/*
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 .
*/
#pragma once
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
namespace dev
{
namespace solidity
{
namespace test
{
/**
* Class that is able to parse an additional and well-formed comment section in a Solidity
* source file used by the file-based unit test environment. For now, it parses function
* calls and their expected result after the call was made.
*
* - Function calls defined in blocks:
* // f(uint256, uint256): 1, 1 # Signature and comma-separated list of arguments #
* // -> 1, 1 # Expected result value #
* // g(), 2 ether # (Optional) Ether to be send with the call #
* // -> 2, 3
* // h(uint256), 1 ether: 42
* // -> FAILURE # If REVERT or other EVM failure was detected #
* // () # Call fallback function #
* // (), 1 ether # Call ether function #
* ...
*/
class TestFileParser
{
public:
/// Constructor that takes an input stream \param _stream to operate on
/// and creates the internal scanner.
TestFileParser(std::istream& _stream): m_scanner(_stream) {}
/// Parses function calls blockwise and returns a list of function calls found.
/// Throws an exception if a function call cannot be parsed because of its
/// incorrect structure, an invalid or unsupported encoding
/// of its arguments or expected results.
/// Passes the source line offset, such that parsing errors can be enhanced
/// with a line number it occurred in.
std::vector parseFunctionCalls(std::size_t _lineOffset);
private:
using Token = soltest::Token;
/**
* Token scanner that is used internally to abstract away character traversal.
*/
class Scanner
{
public:
/// Constructor that takes an input stream \param _stream to operate on.
/// It reads all lines into one single line, keeping the newlines.
Scanner(std::istream& _stream) { readStream(_stream); }
/// Reads input stream into a single line and resets the current iterator.
void readStream(std::istream& _stream);
/// Reads character stream and creates token.
void scanNextToken();
soltest::Token currentToken() { return m_currentToken.first; }
std::string currentLiteral() { return m_currentToken.second; }
std::string scanComment();
std::string scanIdentifierOrKeyword();
std::string scanDecimalNumber();
std::string scanHexNumber();
std::string scanString();
char scanHexPart();
private:
using TokenDesc = std::pair;
/// Advances current position in the input stream.
void advance(unsigned n = 1)
{
solAssert(m_char != m_line.end(), "Cannot advance beyond end.");
m_char = std::next(m_char, n);
}
/// Returns the current character or '\0' if at end of input.
char current() const noexcept
{
if (m_char == m_line.end())
return '\0';
return *m_char;
}
/// Retrieves the next character ('\0' if that would be at (or beyond) the end of input)
/// without advancing the input stream iterator.
char peek() const noexcept;
/// Returns true if the end of a line is reached, false otherwise.
bool isEndOfLine() const { return m_char == m_line.end(); }
std::string m_line;
std::string::const_iterator m_char;
std::string m_currentLiteral;
TokenDesc m_currentToken;
};
bool accept(soltest::Token _token, bool const _expect = false);
bool expect(soltest::Token _token, bool const _advance = true);
/// Parses a function call signature in the form of `f(uint256, ...)` and
/// returns the signature and a flag that indicates if the function name was
/// empty. If so, the signature is not allowed to define any parameters.
std::pair parseFunctionSignature();
/// Parses the optional ether value that can be passed alongside the
/// function call arguments. Throws an InvalidEtherValueEncoding exception
/// if given value cannot be converted to `u256`.
u256 parseFunctionCallValue();
/// Parses a comma-separated list of arguments passed with a function call.
/// Does not check for a potential mismatch between the signature and the number
/// or types of arguments.
FunctionCallArgs parseFunctionCallArguments();
/// Parses the expected result of a function call execution.
FunctionCallExpectations parseFunctionCallExpectations();
/// Parses the next parameter in a comma separated list.
/// Takes a newly parsed, and type-annotated `bytes` argument,
/// appends it to the internal `bytes` buffer of the parameter. It can also
/// store newlines found in the source, that are needed to
/// format input and output of the interactive update.
/// Parses and converts the current literal to its byte representation and
/// preserves the chosen ABI type, as well as a raw, unformatted string representation
/// of this literal.
/// Based on the type information retrieved, the driver of this parser may format arguments,
/// expectations and results. Supported types:
/// - unsigned and signed decimal number literals.
/// Returns invalid ABI type for empty literal. This is needed in order
/// to detect empty expectations. Throws a ParserError if data is encoded incorrectly or
/// if data type is not supported.
Parameter parseParameter();
/// Recursively parses an identifier or a tuple definition that contains identifiers
/// and / or parentheses like `((uint, uint), (uint, (uint, uint)), uint)`.
std::string parseIdentifierOrTuple();
/// Parses a boolean literal.
std::string parseBoolean();
/// Parses a comment that is defined like this:
/// # A nice comment. #
std::string parseComment();
/// Parses the current decimal number literal.
std::string parseDecimalNumber();
/// Parses the current hex number literal.
std::string parseHexNumber();
/// Parses the current string literal.
std::string parseString();
/// A scanner instance
Scanner m_scanner;
/// The current line number. Incremented when Token::Newline (//) is found and
/// used to enhance parser error messages.
size_t m_lineNumber = 0;
};
}
}
}