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https://github.com/apple/swift.git
synced 2025-12-14 20:36:38 +01:00
d52b33d409
When LLDB wraps a user-defined expression in the REPL, it takes something like this
```
<expr>
```
and turns it into (very very abstractly)
```
var result
do {
result = <expr>
}
print(result)
```
In the process, it creates an implicit pattern binding and an implicit do block. Of these, only the implicit do is considered by ASTScope lookup to be relevant. This presents a problem when <expr> is or contains a closure, as the parameters of that closure are defined within a scope that will never be expanded. Thus,
```
> [42].map { x in x } // <- cannot find 'x' in scope
```
This patch provides the Swift half of the fix wherein we privilege pattern bindings created by the debugger and look through them to the underlying user expression when performing ASTScope expansion.
rdar://78256873
364 lines
12 KiB
C++
364 lines
12 KiB
C++
//===--- ASTScopeSourceRange.cpp - Swift Object-Oriented AST Scope --------===//
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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 - 2017 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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///
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/// This file implements the source range queries for the ASTScopeImpl ontology.
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///
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//===----------------------------------------------------------------------===//
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#include "swift/AST/ASTScope.h"
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#include "swift/AST/ASTContext.h"
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#include "swift/AST/ASTWalker.h"
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#include "swift/AST/Decl.h"
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#include "swift/AST/Expr.h"
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#include "swift/AST/GenericParamList.h"
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#include "swift/AST/Initializer.h"
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#include "swift/AST/LazyResolver.h"
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#include "swift/AST/Module.h"
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#include "swift/AST/ParameterList.h"
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#include "swift/AST/Pattern.h"
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#include "swift/AST/SourceFile.h"
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#include "swift/AST/Stmt.h"
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#include "swift/AST/TypeRepr.h"
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#include "swift/Basic/STLExtras.h"
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#include "swift/Parse/Lexer.h"
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#include "llvm/Support/Compiler.h"
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#include <algorithm>
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using namespace swift;
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using namespace ast_scope;
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static SourceLoc getLocAfterExtendedNominal(const ExtensionDecl *);
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void ASTScopeImpl::checkSourceRangeBeforeAddingChild(ASTScopeImpl *child,
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const ASTContext &ctx) const {
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// Ignore debugger bindings - they're a special mix of user code and implicit
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// wrapper code that is too difficult to check for consistency.
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if (auto d = getDeclIfAny().getPtrOrNull())
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if (auto *PBD = dyn_cast<PatternBindingDecl>(d))
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if (PBD->isDebuggerBinding())
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return;
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auto &sourceMgr = ctx.SourceMgr;
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auto range = getCharSourceRangeOfScope(sourceMgr);
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auto childCharRange = child->getCharSourceRangeOfScope(sourceMgr);
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bool childContainedInParent = [&]() {
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// HACK: For code completion. Handle replaced range.
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if (const auto &replacedRange = sourceMgr.getReplacedRange()) {
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auto originalRange = Lexer::getCharSourceRangeFromSourceRange(
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sourceMgr, replacedRange.Original);
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auto newRange = Lexer::getCharSourceRangeFromSourceRange(
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sourceMgr, replacedRange.New);
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if (range.contains(originalRange) &&
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newRange.contains(childCharRange))
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return true;
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}
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return range.contains(childCharRange);
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}();
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if (!childContainedInParent) {
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auto &out = verificationError() << "child not contained in its parent:\n";
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child->print(out);
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out << "\n***Parent node***\n";
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this->print(out);
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abort();
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}
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if (!storedChildren.empty()) {
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auto previousChild = storedChildren.back();
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auto endOfPreviousChild = previousChild->getCharSourceRangeOfScope(
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sourceMgr).getEnd();
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if (childCharRange.getStart() != endOfPreviousChild &&
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!sourceMgr.isBeforeInBuffer(endOfPreviousChild,
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childCharRange.getStart())) {
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auto &out = verificationError() << "child overlaps previous child:\n";
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child->print(out);
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out << "\n***Previous child\n";
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previousChild->print(out);
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out << "\n***Parent node***\n";
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this->print(out);
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abort();
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}
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}
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}
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#pragma mark getSourceRangeOfThisASTNode
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SourceRange SpecializeAttributeScope::getSourceRangeOfThisASTNode(
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const bool omitAssertions) const {
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return specializeAttr->getRange();
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}
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SourceRange DifferentiableAttributeScope::getSourceRangeOfThisASTNode(
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const bool omitAssertions) const {
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return differentiableAttr->getRange();
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}
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SourceRange FunctionBodyScope::getSourceRangeOfThisASTNode(
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const bool omitAssertions) const {
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return decl->getOriginalBodySourceRange();
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}
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SourceRange TopLevelCodeScope::getSourceRangeOfThisASTNode(
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const bool omitAssertions) const {
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return SourceRange(decl->getStartLoc(), endLoc);
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}
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SourceRange SubscriptDeclScope::getSourceRangeOfThisASTNode(
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const bool omitAssertions) const {
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return decl->getSourceRangeIncludingAttrs();
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}
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SourceRange
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EnumElementScope::getSourceRangeOfThisASTNode(const bool omitAssertions) const {
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return decl->getSourceRange();
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}
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SourceRange AbstractStmtScope::getSourceRangeOfThisASTNode(
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const bool omitAssertions) const {
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return getStmt()->getSourceRange();
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}
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SourceRange DefaultArgumentInitializerScope::getSourceRangeOfThisASTNode(
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const bool omitAssertions) const {
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return decl->getStructuralDefaultExpr()->getSourceRange();
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}
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SourceRange PatternEntryDeclScope::getSourceRangeOfThisASTNode(
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const bool omitAssertions) const {
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SourceRange range = getPatternEntry().getSourceRange();
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if (endLoc.hasValue())
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range.End = *endLoc;
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return range;
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}
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SourceRange PatternEntryInitializerScope::getSourceRangeOfThisASTNode(
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const bool omitAssertions) const {
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// TODO: Don't remove the initializer in the rest of the compiler:
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// Search for "When the initializer is removed we don't actually clear the
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// pointer" because we do!
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return initAsWrittenWhenCreated->getSourceRange();
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}
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SourceRange GenericParamScope::getSourceRangeOfThisASTNode(
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const bool omitAssertions) const {
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// We want to ensure the extended type is not part of the generic
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// parameter scope.
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if (auto const *const ext = dyn_cast<ExtensionDecl>(holder)) {
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return SourceRange(getLocAfterExtendedNominal(ext), ext->getEndLoc());
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}
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// For all other declarations, generic parameters are visible everywhere.
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return holder->getSourceRange();
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}
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SourceRange ASTSourceFileScope::getSourceRangeOfThisASTNode(
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const bool omitAssertions) const {
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if (auto bufferID = SF->getBufferID()) {
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auto charRange = getSourceManager().getRangeForBuffer(*bufferID);
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return SourceRange(charRange.getStart(), charRange.getEnd());
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}
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if (SF->getTopLevelDecls().empty())
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return SourceRange();
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// Use the source ranges of the declarations in the file.
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return SourceRange(SF->getTopLevelDecls().front()->getStartLoc(),
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SF->getTopLevelDecls().back()->getEndLoc());
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}
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SourceRange GenericTypeOrExtensionScope::getSourceRangeOfThisASTNode(
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const bool omitAssertions) const {
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return portion->getChildlessSourceRangeOf(this, omitAssertions);
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}
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SourceRange GenericTypeOrExtensionWholePortion::getChildlessSourceRangeOf(
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const GenericTypeOrExtensionScope *scope, const bool omitAssertions) const {
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auto *d = scope->getDecl();
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auto r = d->getSourceRangeIncludingAttrs();
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if (r.Start.isValid()) {
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ASTScopeAssert(r.End.isValid(), "Start valid imples end valid.");
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return scope->moveStartPastExtendedNominal(r);
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}
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return d->getSourceRange();
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}
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SourceRange
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ExtensionScope::moveStartPastExtendedNominal(const SourceRange sr) const {
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const auto afterExtendedNominal = getLocAfterExtendedNominal(decl);
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// Illegal code can have an endLoc that is before the end of the
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// ExtendedNominal
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if (getSourceManager().isBeforeInBuffer(sr.End, afterExtendedNominal)) {
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// Must not have the source range returned include the extended nominal
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return SourceRange(sr.Start, sr.Start);
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}
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return SourceRange(afterExtendedNominal, sr.End);
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}
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SourceRange
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GenericTypeScope::moveStartPastExtendedNominal(const SourceRange sr) const {
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// There is no extended nominal
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return sr;
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}
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SourceRange GenericTypeOrExtensionWherePortion::getChildlessSourceRangeOf(
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const GenericTypeOrExtensionScope *scope, const bool omitAssertions) const {
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return scope->getGenericContext()->getTrailingWhereClause()->getSourceRange();
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}
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SourceRange IterableTypeBodyPortion::getChildlessSourceRangeOf(
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const GenericTypeOrExtensionScope *scope, const bool omitAssertions) const {
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auto *d = scope->getDecl();
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if (auto *nt = dyn_cast<NominalTypeDecl>(d))
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return nt->getBraces();
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if (auto *e = dyn_cast<ExtensionDecl>(d))
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return e->getBraces();
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if (omitAssertions)
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return SourceRange();
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ASTScope_unreachable("No body!");
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}
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SourceRange AbstractFunctionDeclScope::getSourceRangeOfThisASTNode(
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const bool omitAssertions) const {
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// For a get/put accessor all of the parameters are implicit, so start
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// them at the start location of the accessor.
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auto r = decl->getSourceRangeIncludingAttrs();
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if (r.Start.isValid()) {
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ASTScopeAssert(r.End.isValid(), "Start valid imples end valid.");
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return r;
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}
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return decl->getOriginalBodySourceRange();
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}
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SourceRange ParameterListScope::getSourceRangeOfThisASTNode(
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const bool omitAssertions) const {
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return params->getSourceRange();
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}
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SourceRange ForEachPatternScope::getSourceRangeOfThisASTNode(
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const bool omitAssertions) const {
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// The scope of the pattern extends from the 'where' expression (if present)
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// until the end of the body.
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if (stmt->getWhere())
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return SourceRange(stmt->getWhere()->getStartLoc(),
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stmt->getBody()->getEndLoc());
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// Otherwise, scope of the pattern covers the body.
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return stmt->getBody()->getSourceRange();
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}
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SourceRange
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CaseLabelItemScope::getSourceRangeOfThisASTNode(const bool omitAssertions) const {
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return item.getGuardExpr()->getSourceRange();
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}
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SourceRange
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CaseStmtBodyScope::getSourceRangeOfThisASTNode(const bool omitAssertions) const {
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return stmt->getBody()->getSourceRange();
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}
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SourceRange
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BraceStmtScope::getSourceRangeOfThisASTNode(const bool omitAssertions) const {
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// The brace statements that represent closures start their scope at the
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// 'in' keyword, when present.
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if (auto closure = parentClosureIfAny()) {
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if (closure.get()->getInLoc().isValid())
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return SourceRange(closure.get()->getInLoc(), endLoc);
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}
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return SourceRange(stmt->getStartLoc(), endLoc);
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}
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SourceRange ConditionalClauseInitializerScope::getSourceRangeOfThisASTNode(
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const bool omitAssertions) const {
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return initializer->getSourceRange();
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}
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SourceRange ConditionalClausePatternUseScope::getSourceRangeOfThisASTNode(
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const bool omitAssertions) const {
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return SourceRange(sec.getInitializer()->getStartLoc(), endLoc);
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}
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SourceRange
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CaptureListScope::getSourceRangeOfThisASTNode(const bool omitAssertions) const {
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auto *closureExpr = expr->getClosureBody();
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if (!omitAssertions)
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ASTScopeAssert(closureExpr->getInLoc().isValid(),
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"We don't create these if no in loc");
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return SourceRange(closureExpr->getInLoc(), closureExpr->getEndLoc());
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}
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SourceRange ClosureParametersScope::getSourceRangeOfThisASTNode(
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const bool omitAssertions) const {
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if (closureExpr->getInLoc().isValid())
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return SourceRange(closureExpr->getInLoc(), closureExpr->getEndLoc());
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return closureExpr->getSourceRange();
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}
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SourceRange AttachedPropertyWrapperScope::getSourceRangeOfThisASTNode(
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const bool omitAssertions) const {
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return attr->getRange();
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}
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SourceRange GuardStmtScope::getSourceRangeOfThisASTNode(
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const bool omitAssertions) const {
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return SourceRange(getStmt()->getStartLoc(), endLoc);
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}
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SourceRange GuardStmtBodyScope::getSourceRangeOfThisASTNode(
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const bool omitAssertions) const {
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return body->getSourceRange();
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}
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#pragma mark source range caching
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CharSourceRange
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ASTScopeImpl::getCharSourceRangeOfScope(SourceManager &SM,
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bool omitAssertions) const {
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if (!isCharSourceRangeCached()) {
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auto range = getSourceRangeOfThisASTNode(omitAssertions);
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ASTScopeAssert(range.isValid(), "scope has invalid source range");
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ASTScopeAssert(SM.isBeforeInBuffer(range.Start, range.End) ||
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range.Start == range.End,
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"scope source range ends before start");
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cachedCharSourceRange =
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Lexer::getCharSourceRangeFromSourceRange(SM, range);
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}
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return *cachedCharSourceRange;
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}
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bool ASTScopeImpl::isCharSourceRangeCached() const {
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return cachedCharSourceRange.hasValue();
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}
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SourceLoc getLocAfterExtendedNominal(const ExtensionDecl *const ext) {
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const auto *const etr = ext->getExtendedTypeRepr();
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if (!etr)
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return ext->getStartLoc();
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const auto &SM = ext->getASTContext().SourceMgr;
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return Lexer::getCharSourceRangeFromSourceRange(SM, etr->getSourceRange())
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.getEnd();
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}
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SourceLoc ast_scope::extractNearestSourceLoc(
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std::tuple<ASTScopeImpl *, ScopeCreator *> scopeAndCreator) {
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const ASTScopeImpl *scope = std::get<0>(scopeAndCreator);
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return scope->getSourceRangeOfThisASTNode().Start;
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}
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