cppcheck/lib/reverseanalyzer.cpp

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#include "reverseanalyzer.h"
#include "analyzer.h"
#include "astutils.h"
#include "forwardanalyzer.h"
#include "settings.h"
#include "symboldatabase.h"
#include "token.h"
#include "valueptr.h"
#include <algorithm>
#include <functional>
struct ReverseTraversal {
ReverseTraversal(const ValuePtr<Analyzer>& analyzer, const Settings* settings)
: analyzer(analyzer), settings(settings)
{}
ValuePtr<Analyzer> analyzer;
const Settings* settings;
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std::pair<bool, bool> evalCond(const Token* tok) {
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std::vector<int> result = analyzer->evaluate(tok);
// TODO: We should convert to bool
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bool checkThen = std::any_of(result.begin(), result.end(), [](int x) {
return x == 1;
});
bool checkElse = std::any_of(result.begin(), result.end(), [](int x) {
return x == 0;
});
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return std::make_pair(checkThen, checkElse);
}
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bool update(Token* tok) {
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Analyzer::Action action = analyzer->analyze(tok, Analyzer::Direction::Reverse);
if (!action.isNone())
analyzer->update(tok, action, Analyzer::Direction::Reverse);
if (action.isInconclusive() && !analyzer->lowerToInconclusive())
return false;
if (action.isInvalid())
return false;
return true;
}
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bool updateRecursive(Token* start) {
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bool continueB = true;
visitAstNodes(start, [&](Token* tok) {
continueB &= update(tok);
if (continueB)
return ChildrenToVisit::op1_and_op2;
else
return ChildrenToVisit::done;
});
return continueB;
}
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Analyzer::Action analyzeRecursive(const Token* start) {
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Analyzer::Action result = Analyzer::Action::None;
visitAstNodes(start, [&](const Token* tok) {
result |= analyzer->analyze(tok, Analyzer::Direction::Reverse);
if (result.isModified())
return ChildrenToVisit::done;
return ChildrenToVisit::op1_and_op2;
});
return result;
}
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Analyzer::Action analyzeRange(const Token* start, const Token* end) {
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Analyzer::Action result = Analyzer::Action::None;
for (const Token* tok = start; tok && tok != end; tok = tok->next()) {
Analyzer::Action action = analyzer->analyze(tok, Analyzer::Direction::Reverse);
if (action.isModified())
return action;
result |= action;
}
return result;
}
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Token* isDeadCode(Token* tok) {
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int opSide = 0;
for (; tok && tok->astParent(); tok = tok->astParent()) {
Token* parent = tok->astParent();
if (tok != parent->astOperand2())
continue;
if (Token::simpleMatch(parent, ":")) {
if (astIsLHS(tok))
opSide = 1;
else if (astIsRHS(tok))
opSide = 2;
else
opSide = 0;
}
if (!Token::Match(parent, "%oror%|&&|?"))
continue;
Token* condTok = parent->astOperand1();
if (!condTok)
continue;
bool checkThen, checkElse;
std::tie(checkThen, checkElse) = evalCond(condTok);
if (!checkThen && !checkElse) {
Analyzer::Action action = analyzeRecursive(condTok);
if (action.isRead() || action.isModified())
return parent;
}
if (parent->str() == "?") {
if (!checkElse && opSide == 1)
return parent;
if (!checkThen && opSide == 2)
return parent;
}
if (!checkThen && parent->str() == "&&")
return parent;
if (!checkElse && parent->str() == "||")
return parent;
}
return nullptr;
}
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void traverse(Token* start) {
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for (Token* tok = start->previous(); tok; tok = tok->previous()) {
if (tok == start || (tok->str() == "{" && (tok->scope()->type == Scope::ScopeType::eFunction ||
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tok->scope()->type == Scope::ScopeType::eLambda))) {
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break;
}
if (Token::Match(tok, "return|break|continue"))
break;
// Evaluate LHS of assignment before RHS
if (Token* assignTok = assignExpr(tok)) {
Token* assignTop = assignTok;
bool continueB = true;
while (assignTop->isAssignmentOp()) {
if (!Token::Match(assignTop->astOperand1(), "%assign%")) {
continueB &= updateRecursive(assignTop->astOperand1());
}
if (!assignTop->astParent())
break;
assignTop = assignTop->astParent();
}
// Is assignment in dead code
if (Token* parent = isDeadCode(assignTok)) {
tok = parent;
continue;
}
// Simple assign
if (assignTok->astParent() == assignTop || assignTok == assignTop) {
Analyzer::Action rhsAction =
analyzer->analyze(assignTok->astOperand2(), Analyzer::Direction::Reverse);
Analyzer::Action lhsAction =
analyzer->analyze(assignTok->astOperand1(), Analyzer::Direction::Reverse);
// Assignment from
if (rhsAction.isRead()) {
const std::string info = "Assignment from '" + assignTok->expressionString() + "'";
ValuePtr<Analyzer> a = analyzer->reanalyze(assignTok->astOperand1(), info);
if (a) {
valueFlowGenericForward(nextAfterAstRightmostLeaf(assignTok->astOperand2()),
assignTok->astOperand2()->scope()->bodyEnd,
a,
settings);
}
// Assignment to
} else if (lhsAction.matches()) {
const std::string info = "Assignment to '" + assignTok->expressionString() + "'";
ValuePtr<Analyzer> a = analyzer->reanalyze(assignTok->astOperand2(), info);
if (a) {
valueFlowGenericForward(nextAfterAstRightmostLeaf(assignTok->astOperand2()),
assignTok->astOperand2()->scope()->bodyEnd,
a,
settings);
valueFlowGenericReverse(assignTok->astOperand1()->previous(), a, settings);
}
}
}
if (!continueB)
break;
valueFlowGenericForward(assignTop->astOperand2(), analyzer, settings);
tok = previousBeforeAstLeftmostLeaf(assignTop);
continue;
}
if (tok->str() == "}") {
Token* condTok = getCondTokFromEnd(tok);
if (!condTok)
break;
Analyzer::Action condAction = analyzeRecursive(condTok);
const bool inLoop = condTok->astTop() && Token::Match(condTok->astTop()->previous(), "for|while (");
// Evaluate condition of for and while loops first
if (inLoop) {
if (condAction.isModified())
break;
valueFlowGenericForward(condTok, analyzer, settings);
}
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Token* thenEnd;
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const bool hasElse = Token::simpleMatch(tok->link()->tokAt(-2), "} else {");
if (hasElse) {
thenEnd = tok->link()->tokAt(-2);
} else {
thenEnd = tok;
}
Analyzer::Action thenAction = analyzeRange(thenEnd->link(), thenEnd);
Analyzer::Action elseAction = Analyzer::Action::None;
if (hasElse) {
elseAction = analyzeRange(tok->link(), tok);
}
if (thenAction.isModified() && inLoop)
break;
else if (thenAction.isModified() && !elseAction.isModified())
analyzer->assume(condTok, hasElse, condTok);
else if (elseAction.isModified() && !thenAction.isModified())
analyzer->assume(condTok, !hasElse, condTok);
// Bail if one of the branches are read to avoid FPs due to over constraints
else if (thenAction.isIdempotent() || elseAction.isIdempotent() || thenAction.isRead() ||
elseAction.isRead())
break;
if (thenAction.isInvalid() || elseAction.isInvalid())
break;
if (!thenAction.isModified() && !elseAction.isModified())
valueFlowGenericForward(condTok, analyzer, settings);
else if (condAction.isRead())
break;
// If the condition modifies the variable then bail
if (condAction.isModified())
break;
tok = condTok->astTop()->previous();
continue;
}
if (tok->str() == "{") {
if (tok->previous() &&
(Token::simpleMatch(tok->previous(), "do") ||
(tok->strAt(-1) == ")" && Token::Match(tok->linkAt(-1)->previous(), "for|while (")))) {
Analyzer::Action action = analyzeRange(tok, tok->link());
if (action.isModified())
break;
}
if (Token::simpleMatch(tok->tokAt(-2), "} else {"))
tok = tok->linkAt(-2);
if (Token::simpleMatch(tok->previous(), ") {"))
tok = tok->previous()->link();
continue;
}
if (Token* next = isUnevaluated(tok)) {
tok = next;
continue;
}
if (Token* parent = isDeadCode(tok)) {
tok = parent;
continue;
}
if (!update(tok))
break;
}
}
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static Token* assignExpr(Token* tok) {
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while (tok->astParent() && (astIsRHS(tok) || !tok->astParent()->isBinaryOp())) {
if (tok->astParent()->isAssignmentOp())
return tok->astParent();
tok = tok->astParent();
}
return nullptr;
}
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static Token* isUnevaluated(Token* tok) {
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if (Token::Match(tok, ")|>") && tok->link()) {
Token* start = tok->link();
if (Token::Match(start->previous(), "sizeof|decltype ("))
return start->previous();
if (Token::simpleMatch(start, "<"))
return start;
}
return nullptr;
}
};
void valueFlowGenericReverse(Token* start, const ValuePtr<Analyzer>& a, const Settings* settings)
{
ReverseTraversal rt{a, settings};
rt.traverse(start);
}