/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- * vim: set ts=8 sts=2 et sw=2 tw=80: * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef frontend_BytecodeCompiler_h #define frontend_BytecodeCompiler_h #include "mozilla/Maybe.h" #include "mozilla/Utf8.h" // mozilla::Utf8Unit #include "NamespaceImports.h" #include "frontend/FunctionSyntaxKind.h" #include "js/SourceText.h" #include "js/Stack.h" // JS::NativeStackLimit #include "js/UniquePtr.h" // js::UniquePtr /* * Structure of all of the support classes. * * Parser: described in Parser.h. * * BytecodeCompiler.cpp: BytecodeCompiler.h *and* BytecodeCompilation.h. * This is the "driver", the high-level operations like "compile this source to * bytecode". It calls the parser, bytecode emitter, etc. * * ParseContext.h and SharedContext.h: Both have similar purposes. They're split * because ParseContext contains information used only by the parser, and * SharedContext contains information used by both the parser and * BytecodeEmitter. * * SharedContext.h: class Directives: this contains boolean flags for tracking * if we're in asm.js or "use strict" code. The "use strict" bit is stored in * SharedContext, and additionally, the full Directives class is stored in * ParseContext - if a direcive is encountered while parsing, this is updated, * and checked in GeneralParser::functionDefinition, and if it changed, the * whole function is re-parsed with the new flags. * * SharedContext.h: abstract class SharedContext: This class contains two * different groups of flags: * * Parse context information. This is information conceptually "passed down" * into parsing sub-nodes. This is like "are we parsing strict code?", and so * the parser can make decisions of how to parse based off that. * * Gathered-while-parsing information. This is information conceptually * "returned up" from parsing sub-nodes. This is like "did we see a use strict * directive"? * * Additionally, subclasses (GlobalSharedContext, ModuleSharedContext, * EvalSharedContext, and FunctionBox) contain binding information, scope * information, and other such bits of data. * * ParseContext.h: class UsedNameTracker: Track which bindings are used in which * scopes. This helps determine which bindings are closed-over, which affects * how they're stored; and whether special bindings like `this` and `arguments` * can be optimized away. * * ParseContext.h: class ParseContext: Extremely complex class that serves a lot * of purposes, but it's a single class - essentially no derived classes - so * it's a little easier to comprehend all at once. (SourceParseContext does * derive from ParseContext, but they does nothing except adjust the * constructor's arguments). * Note it uses a thing called Nestable, which implements a stack of objects: * you can push (and pop) instances to a stack (linked list) as you parse * further into the parse tree. You may push to this stack via calling the * constructor with a GeneralParser as an argument (usually `this`), which * pushes itself onto `this->pc` (so it does get assigned/pushed, even though no * assignment ever appears directly in the parser) * * ParseContext contains a pointer to a SharedContext. * * There's a decent chunk of flags/data collection in here too, some "pass-down" * data and some "return-up" data. * * ParseContext also contains a significant number of *sub*-Nestables as fields * of itself (nestables inside nestables). Note you also push/pop to these via * passing `Parser->pc`, which the constructor of the sub-nestable knows which * ParseContext field to push to. The sub-nestables are: * * ParseContext::Statement: stack of statements. * `if (x) { while (true) { try { ..stack of [if, while, try].. } ... } }` * * ParseContext::LabelStatement: interspersed in Statement stack, for labeled * statements, for e.g. `label: while (true) { break label; }` * * ParseContext::ClassStatement: interspersed in Statement stack, for classes * the parser is currently inside of. * * ParseContext::Scope: Set of variables in each scope (stack of sets): * `{ let a; let b; { let c; } }` * (this gets complicated with `var`, etc., check the class for docs) */ class JSLinearString; namespace JS { class JS_PUBLIC_API ReadOnlyCompileOptions; } namespace js { class ModuleObject; class ScriptSourceObject; class FrontendContext; namespace frontend { struct CompilationInput; struct CompilationStencil; struct ExtensibleCompilationStencil; struct CompilationGCOutput; class ErrorReporter; class FunctionBox; class ParseNode; class TaggedParserAtomIndex; class ScopeBindingCache; // Compile a module of the given source using the given options. ModuleObject* CompileModule(JSContext* cx, FrontendContext* fc, JS::NativeStackLimit stackLimit, const JS::ReadOnlyCompileOptions& options, JS::SourceText& srcBuf); ModuleObject* CompileModule(JSContext* cx, FrontendContext* fc, JS::NativeStackLimit stackLimit, const JS::ReadOnlyCompileOptions& options, JS::SourceText& srcBuf); // Parse a module of the given source. This is an internal API; if you want to // compile a module as a user, use CompileModule above. already_AddRefed ParseModuleToStencil( JSContext* cx, FrontendContext* fc, JS::NativeStackLimit stackLimit, CompilationInput& input, ScopeBindingCache* scopeCache, JS::SourceText& srcBuf); already_AddRefed ParseModuleToStencil( JSContext* cx, FrontendContext* fc, JS::NativeStackLimit stackLimit, CompilationInput& input, ScopeBindingCache* scopeCache, JS::SourceText& srcBuf); UniquePtr ParseModuleToExtensibleStencil( JSContext* cx, FrontendContext* fc, JS::NativeStackLimit stackLimit, CompilationInput& input, ScopeBindingCache* scopeCache, JS::SourceText& srcBuf); UniquePtr ParseModuleToExtensibleStencil( JSContext* cx, FrontendContext* fc, JS::NativeStackLimit stackLimit, CompilationInput& input, ScopeBindingCache* scopeCache, JS::SourceText& srcBuf); // // Compile a single function. The source in srcBuf must match the ECMA-262 // FunctionExpression production. // // If nonzero, parameterListEnd is the offset within srcBuf where the parameter // list is expected to end. During parsing, if we find that it ends anywhere // else, it's a SyntaxError. This is used to implement the Function constructor; // it's how we detect that these weird cases are SyntaxErrors: // // Function("/*", "*/x) {") // Function("x){ if (3", "return x;}") // [[nodiscard]] JSFunction* CompileStandaloneFunction( JSContext* cx, const JS::ReadOnlyCompileOptions& options, JS::SourceText& srcBuf, const mozilla::Maybe& parameterListEnd, frontend::FunctionSyntaxKind syntaxKind); [[nodiscard]] JSFunction* CompileStandaloneGenerator( JSContext* cx, const JS::ReadOnlyCompileOptions& options, JS::SourceText& srcBuf, const mozilla::Maybe& parameterListEnd, frontend::FunctionSyntaxKind syntaxKind); [[nodiscard]] JSFunction* CompileStandaloneAsyncFunction( JSContext* cx, const JS::ReadOnlyCompileOptions& options, JS::SourceText& srcBuf, const mozilla::Maybe& parameterListEnd, frontend::FunctionSyntaxKind syntaxKind); [[nodiscard]] JSFunction* CompileStandaloneAsyncGenerator( JSContext* cx, const JS::ReadOnlyCompileOptions& options, JS::SourceText& srcBuf, const mozilla::Maybe& parameterListEnd, frontend::FunctionSyntaxKind syntaxKind); // Compile a single function in given enclosing non-syntactic scope. [[nodiscard]] JSFunction* CompileStandaloneFunctionInNonSyntacticScope( JSContext* cx, const JS::ReadOnlyCompileOptions& options, JS::SourceText& srcBuf, const mozilla::Maybe& parameterListEnd, frontend::FunctionSyntaxKind syntaxKind, Handle enclosingScope); /* * True if str consists of an IdentifierStart character, followed by one or * more IdentifierPart characters, i.e. it matches the IdentifierName production * in the language spec. * * This returns true even if str is a keyword like "if". * * Defined in TokenStream.cpp. */ bool IsIdentifier(JSLinearString* str); bool IsIdentifierNameOrPrivateName(JSLinearString* str); /* * As above, but taking chars + length. */ bool IsIdentifier(const Latin1Char* chars, size_t length); bool IsIdentifier(const char16_t* chars, size_t length); /* * ASCII variant with known length. */ bool IsIdentifierASCII(char c); bool IsIdentifierASCII(char c1, char c2); bool IsIdentifierNameOrPrivateName(const Latin1Char* chars, size_t length); bool IsIdentifierNameOrPrivateName(const char16_t* chars, size_t length); /* True if str is a keyword. Defined in TokenStream.cpp. */ bool IsKeyword(TaggedParserAtomIndex atom); } /* namespace frontend */ } /* namespace js */ #endif /* frontend_BytecodeCompiler_h */