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Instead, only reference count the SyntaxArena that the RawSyntax nodes live in. The user of RawSyntax nodes must guarantee that the SyntaxArena stays alive as long as the RawSyntax nodes are being accessed. During parse time, the SyntaxTreeCreator holds on to the SyntaxArena in which it creates RawSyntax nodes. When inspecting a syntax tree, the root SyntaxData node keeps the SyntaxArena alive. The change should be mostly invisible to the users of the public libSyntax API. This change significantly decreases the overall reference-counting overhead. Since we were not able to free individual RawSyntax nodes anyway, performing the reference-counting on the level of the SyntaxArena feels natural.
171 lines
6.4 KiB
C++
171 lines
6.4 KiB
C++
//===--- SyntaxTreeCreator.cpp - Syntax Tree Creation ----------*- C++ -*-===//
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//
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// This source file is part of the Swift.org open source project
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//
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// Copyright (c) 2014 - 2019 Apple Inc. and the Swift project authors
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// Licensed under Apache License v2.0 with Runtime Library Exception
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//
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// See https://swift.org/LICENSE.txt for license information
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// See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
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//
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//===----------------------------------------------------------------------===//
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#include "swift/SyntaxParse/SyntaxTreeCreator.h"
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#include "swift/Syntax/RawSyntax.h"
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#include "swift/Syntax/SyntaxVisitor.h"
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#include "swift/Syntax/Trivia.h"
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#include "swift/Parse/ParsedTrivia.h"
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#include "swift/Parse/SyntaxParsingCache.h"
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#include "swift/Parse/Token.h"
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#include "swift/AST/ASTContext.h"
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#include "swift/AST/DiagnosticsParse.h"
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#include "swift/AST/Module.h"
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#include "swift/AST/SourceFile.h"
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#include "swift/Basic/OwnedString.h"
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#include "RawSyntaxTokenCache.h"
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using namespace swift;
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using namespace swift::syntax;
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SyntaxTreeCreator::SyntaxTreeCreator(SourceManager &SM, unsigned bufferID,
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SyntaxParsingCache *syntaxCache,
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RC<syntax::SyntaxArena> arena)
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: SM(SM), BufferID(bufferID),
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Arena(std::move(arena)),
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SyntaxCache(syntaxCache),
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TokenCache(new RawSyntaxTokenCache()) {
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StringRef BufferContent = SM.getEntireTextForBuffer(BufferID);
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char *Data = (char *)Arena->Allocate(BufferContent.size(), alignof(char *));
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std::uninitialized_copy(BufferContent.begin(), BufferContent.end(), Data);
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ArenaSourceBuffer = StringRef(Data, BufferContent.size());
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assert(ArenaSourceBuffer == BufferContent);
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Arena->setHotUseMemoryRegion(ArenaSourceBuffer.begin(),
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ArenaSourceBuffer.end());
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}
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SyntaxTreeCreator::~SyntaxTreeCreator() = default;
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namespace {
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/// This verifier traverses a syntax node to emit proper diagnostics.
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class SyntaxVerifier: public SyntaxVisitor {
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SourceManager &SourceMgr;
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unsigned BufferID;
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DiagnosticEngine &Diags;
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template<class T>
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SourceLoc getSourceLoc(T Node) {
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return SourceMgr.getLocForOffset(BufferID,
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Node.getAbsolutePosition().getOffset());
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}
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public:
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SyntaxVerifier( SourceManager &SM, unsigned bufID, DiagnosticEngine &diags)
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: SourceMgr(SM), BufferID(bufID), Diags(diags) {}
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void visit(UnknownDeclSyntax Node) override {
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Diags.diagnose(getSourceLoc(Node), diag::unknown_syntax_entity,
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"declaration");
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visitChildren(Node);
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}
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void visit(UnknownExprSyntax Node) override {
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Diags.diagnose(getSourceLoc(Node), diag::unknown_syntax_entity,
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"expression");
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visitChildren(Node);
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}
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void visit(UnknownStmtSyntax Node) override {
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Diags.diagnose(getSourceLoc(Node), diag::unknown_syntax_entity,
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"statement");
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visitChildren(Node);
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}
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void visit(UnknownTypeSyntax Node) override {
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Diags.diagnose(getSourceLoc(Node), diag::unknown_syntax_entity,
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"type");
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visitChildren(Node);
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}
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void visit(UnknownPatternSyntax Node) override {
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Diags.diagnose(getSourceLoc(Node), diag::unknown_syntax_entity,
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"pattern");
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visitChildren(Node);
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}
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void verify(Syntax Node) {
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Node.accept(*this);
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}
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};
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} // anonymous namespace
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Optional<SourceFileSyntax>
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SyntaxTreeCreator::realizeSyntaxRoot(OpaqueSyntaxNode rootN,
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const SourceFile &SF) {
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auto raw = static_cast<const RawSyntax *>(rootN);
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auto rootNode = makeRoot<SourceFileSyntax>(raw);
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// Verify the tree if specified.
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if (SF.getASTContext().LangOpts.VerifySyntaxTree) {
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ASTContext &ctx = SF.getASTContext();
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SyntaxVerifier Verifier(ctx.SourceMgr, SF.getBufferID().getValue(),
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ctx.Diags);
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Verifier.verify(rootNode);
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}
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return rootNode;
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}
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OpaqueSyntaxNode SyntaxTreeCreator::recordToken(tok tokenKind,
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StringRef leadingTrivia,
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StringRef trailingTrivia,
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CharSourceRange range) {
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unsigned tokLength =
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range.getByteLength() - leadingTrivia.size() - trailingTrivia.size();
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auto leadingTriviaStartOffset =
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SM.getLocOffsetInBuffer(range.getStart(), BufferID);
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auto tokStartOffset = leadingTriviaStartOffset + leadingTrivia.size();
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auto trailingTriviaStartOffset = tokStartOffset + tokLength;
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// Get StringRefs of the token's texts that point into the syntax arena's
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// buffer.
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StringRef leadingTriviaText =
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ArenaSourceBuffer.substr(leadingTriviaStartOffset, leadingTrivia.size());
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StringRef tokenText = ArenaSourceBuffer.substr(tokStartOffset, tokLength);
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StringRef trailingTriviaText = ArenaSourceBuffer.substr(
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trailingTriviaStartOffset, trailingTrivia.size());
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auto raw =
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TokenCache->getToken(Arena, tokenKind, range.getByteLength(), tokenText,
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leadingTriviaText, trailingTriviaText);
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return static_cast<OpaqueSyntaxNode>(const_cast<RawSyntax *>(raw));
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}
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OpaqueSyntaxNode
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SyntaxTreeCreator::recordMissingToken(tok kind, SourceLoc loc) {
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auto raw = RawSyntax::missing(kind, getTokenText(kind), Arena);
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return static_cast<OpaqueSyntaxNode>(const_cast<RawSyntax *>(raw));
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}
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OpaqueSyntaxNode
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SyntaxTreeCreator::recordRawSyntax(syntax::SyntaxKind kind,
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ArrayRef<OpaqueSyntaxNode> elements,
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CharSourceRange range) {
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SmallVector<const RawSyntax *, 16> parts;
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parts.reserve(elements.size());
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for (OpaqueSyntaxNode opaqueN : elements) {
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parts.push_back(static_cast<const RawSyntax *>(opaqueN));
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}
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size_t TextLength = range.isValid() ? range.getByteLength() : 0;
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auto raw =
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RawSyntax::make(kind, parts, TextLength, SourcePresence::Present, Arena);
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return static_cast<OpaqueSyntaxNode>(const_cast<RawSyntax *>(raw));
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}
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std::pair<size_t, OpaqueSyntaxNode>
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SyntaxTreeCreator::lookupNode(size_t lexerOffset, syntax::SyntaxKind kind) {
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if (!SyntaxCache)
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return {0, nullptr};
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auto cacheLookup = SyntaxCache->lookUp(lexerOffset, kind);
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if (!cacheLookup)
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return {0, nullptr};
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const RawSyntax *raw = cacheLookup->getRaw();
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size_t length = raw->getTextLength();
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return {length, static_cast<OpaqueSyntaxNode>(const_cast<RawSyntax *>(raw))};
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}
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void SyntaxTreeCreator::discardRecordedNode(OpaqueSyntaxNode opaqueN) {
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}
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