Esempio n. 1
0
bool
sortVerticesByAddress(const ControlFlowGraph::ConstVertexNodeIterator &a,
                      const ControlFlowGraph::ConstVertexNodeIterator &b) {
    const CfgVertex &av = a->value();
    const CfgVertex &bv = b->value();
    if (av.type() != bv.type() || av.type() != V_BASIC_BLOCK)
        return av.type() < bv.type();
    return av.address() < bv.address();
}
Esempio n. 2
0
Sawyer::Optional<bool>
Partitioner::basicBlockOptionalMayReturn(const ControlFlowGraph::ConstVertexNodeIterator &start) const {
    ASSERT_require(start != cfg_.vertices().end());

    // Return a cached value if there is one
    if (start->value().type() == V_BASIC_BLOCK) {
        if (BasicBlock::Ptr bblock = start->value().bblock()) {
            bool b;
            if (bblock->mayReturn().getOptional().assignTo(b))
                return b;
        }
    }
    
    // Do the hard work
    std::vector<MayReturnVertexInfo> vertexInfo(cfg_.nVertices());
    return basicBlockOptionalMayReturn(start, vertexInfo);
}
Esempio n. 3
0
// Internal: Run the may-return analysis on the callees and return true if any of them have a positive or indeterminate
// may-return property.
boost::logic::tribool
Partitioner::mayReturnDoesCalleeReturn(const ControlFlowGraph::ConstVertexNodeIterator &caller,
                                       std::vector<MayReturnVertexInfo> &vertexInfo) const {
    ASSERT_require(caller != cfg_.vertices().end());
    if (!vertexInfo[caller->id()].processedCallees) {
        vertexInfo[caller->id()].anyCalleesReturn = false;
        bool hasPositiveCallee = false, hasIndeterminateCallee = false;
        BOOST_FOREACH (const ControlFlowGraph::EdgeNode &edge, caller->outEdges()) {
            if (edge.value().type() == E_FUNCTION_CALL) {
                ControlFlowGraph::ConstVertexNodeIterator callee = edge.target();
                bool mayReturn = false;
                if (!basicBlockOptionalMayReturn(callee, vertexInfo).assignTo(mayReturn)) {
                    hasIndeterminateCallee = true;
                } else if (mayReturn) {
                    hasPositiveCallee = true;
                    break;
                }
            }
        }
        if (hasPositiveCallee) {
            vertexInfo[caller->id()].anyCalleesReturn = true;
        } else if (hasIndeterminateCallee) {
            vertexInfo[caller->id()].anyCalleesReturn = boost::logic::indeterminate;
        }
        vertexInfo[caller->id()].processedCallees = true;
    }