/*============================================================================= Boost.Wave: A Standard compliant C++ preprocessor library http://www.boost.org/ Copyright (c) 2001-2012 Hartmut Kaiser. Distributed under the Boost Software License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) =============================================================================*/ #if !defined(BOOST_CPP_EXPRESSION_VALUE_HPP_452FE66D_8754_4107_AF1E_E42255A0C18A_INCLUDED) #define BOOST_CPP_EXPRESSION_VALUE_HPP_452FE66D_8754_4107_AF1E_E42255A0C18A_INCLUDED #if defined (BOOST_SPIRIT_DEBUG) #include #endif // defined(BOOST_SPIRIT_DEBUG) #include #include // value_error // this must occur after all of the includes and before any code appears #ifdef BOOST_HAS_ABI_HEADERS #include BOOST_ABI_PREFIX #endif /////////////////////////////////////////////////////////////////////////////// namespace boost { namespace wave { namespace grammars { namespace closures { class closure_value; inline bool as_bool(closure_value const& v); /////////////////////////////////////////////////////////////////////////////// // // The closure_value class represents the closure type, which is used for the // expression grammar. // // This class was introduced to allow the expression grammar to respect // the numeric type of a numeric literal or expression result. // /////////////////////////////////////////////////////////////////////////////// class closure_value { public: enum value_type { is_int = 1, is_uint = 2, is_bool = 3 }; closure_value(value_error valid_ = error_noerror) : type(is_int), valid(valid_) { value.i = 0; } explicit closure_value(int i, value_error valid_ = error_noerror) : type(is_int), valid(valid_) { value.i = i; } explicit closure_value(unsigned int ui, value_error valid_ = error_noerror) : type(is_uint), valid(valid_) { value.ui = ui; } explicit closure_value(int_literal_type i, value_error valid_ = error_noerror) : type(is_int), valid(valid_) { value.i = i; } explicit closure_value(uint_literal_type ui, value_error valid_ = error_noerror) : type(is_uint), valid(valid_) { value.ui = ui; } explicit closure_value(bool b, value_error valid_ = error_noerror) : type(is_bool), valid(valid_) { value.b = b; } value_type get_type() const { return type; } value_error is_valid() const { return valid; } // explicit conversion friend int_literal_type as_int(closure_value const& v) { switch (v.type) { case is_uint: return v.value.ui; case is_bool: return v.value.b ? 1 : 0; case is_int: break; } return v.value.i; } friend uint_literal_type as_uint(closure_value const& v) { switch (v.type) { case is_uint: return v.value.ui; case is_bool: return v.value.b ? 1 : 0; case is_int: break; } return v.value.i; } friend int_literal_type as_long(closure_value const& v) { switch (v.type) { case is_uint: return v.value.ui; case is_bool: return v.value.b ? 1 : 0; case is_int: break; } return v.value.i; } friend uint_literal_type as_ulong(closure_value const& v) { switch (v.type) { case is_uint: return v.value.ui; case is_bool: return v.value.b ? 1 : 0; case is_int: break; } return v.value.i; } friend bool as_bool(closure_value const& v) { switch (v.type) { case is_uint: return v.value.ui != 0; case is_bool: return v.value.b; case is_int: break; } return v.value.i != 0.0; } // assignment closure_value &operator= (closure_value const &rhs) { switch (rhs.get_type()) { case is_int: value.i = as_long(rhs); type = is_int; break; case is_uint: value.ui = as_ulong(rhs); type = is_uint; break; case is_bool: value.b = as_bool(rhs); type = is_bool; break; } valid = rhs.valid; return *this; } closure_value &operator= (int rhs) { type = is_int; value.i = rhs; valid = error_noerror; return *this; } closure_value &operator= (unsigned int rhs) { type = is_uint; value.ui = rhs; valid = error_noerror; return *this; } closure_value &operator= (int_literal_type rhs) { type = is_int; value.i = rhs; valid = error_noerror; return *this; } closure_value &operator= (uint_literal_type rhs) { type = is_uint; value.ui = rhs; valid = error_noerror; return *this; } closure_value &operator= (bool rhs) { type = is_bool; value.b = rhs; valid = error_noerror; return *this; } // arithmetics closure_value &operator+= (closure_value const &rhs) { switch (type) { case is_int: switch(rhs.type) { case is_bool: { int_literal_type result = value.i + as_long(rhs); if ((rhs.value.i > 0L && value.i > result) || (rhs.value.i < 0L && value.i < result)) { valid = error_integer_overflow; } else { value.i = result; } } break; case is_int: { int_literal_type result = value.i + rhs.value.i; if ((rhs.value.i > 0L && value.i > result) || (rhs.value.i < 0L && value.i < result)) { valid = error_integer_overflow; } else { value.i = result; } } break; case is_uint: { uint_literal_type result = value.ui + rhs.value.ui; if (result < value.ui) { valid = error_integer_overflow; } else { value.ui = result; type = is_uint; } } break; } break; case is_uint: { uint_literal_type result = value.ui + as_ulong(rhs); if (result < value.ui) { valid = error_integer_overflow; } else { value.ui = result; } } break; case is_bool: value.i = value.b + as_bool(rhs); type = is_int; } valid = (value_error)(valid | rhs.valid); return *this; } closure_value &operator-= (closure_value const &rhs) { switch (type) { case is_int: switch(rhs.type) { case is_bool: { int_literal_type result = value.i - as_long(rhs); if ((rhs.value.i > 0L && result > value.i) || (rhs.value.i < 0L && result < value.i)) { valid = error_integer_overflow; } else { value.i = result; } } break; case is_int: { int_literal_type result = value.i - rhs.value.i; if ((rhs.value.i > 0L && result > value.i) || (rhs.value.i < 0L && result < value.i)) { valid = error_integer_overflow; } else { value.i = result; } } break; case is_uint: { uint_literal_type result = value.ui - rhs.value.ui; if (result > value.ui) { valid = error_integer_overflow; } else { value.ui = result; type = is_uint; } } break; } break; case is_uint: switch(rhs.type) { case is_bool: { uint_literal_type result = value.ui - as_ulong(rhs); if (result > value.ui) { valid = error_integer_overflow; } else { value.ui = result; } } break; case is_int: { uint_literal_type result = value.ui - rhs.value.i; if ((rhs.value.i > 0L && result > value.ui) || (rhs.value.i < 0L && result < value.ui)) { valid = error_integer_overflow; } else { value.ui = result; } } break; case is_uint: { uint_literal_type result = value.ui - rhs.value.ui; if (result > value.ui) { valid = error_integer_overflow; } else { value.ui = result; } } break; } break; case is_bool: value.i = value.b - as_bool(rhs); type = is_int; } valid = (value_error)(valid | rhs.valid); return *this; } closure_value &operator*= (closure_value const &rhs) { switch (type) { case is_int: switch(rhs.type) { case is_bool: value.i *= as_long(rhs); break; case is_int: { int_literal_type result = value.i * rhs.value.i; if (0 != value.i && 0 != rhs.value.i && (result / value.i != rhs.value.i || result / rhs.value.i != value.i) ) { valid = error_integer_overflow; } else { value.i = result; } } break; case is_uint: { uint_literal_type result = value.ui * rhs.value.ui; if (0 != value.ui && 0 != rhs.value.ui && (result / value.ui != rhs.value.ui || result / rhs.value.ui != value.ui) ) { valid = error_integer_overflow; } else { value.ui = result; type = is_uint; } } break; } break; case is_uint: { uint_literal_type rhs_val = as_ulong(rhs); uint_literal_type result = value.ui * rhs_val; if (0 != value.ui && 0 != rhs_val && (result / value.ui != rhs_val || result / rhs_val != value.ui) ) { valid = error_integer_overflow; } else { value.ui = result; type = is_uint; } } break; case is_bool: switch (rhs.type) { case is_int: value.i = (value.b ? 1 : 0) * rhs.value.i; type = is_int; break; case is_uint: value.ui = (value.b ? 1 : 0) * rhs.value.ui; type = is_uint; break; case is_bool: value.b = 0 != ((value.b ? 1 : 0) * (rhs.value.b ? 1 : 0)); break; } } valid = (value_error)(valid | rhs.valid); return *this; } closure_value &operator/= (closure_value const &rhs) { switch (type) { case is_int: switch(rhs.type) { case is_bool: case is_int: if (as_long(rhs) != 0) { if (value.i == -value.i && -1 == rhs.value.i) { // LONG_MIN / -1 on two's complement valid = error_integer_overflow; } else { value.i /= as_long(rhs); } } else { valid = error_division_by_zero; // division by zero } break; case is_uint: if (rhs.value.ui != 0) { value.ui /= rhs.value.ui; type = is_uint; } else { valid = error_division_by_zero; // division by zero } break; } break; case is_uint: if (as_ulong(rhs) != 0) value.ui /= as_ulong(rhs); else valid = error_division_by_zero; // division by zero break; case is_bool: if (as_bool(rhs)) { switch(rhs.type) { case is_int: value.i = (value.b ? 1 : 0) / rhs.value.i; type = is_int; break; case is_uint: value.i = (value.b ? 1 : 0) / rhs.value.ui; type = is_int; break; case is_bool: break; } } else { valid = error_division_by_zero; // division by zero } } return *this; } closure_value &operator%= (closure_value const &rhs) { switch (type) { case is_int: switch(rhs.type) { case is_bool: case is_int: if (as_long(rhs) != 0) { if (value.i == -value.i && -1 == rhs.value.i) { // LONG_MIN % -1 on two's complement valid = error_integer_overflow; } else { value.i %= as_long(rhs); } } else { valid = error_division_by_zero; // division by zero } break; case is_uint: if (rhs.value.ui != 0) { value.ui %= rhs.value.ui; type = is_uint; } else { valid = error_division_by_zero; // division by zero } break; } break; case is_uint: if (as_ulong(rhs) != 0) value.ui %= as_ulong(rhs); else valid = error_division_by_zero; // division by zero break; case is_bool: if (as_bool(rhs)) { switch(rhs.type) { case is_int: value.i = (value.b ? 1 : 0) % rhs.value.i; type = is_int; break; case is_uint: value.i = (value.b ? 1 : 0) % rhs.value.ui; type = is_int; break; case is_bool: break; } } else { valid = error_division_by_zero; // division by zero } } return *this; } friend closure_value operator- (closure_value const &rhs) { switch (rhs.type) { case is_int: { int_literal_type value = as_long(rhs); if (value != 0 && value == -value) return closure_value(-value, error_integer_overflow); return closure_value(-value, rhs.valid); } case is_bool: return closure_value(-as_long(rhs), rhs.valid); case is_uint: break; } int_literal_type value = as_ulong(rhs); if (value != 0 && value == -value) return closure_value(-value, error_integer_overflow); return closure_value(-value, rhs.valid); } friend closure_value operator~ (closure_value const &rhs) { return closure_value(~as_ulong(rhs), rhs.valid); } friend closure_value operator! (closure_value const &rhs) { switch (rhs.type) { case is_int: return closure_value(!as_long(rhs), rhs.valid); case is_bool: return closure_value(!as_bool(rhs), rhs.valid); case is_uint: break; } return closure_value(!as_ulong(rhs), rhs.valid); } // comparison friend closure_value operator== (closure_value const &lhs, closure_value const &rhs) { bool cmp = false; switch (lhs.type) { case is_int: switch(rhs.type) { case is_bool: cmp = as_bool(lhs) == rhs.value.b; break; case is_int: cmp = lhs.value.i == rhs.value.i; break; case is_uint: cmp = lhs.value.ui == rhs.value.ui; break; } break; case is_uint: cmp = lhs.value.ui == as_ulong(rhs); break; case is_bool: cmp = lhs.value.b == as_bool(rhs); break; } return closure_value(cmp, (value_error)(lhs.valid | rhs.valid)); } friend closure_value operator!= (closure_value const &lhs, closure_value const &rhs) { return closure_value(!as_bool(lhs == rhs), (value_error)(lhs.valid | rhs.valid)); } friend closure_value operator> (closure_value const &lhs, closure_value const &rhs) { bool cmp = false; switch (lhs.type) { case is_int: switch(rhs.type) { case is_bool: cmp = lhs.value.i > as_long(rhs); break; case is_int: cmp = lhs.value.i > rhs.value.i; break; case is_uint: cmp = lhs.value.ui > rhs.value.ui; break; } break; case is_uint: cmp = lhs.value.ui > as_ulong(rhs); break; case is_bool: cmp = lhs.value.b > as_bool(rhs); break; } return closure_value(cmp, (value_error)(lhs.valid | rhs.valid)); } friend closure_value operator< (closure_value const &lhs, closure_value const &rhs) { bool cmp = false; switch (lhs.type) { case is_int: switch(rhs.type) { case is_bool: cmp = lhs.value.i < as_long(rhs); break; case is_int: cmp = lhs.value.i < rhs.value.i; break; case is_uint: cmp = lhs.value.ui < rhs.value.ui; break; } break; case is_uint: cmp = lhs.value.ui < as_ulong(rhs); break; case is_bool: cmp = as_bool(lhs) < as_bool(rhs); break; } return closure_value(cmp, (value_error)(lhs.valid | rhs.valid)); } friend closure_value operator<= (closure_value const &lhs, closure_value const &rhs) { return closure_value(!as_bool(lhs > rhs), (value_error)(lhs.valid | rhs.valid)); } friend closure_value operator>= (closure_value const &lhs, closure_value const &rhs) { return closure_value(!as_bool(lhs < rhs), (value_error)(lhs.valid | rhs.valid)); } closure_value & operator<<= (closure_value const &rhs) { switch (type) { case is_bool: case is_int: switch (rhs.type) { case is_bool: case is_int: { int_literal_type shift_by = as_long(rhs); if (shift_by > 64) shift_by = 64; else if (shift_by < -64) shift_by = -64; value.i <<= shift_by; } break; case is_uint: { uint_literal_type shift_by = as_ulong(rhs); if (shift_by > 64) shift_by = 64; value.ui <<= shift_by; // Note: The usual arithmetic conversions are not performed on // bit shift operations. } break; } break; case is_uint: switch (rhs.type) { case is_bool: case is_int: { int_literal_type shift_by = as_long(rhs); if (shift_by > 64) shift_by = 64; else if (shift_by < -64) shift_by = -64; value.ui <<= shift_by; } break; case is_uint: { uint_literal_type shift_by = as_ulong(rhs); if (shift_by > 64) shift_by = 64; value.ui <<= shift_by; } break; } } valid = (value_error)(valid | rhs.valid); return *this; } closure_value & operator>>= (closure_value const &rhs) { switch (type) { case is_bool: case is_int: switch (rhs.type) { case is_bool: case is_int: { int_literal_type shift_by = as_long(rhs); if (shift_by > 64) shift_by = 64; else if (shift_by < -64) shift_by = -64; value.i >>= shift_by; } break; case is_uint: { uint_literal_type shift_by = as_ulong(rhs); if (shift_by > 64) shift_by = 64; value.ui >>= shift_by; // Note: The usual arithmetic conversions are not performed on // bit shift operations. } break; } break; case is_uint: switch (rhs.type) { case is_bool: case is_int: { int_literal_type shift_by = as_long(rhs); if (shift_by > 64) shift_by = 64; else if (shift_by < -64) shift_by = -64; value.ui >>= shift_by; } break; case is_uint: { uint_literal_type shift_by = as_ulong(rhs); if (shift_by > 64) shift_by = 64; value.ui >>= shift_by; } break; } break; } valid = (value_error)(valid | rhs.valid); return *this; } friend closure_value operator|| (closure_value const &lhs, closure_value const &rhs) { bool result = as_bool(lhs) || as_bool(rhs); return closure_value(result, (value_error)(lhs.valid | rhs.valid)); } friend closure_value operator&& (closure_value const &lhs, closure_value const &rhs) { bool result = as_bool(lhs) && as_bool(rhs); return closure_value(result, (value_error)(lhs.valid | rhs.valid)); } friend closure_value operator| (closure_value const &lhs, closure_value const &rhs) { uint_literal_type result = as_ulong(lhs) | as_ulong(rhs); return closure_value(result, (value_error)(lhs.valid | rhs.valid)); } friend closure_value operator& (closure_value const &lhs, closure_value const &rhs) { uint_literal_type result = as_ulong(lhs) & as_ulong(rhs); return closure_value(result, (value_error)(lhs.valid | rhs.valid)); } friend closure_value operator^ (closure_value const &lhs, closure_value const &rhs) { uint_literal_type result = as_ulong(lhs) ^ as_ulong(rhs); return closure_value(result, (value_error)(lhs.valid | rhs.valid)); } // handle the ?: operator closure_value & handle_questionmark(closure_value const &cond, closure_value const &val2) { switch (type) { case is_int: switch (val2.type) { case is_bool: value.b = as_bool(cond) ? value.b : as_bool(val2); break; case is_int: value.i = as_bool(cond) ? value.i : as_long(val2); break; case is_uint: value.ui = as_bool(cond) ? value.ui : as_ulong(val2); type = is_uint; // changing type! break; } break; case is_uint: value.ui = as_bool(cond) ? value.ui : as_ulong(val2); break; case is_bool: value.b = as_bool(cond) ? value.b : as_bool(val2); break; } valid = as_bool(cond) ? valid : val2.valid; return *this; } #if defined (BOOST_SPIRIT_DEBUG) friend std::ostream& operator<< (std::ostream &o, closure_value const &val) { switch (val.type) { case is_int: o << "int(" << as_long(val) << ")"; break; case is_uint: o << "unsigned int(" << as_ulong(val) << ")"; break; case is_bool: o << "bool(" << as_bool(val) << ")"; break; } return o; } #endif // defined(BOOST_SPIRIT_DEBUG) private: value_type type; union { int_literal_type i; uint_literal_type ui; bool b; } value; value_error valid; }; /////////////////////////////////////////////////////////////////////////////// } // namespace closures } // namespace grammars } // namespace wave } // namespace boost // the suffix header occurs after all of the code #ifdef BOOST_HAS_ABI_HEADERS #include BOOST_ABI_SUFFIX #endif #endif // !defined(BOOST_CPP_EXPRESSION_VALUE_HPP_452FE66D_8754_4107_AF1E_E42255A0C18A_INCLUDED)