4.3 Routines for decimal floating point emulation
The software decimal floating point library implements IEEE 754R
decimal floating point arithmetic and is only activated on selected
targets.
The software decimal floating point library supports either DPD
(Densely Packed Decimal) or BID (Binary Integer Decimal) encoding
as selected at configure time.
4.3.1 Arithmetic functions
— Runtime Function: _Decimal32
__dpd_addsd3 (
_Decimal32 a, _Decimal32 b)
— Runtime Function: _Decimal32
__bid_addsd3 (
_Decimal32 a, _Decimal32 b)
— Runtime Function: _Decimal64
__dpd_adddd3 (
_Decimal64 a, _Decimal64 b)
— Runtime Function: _Decimal64
__bid_adddd3 (
_Decimal64 a, _Decimal64 b)
— Runtime Function: _Decimal128
__dpd_addtd3 (
_Decimal128 a, _Decimal128 b)
— Runtime Function: _Decimal128
__bid_addtd3 (
_Decimal128 a, _Decimal128 b)
These functions return the sum of a and b.
— Runtime Function: _Decimal32
__dpd_subsd3 (
_Decimal32 a, _Decimal32 b)
— Runtime Function: _Decimal32
__bid_subsd3 (
_Decimal32 a, _Decimal32 b)
— Runtime Function: _Decimal64
__dpd_subdd3 (
_Decimal64 a, _Decimal64 b)
— Runtime Function: _Decimal64
__bid_subdd3 (
_Decimal64 a, _Decimal64 b)
— Runtime Function: _Decimal128
__dpd_subtd3 (
_Decimal128 a, _Decimal128 b)
— Runtime Function: _Decimal128
__bid_subtd3 (
_Decimal128 a, _Decimal128 b)
These functions return the difference between b and a;
that is, a - b.
— Runtime Function: _Decimal32
__dpd_mulsd3 (
_Decimal32 a, _Decimal32 b)
— Runtime Function: _Decimal32
__bid_mulsd3 (
_Decimal32 a, _Decimal32 b)
— Runtime Function: _Decimal64
__dpd_muldd3 (
_Decimal64 a, _Decimal64 b)
— Runtime Function: _Decimal64
__bid_muldd3 (
_Decimal64 a, _Decimal64 b)
— Runtime Function: _Decimal128
__dpd_multd3 (
_Decimal128 a, _Decimal128 b)
— Runtime Function: _Decimal128
__bid_multd3 (
_Decimal128 a, _Decimal128 b)
These functions return the product of a and b.
— Runtime Function: _Decimal32
__dpd_divsd3 (
_Decimal32 a, _Decimal32 b)
— Runtime Function: _Decimal32
__bid_divsd3 (
_Decimal32 a, _Decimal32 b)
— Runtime Function: _Decimal64
__dpd_divdd3 (
_Decimal64 a, _Decimal64 b)
— Runtime Function: _Decimal64
__bid_divdd3 (
_Decimal64 a, _Decimal64 b)
— Runtime Function: _Decimal128
__dpd_divtd3 (
_Decimal128 a, _Decimal128 b)
— Runtime Function: _Decimal128
__bid_divtd3 (
_Decimal128 a, _Decimal128 b)
These functions return the quotient of a and b; that is,
a / b.
— Runtime Function: _Decimal32
__dpd_negsd2 (
_Decimal32 a)
— Runtime Function: _Decimal32
__bid_negsd2 (
_Decimal32 a)
— Runtime Function: _Decimal64
__dpd_negdd2 (
_Decimal64 a)
— Runtime Function: _Decimal64
__bid_negdd2 (
_Decimal64 a)
— Runtime Function: _Decimal128
__dpd_negtd2 (
_Decimal128 a)
— Runtime Function: _Decimal128
__bid_negtd2 (
_Decimal128 a)
These functions return the negation of a. They simply flip the
sign bit, so they can produce negative zero and negative NaN.
4.3.2 Conversion functions
— Runtime Function: _Decimal64
__dpd_extendsddd2 (
_Decimal32 a)
— Runtime Function: _Decimal64
__bid_extendsddd2 (
_Decimal32 a)
— Runtime Function: _Decimal128
__dpd_extendsdtd2 (
_Decimal32 a)
— Runtime Function: _Decimal128
__bid_extendsdtd2 (
_Decimal32 a)
— Runtime Function: _Decimal128
__dpd_extendddtd2 (
_Decimal64 a)
— Runtime Function: _Decimal128
__bid_extendddtd2 (
_Decimal64 a)
— Runtime Function: _Decimal32
__dpd_truncddsd2 (
_Decimal64 a)
— Runtime Function: _Decimal32
__bid_truncddsd2 (
_Decimal64 a)
— Runtime Function: _Decimal32
__dpd_trunctdsd2 (
_Decimal128 a)
— Runtime Function: _Decimal32
__bid_trunctdsd2 (
_Decimal128 a)
— Runtime Function: _Decimal64
__dpd_trunctddd2 (
_Decimal128 a)
— Runtime Function: _Decimal64
__bid_trunctddd2 (
_Decimal128 a)
These functions convert the value a from one decimal floating type
to another.
— Runtime Function: _Decimal64
__dpd_extendsfdd (
float a)
— Runtime Function: _Decimal64
__bid_extendsfdd (
float a)
— Runtime Function: _Decimal128
__dpd_extendsftd (
float a)
— Runtime Function: _Decimal128
__bid_extendsftd (
float a)
— Runtime Function: _Decimal128
__dpd_extenddftd (
double a)
— Runtime Function: _Decimal128
__bid_extenddftd (
double a)
— Runtime Function: _Decimal128
__dpd_extendxftd (
long double a)
— Runtime Function: _Decimal128
__bid_extendxftd (
long double a)
— Runtime Function: _Decimal32
__dpd_truncdfsd (
double a)
— Runtime Function: _Decimal32
__bid_truncdfsd (
double a)
— Runtime Function: _Decimal32
__dpd_truncxfsd (
long double a)
— Runtime Function: _Decimal32
__bid_truncxfsd (
long double a)
— Runtime Function: _Decimal32
__dpd_trunctfsd (
long double a)
— Runtime Function: _Decimal32
__bid_trunctfsd (
long double a)
— Runtime Function: _Decimal64
__dpd_truncxfdd (
long double a)
— Runtime Function: _Decimal64
__bid_truncxfdd (
long double a)
— Runtime Function: _Decimal64
__dpd_trunctfdd (
long double a)
— Runtime Function: _Decimal64
__bid_trunctfdd (
long double a)
These functions convert the value of a from a binary floating type
to a decimal floating type of a different size.
— Runtime Function: float
__dpd_truncddsf (
_Decimal64 a)
— Runtime Function: float
__bid_truncddsf (
_Decimal64 a)
— Runtime Function: float
__dpd_trunctdsf (
_Decimal128 a)
— Runtime Function: float
__bid_trunctdsf (
_Decimal128 a)
— Runtime Function: double
__dpd_extendsddf (
_Decimal32 a)
— Runtime Function: double
__bid_extendsddf (
_Decimal32 a)
— Runtime Function: double
__dpd_trunctddf (
_Decimal128 a)
— Runtime Function: double
__bid_trunctddf (
_Decimal128 a)
— Runtime Function: long double
__dpd_extendsdxf (
_Decimal32 a)
— Runtime Function: long double
__bid_extendsdxf (
_Decimal32 a)
— Runtime Function: long double
__dpd_extendddxf (
_Decimal64 a)
— Runtime Function: long double
__bid_extendddxf (
_Decimal64 a)
— Runtime Function: long double
__dpd_trunctdxf (
_Decimal128 a)
— Runtime Function: long double
__bid_trunctdxf (
_Decimal128 a)
— Runtime Function: long double
__dpd_extendsdtf (
_Decimal32 a)
— Runtime Function: long double
__bid_extendsdtf (
_Decimal32 a)
— Runtime Function: long double
__dpd_extendddtf (
_Decimal64 a)
— Runtime Function: long double
__bid_extendddtf (
_Decimal64 a)
These functions convert the value of a from a decimal floating type
to a binary floating type of a different size.
— Runtime Function: _Decimal32
__dpd_extendsfsd (
float a)
— Runtime Function: _Decimal32
__bid_extendsfsd (
float a)
— Runtime Function: _Decimal64
__dpd_extenddfdd (
double a)
— Runtime Function: _Decimal64
__bid_extenddfdd (
double a)
— Runtime Function: _Decimal128
__dpd_extendtftd (
long double a)
— Runtime Function: _Decimal128
__bid_extendtftd (
long double a)
— Runtime Function: float
__dpd_truncsdsf (
_Decimal32 a)
— Runtime Function: float
__bid_truncsdsf (
_Decimal32 a)
— Runtime Function: double
__dpd_truncdddf (
_Decimal64 a)
— Runtime Function: double
__bid_truncdddf (
_Decimal64 a)
— Runtime Function: long double
__dpd_trunctdtf (
_Decimal128 a)
— Runtime Function: long double
__bid_trunctdtf (
_Decimal128 a)
These functions convert the value of a between decimal and
binary floating types of the same size.
— Runtime Function: int
__dpd_fixsdsi (
_Decimal32 a)
— Runtime Function: int
__bid_fixsdsi (
_Decimal32 a)
— Runtime Function: int
__dpd_fixddsi (
_Decimal64 a)
— Runtime Function: int
__bid_fixddsi (
_Decimal64 a)
— Runtime Function: int
__dpd_fixtdsi (
_Decimal128 a)
— Runtime Function: int
__bid_fixtdsi (
_Decimal128 a)
These functions convert a to a signed integer.
— Runtime Function: long
__dpd_fixsddi (
_Decimal32 a)
— Runtime Function: long
__bid_fixsddi (
_Decimal32 a)
— Runtime Function: long
__dpd_fixdddi (
_Decimal64 a)
— Runtime Function: long
__bid_fixdddi (
_Decimal64 a)
— Runtime Function: long
__dpd_fixtddi (
_Decimal128 a)
— Runtime Function: long
__bid_fixtddi (
_Decimal128 a)
These functions convert a to a signed long.
— Runtime Function: unsigned int
__dpd_fixunssdsi (
_Decimal32 a)
— Runtime Function: unsigned int
__bid_fixunssdsi (
_Decimal32 a)
— Runtime Function: unsigned int
__dpd_fixunsddsi (
_Decimal64 a)
— Runtime Function: unsigned int
__bid_fixunsddsi (
_Decimal64 a)
— Runtime Function: unsigned int
__dpd_fixunstdsi (
_Decimal128 a)
— Runtime Function: unsigned int
__bid_fixunstdsi (
_Decimal128 a)
These functions convert a to an unsigned integer. Negative values all become zero.
— Runtime Function: unsigned long
__dpd_fixunssddi (
_Decimal32 a)
— Runtime Function: unsigned long
__bid_fixunssddi (
_Decimal32 a)
— Runtime Function: unsigned long
__dpd_fixunsdddi (
_Decimal64 a)
— Runtime Function: unsigned long
__bid_fixunsdddi (
_Decimal64 a)
— Runtime Function: unsigned long
__dpd_fixunstddi (
_Decimal128 a)
— Runtime Function: unsigned long
__bid_fixunstddi (
_Decimal128 a)
These functions convert a to an unsigned long. Negative values
all become zero.
— Runtime Function: _Decimal32
__dpd_floatsisd (
int i)
— Runtime Function: _Decimal32
__bid_floatsisd (
int i)
— Runtime Function: _Decimal64
__dpd_floatsidd (
int i)
— Runtime Function: _Decimal64
__bid_floatsidd (
int i)
— Runtime Function: _Decimal128
__dpd_floatsitd (
int i)
— Runtime Function: _Decimal128
__bid_floatsitd (
int i)
These functions convert i, a signed integer, to decimal floating point.
— Runtime Function: _Decimal32
__dpd_floatdisd (
long i)
— Runtime Function: _Decimal32
__bid_floatdisd (
long i)
— Runtime Function: _Decimal64
__dpd_floatdidd (
long i)
— Runtime Function: _Decimal64
__bid_floatdidd (
long i)
— Runtime Function: _Decimal128
__dpd_floatditd (
long i)
— Runtime Function: _Decimal128
__bid_floatditd (
long i)
These functions convert i, a signed long, to decimal floating point.
— Runtime Function: _Decimal32
__dpd_floatunssisd (
unsigned int i)
— Runtime Function: _Decimal32
__bid_floatunssisd (
unsigned int i)
— Runtime Function: _Decimal64
__dpd_floatunssidd (
unsigned int i)
— Runtime Function: _Decimal64
__bid_floatunssidd (
unsigned int i)
— Runtime Function: _Decimal128
__dpd_floatunssitd (
unsigned int i)
— Runtime Function: _Decimal128
__bid_floatunssitd (
unsigned int i)
These functions convert i, an unsigned integer, to decimal floating point.
— Runtime Function: _Decimal32
__dpd_floatunsdisd (
unsigned long i)
— Runtime Function: _Decimal32
__bid_floatunsdisd (
unsigned long i)
— Runtime Function: _Decimal64
__dpd_floatunsdidd (
unsigned long i)
— Runtime Function: _Decimal64
__bid_floatunsdidd (
unsigned long i)
— Runtime Function: _Decimal128
__dpd_floatunsditd (
unsigned long i)
— Runtime Function: _Decimal128
__bid_floatunsditd (
unsigned long i)
These functions convert i, an unsigned long, to decimal floating point.
4.3.3 Comparison functions
— Runtime Function: int
__dpd_unordsd2 (
_Decimal32 a, _Decimal32 b)
— Runtime Function: int
__bid_unordsd2 (
_Decimal32 a, _Decimal32 b)
— Runtime Function: int
__dpd_unorddd2 (
_Decimal64 a, _Decimal64 b)
— Runtime Function: int
__bid_unorddd2 (
_Decimal64 a, _Decimal64 b)
— Runtime Function: int
__dpd_unordtd2 (
_Decimal128 a, _Decimal128 b)
— Runtime Function: int
__bid_unordtd2 (
_Decimal128 a, _Decimal128 b)
These functions return a nonzero value if either argument is NaN, otherwise 0.
There is also a complete group of higher level functions which
correspond directly to comparison operators. They implement the ISO C
semantics for floating-point comparisons, taking NaN into account.
Pay careful attention to the return values defined for each set.
Under the hood, all of these routines are implemented as
if (__bid_unordXd2 (a, b))
return E;
return __bid_cmpXd2 (a, b);
where E is a constant chosen to give the proper behavior for
NaN. Thus, the meaning of the return value is different for each set.
Do not rely on this implementation; only the semantics documented
below are guaranteed.
— Runtime Function: int
__dpd_eqsd2 (
_Decimal32 a, _Decimal32 b)
— Runtime Function: int
__bid_eqsd2 (
_Decimal32 a, _Decimal32 b)
— Runtime Function: int
__dpd_eqdd2 (
_Decimal64 a, _Decimal64 b)
— Runtime Function: int
__bid_eqdd2 (
_Decimal64 a, _Decimal64 b)
— Runtime Function: int
__dpd_eqtd2 (
_Decimal128 a, _Decimal128 b)
— Runtime Function: int
__bid_eqtd2 (
_Decimal128 a, _Decimal128 b)
These functions return zero if neither argument is NaN, and a and
b are equal.
— Runtime Function: int
__dpd_nesd2 (
_Decimal32 a, _Decimal32 b)
— Runtime Function: int
__bid_nesd2 (
_Decimal32 a, _Decimal32 b)
— Runtime Function: int
__dpd_nedd2 (
_Decimal64 a, _Decimal64 b)
— Runtime Function: int
__bid_nedd2 (
_Decimal64 a, _Decimal64 b)
— Runtime Function: int
__dpd_netd2 (
_Decimal128 a, _Decimal128 b)
— Runtime Function: int
__bid_netd2 (
_Decimal128 a, _Decimal128 b)
These functions return a nonzero value if either argument is NaN, or
if a and b are unequal.
— Runtime Function: int
__dpd_gesd2 (
_Decimal32 a, _Decimal32 b)
— Runtime Function: int
__bid_gesd2 (
_Decimal32 a, _Decimal32 b)
— Runtime Function: int
__dpd_gedd2 (
_Decimal64 a, _Decimal64 b)
— Runtime Function: int
__bid_gedd2 (
_Decimal64 a, _Decimal64 b)
— Runtime Function: int
__dpd_getd2 (
_Decimal128 a, _Decimal128 b)
— Runtime Function: int
__bid_getd2 (
_Decimal128 a, _Decimal128 b)
These functions return a value greater than or equal to zero if
neither argument is NaN, and a is greater than or equal to
b.
— Runtime Function: int
__dpd_ltsd2 (
_Decimal32 a, _Decimal32 b)
— Runtime Function: int
__bid_ltsd2 (
_Decimal32 a, _Decimal32 b)
— Runtime Function: int
__dpd_ltdd2 (
_Decimal64 a, _Decimal64 b)
— Runtime Function: int
__bid_ltdd2 (
_Decimal64 a, _Decimal64 b)
— Runtime Function: int
__dpd_lttd2 (
_Decimal128 a, _Decimal128 b)
— Runtime Function: int
__bid_lttd2 (
_Decimal128 a, _Decimal128 b)
These functions return a value less than zero if neither argument is
NaN, and a is strictly less than b.
— Runtime Function: int
__dpd_lesd2 (
_Decimal32 a, _Decimal32 b)
— Runtime Function: int
__bid_lesd2 (
_Decimal32 a, _Decimal32 b)
— Runtime Function: int
__dpd_ledd2 (
_Decimal64 a, _Decimal64 b)
— Runtime Function: int
__bid_ledd2 (
_Decimal64 a, _Decimal64 b)
— Runtime Function: int
__dpd_letd2 (
_Decimal128 a, _Decimal128 b)
— Runtime Function: int
__bid_letd2 (
_Decimal128 a, _Decimal128 b)
These functions return a value less than or equal to zero if neither
argument is NaN, and a is less than or equal to b.
— Runtime Function: int
__dpd_gtsd2 (
_Decimal32 a, _Decimal32 b)
— Runtime Function: int
__bid_gtsd2 (
_Decimal32 a, _Decimal32 b)
— Runtime Function: int
__dpd_gtdd2 (
_Decimal64 a, _Decimal64 b)
— Runtime Function: int
__bid_gtdd2 (
_Decimal64 a, _Decimal64 b)
— Runtime Function: int
__dpd_gttd2 (
_Decimal128 a, _Decimal128 b)
— Runtime Function: int
__bid_gttd2 (
_Decimal128 a, _Decimal128 b)
These functions return a value greater than zero if neither argument
is NaN, and a is strictly greater than b.