+from libc.stdint cimport *
cimport cposit
+
+# special values and C helpers
+
+cdef _p8_one = cposit.ui32_to_p8(1)
+cdef _p16_one = cposit.ui32_to_p16(1)
+cdef _p32_one = cposit.ui32_to_p32(1)
+
+cdef inline cposit.posit8_t _p8_neg(cposit.posit8_t f):
+ f.v = -f.v
+ return f
+
+cdef inline cposit.posit16_t _p16_neg(cposit.posit16_t f):
+ f.v = -f.v
+ return f
+
+cdef inline cposit.posit32_t _p32_neg(cposit.posit32_t f):
+ f.v = -f.v
+ return f
+
+cdef inline cposit.posit8_t _p8_abs(cposit.posit8_t f):
+ f.v = <uint8_t> abs(<int8_t> f.v)
+ return f
+
+cdef inline cposit.posit16_t _p16_abs(cposit.posit16_t f):
+ f.v = <uint16_t> abs(<int16_t> f.v)
+ return f
+
+cdef inline cposit.posit32_t _p32_abs(cposit.posit32_t f):
+ f.v = <uint32_t> abs(<int32_t> f.v)
+ return f
+
+
cdef class Posit8:
# the wrapped posit value
return obj
@staticmethod
- def from_bits(int value):
+ def from_bits(uint8_t value):
"""Factory function to create a Posit8 object from a bit pattern
represented as an integer.
"""
cdef Posit8 obj = Posit8.__new__(Posit8)
- obj._c_posit = cposit.castP8(value)
+ obj._c_posit.v = value
return obj
@staticmethod
- def from_double(float value):
+ def from_double(double value):
"""Factory function to create a Posit8 object from a double.
"""
cdef Posit8 obj = Posit8.__new__(Posit8)
# convenience interface for use inside Python
def __init__(self, value):
+ """Given an int, create a Posit8 from the bitpattern represented by
+ that int. Otherwise, given some value, create a Posit8 by rounding
+ float(value).
+ """
if isinstance(value, int):
- self._c_posit = cposit.castP8(value)
+ self._c_posit.v = value
else:
f = float(value)
self._c_posit = cposit.convertDoubleToP8(f)
+ def __float__(self):
+ return cposit.convertP8ToDouble(self._c_posit)
+
+ def __int__(self):
+ return int(cposit.convertP8ToDouble(self._c_posit))
+
def __str__(self):
return repr(cposit.convertP8ToDouble(self._c_posit))
def __repr__(self):
return 'Posit8(' + repr(cposit.convertP8ToDouble(self._c_posit)) + ')'
- cpdef get_bits(self):
- cdef int u = cposit.castUI8(self._c_posit)
- return u
+ cpdef uint8_t get_bits(self):
+ return self._c_posit.v
bits = property(get_bits)
# arithmetic
- cpdef round(self):
+ cpdef Posit8 neg(self):
+ cdef cposit.posit8_t f = _p8_neg(self._c_posit)
+ return Posit8.from_c_posit(f)
+
+ def __neg__(self):
+ return self.neg()
+
+ cpdef Posit8 abs(self):
+ cdef cposit.posit8_t f = _p8_abs(self._c_posit)
+ return Posit8.from_c_posit(f)
+
+ def __abs__(self):
+ return self.abs()
+
+ cpdef Posit8 round(self):
cdef cposit.posit8_t f = cposit.p8_roundToInt(self._c_posit)
return Posit8.from_c_posit(f)
- def __round__(self, Posit8 other):
- return self.roundToInt(other)
+ def __round__(self):
+ return self.round()
- cpdef add(self, Posit8 other):
+ cpdef Posit8 add(self, Posit8 other):
cdef cposit.posit8_t f = cposit.p8_add(self._c_posit, other._c_posit)
return Posit8.from_c_posit(f)
def __add__(self, Posit8 other):
return self.add(other)
- cpdef sub(self, Posit8 other):
+ cpdef Posit8 sub(self, Posit8 other):
cdef cposit.posit8_t f = cposit.p8_sub(self._c_posit, other._c_posit)
return Posit8.from_c_posit(f)
def __sub__(self, Posit8 other):
return self.sub(other)
- cpdef mul(self, Posit8 other):
+ cpdef Posit8 mul(self, Posit8 other):
cdef cposit.posit8_t f = cposit.p8_mul(self._c_posit, other._c_posit)
return Posit8.from_c_posit(f)
def __mul__(self, Posit8 other):
return self.mul(other)
- cpdef fma(self, Posit8 a2, Posit8 a3):
- cdef cposit.posit8_t f = cposit.p8_mulAdd(self._c_posit, a2._c_posit, a3._c_posit)
- return Posit8.from_c_posit(f)
+ cpdef Posit8 fma(self, Posit8 a1, Posit8 a2):
+ cdef cposit.posit8_t f = cposit.p8_mulAdd(a1._c_posit, a2._c_posit, self._c_posit)
+ return Posit8.from_c_posit(f)
- cpdef div(self, Posit8 other):
+ cpdef Posit8 div(self, Posit8 other):
cdef cposit.posit8_t f = cposit.p8_div(self._c_posit, other._c_posit)
return Posit8.from_c_posit(f)
def __truediv__(self, Posit8 other):
return self.div(other)
- cpdef sqrt(self):
+ cpdef Posit8 sqrt(self):
cdef cposit.posit8_t f = cposit.p8_sqrt(self._c_posit)
return Posit8.from_c_posit(f)
# in-place arithmetic
- cpdef iround(self):
+ cpdef void ineg(self):
+ self._c_posit = _p8_neg(self._c_posit)
+
+ cpdef void iabs(self):
+ self._c_posit = _p8_abs(self._c_posit)
+
+ cpdef void iround(self):
self._c_posit = cposit.p8_roundToInt(self._c_posit)
- cpdef iadd(self, Posit8 other):
+ cpdef void iadd(self, Posit8 other):
self._c_posit = cposit.p8_add(self._c_posit, other._c_posit)
def __iadd__(self, Posit8 other):
self.iadd(other)
return self
- cpdef isub(self, Posit8 other):
+ cpdef void isub(self, Posit8 other):
self._c_posit = cposit.p8_sub(self._c_posit, other._c_posit)
def __isub__(self, Posit8 other):
self.isub(other)
return self
- cpdef imul(self, Posit8 other):
+ cpdef void imul(self, Posit8 other):
self._c_posit = cposit.p8_mul(self._c_posit, other._c_posit)
def __imul__(self, Posit8 other):
self.imul(other)
return self
- cpdef ifma(self, Posit8 a2, Posit8 a3):
- self._c_posit = cposit.p8_mulAdd(self._c_posit, a2._c_posit, a3._c_posit)
+ cpdef void ifma(self, Posit8 a1, Posit8 a2):
+ self._c_posit = cposit.p8_mulAdd(a1._c_posit, a2._c_posit, self._c_posit)
- cpdef idiv(self, Posit8 other):
+ cpdef void idiv(self, Posit8 other):
self._c_posit = cposit.p8_div(self._c_posit, other._c_posit)
def __itruediv__(self, Posit8 other):
self.idiv(other)
return self
- cpdef isqrt(self):
+ cpdef void isqrt(self):
self._c_posit = cposit.p8_sqrt(self._c_posit)
# comparison
- cpdef eq(self, Posit8 other):
- cdef bint b = cposit.p8_eq(self._c_posit, other._c_posit)
- return b
+ cpdef bint eq(self, Posit8 other):
+ return cposit.p8_eq(self._c_posit, other._c_posit)
- cpdef le(self, Posit8 other):
- cdef bint b = cposit.p8_le(self._c_posit, other._c_posit)
- return b
+ cpdef bint le(self, Posit8 other):
+ return cposit.p8_le(self._c_posit, other._c_posit)
- cpdef lt(self, Posit8 other):
- cdef bint b = cposit.p8_lt(self._c_posit, other._c_posit)
- return b
+ cpdef bint lt(self, Posit8 other):
+ return cposit.p8_lt(self._c_posit, other._c_posit)
def __lt__(self, Posit8 other):
return self.lt(other)
cdef cposit.posit16_t f = cposit.p8_to_p16(self._c_posit)
return Posit16.from_c_posit(f)
+ cpdef to_p32(self):
+ cdef cposit.posit32_t f = cposit.p8_to_p32(self._c_posit)
+ return Posit32.from_c_posit(f)
+
+ cpdef to_quire(self):
+ cdef cposit.quire8_t f
+ f = cposit.q8Clr()
+ f = cposit.q8_fdp_add(f, self._c_posit, _p8_one)
+ return Quire8.from_c_quire(f)
+
cdef class Quire8:
# the wrapped quire value
cdef cposit.quire8_t _c_quire
- # limited interface for now
+ # factory function constructors that bypass init
+
+ @staticmethod
+ cdef Quire8 from_c_quire(cposit.quire8_t f):
+ """Factory function to create a Quire8 object directly from
+ a C quire8_t.
+ """
+ cdef Quire8 obj = Quire8.__new__(Quire8)
+ obj._c_quire = f
+ return obj
+
+ @staticmethod
+ def from_bits(uint32_t value):
+ """Factory function to create a Quire8 object from a bit pattern
+ represented as an integer.
+ """
+ cdef Quire8 obj = Quire8.__new__(Quire8)
+ obj._c_quire.v = value
+ return obj
+
+ # convenience interface for use inside Python
+
+ def __init__(self, value):
+ """Given an int, create a Quire8 from the bitpattern represented by
+ that int. Otherwise, given some value, create a Quire8 by rounding
+ float(value) to a Posit8.
+ """
+ if isinstance(value, int):
+ self._c_quire.v = value
+ else:
+ f = float(value)
+ self._c_quire = cposit.q8Clr()
+ self._c_quire = cposit.q8_fdp_add(self._c_quire, cposit.convertDoubleToP8(f), _p8_one)
- def __cinit__(self):
- cposit.q8_clr(self._c_quire)
+ def __float__(self):
+ return cposit.convertP8ToDouble(cposit.q8_to_p8(self._c_quire))
+
+ def __int__(self):
+ return int(cposit.convertP8ToDouble(cposit.q8_to_p8(self._c_quire)))
def __str__(self):
return repr(cposit.convertP8ToDouble(cposit.q8_to_p8(self._c_quire)))
def __repr__(self):
return 'Quire8(' + repr(cposit.convertP8ToDouble(cposit.q8_to_p8(self._c_quire))) + ')'
- cpdef fdp_add(self, Posit8 a2, Posit8 a3):
- self._c_quire = cposit.q8_fdp_add(self._c_quire, a2._c_posit, a3._c_posit)
+ cpdef uint32_t get_bits(self):
+ return self._c_quire.v
+ bits = property(get_bits)
+
+ # arithmetic
+
+ cpdef Quire8 qma(self, Posit8 a1, Posit8 a2):
+ cdef cposit.quire8_t f = cposit.q8_fdp_add(self._c_quire, a1._c_posit, a2._c_posit)
+ return Quire8.from_c_quire(f)
- cpdef fdp_sub(self, Posit8 a2, Posit8 a3):
- self._c_quire = cposit.q8_fdp_sub(self._c_quire, a2._c_posit, a3._c_posit)
+ cpdef Quire8 qms(self, Posit8 a1, Posit8 a2):
+ cdef cposit.quire8_t f = cposit.q8_fdp_sub(self._c_quire, a1._c_posit, a2._c_posit)
+ return Quire8.from_c_quire(f)
- cpdef get_p8(self):
+ cpdef void iqma(self, Posit8 a1, Posit8 a2):
+ self._c_quire = cposit.q8_fdp_add(self._c_quire, a1._c_posit, a2._c_posit)
+
+ cpdef void iqms(self, Posit8 a1, Posit8 a2):
+ self._c_quire = cposit.q8_fdp_sub(self._c_quire, a1._c_posit, a2._c_posit)
+
+ cpdef void iclr(self):
+ self._c_quire = cposit.q8Clr()
+
+ # conversion back to posit
+
+ cpdef Posit8 to_posit(self):
cpdef cposit.posit8_t f = cposit.q8_to_p8(self._c_quire)
return Posit8.from_c_posit(f)
- p8 = property(get_p8)
+
+
+# external, non-method arithmetic
+
+cpdef Posit8 p8_neg(Posit8 a1):
+ cdef cposit.posit8_t f = _p8_neg(a1._c_posit)
+ return Posit8.from_c_posit(f)
+
+cpdef Posit8 p8_abs(Posit8 a1):
+ cdef cposit.posit8_t f = _p8_abs(a1._c_posit)
+ return Posit8.from_c_posit(f)
+
+cpdef Posit8 p8_round(Posit8 a1):
+ cdef cposit.posit8_t f = cposit.p8_roundToInt(a1._c_posit)
+ return Posit8.from_c_posit(f)
+
+cpdef Posit8 p8_add(Posit8 a1, Posit8 a2):
+ cdef cposit.posit8_t f = cposit.p8_add(a1._c_posit, a2._c_posit)
+ return Posit8.from_c_posit(f)
+
+cpdef Posit8 p8_sub(Posit8 a1, Posit8 a2):
+ cdef cposit.posit8_t f = cposit.p8_sub(a1._c_posit, a2._c_posit)
+ return Posit8.from_c_posit(f)
+
+cpdef Posit8 p8_mul(Posit8 a1, Posit8 a2):
+ cdef cposit.posit8_t f = cposit.p8_mul(a1._c_posit, a2._c_posit)
+ return Posit8.from_c_posit(f)
+
+cpdef Posit8 p8_fma(Posit8 acc, Posit8 a1, Posit8 a2):
+ cdef cposit.posit8_t f = cposit.p8_mulAdd(a1._c_posit, a2._c_posit, acc._c_posit)
+ return Posit8.from_c_posit(f)
+
+cpdef Posit8 p8_div(Posit8 a1, Posit8 a2):
+ cdef cposit.posit8_t f = cposit.p8_div(a1._c_posit, a2._c_posit)
+ return Posit8.from_c_posit(f)
+
+cpdef Posit8 p8_sqrt(Posit8 a1):
+ cdef cposit.posit8_t f = cposit.p8_sqrt(a1._c_posit)
+ return Posit8.from_c_posit(f)
+
+cpdef bint p8_eq(Posit8 a1, Posit8 a2):
+ return cposit.p8_eq(a1._c_posit, a2._c_posit)
+
+cpdef bint p8_le(Posit8 a1, Posit8 a2):
+ return cposit.p8_le(a1._c_posit, a2._c_posit)
+
+cpdef bint p8_lt(Posit8 a1, Posit8 a2):
+ return cposit.p8_lt(a1._c_posit, a2._c_posit)
+
+cpdef Posit16 p8_to_p16(Posit8 a1):
+ cdef cposit.posit16_t f = cposit.p8_to_p16(a1._c_posit)
+ return Posit16.from_c_posit(f)
+
+cpdef Posit32 p8_to_p32(Posit8 a1):
+ cdef cposit.posit32_t f = cposit.p8_to_p32(a1._c_posit)
+ return Posit32.from_c_posit(f)
+
+cpdef Quire8 p8_to_q8(Posit8 a1):
+ cdef cposit.quire8_t f
+ f = cposit.q8Clr()
+ f = cposit.q8_fdp_add(f, a1._c_posit, _p8_one)
+ return Quire8.from_c_quire(f)
+
+cpdef Quire8 q8_qma(Quire8 acc, Posit8 a1, Posit8 a2):
+ cdef cposit.quire8_t f = cposit.q8_fdp_add(acc._c_quire, a1._c_posit, a2._c_posit)
+ return Quire8.from_c_quire(f)
+
+cpdef Quire8 q8_qms(Quire8 acc, Posit8 a1, Posit8 a2):
+ cdef cposit.quire8_t f = cposit.q8_fdp_sub(acc._c_quire, a1._c_posit, a2._c_posit)
+ return Quire8.from_c_quire(f)
+
+cpdef Posit8 q8_to_p8(Quire8 a1):
+ cpdef cposit.posit8_t f = cposit.q8_to_p8(a1._c_quire)
+ return Posit8.from_c_posit(f)
cdef class Posit16:
return obj
@staticmethod
- def from_bits(int value):
+ def from_bits(uint16_t value):
"""Factory function to create a Posit16 object from a bit pattern
represented as an integer.
"""
cdef Posit16 obj = Posit16.__new__(Posit16)
- obj._c_posit = cposit.castP16(value)
+ obj._c_posit.v = value
return obj
@staticmethod
- def from_double(float value):
+ def from_double(double value):
"""Factory function to create a Posit16 object from a double.
"""
cdef Posit16 obj = Posit16.__new__(Posit16)
# convenience interface for use inside Python
def __init__(self, value):
+ """Given an int, create a Posit16 from the bitpattern represented by
+ that int. Otherwise, given some value, create a Posit16 by rounding
+ float(value).
+ """
if isinstance(value, int):
- self._c_posit = cposit.castP16(value)
+ self._c_posit.v = value
else:
f = float(value)
self._c_posit = cposit.convertDoubleToP16(f)
+ def __float__(self):
+ return cposit.convertP16ToDouble(self._c_posit)
+
+ def __int__(self):
+ return int(cposit.convertP16ToDouble(self._c_posit))
+
def __str__(self):
return repr(cposit.convertP16ToDouble(self._c_posit))
def __repr__(self):
return 'Posit16(' + repr(cposit.convertP16ToDouble(self._c_posit)) + ')'
- cpdef get_bits(self):
- cdef int u = cposit.castUI16(self._c_posit)
- return u
+ cpdef uint16_t get_bits(self):
+ return self._c_posit.v
bits = property(get_bits)
# arithmetic
- cpdef round(self):
+ cpdef Posit16 neg(self):
+ cdef cposit.posit16_t f = _p16_neg(self._c_posit)
+ return Posit16.from_c_posit(f)
+
+ def __neg__(self):
+ return self.neg()
+
+ cpdef Posit16 abs(self):
+ cdef cposit.posit16_t f = _p16_abs(self._c_posit)
+ return Posit16.from_c_posit(f)
+
+ def __abs__(self):
+ return self.abs()
+
+ cpdef Posit16 round(self):
cdef cposit.posit16_t f = cposit.p16_roundToInt(self._c_posit)
return Posit16.from_c_posit(f)
- def __round__(self, Posit16 other):
- return self.roundToInt(other)
+ def __round__(self):
+ return self.round()
- cpdef add(self, Posit16 other):
+ cpdef Posit16 add(self, Posit16 other):
cdef cposit.posit16_t f = cposit.p16_add(self._c_posit, other._c_posit)
return Posit16.from_c_posit(f)
def __add__(self, Posit16 other):
return self.add(other)
- cpdef sub(self, Posit16 other):
+ cpdef Posit16 sub(self, Posit16 other):
cdef cposit.posit16_t f = cposit.p16_sub(self._c_posit, other._c_posit)
return Posit16.from_c_posit(f)
def __sub__(self, Posit16 other):
return self.sub(other)
- cpdef mul(self, Posit16 other):
+ cpdef Posit16 mul(self, Posit16 other):
cdef cposit.posit16_t f = cposit.p16_mul(self._c_posit, other._c_posit)
return Posit16.from_c_posit(f)
def __mul__(self, Posit16 other):
return self.mul(other)
- cpdef fma(self, Posit16 a2, Posit16 a3):
- cdef cposit.posit16_t f = cposit.p16_mulAdd(self._c_posit, a2._c_posit, a3._c_posit)
- return Posit16.from_c_posit(f)
+ cpdef Posit16 fma(self, Posit16 a1, Posit16 a2):
+ cdef cposit.posit16_t f = cposit.p16_mulAdd(a1._c_posit, a2._c_posit, self._c_posit)
+ return Posit16.from_c_posit(f)
- cpdef div(self, Posit16 other):
+ cpdef Posit16 div(self, Posit16 other):
cdef cposit.posit16_t f = cposit.p16_div(self._c_posit, other._c_posit)
return Posit16.from_c_posit(f)
def __truediv__(self, Posit16 other):
return self.div(other)
- cpdef sqrt(self):
+ cpdef Posit16 sqrt(self):
cdef cposit.posit16_t f = cposit.p16_sqrt(self._c_posit)
return Posit16.from_c_posit(f)
# in-place arithmetic
- cpdef iround(self):
+ cpdef void ineg(self):
+ self._c_posit = _p16_neg(self._c_posit)
+
+ cpdef void iabs(self):
+ self._c_posit = _p16_abs(self._c_posit)
+
+ cpdef void iround(self):
self._c_posit = cposit.p16_roundToInt(self._c_posit)
- cpdef iadd(self, Posit16 other):
+ cpdef void iadd(self, Posit16 other):
self._c_posit = cposit.p16_add(self._c_posit, other._c_posit)
def __iadd__(self, Posit16 other):
self.iadd(other)
return self
- cpdef isub(self, Posit16 other):
+ cpdef void isub(self, Posit16 other):
self._c_posit = cposit.p16_sub(self._c_posit, other._c_posit)
def __isub__(self, Posit16 other):
self.isub(other)
return self
- cpdef imul(self, Posit16 other):
+ cpdef void imul(self, Posit16 other):
self._c_posit = cposit.p16_mul(self._c_posit, other._c_posit)
def __imul__(self, Posit16 other):
self.imul(other)
return self
- cpdef ifma(self, Posit16 a2, Posit16 a3):
- self._c_posit = cposit.p16_mulAdd(self._c_posit, a2._c_posit, a3._c_posit)
+ cpdef void ifma(self, Posit16 a1, Posit16 a2):
+ self._c_posit = cposit.p16_mulAdd(a1._c_posit, a2._c_posit, self._c_posit)
- cpdef idiv(self, Posit16 other):
+ cpdef void idiv(self, Posit16 other):
self._c_posit = cposit.p16_div(self._c_posit, other._c_posit)
def __itruediv__(self, Posit16 other):
self.idiv(other)
return self
- cpdef isqrt(self):
+ cpdef void isqrt(self):
self._c_posit = cposit.p16_sqrt(self._c_posit)
# comparison
- cpdef eq(self, Posit16 other):
- cdef bint b = cposit.p16_eq(self._c_posit, other._c_posit)
- return b
+ cpdef bint eq(self, Posit16 other):
+ return cposit.p16_eq(self._c_posit, other._c_posit)
- cpdef le(self, Posit16 other):
- cdef bint b = cposit.p16_le(self._c_posit, other._c_posit)
- return b
+ cpdef bint le(self, Posit16 other):
+ return cposit.p16_le(self._c_posit, other._c_posit)
- cpdef lt(self, Posit16 other):
- cdef bint b = cposit.p16_lt(self._c_posit, other._c_posit)
- return b
+ cpdef bint lt(self, Posit16 other):
+ return cposit.p16_lt(self._c_posit, other._c_posit)
def __lt__(self, Posit16 other):
return self.lt(other)
cdef cposit.posit8_t f = cposit.p16_to_p8(self._c_posit)
return Posit8.from_c_posit(f)
+ cpdef to_p32(self):
+ cdef cposit.posit32_t f = cposit.p16_to_p32(self._c_posit)
+ return Posit32.from_c_posit(f)
+
+ cpdef to_quire(self):
+ cdef cposit.quire16_t f
+ f = cposit.q16Clr()
+ f = cposit.q16_fdp_add(f, self._c_posit, _p16_one)
+ return Quire16.from_c_quire(f)
+
cdef class Quire16:
# the wrapped quire value
cdef cposit.quire16_t _c_quire
- # limited interface for now
+ # factory function constructors that bypass init
+
+ @staticmethod
+ cdef Quire16 from_c_quire(cposit.quire16_t f):
+ """Factory function to create a Quire16 object directly from
+ a C quire16_t.
+ """
+ cdef Quire16 obj = Quire16.__new__(Quire16)
+ obj._c_quire = f
+ return obj
+
+ @staticmethod
+ def from_bits(value):
+ """Factory function to create a Quire16 object from a bit pattern
+ represented as an integer.
+ """
+ cdef Quire16 obj = Quire16.__new__(Quire16)
- def __cinit__(self):
- cposit.q16_clr(self._c_quire)
+ if not isinstance(value, int):
+ raise TypeError('expecting int, got {}'.format(repr(value)))
+
+ for idx in range(1, -1, -1):
+ obj._c_quire.v[idx] = value & 0xffffffffffffffff
+ value >>= 64
+
+ if not (value == 0):
+ raise OverflowError('value too large to fit in uint64_t[2]')
+
+ return obj
+
+ # convenience interface for use inside Python
+
+ def __init__(self, value):
+ """Given an int, create a Quire16 from the bitpattern represented by
+ that int. Otherwise, given some value, create a Quire16 by rounding
+ float(value) to a Posit16.
+ """
+ if isinstance(value, int):
+ for idx in range(1, -1, -1):
+ self._c_quire.v[idx] = value & 0xffffffffffffffff
+ value >>= 64
+ if not (value == 0):
+ raise OverflowError('value too large to fit in uint64_t[2]')
+ else:
+ f = float(value)
+ self._c_quire = cposit.q16Clr()
+ self._c_quire = cposit.q16_fdp_add(self._c_quire, cposit.convertDoubleToP16(f), _p16_one)
+
+ def __float__(self):
+ return cposit.convertP16ToDouble(cposit.q16_to_p16(self._c_quire))
+
+ def __int__(self):
+ return int(cposit.convertP16ToDouble(cposit.q16_to_p16(self._c_quire)))
def __str__(self):
return repr(cposit.convertP16ToDouble(cposit.q16_to_p16(self._c_quire)))
def __repr__(self):
return 'Quire16(' + repr(cposit.convertP16ToDouble(cposit.q16_to_p16(self._c_quire))) + ')'
- cpdef fdp_add(self, Posit16 a2, Posit16 a3):
- self._c_quire = cposit.q16_fdp_add(self._c_quire, a2._c_posit, a3._c_posit)
+ def get_bits(self):
+ b = 0
+ for u in self._c_quire.v:
+ b <<= 64
+ b |= u
+ return b
+ bits = property(get_bits)
+
+ # arithmetic
+
+ cpdef Quire16 qma(self, Posit16 a1, Posit16 a2):
+ cdef cposit.quire16_t f = cposit.q16_fdp_add(self._c_quire, a1._c_posit, a2._c_posit)
+ return Quire16.from_c_quire(f)
- cpdef fdp_sub(self, Posit16 a2, Posit16 a3):
- self._c_quire = cposit.q16_fdp_sub(self._c_quire, a2._c_posit, a3._c_posit)
+ cpdef Quire16 qms(self, Posit16 a1, Posit16 a2):
+ cdef cposit.quire16_t f = cposit.q16_fdp_sub(self._c_quire, a1._c_posit, a2._c_posit)
+ return Quire16.from_c_quire(f)
- cpdef get_p16(self):
+ cpdef void iqma(self, Posit16 a1, Posit16 a2):
+ self._c_quire = cposit.q16_fdp_add(self._c_quire, a1._c_posit, a2._c_posit)
+
+ cpdef void iqms(self, Posit16 a1, Posit16 a2):
+ self._c_quire = cposit.q16_fdp_sub(self._c_quire, a1._c_posit, a2._c_posit)
+
+ cpdef void iclr(self):
+ self._c_quire = cposit.q16Clr()
+
+ # conversion back to posit
+
+ cpdef Posit16 to_posit(self):
cpdef cposit.posit16_t f = cposit.q16_to_p16(self._c_quire)
return Posit16.from_c_posit(f)
- p16 = property(get_p16)
+
+
+# external, non-method arithmetic
+
+cpdef Posit16 p16_neg(Posit16 a1):
+ cdef cposit.posit16_t f = _p16_neg(a1._c_posit)
+ return Posit16.from_c_posit(f)
+
+cpdef Posit16 p16_abs(Posit16 a1):
+ cdef cposit.posit16_t f = _p16_abs(a1._c_posit)
+ return Posit16.from_c_posit(f)
+
+cpdef Posit16 p16_round(Posit16 a1):
+ cdef cposit.posit16_t f = cposit.p16_roundToInt(a1._c_posit)
+ return Posit16.from_c_posit(f)
+
+cpdef Posit16 p16_add(Posit16 a1, Posit16 a2):
+ cdef cposit.posit16_t f = cposit.p16_add(a1._c_posit, a2._c_posit)
+ return Posit16.from_c_posit(f)
+
+cpdef Posit16 p16_sub(Posit16 a1, Posit16 a2):
+ cdef cposit.posit16_t f = cposit.p16_sub(a1._c_posit, a2._c_posit)
+ return Posit16.from_c_posit(f)
+
+cpdef Posit16 p16_mul(Posit16 a1, Posit16 a2):
+ cdef cposit.posit16_t f = cposit.p16_mul(a1._c_posit, a2._c_posit)
+ return Posit16.from_c_posit(f)
+
+cpdef Posit16 p16_fma(Posit16 acc, Posit16 a1, Posit16 a2):
+ cdef cposit.posit16_t f = cposit.p16_mulAdd(a1._c_posit, a2._c_posit, acc._c_posit)
+ return Posit16.from_c_posit(f)
+
+cpdef Posit16 p16_div(Posit16 a1, Posit16 a2):
+ cdef cposit.posit16_t f = cposit.p16_div(a1._c_posit, a2._c_posit)
+ return Posit16.from_c_posit(f)
+
+cpdef Posit16 p16_sqrt(Posit16 a1):
+ cdef cposit.posit16_t f = cposit.p16_sqrt(a1._c_posit)
+ return Posit16.from_c_posit(f)
+
+cpdef bint p16_eq(Posit16 a1, Posit16 a2):
+ return cposit.p16_eq(a1._c_posit, a2._c_posit)
+
+cpdef bint p16_le(Posit16 a1, Posit16 a2):
+ return cposit.p16_le(a1._c_posit, a2._c_posit)
+
+cpdef bint p16_lt(Posit16 a1, Posit16 a2):
+ return cposit.p16_lt(a1._c_posit, a2._c_posit)
+
+cpdef Posit8 p16_to_p8(Posit16 a1):
+ cdef cposit.posit8_t f = cposit.p16_to_p8(a1._c_posit)
+ return Posit8.from_c_posit(f)
+
+cpdef Posit32 p16_to_p32(Posit16 a1):
+ cdef cposit.posit32_t f = cposit.p16_to_p32(a1._c_posit)
+ return Posit32.from_c_posit(f)
+
+cpdef Quire16 p16_to_q16(Posit16 a1):
+ cdef cposit.quire16_t f
+ f = cposit.q16Clr()
+ f = cposit.q16_fdp_add(f, a1._c_posit, _p16_one)
+ return Quire16.from_c_quire(f)
+
+cpdef Quire16 q16_qma(Quire16 acc, Posit16 a1, Posit16 a2):
+ cdef cposit.quire16_t f = cposit.q16_fdp_add(acc._c_quire, a1._c_posit, a2._c_posit)
+ return Quire16.from_c_quire(f)
+
+cpdef Quire16 q16_qms(Quire16 acc, Posit16 a1, Posit16 a2):
+ cdef cposit.quire16_t f = cposit.q16_fdp_sub(acc._c_quire, a1._c_posit, a2._c_posit)
+ return Quire16.from_c_quire(f)
+
+cpdef Posit16 q16_to_p16(Quire16 a1):
+ cpdef cposit.posit16_t f = cposit.q16_to_p16(a1._c_quire)
+ return Posit16.from_c_posit(f)
+
+
+cdef class Posit32:
+
+ # the wrapped posit value
+ cdef cposit.posit32_t _c_posit
+
+ # factory function constructors that bypass __init__
+
+ @staticmethod
+ cdef Posit32 from_c_posit(cposit.posit32_t f):
+ """Factory function to create a Posit32 object directly from
+ a C posit32_t.
+ """
+ cdef Posit32 obj = Posit32.__new__(Posit32)
+ obj._c_posit = f
+ return obj
+
+ @staticmethod
+ def from_bits(uint32_t value):
+ """Factory function to create a Posit32 object from a bit pattern
+ represented as an integer.
+ """
+ cdef Posit32 obj = Posit32.__new__(Posit32)
+ obj._c_posit.v = value
+ return obj
+
+ @staticmethod
+ def from_double(double value):
+ """Factory function to create a Posit32 object from a double.
+ """
+ cdef Posit32 obj = Posit32.__new__(Posit32)
+ obj._c_posit = cposit.convertDoubleToP32(value)
+ return obj
+
+ # convenience interface for use inside Python
+
+ def __init__(self, value):
+ """Given an int, create a Posit32 from the bitpattern represented by
+ that int. Otherwise, given some value, create a Posit32 by rounding
+ float(value).
+ """
+ if isinstance(value, int):
+ self._c_posit.v = value
+ else:
+ f = float(value)
+ self._c_posit = cposit.convertDoubleToP32(f)
+
+ def __float__(self):
+ return cposit.convertP32ToDouble(self._c_posit)
+
+ def __int__(self):
+ return int(cposit.convertP32ToDouble(self._c_posit))
+
+ def __str__(self):
+ return repr(cposit.convertP32ToDouble(self._c_posit))
+
+ def __repr__(self):
+ return 'Posit32(' + repr(cposit.convertP32ToDouble(self._c_posit)) + ')'
+
+ cpdef uint32_t get_bits(self):
+ return self._c_posit.v
+ bits = property(get_bits)
+
+ # arithmetic
+
+ cpdef Posit32 neg(self):
+ cdef cposit.posit32_t f = _p32_neg(self._c_posit)
+ return Posit32.from_c_posit(f)
+
+ def __neg__(self):
+ return self.neg()
+
+ cpdef Posit32 abs(self):
+ cdef cposit.posit32_t f = _p32_abs(self._c_posit)
+ return Posit32.from_c_posit(f)
+
+ def __abs__(self):
+ return self.abs()
+
+ cpdef Posit32 round(self):
+ cdef cposit.posit32_t f = cposit.p32_roundToInt(self._c_posit)
+ return Posit32.from_c_posit(f)
+
+ def __round__(self):
+ return self.round()
+
+ cpdef Posit32 add(self, Posit32 other):
+ cdef cposit.posit32_t f = cposit.p32_add(self._c_posit, other._c_posit)
+ return Posit32.from_c_posit(f)
+
+ def __add__(self, Posit32 other):
+ return self.add(other)
+
+ cpdef Posit32 sub(self, Posit32 other):
+ cdef cposit.posit32_t f = cposit.p32_sub(self._c_posit, other._c_posit)
+ return Posit32.from_c_posit(f)
+
+ def __sub__(self, Posit32 other):
+ return self.sub(other)
+
+ cpdef Posit32 mul(self, Posit32 other):
+ cdef cposit.posit32_t f = cposit.p32_mul(self._c_posit, other._c_posit)
+ return Posit32.from_c_posit(f)
+
+ def __mul__(self, Posit32 other):
+ return self.mul(other)
+
+ cpdef Posit32 fma(self, Posit32 a1, Posit32 a2):
+ cdef cposit.posit32_t f = cposit.p32_mulAdd(a1._c_posit, a2._c_posit, self._c_posit)
+ return Posit32.from_c_posit(f)
+
+ cpdef Posit32 div(self, Posit32 other):
+ cdef cposit.posit32_t f = cposit.p32_div(self._c_posit, other._c_posit)
+ return Posit32.from_c_posit(f)
+
+ def __truediv__(self, Posit32 other):
+ return self.div(other)
+
+ cpdef Posit32 sqrt(self):
+ cdef cposit.posit32_t f = cposit.p32_sqrt(self._c_posit)
+ return Posit32.from_c_posit(f)
+
+ # in-place arithmetic
+
+ cpdef void ineg(self):
+ self._c_posit = _p32_neg(self._c_posit)
+
+ cpdef void iabs(self):
+ self._c_posit = _p32_abs(self._c_posit)
+
+ cpdef void iround(self):
+ self._c_posit = cposit.p32_roundToInt(self._c_posit)
+
+ cpdef void iadd(self, Posit32 other):
+ self._c_posit = cposit.p32_add(self._c_posit, other._c_posit)
+
+ def __iadd__(self, Posit32 other):
+ self.iadd(other)
+ return self
+
+ cpdef void isub(self, Posit32 other):
+ self._c_posit = cposit.p32_sub(self._c_posit, other._c_posit)
+
+ def __isub__(self, Posit32 other):
+ self.isub(other)
+ return self
+
+ cpdef void imul(self, Posit32 other):
+ self._c_posit = cposit.p32_mul(self._c_posit, other._c_posit)
+
+ def __imul__(self, Posit32 other):
+ self.imul(other)
+ return self
+
+ cpdef void ifma(self, Posit32 a1, Posit32 a2):
+ self._c_posit = cposit.p32_mulAdd(a1._c_posit, a2._c_posit, self._c_posit)
+
+ cpdef void idiv(self, Posit32 other):
+ self._c_posit = cposit.p32_div(self._c_posit, other._c_posit)
+
+ def __itruediv__(self, Posit32 other):
+ self.idiv(other)
+ return self
+
+ cpdef void isqrt(self):
+ self._c_posit = cposit.p32_sqrt(self._c_posit)
+
+ # comparison
+
+ cpdef bint eq(self, Posit32 other):
+ return cposit.p32_eq(self._c_posit, other._c_posit)
+
+ cpdef bint le(self, Posit32 other):
+ return cposit.p32_le(self._c_posit, other._c_posit)
+
+ cpdef bint lt(self, Posit32 other):
+ return cposit.p32_lt(self._c_posit, other._c_posit)
+
+ def __lt__(self, Posit32 other):
+ return self.lt(other)
+
+ def __le__(self, Posit32 other):
+ return self.le(other)
+
+ def __eq__(self, Posit32 other):
+ return self.eq(other)
+
+ def __ne__(self, Posit32 other):
+ return not self.eq(other)
+
+ def __ge__(self, Posit32 other):
+ return other.le(self)
+
+ def __gt__(self, Posit32 other):
+ return other.lt(self)
+
+ # conversion to other posit types
+
+ cpdef to_p8(self):
+ cdef cposit.posit8_t f = cposit.p32_to_p8(self._c_posit)
+ return Posit8.from_c_posit(f)
+
+ cpdef to_p16(self):
+ cdef cposit.posit16_t f = cposit.p32_to_p16(self._c_posit)
+ return Posit16.from_c_posit(f)
+
+ cpdef to_quire(self):
+ cdef cposit.quire32_t f
+ f = cposit.q32Clr()
+ f = cposit.q32_fdp_add(f, self._c_posit, _p32_one)
+ return Quire32.from_c_quire(f)
+
+
+cdef class Quire32:
+
+ # the wrapped quire value
+ cdef cposit.quire32_t _c_quire
+
+ # factory function constructors that bypass init
+
+ @staticmethod
+ cdef Quire32 from_c_quire(cposit.quire32_t f):
+ """Factory function to create a Quire32 object directly from
+ a C quire32_t.
+ """
+ cdef Quire32 obj = Quire32.__new__(Quire32)
+ obj._c_quire = f
+ return obj
+
+ @staticmethod
+ def from_bits(value):
+ """Factory function to create a Quire32 object from a bit pattern
+ represented as an integer.
+ """
+ cdef Quire32 obj = Quire32.__new__(Quire32)
+
+ if not isinstance(value, int):
+ raise TypeError('expecting int, got {}'.format(repr(value)))
+
+ for idx in range(7, -1, -1):
+ obj._c_quire.v[idx] = value & 0xffffffffffffffff
+ value >>= 64
+
+ if not (value == 0):
+ raise OverflowError('value too large to fit in uint64_t[8]')
+
+ return obj
+
+ # convenience interface for use inside Python
+
+ def __init__(self, value):
+ """Given an int, create a Quire32 from the bitpattern represented by
+ that int. Otherwise, given some value, create a Quire32 by rounding
+ float(value) to a Posit32.
+ """
+ if isinstance(value, int):
+ for idx in range(7, -1, -1):
+ self._c_quire.v[idx] = value & 0xffffffffffffffff
+ value >>= 64
+ if not (value == 0):
+ raise OverflowError('value too large to fit in uint64_t[8]')
+ else:
+ f = float(value)
+ self._c_quire = cposit.q32Clr()
+ self._c_quire = cposit.q32_fdp_add(self._c_quire, cposit.convertDoubleToP32(f), _p32_one)
+
+ def __float__(self):
+ return cposit.convertP32ToDouble(cposit.q32_to_p32(self._c_quire))
+
+ def __int__(self):
+ return int(cposit.convertP32ToDouble(cposit.q32_to_p32(self._c_quire)))
+
+ def __str__(self):
+ return repr(cposit.convertP32ToDouble(cposit.q32_to_p32(self._c_quire)))
+
+ def __repr__(self):
+ return 'Quire32(' + repr(cposit.convertP32ToDouble(cposit.q32_to_p32(self._c_quire))) + ')'
+
+ def get_bits(self):
+ b = 0
+ for u in self._c_quire.v:
+ b <<= 64
+ b |= u
+ return b
+ bits = property(get_bits)
+
+ # arithmetic
+
+ cpdef Quire32 qma(self, Posit32 a1, Posit32 a2):
+ cdef cposit.quire32_t f = cposit.q32_fdp_add(self._c_quire, a1._c_posit, a2._c_posit)
+ return Quire32.from_c_quire(f)
+
+ cpdef Quire32 qms(self, Posit32 a1, Posit32 a2):
+ cdef cposit.quire32_t f = cposit.q32_fdp_sub(self._c_quire, a1._c_posit, a2._c_posit)
+ return Quire32.from_c_quire(f)
+
+ cpdef void iqma(self, Posit32 a1, Posit32 a2):
+ self._c_quire = cposit.q32_fdp_add(self._c_quire, a1._c_posit, a2._c_posit)
+
+ cpdef void iqms(self, Posit32 a1, Posit32 a2):
+ self._c_quire = cposit.q32_fdp_sub(self._c_quire, a1._c_posit, a2._c_posit)
+
+ cpdef void iclr(self):
+ self._c_quire = cposit.q32Clr()
+
+ # conversion back to posit
+
+ cpdef Posit32 to_posit(self):
+ cpdef cposit.posit32_t f = cposit.q32_to_p32(self._c_quire)
+ return Posit32.from_c_posit(f)
+
+
+# external, non-method arithmetic
+
+cpdef Posit32 p32_neg(Posit32 a1):
+ cdef cposit.posit32_t f = _p32_neg(a1._c_posit)
+ return Posit32.from_c_posit(f)
+
+cpdef Posit32 p32_abs(Posit32 a1):
+ cdef cposit.posit32_t f = _p32_abs(a1._c_posit)
+ return Posit32.from_c_posit(f)
+
+cpdef Posit32 p32_round(Posit32 a1):
+ cdef cposit.posit32_t f = cposit.p32_roundToInt(a1._c_posit)
+ return Posit32.from_c_posit(f)
+
+cpdef Posit32 p32_add(Posit32 a1, Posit32 a2):
+ cdef cposit.posit32_t f = cposit.p32_add(a1._c_posit, a2._c_posit)
+ return Posit32.from_c_posit(f)
+
+cpdef Posit32 p32_sub(Posit32 a1, Posit32 a2):
+ cdef cposit.posit32_t f = cposit.p32_sub(a1._c_posit, a2._c_posit)
+ return Posit32.from_c_posit(f)
+
+cpdef Posit32 p32_mul(Posit32 a1, Posit32 a2):
+ cdef cposit.posit32_t f = cposit.p32_mul(a1._c_posit, a2._c_posit)
+ return Posit32.from_c_posit(f)
+
+cpdef Posit32 p32_fma(Posit32 acc, Posit32 a1, Posit32 a2):
+ cdef cposit.posit32_t f = cposit.p32_mulAdd(a1._c_posit, a2._c_posit, acc._c_posit)
+ return Posit32.from_c_posit(f)
+
+cpdef Posit32 p32_div(Posit32 a1, Posit32 a2):
+ cdef cposit.posit32_t f = cposit.p32_div(a1._c_posit, a2._c_posit)
+ return Posit32.from_c_posit(f)
+
+cpdef Posit32 p32_sqrt(Posit32 a1):
+ cdef cposit.posit32_t f = cposit.p32_sqrt(a1._c_posit)
+ return Posit32.from_c_posit(f)
+
+cpdef bint p32_eq(Posit32 a1, Posit32 a2):
+ return cposit.p32_eq(a1._c_posit, a2._c_posit)
+
+cpdef bint p32_le(Posit32 a1, Posit32 a2):
+ return cposit.p32_le(a1._c_posit, a2._c_posit)
+
+cpdef bint p32_lt(Posit32 a1, Posit32 a2):
+ return cposit.p32_lt(a1._c_posit, a2._c_posit)
+
+cpdef Posit8 p32_to_p8(Posit32 a1):
+ cdef cposit.posit8_t f = cposit.p32_to_p8(a1._c_posit)
+ return Posit8.from_c_posit(f)
+
+cpdef Posit16 p32_to_p16(Posit32 a1):
+ cdef cposit.posit16_t f = cposit.p32_to_p16(a1._c_posit)
+ return Posit16.from_c_posit(f)
+
+cpdef Quire32 p32_to_q32(Posit32 a1):
+ cdef cposit.quire32_t f
+ f = cposit.q32Clr()
+ f = cposit.q32_fdp_add(f, a1._c_posit, _p32_one)
+ return Quire32.from_c_quire(f)
+
+cpdef Quire32 q32_qma(Quire32 acc, Posit32 a1, Posit32 a2):
+ cdef cposit.quire32_t f = cposit.q32_fdp_add(acc._c_quire, a1._c_posit, a2._c_posit)
+ return Quire32.from_c_quire(f)
+
+cpdef Quire32 q32_qms(Quire32 acc, Posit32 a1, Posit32 a2):
+ cdef cposit.quire32_t f = cposit.q32_fdp_sub(acc._c_quire, a1._c_posit, a2._c_posit)
+ return Quire32.from_c_quire(f)
+
+cpdef Posit32 q32_to_p32(Quire32 a1):
+ cpdef cposit.posit32_t f = cposit.q32_to_p32(a1._c_quire)
+ return Posit32.from_c_posit(f)