- _arrayExpSliceAddass_d
T[] _arrayExpSliceAddass_d(T[] a, T value)
- _arrayExpSliceDivass_d
T[] _arrayExpSliceDivass_d(T[] a, T value)
- _arrayExpSliceMinSliceAssign_d
T[] _arrayExpSliceMinSliceAssign_d(T[] a, T[] b, T value)
Computes:
a[] = value - b[]
- _arrayExpSliceMinass_d
T[] _arrayExpSliceMinass_d(T[] a, T value)
- _arrayExpSliceMulass_d
T[] _arrayExpSliceMulass_d(T[] a, T value)
- _arraySliceExpAddSliceAssign_d
T[] _arraySliceExpAddSliceAssign_d(T[] a, T value, T[] b)
Computes:
a[] = b[] + value
- _arraySliceExpDivSliceAssign_d
T[] _arraySliceExpDivSliceAssign_d(T[] a, T value, T[] b)
Computes:
a[] = b[] / value
- _arraySliceExpMinSliceAssign_d
T[] _arraySliceExpMinSliceAssign_d(T[] a, T value, T[] b)
Computes:
a[] = b[] - value
- _arraySliceExpMulSliceAddass_d
T[] _arraySliceExpMulSliceAddass_d(T[] a, T value, T[] b)
Computes:
a[] += b[] * value
- _arraySliceExpMulSliceAssign_d
T[] _arraySliceExpMulSliceAssign_d(T[] a, T value, T[] b)
Computes:
a[] = b[] * value
- _arraySliceExpMulSliceMinass_d
T[] _arraySliceExpMulSliceMinass_d(T[] a, T value, T[] b)
Computes:
a[] -= b[] * value
- _arraySliceSliceAddSliceAssign_d
T[] _arraySliceSliceAddSliceAssign_d(T[] a, T[] c, T[] b)
Computes:
a[] = b[] + c[]
- _arraySliceSliceAddass_d
T[] _arraySliceSliceAddass_d(T[] a, T[] b)
- _arraySliceSliceMinSliceAssign_d
T[] _arraySliceSliceMinSliceAssign_d(T[] a, T[] c, T[] b)
Computes:
a[] = b[] - c[]
- _arraySliceSliceMinass_d
T[] _arraySliceSliceMinass_d(T[] a, T[] b)
- _arraySliceSliceMulSliceAssign_d
T[] _arraySliceSliceMulSliceAssign_d(T[] a, T[] c, T[] b)
Computes:
a[] = b[] * c[]
- _arraySliceSliceMulass_d
T[] _arraySliceSliceMulass_d(T[] a, T[] b)
- amd3dnow
bool amd3dnow()
Undocumented in source. Be warned that the author may not have intended to support it.
- disjoint
bool disjoint(T[] a, T[] b)
Undocumented in source. Be warned that the author may not have intended to support it.
- mmx
bool mmx()
Undocumented in source. Be warned that the author may not have intended to support it.
- sse
bool sse()
Undocumented in source. Be warned that the author may not have intended to support it.
- sse2
bool sse2()
Undocumented in source. Be warned that the author may not have intended to support it.
D programming language http://www.digitalmars.com/d/ Runtime support for double array operations. Based on code originally written by Burton Radons. Placed in public domain.