Instead of having `State::getLangOpts()`, which does a virtual call to `getASTContext()` to call `getLangOpts()` on that, just move `getLangOpts()` to the subclasses so we can do that without the virtual call. We never call `getLangOpts()` in `State.cpp`, so it's not needed in the base class.
186 lines
5.8 KiB
C++
186 lines
5.8 KiB
C++
//===--- State.h - State chain for the VM and AST Walker --------*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// Defines the base class of the interpreter and evaluator state.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_CLANG_AST_INTERP_STATE_H
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#define LLVM_CLANG_AST_INTERP_STATE_H
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#include "clang/AST/ASTDiagnostic.h"
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#include "clang/AST/Expr.h"
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namespace clang {
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class OptionalDiagnostic;
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/// Kinds of access we can perform on an object, for diagnostics. Note that
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/// we consider a member function call to be a kind of access, even though
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/// it is not formally an access of the object, because it has (largely) the
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/// same set of semantic restrictions.
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enum AccessKinds {
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AK_Read,
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AK_ReadObjectRepresentation,
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AK_Assign,
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AK_Increment,
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AK_Decrement,
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AK_MemberCall,
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AK_DynamicCast,
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AK_TypeId,
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AK_Construct,
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AK_Destroy,
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AK_IsWithinLifetime,
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AK_Dereference
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};
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/// The order of this enum is important for diagnostics.
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enum CheckSubobjectKind {
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CSK_Base,
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CSK_Derived,
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CSK_Field,
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CSK_ArrayToPointer,
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CSK_ArrayIndex,
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CSK_Real,
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CSK_Imag,
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CSK_VectorElement
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};
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enum class EvaluationMode {
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/// Evaluate as a constant expression. Stop if we find that the expression
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/// is not a constant expression.
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ConstantExpression,
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/// Evaluate as a constant expression. Stop if we find that the expression
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/// is not a constant expression. Some expressions can be retried in the
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/// optimizer if we don't constant fold them here, but in an unevaluated
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/// context we try to fold them immediately since the optimizer never
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/// gets a chance to look at it.
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ConstantExpressionUnevaluated,
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/// Fold the expression to a constant. Stop if we hit a side-effect that
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/// we can't model.
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ConstantFold,
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/// Evaluate in any way we know how. Don't worry about side-effects that
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/// can't be modeled.
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IgnoreSideEffects,
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};
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namespace interp {
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class Frame;
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class SourceInfo;
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/// Interface for the VM to interact with the AST walker's context.
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class State {
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public:
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virtual ~State();
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virtual bool noteUndefinedBehavior() = 0;
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virtual bool keepEvaluatingAfterFailure() const = 0;
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virtual bool keepEvaluatingAfterSideEffect() const = 0;
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virtual Frame *getCurrentFrame() = 0;
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virtual const Frame *getBottomFrame() const = 0;
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virtual bool hasActiveDiagnostic() = 0;
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virtual void setActiveDiagnostic(bool Flag) = 0;
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virtual void setFoldFailureDiagnostic(bool Flag) = 0;
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virtual Expr::EvalStatus &getEvalStatus() const = 0;
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virtual ASTContext &getASTContext() const = 0;
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virtual bool hasPriorDiagnostic() = 0;
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virtual unsigned getCallStackDepth() = 0;
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virtual bool noteSideEffect() = 0;
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/// Are we checking whether the expression is a potential constant
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/// expression?
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bool checkingPotentialConstantExpression() const {
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return CheckingPotentialConstantExpression;
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}
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/// Are we checking an expression for overflow?
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bool checkingForUndefinedBehavior() const {
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return CheckingForUndefinedBehavior;
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}
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public:
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State() = default;
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/// Diagnose that the evaluation could not be folded (FF => FoldFailure)
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OptionalDiagnostic
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FFDiag(SourceLocation Loc,
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diag::kind DiagId = diag::note_invalid_subexpr_in_const_expr,
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unsigned ExtraNotes = 0);
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OptionalDiagnostic
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FFDiag(const Expr *E,
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diag::kind DiagId = diag::note_invalid_subexpr_in_const_expr,
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unsigned ExtraNotes = 0);
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OptionalDiagnostic
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FFDiag(const SourceInfo &SI,
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diag::kind DiagId = diag::note_invalid_subexpr_in_const_expr,
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unsigned ExtraNotes = 0);
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/// Diagnose that the evaluation does not produce a C++11 core constant
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/// expression.
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///
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/// FIXME: Stop evaluating if we're in EM_ConstantExpression or
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/// EM_PotentialConstantExpression mode and we produce one of these.
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OptionalDiagnostic
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CCEDiag(SourceLocation Loc,
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diag::kind DiagId = diag::note_invalid_subexpr_in_const_expr,
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unsigned ExtraNotes = 0);
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OptionalDiagnostic
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CCEDiag(const Expr *E,
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diag::kind DiagId = diag::note_invalid_subexpr_in_const_expr,
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unsigned ExtraNotes = 0);
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OptionalDiagnostic
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CCEDiag(const SourceInfo &SI,
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diag::kind DiagId = diag::note_invalid_subexpr_in_const_expr,
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unsigned ExtraNotes = 0);
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/// Add a note to a prior diagnostic.
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OptionalDiagnostic Note(SourceLocation Loc, diag::kind DiagId);
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/// Add a stack of notes to a prior diagnostic.
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void addNotes(ArrayRef<PartialDiagnosticAt> Diags);
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/// Directly reports a diagnostic message.
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DiagnosticBuilder report(SourceLocation Loc, diag::kind DiagId);
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/// Whether or not we're in a context where the front end requires a
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/// constant value.
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bool InConstantContext = false;
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/// Whether we're checking that an expression is a potential constant
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/// expression. If so, do not fail on constructs that could become constant
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/// later on (such as a use of an undefined global).
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bool CheckingPotentialConstantExpression = false;
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/// Whether we're checking for an expression that has undefined behavior.
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/// If so, we will produce warnings if we encounter an operation that is
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/// always undefined.
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///
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/// Note that we still need to evaluate the expression normally when this
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/// is set; this is used when evaluating ICEs in C.
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bool CheckingForUndefinedBehavior = false;
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EvaluationMode EvalMode;
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private:
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void addCallStack(unsigned Limit);
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PartialDiagnostic &addDiag(SourceLocation Loc, diag::kind DiagId);
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OptionalDiagnostic diag(SourceLocation Loc, diag::kind DiagId,
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unsigned ExtraNotes, bool IsCCEDiag);
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};
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} // namespace interp
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} // namespace clang
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#endif
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