solidity/libyul/optimiser/FullInliner.cpp

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/*
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 <http://www.gnu.org/licenses/>.
*/
/**
* Optimiser component that performs function inlining for arbitrary functions.
*/
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#include <libyul/optimiser/FullInliner.h>
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#include <libyul/optimiser/ASTCopier.h>
#include <libyul/optimiser/ASTWalker.h>
#include <libyul/optimiser/NameCollector.h>
#include <libyul/optimiser/OptimizerUtilities.h>
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#include <libyul/optimiser/Metrics.h>
#include <libyul/optimiser/SSAValueTracker.h>
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#include <libyul/Exceptions.h>
#include <libyul/AsmData.h>
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#include <libdevcore/CommonData.h>
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#include <libdevcore/Visitor.h>
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#include <boost/range/adaptor/reversed.hpp>
using namespace std;
using namespace dev;
using namespace yul;
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using namespace dev::solidity;
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FullInliner::FullInliner(Block& _ast, NameDispenser& _dispenser):
m_ast(_ast), m_nameDispenser(_dispenser)
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{
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// Determine constants
SSAValueTracker tracker;
tracker(m_ast);
for (auto const& ssaValue: tracker.values())
if (ssaValue.second && ssaValue.second->type() == typeid(Literal))
m_constants.emplace(ssaValue.first);
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// Store size of global statements.
m_functionSizes[YulString{}] = CodeSize::codeSize(_ast);
map<YulString, size_t> references = ReferencesCounter::countReferences(m_ast);
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for (auto& statement: m_ast.statements)
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{
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if (statement.type() != typeid(FunctionDefinition))
continue;
FunctionDefinition& fun = boost::get<FunctionDefinition>(statement);
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m_functions[fun.name] = &fun;
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// Always inline functions that are only called once.
if (references[fun.name] == 1)
m_singleUse.emplace(fun.name);
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updateCodeSize(fun);
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}
}
void FullInliner::run()
{
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for (auto& statement: m_ast.statements)
if (statement.type() == typeid(Block))
handleBlock({}, boost::get<Block>(statement));
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// TODO it might be good to determine a visiting order:
// first handle functions that are called from many places.
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for (auto const& fun: m_functions)
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{
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handleBlock(fun.second->name, fun.second->body);
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updateCodeSize(*fun.second);
}
}
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void FullInliner::updateCodeSize(FunctionDefinition const& _fun)
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{
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m_functionSizes[_fun.name] = CodeSize::codeSize(_fun.body);
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}
void FullInliner::handleBlock(YulString _currentFunctionName, Block& _block)
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{
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InlineModifier{*this, m_nameDispenser, _currentFunctionName}(_block);
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}
bool FullInliner::shallInline(FunctionCall const& _funCall, YulString _callSite)
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{
// No recursive inlining
if (_funCall.functionName.name == _callSite)
return false;
FunctionDefinition* calledFunction = function(_funCall.functionName.name);
if (!calledFunction)
return false;
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// Inline really, really tiny functions
size_t size = m_functionSizes.at(calledFunction->name);
if (size <= 1)
return true;
// Do not inline into already big functions.
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if (m_functionSizes.at(_callSite) > 45)
return false;
if (m_singleUse.count(calledFunction->name))
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return true;
// Constant arguments might provide a means for further optimization, so they cause a bonus.
bool constantArg = false;
for (auto const& argument: _funCall.arguments)
if (argument.type() == typeid(Literal) || (
argument.type() == typeid(Identifier) &&
m_constants.count(boost::get<Identifier>(argument).name)
))
{
constantArg = true;
break;
}
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return (size < 6 || (constantArg && size < 12));
}
void FullInliner::tentativelyUpdateCodeSize(YulString _function, YulString _callSite)
{
m_functionSizes.at(_callSite) += m_functionSizes.at(_function);
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}
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void InlineModifier::operator()(Block& _block)
{
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function<boost::optional<vector<Statement>>(Statement&)> f = [&](Statement& _statement) -> boost::optional<vector<Statement>> {
visit(_statement);
return tryInlineStatement(_statement);
};
iterateReplacing(_block.statements, f);
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}
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boost::optional<vector<Statement>> InlineModifier::tryInlineStatement(Statement& _statement)
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{
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// Only inline for expression statements, assignments and variable declarations.
Expression* e = boost::apply_visitor(GenericFallbackReturnsVisitor<Expression*, ExpressionStatement, Assignment, VariableDeclaration>(
[](ExpressionStatement& _s) { return &_s.expression; },
[](Assignment& _s) { return _s.value.get(); },
[](VariableDeclaration& _s) { return _s.value.get(); }
), _statement);
if (e)
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{
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// Only inline direct function calls.
FunctionCall* funCall = boost::apply_visitor(GenericFallbackReturnsVisitor<FunctionCall*, FunctionCall&>(
[](FunctionCall& _e) { return &_e; }
), *e);
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if (funCall && m_driver.shallInline(*funCall, m_currentFunction))
return performInline(_statement, *funCall);
}
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return {};
}
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vector<Statement> InlineModifier::performInline(Statement& _statement, FunctionCall& _funCall)
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{
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vector<Statement> newStatements;
map<YulString, YulString> variableReplacements;
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FunctionDefinition* function = m_driver.function(_funCall.functionName.name);
assertThrow(!!function, OptimizerException, "Attempt to inline invalid function.");
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m_driver.tentativelyUpdateCodeSize(function->name, m_currentFunction);
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static Expression const zero{Literal{{}, LiteralKind::Number, YulString{"0"}, {}}};
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// helper function to create a new variable that is supposed to model
// an existing variable.
auto newVariable = [&](TypedName const& _existingVariable, Expression* _value) {
YulString newName = m_nameDispenser.newName(_existingVariable.name, function->name);
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variableReplacements[_existingVariable.name] = newName;
VariableDeclaration varDecl{_funCall.location, {{_funCall.location, newName, _existingVariable.type}}, {}};
if (_value)
varDecl.value = make_unique<Expression>(std::move(*_value));
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else
varDecl.value = make_unique<Expression>(zero);
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newStatements.emplace_back(std::move(varDecl));
};
for (size_t i = 0; i < _funCall.arguments.size(); ++i)
newVariable(function->parameters[i], &_funCall.arguments[i]);
for (auto const& var: function->returnVariables)
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newVariable(var, nullptr);
Statement newBody = BodyCopier(m_nameDispenser, function->name, variableReplacements)(function->body);
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newStatements += std::move(boost::get<Block>(newBody).statements);
boost::apply_visitor(GenericFallbackVisitor<Assignment, VariableDeclaration>{
[&](Assignment& _assignment)
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{
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for (size_t i = 0; i < _assignment.variableNames.size(); ++i)
newStatements.emplace_back(Assignment{
_assignment.location,
{_assignment.variableNames[i]},
make_unique<Expression>(Identifier{
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_assignment.location,
variableReplacements.at(function->returnVariables[i].name)
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})
});
},
[&](VariableDeclaration& _varDecl)
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{
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for (size_t i = 0; i < _varDecl.variables.size(); ++i)
newStatements.emplace_back(VariableDeclaration{
_varDecl.location,
{std::move(_varDecl.variables[i])},
make_unique<Expression>(Identifier{
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_varDecl.location,
variableReplacements.at(function->returnVariables[i].name)
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})
});
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}
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// nothing to be done for expression statement
}, _statement);
return newStatements;
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}
Statement BodyCopier::operator()(VariableDeclaration const& _varDecl)
{
for (auto const& var: _varDecl.variables)
m_variableReplacements[var.name] = m_nameDispenser.newName(var.name, m_varNamePrefix);
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return ASTCopier::operator()(_varDecl);
}
Statement BodyCopier::operator()(FunctionDefinition const&)
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{
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assertThrow(false, OptimizerException, "Function hoisting has to be done before function inlining.");
return {};
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}
YulString BodyCopier::translateIdentifier(YulString _name)
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{
if (m_variableReplacements.count(_name))
return m_variableReplacements.at(_name);
else
return _name;
}