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//===--- TypoCorrection.h - Class for typo correction results ---*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file defines the TypoCorrection class, which stores the results of
// Sema's typo correction (Sema::CorrectTypo).
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_CLANG_SEMA_TYPOCORRECTION_H
#define LLVM_CLANG_SEMA_TYPOCORRECTION_H
#include "clang/AST/DeclCXX.h"
#include "clang/Sema/DeclSpec.h"
#include "llvm/ADT/SmallVector.h"
namespace clang {
/// @brief Simple class containing the result of Sema::CorrectTypo
class TypoCorrection {
public:
// "Distance" for unusable corrections
static const unsigned InvalidDistance = ~0U;
// The largest distance still considered valid (larger edit distances are
// mapped to InvalidDistance by getEditDistance).
static const unsigned MaximumDistance = 10000U;
// Relative weightings of the "edit distance" components. The higher the
// weight, the more of a penalty to fitness the component will give (higher
// weights mean greater contribution to the total edit distance, with the
// best correction candidates having the lowest edit distance).
static const unsigned CharDistanceWeight = 100U;
static const unsigned QualifierDistanceWeight = 110U;
static const unsigned CallbackDistanceWeight = 150U;
TypoCorrection(const DeclarationName &Name, NamedDecl *NameDecl,
NestedNameSpecifier *NNS = 0, unsigned CharDistance = 0,
unsigned QualifierDistance = 0)
: CorrectionName(Name), CorrectionNameSpec(NNS),
CharDistance(CharDistance), QualifierDistance(QualifierDistance),
CallbackDistance(0), ForceSpecifierReplacement(false),
RequiresImport(false) {
if (NameDecl)
CorrectionDecls.push_back(NameDecl);
}
TypoCorrection(NamedDecl *Name, NestedNameSpecifier *NNS = 0,
unsigned CharDistance = 0)
: CorrectionName(Name->getDeclName()), CorrectionNameSpec(NNS),
CharDistance(CharDistance), QualifierDistance(0), CallbackDistance(0),
ForceSpecifierReplacement(false), RequiresImport(false) {
if (Name)
CorrectionDecls.push_back(Name);
}
TypoCorrection(DeclarationName Name, NestedNameSpecifier *NNS = 0,
unsigned CharDistance = 0)
: CorrectionName(Name), CorrectionNameSpec(NNS),
CharDistance(CharDistance), QualifierDistance(0), CallbackDistance(0),
ForceSpecifierReplacement(false), RequiresImport(false) {}
TypoCorrection()
: CorrectionNameSpec(0), CharDistance(0), QualifierDistance(0),
CallbackDistance(0), ForceSpecifierReplacement(false),
RequiresImport(false) {}
/// \brief Gets the DeclarationName of the typo correction
DeclarationName getCorrection() const { return CorrectionName; }
IdentifierInfo* getCorrectionAsIdentifierInfo() const {
return CorrectionName.getAsIdentifierInfo();
}
/// \brief Gets the NestedNameSpecifier needed to use the typo correction
NestedNameSpecifier* getCorrectionSpecifier() const {
return CorrectionNameSpec;
}
void setCorrectionSpecifier(NestedNameSpecifier* NNS) {
CorrectionNameSpec = NNS;
ForceSpecifierReplacement = (NNS != 0);
}
void WillReplaceSpecifier(bool ForceReplacement) {
ForceSpecifierReplacement = ForceReplacement;
}
bool WillReplaceSpecifier() const {
return ForceSpecifierReplacement;
}
void setQualifierDistance(unsigned ED) {
QualifierDistance = ED;
}
void setCallbackDistance(unsigned ED) {
CallbackDistance = ED;
}
// Convert the given weighted edit distance to a roughly equivalent number of
// single-character edits (typically for comparison to the length of the
// string being edited).
static unsigned NormalizeEditDistance(unsigned ED) {
if (ED > MaximumDistance)
return InvalidDistance;
return (ED + CharDistanceWeight / 2) / CharDistanceWeight;
}
/// \brief Gets the "edit distance" of the typo correction from the typo.
/// If Normalized is true, scale the distance down by the CharDistanceWeight
/// to return the edit distance in terms of single-character edits.
unsigned getEditDistance(bool Normalized = true) const {
if (CharDistance > MaximumDistance || QualifierDistance > MaximumDistance ||
CallbackDistance > MaximumDistance)
return InvalidDistance;
unsigned ED =
CharDistance * CharDistanceWeight +
QualifierDistance * QualifierDistanceWeight +
CallbackDistance * CallbackDistanceWeight;
if (ED > MaximumDistance)
return InvalidDistance;
// Half the CharDistanceWeight is added to ED to simulate rounding since
// integer division truncates the value (i.e. round-to-nearest-int instead
// of round-to-zero).
return Normalized ? NormalizeEditDistance(ED) : ED;
}
/// \brief Gets the pointer to the declaration of the typo correction
NamedDecl *getCorrectionDecl() const {
return hasCorrectionDecl() ? *(CorrectionDecls.begin()) : 0;
}
template <class DeclClass>
DeclClass *getCorrectionDeclAs() const {
return dyn_cast_or_null<DeclClass>(getCorrectionDecl());
}
/// \brief Clears the list of NamedDecls.
void ClearCorrectionDecls() {
CorrectionDecls.clear();
}
/// \brief Clears the list of NamedDecls before adding the new one.
void setCorrectionDecl(NamedDecl *CDecl) {
CorrectionDecls.clear();
addCorrectionDecl(CDecl);
}
/// \brief Clears the list of NamedDecls and adds the given set.
void setCorrectionDecls(ArrayRef<NamedDecl*> Decls) {
CorrectionDecls.clear();
CorrectionDecls.insert(CorrectionDecls.begin(), Decls.begin(), Decls.end());
}
/// \brief Add the given NamedDecl to the list of NamedDecls that are the
/// declarations associated with the DeclarationName of this TypoCorrection
void addCorrectionDecl(NamedDecl *CDecl);
std::string getAsString(const LangOptions &LO) const;
std::string getQuoted(const LangOptions &LO) const {
return "'" + getAsString(LO) + "'";
}
/// \brief Returns whether this TypoCorrection has a non-empty DeclarationName
LLVM_EXPLICIT operator bool() const { return bool(CorrectionName); }
/// \brief Mark this TypoCorrection as being a keyword.
/// Since addCorrectionDeclsand setCorrectionDecl don't allow NULL to be
/// added to the list of the correction's NamedDecl pointers, NULL is added
/// as the only element in the list to mark this TypoCorrection as a keyword.
void makeKeyword() {
CorrectionDecls.clear();
CorrectionDecls.push_back(0);
ForceSpecifierReplacement = true;
}
// Check if this TypoCorrection is a keyword by checking if the first
// item in CorrectionDecls is NULL.
bool isKeyword() const {
return !CorrectionDecls.empty() &&
CorrectionDecls.front() == 0;
}
// Check if this TypoCorrection is the given keyword.
template<std::size_t StrLen>
bool isKeyword(const char (&Str)[StrLen]) const {
return isKeyword() && getCorrectionAsIdentifierInfo()->isStr(Str);
}
// Returns true if the correction either is a keyword or has a known decl.
bool isResolved() const { return !CorrectionDecls.empty(); }
bool isOverloaded() const {
return CorrectionDecls.size() > 1;
}
void setCorrectionRange(CXXScopeSpec *SS,
const DeclarationNameInfo &TypoName) {
CorrectionRange.setBegin(ForceSpecifierReplacement && SS && !SS->isEmpty()
? SS->getBeginLoc()
: TypoName.getLoc());
CorrectionRange.setEnd(TypoName.getLoc());
}
SourceRange getCorrectionRange() const {
return CorrectionRange;
}
typedef SmallVectorImpl<NamedDecl *>::iterator decl_iterator;
decl_iterator begin() {
return isKeyword() ? CorrectionDecls.end() : CorrectionDecls.begin();
}
decl_iterator end() { return CorrectionDecls.end(); }
typedef SmallVectorImpl<NamedDecl *>::const_iterator const_decl_iterator;
const_decl_iterator begin() const {
return isKeyword() ? CorrectionDecls.end() : CorrectionDecls.begin();
}
const_decl_iterator end() const { return CorrectionDecls.end(); }
/// \brief Returns whether this typo correction is correcting to a
/// declaration that was declared in a module that has not been imported.
bool requiresImport() const { return RequiresImport; }
void setRequiresImport(bool Req) { RequiresImport = Req; }
private:
bool hasCorrectionDecl() const {
return (!isKeyword() && !CorrectionDecls.empty());
}
// Results.
DeclarationName CorrectionName;
NestedNameSpecifier *CorrectionNameSpec;
SmallVector<NamedDecl *, 1> CorrectionDecls;
unsigned CharDistance;
unsigned QualifierDistance;
unsigned CallbackDistance;
SourceRange CorrectionRange;
bool ForceSpecifierReplacement;
bool RequiresImport;
};
/// @brief Base class for callback objects used by Sema::CorrectTypo to check
/// the validity of a potential typo correction.
class CorrectionCandidateCallback {
public:
static const unsigned InvalidDistance = TypoCorrection::InvalidDistance;
CorrectionCandidateCallback()
: WantTypeSpecifiers(true), WantExpressionKeywords(true),
WantCXXNamedCasts(true), WantRemainingKeywords(true),
WantObjCSuper(false),
IsObjCIvarLookup(false) {}
virtual ~CorrectionCandidateCallback() {}
/// \brief Simple predicate used by the default RankCandidate to
/// determine whether to return an edit distance of 0 or InvalidDistance.
/// This can be overrided by validators that only need to determine if a
/// candidate is viable, without ranking potentially viable candidates.
/// Only ValidateCandidate or RankCandidate need to be overriden by a
/// callback wishing to check the viability of correction candidates.
/// The default predicate always returns true if the candidate is not a type
/// name or keyword, true for types if WantTypeSpecifiers is true, and true
/// for keywords if WantTypeSpecifiers, WantExpressionKeywords,
/// WantCXXNamedCasts, WantRemainingKeywords, or WantObjCSuper is true.
virtual bool ValidateCandidate(const TypoCorrection &candidate);
/// \brief Method used by Sema::CorrectTypo to assign an "edit distance" rank
/// to a candidate (where a lower value represents a better candidate), or
/// returning InvalidDistance if the candidate is not at all viable. For
/// validation callbacks that only need to determine if a candidate is viable,
/// the default RankCandidate returns either 0 or InvalidDistance depending
/// whether ValidateCandidate returns true or false.
virtual unsigned RankCandidate(const TypoCorrection &candidate) {
return ValidateCandidate(candidate) ? 0 : InvalidDistance;
}
// Flags for context-dependent keywords.
// TODO: Expand these to apply to non-keywords or possibly remove them.
bool WantTypeSpecifiers;
bool WantExpressionKeywords;
bool WantCXXNamedCasts;
bool WantRemainingKeywords;
bool WantObjCSuper;
// Temporary hack for the one case where a CorrectTypoContext enum is used
// when looking up results.
bool IsObjCIvarLookup;
};
/// @brief Simple template class for restricting typo correction candidates
/// to ones having a single Decl* of the given type.
template <class C>
class DeclFilterCCC : public CorrectionCandidateCallback {
public:
bool ValidateCandidate(const TypoCorrection &candidate) override {
return candidate.getCorrectionDeclAs<C>();
}
};
// @brief Callback class to limit the allowed keywords and to only accept typo
// corrections that are keywords or whose decls refer to functions (or template
// functions) that accept the given number of arguments.
class FunctionCallFilterCCC : public CorrectionCandidateCallback {
public:
FunctionCallFilterCCC(Sema &SemaRef, unsigned NumArgs,
bool HasExplicitTemplateArgs,
bool AllowNonStaticMethods = true);
bool ValidateCandidate(const TypoCorrection &candidate) override;
private:
unsigned NumArgs;
bool HasExplicitTemplateArgs;
bool AllowNonStaticMethods;
DeclContext *CurContext;
};
// @brief Callback class that effectively disabled typo correction
class NoTypoCorrectionCCC : public CorrectionCandidateCallback {
public:
NoTypoCorrectionCCC() {
WantTypeSpecifiers = false;
WantExpressionKeywords = false;
WantCXXNamedCasts = false;
WantRemainingKeywords = false;
}
bool ValidateCandidate(const TypoCorrection &candidate) override {
return false;
}
};
}
#endif