/* 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 . */ /** * @date 2019 * Converts inline assembly AST to JSON format */ #include #include #include #include using namespace std; namespace yul { Json::Value AsmJsonConverter::operator()(Block const& _node) const { Json::Value ret = createAstNode(_node.location, "YulBlock"); ret["statements"] = vectorOfVariantsToJson(_node.statements); return ret; } Json::Value AsmJsonConverter::operator()(TypedName const& _node) const { solAssert(!_node.name.empty(), "Invalid variable name."); Json::Value ret = createAstNode(_node.location, "YulTypedName"); ret["name"] = _node.name.str(); ret["type"] = _node.type.str(); return ret; } Json::Value AsmJsonConverter::operator()(Literal const& _node) const { Json::Value ret = createAstNode(_node.location, "YulLiteral"); switch (_node.kind) { case LiteralKind::Number: solAssert( dev::isValidDecimal(_node.value.str()) || dev::isValidHex(_node.value.str()), "Invalid number literal" ); ret["kind"] = "number"; break; case LiteralKind::Boolean: ret["kind"] = "bool"; break; case LiteralKind::String: ret["kind"] = "string"; break; } ret["type"] = _node.type.str(); ret["value"] = _node.value.str(); return ret; } Json::Value AsmJsonConverter::operator()(Identifier const& _node) const { solAssert(!_node.name.empty(), "Invalid identifier"); Json::Value ret = createAstNode(_node.location, "YulIdentifier"); ret["name"] = _node.name.str(); return ret; } Json::Value AsmJsonConverter::operator()(Assignment const& _node) const { solAssert(_node.variableNames.size() >= 1, "Invalid assignment syntax"); Json::Value ret = createAstNode(_node.location, "YulAssignment"); for (auto const& var: _node.variableNames) ret["variableNames"].append((*this)(var)); ret["value"] = _node.value ? std::visit(*this, *_node.value) : Json::nullValue; return ret; } Json::Value AsmJsonConverter::operator()(FunctionCall const& _node) const { Json::Value ret = createAstNode(_node.location, "YulFunctionCall"); ret["functionName"] = (*this)(_node.functionName); ret["arguments"] = vectorOfVariantsToJson(_node.arguments); return ret; } Json::Value AsmJsonConverter::operator()(ExpressionStatement const& _node) const { Json::Value ret = createAstNode(_node.location, "YulExpressionStatement"); ret["expression"] = std::visit(*this, _node.expression); return ret; } Json::Value AsmJsonConverter::operator()(VariableDeclaration const& _node) const { Json::Value ret = createAstNode(_node.location, "YulVariableDeclaration"); for (auto const& var: _node.variables) ret["variables"].append((*this)(var)); ret["value"] = _node.value ? std::visit(*this, *_node.value) : Json::nullValue; return ret; } Json::Value AsmJsonConverter::operator()(FunctionDefinition const& _node) const { solAssert(!_node.name.empty(), "Invalid function name."); Json::Value ret = createAstNode(_node.location, "YulFunctionDefinition"); 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 { solAssert(_node.condition, "Invalid if condition."); Json::Value ret = createAstNode(_node.location, "YulIf"); ret["condition"] = std::visit(*this, *_node.condition); ret["body"] = (*this)(_node.body); return ret; } Json::Value AsmJsonConverter::operator()(Switch const& _node) const { solAssert(_node.expression, "Invalid expression pointer."); Json::Value ret = createAstNode(_node.location, "YulSwitch"); ret["expression"] = std::visit(*this, *_node.expression); 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(_node.location, "YulCase"); ret["value"] = _node.value ? (*this)(*_node.value) : "default"; ret["body"] = (*this)(_node.body); return ret; } Json::Value AsmJsonConverter::operator()(ForLoop const& _node) const { solAssert(_node.condition, "Invalid for loop condition."); Json::Value ret = createAstNode(_node.location, "YulForLoop"); ret["pre"] = (*this)(_node.pre); ret["condition"] = std::visit(*this, *_node.condition); ret["post"] = (*this)(_node.post); ret["body"] = (*this)(_node.body); return ret; } Json::Value AsmJsonConverter::operator()(Break const& _node) const { return createAstNode(_node.location, "YulBreak"); } Json::Value AsmJsonConverter::operator()(Continue const& _node) const { return createAstNode(_node.location, "YulContinue"); } Json::Value AsmJsonConverter::operator()(Leave const& _node) const { return createAstNode(_node.location, "YulLeave"); } Json::Value AsmJsonConverter::createAstNode(langutil::SourceLocation const& _location, string _nodeType) const { Json::Value ret{Json::objectValue}; ret["nodeType"] = std::move(_nodeType); int length = -1; if (_location.start >= 0 && _location.end >= 0) length = _location.end - _location.start; ret["src"] = to_string(_location.start) + ":" + to_string(length) + ":" + m_sourceIndex; return ret; } template Json::Value AsmJsonConverter::vectorOfVariantsToJson(vector const& _vec) const { Json::Value ret{Json::arrayValue}; for (auto const& var: _vec) ret.append(std::visit(*this, var)); return ret; } }