xref: /freebsd/contrib/llvm-project/clang/lib/Analysis/FlowSensitive/AdornedCFG.cpp (revision 0fca6ea1d4eea4c934cfff25ac9ee8ad6fe95583)
1 //===- AdornedCFG.cpp ---------------------------------------------===//
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 //  This file defines an `AdornedCFG` class that is used by dataflow analyses
10 //  that run over Control-Flow Graphs (CFGs).
11 //
12 //===----------------------------------------------------------------------===//
13 
14 #include "clang/Analysis/FlowSensitive/AdornedCFG.h"
15 #include "clang/AST/ASTContext.h"
16 #include "clang/AST/Decl.h"
17 #include "clang/AST/Stmt.h"
18 #include "clang/Analysis/CFG.h"
19 #include "llvm/ADT/BitVector.h"
20 #include "llvm/ADT/DenseMap.h"
21 #include "llvm/Support/Error.h"
22 #include <utility>
23 
24 namespace clang {
25 namespace dataflow {
26 
27 /// Returns a map from statements to basic blocks that contain them.
28 static llvm::DenseMap<const Stmt *, const CFGBlock *>
buildStmtToBasicBlockMap(const CFG & Cfg)29 buildStmtToBasicBlockMap(const CFG &Cfg) {
30   llvm::DenseMap<const Stmt *, const CFGBlock *> StmtToBlock;
31   for (const CFGBlock *Block : Cfg) {
32     if (Block == nullptr)
33       continue;
34 
35     for (const CFGElement &Element : *Block) {
36       auto Stmt = Element.getAs<CFGStmt>();
37       if (!Stmt)
38         continue;
39 
40       StmtToBlock[Stmt->getStmt()] = Block;
41     }
42   }
43   // Some terminator conditions don't appear as a `CFGElement` anywhere else -
44   // for example, this is true if the terminator condition is a `&&` or `||`
45   // operator.
46   // We associate these conditions with the block the terminator appears in,
47   // but only if the condition has not already appeared as a regular
48   // `CFGElement`. (The `insert()` below does nothing if the key already exists
49   // in the map.)
50   for (const CFGBlock *Block : Cfg) {
51     if (Block != nullptr)
52       if (const Stmt *TerminatorCond = Block->getTerminatorCondition())
53         StmtToBlock.insert({TerminatorCond, Block});
54   }
55   // Terminator statements typically don't appear as a `CFGElement` anywhere
56   // else, so we want to associate them with the block that they terminate.
57   // However, there are some important special cases:
58   // -  The conditional operator is a type of terminator, but it also appears
59   //    as a regular `CFGElement`, and we want to associate it with the block
60   //    in which it appears as a `CFGElement`.
61   // -  The `&&` and `||` operators are types of terminators, but like the
62   //    conditional operator, they can appear as a regular `CFGElement` or
63   //    as a terminator condition (see above).
64   // We process terminators last to make sure that we only associate them with
65   // the block they terminate if they haven't previously occurred as a regular
66   // `CFGElement` or as a terminator condition.
67   for (const CFGBlock *Block : Cfg) {
68     if (Block != nullptr)
69       if (const Stmt *TerminatorStmt = Block->getTerminatorStmt())
70         StmtToBlock.insert({TerminatorStmt, Block});
71   }
72   return StmtToBlock;
73 }
74 
findReachableBlocks(const CFG & Cfg)75 static llvm::BitVector findReachableBlocks(const CFG &Cfg) {
76   llvm::BitVector BlockReachable(Cfg.getNumBlockIDs(), false);
77 
78   llvm::SmallVector<const CFGBlock *> BlocksToVisit;
79   BlocksToVisit.push_back(&Cfg.getEntry());
80   while (!BlocksToVisit.empty()) {
81     const CFGBlock *Block = BlocksToVisit.back();
82     BlocksToVisit.pop_back();
83 
84     if (BlockReachable[Block->getBlockID()])
85       continue;
86 
87     BlockReachable[Block->getBlockID()] = true;
88 
89     for (const CFGBlock *Succ : Block->succs())
90       if (Succ)
91         BlocksToVisit.push_back(Succ);
92   }
93 
94   return BlockReachable;
95 }
96 
97 static llvm::DenseSet<const CFGBlock *>
buildContainsExprConsumedInDifferentBlock(const CFG & Cfg,const llvm::DenseMap<const Stmt *,const CFGBlock * > & StmtToBlock)98 buildContainsExprConsumedInDifferentBlock(
99     const CFG &Cfg,
100     const llvm::DenseMap<const Stmt *, const CFGBlock *> &StmtToBlock) {
101   llvm::DenseSet<const CFGBlock *> Result;
102 
103   auto CheckChildExprs = [&Result, &StmtToBlock](const Stmt *S,
104                                                  const CFGBlock *Block) {
105     for (const Stmt *Child : S->children()) {
106       if (!isa_and_nonnull<Expr>(Child))
107         continue;
108       const CFGBlock *ChildBlock = StmtToBlock.lookup(Child);
109       if (ChildBlock != Block)
110         Result.insert(ChildBlock);
111     }
112   };
113 
114   for (const CFGBlock *Block : Cfg) {
115     if (Block == nullptr)
116       continue;
117 
118     for (const CFGElement &Element : *Block)
119       if (auto S = Element.getAs<CFGStmt>())
120         CheckChildExprs(S->getStmt(), Block);
121 
122     if (const Stmt *TerminatorCond = Block->getTerminatorCondition())
123       CheckChildExprs(TerminatorCond, Block);
124   }
125 
126   return Result;
127 }
128 
build(const FunctionDecl & Func)129 llvm::Expected<AdornedCFG> AdornedCFG::build(const FunctionDecl &Func) {
130   if (!Func.doesThisDeclarationHaveABody())
131     return llvm::createStringError(
132         std::make_error_code(std::errc::invalid_argument),
133         "Cannot analyze function without a body");
134 
135   return build(Func, *Func.getBody(), Func.getASTContext());
136 }
137 
build(const Decl & D,Stmt & S,ASTContext & C)138 llvm::Expected<AdornedCFG> AdornedCFG::build(const Decl &D, Stmt &S,
139                                              ASTContext &C) {
140   if (D.isTemplated())
141     return llvm::createStringError(
142         std::make_error_code(std::errc::invalid_argument),
143         "Cannot analyze templated declarations");
144 
145   // The shape of certain elements of the AST can vary depending on the
146   // language. We currently only support C++.
147   if (!C.getLangOpts().CPlusPlus || C.getLangOpts().ObjC)
148     return llvm::createStringError(
149         std::make_error_code(std::errc::invalid_argument),
150         "Can only analyze C++");
151 
152   CFG::BuildOptions Options;
153   Options.PruneTriviallyFalseEdges = true;
154   Options.AddImplicitDtors = true;
155   Options.AddTemporaryDtors = true;
156   Options.AddInitializers = true;
157   Options.AddCXXDefaultInitExprInCtors = true;
158   Options.AddLifetime = true;
159 
160   // Ensure that all sub-expressions in basic blocks are evaluated.
161   Options.setAllAlwaysAdd();
162 
163   auto Cfg = CFG::buildCFG(&D, &S, &C, Options);
164   if (Cfg == nullptr)
165     return llvm::createStringError(
166         std::make_error_code(std::errc::invalid_argument),
167         "CFG::buildCFG failed");
168 
169   llvm::DenseMap<const Stmt *, const CFGBlock *> StmtToBlock =
170       buildStmtToBasicBlockMap(*Cfg);
171 
172   llvm::BitVector BlockReachable = findReachableBlocks(*Cfg);
173 
174   llvm::DenseSet<const CFGBlock *> ContainsExprConsumedInDifferentBlock =
175       buildContainsExprConsumedInDifferentBlock(*Cfg, StmtToBlock);
176 
177   return AdornedCFG(D, std::move(Cfg), std::move(StmtToBlock),
178                     std::move(BlockReachable),
179                     std::move(ContainsExprConsumedInDifferentBlock));
180 }
181 
182 } // namespace dataflow
183 } // namespace clang
184