1 //===--- ConstCorrectnessCheck.cpp - clang-tidy -----------------*- C++ -*-===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8
9 #include "ConstCorrectnessCheck.h"
10 #include "../utils/FixItHintUtils.h"
11 #include "clang/AST/ASTContext.h"
12 #include "clang/ASTMatchers/ASTMatchFinder.h"
13 #include "clang/ASTMatchers/ASTMatchers.h"
14
15 using namespace clang::ast_matchers;
16
17 namespace clang {
18 namespace tidy {
19 namespace misc {
20
21 namespace {
22 // FIXME: This matcher exists in some other code-review as well.
23 // It should probably move to ASTMatchers.
AST_MATCHER(VarDecl,isLocal)24 AST_MATCHER(VarDecl, isLocal) { return Node.isLocalVarDecl(); }
AST_MATCHER_P(DeclStmt,containsAnyDeclaration,ast_matchers::internal::Matcher<Decl>,InnerMatcher)25 AST_MATCHER_P(DeclStmt, containsAnyDeclaration,
26 ast_matchers::internal::Matcher<Decl>, InnerMatcher) {
27 return ast_matchers::internal::matchesFirstInPointerRange(
28 InnerMatcher, Node.decl_begin(), Node.decl_end(), Finder,
29 Builder) != Node.decl_end();
30 }
AST_MATCHER(ReferenceType,isSpelledAsLValue)31 AST_MATCHER(ReferenceType, isSpelledAsLValue) {
32 return Node.isSpelledAsLValue();
33 }
AST_MATCHER(Type,isDependentType)34 AST_MATCHER(Type, isDependentType) { return Node.isDependentType(); }
35 } // namespace
36
ConstCorrectnessCheck(StringRef Name,ClangTidyContext * Context)37 ConstCorrectnessCheck::ConstCorrectnessCheck(StringRef Name,
38 ClangTidyContext *Context)
39 : ClangTidyCheck(Name, Context),
40 AnalyzeValues(Options.get("AnalyzeValues", true)),
41 AnalyzeReferences(Options.get("AnalyzeReferences", true)),
42 WarnPointersAsValues(Options.get("WarnPointersAsValues", false)),
43 TransformValues(Options.get("TransformValues", true)),
44 TransformReferences(Options.get("TransformReferences", true)),
45 TransformPointersAsValues(
46 Options.get("TransformPointersAsValues", false)) {
47 if (AnalyzeValues == false && AnalyzeReferences == false)
48 this->configurationDiag(
49 "The check 'misc-const-correctness' will not "
50 "perform any analysis because both 'AnalyzeValues' and "
51 "'AnalyzeReferences' are false.");
52 }
53
storeOptions(ClangTidyOptions::OptionMap & Opts)54 void ConstCorrectnessCheck::storeOptions(ClangTidyOptions::OptionMap &Opts) {
55 Options.store(Opts, "AnalyzeValues", AnalyzeValues);
56 Options.store(Opts, "AnalyzeReferences", AnalyzeReferences);
57 Options.store(Opts, "WarnPointersAsValues", WarnPointersAsValues);
58
59 Options.store(Opts, "TransformValues", TransformValues);
60 Options.store(Opts, "TransformReferences", TransformReferences);
61 Options.store(Opts, "TransformPointersAsValues", TransformPointersAsValues);
62 }
63
registerMatchers(MatchFinder * Finder)64 void ConstCorrectnessCheck::registerMatchers(MatchFinder *Finder) {
65 const auto ConstType = hasType(isConstQualified());
66 const auto ConstReference = hasType(references(isConstQualified()));
67 const auto RValueReference = hasType(
68 referenceType(anyOf(rValueReferenceType(), unless(isSpelledAsLValue()))));
69
70 const auto TemplateType = anyOf(
71 hasType(hasCanonicalType(templateTypeParmType())),
72 hasType(substTemplateTypeParmType()), hasType(isDependentType()),
73 // References to template types, their substitutions or typedefs to
74 // template types need to be considered as well.
75 hasType(referenceType(pointee(hasCanonicalType(templateTypeParmType())))),
76 hasType(referenceType(pointee(substTemplateTypeParmType()))));
77
78 const auto AutoTemplateType = varDecl(
79 anyOf(hasType(autoType()), hasType(referenceType(pointee(autoType()))),
80 hasType(pointerType(pointee(autoType())))));
81
82 const auto FunctionPointerRef =
83 hasType(hasCanonicalType(referenceType(pointee(functionType()))));
84
85 // Match local variables which could be 'const' if not modified later.
86 // Example: `int i = 10` would match `int i`.
87 const auto LocalValDecl = varDecl(
88 allOf(isLocal(), hasInitializer(anything()),
89 unless(anyOf(ConstType, ConstReference, TemplateType,
90 hasInitializer(isInstantiationDependent()),
91 AutoTemplateType, RValueReference, FunctionPointerRef,
92 hasType(cxxRecordDecl(isLambda())), isImplicit()))));
93
94 // Match the function scope for which the analysis of all local variables
95 // shall be run.
96 const auto FunctionScope =
97 functionDecl(
98 hasBody(
99 compoundStmt(forEachDescendant(
100 declStmt(containsAnyDeclaration(
101 LocalValDecl.bind("local-value")),
102 unless(has(decompositionDecl())))
103 .bind("decl-stmt")))
104 .bind("scope")))
105 .bind("function-decl");
106
107 Finder->addMatcher(FunctionScope, this);
108 }
109
110 /// Classify for a variable in what the Const-Check is interested.
111 enum class VariableCategory { Value, Reference, Pointer };
112
check(const MatchFinder::MatchResult & Result)113 void ConstCorrectnessCheck::check(const MatchFinder::MatchResult &Result) {
114 const auto *LocalScope = Result.Nodes.getNodeAs<CompoundStmt>("scope");
115 const auto *Variable = Result.Nodes.getNodeAs<VarDecl>("local-value");
116 const auto *Function = Result.Nodes.getNodeAs<FunctionDecl>("function-decl");
117
118 /// If the variable was declared in a template it might be analyzed multiple
119 /// times. Only one of those instantiations shall emit a warning. NOTE: This
120 /// shall only deduplicate warnings for variables that are not instantiation
121 /// dependent. Variables like 'int x = 42;' in a template that can become
122 /// const emit multiple warnings otherwise.
123 bool IsNormalVariableInTemplate = Function->isTemplateInstantiation();
124 if (IsNormalVariableInTemplate &&
125 TemplateDiagnosticsCache.contains(Variable->getBeginLoc()))
126 return;
127
128 VariableCategory VC = VariableCategory::Value;
129 if (Variable->getType()->isReferenceType())
130 VC = VariableCategory::Reference;
131 if (Variable->getType()->isPointerType())
132 VC = VariableCategory::Pointer;
133 if (Variable->getType()->isArrayType()) {
134 if (const auto *ArrayT = dyn_cast<ArrayType>(Variable->getType())) {
135 if (ArrayT->getElementType()->isPointerType())
136 VC = VariableCategory::Pointer;
137 }
138 }
139
140 // Each variable can only be in one category: Value, Pointer, Reference.
141 // Analysis can be controlled for every category.
142 if (VC == VariableCategory::Reference && !AnalyzeReferences)
143 return;
144
145 if (VC == VariableCategory::Reference &&
146 Variable->getType()->getPointeeType()->isPointerType() &&
147 !WarnPointersAsValues)
148 return;
149
150 if (VC == VariableCategory::Pointer && !WarnPointersAsValues)
151 return;
152
153 if (VC == VariableCategory::Value && !AnalyzeValues)
154 return;
155
156 // The scope is only registered if the analysis shall be run.
157 registerScope(LocalScope, Result.Context);
158
159 // Offload const-analysis to utility function.
160 if (ScopesCache[LocalScope]->isMutated(Variable))
161 return;
162
163 auto Diag = diag(Variable->getBeginLoc(),
164 "variable %0 of type %1 can be declared 'const'")
165 << Variable << Variable->getType();
166 if (IsNormalVariableInTemplate)
167 TemplateDiagnosticsCache.insert(Variable->getBeginLoc());
168
169 const auto *VarDeclStmt = Result.Nodes.getNodeAs<DeclStmt>("decl-stmt");
170
171 // It can not be guaranteed that the variable is declared isolated, therefore
172 // a transformation might effect the other variables as well and be incorrect.
173 if (VarDeclStmt == nullptr || !VarDeclStmt->isSingleDecl())
174 return;
175
176 using namespace utils::fixit;
177 if (VC == VariableCategory::Value && TransformValues) {
178 Diag << addQualifierToVarDecl(*Variable, *Result.Context,
179 DeclSpec::TQ_const, QualifierTarget::Value,
180 QualifierPolicy::Right);
181 // FIXME: Add '{}' for default initialization if no user-defined default
182 // constructor exists and there is no initializer.
183 return;
184 }
185
186 if (VC == VariableCategory::Reference && TransformReferences) {
187 Diag << addQualifierToVarDecl(*Variable, *Result.Context,
188 DeclSpec::TQ_const, QualifierTarget::Value,
189 QualifierPolicy::Right);
190 return;
191 }
192
193 if (VC == VariableCategory::Pointer) {
194 if (WarnPointersAsValues && TransformPointersAsValues) {
195 Diag << addQualifierToVarDecl(*Variable, *Result.Context,
196 DeclSpec::TQ_const, QualifierTarget::Value,
197 QualifierPolicy::Right);
198 }
199 return;
200 }
201 }
202
registerScope(const CompoundStmt * LocalScope,ASTContext * Context)203 void ConstCorrectnessCheck::registerScope(const CompoundStmt *LocalScope,
204 ASTContext *Context) {
205 auto &Analyzer = ScopesCache[LocalScope];
206 if (!Analyzer)
207 Analyzer = std::make_unique<ExprMutationAnalyzer>(*LocalScope, *Context);
208 }
209
210 } // namespace misc
211 } // namespace tidy
212 } // namespace clang
213