lib/AST/Interp/State.cpp - clang - Git at Google

 //===--- State.cpp - State chain for the VM and AST Walker ------*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #include "State.h"
 #include "Frame.h"
 #include "Program.h"
 #include "clang/AST/ASTContext.h"
 #include "clang/AST/CXXInheritance.h"

 using namespace clang;
 using namespace clang::interp;

 State::~State() {}

 OptionalDiagnostic State::FFDiag(SourceLocation Loc, diag::kind DiagId,
                                  unsigned ExtraNotes) {
   return diag(Loc, DiagId, ExtraNotes, false);
 }

 OptionalDiagnostic State::FFDiag(const Expr *E, diag::kind DiagId,
                                  unsigned ExtraNotes) {
   if (getEvalStatus().Diag)
     return diag(E->getExprLoc(), DiagId, ExtraNotes, false);
   setActiveDiagnostic(false);
   return OptionalDiagnostic();
 }

 OptionalDiagnostic State::FFDiag(const SourceInfo &SI, diag::kind DiagId,
                                  unsigned ExtraNotes) {
   if (getEvalStatus().Diag)
     return diag(SI.getLoc(), DiagId, ExtraNotes, false);
   setActiveDiagnostic(false);
   return OptionalDiagnostic();
 }

 OptionalDiagnostic State::CCEDiag(SourceLocation Loc, diag::kind DiagId,
                                   unsigned ExtraNotes) {
   // Don't override a previous diagnostic. Don't bother collecting
   // diagnostics if we're evaluating for overflow.
   if (!getEvalStatus().Diag || !getEvalStatus().Diag->empty()) {
     setActiveDiagnostic(false);
     return OptionalDiagnostic();
   }
   return diag(Loc, DiagId, ExtraNotes, true);
 }

 OptionalDiagnostic State::CCEDiag(const Expr *E, diag::kind DiagId,
                                   unsigned ExtraNotes) {
   return CCEDiag(E->getExprLoc(), DiagId, ExtraNotes);
 }

 OptionalDiagnostic State::CCEDiag(const SourceInfo &SI, diag::kind DiagId,
                                   unsigned ExtraNotes) {
   return CCEDiag(SI.getLoc(), DiagId, ExtraNotes);
 }

 OptionalDiagnostic State::Note(SourceLocation Loc, diag::kind DiagId) {
   if (!hasActiveDiagnostic())
     return OptionalDiagnostic();
   return OptionalDiagnostic(&addDiag(Loc, DiagId));
 }

 void State::addNotes(ArrayRef<PartialDiagnosticAt> Diags) {
   if (hasActiveDiagnostic()) {
     getEvalStatus().Diag->insert(getEvalStatus().Diag->end(), Diags.begin(),
                                  Diags.end());
   }
 }

 DiagnosticBuilder State::report(SourceLocation Loc, diag::kind DiagId) {
   return getCtx().getDiagnostics().Report(Loc, DiagId);
 }

 /// Add a diagnostic to the diagnostics list.
 PartialDiagnostic &State::addDiag(SourceLocation Loc, diag::kind DiagId) {
   PartialDiagnostic PD(DiagId, getCtx().getDiagAllocator());
   getEvalStatus().Diag->push_back(std::make_pair(Loc, PD));
   return getEvalStatus().Diag->back().second;
 }

 OptionalDiagnostic State::diag(SourceLocation Loc, diag::kind DiagId,
                                unsigned ExtraNotes, bool IsCCEDiag) {
   Expr::EvalStatus &EvalStatus = getEvalStatus();
   if (EvalStatus.Diag) {
     if (hasPriorDiagnostic()) {
       return OptionalDiagnostic();
     }

     unsigned CallStackNotes = getCallStackDepth() - 1;
     unsigned Limit = getCtx().getDiagnostics().getConstexprBacktraceLimit();
     if (Limit)
       CallStackNotes = std::min(CallStackNotes, Limit + 1);
     if (checkingPotentialConstantExpression())
       CallStackNotes = 0;

     setActiveDiagnostic(true);
     setFoldFailureDiagnostic(!IsCCEDiag);
     EvalStatus.Diag->clear();
     EvalStatus.Diag->reserve(1 + ExtraNotes + CallStackNotes);
     addDiag(Loc, DiagId);
     if (!checkingPotentialConstantExpression()) {
       addCallStack(Limit);
     }
     return OptionalDiagnostic(&(*EvalStatus.Diag)[0].second);
   }
   setActiveDiagnostic(false);
   return OptionalDiagnostic();
 }

 const LangOptions &State::getLangOpts() const { return getCtx().getLangOpts(); }

 void State::addCallStack(unsigned Limit) {
   // Determine which calls to skip, if any.
   unsigned ActiveCalls = getCallStackDepth() - 1;
   unsigned SkipStart = ActiveCalls, SkipEnd = SkipStart;
   if (Limit && Limit < ActiveCalls) {
     SkipStart = Limit / 2 + Limit % 2;
     SkipEnd = ActiveCalls - Limit / 2;
   }

   // Walk the call stack and add the diagnostics.
   unsigned CallIdx = 0;
   Frame *Top = getCurrentFrame();
   const Frame *Bottom = getBottomFrame();
   for (Frame *F = Top; F != Bottom; F = F->getCaller(), ++CallIdx) {
     SourceLocation CallLocation = F->getCallLocation();

     // Skip this call?
     if (CallIdx >= SkipStart && CallIdx < SkipEnd) {
       if (CallIdx == SkipStart) {
         // Note that we're skipping calls.
         addDiag(CallLocation, diag::note_constexpr_calls_suppressed)
             << unsigned(ActiveCalls - Limit);
       }
       continue;
     }

     // Use a different note for an inheriting constructor, because from the
     // user's perspective it's not really a function at all.
     if (auto *CD = dyn_cast_or_null<CXXConstructorDecl>(F->getCallee())) {
       if (CD->isInheritingConstructor()) {
         addDiag(CallLocation, diag::note_constexpr_inherited_ctor_call_here)
             << CD->getParent();
         continue;
       }
     }

     SmallVector<char, 128> Buffer;
     llvm::raw_svector_ostream Out(Buffer);
     F->describe(Out);
     addDiag(CallLocation, diag::note_constexpr_call_here) << Out.str();
   }
 }
	//===--- State.cpp - State chain for the VM and AST Walker ------- C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#include "State.h"
	#include "Frame.h"
	#include "Program.h"
	#include "clang/AST/ASTContext.h"
	#include "clang/AST/CXXInheritance.h"

	using namespace clang;
	using namespace clang::interp;

	State::~State() {}

	OptionalDiagnostic State::FFDiag(SourceLocation Loc, diag::kind DiagId,
	unsigned ExtraNotes) {
	return diag(Loc, DiagId, ExtraNotes, false);
	}

	OptionalDiagnostic State::FFDiag(const Expr *E, diag::kind DiagId,
	unsigned ExtraNotes) {
	if (getEvalStatus().Diag)
	return diag(E->getExprLoc(), DiagId, ExtraNotes, false);
	setActiveDiagnostic(false);
	return OptionalDiagnostic();
	}

	OptionalDiagnostic State::FFDiag(const SourceInfo &SI, diag::kind DiagId,
	unsigned ExtraNotes) {
	if (getEvalStatus().Diag)
	return diag(SI.getLoc(), DiagId, ExtraNotes, false);
	setActiveDiagnostic(false);
	return OptionalDiagnostic();
	}

	OptionalDiagnostic State::CCEDiag(SourceLocation Loc, diag::kind DiagId,
	unsigned ExtraNotes) {
	// Don't override a previous diagnostic. Don't bother collecting
	// diagnostics if we're evaluating for overflow.
	if (!getEvalStatus().Diag \|\| !getEvalStatus().Diag->empty()) {
	setActiveDiagnostic(false);
	return OptionalDiagnostic();
	}
	return diag(Loc, DiagId, ExtraNotes, true);
	}

	OptionalDiagnostic State::CCEDiag(const Expr *E, diag::kind DiagId,
	unsigned ExtraNotes) {
	return CCEDiag(E->getExprLoc(), DiagId, ExtraNotes);
	}

	OptionalDiagnostic State::CCEDiag(const SourceInfo &SI, diag::kind DiagId,
	unsigned ExtraNotes) {
	return CCEDiag(SI.getLoc(), DiagId, ExtraNotes);
	}

	OptionalDiagnostic State::Note(SourceLocation Loc, diag::kind DiagId) {
	if (!hasActiveDiagnostic())
	return OptionalDiagnostic();
	return OptionalDiagnostic(&addDiag(Loc, DiagId));
	}

	void State::addNotes(ArrayRef<PartialDiagnosticAt> Diags) {
	if (hasActiveDiagnostic()) {
	getEvalStatus().Diag->insert(getEvalStatus().Diag->end(), Diags.begin(),
	Diags.end());
	}
	}

	DiagnosticBuilder State::report(SourceLocation Loc, diag::kind DiagId) {
	return getCtx().getDiagnostics().Report(Loc, DiagId);
	}

	/// Add a diagnostic to the diagnostics list.
	PartialDiagnostic &State::addDiag(SourceLocation Loc, diag::kind DiagId) {
	PartialDiagnostic PD(DiagId, getCtx().getDiagAllocator());
	getEvalStatus().Diag->push_back(std::make_pair(Loc, PD));
	return getEvalStatus().Diag->back().second;
	}

	OptionalDiagnostic State::diag(SourceLocation Loc, diag::kind DiagId,
	unsigned ExtraNotes, bool IsCCEDiag) {
	Expr::EvalStatus &EvalStatus = getEvalStatus();
	if (EvalStatus.Diag) {
	if (hasPriorDiagnostic()) {
	return OptionalDiagnostic();
	}

	unsigned CallStackNotes = getCallStackDepth() - 1;
	unsigned Limit = getCtx().getDiagnostics().getConstexprBacktraceLimit();
	if (Limit)
	CallStackNotes = std::min(CallStackNotes, Limit + 1);
	if (checkingPotentialConstantExpression())
	CallStackNotes = 0;

	setActiveDiagnostic(true);
	setFoldFailureDiagnostic(!IsCCEDiag);
	EvalStatus.Diag->clear();
	EvalStatus.Diag->reserve(1 + ExtraNotes + CallStackNotes);
	addDiag(Loc, DiagId);
	if (!checkingPotentialConstantExpression()) {
	addCallStack(Limit);
	}
	return OptionalDiagnostic(&(*EvalStatus.Diag)[0].second);
	}
	setActiveDiagnostic(false);
	return OptionalDiagnostic();
	}

	const LangOptions &State::getLangOpts() const { return getCtx().getLangOpts(); }

	void State::addCallStack(unsigned Limit) {
	// Determine which calls to skip, if any.
	unsigned ActiveCalls = getCallStackDepth() - 1;
	unsigned SkipStart = ActiveCalls, SkipEnd = SkipStart;
	if (Limit && Limit < ActiveCalls) {
	SkipStart = Limit / 2 + Limit % 2;
	SkipEnd = ActiveCalls - Limit / 2;
	}

	// Walk the call stack and add the diagnostics.
	unsigned CallIdx = 0;
	Frame *Top = getCurrentFrame();
	const Frame *Bottom = getBottomFrame();
	for (Frame *F = Top; F != Bottom; F = F->getCaller(), ++CallIdx) {
	SourceLocation CallLocation = F->getCallLocation();

	// Skip this call?
	if (CallIdx >= SkipStart && CallIdx < SkipEnd) {
	if (CallIdx == SkipStart) {
	// Note that we're skipping calls.
	addDiag(CallLocation, diag::note_constexpr_calls_suppressed)
	<< unsigned(ActiveCalls - Limit);
	}
	continue;
	}

	// Use a different note for an inheriting constructor, because from the
	// user's perspective it's not really a function at all.
	if (auto *CD = dyn_cast_or_null<CXXConstructorDecl>(F->getCallee())) {
	if (CD->isInheritingConstructor()) {
	addDiag(CallLocation, diag::note_constexpr_inherited_ctor_call_here)
	<< CD->getParent();
	continue;
	}
	}

	SmallVector<char, 128> Buffer;
	llvm::raw_svector_ostream Out(Buffer);
	F->describe(Out);
	addDiag(CallLocation, diag::note_constexpr_call_here) << Out.str();
	}
	}