/* 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 . */ /** * @author Christian * @date 2016 * Parsed inline assembly to be used by the AST */ #pragma once #include #include #include #include #include #include #include #include namespace yul { using Type = YulString; struct TypedName { langutil::SourceLocation location; YulString name; Type type; }; using TypedNameList = std::vector; /// Direct EVM instruction (except PUSHi and JUMPDEST) struct Instruction { langutil::SourceLocation location; dev::solidity::Instruction instruction; }; /// Literal number or string (up to 32 bytes) enum class LiteralKind { Number, Boolean, String }; struct Literal { langutil::SourceLocation location; LiteralKind kind; YulString value; Type type; }; /// External / internal identifier or label reference struct Identifier { langutil::SourceLocation location; YulString name; }; /// Jump label ("name:") struct Label { langutil::SourceLocation location; YulString name; }; /// Assignment from stack (":= x", moves stack top into x, potentially multiple slots) struct StackAssignment { langutil::SourceLocation location; Identifier variableName; }; /// Assignment ("x := mload(20:u256)", expects push-1-expression on the right hand /// side and requires x to occupy exactly one stack slot. /// /// Multiple assignment ("x, y := f()"), where the left hand side variables each occupy /// a single stack slot and expects a single expression on the right hand returning /// the same amount of items as the number of variables. struct Assignment { langutil::SourceLocation location; std::vector variableNames; std::unique_ptr value; }; /// Functional instruction, e.g. "mul(mload(20:u256), add(2:u256, x))" struct FunctionalInstruction { langutil::SourceLocation location; dev::solidity::Instruction instruction; std::vector arguments; }; struct FunctionCall { langutil::SourceLocation location; Identifier functionName; std::vector arguments; }; /// Statement that contains only a single expression struct ExpressionStatement { langutil::SourceLocation location; Expression expression; }; /// Block-scope variable declaration ("let x:u256 := mload(20:u256)"), non-hoisted struct VariableDeclaration { langutil::SourceLocation location; TypedNameList variables; std::unique_ptr value; }; /// Block that creates a scope (frees declared stack variables) struct Block { langutil::SourceLocation location; std::vector statements; }; /// Function definition ("function f(a, b) -> (d, e) { ... }") struct FunctionDefinition { langutil::SourceLocation location; YulString name; TypedNameList parameters; TypedNameList returnVariables; Block body; }; /// Conditional execution without "else" part. struct If { langutil::SourceLocation location; std::unique_ptr condition; Block body; }; /// Switch case or default case struct Case { langutil::SourceLocation location; std::unique_ptr value; Block body; }; /// Switch statement struct Switch { langutil::SourceLocation location; std::unique_ptr expression; std::vector cases; }; struct ForLoop { langutil::SourceLocation location; Block pre; std::unique_ptr condition; Block post; Block body; }; struct LocationExtractor: boost::static_visitor { template langutil::SourceLocation operator()(T const& _node) const { return _node.location; } }; /// Extracts the source location from an inline assembly node. template inline langutil::SourceLocation locationOf(T const& _node) { return boost::apply_visitor(LocationExtractor(), _node); } }