solidity/libyul/AsmJsonConverter.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/>.
*/
// SPDX-License-Identifier: GPL-3.0
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/**
* @date 2019
* Converts inline assembly AST to JSON format
*/
#include <libyul/AsmJsonConverter.h>
#include <libyul/AST.h>
#include <libyul/Exceptions.h>
#include <libsolutil/CommonData.h>
#include <libsolutil/UTF8.h>
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using namespace std;
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namespace solidity::yul
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{
Json::Value AsmJsonConverter::operator()(Block const& _node) const
{
Json::Value ret = createAstNode(originLocationOf(_node), nativeLocationOf(_node), "YulBlock");
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ret["statements"] = vectorOfVariantsToJson(_node.statements);
return ret;
}
Json::Value AsmJsonConverter::operator()(TypedName const& _node) const
{
yulAssert(!_node.name.empty(), "Invalid variable name.");
Json::Value ret = createAstNode(originLocationOf(_node), nativeLocationOf(_node), "YulTypedName");
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ret["name"] = _node.name.str();
ret["type"] = _node.type.str();
return ret;
}
Json::Value AsmJsonConverter::operator()(Literal const& _node) const
{
Json::Value ret = createAstNode(originLocationOf(_node), nativeLocationOf(_node), "YulLiteral");
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switch (_node.kind)
{
case LiteralKind::Number:
yulAssert(
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util::isValidDecimal(_node.value.str()) || util::isValidHex(_node.value.str()),
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"Invalid number literal"
);
ret["kind"] = "number";
break;
case LiteralKind::Boolean:
ret["kind"] = "bool";
break;
case LiteralKind::String:
ret["kind"] = "string";
ret["hexValue"] = util::toHex(util::asBytes(_node.value.str()));
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break;
}
ret["type"] = _node.type.str();
if (util::validateUTF8(_node.value.str()))
ret["value"] = _node.value.str();
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return ret;
}
Json::Value AsmJsonConverter::operator()(Identifier const& _node) const
{
yulAssert(!_node.name.empty(), "Invalid identifier");
Json::Value ret = createAstNode(originLocationOf(_node), nativeLocationOf(_node), "YulIdentifier");
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ret["name"] = _node.name.str();
return ret;
}
Json::Value AsmJsonConverter::operator()(Assignment const& _node) const
{
yulAssert(_node.variableNames.size() >= 1, "Invalid assignment syntax");
Json::Value ret = createAstNode(originLocationOf(_node), nativeLocationOf(_node), "YulAssignment");
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for (auto const& var: _node.variableNames)
ret["variableNames"].append((*this)(var));
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ret["value"] = _node.value ? std::visit(*this, *_node.value) : Json::nullValue;
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return ret;
}
Json::Value AsmJsonConverter::operator()(FunctionCall const& _node) const
{
Json::Value ret = createAstNode(originLocationOf(_node), nativeLocationOf(_node), "YulFunctionCall");
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ret["functionName"] = (*this)(_node.functionName);
ret["arguments"] = vectorOfVariantsToJson(_node.arguments);
return ret;
}
Json::Value AsmJsonConverter::operator()(ExpressionStatement const& _node) const
{
Json::Value ret = createAstNode(originLocationOf(_node), nativeLocationOf(_node), "YulExpressionStatement");
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ret["expression"] = std::visit(*this, _node.expression);
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return ret;
}
Json::Value AsmJsonConverter::operator()(VariableDeclaration const& _node) const
{
Json::Value ret = createAstNode(originLocationOf(_node), nativeLocationOf(_node), "YulVariableDeclaration");
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for (auto const& var: _node.variables)
ret["variables"].append((*this)(var));
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ret["value"] = _node.value ? std::visit(*this, *_node.value) : Json::nullValue;
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return ret;
}
Json::Value AsmJsonConverter::operator()(FunctionDefinition const& _node) const
{
yulAssert(!_node.name.empty(), "Invalid function name.");
Json::Value ret = createAstNode(originLocationOf(_node), nativeLocationOf(_node), "YulFunctionDefinition");
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ret["name"] = _node.name.str();
for (auto const& var: _node.parameters)
ret["parameters"].append((*this)(var));
for (auto const& var: _node.returnVariables)
ret["returnVariables"].append((*this)(var));
ret["body"] = (*this)(_node.body);
return ret;
}
Json::Value AsmJsonConverter::operator()(If const& _node) const
{
yulAssert(_node.condition, "Invalid if condition.");
Json::Value ret = createAstNode(originLocationOf(_node), nativeLocationOf(_node), "YulIf");
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ret["condition"] = std::visit(*this, *_node.condition);
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ret["body"] = (*this)(_node.body);
return ret;
}
Json::Value AsmJsonConverter::operator()(Switch const& _node) const
{
yulAssert(_node.expression, "Invalid expression pointer.");
Json::Value ret = createAstNode(originLocationOf(_node), nativeLocationOf(_node), "YulSwitch");
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ret["expression"] = std::visit(*this, *_node.expression);
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for (auto const& var: _node.cases)
ret["cases"].append((*this)(var));
return ret;
}
Json::Value AsmJsonConverter::operator()(Case const& _node) const
{
Json::Value ret = createAstNode(originLocationOf(_node), nativeLocationOf(_node), "YulCase");
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ret["value"] = _node.value ? (*this)(*_node.value) : "default";
ret["body"] = (*this)(_node.body);
return ret;
}
Json::Value AsmJsonConverter::operator()(ForLoop const& _node) const
{
yulAssert(_node.condition, "Invalid for loop condition.");
Json::Value ret = createAstNode(originLocationOf(_node), nativeLocationOf(_node), "YulForLoop");
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ret["pre"] = (*this)(_node.pre);
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ret["condition"] = std::visit(*this, *_node.condition);
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ret["post"] = (*this)(_node.post);
ret["body"] = (*this)(_node.body);
return ret;
}
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Json::Value AsmJsonConverter::operator()(Break const& _node) const
{
return createAstNode(originLocationOf(_node), nativeLocationOf(_node), "YulBreak");
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}
Json::Value AsmJsonConverter::operator()(Continue const& _node) const
{
return createAstNode(originLocationOf(_node), nativeLocationOf(_node), "YulContinue");
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}
Json::Value AsmJsonConverter::operator()(Leave const& _node) const
{
return createAstNode(originLocationOf(_node), nativeLocationOf(_node), "YulLeave");
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}
Json::Value AsmJsonConverter::createAstNode(langutil::SourceLocation const& _originLocation, langutil::SourceLocation const& _nativeLocation, string _nodeType) const
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{
Json::Value ret{Json::objectValue};
ret["nodeType"] = std::move(_nodeType);
auto srcLocation = [&](int start, int end) -> string
{
int length = (start >= 0 && end >= 0 && end >= start) ? end - start : -1;
return to_string(start) + ":" + to_string(length) + ":" + (m_sourceIndex.has_value() ? to_string(m_sourceIndex.value()) : "-1");
};
ret["src"] = srcLocation(_originLocation.start, _originLocation.end);
ret["nativeSrc"] = srcLocation(_nativeLocation.start, _nativeLocation.end);
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return ret;
}
template <class T>
Json::Value AsmJsonConverter::vectorOfVariantsToJson(vector<T> const& _vec) const
{
Json::Value ret{Json::arrayValue};
for (auto const& var: _vec)
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ret.append(std::visit(*this, var));
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return ret;
}
}