solidity/libyul/AsmParser.cpp

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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
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,
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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/>.
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*/
/**
* @author Christian <c@ethdev.com>
* @date 2016
* Solidity inline assembly parser.
*/
#include <libyul/AsmParser.h>
#include <liblangutil/Scanner.h>
#include <liblangutil/ErrorReporter.h>
#include <libdevcore/Common.h>
#include <boost/algorithm/string.hpp>
#include <cctype>
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#include <algorithm>
using namespace std;
using namespace dev;
using namespace langutil;
using namespace yul;
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shared_ptr<Block> Parser::parse(std::shared_ptr<Scanner> const& _scanner, bool _reuseScanner)
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{
m_recursionDepth = 0;
_scanner->supportPeriodInIdentifier(true);
ScopeGuard resetScanner([&]{ _scanner->supportPeriodInIdentifier(false); });
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try
{
m_scanner = _scanner;
auto block = make_shared<Block>(parseBlock());
if (!_reuseScanner)
expectToken(Token::EOS);
return block;
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}
catch (FatalError const&)
{
solAssert(!m_errorReporter.errors().empty(), "Fatal error detected, but no error is reported.");
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}
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return nullptr;
}
std::map<string, dev::eth::Instruction> const& Parser::instructions()
{
// Allowed instructions, lowercase names.
static map<string, dev::eth::Instruction> s_instructions;
if (s_instructions.empty())
{
for (auto const& instruction: dev::eth::c_instructions)
{
if (
instruction.second == dev::eth::Instruction::JUMPDEST ||
dev::eth::isPushInstruction(instruction.second)
)
continue;
string name = instruction.first;
transform(name.begin(), name.end(), name.begin(), [](unsigned char _c) { return tolower(_c); });
s_instructions[name] = instruction.second;
}
}
return s_instructions;
}
Block Parser::parseBlock()
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{
RecursionGuard recursionGuard(*this);
Block block = createWithLocation<Block>();
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expectToken(Token::LBrace);
while (currentToken() != Token::RBrace)
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block.statements.emplace_back(parseStatement());
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block.location.end = endPosition();
advance();
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return block;
}
Statement Parser::parseStatement()
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{
RecursionGuard recursionGuard(*this);
switch (currentToken())
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{
case Token::Let:
return parseVariableDeclaration();
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case Token::Function:
return parseFunctionDefinition();
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case Token::LBrace:
return parseBlock();
case Token::If:
{
If _if = createWithLocation<If>();
advance();
_if.condition = make_unique<Expression>(parseExpression());
_if.body = parseBlock();
return Statement{move(_if)};
}
case Token::Switch:
{
Switch _switch = createWithLocation<Switch>();
advance();
_switch.expression = make_unique<Expression>(parseExpression());
while (currentToken() == Token::Case)
_switch.cases.emplace_back(parseCase());
if (currentToken() == Token::Default)
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_switch.cases.emplace_back(parseCase());
if (currentToken() == Token::Default)
fatalParserError("Only one default case allowed.");
else if (currentToken() == Token::Case)
fatalParserError("Case not allowed after default case.");
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if (_switch.cases.empty())
fatalParserError("Switch statement without any cases.");
_switch.location.end = _switch.cases.back().body.location.end;
return Statement{move(_switch)};
}
case Token::For:
return parseForLoop();
case Token::Break:
{
Statement stmt{createWithLocation<Break>()};
checkBreakContinuePosition("break");
m_scanner->next();
return stmt;
}
case Token::Continue:
{
Statement stmt{createWithLocation<Continue>()};
checkBreakContinuePosition("continue");
m_scanner->next();
return stmt;
}
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case Token::Assign:
{
if (m_dialect.flavour != AsmFlavour::Loose)
break;
StackAssignment assignment = createWithLocation<StackAssignment>();
advance();
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expectToken(Token::Colon);
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assignment.variableName.location = location();
assignment.variableName.name = YulString(currentLiteral());
if (m_dialect.builtin(assignment.variableName.name))
fatalParserError("Identifier expected, got builtin symbol.");
else if (instructions().count(assignment.variableName.name.str()))
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fatalParserError("Identifier expected, got instruction name.");
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assignment.location.end = endPosition();
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expectToken(Token::Identifier);
return Statement{move(assignment)};
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}
default:
break;
}
// Options left:
// Simple instruction (might turn into functional),
// literal,
// identifier (might turn into label or functional assignment)
ElementaryOperation elementary(parseElementaryOperation());
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switch (currentToken())
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{
case Token::LParen:
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{
Expression expr = parseCall(std::move(elementary));
return ExpressionStatement{locationOf(expr), expr};
}
case Token::Comma:
case Token::AssemblyAssign:
{
std::vector<Identifier> variableNames;
while (true)
{
if (elementary.type() != typeid(Identifier))
{
auto const token = currentToken() == Token::Comma ? "," : ":=";
fatalParserError(
std::string("Variable name must precede \"") +
token +
"\"" +
(currentToken() == Token::Comma ? " in multiple assignment." : " in assignment.")
);
}
auto const& identifier = boost::get<Identifier>(elementary);
if (m_dialect.builtin(identifier.name))
fatalParserError("Cannot assign to builtin function \"" + identifier.name.str() + "\".");
variableNames.emplace_back(identifier);
if (currentToken() != Token::Comma)
break;
expectToken(Token::Comma);
elementary = parseElementaryOperation();
}
Assignment assignment =
createWithLocation<Assignment>(boost::get<Identifier>(elementary).location);
assignment.variableNames = std::move(variableNames);
expectToken(Token::AssemblyAssign);
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assignment.value.reset(new Expression(parseExpression()));
assignment.location.end = locationOf(*assignment.value).end;
return Statement{std::move(assignment)};
}
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case Token::Colon:
{
if (elementary.type() != typeid(Identifier))
fatalParserError("Label name must precede \":\".");
Identifier const& identifier = boost::get<Identifier>(elementary);
advance();
// label
if (m_dialect.flavour != AsmFlavour::Loose)
fatalParserError("Labels are not supported.");
Label label = createWithLocation<Label>(identifier.location);
label.name = identifier.name;
return label;
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}
default:
if (m_dialect.flavour != AsmFlavour::Loose)
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fatalParserError("Call or assignment expected.");
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break;
}
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if (elementary.type() == typeid(Identifier))
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{
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Identifier& identifier = boost::get<Identifier>(elementary);
return ExpressionStatement{identifier.location, { move(identifier) }};
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}
else if (elementary.type() == typeid(Literal))
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{
Expression expr = boost::get<Literal>(elementary);
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return ExpressionStatement{locationOf(expr), expr};
}
else
{
solAssert(elementary.type() == typeid(Instruction), "Invalid elementary operation.");
return boost::get<Instruction>(elementary);
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}
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}
Case Parser::parseCase()
{
RecursionGuard recursionGuard(*this);
Case _case = createWithLocation<Case>();
if (currentToken() == Token::Default)
advance();
else if (currentToken() == Token::Case)
{
advance();
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ElementaryOperation literal = parseElementaryOperation();
if (literal.type() != typeid(Literal))
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fatalParserError("Literal expected.");
_case.value = make_unique<Literal>(boost::get<Literal>(std::move(literal)));
}
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else
solAssert(false, "Case or default case expected.");
_case.body = parseBlock();
_case.location.end = _case.body.location.end;
return _case;
}
ForLoop Parser::parseForLoop()
{
RecursionGuard recursionGuard(*this);
ForLoopComponent outerForLoopComponent = m_currentForLoopComponent;
ForLoop forLoop = createWithLocation<ForLoop>();
expectToken(Token::For);
m_currentForLoopComponent = ForLoopComponent::ForLoopPre;
forLoop.pre = parseBlock();
m_currentForLoopComponent = ForLoopComponent::None;
forLoop.condition = make_unique<Expression>(parseExpression());
m_currentForLoopComponent = ForLoopComponent::ForLoopPost;
forLoop.post = parseBlock();
m_currentForLoopComponent = ForLoopComponent::ForLoopBody;
forLoop.body = parseBlock();
forLoop.location.end = forLoop.body.location.end;
m_currentForLoopComponent = outerForLoopComponent;
return forLoop;
}
Expression Parser::parseExpression()
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{
RecursionGuard recursionGuard(*this);
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ElementaryOperation operation = parseElementaryOperation();
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if (operation.type() == typeid(FunctionCall))
return parseCall(std::move(operation));
else if (operation.type() == typeid(Instruction))
{
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solAssert(m_dialect.flavour == AsmFlavour::Loose, "");
Instruction const& instr = boost::get<Instruction>(operation);
// Disallow instructions returning multiple values (and DUP/SWAP) as expression.
if (
instructionInfo(instr.instruction).ret != 1 ||
isDupInstruction(instr.instruction) ||
isSwapInstruction(instr.instruction)
)
fatalParserError(
"Instruction \"" +
instructionNames().at(instr.instruction) +
"\" not allowed in this context."
);
if (m_dialect.flavour != AsmFlavour::Loose && currentToken() != Token::LParen)
fatalParserError(
"Non-functional instructions are not allowed in this context."
);
// Enforce functional notation for instructions requiring multiple arguments.
int args = instructionInfo(instr.instruction).args;
if (args > 0 && currentToken() != Token::LParen)
fatalParserError(string(
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"Expected '(' (instruction \"" +
instructionNames().at(instr.instruction) +
"\" expects " +
to_string(args) +
" arguments)"
));
}
if (currentToken() == Token::LParen)
return parseCall(std::move(operation));
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else if (operation.type() == typeid(Instruction))
{
// Instructions not taking arguments are allowed as expressions.
solAssert(m_dialect.flavour == AsmFlavour::Loose, "");
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Instruction& instr = boost::get<Instruction>(operation);
return FunctionalInstruction{std::move(instr.location), instr.instruction, {}};
}
else if (operation.type() == typeid(Identifier))
return boost::get<Identifier>(operation);
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else
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{
solAssert(operation.type() == typeid(Literal), "");
return boost::get<Literal>(operation);
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}
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}
std::map<dev::eth::Instruction, string> const& Parser::instructionNames()
{
static map<dev::eth::Instruction, string> s_instructionNames;
if (s_instructionNames.empty())
{
for (auto const& instr: instructions())
s_instructionNames[instr.second] = instr.first;
// set the ambiguous instructions to a clear default
s_instructionNames[dev::eth::Instruction::SELFDESTRUCT] = "selfdestruct";
s_instructionNames[dev::eth::Instruction::KECCAK256] = "keccak256";
}
return s_instructionNames;
}
Parser::ElementaryOperation Parser::parseElementaryOperation()
{
RecursionGuard recursionGuard(*this);
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ElementaryOperation ret;
switch (currentToken())
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{
case Token::Identifier:
case Token::Return:
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case Token::Byte:
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case Token::Address:
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{
YulString literal;
if (currentToken() == Token::Return)
literal = "return"_yulstring;
else if (currentToken() == Token::Byte)
literal = "byte"_yulstring;
else if (currentToken() == Token::Address)
literal = "address"_yulstring;
else
literal = YulString{currentLiteral()};
// first search the set of builtins, then the instructions.
if (m_dialect.builtin(literal))
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{
Identifier identifier{location(), literal};
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advance();
// If the builtin is not followed by `(` and we are in loose mode,
// fall back to instruction.
if (
m_dialect.flavour == AsmFlavour::Loose &&
instructions().count(identifier.name.str()) &&
m_scanner->currentToken() != Token::LParen
)
return Instruction{identifier.location, instructions().at(identifier.name.str())};
else
return FunctionCall{identifier.location, identifier, {}};
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}
else if (m_dialect.flavour == AsmFlavour::Loose && instructions().count(literal.str()))
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{
dev::eth::Instruction const& instr = instructions().at(literal.str());
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ret = Instruction{location(), instr};
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}
else
ret = Identifier{location(), literal};
advance();
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break;
}
case Token::StringLiteral:
case Token::Number:
case Token::TrueLiteral:
case Token::FalseLiteral:
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{
LiteralKind kind = LiteralKind::Number;
switch (currentToken())
{
case Token::StringLiteral:
kind = LiteralKind::String;
break;
case Token::Number:
if (!isValidNumberLiteral(currentLiteral()))
fatalParserError("Invalid number literal.");
kind = LiteralKind::Number;
break;
case Token::TrueLiteral:
case Token::FalseLiteral:
kind = LiteralKind::Boolean;
break;
default:
break;
}
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Literal literal{
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location(),
kind,
YulString{currentLiteral()},
{}
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};
advance();
if (m_dialect.flavour == AsmFlavour::Yul)
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{
expectToken(Token::Colon);
literal.location.end = endPosition();
literal.type = expectAsmIdentifier();
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}
else if (kind == LiteralKind::Boolean)
fatalParserError("True and false are not valid literals.");
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ret = std::move(literal);
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break;
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}
default:
fatalParserError(
m_dialect.flavour == AsmFlavour::Yul ?
"Literal or identifier expected." :
"Literal, identifier or instruction expected."
);
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}
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return ret;
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}
VariableDeclaration Parser::parseVariableDeclaration()
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{
RecursionGuard recursionGuard(*this);
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VariableDeclaration varDecl = createWithLocation<VariableDeclaration>();
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expectToken(Token::Let);
while (true)
{
varDecl.variables.emplace_back(parseTypedName());
if (currentToken() == Token::Comma)
expectToken(Token::Comma);
else
break;
}
if (currentToken() == Token::AssemblyAssign)
{
expectToken(Token::AssemblyAssign);
varDecl.value = make_unique<Expression>(parseExpression());
varDecl.location.end = locationOf(*varDecl.value).end;
}
else
varDecl.location.end = varDecl.variables.back().location.end;
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return varDecl;
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}
FunctionDefinition Parser::parseFunctionDefinition()
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{
RecursionGuard recursionGuard(*this);
if (m_currentForLoopComponent == ForLoopComponent::ForLoopPre)
m_errorReporter.syntaxError(
location(),
"Functions cannot be defined inside a for-loop init block."
);
ForLoopComponent outerForLoopComponent = m_currentForLoopComponent;
m_currentForLoopComponent = ForLoopComponent::None;
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FunctionDefinition funDef = createWithLocation<FunctionDefinition>();
expectToken(Token::Function);
funDef.name = expectAsmIdentifier();
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expectToken(Token::LParen);
while (currentToken() != Token::RParen)
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{
funDef.parameters.emplace_back(parseTypedName());
if (currentToken() == Token::RParen)
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break;
expectToken(Token::Comma);
}
expectToken(Token::RParen);
if (currentToken() == Token::Sub)
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{
expectToken(Token::Sub);
expectToken(Token::GreaterThan);
while (true)
{
funDef.returnVariables.emplace_back(parseTypedName());
if (currentToken() == Token::LBrace)
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break;
expectToken(Token::Comma);
}
}
funDef.body = parseBlock();
funDef.location.end = funDef.body.location.end;
m_currentForLoopComponent = outerForLoopComponent;
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return funDef;
}
Expression Parser::parseCall(Parser::ElementaryOperation&& _initialOp)
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{
RecursionGuard recursionGuard(*this);
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if (_initialOp.type() == typeid(Instruction))
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{
solAssert(m_dialect.flavour != AsmFlavour::Yul, "Instructions are invalid in Yul");
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Instruction& instruction = boost::get<Instruction>(_initialOp);
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FunctionalInstruction ret;
ret.instruction = instruction.instruction;
ret.location = std::move(instruction.location);
dev::eth::Instruction instr = ret.instruction;
dev::eth::InstructionInfo instrInfo = instructionInfo(instr);
if (dev::eth::isDupInstruction(instr))
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fatalParserError("DUPi instructions not allowed for functional notation");
if (dev::eth::isSwapInstruction(instr))
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fatalParserError("SWAPi instructions not allowed for functional notation");
expectToken(Token::LParen);
unsigned args = unsigned(instrInfo.args);
for (unsigned i = 0; i < args; ++i)
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{
/// check for premature closing parentheses
if (currentToken() == Token::RParen)
fatalParserError(string(
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"Expected expression (instruction \"" +
instructionNames().at(instr) +
"\" expects " +
to_string(args) +
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" arguments)"
));
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ret.arguments.emplace_back(parseExpression());
if (i != args - 1)
{
if (currentToken() != Token::Comma)
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fatalParserError(string(
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"Expected ',' (instruction \"" +
instructionNames().at(instr) +
"\" expects " +
to_string(args) +
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" arguments)"
));
else
advance();
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}
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}
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ret.location.end = endPosition();
if (currentToken() == Token::Comma)
fatalParserError(string(
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"Expected ')' (instruction \"" +
instructionNames().at(instr) +
"\" expects " +
to_string(args) +
" arguments)"
));
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expectToken(Token::RParen);
return ret;
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}
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else if (_initialOp.type() == typeid(Identifier) || _initialOp.type() == typeid(FunctionCall))
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{
FunctionCall ret;
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if (_initialOp.type() == typeid(Identifier))
{
ret.functionName = std::move(boost::get<Identifier>(_initialOp));
ret.location = ret.functionName.location;
}
else
ret = std::move(boost::get<FunctionCall>(_initialOp));
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expectToken(Token::LParen);
while (currentToken() != Token::RParen)
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{
ret.arguments.emplace_back(parseExpression());
if (currentToken() == Token::RParen)
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break;
expectToken(Token::Comma);
}
ret.location.end = endPosition();
expectToken(Token::RParen);
return ret;
}
else
fatalParserError(
m_dialect.flavour == AsmFlavour::Yul ?
"Function name expected." :
"Assembly instruction or function name required in front of \"(\")"
);
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return {};
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}
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TypedName Parser::parseTypedName()
{
RecursionGuard recursionGuard(*this);
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TypedName typedName = createWithLocation<TypedName>();
typedName.name = expectAsmIdentifier();
if (m_dialect.flavour == AsmFlavour::Yul)
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{
expectToken(Token::Colon);
typedName.location.end = endPosition();
typedName.type = expectAsmIdentifier();
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}
return typedName;
}
YulString Parser::expectAsmIdentifier()
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{
YulString name = YulString{currentLiteral()};
if (m_dialect.flavour == AsmFlavour::Yul)
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{
switch (currentToken())
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{
case Token::Return:
case Token::Byte:
case Token::Address:
case Token::Bool:
advance();
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return name;
default:
break;
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}
}
else if (m_dialect.builtin(name))
fatalParserError("Cannot use builtin function name \"" + name.str() + "\" as identifier name.");
else if (instructions().count(name.str()))
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fatalParserError("Cannot use instruction names for identifier names.");
expectToken(Token::Identifier);
return name;
}
void Parser::checkBreakContinuePosition(string const& _which)
{
switch (m_currentForLoopComponent)
{
case ForLoopComponent::None:
m_errorReporter.syntaxError(location(), "Keyword \"" + _which + "\" needs to be inside a for-loop body.");
break;
case ForLoopComponent::ForLoopPre:
m_errorReporter.syntaxError(location(), "Keyword \"" + _which + "\" in for-loop init block is not allowed.");
break;
case ForLoopComponent::ForLoopPost:
m_errorReporter.syntaxError(location(), "Keyword \"" + _which + "\" in for-loop post block is not allowed.");
break;
case ForLoopComponent::ForLoopBody:
break;
}
}
bool Parser::isValidNumberLiteral(string const& _literal)
{
try
{
// Try to convert _literal to u256.
auto tmp = u256(_literal);
(void) tmp;
}
catch (...)
{
return false;
}
if (boost::starts_with(_literal, "0x"))
return true;
else
return _literal.find_first_not_of("0123456789") == string::npos;
}