mirror of
https://github.com/ethereum/solidity
synced 2023-10-03 13:03:40 +00:00
393 lines
12 KiB
C++
393 lines
12 KiB
C++
/*
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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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/**
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* Common code generator for translating Yul / inline assembly to Wasm.
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*/
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#include <libyul/backends/wasm/WasmCodeTransform.h>
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#include <libyul/optimiser/NameCollector.h>
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#include <libyul/AsmData.h>
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#include <libyul/Dialect.h>
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#include <libyul/Utilities.h>
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#include <libyul/Exceptions.h>
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#include <liblangutil/Exceptions.h>
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#include <boost/range/adaptor/reversed.hpp>
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#include <boost/range/adaptor/transformed.hpp>
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using namespace std;
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using namespace dev;
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using namespace yul;
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wasm::Module WasmCodeTransform::run(Dialect const& _dialect, yul::Block const& _ast)
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{
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wasm::Module module;
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WasmCodeTransform transform(_dialect, _ast);
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for (auto const& statement: _ast.statements)
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{
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yulAssert(
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holds_alternative<yul::FunctionDefinition>(statement),
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"Expected only function definitions at the highest level."
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);
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if (holds_alternative<yul::FunctionDefinition>(statement))
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module.functions.emplace_back(transform.translateFunction(std::get<yul::FunctionDefinition>(statement)));
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}
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for (auto& imp: transform.m_functionsToImport)
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module.imports.emplace_back(std::move(imp.second));
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module.globals = transform.m_globalVariables;
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return module;
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}
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wasm::Expression WasmCodeTransform::generateMultiAssignment(
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vector<string> _variableNames,
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unique_ptr<wasm::Expression> _firstValue
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)
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{
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yulAssert(!_variableNames.empty(), "");
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wasm::LocalAssignment assignment{move(_variableNames.front()), std::move(_firstValue)};
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if (_variableNames.size() == 1)
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return { std::move(assignment) };
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allocateGlobals(_variableNames.size() - 1);
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wasm::Block block;
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block.statements.emplace_back(move(assignment));
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for (size_t i = 1; i < _variableNames.size(); ++i)
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block.statements.emplace_back(wasm::LocalAssignment{
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move(_variableNames.at(i)),
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make_unique<wasm::Expression>(wasm::GlobalVariable{m_globalVariables.at(i - 1).variableName})
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});
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return { std::move(block) };
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}
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wasm::Expression WasmCodeTransform::operator()(VariableDeclaration const& _varDecl)
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{
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vector<string> variableNames;
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for (auto const& var: _varDecl.variables)
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{
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variableNames.emplace_back(var.name.str());
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m_localVariables.emplace_back(wasm::VariableDeclaration{variableNames.back()});
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}
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if (_varDecl.value)
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return generateMultiAssignment(move(variableNames), visit(*_varDecl.value));
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else
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return wasm::BuiltinCall{"nop", {}};
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}
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wasm::Expression WasmCodeTransform::operator()(Assignment const& _assignment)
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{
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vector<string> variableNames;
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for (auto const& var: _assignment.variableNames)
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variableNames.emplace_back(var.name.str());
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return generateMultiAssignment(move(variableNames), visit(*_assignment.value));
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}
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wasm::Expression WasmCodeTransform::operator()(ExpressionStatement const& _statement)
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{
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return visitReturnByValue(_statement.expression);
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}
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wasm::Expression WasmCodeTransform::operator()(FunctionCall const& _call)
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{
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bool typeConversionNeeded = false;
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if (BuiltinFunction const* builtin = m_dialect.builtin(_call.functionName.name))
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{
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if (_call.functionName.name.str().substr(0, 4) == "eth.")
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{
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yulAssert(builtin->returns.size() <= 1, "");
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// Imported function, use regular call, but mark for import.
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if (!m_functionsToImport.count(builtin->name))
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{
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wasm::FunctionImport imp{
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"ethereum",
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builtin->name.str().substr(4),
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builtin->name.str(),
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{},
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builtin->returns.empty() ? nullptr : make_unique<string>(builtin->returns.front().str())
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};
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for (auto const& param: builtin->parameters)
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imp.paramTypes.emplace_back(param.str());
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m_functionsToImport[builtin->name] = std::move(imp);
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}
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typeConversionNeeded = true;
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}
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else if (builtin->literalArguments)
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{
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vector<wasm::Expression> literals;
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for (auto const& arg: _call.arguments)
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literals.emplace_back(wasm::StringLiteral{std::get<Literal>(arg).value.str()});
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return wasm::BuiltinCall{_call.functionName.name.str(), std::move(literals)};
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}
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else
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{
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wasm::BuiltinCall call{
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_call.functionName.name.str(),
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injectTypeConversionIfNeeded(visit(_call.arguments), builtin->parameters)
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};
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if (!builtin->returns.empty() && !builtin->returns.front().empty() && builtin->returns.front() != "i64"_yulstring)
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{
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yulAssert(builtin->returns.front() == "i32"_yulstring, "Invalid type " + builtin->returns.front().str());
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call = wasm::BuiltinCall{"i64.extend_i32_u", make_vector<wasm::Expression>(std::move(call))};
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}
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return {std::move(call)};
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}
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}
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// If this function returns multiple values, then the first one will
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// be returned in the expression itself and the others in global variables.
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// The values have to be used right away in an assignment or variable declaration,
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// so it is handled there.
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wasm::FunctionCall funCall{_call.functionName.name.str(), visit(_call.arguments)};
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if (typeConversionNeeded)
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// Inject type conversion if needed on the fly. This is just a temporary measure
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// and can be removed once we have proper types in Yul.
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return injectTypeConversionIfNeeded(std::move(funCall));
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else
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return {std::move(funCall)};
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}
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wasm::Expression WasmCodeTransform::operator()(Identifier const& _identifier)
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{
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return wasm::LocalVariable{_identifier.name.str()};
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}
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wasm::Expression WasmCodeTransform::operator()(Literal const& _literal)
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{
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u256 value = valueOfLiteral(_literal);
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yulAssert(value <= numeric_limits<uint64_t>::max(), "Literal too large: " + value.str());
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return wasm::Literal{uint64_t(value)};
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}
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wasm::Expression WasmCodeTransform::operator()(If const& _if)
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{
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// TODO converting i64 to i32 might not always be needed.
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vector<wasm::Expression> args;
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args.emplace_back(visitReturnByValue(*_if.condition));
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args.emplace_back(wasm::Literal{0});
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return wasm::If{
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make_unique<wasm::Expression>(wasm::BuiltinCall{"i64.ne", std::move(args)}),
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visit(_if.body.statements),
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{}
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};
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}
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wasm::Expression WasmCodeTransform::operator()(Switch const& _switch)
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{
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wasm::Block block;
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string condition = m_nameDispenser.newName("condition"_yulstring).str();
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m_localVariables.emplace_back(wasm::VariableDeclaration{condition});
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block.statements.emplace_back(wasm::LocalAssignment{condition, visit(*_switch.expression)});
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vector<wasm::Expression>* currentBlock = &block.statements;
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for (size_t i = 0; i < _switch.cases.size(); ++i)
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{
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Case const& c = _switch.cases.at(i);
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if (c.value)
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{
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wasm::BuiltinCall comparison{"i64.eq", make_vector<wasm::Expression>(
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wasm::LocalVariable{condition},
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visitReturnByValue(*c.value)
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)};
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wasm::If ifStmnt{
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make_unique<wasm::Expression>(move(comparison)),
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visit(c.body.statements),
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{}
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};
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vector<wasm::Expression>* nextBlock = nullptr;
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if (i != _switch.cases.size() - 1)
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{
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ifStmnt.elseStatements = make_unique<vector<wasm::Expression>>();
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nextBlock = ifStmnt.elseStatements.get();
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}
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currentBlock->emplace_back(move(ifStmnt));
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currentBlock = nextBlock;
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}
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else
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{
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yulAssert(i == _switch.cases.size() - 1, "Default case must be last.");
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*currentBlock += visit(c.body.statements);
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}
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}
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return { std::move(block) };
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}
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wasm::Expression WasmCodeTransform::operator()(FunctionDefinition const&)
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{
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yulAssert(false, "Should not have visited here.");
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return {};
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}
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wasm::Expression WasmCodeTransform::operator()(ForLoop const& _for)
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{
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string breakLabel = newLabel();
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string continueLabel = newLabel();
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m_breakContinueLabelNames.push({breakLabel, continueLabel});
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wasm::Loop loop;
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loop.statements = visit(_for.pre.statements);
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loop.statements.emplace_back(wasm::BreakIf{wasm::Label{breakLabel}, make_unique<wasm::Expression>(
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wasm::BuiltinCall{"i64.eqz", make_vector<wasm::Expression>(
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visitReturnByValue(*_for.condition)
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)}
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)});
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loop.statements.emplace_back(wasm::Block{continueLabel, visit(_for.body.statements)});
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loop.statements += visit(_for.post.statements);
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return { wasm::Block{breakLabel, make_vector<wasm::Expression>(move(loop))} };
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}
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wasm::Expression WasmCodeTransform::operator()(Break const&)
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{
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return wasm::Break{wasm::Label{m_breakContinueLabelNames.top().first}};
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}
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wasm::Expression WasmCodeTransform::operator()(Continue const&)
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{
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return wasm::Break{wasm::Label{m_breakContinueLabelNames.top().second}};
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}
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wasm::Expression WasmCodeTransform::operator()(Leave const&)
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{
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return wasm::Return{};
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}
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wasm::Expression WasmCodeTransform::operator()(Block const& _block)
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{
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return wasm::Block{{}, visit(_block.statements)};
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}
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unique_ptr<wasm::Expression> WasmCodeTransform::visit(yul::Expression const& _expression)
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{
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return make_unique<wasm::Expression>(std::visit(*this, _expression));
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}
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wasm::Expression WasmCodeTransform::visitReturnByValue(yul::Expression const& _expression)
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{
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return std::visit(*this, _expression);
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}
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vector<wasm::Expression> WasmCodeTransform::visit(vector<yul::Expression> const& _expressions)
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{
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vector<wasm::Expression> ret;
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for (auto const& e: _expressions)
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ret.emplace_back(visitReturnByValue(e));
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return ret;
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}
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wasm::Expression WasmCodeTransform::visit(yul::Statement const& _statement)
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{
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return std::visit(*this, _statement);
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}
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vector<wasm::Expression> WasmCodeTransform::visit(vector<yul::Statement> const& _statements)
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{
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vector<wasm::Expression> ret;
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for (auto const& s: _statements)
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ret.emplace_back(visit(s));
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return ret;
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}
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wasm::FunctionDefinition WasmCodeTransform::translateFunction(yul::FunctionDefinition const& _fun)
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{
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wasm::FunctionDefinition fun;
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fun.name = _fun.name.str();
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for (auto const& param: _fun.parameters)
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fun.parameterNames.emplace_back(param.name.str());
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for (auto const& retParam: _fun.returnVariables)
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fun.locals.emplace_back(wasm::VariableDeclaration{retParam.name.str()});
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fun.returns = !_fun.returnVariables.empty();
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yulAssert(m_localVariables.empty(), "");
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fun.body = visit(_fun.body.statements);
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fun.locals += m_localVariables;
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m_localVariables.clear();
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if (!_fun.returnVariables.empty())
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{
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// First return variable is returned directly, the others are stored
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// in globals.
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allocateGlobals(_fun.returnVariables.size() - 1);
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for (size_t i = 1; i < _fun.returnVariables.size(); ++i)
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fun.body.emplace_back(wasm::GlobalAssignment{
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m_globalVariables.at(i - 1).variableName,
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make_unique<wasm::Expression>(wasm::LocalVariable{_fun.returnVariables.at(i).name.str()})
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});
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fun.body.emplace_back(wasm::LocalVariable{_fun.returnVariables.front().name.str()});
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}
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return fun;
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}
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wasm::Expression WasmCodeTransform::injectTypeConversionIfNeeded(wasm::FunctionCall _call) const
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{
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wasm::FunctionImport const& import = m_functionsToImport.at(YulString{_call.functionName});
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for (size_t i = 0; i < _call.arguments.size(); ++i)
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if (import.paramTypes.at(i) == "i32")
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_call.arguments[i] = wasm::BuiltinCall{"i32.wrap_i64", make_vector<wasm::Expression>(std::move(_call.arguments[i]))};
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else
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yulAssert(import.paramTypes.at(i) == "i64", "Unknown type " + import.paramTypes.at(i));
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if (import.returnType && *import.returnType != "i64")
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{
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yulAssert(*import.returnType == "i32", "Invalid type " + *import.returnType);
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return wasm::BuiltinCall{"i64.extend_i32_u", make_vector<wasm::Expression>(std::move(_call))};
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}
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return {std::move(_call)};
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}
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vector<wasm::Expression> WasmCodeTransform::injectTypeConversionIfNeeded(
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vector<wasm::Expression> _arguments,
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vector<Type> const& _parameterTypes
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) const
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{
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for (size_t i = 0; i < _arguments.size(); ++i)
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if (_parameterTypes.at(i) == "i32"_yulstring)
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_arguments[i] = wasm::BuiltinCall{"i32.wrap_i64", make_vector<wasm::Expression>(std::move(_arguments[i]))};
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else
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yulAssert(
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_parameterTypes.at(i).empty() || _parameterTypes.at(i) == "i64"_yulstring,
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"Unknown type " + _parameterTypes.at(i).str()
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);
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return _arguments;
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}
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string WasmCodeTransform::newLabel()
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{
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return m_nameDispenser.newName("label_"_yulstring).str();
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}
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void WasmCodeTransform::allocateGlobals(size_t _amount)
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{
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while (m_globalVariables.size() < _amount)
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m_globalVariables.emplace_back(wasm::GlobalVariableDeclaration{
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m_nameDispenser.newName("global_"_yulstring).str()
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});
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}
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