequence of tokens with balanced parentheses and no top-level comma> */ String Parser::layoutCode() { if (!this->expect(Token::EQ, "'='")) { return ""; } Token start = this->nextRawToken(); this->pushback(start); String code; int level = 1; bool done = false; while (!done) { Token next = this->nextRawToken(); switch (next.fKind) { case Token::LPAREN: ++level; break; case Token::RPAREN: --level; break; case Token::COMMA: if (level == 1) { done = true; } break; case Token::END_OF_FILE: this->error(start, "reached end of file while parsing layout"); return nullptr; default: break; } if (!level) { done = true; } if (done) { this->pushback(std::move(next)); } else { code += this->text(next); } } return code; } /** (EQ IDENTIFIER('identity'))? */ Layout::Key Parser::layoutKey() { if (this->peek().fKind == Token::EQ) { this->expect(Token::EQ, "'='"); Token key; if (this->expect(Token::IDENTIFIER, "an identifer", &key)) { if (this->text(key) == "identity") { return Layout::kIdentity_Key; } else { this->error(key, "unsupported layout key"); } } } return Layout::kKey_Key; } /* LAYOUT LPAREN IDENTIFIER (EQ INT_LITERAL)? (COMMA IDENTIFIER (EQ INT_LITERAL)?)* RPAREN */ Layout Parser::layout() { int flags = 0; int location = -1; int offset = -1; int binding = -1; int index = -1; int set = -1; int builtin = -1; int inputAttachmentIndex = -1; Layout::Format format = Layout::Format::kUnspecified; Layout::Primitive primitive = Layout::kUnspecified_Primitive; int maxVertices = -1; int invocations = -1; String when; StringFragment ctype; Layout::Key key = Layout::kNo_Key; if (this->checkNext(Token::LAYOUT)) { if (!this->expect(Token::LPAREN, "'('")) { return Layout(flags, location, offset, binding, index, set, builtin, inputAttachmentIndex, format, primitive, maxVertices, invocations, when, key, ctype); } for (;;) { Token t = this->nextToken(); String text = this->text(t); fLayoutLexer.start(text.c_str(), text.size()); int token = fLayoutLexer.next().fKind; if (token != LayoutToken::INVALID) { switch (token) { case LayoutToken::LOCATION: location = this->layoutInt(); break; case LayoutToken::OFFSET: offset = this->layoutInt(); break; case LayoutToken::BINDING: binding = this->layoutInt(); break; case LayoutToken::INDEX: index = this->layoutInt(); break; case LayoutToken::SET: set = this->layoutInt(); break; case LayoutToken::BUILTIN: builtin = this->layoutInt(); break; case LayoutToken::INPUT_ATTACHMENT_INDEX: inputAttachmentIndex = this->layoutInt(); break; case LayoutToken::ORIGIN_UPPER_LEFT: flags |= Layout::kOriginUpperLeft_Flag; break; case LayoutToken::OVERRIDE_COVERAGE: flags |= Layout::kOverrideCoverage_Flag; break; case LayoutToken::BLEND_SUPPORT_ALL_EQUATIONS: flags |= Layout::kBlendSupportAllEquations_Flag; break; case LayoutToken::BLEND_SUPPORT_MULTIPLY: flags |= Layout::kBlendSupportMultiply_Flag; break; case LayoutToken::BLEND_SUPPORT_SCREEN: flags |= Layout::kBlendSupportScreen_Flag; break; case LayoutToken::BLEND_SUPPORT_OVERLAY: flags |= Layout::kBlendSupportOverlay_Flag; break; case LayoutToken::BLEND_SUPPORT_DARKEN: flags |= Layout::kBlendSupportDarken_Flag; break; case LayoutToken::BLEND_SUPPORT_LIGHTEN: flags |= Layout::kBlendSupportLighten_Flag; break; case LayoutToken::BLEND_SUPPORT_COLORDODGE: flags |= Layout::kBlendSupportColorDodge_Flag; break; case LayoutToken::BLEND_SUPPORT_COLORBURN: flags |= Layout::kBlendSupportColorBurn_Flag; break; case LayoutToken::BLEND_SUPPORT_HARDLIGHT: flags |= Layout::kBlendSupportHardLight_Flag; break; case LayoutToken::BLEND_SUPPORT_SOFTLIGHT: flags |= Layout::kBlendSupportSoftLight_Flag; break; case LayoutToken::BLEND_SUPPORT_DIFFERENCE: flags |= Layout::kBlendSupportDifference_Flag; break; case LayoutToken::BLEND_SUPPORT_EXCLUSION: flags |= Layout::kBlendSupportExclusion_Flag; break; case LayoutToken::BLEND_SUPPORT_HSL_HUE: flags |= Layout::kBlendSupportHSLHue_Flag; break; case LayoutToken::BLEND_SUPPORT_HSL_SATURATION: flags |= Layout::kBlendSupportHSLSaturation_Flag; break; case LayoutToken::BLEND_SUPPORT_HSL_COLOR: flags |= Layout::kBlendSupportHSLColor_Flag; break; case LayoutToken::BLEND_SUPPORT_HSL_LUMINOSITY: flags |= Layout::kBlendSupportHSLLuminosity_Flag; break; case LayoutToken::PUSH_CONSTANT: flags |= Layout::kPushConstant_Flag; break; case LayoutToken::POINTS: primitive = Layout::kPoints_Primitive; break; case LayoutToken::LINES: primitive = Layout::kLines_Primitive; break; case LayoutToken::LINE_STRIP: primitive = Layout::kLineStrip_Primitive; break; case LayoutToken::LINES_ADJACENCY: primitive = Layout::kLinesAdjacency_Primitive; break; case LayoutToken::TRIANGLES: primitive = Layout::kTriangles_Primitive; break; case LayoutToken::TRIANGLE_STRIP: primitive = Layout::kTriangleStrip_Primitive; break; case LayoutToken::TRIANGLES_ADJACENCY: primitive = Layout::kTrianglesAdjacency_Primitive; break; case LayoutToken::MAX_VERTICES: maxVertices = this->layoutInt(); break; case LayoutToken::INVOCATIONS: invocations = this->layoutInt(); break; case LayoutToken::WHEN: when = this->layoutCode(); break; case LayoutToken::KEY: key = this->layoutKey(); break; case LayoutToken::CTYPE: ctype = this->layoutIdentifier(); break; } } else if (Layout::ReadFormat(this->text(t), &format)) { // AST::ReadFormat stored the result in 'format'. } else { this->error(t, ("'" + this->text(t) + "' is not a valid layout qualifier").c_str()); } if (this->checkNext(Token::RPAREN)) { break; } if (!this->expect(Token::COMMA, "','")) { break; } } } return Layout(flags, location, offset, binding, index, set, builtin, inputAttachmentIndex, format, primitive, maxVertices, invocations, when, key, ctype); } /* layout? (UNIFORM | CONST | IN | OUT | INOUT | LOWP | MEDIUMP | HIGHP | FLAT | NOPERSPECTIVE | READONLY | WRITEONLY | COHERENT | VOLATILE | RESTRICT | BUFFER)* */ Modifiers Parser::modifiers() { Layout layout = this->layout(); int flags = 0; for (;;) { // TODO: handle duplicate / incompatible flags switch (peek().fKind) { case Token::UNIFORM: this->nextToken(); flags |= Modifiers::kUniform_Flag; break; case Token::CONST: this->nextToken(); flags |= Modifiers::kConst_Flag; break; case Token::IN: this->nextToken(); flags |= Modifiers::kIn_Flag; break; case Token::OUT: this->nextToken(); flags |= Modifiers::kOut_Flag; break; case Token::INOUT: this->nextToken(); flags |= Modifiers::kIn_Flag; flags |= Modifiers::kOut_Flag; break; case Token::LOWP: this->nextToken(); flags |= Modifiers::kLowp_Flag; break; case Token::MEDIUMP: this->nextToken(); flags |= Modifiers::kMediump_Flag; break; case Token::HIGHP: this->nextToken(); flags |= Modifiers::kHighp_Flag; break; case Token::FLAT: this->nextToken(); flags |= Modifiers::kFlat_Flag; break; case Token::NOPERSPECTIVE: this->nextToken(); flags |= Modifiers::kNoPerspective_Flag; break; case Token::READONLY: this->nextToken(); flags |= Modifiers::kReadOnly_Flag; break; case Token::WRITEONLY: this->nextToken(); flags |= Modifiers::kWriteOnly_Flag; break; case Token::COHERENT: this->nextToken(); flags |= Modifiers::kCoherent_Flag; break; case Token::VOLATILE: this->nextToken(); flags |= Modifiers::kVolatile_Flag; break; case Token::RESTRICT: this->nextToken(); flags |= Modifiers::kRestrict_Flag; break; case Token::BUFFER: this->nextToken(); flags |= Modifiers::kBuffer_Flag; break; case Token::HASSIDEEFFECTS: this->nextToken(); flags |= Modifiers::kHasSideEffects_Flag; break; default: return Modifiers(layout, flags); } } } Modifiers Parser::modifiersWithDefaults(int defaultFlags) { Modifiers result = this->modifiers(); if (!result.fFlags) { return Modifiers(result.fLayout, defaultFlags); } return result; } /* ifStatement | forStatement | doStatement | whileStatement | block | expression */ std::unique_ptr<ASTStatement> Parser::statement() { Token start = this->peek(); switch (start.fKind) { case Token::IF: // fall through case Token::STATIC_IF: return this->ifStatement(); case Token::FOR: return this->forStatement(); case Token::DO: return this->doStatement(); case Token::WHILE: return this->whileStatement(); case Token::SWITCH: // fall through case Token::STATIC_SWITCH: return this->switchStatement(); case Token::RETURN: return this->returnStatement(); case Token::BREAK: return this->breakStatement(); case Token::CONTINUE: return this->continueStatement(); case Token::DISCARD: return this->discardStatement(); case Token::LBRACE: return this->block(); case Token::SEMICOLON: this->nextToken(); return std::unique_ptr<ASTStatement>(new ASTBlock(start.fOffset, std::vector<std::unique_ptr<ASTStatement>>())); case Token::CONST: // fall through case Token::HIGHP: // fall through case Token::MEDIUMP: // fall through case Token::LOWP: { auto decl = this->varDeclarations(); if (!decl) { return nullptr; } return std::unique_ptr<ASTStatement>(new ASTVarDeclarationStatement(std::move(decl))); } case Token::IDENTIFIER: if (this->isType(this->text(start))) { auto decl = this->varDeclarations(); if (!decl) { return nullptr; } return std::unique_ptr<ASTStatement>(new ASTVarDeclarationStatement( std::move(decl))); } // fall through default: return this->expressionStatement(); } } /* IDENTIFIER(type) (LBRACKET intLiteral? RBRACKET)* */ std::unique_ptr<ASTType> Parser::type() { Token type; if (!this->expect(Token::IDENTIFIER, "a type", &type)) { return nullptr; } if (!this->isType(this->text(type))) { this->error(type, ("no type named '" + this->text(type) + "'").c_str()); return nullptr; } std::vector<int> sizes; while (this->checkNext(Token::LBRACKET)) { if (this->peek().fKind != Token::RBRACKET) { int64_t i; if (this->intLiteral(&i)) { sizes.push_back(i); } else { return nullptr; } } else { sizes.push_back(-1); } this->expect(Token::RBRACKET, "']'"); } return std::unique_ptr<ASTType>(new ASTType(type.fOffset, this->text(type), ASTType::kIdentifier_Kind, sizes)); } /* IDENTIFIER LBRACE varDeclaration* RBRACE (IDENTIFIER (LBRACKET expression? RBRACKET)*)? */ std::unique_ptr<ASTDeclaration> Parser::interfaceBlock(Modifiers mods) { Token name; if (!this->expect(Token::IDENTIFIER, "an identifier", &name)) { return nullptr; } if (peek().fKind != Token::LBRACE) { // we only get into interfaceBlock if we found a top-level identifier which was not a type. // 99% of the time, the user was not actually intending to create an interface block, so // it's better to report it as an unknown type this->error(name, "no type named '" + this->text(name) + "'"); return nullptr; } this->nextToken(); std::vector<std::unique_ptr<ASTVarDeclarations>> decls; while (this->peek().fKind != Token::RBRACE) { std::unique_ptr<ASTVarDeclarations> decl = this->varDeclarations(); if (!decl) { return nullptr; } decls.push_back(std::move(decl)); } this->nextToken(); std::vector<std::unique_ptr<ASTExpression>> sizes; StringFragment instanceName; Token instanceNameToken; if (this->checkNext(Token::IDENTIFIER, &instanceNameToken)) { while (this->checkNext(Token::LBRACKET)) { if (this->peek().fKind != Token::RBRACKET) { std::unique_ptr<ASTExpression> size = this->expression(); if (!size) { return nullptr; } sizes.push_back(std::move(size)); } else { sizes.push_back(nullptr); } this->expect(Token::RBRACKET, "']'"); } instanceName = this->text(instanceNameToken); } this->expect(Token::SEMICOLON, "';'"); return std::unique_ptr<ASTDeclaration>(new ASTInterfaceBlock(name.fOffset, mods, this->text(name), std::move(decls), instanceName, std::move(sizes))); } /* IF LPAREN expression RPAREN statement (ELSE statement)? */ std::unique_ptr<ASTIfStatement> Parser::ifStatement() { Token start; bool isStatic = this->checkNext(Token::STATIC_IF, &start); if (!isStatic && !this->expect(Token::IF, "'if'", &start)) { return nullptr; } if (!this->expect(Token::LPAREN, "'('")) { return nullptr; } std::unique_ptr<ASTExpression> test(this->expression()); if (!test) { return nullptr; } if (!this->expect(Token::RPAREN, "')'")) { return nullptr; } std::unique_ptr<ASTStatement> ifTrue(this->statement()); if (!ifTrue) { return nullptr; } std::unique_ptr<ASTStatement> ifFalse; if (this->checkNext(Token::ELSE)) { ifFalse = this->statement(); if (!ifFalse) { return nullptr; } } return std::unique_ptr<ASTIfStatement>(new ASTIfStatement(start.fOffset, isStatic, std::move(test), std::move(ifTrue), std::move(ifFalse))); } /* DO statement WHILE LPAREN expression RPAREN SEMICOLON */ std::unique_ptr<ASTDoStatement> Parser::doStatement() { Token start; if (!this->expect(Token::DO, "'do'", &start)) { return nullptr; } std::unique_ptr<ASTStatement> statement(this->statement()); if (!statement) { return nullptr; } if (!this->expect(Token::WHILE, "'while'")) { return nullptr; } if (!this->expect(Token::LPAREN, "'('")) { return nullptr; } std::unique_ptr<ASTExpression> test(this->expression()); if (!test) { return nullptr; } if (!this->expect(Token::RPAREN, "')'")) { return nullptr; } if (!this->expect(Token::SEMICOLON, "';'")) { return nullptr; } return std::unique_ptr<ASTDoStatement>(new ASTDoStatement(start.fOffset, std::move(statement), std::move(test))); } /* WHILE LPAREN expression RPAREN STATEMENT */ std::unique_ptr<ASTWhileStatement> Parser::whileStatement() { Token start; if (!this->expect(Token::WHILE, "'while'", &start)) { return nullptr; } if (!this->expect(Token::LPAREN, "'('")) { return nullptr; } std::unique_ptr<ASTExpression> test(this->expression()); if (!test) { return nullptr; } if (!this->expect(Token::RPAREN, "')'")) { return nullptr; } std::unique_ptr<ASTStatement> statement(this->statement()); if (!statement) { return nullptr; } return std::unique_ptr<ASTWhileStatement>(new ASTWhileStatement(start.fOffset, std::move(test), std::move(statement))); } /* CASE expression COLON statement* */ std::unique_ptr<ASTSwitchCase> Parser::switchCase() { Token start; if (!this->expect(Token::CASE, "'case'", &start)) { return nullptr; } std::unique_ptr<ASTExpression> value = this->expression(); if (!value) { return nullptr; } if (!this->expect(Token::COLON, "':'")) { return nullptr; } std::vector<std::unique_ptr<ASTStatement>> statements; while (this->peek().fKind != Token::RBRACE && this->peek().fKind != Token::CASE && this->peek().fKind != Token::DEFAULT) { std::unique_ptr<ASTStatement> s = this->statement(); if (!s) { return nullptr; } statements.push_back(std::move(s)); } return std::unique_ptr<ASTSwitchCase>(new ASTSwitchCase(start.fOffset, std::move(value), std::move(statements))); } /* SWITCH LPAREN expression RPAREN LBRACE switchCase* (DEFAULT COLON statement*)? RBRACE */ std::unique_ptr<ASTStatement> Parser::switchStatement() { Token start; bool isStatic = this->checkNext(Token::STATIC_SWITCH, &start); if (!isStatic && !this->expect(Token::SWITCH, "'switch'", &start)) { return nullptr; } if (!this->expect(Token::LPAREN, "'('")) { return nullptr; } std::unique_ptr<ASTExpression> value(this->expression()); if (!value) { return nullptr; } if (!this->expect(Token::RPAREN, "')'")) { return nullptr; } if (!this->expect(Token::LBRACE, "'{'")) { return nullptr; } std::vector<std::unique_ptr<ASTSwitchCase>> cases; while (this->peek().fKind == Token::CASE) { std::unique_ptr<ASTSwitchCase> c = this->switchCase(); if (!c) { return nullptr; } cases.push_back(std::move(c)); } // Requiring default: to be last (in defiance of C and GLSL) was a deliberate decision. Other // parts of the compiler may rely upon this assumption. if (this->peek().fKind == Token::DEFAULT) { Token defaultStart; ASSERT_RESULT(this->expect(Token::DEFAULT, "'default'", &defaultStart)); if (!this->expect(Token::COLON, "':'")) { return nullptr; } std::vector<std::unique_ptr<ASTStatement>> statements; while (this->peek().fKind != Token::RBRACE) { std::unique_ptr<ASTStatement> s = this->statement(); if (!s) { return nullptr; } statements.push_back(std::move(s)); } cases.emplace_back(new ASTSwitchCase(defaultStart.fOffset, nullptr, std::move(statements))); } if (!this->expect(Token::RBRACE, "'}'")) { return nullptr; } return std::unique_ptr<ASTStatement>(new ASTSwitchStatement(start.fOffset, isStatic, std::move(value), std::move(cases))); } /* FOR LPAREN (declaration | expression)? SEMICOLON expression? SEMICOLON expression? RPAREN STATEMENT */ std::unique_ptr<ASTForStatement> Parser::forStatement() { Token start; if (!this->expect(Token::FOR, "'for'", &start)) { return nullptr; } if (!this->expect(Token::LPAREN, "'('")) { return nullptr; } std::unique_ptr<ASTStatement> initializer; Token nextToken = this->peek(); switch (nextToken.fKind) { case Token::SEMICOLON: this->nextToken(); break; case Token::CONST: { std::unique_ptr<ASTVarDeclarations> vd = this->varDeclarations(); if (!vd) { return nullptr; } initializer = std::unique_ptr<ASTStatement>(new ASTVarDeclarationStatement( std::move(vd))); break; } case Token::IDENTIFIER: { if (this->isType(this->text(nextToken))) { std::unique_ptr<ASTVarDeclarations> vd = this->varDeclarations(); if (!vd) { return nullptr; } initializer = std::unique_ptr<ASTStatement>(new ASTVarDeclarationStatement( std::move(vd))); break; } } // fall through default: initializer = this->expressionStatement(); } std::unique_ptr<ASTExpression> test; if (this->peek().fKind != Token::SEMICOLON) { test = this->expression(); if (!test) { return nullptr; } } if (!this->expect(Token::SEMICOLON, "';'")) { return nullptr; } std::unique_ptr<ASTExpression> next; if (this->peek().fKind != Token::RPAREN) { next = this->expression(); if (!next) { return nullptr; } } if (!this->expect(Token::RPAREN, "')'")) { return nullptr; } std::unique_ptr<ASTStatement> statement(this->statement()); if (!statement) { return nullptr; } return std::unique_ptr<ASTForStatement>(new ASTForStatement(start.fOffset, std::move(initializer), std::move(test), std::move(next), std::move(statement))); } /* RETURN expression? SEMICOLON */ std::unique_ptr<ASTReturnStatement> Parser::returnStatement() { Token start; if (!this->expect(Token::RETURN, "'return'", &start)) { return nullptr; } std::unique_ptr<ASTExpression> expression; if (this->peek().fKind != Token::SEMICOLON) { expression = this->expression(); if (!expression) { return nullptr; } } if (!this->expect(Token::SEMICOLON, "';'")) { return nullptr; } return std::unique_ptr<ASTReturnStatement>(new ASTReturnStatement(start.fOffset, std::move(expression))); } /* BREAK SEMICOLON */ std::unique_ptr<ASTBreakStatement> Parser::breakStatement() { Token start; if (!this->expect(Token::BREAK, "'break'", &start)) { return nullptr; } if (!this->expect(Token::SEMICOLON, "';'")) { return nullptr; } return std::unique_ptr<ASTBreakStatement>(new ASTBreakStatement(start.fOffset)); } /* CONTINUE SEMICOLON */ std::unique_ptr<ASTContinueStatement> Parser::continueStatement() { Token start; if (!this->expect(Token::CONTINUE, "'continue'", &start)) { return nullptr; } if (!this->expect(Token::SEMICOLON, "';'")) { return nullptr; } return std::unique_ptr<ASTContinueStatement>(new ASTContinueStatement(start.fOffset)); } /* DISCARD SEMICOLON */ std::unique_ptr<ASTDiscardStatement> Parser::discardStatement() { Token start; if (!this->expect(Token::DISCARD, "'continue'", &start)) { return nullptr; } if (!this->expect(Token::SEMICOLON, "';'")) { return nullptr; } return std::unique_ptr<ASTDiscardStatement>(new ASTDiscardStatement(start.fOffset)); } /* LBRACE statement* RBRACE */ std::unique_ptr<ASTBlock> Parser::block() { AutoDepth depth(this); if (!depth.checkValid()) { return nullptr; } Token start; if (!this->expect(Token::LBRACE, "'{'", &start)) { return nullptr; } std::vector<std::unique_ptr<ASTStatement>> statements; for (;;) { switch (this->peek().fKind) { case Token::RBRACE: this->nextToken(); return std::unique_ptr<ASTBlock>(new ASTBlock(start.fOffset, std::move(statements))); case Token::END_OF_FILE: this->error(this->peek(), "expected '}', but found end of file"); return nullptr; default: { std::unique_ptr<ASTStatement> statement = this->statement(); if (!statement) { return nullptr; } statements.push_back(std::move(statement)); } } } } /* expression SEMICOLON */ std::unique_ptr<ASTExpressionStatement> Parser::expressionStatement() { std::unique_ptr<ASTExpression> expr = this->expression(); if (expr) { if (this->expect(Token::SEMICOLON, "';'")) { ASTExpressionStatement* result = new ASTExpressionStatement(std::move(expr)); return std::unique_ptr<ASTExpressionStatement>(result); } } return nullptr; } /* commaExpression */ std::unique_ptr<ASTExpression> Parser::expression() { AutoDepth depth(this); if (!depth.checkValid()) { return nullptr; } return this->commaExpression(); } /* assignmentExpression (COMMA assignmentExpression)* */ std::unique_ptr<ASTExpression> Parser::commaExpression() { std::unique_ptr<ASTExpression> result = this->assignmentExpression(); if (!result) { return nullptr; } Token t; while (this->checkNext(Token::COMMA, &t)) { std::unique_ptr<ASTExpression> right = this->commaExpression(); if (!right) { return nullptr; } result.reset(new ASTBinaryExpression(std::move(result), std::move(t), std::move(right))); } return result; } /* ternaryExpression ((EQEQ | STAREQ | SLASHEQ | PERCENTEQ | PLUSEQ | MINUSEQ | SHLEQ | SHREQ | BITWISEANDEQ | BITWISEXOREQ | BITWISEOREQ | LOGICALANDEQ | LOGICALXOREQ | LOGICALOREQ) assignmentExpression)* */ std::unique_ptr<ASTExpression> Parser::assignmentExpression() { std::unique_ptr<ASTExpression> result = this->ternaryExpression(); if (!result) { return nullptr; } for (;;) { switch (this->peek().fKind) { case Token::EQ: // fall through case Token::STAREQ: // fall through case Token::SLASHEQ: // fall through case Token::PERCENTEQ: // fall through case Token::PLUSEQ: // fall through case Token::MINUSEQ: // fall through case Token::SHLEQ: // fall through case Token::SHREQ: // fall through case Token::BITWISEANDEQ: // fall through case Token::BITWISEXOREQ: // fall through case Token::BITWISEOREQ: // fall through case Token::LOGICALANDEQ: // fall through case Token::LOGICALXOREQ: // fall through case Token::LOGICALOREQ: { Token t = this->nextToken(); std::unique_ptr<ASTExpression> right = this->assignmentExpression(); if (!right) { return nullptr; } result = std::unique_ptr<ASTExpression>(new ASTBinaryExpression(std::move(result), std::move(t), std::move(right))); return result; } default: return result; } } } /* logicalOrExpression ('?' expression ':' assignmentExpression)? */ std::unique_ptr<ASTExpression> Parser::ternaryExpression() { std::unique_ptr<ASTExpression> result = this->logicalOrExpression(); if (!result) { return nullptr; } if (this->checkNext(Token::QUESTION)) { std::unique_ptr<ASTExpression> trueExpr = this->expression(); if (!trueExpr) { return nullptr; } if (this->expect(Token::COLON, "':'")) { std::unique_ptr<ASTExpression> falseExpr = this->assignmentExpression(); return std::unique_ptr<ASTExpression>(new ASTTernaryExpression(std::move(result), std::move(trueExpr), std::move(falseExpr))); } return nullptr; } return result; } /* logicalXorExpression (LOGICALOR logicalXorExpression)* */ std::unique_ptr<ASTExpression> Parser::logicalOrExpression() { std::unique_ptr<ASTExpression> result = this->logicalXorExpression(); if (!result) { return nullptr; } Token t; while (this->checkNext(Token::LOGICALOR, &t)) { std::unique_ptr<ASTExpression> right = this->logicalXorExpression(); if (!right) { return nullptr; } result.reset(new ASTBinaryExpression(std::move(result), std::move(t), std::move(right))); } return result; } /* logicalAndExpression (LOGICALXOR logicalAndExpression)* */ std::unique_ptr<ASTExpression> Parser::logicalXorExpression() { std::unique_ptr<ASTExpression> result = this->logicalAndExpression(); if (!result) { return nullptr; } Token t; while (this->checkNext(Token::LOGICALXOR, &t)) { std::unique_ptr<ASTExpression> right = this->logicalAndExpression(); if (!right) { return nullptr; } result.reset(new ASTBinaryExpression(std::move(result), std::move(t), std::move(right))); } return result; } /* bitwiseOrExpression (LOGICALAND bitwiseOrExpression)* */ std::unique_ptr<ASTExpression> Parser::logicalAndExpression() { std::unique_ptr<ASTExpression> result = this->bitwiseOrExpression(); if (!result) { return nullptr; } Token t; while (this->checkNext(Token::LOGICALAND, &t)) { std::unique_ptr<ASTExpression> right = this->bitwiseOrExpression(); if (!right) { return nullptr; } result.reset(new ASTBinaryExpression(std::move(result), std::move(t), std::move(right))); } return result; } /* bitwiseXorExpression (BITWISEOR bitwiseXorExpression)* */ std::unique_ptr<ASTExpression> Parser::bitwiseOrExpression() { std::unique_ptr<ASTExpression> result = this->bitwiseXorExpression(); if (!result) { return nullptr; } Token t; while (this->checkNext(Token::BITWISEOR, &t)) { std::unique_ptr<ASTExpression> right = this->bitwiseXorExpression(); if (!right) { return nullptr; } result.reset(new ASTBinaryExpression(std::move(result), std::move(t), std::move(right))); } return result; } /* bitwiseAndExpression (BITWISEXOR bitwiseAndExpression)* */ std::unique_ptr<ASTExpression> Parser::bitwiseXorExpression() { std::unique_ptr<ASTExpression> result = this->bitwiseAndExpression(); if (!result) { return nullptr; } Token t; while (this->checkNext(Token::BITWISEXOR, &t)) { std::unique_ptr<ASTExpression> right = this->bitwiseAndExpression(); if (!right) { return nullptr; } result.reset(new ASTBinaryExpression(std::move(result), std::move(t), std::move(right))); } return result; } /* equalityExpression (BITWISEAND equalityExpression)* */ std::unique_ptr<ASTExpression> Parser::bitwiseAndExpression() { std::unique_ptr<ASTExpression> result = this->equalityExpression(); if (!result) { return nullptr; } Token t; while (this->checkNext(Token::BITWISEAND, &t)) { std::unique_ptr<ASTExpression> right = this->equalityExpression(); if (!right) { return nullptr; } result.reset(new ASTBinaryExpression(std::move(result), std::move(t), std::move(right))); } return result; } /* relationalExpression ((EQEQ | NEQ) relationalExpression)* */ std::unique_ptr<ASTExpression> Parser::equalityExpression() { std::unique_ptr<ASTExpression> result = this->relationalExpression(); if (!result) { return nullptr; } for (;;) { switch (this->peek().fKind) { case Token::EQEQ: // fall through case Token::NEQ: { Token t = this->nextToken(); std::unique_ptr<ASTExpression> right = this->relationalExpression(); if (!right) { return nullptr; } result.reset(new ASTBinaryExpression(std::move(result), std::move(t), std::move(right))); break; } default: return result; } } } /* shiftExpression ((LT | GT | LTEQ | GTEQ) shiftExpression)* */ std::unique_ptr<ASTExpression> Parser::relationalExpression() { std::unique_ptr<ASTExpression> result = this->shiftExpression(); if (!result) { return nullptr; } for (;;) { switch (this->peek().fKind) { case Token::LT: // fall through case Token::GT: // fall through case Token::LTEQ: // fall through case Token::GTEQ: { Token t = this->nextToken(); std::unique_ptr<ASTExpression> right = this->shiftExpression(); if (!right) { return nullptr; } result.reset(new ASTBinaryExpression(std::move(result), std::move(t), std::move(right))); break; } default: return result; } } } /* additiveExpression ((SHL | SHR) additiveExpression)* */ std::unique_ptr<ASTExpression> Parser::shiftExpression() { std::unique_ptr<ASTExpression> result = this->additiveExpression(); if (!result) { return nullptr; } for (;;) { switch (this->peek().fKind) { case Token::SHL: // fall through case Token::SHR: { Token t = this->nextToken(); std::unique_ptr<ASTExpression> right = this->additiveExpression(); if (!right) { return nullptr; } result.reset(new ASTBinaryExpression(std::move(result), std::move(t), std::move(right))); break; } default: return result; } } } /* multiplicativeExpression ((PLUS | MINUS) multiplicativeExpression)* */ std::unique_ptr<ASTExpression> Parser::additiveExpression() { std::unique_ptr<ASTExpression> result = this->multiplicativeExpression(); if (!result) { return nullptr; } for (;;) { switch (this->peek().fKind) { case Token::PLUS: // fall through case Token::MINUS: { Token t = this->nextToken(); std::unique_ptr<ASTExpression> right = this->multiplicativeExpression(); if (!right) { return nullptr; } result.reset(new ASTBinaryExpression(std::move(result), std::move(t), std::move(right))); break; } default: return result; } } } /* unaryExpression ((STAR | SLASH | PERCENT) unaryExpression)* */ std::unique_ptr<ASTExpression> Parser::multiplicativeExpression() { std::unique_ptr<ASTExpression> result = this->unaryExpression(); if (!result) { return nullptr; } for (;;) { switch (this->peek().fKind) { case Token::STAR: // fall through case Token::SLASH: // fall through case Token::PERCENT: { Token t = this->nextToken(); std::unique_ptr<ASTExpression> right = this->unaryExpression(); if (!right) { return nullptr; } result.reset(new ASTBinaryExpression(std::move(result), std::move(t), std::move(right))); break; } default: return result; } } } /* postfixExpression | (PLUS | MINUS | NOT | PLUSPLUS | MINUSMINUS) unaryExpression */ std::unique_ptr<ASTExpression> Parser::unaryExpression() { switch (this->peek().fKind) { case Token::PLUS: // fall through case Token::MINUS: // fall through case Token::LOGICALNOT: // fall through case Token::BITWISENOT: // fall through case Token::PLUSPLUS: // fall through case Token::MINUSMINUS: { Token t = this->nextToken(); std::unique_ptr<ASTExpression> expr = this->unaryExpression(); if (!expr) { return nullptr; } return std::unique_ptr<ASTExpression>(new ASTPrefixExpression(std::move(t), std::move(expr))); } default: return this->postfixExpression(); } } /* term suffix* */ std::unique_ptr<ASTExpression> Parser::postfixExpression() { std::unique_ptr<ASTExpression> result = this->term(); if (!result) { return nullptr; } for (;;) { switch (this->peek().fKind) { case Token::LBRACKET: // fall through case Token::DOT: // fall through case Token::LPAREN: // fall through case Token::PLUSPLUS: // fall through case Token::MINUSMINUS: // fall through case Token::COLONCOLON: { std::unique_ptr<ASTSuffix> s = this->suffix(); if (!s) { return nullptr; } result.reset(new ASTSuffixExpression(std::move(result), std::move(s))); break; } default: return result; } } } /* LBRACKET expression? RBRACKET | DOT IDENTIFIER | LPAREN parameters RPAREN | PLUSPLUS | MINUSMINUS | COLONCOLON IDENTIFIER */ std::unique_ptr<ASTSuffix> Parser::suffix() { Token next = this->nextToken(); switch (next.fKind) { case Token::LBRACKET: { if (this->checkNext(Token::RBRACKET)) { return std::unique_ptr<ASTSuffix>(new ASTIndexSuffix(next.fOffset)); } std::unique_ptr<ASTExpression> e = this->expression(); if (!e) { return nullptr; } this->expect(Token::RBRACKET, "']' to complete array access expression"); return std::unique_ptr<ASTSuffix>(new ASTIndexSuffix(std::move(e))); } case Token::DOT: // fall through case Token::COLONCOLON: { int offset = this->peek().fOffset; StringFragment text; if (this->identifier(&text)) { return std::unique_ptr<ASTSuffix>(new ASTFieldSuffix(offset, std::move(text))); } return nullptr; } case Token::LPAREN: { std::vector<std::unique_ptr<ASTExpression>> parameters; if (this->peek().fKind != Token::RPAREN) { for (;;) { std::unique_ptr<ASTExpression> expr = this->assignmentExpression(); if (!expr) { return nullptr; } parameters.push_back(std::move(expr)); if (!this->checkNext(Token::COMMA)) { break; } } } this->expect(Token::RPAREN, "')' to complete function parameters"); return std::unique_ptr<ASTSuffix>(new ASTCallSuffix(next.fOffset, std::move(parameters))); } case Token::PLUSPLUS: return std::unique_ptr<ASTSuffix>(new ASTSuffix(next.fOffset, ASTSuffix::kPostIncrement_Kind)); case Token::MINUSMINUS: return std::unique_ptr<ASTSuffix>(new ASTSuffix(next.fOffset, ASTSuffix::kPostDecrement_Kind)); default: { this->error(next, "expected expression suffix, but found '" + this->text(next) + "'\n"); return nullptr; } } } /* IDENTIFIER | intLiteral | floatLiteral | boolLiteral | '(' expression ')' */ std::unique_ptr<ASTExpression> Parser::term() { std::unique_ptr<ASTExpression> result; Token t = this->peek(); switch (t.fKind) { case Token::IDENTIFIER: { StringFragment text; if (this->identifier(&text)) { result.reset(new ASTIdentifier(t.fOffset, std::move(text))); } break; } case Token::INT_LITERAL: { int64_t i; if (this->intLiteral(&i)) { result.reset(new ASTIntLiteral(t.fOffset, i)); } break; } case Token::FLOAT_LITERAL: { double f; if (this->floatLiteral(&f)) { result.reset(new ASTFloatLiteral(t.fOffset, f)); } break; } case Token::TRUE_LITERAL: // fall through case Token::FALSE_LITERAL: { bool b; if (this->boolLiteral(&b)) { result.reset(new ASTBoolLiteral(t.fOffset, b)); } break; } case Token::LPAREN: { this->nextToken(); result = this->expression(); if (result) { this->expect(Token::RPAREN, "')' to complete expression"); } break; } default: this->nextToken(); this->error(t.fOffset, "expected expression, but found '" + this->text(t) + "'\n"); result = nullptr; } return result; } /* INT_LITERAL */ bool Parser::intLiteral(int64_t* dest) { Token t; if (this->expect(Token::INT_LITERAL, "integer literal", &t)) { *dest = SkSL::stol(this->text(t)); return true; } return false; } /* FLOAT_LITERAL */ bool Parser::floatLiteral(double* dest) { Token t; if (this->expect(Token::FLOAT_LITERAL, "float literal", &t)) { *dest = SkSL::stod(this->text(t)); return true; } return false; } /* TRUE_LITERAL | FALSE_LITERAL */ bool Parser::boolLiteral(bool* dest) { Token t = this->nextToken(); switch (t.fKind) { case Token::TRUE_LITERAL: *dest = true; return true; case Token::FALSE_LITERAL: *dest = false; return true; default: this->error(t, "expected 'true' or 'false', but found '" + this->text(t) + "'\n"); return false; } } /* IDENTIFIER */ bool Parser::identifier(StringFragment* dest) { Token t; if (this->expect(Token::IDENTIFIER, "identifier", &t)) { *dest = this->text(t); return true; } return false; } } // namespace