// Copyright 2006-2012, the V8 project authors. All rights reserved.
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// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
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// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
//
// Modifications as part of cpp-ethereum under the following license:
//
// cpp-ethereum 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.
//
// cpp-ethereum 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 cpp-ethereum. If not, see .
#pragma once
#include
#include
#include
namespace dev
{
namespace solidity
{
// TOKEN_LIST takes a list of 3 macros M, all of which satisfy the
// same signature M(name, string, precedence), where name is the
// symbolic token name, string is the corresponding syntactic symbol
// (or NULL, for literals), and precedence is the precedence (or 0).
// The parameters are invoked for token categories as follows:
//
// T: Non-keyword tokens
// K: Keyword tokens
// IGNORE_TOKEN is a convenience macro that can be supplied as
// an argument (at any position) for a TOKEN_LIST call. It does
// nothing with tokens belonging to the respective category.
#define IGNORE_TOKEN(name, string, precedence)
#define TOKEN_LIST(T, K) \
/* End of source indicator. */ \
T(EOS, "EOS", 0) \
\
/* Punctuators (ECMA-262, section 7.7, page 15). */ \
T(LPAREN, "(", 0) \
T(RPAREN, ")", 0) \
T(LBRACK, "[", 0) \
T(RBRACK, "]", 0) \
T(LBRACE, "{", 0) \
T(RBRACE, "}", 0) \
T(COLON, ":", 0) \
T(SEMICOLON, ";", 0) \
T(PERIOD, ".", 0) \
T(CONDITIONAL, "?", 3) \
T(ARROW, "=>", 0) \
\
/* Assignment operators. */ \
/* IsAssignmentOp() relies on this block of enum values being */ \
/* contiguous and sorted in the same order!*/ \
T(ASSIGN, "=", 2) \
/* The following have to be in exactly the same order as the simple binary operators*/ \
T(ASSIGN_BIT_OR, "|=", 2) \
T(ASSIGN_BIT_XOR, "^=", 2) \
T(ASSIGN_BIT_AND, "&=", 2) \
T(ASSIGN_SHL, "<<=", 2) \
T(ASSIGN_SAR, ">>=", 2) \
T(ASSIGN_SHR, ">>>=", 2) \
T(ASSIGN_ADD, "+=", 2) \
T(ASSIGN_SUB, "-=", 2) \
T(ASSIGN_MUL, "*=", 2) \
T(ASSIGN_DIV, "/=", 2) \
T(ASSIGN_MOD, "%=", 2) \
\
/* Binary operators sorted by precedence. */ \
/* IsBinaryOp() relies on this block of enum values */ \
/* being contiguous and sorted in the same order! */ \
T(COMMA, ",", 1) \
T(OR, "||", 4) \
T(AND, "&&", 5) \
T(BIT_OR, "|", 6) \
T(BIT_XOR, "^", 7) \
T(BIT_AND, "&", 8) \
T(SHL, "<<", 11) \
T(SAR, ">>", 11) \
T(SHR, ">>>", 11) \
T(ADD, "+", 12) \
T(SUB, "-", 12) \
T(MUL, "*", 13) \
T(DIV, "/", 13) \
T(MOD, "%", 13) \
\
/* Compare operators sorted by precedence. */ \
/* IsCompareOp() relies on this block of enum values */ \
/* being contiguous and sorted in the same order! */ \
T(EQ, "==", 9) \
T(NE, "!=", 9) \
T(LT, "<", 10) \
T(GT, ">", 10) \
T(LTE, "<=", 10) \
T(GTE, ">=", 10) \
K(IN, "in", 10) \
\
/* Unary operators. */ \
/* IsUnaryOp() relies on this block of enum values */ \
/* being contiguous and sorted in the same order! */ \
T(NOT, "!", 0) \
T(BIT_NOT, "~", 0) \
T(INC, "++", 0) \
T(DEC, "--", 0) \
K(DELETE, "delete", 0) \
\
/* Keywords */ \
K(BREAK, "break", 0) \
K(CASE, "case", 0) \
K(CONST, "const", 0) \
K(CONTINUE, "continue", 0) \
K(CONTRACT, "contract", 0) \
K(DEFAULT, "default", 0) \
K(DO, "do", 0) \
K(ELSE, "else", 0) \
K(EXTENDS, "extends", 0) \
K(FOR, "for", 0) \
K(FUNCTION, "function", 0) \
K(IF, "if", 0) \
K(IMPORT, "import", 0) \
K(MAPPING, "mapping", 0) \
K(NEW, "new", 0) \
K(PUBLIC, "public", 0) \
K(PRIVATE, "private", 0) \
K(RETURN, "return", 0) \
K(RETURNS, "returns", 0) \
K(STRUCT, "struct", 0) \
K(SWITCH, "switch", 0) \
K(THIS, "this", 0) \
K(VAR, "var", 0) \
K(WHILE, "while", 0) \
\
\
/* type keywords, keep them in this order, keep int as first keyword
* the implementation in Types.cpp has to be synced to this here
* TODO more to be added */ \
K(INT, "int", 0) \
K(INT8, "int8", 0) \
K(INT16, "int16", 0) \
K(INT24, "int24", 0) \
K(INT32, "int32", 0) \
K(INT40, "int40", 0) \
K(INT48, "int48", 0) \
K(INT56, "int56", 0) \
K(INT64, "int64", 0) \
K(INT72, "int72", 0) \
K(INT80, "int80", 0) \
K(INT88, "int88", 0) \
K(INT96, "int96", 0) \
K(INT104, "int104", 0) \
K(INT112, "int112", 0) \
K(INT120, "int120", 0) \
K(INT128, "int128", 0) \
K(INT136, "int136", 0) \
K(INT144, "int144", 0) \
K(INT152, "int152", 0) \
K(INT160, "int160", 0) \
K(INT168, "int168", 0) \
K(INT176, "int178", 0) \
K(INT184, "int184", 0) \
K(INT192, "int192", 0) \
K(INT200, "int200", 0) \
K(INT208, "int208", 0) \
K(INT216, "int216", 0) \
K(INT224, "int224", 0) \
K(INT232, "int232", 0) \
K(INT240, "int240", 0) \
K(INT248, "int248", 0) \
K(INT256, "int256", 0) \
K(UINT, "uint", 0) \
K(UINT8, "uint8", 0) \
K(UINT16, "uint16", 0) \
K(UINT24, "uint24", 0) \
K(UINT32, "uint32", 0) \
K(UINT40, "uint40", 0) \
K(UINT48, "uint48", 0) \
K(UINT56, "uint56", 0) \
K(UINT64, "uint64", 0) \
K(UINT72, "uint72", 0) \
K(UINT80, "uint80", 0) \
K(UINT88, "uint88", 0) \
K(UINT96, "uint96", 0) \
K(UINT104, "uint104", 0) \
K(UINT112, "uint112", 0) \
K(UINT120, "uint120", 0) \
K(UINT128, "uint128", 0) \
K(UINT136, "uint136", 0) \
K(UINT144, "uint144", 0) \
K(UINT152, "uint152", 0) \
K(UINT160, "uint160", 0) \
K(UINT168, "uint168", 0) \
K(UINT176, "uint178", 0) \
K(UINT184, "uint184", 0) \
K(UINT192, "uint192", 0) \
K(UINT200, "uint200", 0) \
K(UINT208, "uint208", 0) \
K(UINT216, "uint216", 0) \
K(UINT224, "uint224", 0) \
K(UINT232, "uint232", 0) \
K(UINT240, "uint240", 0) \
K(UINT248, "uint248", 0) \
K(UINT256, "uint256", 0) \
K(HASH, "hash", 0) \
K(HASH8, "hash8", 0) \
K(HASH16, "hash16", 0) \
K(HASH24, "hash24", 0) \
K(HASH32, "hash32", 0) \
K(HASH40, "hash40", 0) \
K(HASH48, "hash48", 0) \
K(HASH56, "hash56", 0) \
K(HASH64, "hash64", 0) \
K(HASH72, "hash72", 0) \
K(HASH80, "hash80", 0) \
K(HASH88, "hash88", 0) \
K(HASH96, "hash96", 0) \
K(HASH104, "hash104", 0) \
K(HASH112, "hash112", 0) \
K(HASH120, "hash120", 0) \
K(HASH128, "hash128", 0) \
K(HASH136, "hash136", 0) \
K(HASH144, "hash144", 0) \
K(HASH152, "hash152", 0) \
K(HASH160, "hash160", 0) \
K(HASH168, "hash168", 0) \
K(HASH176, "hash178", 0) \
K(HASH184, "hash184", 0) \
K(HASH192, "hash192", 0) \
K(HASH200, "hash200", 0) \
K(HASH208, "hash208", 0) \
K(HASH216, "hash216", 0) \
K(HASH224, "hash224", 0) \
K(HASH232, "hash232", 0) \
K(HASH240, "hash240", 0) \
K(HASH248, "hash248", 0) \
K(HASH256, "hash256", 0) \
K(ADDRESS, "address", 0) \
K(BOOL, "bool", 0) \
K(STRING_TYPE, "string", 0) \
K(TEXT, "text", 0) \
K(REAL, "real", 0) \
K(UREAL, "ureal", 0) \
T(TYPES_END, NULL, 0) /* used as type enum end marker */ \
\
/* Literals */ \
K(NULL_LITERAL, "null", 0) \
K(TRUE_LITERAL, "true", 0) \
K(FALSE_LITERAL, "false", 0) \
T(NUMBER, NULL, 0) \
T(STRING_LITERAL, NULL, 0) \
\
/* Identifiers (not keywords or future reserved words). */ \
T(IDENTIFIER, NULL, 0) \
\
/* Illegal token - not able to scan. */ \
T(ILLEGAL, "ILLEGAL", 0) \
\
/* Scanner-internal use only. */ \
T(WHITESPACE, NULL, 0)
class Token
{
public:
// All token values.
#define T(name, string, precedence) name,
enum Value
{
TOKEN_LIST(T, T)
NUM_TOKENS
};
#undef T
// Returns a string corresponding to the C++ token name
// (e.g. "LT" for the token LT).
static char const* getName(Value tok)
{
if (asserts(tok < NUM_TOKENS))
BOOST_THROW_EXCEPTION(InternalCompilerError());
return m_name[tok];
}
// Predicates
static bool isKeyword(Value tok) { return m_tokenType[tok] == 'K'; }
static bool isIdentifier(Value tok) { return tok == IDENTIFIER; }
static bool isElementaryTypeName(Value tok) { return INT <= tok && tok < TYPES_END; }
static bool isAssignmentOp(Value tok) { return ASSIGN <= tok && tok <= ASSIGN_MOD; }
static bool isBinaryOp(Value op) { return COMMA <= op && op <= MOD; }
static bool isTruncatingBinaryOp(Value op) { return BIT_OR <= op && op <= SHR; }
static bool isArithmeticOp(Value op) { return ADD <= op && op <= MOD; }
static bool isCompareOp(Value op) { return EQ <= op && op <= IN; }
static bool isOrderedRelationalCompareOp(Value op)
{
return op == LT || op == LTE || op == GT || op == GTE;
}
static bool isEqualityOp(Value op) { return op == EQ; }
static bool isInequalityOp(Value op) { return op == NE; }
static bool isArithmeticCompareOp(Value op)
{
return isOrderedRelationalCompareOp(op) ||
isEqualityOp(op) || isInequalityOp(op);
}
static Value AssignmentToBinaryOp(Value op)
{
if (asserts(isAssignmentOp(op) && op != ASSIGN))
BOOST_THROW_EXCEPTION(InternalCompilerError());
return Token::Value(op + (BIT_OR - ASSIGN_BIT_OR));
}
static bool isBitOp(Value op) { return (BIT_OR <= op && op <= SHR) || op == BIT_NOT; }
static bool isUnaryOp(Value op) { return (NOT <= op && op <= DELETE) || op == ADD || op == SUB; }
static bool isCountOp(Value op) { return op == INC || op == DEC; }
static bool isShiftOp(Value op) { return (SHL <= op) && (op <= SHR); }
// Returns a string corresponding to the JS token string
// (.e., "<" for the token LT) or NULL if the token doesn't
// have a (unique) string (e.g. an IDENTIFIER).
static char const* toString(Value tok)
{
if (asserts(tok < NUM_TOKENS))
BOOST_THROW_EXCEPTION(InternalCompilerError());
return m_string[tok];
}
// Returns the precedence > 0 for binary and compare
// operators; returns 0 otherwise.
static int precedence(Value tok)
{
if (asserts(tok < NUM_TOKENS))
BOOST_THROW_EXCEPTION(InternalCompilerError());
return m_precedence[tok];
}
private:
static char const* const m_name[NUM_TOKENS];
static char const* const m_string[NUM_TOKENS];
static int8_t const m_precedence[NUM_TOKENS];
static char const m_tokenType[NUM_TOKENS];
};
}
}