2020-11-20 21:56:28 +00:00
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/*
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This file is part of solidity.
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solidity 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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solidity 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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You should have received a copy of the GNU General Public License
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along with solidity. If not, see <http://www.gnu.org/licenses/>.
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*/
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// SPDX-License-Identifier: GPL-3.0
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#include <libyul/optimiser/FunctionSpecializer.h>
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#include <libyul/optimiser/ASTCopier.h>
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2021-03-25 12:19:23 +00:00
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#include <libyul/optimiser/CallGraphGenerator.h>
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2020-11-20 21:56:28 +00:00
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#include <libyul/optimiser/NameCollector.h>
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#include <libyul/optimiser/NameDispenser.h>
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#include <libyul/AST.h>
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#include <libyul/YulString.h>
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#include <libsolutil/CommonData.h>
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#include <range/v3/algorithm/any_of.hpp>
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#include <range/v3/view/enumerate.hpp>
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#include <variant>
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using namespace std;
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using namespace solidity::util;
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using namespace solidity::yul;
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FunctionSpecializer::LiteralArguments FunctionSpecializer::specializableArguments(
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FunctionCall const& _f
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)
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{
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auto heuristic = [&](Expression const& _e) -> optional<Expression>
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{
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if (holds_alternative<Literal>(_e))
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return ASTCopier{}.translate(_e);
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return nullopt;
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};
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return applyMap(_f.arguments, heuristic);
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}
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void FunctionSpecializer::operator()(FunctionCall& _f)
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{
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ASTModifier::operator()(_f);
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2021-03-25 12:19:23 +00:00
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// TODO When backtracking is implemented, the restriction of recursive functions can be lifted.
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if (
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m_dialect.builtin(_f.functionName.name) ||
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m_recursiveFunctions.count(_f.functionName.name)
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)
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return;
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LiteralArguments arguments = specializableArguments(_f);
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if (ranges::any_of(arguments, [](auto& _a) { return _a.has_value(); }))
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{
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YulString oldName = move(_f.functionName.name);
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auto newName = m_nameDispenser.newName(oldName);
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m_oldToNewMap[oldName].emplace_back(make_pair(newName, arguments));
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_f.functionName.name = newName;
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_f.arguments = util::filter(
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_f.arguments,
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applyMap(arguments, [](auto& _a) { return !_a; })
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);
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}
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}
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FunctionDefinition FunctionSpecializer::specialize(
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FunctionDefinition const& _f,
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YulString _newName,
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FunctionSpecializer::LiteralArguments _arguments
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)
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{
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yulAssert(_arguments.size() == _f.parameters.size(), "");
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map<YulString, YulString> translatedNames = applyMap(
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NameCollector{_f, NameCollector::OnlyVariables}.names(),
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[&](auto& _name) -> pair<YulString, YulString>
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{
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return make_pair(_name, m_nameDispenser.newName(_name));
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},
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map<YulString, YulString>{}
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);
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FunctionDefinition newFunction = get<FunctionDefinition>(FunctionCopier{translatedNames}(_f));
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// Function parameters that will be specialized inside the body are converted into variable
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// declarations.
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vector<Statement> missingVariableDeclarations;
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for (auto&& [index, argument]: _arguments | ranges::views::enumerate)
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if (argument)
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missingVariableDeclarations.emplace_back(
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VariableDeclaration{
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2021-04-27 14:53:04 +00:00
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_f.debugData,
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2020-11-20 21:56:28 +00:00
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vector<TypedName>{newFunction.parameters[index]},
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make_unique<Expression>(move(*argument))
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}
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);
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newFunction.body.statements =
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move(missingVariableDeclarations) + move(newFunction.body.statements);
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2021-03-25 12:19:23 +00:00
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// Only take those indices that cannot be specialized, i.e., whose value is `nullopt`.
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newFunction.parameters =
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util::filter(
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newFunction.parameters,
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applyMap(_arguments, [&](auto const& _v) { return !_v; })
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);
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newFunction.name = move(_newName);
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return newFunction;
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}
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void FunctionSpecializer::run(OptimiserStepContext& _context, Block& _ast)
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{
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FunctionSpecializer f{
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CallGraphGenerator::callGraph(_ast).recursiveFunctions(),
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_context.dispenser,
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_context.dialect
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};
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2020-11-20 21:56:28 +00:00
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f(_ast);
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iterateReplacing(_ast.statements, [&](Statement& _s) -> optional<vector<Statement>>
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{
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if (holds_alternative<FunctionDefinition>(_s))
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{
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auto& functionDefinition = get<FunctionDefinition>(_s);
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if (f.m_oldToNewMap.count(functionDefinition.name))
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{
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vector<Statement> out = applyMap(
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f.m_oldToNewMap.at(functionDefinition.name),
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[&](auto& _p) -> Statement
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{
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return f.specialize(functionDefinition, move(_p.first), move(_p.second));
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}
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);
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return move(out) + make_vector<Statement>(move(functionDefinition));
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}
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}
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return nullopt;
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});
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}
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