784 lines
28 KiB
C++
784 lines
28 KiB
C++
/*
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* Cppcheck - A tool for static C/C++ code analysis
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* Copyright (C) 2007-2022 Cppcheck team.
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include "programmemory.h"
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#include "astutils.h"
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#include "calculate.h"
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#include "infer.h"
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#include "library.h"
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#include "mathlib.h"
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#include "settings.h"
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#include "symboldatabase.h"
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#include "token.h"
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#include "valueflow.h"
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#include "valueptr.h"
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#include <algorithm>
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#include <cassert>
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#include <functional>
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#include <list>
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#include <memory>
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#include <string>
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#include <utility>
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#include <vector>
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nonneg int ExprIdToken::getExpressionId() const {
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return tok ? tok->exprId() : exprid;
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}
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std::size_t ExprIdToken::Hash::operator()(ExprIdToken etok) const
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{
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return std::hash<nonneg int>()(etok.getExpressionId());
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}
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void ProgramMemory::setValue(const Token* expr, const ValueFlow::Value& value) {
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mValues[expr] = value;
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}
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const ValueFlow::Value* ProgramMemory::getValue(nonneg int exprid, bool impossible) const
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{
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const ProgramMemory::Map::const_iterator it = mValues.find(exprid);
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const bool found = it != mValues.end() && (impossible || !it->second.isImpossible());
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if (found)
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return &it->second;
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else
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return nullptr;
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}
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// cppcheck-suppress unusedFunction
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bool ProgramMemory::getIntValue(nonneg int exprid, MathLib::bigint* result) const
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{
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const ValueFlow::Value* value = getValue(exprid);
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if (value && value->isIntValue()) {
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*result = value->intvalue;
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return true;
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}
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return false;
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}
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void ProgramMemory::setIntValue(const Token* expr, MathLib::bigint value, bool impossible)
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{
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ValueFlow::Value v(value);
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if (impossible)
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v.setImpossible();
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mValues[expr] = v;
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}
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bool ProgramMemory::getTokValue(nonneg int exprid, const Token** result) const
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{
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const ValueFlow::Value* value = getValue(exprid);
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if (value && value->isTokValue()) {
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*result = value->tokvalue;
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return true;
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}
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return false;
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}
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// cppcheck-suppress unusedFunction
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bool ProgramMemory::getContainerSizeValue(nonneg int exprid, MathLib::bigint* result) const
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{
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const ValueFlow::Value* value = getValue(exprid);
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if (value && value->isContainerSizeValue()) {
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*result = value->intvalue;
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return true;
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}
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return false;
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}
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bool ProgramMemory::getContainerEmptyValue(nonneg int exprid, MathLib::bigint* result) const
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{
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const ValueFlow::Value* value = getValue(exprid, true);
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if (value && value->isContainerSizeValue()) {
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if (value->isImpossible() && value->intvalue == 0) {
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*result = false;
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return true;
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}
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if (!value->isImpossible()) {
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*result = (value->intvalue == 0);
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return true;
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}
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}
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return false;
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}
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void ProgramMemory::setContainerSizeValue(const Token* expr, MathLib::bigint value, bool isEqual)
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{
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ValueFlow::Value v(value);
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v.valueType = ValueFlow::Value::ValueType::CONTAINER_SIZE;
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if (!isEqual)
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v.valueKind = ValueFlow::Value::ValueKind::Impossible;
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mValues[expr] = v;
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}
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void ProgramMemory::setUnknown(const Token* expr) {
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mValues[expr].valueType = ValueFlow::Value::ValueType::UNINIT;
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}
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bool ProgramMemory::hasValue(nonneg int exprid)
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{
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return mValues.find(exprid) != mValues.end();
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}
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const ValueFlow::Value& ProgramMemory::at(nonneg int exprid) const {
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return mValues.at(exprid);
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}
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ValueFlow::Value& ProgramMemory::at(nonneg int exprid) {
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return mValues.at(exprid);
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}
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void ProgramMemory::erase_if(const std::function<bool(const ExprIdToken&)>& pred)
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{
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for (auto it = mValues.begin(); it != mValues.end();) {
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if (pred(it->first))
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it = mValues.erase(it);
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else
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++it;
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}
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}
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void ProgramMemory::swap(ProgramMemory &pm)
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{
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mValues.swap(pm.mValues);
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}
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void ProgramMemory::clear()
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{
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mValues.clear();
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}
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bool ProgramMemory::empty() const
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{
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return mValues.empty();
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}
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void ProgramMemory::replace(const ProgramMemory &pm)
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{
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for (auto&& p : pm.mValues) {
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mValues[p.first] = p.second;
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}
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}
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void ProgramMemory::insert(const ProgramMemory &pm)
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{
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for (auto&& p : pm)
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mValues.insert(p);
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}
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bool evaluateCondition(const std::string& op,
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MathLib::bigint r,
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const Token* condition,
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ProgramMemory& pm,
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const Settings* settings)
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{
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if (!condition)
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return false;
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if (condition->str() == op) {
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return evaluateCondition(op, r, condition->astOperand1(), pm, settings) ||
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evaluateCondition(op, r, condition->astOperand2(), pm, settings);
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}
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MathLib::bigint result = 0;
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bool error = false;
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execute(condition, &pm, &result, &error, settings);
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return !error && result == r;
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}
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bool conditionIsFalse(const Token* condition, ProgramMemory pm, const Settings* settings)
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{
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return evaluateCondition("&&", 0, condition, pm, settings);
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}
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bool conditionIsTrue(const Token* condition, ProgramMemory pm, const Settings* settings)
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{
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return evaluateCondition("||", 1, condition, pm, settings);
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}
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static bool frontIs(const std::vector<MathLib::bigint>& v, bool i)
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{
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if (v.empty())
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return false;
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if (v.front())
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return i;
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return !i;
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}
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void programMemoryParseCondition(ProgramMemory& pm, const Token* tok, const Token* endTok, const Settings* settings, bool then)
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{
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auto eval = [&](const Token* t) -> std::vector<MathLib::bigint> {
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if (t->hasKnownIntValue())
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return {t->values().front().intvalue};
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MathLib::bigint result = 0;
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bool error = false;
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execute(t, &pm, &result, &error);
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if (!error)
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return {result};
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return std::vector<MathLib::bigint>{};
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};
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if (Token::Match(tok, "==|>=|<=|<|>|!=")) {
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ValueFlow::Value truevalue;
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ValueFlow::Value falsevalue;
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const Token* vartok = parseCompareInt(tok, truevalue, falsevalue, eval);
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if (!vartok)
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return;
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if (vartok->exprId() == 0)
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return;
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if (!truevalue.isIntValue())
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return;
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if (endTok && isExpressionChanged(vartok, tok->next(), endTok, settings, true))
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return;
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bool impossible = (tok->str() == "==" && !then) || (tok->str() == "!=" && then);
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pm.setIntValue(vartok, then ? truevalue.intvalue : falsevalue.intvalue, impossible);
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const Token* containerTok = settings->library.getContainerFromYield(vartok, Library::Container::Yield::SIZE);
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if (containerTok)
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pm.setContainerSizeValue(containerTok, then ? truevalue.intvalue : falsevalue.intvalue, !impossible);
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} else if (Token::simpleMatch(tok, "!")) {
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programMemoryParseCondition(pm, tok->astOperand1(), endTok, settings, !then);
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} else if (then && Token::simpleMatch(tok, "&&")) {
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programMemoryParseCondition(pm, tok->astOperand1(), endTok, settings, then);
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programMemoryParseCondition(pm, tok->astOperand2(), endTok, settings, then);
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} else if (!then && Token::simpleMatch(tok, "||")) {
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programMemoryParseCondition(pm, tok->astOperand1(), endTok, settings, then);
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programMemoryParseCondition(pm, tok->astOperand2(), endTok, settings, then);
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} else if (Token::Match(tok, "&&|%oror%")) {
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std::vector<MathLib::bigint> lhs = eval(tok->astOperand1());
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std::vector<MathLib::bigint> rhs = eval(tok->astOperand2());
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if (lhs.empty() || rhs.empty()) {
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if (frontIs(lhs, !then))
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programMemoryParseCondition(pm, tok->astOperand2(), endTok, settings, then);
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if (frontIs(rhs, !then))
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programMemoryParseCondition(pm, tok->astOperand1(), endTok, settings, then);
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}
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} else if (tok->exprId() > 0) {
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if (endTok && isExpressionChanged(tok, tok->next(), endTok, settings, true))
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return;
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pm.setIntValue(tok, 0, then);
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const Token* containerTok = settings->library.getContainerFromYield(tok, Library::Container::Yield::EMPTY);
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if (containerTok)
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pm.setContainerSizeValue(containerTok, 0, then);
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}
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}
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static void fillProgramMemoryFromConditions(ProgramMemory& pm, const Scope* scope, const Token* endTok, const Settings* settings)
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{
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if (!scope)
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return;
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if (!scope->isLocal())
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return;
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assert(scope != scope->nestedIn);
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fillProgramMemoryFromConditions(pm, scope->nestedIn, endTok, settings);
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if (scope->type == Scope::eIf || scope->type == Scope::eWhile || scope->type == Scope::eElse || scope->type == Scope::eFor) {
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const Token* condTok = getCondTokFromEnd(scope->bodyEnd);
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if (!condTok)
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return;
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MathLib::bigint result = 0;
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bool error = false;
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execute(condTok, &pm, &result, &error);
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if (error)
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programMemoryParseCondition(pm, condTok, endTok, settings, scope->type != Scope::eElse);
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}
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}
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static void fillProgramMemoryFromConditions(ProgramMemory& pm, const Token* tok, const Settings* settings)
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{
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fillProgramMemoryFromConditions(pm, tok->scope(), tok, settings);
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}
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static void fillProgramMemoryFromAssignments(ProgramMemory& pm, const Token* tok, const ProgramMemory& state, const ProgramMemory::Map& vars)
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{
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int indentlevel = 0;
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for (const Token *tok2 = tok; tok2; tok2 = tok2->previous()) {
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if ((Token::simpleMatch(tok2, "=") || Token::Match(tok2->previous(), "%var% (|{")) && tok2->astOperand1() &&
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tok2->astOperand2()) {
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bool setvar = false;
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const Token* vartok = tok2->astOperand1();
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const Token* valuetok = tok2->astOperand2();
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for (const auto& p:vars) {
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if (p.first != vartok->exprId())
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continue;
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if (vartok == tok)
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continue;
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pm.setValue(vartok, p.second);
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setvar = true;
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}
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if (!setvar) {
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if (!pm.hasValue(vartok->exprId())) {
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MathLib::bigint result = 0;
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bool error = false;
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execute(valuetok, &pm, &result, &error);
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if (!error)
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pm.setIntValue(vartok, result);
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else
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pm.setUnknown(vartok);
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}
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}
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} else if (tok2->exprId() > 0 && Token::Match(tok2, ".|(|[|*|%var%") && !pm.hasValue(tok2->exprId()) &&
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isVariableChanged(tok2, 0, nullptr, true)) {
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pm.setUnknown(tok2);
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}
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if (tok2->str() == "{") {
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if (indentlevel <= 0) {
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// Keep progressing with anonymous/do scopes
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if (!Token::Match(tok2->previous(), "do|; {"))
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break;
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} else
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--indentlevel;
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if (Token::simpleMatch(tok2->previous(), "else {"))
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tok2 = tok2->linkAt(-2)->previous();
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}
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if (tok2->str() == "}") {
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const Token *cond = getCondTokFromEnd(tok2);
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const bool inElse = Token::simpleMatch(tok2->link()->previous(), "else {");
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if (cond) {
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if (conditionIsFalse(cond, state)) {
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if (inElse) {
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++indentlevel;
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continue;
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}
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tok2 = cond->astParent()->previous();
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} else if (conditionIsTrue(cond, state)) {
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if (inElse)
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tok2 = tok2->link()->tokAt(-2);
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++indentlevel;
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continue;
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}
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}
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break;
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}
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}
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}
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static void removeModifiedVars(ProgramMemory& pm, const Token* tok, const Token* origin)
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{
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pm.erase_if([&](const ExprIdToken& e) {
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return isVariableChanged(origin, tok, e.getExpressionId(), false, nullptr, true);
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});
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}
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static ProgramMemory getInitialProgramState(const Token* tok,
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const Token* origin,
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const ProgramMemory::Map& vars = ProgramMemory::Map {})
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{
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ProgramMemory pm;
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if (origin) {
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fillProgramMemoryFromConditions(pm, origin, nullptr);
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const ProgramMemory state = pm;
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fillProgramMemoryFromAssignments(pm, tok, state, vars);
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removeModifiedVars(pm, tok, origin);
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}
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return pm;
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}
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ProgramMemoryState::ProgramMemoryState(const Settings* s) : state(), origins(), settings(s) {}
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void ProgramMemoryState::insert(const ProgramMemory &pm, const Token* origin)
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{
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if (origin)
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for (auto&& p : pm)
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origins.insert(std::make_pair(p.first.getExpressionId(), origin));
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state.insert(pm);
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}
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void ProgramMemoryState::replace(const ProgramMemory &pm, const Token* origin)
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{
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if (origin)
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for (auto&& p : pm)
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origins[p.first.getExpressionId()] = origin;
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state.replace(pm);
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}
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static void addVars(ProgramMemory& pm, const ProgramMemory::Map& vars)
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{
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for (const auto& p:vars) {
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const ValueFlow::Value &value = p.second;
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pm.setValue(p.first.tok, value);
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}
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}
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void ProgramMemoryState::addState(const Token* tok, const ProgramMemory::Map& vars)
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{
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ProgramMemory pm = state;
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addVars(pm, vars);
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fillProgramMemoryFromConditions(pm, tok, settings);
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ProgramMemory local = pm;
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fillProgramMemoryFromAssignments(pm, tok, local, vars);
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addVars(pm, vars);
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replace(pm, tok);
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}
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void ProgramMemoryState::assume(const Token* tok, bool b, bool isEmpty)
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{
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ProgramMemory pm = state;
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if (isEmpty)
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pm.setContainerSizeValue(tok, 0, b);
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else
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programMemoryParseCondition(pm, tok, nullptr, settings, b);
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const Token* origin = tok;
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const Token* top = tok->astTop();
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if (top && Token::Match(top->previous(), "for|while ("))
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origin = top->link();
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replace(pm, origin);
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}
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void ProgramMemoryState::removeModifiedVars(const Token* tok)
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{
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state.erase_if([&](const ExprIdToken& e) {
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const Token* start = origins[e.getExpressionId()];
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const Token* expr = e.tok;
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if (!expr || isExpressionChanged(expr, start, tok, settings, true)) {
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origins.erase(e.getExpressionId());
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return true;
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}
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return false;
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});
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}
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ProgramMemory ProgramMemoryState::get(const Token* tok, const Token* ctx, const ProgramMemory::Map& vars) const
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{
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ProgramMemoryState local = *this;
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if (ctx)
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local.addState(ctx, vars);
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const Token* start = previousBeforeAstLeftmostLeaf(tok);
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if (!start)
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start = tok;
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if (!ctx || precedes(start, ctx)) {
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local.removeModifiedVars(start);
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local.addState(start, vars);
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} else {
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local.removeModifiedVars(ctx);
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}
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return local.state;
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}
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ProgramMemory getProgramMemory(const Token *tok, const ProgramMemory::Map& vars)
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{
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ProgramMemory programMemory;
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for (const auto& p:vars) {
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const ValueFlow::Value &value = p.second;
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programMemory.replace(getInitialProgramState(tok, value.tokvalue));
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programMemory.replace(getInitialProgramState(tok, value.condition));
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}
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fillProgramMemoryFromConditions(programMemory, tok, nullptr);
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ProgramMemory state;
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for (const auto& p:vars) {
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const ValueFlow::Value &value = p.second;
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programMemory.setValue(p.first.tok, value);
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}
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state = programMemory;
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fillProgramMemoryFromAssignments(programMemory, tok, state, vars);
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return programMemory;
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}
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ProgramMemory getProgramMemory(const Token* tok, const Token* expr, const ValueFlow::Value& value, const Settings* settings)
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{
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ProgramMemory programMemory;
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programMemory.replace(getInitialProgramState(tok, value.tokvalue));
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programMemory.replace(getInitialProgramState(tok, value.condition));
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fillProgramMemoryFromConditions(programMemory, tok, settings);
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programMemory.setValue(expr, value);
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const ProgramMemory state = programMemory;
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fillProgramMemoryFromAssignments(programMemory, tok, state, {{expr, value}});
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return programMemory;
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}
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static bool isNumericValue(const ValueFlow::Value& value) {
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return value.isIntValue() || value.isFloatValue();
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}
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static double asFloat(const ValueFlow::Value& value)
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{
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return value.isFloatValue() ? value.floatValue : value.intvalue;
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}
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static std::string removeAssign(const std::string& assign) {
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return std::string{assign.begin(), assign.end() - 1};
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}
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struct assign {
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template<class T, class U>
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void operator()(T& x, const U& y) const
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{
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x = y;
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}
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};
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static ValueFlow::Value evaluate(const std::string& op, const ValueFlow::Value& lhs, const ValueFlow::Value& rhs)
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{
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ValueFlow::Value result;
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if (lhs.isImpossible() && rhs.isImpossible())
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return ValueFlow::Value::unknown();
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if (lhs.isImpossible() || rhs.isImpossible()) {
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// noninvertible
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if (contains({"%", "/", "&", "|"}, op))
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return ValueFlow::Value::unknown();
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result.setImpossible();
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}
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if (isNumericValue(lhs) && isNumericValue(rhs)) {
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if (lhs.isFloatValue() || rhs.isFloatValue()) {
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result.valueType = ValueFlow::Value::ValueType::FLOAT;
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bool error = false;
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result.floatValue = calculate(op, asFloat(lhs), asFloat(rhs), &error);
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if (error)
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return ValueFlow::Value::unknown();
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return result;
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}
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}
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result.valueType = ValueFlow::Value::ValueType::INT;
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if (op == "+") {
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if (lhs.isIteratorValue())
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result.valueType = lhs.valueType;
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else if (rhs.isIteratorValue())
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result.valueType = rhs.valueType;
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} else if (lhs.valueType != rhs.valueType) {
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return ValueFlow::Value::unknown();
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}
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bool error = false;
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result.intvalue = calculate(op, lhs.intvalue, rhs.intvalue, &error);
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if (error)
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return ValueFlow::Value::unknown();
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if (result.isImpossible()) {
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if ((result.intvalue == 0 && op == "!=") || (result.intvalue != 0 && op == "==")) {
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result.setPossible();
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result.intvalue = !result.intvalue;
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}
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}
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return result;
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}
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static ValueFlow::Value execute(const Token* expr, ProgramMemory& pm, const Settings* settings = nullptr);
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static ValueFlow::Value executeImpl(const Token* expr, ProgramMemory& pm, const Settings* settings)
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{
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ValueFlow::Value unknown = ValueFlow::Value::unknown();
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const ValueFlow::Value* value = nullptr;
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if (!expr)
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return unknown;
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else if (expr->hasKnownIntValue() && !expr->isAssignmentOp()) {
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return expr->values().front();
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} else if ((value = expr->getKnownValue(ValueFlow::Value::ValueType::FLOAT)) ||
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(value = expr->getKnownValue(ValueFlow::Value::ValueType::ITERATOR_START)) ||
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(value = expr->getKnownValue(ValueFlow::Value::ValueType::ITERATOR_END)) ||
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(value = expr->getKnownValue(ValueFlow::Value::ValueType::CONTAINER_SIZE))) {
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return *value;
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} else if (expr->isNumber()) {
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if (MathLib::isFloat(expr->str()))
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return unknown;
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return ValueFlow::Value{MathLib::toLongNumber(expr->str())};
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} else if (Token::Match(expr->tokAt(-2), ". %name% (") && astIsContainer(expr->tokAt(-2)->astOperand1())) {
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const Token* containerTok = expr->tokAt(-2)->astOperand1();
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Library::Container::Yield yield = containerTok->valueType()->container->getYield(expr->strAt(-1));
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if (yield == Library::Container::Yield::SIZE) {
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ValueFlow::Value v = execute(containerTok, pm);
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if (!v.isContainerSizeValue())
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return unknown;
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v.valueType = ValueFlow::Value::ValueType::INT;
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return v;
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} else if (yield == Library::Container::Yield::EMPTY) {
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ValueFlow::Value v = execute(containerTok, pm);
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if (!v.isContainerSizeValue())
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return unknown;
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if (v.isImpossible() && v.intvalue == 0)
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return ValueFlow::Value{0};
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else if (!v.isImpossible())
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return ValueFlow::Value{v.intvalue == 0};
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}
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} else if (expr->isAssignmentOp() && expr->astOperand1() && expr->astOperand2() && expr->astOperand1()->exprId() > 0) {
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ValueFlow::Value rhs = execute(expr->astOperand2(), pm);
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if (rhs.isUninitValue())
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return unknown;
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if (expr->str() != "=") {
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if (!pm.hasValue(expr->astOperand1()->exprId()))
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return unknown;
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ValueFlow::Value& lhs = pm.at(expr->astOperand1()->exprId());
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rhs = evaluate(removeAssign(expr->str()), lhs, rhs);
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if (lhs.isIntValue())
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ValueFlow::Value::visitValue(rhs, std::bind(assign{}, std::ref(lhs.intvalue), std::placeholders::_1));
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else if (lhs.isFloatValue())
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ValueFlow::Value::visitValue(rhs, std::bind(assign{}, std::ref(lhs.floatValue), std::placeholders::_1));
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else
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return unknown;
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return lhs;
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} else {
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pm.setValue(expr->astOperand1(), rhs);
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return rhs;
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}
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} else if (expr->str() == "&&" && expr->astOperand1() && expr->astOperand2()) {
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ValueFlow::Value lhs = execute(expr->astOperand1(), pm);
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if (!lhs.isIntValue())
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return unknown;
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if (lhs.intvalue == 0)
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return lhs;
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return execute(expr->astOperand2(), pm);
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} else if (expr->str() == "||" && expr->astOperand1() && expr->astOperand2()) {
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ValueFlow::Value lhs = execute(expr->astOperand1(), pm);
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if (!lhs.isIntValue())
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return unknown;
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if (lhs.intvalue != 0)
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return lhs;
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return execute(expr->astOperand2(), pm);
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} else if (expr->str() == "," && expr->astOperand1() && expr->astOperand2()) {
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execute(expr->astOperand1(), pm);
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return execute(expr->astOperand2(), pm);
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} else if (Token::Match(expr, "++|--") && expr->astOperand1() && expr->astOperand1()->exprId() != 0) {
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if (!pm.hasValue(expr->astOperand1()->exprId()))
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return unknown;
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ValueFlow::Value& lhs = pm.at(expr->astOperand1()->exprId());
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if (!lhs.isIntValue())
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return unknown;
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// overflow
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if (!lhs.isImpossible() && lhs.intvalue == 0 && expr->str() == "--" && astIsUnsigned(expr->astOperand1()))
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return unknown;
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if (expr->str() == "++")
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lhs.intvalue++;
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else
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lhs.intvalue--;
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return lhs;
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} else if (expr->str() == "[" && expr->astOperand1() && expr->astOperand2()) {
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const Token *tokvalue = nullptr;
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if (!pm.getTokValue(expr->astOperand1()->exprId(), &tokvalue)) {
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auto tokvalue_it = std::find_if(expr->astOperand1()->values().begin(),
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expr->astOperand1()->values().end(),
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std::mem_fn(&ValueFlow::Value::isTokValue));
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if (tokvalue_it == expr->astOperand1()->values().end()) {
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return unknown;
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}
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tokvalue = tokvalue_it->tokvalue;
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}
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if (!tokvalue || !tokvalue->isLiteral()) {
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return unknown;
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}
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const std::string strValue = tokvalue->strValue();
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ValueFlow::Value rhs = execute(expr->astOperand2(), pm);
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if (!rhs.isIntValue())
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return unknown;
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MathLib::bigint index = rhs.intvalue;
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if (index >= 0 && index < strValue.size())
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return ValueFlow::Value{strValue[index]};
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else if (index == strValue.size())
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return ValueFlow::Value{};
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} else if (Token::Match(expr, "%cop%") && expr->astOperand1() && expr->astOperand2()) {
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ValueFlow::Value lhs = execute(expr->astOperand1(), pm);
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ValueFlow::Value rhs = execute(expr->astOperand2(), pm);
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if (!lhs.isUninitValue() && !rhs.isUninitValue())
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return evaluate(expr->str(), lhs, rhs);
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if (expr->isComparisonOp()) {
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if (rhs.isIntValue()) {
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std::vector<ValueFlow::Value> result =
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infer(makeIntegralInferModel(), expr->str(), expr->astOperand1()->values(), {rhs});
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if (result.empty() || !result.front().isKnown())
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return unknown;
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return result.front();
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} else if (lhs.isIntValue()) {
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std::vector<ValueFlow::Value> result =
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infer(makeIntegralInferModel(), expr->str(), {lhs}, expr->astOperand2()->values());
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if (result.empty() || !result.front().isKnown())
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return unknown;
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return result.front();
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}
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}
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}
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// Unary ops
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else if (Token::Match(expr, "!|+|-") && expr->astOperand1() && !expr->astOperand2()) {
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ValueFlow::Value lhs = execute(expr->astOperand1(), pm);
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if (!lhs.isIntValue())
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return unknown;
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if (expr->str() == "!")
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lhs.intvalue = !lhs.intvalue;
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if (expr->str() == "-")
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lhs.intvalue = -lhs.intvalue;
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return lhs;
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} else if (expr->str() == "?" && expr->astOperand1() && expr->astOperand2()) {
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ValueFlow::Value cond = execute(expr->astOperand1(), pm);
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if (!cond.isIntValue())
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return unknown;
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const Token* child = expr->astOperand2();
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if (cond.intvalue == 0)
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return execute(child->astOperand2(), pm);
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else
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return execute(child->astOperand1(), pm);
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} else if (expr->str() == "(" && expr->isCast()) {
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if (Token::simpleMatch(expr->previous(), ">") && expr->previous()->link())
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return execute(expr->astOperand2(), pm);
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else
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return execute(expr->astOperand1(), pm);
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}
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if (expr->exprId() > 0 && pm.hasValue(expr->exprId())) {
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ValueFlow::Value result = pm.at(expr->exprId());
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if (result.isImpossible() && result.isIntValue() && result.intvalue == 0 && isUsedAsBool(expr)) {
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result.intvalue = !result.intvalue;
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result.setKnown();
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}
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return result;
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}
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if (Token::Match(expr->previous(), ">|%name% {|(")) {
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visitAstNodes(expr->astOperand2(), [&](const Token* child) {
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if (child->exprId() > 0 && pm.hasValue(child->exprId())) {
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ValueFlow::Value& v = pm.at(child->exprId());
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if (v.valueType == ValueFlow::Value::ValueType::CONTAINER_SIZE) {
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if (isContainerSizeChanged(child, settings))
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v = unknown;
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} else if (v.valueType != ValueFlow::Value::ValueType::UNINIT) {
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if (isVariableChanged(child, v.indirect, settings, true))
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v = unknown;
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}
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}
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return ChildrenToVisit::op1_and_op2;
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});
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}
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return unknown;
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}
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static ValueFlow::Value execute(const Token* expr, ProgramMemory& pm, const Settings* settings)
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{
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ValueFlow::Value v = executeImpl(expr, pm, settings);
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if (!v.isUninitValue())
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return v;
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if (!expr)
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return v;
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if (pm.hasValue(expr->exprId()))
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return pm.at(expr->exprId());
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// Find symbolic values
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for (const ValueFlow::Value& value : expr->values()) {
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if (!value.isSymbolicValue())
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continue;
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if (!pm.hasValue(value.tokvalue->exprId()))
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continue;
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ValueFlow::Value v2 = pm.at(value.tokvalue->exprId());
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v2.intvalue += value.intvalue;
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v2.valueKind = value.valueKind;
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return v2;
|
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}
|
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return v;
|
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}
|
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|
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void execute(const Token* expr,
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ProgramMemory* const programMemory,
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MathLib::bigint* result,
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bool* error,
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const Settings* settings)
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{
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ValueFlow::Value v = execute(expr, *programMemory, settings);
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if (!v.isIntValue() || v.isImpossible()) {
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if (error)
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*error = true;
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} else if (result)
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*result = v.intvalue;
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}
|