cppcheck/lib/pathanalysis.cpp

#include "pathanalysis.h"
#include "astutils.h"
#include "library.h"
#include "mathlib.h"
#include "settings.h"
#include "symboldatabase.h"
#include "token.h"

const Scope* PathAnalysis::findOuterScope(const Scope * scope)
{
    if (!scope)
        return nullptr;
    if (scope->isLocal() && scope->type != Scope::eSwitch)
        return findOuterScope(scope->nestedIn);
    return scope;
}

static const Token* assignExpr(const Token* tok)
{
    while (tok->astParent() && astIsLHS(tok)) {
        if (Token::Match(tok->astParent(), "%assign%"))
            return tok->astParent();
        tok = tok->astParent();
    }
    return nullptr;
}

std::pair<bool, bool> PathAnalysis::checkCond(const Token * tok, bool& known)
{
    if (tok->hasKnownIntValue()) {
        known = true;
        return std::make_pair(tok->values().front().intvalue, !tok->values().front().intvalue);
    }
    auto it = std::find_if(tok->values().begin(), tok->values().end(), [](const ValueFlow::Value& v) {
        return v.isIntValue();
    });
    // If all possible values are the same, then assume all paths have the same value
    if (it != tok->values().end() && std::all_of(it, tok->values().end(), [&](const ValueFlow::Value& v) {
    if (v.isIntValue())
            return v.intvalue == it->intvalue;
        return true;
    })) {
        known = false;
        return std::make_pair(it->intvalue, !it->intvalue);
    }
    return std::make_pair(true, true);
}

PathAnalysis::Progress PathAnalysis::forwardRecursive(const Token* tok, Info info, const std::function<PathAnalysis::Progress(const Info&)>& f) const
{
    if (!tok)
        return Progress::Continue;
    if (tok->astOperand1() && forwardRecursive(tok->astOperand1(), info, f) == Progress::Break)
        return Progress::Break;
    info.tok = tok;
    if (f(info) == Progress::Break)
        return Progress::Break;
    if (tok->astOperand2() && forwardRecursive(tok->astOperand2(), info, f) == Progress::Break)
        return Progress::Break;
    return Progress::Continue;
}

PathAnalysis::Progress PathAnalysis::forwardRange(const Token* startToken, const Token* endToken, Info info, const std::function<PathAnalysis::Progress(const Info&)>& f) const
{
    for (const Token *tok = startToken; tok && tok != endToken; tok = tok->next()) {
        if (Token::Match(tok, "asm|goto|break|continue"))
            return Progress::Break;
        else if (Token::Match(tok, "return|throw")) {
            forwardRecursive(tok, info, f);
            return Progress::Break;
            // Evaluate RHS of assignment before LHS
        } else if (const Token* assignTok = assignExpr(tok)) {
            if (forwardRecursive(assignTok->astOperand2(), info, f) == Progress::Break)
                return Progress::Break;
            if (forwardRecursive(assignTok->astOperand1(), info, f) == Progress::Break)
                return Progress::Break;
            tok = nextAfterAstRightmostLeaf(assignTok);
            if (!tok)
                return Progress::Break;
        } else if (Token::simpleMatch(tok, "}") && Token::simpleMatch(tok->link()->previous(), ") {") && Token::Match(tok->link()->linkAt(-1)->previous(), "if|while|for (")) {
            const Token * blockStart = tok->link()->linkAt(-1)->previous();
            const Token * condTok = getCondTok(blockStart);
            if (!condTok)
                continue;
            info.errorPath.emplace_back(condTok, "Assuming condition is true.");
            // Traverse a loop a second time
            if (Token::Match(blockStart, "for|while (")) {
                const Token* endCond = blockStart->linkAt(1);
                bool traverseLoop = true;
                // Only traverse simple for loops
                if (Token::simpleMatch(blockStart, "for") && !Token::Match(endCond->tokAt(-3), "; ++|--|%var% %var%|++|-- ) {"))
                    traverseLoop = false;
                // Traverse loop a second time
                if (traverseLoop) {
                    // Traverse condition
                    if (forwardRecursive(condTok, info, f) == Progress::Break)
                        return Progress::Break;
                    // TODO: Should we traverse the body: forwardRange(tok->link(), tok, info, f)?
                }
            }
            if (Token::simpleMatch(tok, "} else {")) {
                tok = tok->linkAt(2);
            }
        } else if (Token::Match(tok, "if|while|for (") && Token::simpleMatch(tok->next()->link(), ") {")) {
            const Token * endCond = tok->next()->link();
            const Token * endBlock = endCond->next()->link();
            const Token * condTok = getCondTok(tok);
            if (!condTok)
                continue;
            // Traverse condition
            if (forwardRange(tok->next(), tok->next()->link(), info, f) == Progress::Break)
                return Progress::Break;
            Info i = info;
            i.known = false;
            i.errorPath.emplace_back(condTok, "Assuming condition is true.");

            // Check if condition is true or false
            bool checkThen = false;
            bool checkElse = false;
            std::tie(checkThen, checkElse) = checkCond(condTok, i.known);

            // Traverse then block
            if (checkThen) {
                if (forwardRange(endCond->next(), endBlock, i, f) == Progress::Break)
                    return Progress::Break;
            }
            // Traverse else block
            if (Token::simpleMatch(endBlock, "} else {")) {
                if (checkElse) {
                    i.errorPath.back().second = "Assuming condition is false.";
                    Progress result = forwardRange(endCond->next(), endBlock, i, f);
                    if (result == Progress::Break)
                        return Progress::Break;
                }
                tok = endBlock->linkAt(2);
            } else {
                tok = endBlock;
            }
        } else if (Token::simpleMatch(tok, "} else {")) {
            tok = tok->linkAt(2);
        } else {
            info.tok = tok;
            if (f(info) == Progress::Break)
                return Progress::Break;
        }
        // Prevent infinite recursion
        if (tok->next() == start)
            break;
    }
    return Progress::Continue;
}

void PathAnalysis::forward(const std::function<Progress(const Info&)>& f) const
{
    const Scope * endScope = findOuterScope(start->scope());
    if (!endScope)
        return;
    const Token * endToken = endScope->bodyEnd;
    Info info{start, ErrorPath{}, true};
    forwardRange(start, endToken, info, f);
}

bool reaches(const Token * start, const Token * dest, const Library& library, ErrorPath* errorPath)
{
    PathAnalysis::Info info = PathAnalysis{start, library} .forwardFind([&](const PathAnalysis::Info& i) {
        return (i.tok == dest);
    });
    if (!info.tok)
        return false;
    if (errorPath)
        errorPath->insert(errorPath->end(), info.errorPath.begin(), info.errorPath.end());
    return true;
}