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//
// Copyright (c) 2002-2015 The ANGLE Project Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
//
// CallDAG.h: Implements a call graph DAG of functions to be re-used accross
// analyses, allows to efficiently traverse the functions in topological
// order.
#include "compiler/translator/CallDAG.h"
#include "compiler/translator/InfoSink.h"
// The CallDAGCreator does all the processing required to create the CallDAG
// structure so that the latter contains only the necessary variables.
class CallDAG::CallDAGCreator : public TIntermTraverser
{
public:
CallDAGCreator(TInfoSinkBase *info)
: TIntermTraverser(true, false, true),
mCreationInfo(info),
mCurrentFunction(nullptr),
mCurrentIndex(0)
{
}
InitResult assignIndices()
{
int skipped = 0;
for (auto &it : mFunctions)
{
// Skip unimplemented functions
if (it.second.node)
{
InitResult result = assignIndicesInternal(&it.second);
if (result != INITDAG_SUCCESS)
{
*mCreationInfo << "\n";
return result;
}
}
else
{
skipped++;
}
}
ASSERT(mFunctions.size() == mCurrentIndex + skipped);
return INITDAG_SUCCESS;
}
void fillDataStructures(std::vector<Record> *records, std::map<int, int> *idToIndex)
{
ASSERT(records->empty());
ASSERT(idToIndex->empty());
records->resize(mCurrentIndex);
for (auto &it : mFunctions)
{
CreatorFunctionData &data = it.second;
// Skip unimplemented functions
if (!data.node)
{
continue;
}
ASSERT(data.index < records->size());
Record &record = (*records)[data.index];
record.name = data.name.data();
record.node = data.node;
record.callees.reserve(data.callees.size());
for (auto &callee : data.callees)
{
record.callees.push_back(static_cast<int>(callee->index));
}
(*idToIndex)[data.node->getFunctionId()] = static_cast<int>(data.index);
}
}
private:
struct CreatorFunctionData
{
CreatorFunctionData()
: node(nullptr),
index(0),
indexAssigned(false),
visiting(false)
{
}
std::set<CreatorFunctionData*> callees;
TIntermAggregate *node;
TString name;
size_t index;
bool indexAssigned;
bool visiting;
};
// Aggregates the AST node for each function as well as the name of the functions called by it
bool visitAggregate(Visit visit, TIntermAggregate *node) override
{
switch (node->getOp())
{
case EOpPrototype:
if (visit == PreVisit)
{
// Function declaration, create an empty record.
auto& record = mFunctions[node->getName()];
record.name = node->getName();
}
break;
case EOpFunction:
{
// Function definition, create the record if need be and remember the node.
if (visit == PreVisit)
{
auto it = mFunctions.find(node->getName());
if (it == mFunctions.end())
{
mCurrentFunction = &mFunctions[node->getName()];
}
else
{
mCurrentFunction = &it->second;
}
mCurrentFunction->node = node;
mCurrentFunction->name = node->getName();
}
else if (visit == PostVisit)
{
mCurrentFunction = nullptr;
}
break;
}
case EOpFunctionCall:
{
// Function call, add the callees
if (visit == PreVisit)
{
// Do not handle calls to builtin functions
if (node->isUserDefined())
{
auto it = mFunctions.find(node->getName());
ASSERT(it != mFunctions.end());
// We might be in a top-level function call to set a global variable
if (mCurrentFunction)
{
mCurrentFunction->callees.insert(&it->second);
}
}
}
break;
}
default:
break;
}
return true;
}
// Recursively assigns indices to a sub DAG
InitResult assignIndicesInternal(CreatorFunctionData *function)
{
ASSERT(function);
if (!function->node)
{
*mCreationInfo << "Undefined function '" << function->name
<< ")' used in the following call chain:";
return INITDAG_UNDEFINED;
}
if (function->indexAssigned)
{
return INITDAG_SUCCESS;
}
if (function->visiting)
{
if (mCreationInfo)
{
*mCreationInfo << "Recursive function call in the following call chain:" << function->name;
}
return INITDAG_RECURSION;
}
function->visiting = true;
for (auto &callee : function->callees)
{
InitResult result = assignIndicesInternal(callee);
if (result != INITDAG_SUCCESS)
{
// We know that there is an issue with the call chain in the AST,
// print the link of the chain we were processing.
if (mCreationInfo)
{
*mCreationInfo << " <- " << function->name << ")";
}
return result;
}
}
function->index = mCurrentIndex++;
function->indexAssigned = true;
function->visiting = false;
return INITDAG_SUCCESS;
}
TInfoSinkBase *mCreationInfo;
std::map<TString, CreatorFunctionData> mFunctions;
CreatorFunctionData *mCurrentFunction;
size_t mCurrentIndex;
};
// CallDAG
CallDAG::CallDAG()
{
}
CallDAG::~CallDAG()
{
}
const size_t CallDAG::InvalidIndex = std::numeric_limits<size_t>::max();
size_t CallDAG::findIndex(const TIntermAggregate *function) const
{
TOperator op = function->getOp();
ASSERT(op == EOpPrototype || op == EOpFunction || op == EOpFunctionCall);
UNUSED_ASSERTION_VARIABLE(op);
auto it = mFunctionIdToIndex.find(function->getFunctionId());
if (it == mFunctionIdToIndex.end())
{
return InvalidIndex;
}
else
{
return it->second;
}
}
const CallDAG::Record &CallDAG::getRecordFromIndex(size_t index) const
{
ASSERT(index != InvalidIndex && index < mRecords.size());
return mRecords[index];
}
const CallDAG::Record &CallDAG::getRecord(const TIntermAggregate *function) const
{
size_t index = findIndex(function);
ASSERT(index != InvalidIndex && index < mRecords.size());
return mRecords[index];
}
size_t CallDAG::size() const
{
return mRecords.size();
}
void CallDAG::clear()
{
mRecords.clear();
mFunctionIdToIndex.clear();
}
CallDAG::InitResult CallDAG::init(TIntermNode *root, TInfoSinkBase *info)
{
CallDAGCreator creator(info);
// Creates the mapping of functions to callees
root->traverse(&creator);
// Does the topological sort and detects recursions
InitResult result = creator.assignIndices();
if (result != INITDAG_SUCCESS)
{
return result;
}
creator.fillDataStructures(&mRecords, &mFunctionIdToIndex);
return INITDAG_SUCCESS;
}
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