/*
This file is part of solidity.
solidity is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
solidity is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with solidity. If not, see .
*/
/**
* Optimiser suite that combines all steps and also provides the settings for the heuristics.
*/
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using namespace std;
using namespace solidity;
using namespace solidity::yul;
void OptimiserSuite::run(
Dialect const& _dialect,
GasMeter const* _meter,
Object& _object,
bool _optimizeStackAllocation,
string const& _optimisationSequence,
set const& _externallyUsedIdentifiers
)
{
set reservedIdentifiers = _externallyUsedIdentifiers;
reservedIdentifiers += _dialect.fixedFunctionNames();
*_object.code = std::get(Disambiguator(
_dialect,
*_object.analysisInfo,
reservedIdentifiers
)(*_object.code));
Block& ast = *_object.code;
OptimiserSuite suite(_dialect, reservedIdentifiers, Debug::None, ast);
// Some steps depend on properties ensured by FunctionHoister, FunctionGrouper and
// ForLoopInitRewriter. Run them first to be able to run arbitrary sequences safely.
suite.runSequence("fgo", ast);
// Now the user-supplied part
suite.runSequence(_optimisationSequence, ast);
// This is a tuning parameter, but actually just prevents infinite loops.
size_t stackCompressorMaxIterations = 16;
suite.runSequence("g", ast);
// We ignore the return value because we will get a much better error
// message once we perform code generation.
StackCompressor::run(
_dialect,
_object,
_optimizeStackAllocation,
stackCompressorMaxIterations
);
suite.runSequence("fDnTOc g", ast);
if (EVMDialect const* dialect = dynamic_cast(&_dialect))
{
yulAssert(_meter, "");
ConstantOptimiser{*dialect, *_meter}(ast);
}
else if (dynamic_cast(&_dialect))
{
// If the first statement is an empty block, remove it.
// We should only have function definitions after that.
if (ast.statements.size() > 1 && std::get(ast.statements.front()).statements.empty())
ast.statements.erase(ast.statements.begin());
}
VarNameCleaner::run(suite.m_context, ast);
*_object.analysisInfo = AsmAnalyzer::analyzeStrictAssertCorrect(_dialect, _object);
}
namespace
{
template
map> optimiserStepCollection()
{
map> ret;
for (unique_ptr& s: util::make_vector>(
(make_unique>())...
))
{
yulAssert(!ret.count(s->name), "");
ret[s->name] = std::move(s);
}
return ret;
}
}
map> const& OptimiserSuite::allSteps()
{
static map> instance;
if (instance.empty())
instance = optimiserStepCollection<
BlockFlattener,
CircularReferencesPruner,
CommonSubexpressionEliminator,
ConditionalSimplifier,
ConditionalUnsimplifier,
ControlFlowSimplifier,
DeadCodeEliminator,
EquivalentFunctionCombiner,
ExpressionInliner,
ExpressionJoiner,
ExpressionSimplifier,
ExpressionSplitter,
ForLoopConditionIntoBody,
ForLoopConditionOutOfBody,
ForLoopInitRewriter,
FullInliner,
FunctionGrouper,
FunctionHoister,
LiteralRematerialiser,
LoadResolver,
LoopInvariantCodeMotion,
RedundantAssignEliminator,
Rematerialiser,
SSAReverser,
SSATransform,
StructuralSimplifier,
UnusedPruner,
VarDeclInitializer
>();
// Does not include VarNameCleaner because it destroys the property of unique names.
return instance;
}
map const& OptimiserSuite::stepNameToAbbreviationMap()
{
static map lookupTable{
{BlockFlattener::name, 'f'},
{CircularReferencesPruner::name, 'l'},
{CommonSubexpressionEliminator::name, 'c'},
{ConditionalSimplifier::name, 'C'},
{ConditionalUnsimplifier::name, 'U'},
{ControlFlowSimplifier::name, 'n'},
{DeadCodeEliminator::name, 'D'},
{EquivalentFunctionCombiner::name, 'v'},
{ExpressionInliner::name, 'e'},
{ExpressionJoiner::name, 'j'},
{ExpressionSimplifier::name, 's'},
{ExpressionSplitter::name, 'x'},
{ForLoopConditionIntoBody::name, 'I'},
{ForLoopConditionOutOfBody::name, 'O'},
{ForLoopInitRewriter::name, 'o'},
{FullInliner::name, 'i'},
{FunctionGrouper::name, 'g'},
{FunctionHoister::name, 'h'},
{LiteralRematerialiser::name, 'T'},
{LoadResolver::name, 'L'},
{LoopInvariantCodeMotion::name, 'M'},
{RedundantAssignEliminator::name, 'r'},
{Rematerialiser::name, 'm'},
{SSAReverser::name, 'V'},
{SSATransform::name, 'a'},
{StructuralSimplifier::name, 't'},
{UnusedPruner::name, 'u'},
{VarDeclInitializer::name, 'd'},
};
yulAssert(lookupTable.size() == allSteps().size(), "");
yulAssert((
util::convertContainer>(string(NonStepAbbreviations)) -
util::convertContainer>(lookupTable | boost::adaptors::map_values)
).size() == string(NonStepAbbreviations).size(),
"Step abbreviation conflicts with a character reserved for another syntactic element"
);
return lookupTable;
}
map const& OptimiserSuite::stepAbbreviationToNameMap()
{
static map lookupTable = util::invertMap(stepNameToAbbreviationMap());
return lookupTable;
}
void OptimiserSuite::validateSequence(string const& _stepAbbreviations)
{
bool insideLoop = false;
for (char abbreviation: _stepAbbreviations)
switch (abbreviation)
{
case ' ':
case '\n':
break;
case '[':
assertThrow(!insideLoop, OptimizerException, "Nested brackets are not supported");
insideLoop = true;
break;
case ']':
assertThrow(insideLoop, OptimizerException, "Unbalanced brackets");
insideLoop = false;
break;
default:
yulAssert(
string(NonStepAbbreviations).find(abbreviation) == string::npos,
"Unhandled syntactic element in the abbreviation sequence"
);
assertThrow(
stepAbbreviationToNameMap().find(abbreviation) != stepAbbreviationToNameMap().end(),
OptimizerException,
"'"s + abbreviation + "' is not a valid step abbreviation"
);
}
assertThrow(!insideLoop, OptimizerException, "Unbalanced brackets");
}
void OptimiserSuite::runSequence(string const& _stepAbbreviations, Block& _ast)
{
validateSequence(_stepAbbreviations);
string input = _stepAbbreviations;
boost::remove_erase(input, ' ');
boost::remove_erase(input, '\n');
auto abbreviationsToSteps = [](string const& _sequence) -> vector
{
vector steps;
for (char abbreviation: _sequence)
steps.emplace_back(stepAbbreviationToNameMap().at(abbreviation));
return steps;
};
// The sequence has now been validated and must consist of pairs of segments that look like this: `aaa[bbb]`
// `aaa` or `[bbb]` can be empty. For example we consider a sequence like `fgo[aaf]Oo` to have
// four segments, the last of which is an empty bracket.
size_t currentPairStart = 0;
while (currentPairStart < input.size())
{
size_t openingBracket = input.find('[', currentPairStart);
size_t closingBracket = input.find(']', openingBracket);
size_t firstCharInside = (openingBracket == string::npos ? input.size() : openingBracket + 1);
yulAssert((openingBracket == string::npos) == (closingBracket == string::npos), "");
runSequence(abbreviationsToSteps(input.substr(currentPairStart, openingBracket - currentPairStart)), _ast);
runSequenceUntilStable(abbreviationsToSteps(input.substr(firstCharInside, closingBracket - firstCharInside)), _ast);
currentPairStart = (closingBracket == string::npos ? input.size() : closingBracket + 1);
}
}
void OptimiserSuite::runSequence(std::vector const& _steps, Block& _ast)
{
unique_ptr copy;
if (m_debug == Debug::PrintChanges)
copy = make_unique(std::get(ASTCopier{}(_ast)));
for (string const& step: _steps)
{
if (m_debug == Debug::PrintStep)
cout << "Running " << step << endl;
allSteps().at(step)->run(m_context, _ast);
if (m_debug == Debug::PrintChanges)
{
// TODO should add switch to also compare variable names!
if (SyntacticallyEqual{}.statementEqual(_ast, *copy))
cout << "== Running " << step << " did not cause changes." << endl;
else
{
cout << "== Running " << step << " changed the AST." << endl;
cout << AsmPrinter{}(_ast) << endl;
copy = make_unique(std::get(ASTCopier{}(_ast)));
}
}
}
}
void OptimiserSuite::runSequenceUntilStable(
std::vector const& _steps,
Block& _ast,
size_t maxRounds
)
{
size_t codeSize = 0;
for (size_t rounds = 0; rounds < maxRounds; ++rounds)
{
size_t newSize = CodeSize::codeSizeIncludingFunctions(_ast);
if (newSize == codeSize)
break;
codeSize = newSize;
runSequence(_steps, _ast);
}
}