#include <Python.h>
#include <stdio.h>
#include <math.h>
#include "libnumarray.h"
#ifdef MS_WIN32
#pragma warning(once : 4244)
#endif
#define logical_and(arg1, arg2) (arg1 != 0) & (arg2 != 0)
#define logical_or(arg1, arg2) (arg1 != 0) | (arg2 != 0)
#define logical_xor(arg1, arg2) ((arg1 != 0) ^ (arg2 != 0)) & 1
#define ufmaximum(arg1, arg2) (((temp1=arg1) > (temp2=arg2)) ? temp1 : temp2)
#define ufminimum(arg1, arg2) (((temp1=arg1) < (temp2=arg2)) ? temp1 : temp2)
#define distance3d(x,y,z) sqrt(x*x + y*y + z*z)
/********************* _distance3d *********************/
static int _distance3d_fffxf_vvvxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tin2 = (Float32 *) buffers[2];
Float32 *tout0 = (Float32 *) buffers[3];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = distance3d(*tin0, *tin1, *tin2);
++tin0; ++tin1; ++tin2; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor _distance3d_fffxf_vvvxf_descr =
{ "_distance3d_fffxf_vvvxf", (void *) _distance3d_fffxf_vvvxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 3, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 0, 0, 0, 0 } };
static int _distance3d_fffxf_vssxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 tin1 = *(Float32 *) buffers[1];
Float32 tin2 = *(Float32 *) buffers[2];
Float32 *tout0 = (Float32 *) buffers[3];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = distance3d(*tin0, tin1, tin2);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor _distance3d_fffxf_vssxf_descr =
{ "_distance3d_fffxf_vssxf", (void *) _distance3d_fffxf_vssxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 3, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 1, 1, 0, 0 } };
/********************* minus *********************/
static int minus_fxf_vxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tout0 = (Float32 *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = -*tin0;
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor minus_fxf_vxv_descr =
{ "minus_fxf_vxv", (void *) minus_fxf_vxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Float32) }, { 0, 0, 0 } };
/********************* add *********************/
static int add_ffxf_vsxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 tin1 = *(Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = *tin0 + tin1;
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor add_ffxf_vsxv_descr =
{ "add_ffxf_vsxv", (void *) add_ffxf_vsxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 1, 0, 0 } };
static int add_ffxf_vvxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = *tin0 + *tin1;
++tin0; ++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor add_ffxf_vvxv_descr =
{ "add_ffxf_vvxv", (void *) add_ffxf_vvxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 0, 0, 0 } };
static void _add_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 net;
if (dim == 0) {
net = *tout0;
for (i=1; i<niters[dim]; i++) {
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
net = net + *tin0;
}
*tout0 = net;
}
else {
for (i=0; i<niters[dim]; i++) {
_add_fxf_R(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int add_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_add_fxf_R(dim, dummy, niters, input, inboffset, inbstrides,
output, outboffset, outbstrides );
END_THREADS
return 0;
}
STRIDING_DESCR2(add_fxf_R, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static void _add_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 lastval;
if (dim == 0) {
for (i=1; i<niters[dim]; i++) {
lastval = *tout0;
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
tout0 = (Float32 *) ((char *) tout0 + outbstrides[dim]);
*tout0 = lastval + *tin0;
}
}
else {
for (i=0; i<niters[dim]; i++) {
_add_fxf_A(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int add_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_add_fxf_A(dim, dummy, niters,
input, inboffset, inbstrides, output,
outboffset, outbstrides);
END_THREADS
return 0;
}
STRIDING_DESCR2(add_fxf_A, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static int add_ffxf_svxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 tin0 = *(Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = tin0 + *tin1;
++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor add_ffxf_svxv_descr =
{ "add_ffxf_svxv", (void *) add_ffxf_svxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 1, 0, 0, 0 } };
/********************* subtract *********************/
static int subtract_ffxf_vsxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 tin1 = *(Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = *tin0 - tin1;
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor subtract_ffxf_vsxv_descr =
{ "subtract_ffxf_vsxv", (void *) subtract_ffxf_vsxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 1, 0, 0 } };
static int subtract_ffxf_vvxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = *tin0 - *tin1;
++tin0; ++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor subtract_ffxf_vvxv_descr =
{ "subtract_ffxf_vvxv", (void *) subtract_ffxf_vvxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 0, 0, 0 } };
static void _subtract_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 net;
if (dim == 0) {
net = *tout0;
for (i=1; i<niters[dim]; i++) {
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
net = net - *tin0;
}
*tout0 = net;
}
else {
for (i=0; i<niters[dim]; i++) {
_subtract_fxf_R(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int subtract_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_subtract_fxf_R(dim, dummy, niters, input, inboffset, inbstrides,
output, outboffset, outbstrides );
END_THREADS
return 0;
}
STRIDING_DESCR2(subtract_fxf_R, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static void _subtract_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 lastval;
if (dim == 0) {
for (i=1; i<niters[dim]; i++) {
lastval = *tout0;
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
tout0 = (Float32 *) ((char *) tout0 + outbstrides[dim]);
*tout0 = lastval - *tin0;
}
}
else {
for (i=0; i<niters[dim]; i++) {
_subtract_fxf_A(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int subtract_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_subtract_fxf_A(dim, dummy, niters,
input, inboffset, inbstrides, output,
outboffset, outbstrides);
END_THREADS
return 0;
}
STRIDING_DESCR2(subtract_fxf_A, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static int subtract_ffxf_svxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 tin0 = *(Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = tin0 - *tin1;
++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor subtract_ffxf_svxv_descr =
{ "subtract_ffxf_svxv", (void *) subtract_ffxf_svxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 1, 0, 0, 0 } };
/********************* multiply *********************/
/********************* multiply *********************/
/********************* multiply *********************/
/********************* multiply *********************/
/********************* multiply *********************/
/********************* multiply *********************/
/********************* multiply *********************/
/********************* multiply *********************/
/********************* multiply *********************/
static int multiply_ffxf_vsxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 tin1 = *(Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = *tin0 * tin1;
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor multiply_ffxf_vsxv_descr =
{ "multiply_ffxf_vsxv", (void *) multiply_ffxf_vsxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 1, 0, 0 } };
static int multiply_ffxf_vvxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = *tin0 * *tin1;
++tin0; ++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor multiply_ffxf_vvxv_descr =
{ "multiply_ffxf_vvxv", (void *) multiply_ffxf_vvxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 0, 0, 0 } };
static void _multiply_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 net;
if (dim == 0) {
net = *tout0;
for (i=1; i<niters[dim]; i++) {
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
net = net * *tin0;
}
*tout0 = net;
}
else {
for (i=0; i<niters[dim]; i++) {
_multiply_fxf_R(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int multiply_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_multiply_fxf_R(dim, dummy, niters, input, inboffset, inbstrides,
output, outboffset, outbstrides );
END_THREADS
return 0;
}
STRIDING_DESCR2(multiply_fxf_R, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static void _multiply_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 lastval;
if (dim == 0) {
for (i=1; i<niters[dim]; i++) {
lastval = *tout0;
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
tout0 = (Float32 *) ((char *) tout0 + outbstrides[dim]);
*tout0 = lastval * *tin0;
}
}
else {
for (i=0; i<niters[dim]; i++) {
_multiply_fxf_A(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int multiply_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_multiply_fxf_A(dim, dummy, niters,
input, inboffset, inbstrides, output,
outboffset, outbstrides);
END_THREADS
return 0;
}
STRIDING_DESCR2(multiply_fxf_A, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static int multiply_ffxf_svxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 tin0 = *(Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = tin0 * *tin1;
++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor multiply_ffxf_svxv_descr =
{ "multiply_ffxf_svxv", (void *) multiply_ffxf_svxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 1, 0, 0, 0 } };
/********************* divide *********************/
/********************* divide *********************/
static int divide_ffxf_vsxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 tin1 = *(Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = *tin0 / tin1;
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor divide_ffxf_vsxv_descr =
{ "divide_ffxf_vsxv", (void *) divide_ffxf_vsxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 1, 0, 0 } };
static int divide_ffxf_vvxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = *tin0 / *tin1;
++tin0; ++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor divide_ffxf_vvxv_descr =
{ "divide_ffxf_vvxv", (void *) divide_ffxf_vvxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 0, 0, 0 } };
static void _divide_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 net;
if (dim == 0) {
net = *tout0;
for (i=1; i<niters[dim]; i++) {
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
net = net / *tin0;
}
*tout0 = net;
}
else {
for (i=0; i<niters[dim]; i++) {
_divide_fxf_R(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int divide_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_divide_fxf_R(dim, dummy, niters, input, inboffset, inbstrides,
output, outboffset, outbstrides );
END_THREADS
return 0;
}
STRIDING_DESCR2(divide_fxf_R, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static void _divide_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 lastval;
if (dim == 0) {
for (i=1; i<niters[dim]; i++) {
lastval = *tout0;
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
tout0 = (Float32 *) ((char *) tout0 + outbstrides[dim]);
*tout0 = lastval / *tin0;
}
}
else {
for (i=0; i<niters[dim]; i++) {
_divide_fxf_A(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int divide_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_divide_fxf_A(dim, dummy, niters,
input, inboffset, inbstrides, output,
outboffset, outbstrides);
END_THREADS
return 0;
}
STRIDING_DESCR2(divide_fxf_A, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static int divide_ffxf_svxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 tin0 = *(Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = tin0 / *tin1;
++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor divide_ffxf_svxv_descr =
{ "divide_ffxf_svxv", (void *) divide_ffxf_svxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 1, 0, 0, 0 } };
/********************* floor_divide *********************/
/********************* floor_divide *********************/
static int floor_divide_ffxf_vsxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 tin1 = *(Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
NUM_FLOORDIVIDE(*tin0, tin1, *tout0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor floor_divide_ffxf_vsxv_descr =
{ "floor_divide_ffxf_vsxv", (void *) floor_divide_ffxf_vsxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 1, 0, 0 } };
static int floor_divide_ffxf_vvxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
NUM_FLOORDIVIDE(*tin0, *tin1, *tout0);
++tin0; ++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor floor_divide_ffxf_vvxv_descr =
{ "floor_divide_ffxf_vvxv", (void *) floor_divide_ffxf_vvxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 0, 0, 0 } };
static void _floor_divide_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 net;
if (dim == 0) {
net = *tout0;
for (i=1; i<niters[dim]; i++) {
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
NUM_FLOORDIVIDE(net, *tin0, net);
}
*tout0 = net;
}
else {
for (i=0; i<niters[dim]; i++) {
_floor_divide_fxf_R(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int floor_divide_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_floor_divide_fxf_R(dim, dummy, niters, input, inboffset, inbstrides,
output, outboffset, outbstrides );
END_THREADS
return 0;
}
STRIDING_DESCR2(floor_divide_fxf_R, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static void _floor_divide_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 lastval;
if (dim == 0) {
for (i=1; i<niters[dim]; i++) {
lastval = *tout0;
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
tout0 = (Float32 *) ((char *) tout0 + outbstrides[dim]);
NUM_FLOORDIVIDE(lastval ,*tin0, *tout0);
}
}
else {
for (i=0; i<niters[dim]; i++) {
_floor_divide_fxf_A(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int floor_divide_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_floor_divide_fxf_A(dim, dummy, niters,
input, inboffset, inbstrides, output,
outboffset, outbstrides);
END_THREADS
return 0;
}
STRIDING_DESCR2(floor_divide_fxf_A, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static int floor_divide_ffxf_svxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 tin0 = *(Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
NUM_FLOORDIVIDE(tin0, *tin1, *tout0);
++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor floor_divide_ffxf_svxv_descr =
{ "floor_divide_ffxf_svxv", (void *) floor_divide_ffxf_svxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 1, 0, 0, 0 } };
/********************* true_divide *********************/
/********************* true_divide *********************/
static int true_divide_ffxf_vsxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 tin1 = *(Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = *tin0 / tin1;
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor true_divide_ffxf_vsxv_descr =
{ "true_divide_ffxf_vsxv", (void *) true_divide_ffxf_vsxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 1, 0, 0 } };
static int true_divide_ffxf_vvxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = *tin0 / *tin1;
++tin0; ++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor true_divide_ffxf_vvxv_descr =
{ "true_divide_ffxf_vvxv", (void *) true_divide_ffxf_vvxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 0, 0, 0 } };
static void _true_divide_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 net;
if (dim == 0) {
net = *tout0;
for (i=1; i<niters[dim]; i++) {
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
net = net / *tin0;
}
*tout0 = net;
}
else {
for (i=0; i<niters[dim]; i++) {
_true_divide_fxf_R(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int true_divide_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_true_divide_fxf_R(dim, dummy, niters, input, inboffset, inbstrides,
output, outboffset, outbstrides );
END_THREADS
return 0;
}
STRIDING_DESCR2(true_divide_fxf_R, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static void _true_divide_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 lastval;
if (dim == 0) {
for (i=1; i<niters[dim]; i++) {
lastval = *tout0;
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
tout0 = (Float32 *) ((char *) tout0 + outbstrides[dim]);
*tout0 = lastval / *tin0;
}
}
else {
for (i=0; i<niters[dim]; i++) {
_true_divide_fxf_A(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int true_divide_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_true_divide_fxf_A(dim, dummy, niters,
input, inboffset, inbstrides, output,
outboffset, outbstrides);
END_THREADS
return 0;
}
STRIDING_DESCR2(true_divide_fxf_A, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static int true_divide_ffxf_svxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 tin0 = *(Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = tin0 / *tin1;
++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor true_divide_ffxf_svxv_descr =
{ "true_divide_ffxf_svxv", (void *) true_divide_ffxf_svxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 1, 0, 0, 0 } };
/********************* remainder *********************/
/********************* remainder *********************/
static int remainder_ffxf_vsxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 tin1 = *(Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = fmod(*tin0, tin1);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor remainder_ffxf_vsxf_descr =
{ "remainder_ffxf_vsxf", (void *) remainder_ffxf_vsxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 1, 0, 0 } };
static int remainder_ffxf_vvxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = fmod(*tin0, *tin1);
++tin0; ++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor remainder_ffxf_vvxf_descr =
{ "remainder_ffxf_vvxf", (void *) remainder_ffxf_vvxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 0, 0, 0 } };
static void _remainder_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 net;
if (dim == 0) {
net = *tout0;
for (i=1; i<niters[dim]; i++) {
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
net = fmod(net, *tin0);
}
*tout0 = net;
}
else {
for (i=0; i<niters[dim]; i++) {
_remainder_fxf_R(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int remainder_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_remainder_fxf_R(dim, dummy, niters, input, inboffset, inbstrides,
output, outboffset, outbstrides );
END_THREADS
return 0;
}
STRIDING_DESCR2(remainder_fxf_R, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static void _remainder_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 lastval;
if (dim == 0) {
for (i=1; i<niters[dim]; i++) {
lastval = *tout0;
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
tout0 = (Float32 *) ((char *) tout0 + outbstrides[dim]);
*tout0 = fmod(lastval ,*tin0);
}
}
else {
for (i=0; i<niters[dim]; i++) {
_remainder_fxf_A(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int remainder_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_remainder_fxf_A(dim, dummy, niters,
input, inboffset, inbstrides, output,
outboffset, outbstrides);
END_THREADS
return 0;
}
STRIDING_DESCR2(remainder_fxf_A, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static int remainder_ffxf_svxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 tin0 = *(Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = fmod(tin0, *tin1);
++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor remainder_ffxf_svxf_descr =
{ "remainder_ffxf_svxf", (void *) remainder_ffxf_svxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 1, 0, 0, 0 } };
/********************* power *********************/
static int power_ffxf_vsxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 tin1 = *(Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = num_pow(*tin0, tin1);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor power_ffxf_vsxf_descr =
{ "power_ffxf_vsxf", (void *) power_ffxf_vsxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 1, 0, 0 } };
static int power_ffxf_vvxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = num_pow(*tin0, *tin1);
++tin0; ++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor power_ffxf_vvxf_descr =
{ "power_ffxf_vvxf", (void *) power_ffxf_vvxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 0, 0, 0 } };
static void _power_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 net;
if (dim == 0) {
net = *tout0;
for (i=1; i<niters[dim]; i++) {
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
net = num_pow(net, *tin0);
}
*tout0 = net;
}
else {
for (i=0; i<niters[dim]; i++) {
_power_fxf_R(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int power_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_power_fxf_R(dim, dummy, niters, input, inboffset, inbstrides,
output, outboffset, outbstrides );
END_THREADS
return 0;
}
STRIDING_DESCR2(power_fxf_R, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static void _power_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 lastval;
if (dim == 0) {
for (i=1; i<niters[dim]; i++) {
lastval = *tout0;
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
tout0 = (Float32 *) ((char *) tout0 + outbstrides[dim]);
*tout0 = num_pow(lastval ,*tin0);
}
}
else {
for (i=0; i<niters[dim]; i++) {
_power_fxf_A(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int power_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_power_fxf_A(dim, dummy, niters,
input, inboffset, inbstrides, output,
outboffset, outbstrides);
END_THREADS
return 0;
}
STRIDING_DESCR2(power_fxf_A, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static int power_ffxf_svxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 tin0 = *(Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = num_pow(tin0, *tin1);
++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor power_ffxf_svxf_descr =
{ "power_ffxf_svxf", (void *) power_ffxf_svxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 1, 0, 0, 0 } };
/********************* abs *********************/
static int abs_fxf_vxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tout0 = (Float32 *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = fabs(*tin0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor abs_fxf_vxf_descr =
{ "abs_fxf_vxf", (void *) abs_fxf_vxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Float32) }, { 0, 0, 0 } };
/********************* sin *********************/
static int sin_fxf_vxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tout0 = (Float32 *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = sin(*tin0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor sin_fxf_vxf_descr =
{ "sin_fxf_vxf", (void *) sin_fxf_vxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Float32) }, { 0, 0, 0 } };
/********************* cos *********************/
static int cos_fxf_vxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tout0 = (Float32 *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = cos(*tin0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor cos_fxf_vxf_descr =
{ "cos_fxf_vxf", (void *) cos_fxf_vxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Float32) }, { 0, 0, 0 } };
/********************* tan *********************/
static int tan_fxf_vxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tout0 = (Float32 *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = tan(*tin0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor tan_fxf_vxf_descr =
{ "tan_fxf_vxf", (void *) tan_fxf_vxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Float32) }, { 0, 0, 0 } };
/********************* arcsin *********************/
static int arcsin_fxf_vxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tout0 = (Float32 *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = asin(*tin0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor arcsin_fxf_vxf_descr =
{ "arcsin_fxf_vxf", (void *) arcsin_fxf_vxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Float32) }, { 0, 0, 0 } };
/********************* arccos *********************/
static int arccos_fxf_vxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tout0 = (Float32 *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = acos(*tin0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor arccos_fxf_vxf_descr =
{ "arccos_fxf_vxf", (void *) arccos_fxf_vxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Float32) }, { 0, 0, 0 } };
/********************* arctan *********************/
static int arctan_fxf_vxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tout0 = (Float32 *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = atan(*tin0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor arctan_fxf_vxf_descr =
{ "arctan_fxf_vxf", (void *) arctan_fxf_vxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Float32) }, { 0, 0, 0 } };
/********************* arctan2 *********************/
static int arctan2_ffxf_vsxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 tin1 = *(Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = atan2(*tin0, tin1);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor arctan2_ffxf_vsxf_descr =
{ "arctan2_ffxf_vsxf", (void *) arctan2_ffxf_vsxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 1, 0, 0 } };
static int arctan2_ffxf_vvxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = atan2(*tin0, *tin1);
++tin0; ++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor arctan2_ffxf_vvxf_descr =
{ "arctan2_ffxf_vvxf", (void *) arctan2_ffxf_vvxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 0, 0, 0 } };
static void _arctan2_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 net;
if (dim == 0) {
net = *tout0;
for (i=1; i<niters[dim]; i++) {
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
net = atan2(net, *tin0);
}
*tout0 = net;
}
else {
for (i=0; i<niters[dim]; i++) {
_arctan2_fxf_R(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int arctan2_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_arctan2_fxf_R(dim, dummy, niters, input, inboffset, inbstrides,
output, outboffset, outbstrides );
END_THREADS
return 0;
}
STRIDING_DESCR2(arctan2_fxf_R, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static void _arctan2_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 lastval;
if (dim == 0) {
for (i=1; i<niters[dim]; i++) {
lastval = *tout0;
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
tout0 = (Float32 *) ((char *) tout0 + outbstrides[dim]);
*tout0 = atan2(lastval ,*tin0);
}
}
else {
for (i=0; i<niters[dim]; i++) {
_arctan2_fxf_A(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int arctan2_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_arctan2_fxf_A(dim, dummy, niters,
input, inboffset, inbstrides, output,
outboffset, outbstrides);
END_THREADS
return 0;
}
STRIDING_DESCR2(arctan2_fxf_A, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static int arctan2_ffxf_svxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 tin0 = *(Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = atan2(tin0, *tin1);
++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor arctan2_ffxf_svxf_descr =
{ "arctan2_ffxf_svxf", (void *) arctan2_ffxf_svxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 1, 0, 0, 0 } };
/********************* log *********************/
static int log_fxf_vxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tout0 = (Float32 *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = num_log(*tin0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor log_fxf_vxf_descr =
{ "log_fxf_vxf", (void *) log_fxf_vxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Float32) }, { 0, 0, 0 } };
/********************* log10 *********************/
static int log10_fxf_vxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tout0 = (Float32 *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = num_log10(*tin0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor log10_fxf_vxf_descr =
{ "log10_fxf_vxf", (void *) log10_fxf_vxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Float32) }, { 0, 0, 0 } };
/********************* exp *********************/
static int exp_fxf_vxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tout0 = (Float32 *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = exp(*tin0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor exp_fxf_vxf_descr =
{ "exp_fxf_vxf", (void *) exp_fxf_vxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Float32) }, { 0, 0, 0 } };
/********************* sinh *********************/
static int sinh_fxf_vxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tout0 = (Float32 *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = sinh(*tin0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor sinh_fxf_vxf_descr =
{ "sinh_fxf_vxf", (void *) sinh_fxf_vxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Float32) }, { 0, 0, 0 } };
/********************* cosh *********************/
static int cosh_fxf_vxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tout0 = (Float32 *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = cosh(*tin0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor cosh_fxf_vxf_descr =
{ "cosh_fxf_vxf", (void *) cosh_fxf_vxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Float32) }, { 0, 0, 0 } };
/********************* tanh *********************/
static int tanh_fxf_vxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tout0 = (Float32 *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = tanh(*tin0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor tanh_fxf_vxf_descr =
{ "tanh_fxf_vxf", (void *) tanh_fxf_vxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Float32) }, { 0, 0, 0 } };
/********************* arcsinh *********************/
static int arcsinh_fxf_vxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tout0 = (Float32 *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = num_asinh(*tin0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor arcsinh_fxf_vxf_descr =
{ "arcsinh_fxf_vxf", (void *) arcsinh_fxf_vxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Float32) }, { 0, 0, 0 } };
/********************* arccosh *********************/
static int arccosh_fxf_vxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tout0 = (Float32 *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = num_acosh(*tin0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor arccosh_fxf_vxf_descr =
{ "arccosh_fxf_vxf", (void *) arccosh_fxf_vxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Float32) }, { 0, 0, 0 } };
/********************* arctanh *********************/
static int arctanh_fxf_vxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tout0 = (Float32 *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = num_atanh(*tin0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor arctanh_fxf_vxf_descr =
{ "arctanh_fxf_vxf", (void *) arctanh_fxf_vxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Float32) }, { 0, 0, 0 } };
/********************* ieeemask *********************/
static int ieeemask_fixB_vsxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Int32 tin1 = *(Int32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = NA_IeeeMask32(*tin0, tin1);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor ieeemask_fixB_vsxf_descr =
{ "ieeemask_fixB_vsxf", (void *) ieeemask_fixB_vsxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Int32), sizeof(Bool) }, { 0, 1, 0, 0 } };
static int ieeemask_fixB_vvxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Int32 *tin1 = (Int32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = NA_IeeeMask32(*tin0, *tin1);
++tin0; ++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor ieeemask_fixB_vvxf_descr =
{ "ieeemask_fixB_vvxf", (void *) ieeemask_fixB_vvxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Int32), sizeof(Bool) }, { 0, 0, 0, 0 } };
static int ieeemask_fixB_svxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 tin0 = *(Float32 *) buffers[0];
Int32 *tin1 = (Int32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = NA_IeeeMask32(tin0, *tin1);
++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor ieeemask_fixB_svxf_descr =
{ "ieeemask_fixB_svxf", (void *) ieeemask_fixB_svxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Int32), sizeof(Bool) }, { 1, 0, 0, 0 } };
/********************* ieeemask *********************/
/********************* isnan *********************/
static int isnan_fxB_vxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Bool *tout0 = (Bool *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = NA_isnan32(*tin0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor isnan_fxB_vxf_descr =
{ "isnan_fxB_vxf", (void *) isnan_fxB_vxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Bool) }, { 0, 0, 0 } };
/********************* isnan *********************/
/********************* isnan *********************/
/********************* isnan *********************/
/********************* sqrt *********************/
static int sqrt_fxf_vxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tout0 = (Float32 *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = sqrt(*tin0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor sqrt_fxf_vxf_descr =
{ "sqrt_fxf_vxf", (void *) sqrt_fxf_vxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Float32) }, { 0, 0, 0 } };
/********************* equal *********************/
static int equal_ffxB_vsxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 tin1 = *(Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = *tin0 == tin1;
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor equal_ffxB_vsxv_descr =
{ "equal_ffxB_vsxv", (void *) equal_ffxB_vsxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 0, 1, 0, 0 } };
static int equal_ffxB_vvxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = *tin0 == *tin1;
++tin0; ++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor equal_ffxB_vvxv_descr =
{ "equal_ffxB_vvxv", (void *) equal_ffxB_vvxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 0, 0, 0, 0 } };
static int equal_ffxB_svxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 tin0 = *(Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = tin0 == *tin1;
++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor equal_ffxB_svxv_descr =
{ "equal_ffxB_svxv", (void *) equal_ffxB_svxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 1, 0, 0, 0 } };
/********************* not_equal *********************/
static int not_equal_ffxB_vsxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 tin1 = *(Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = *tin0 != tin1;
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor not_equal_ffxB_vsxv_descr =
{ "not_equal_ffxB_vsxv", (void *) not_equal_ffxB_vsxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 0, 1, 0, 0 } };
static int not_equal_ffxB_vvxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = *tin0 != *tin1;
++tin0; ++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor not_equal_ffxB_vvxv_descr =
{ "not_equal_ffxB_vvxv", (void *) not_equal_ffxB_vvxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 0, 0, 0, 0 } };
static int not_equal_ffxB_svxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 tin0 = *(Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = tin0 != *tin1;
++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor not_equal_ffxB_svxv_descr =
{ "not_equal_ffxB_svxv", (void *) not_equal_ffxB_svxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 1, 0, 0, 0 } };
/********************* greater *********************/
static int greater_ffxB_vsxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 tin1 = *(Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = *tin0 > tin1;
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor greater_ffxB_vsxv_descr =
{ "greater_ffxB_vsxv", (void *) greater_ffxB_vsxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 0, 1, 0, 0 } };
static int greater_ffxB_vvxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = *tin0 > *tin1;
++tin0; ++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor greater_ffxB_vvxv_descr =
{ "greater_ffxB_vvxv", (void *) greater_ffxB_vvxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 0, 0, 0, 0 } };
static int greater_ffxB_svxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 tin0 = *(Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = tin0 > *tin1;
++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor greater_ffxB_svxv_descr =
{ "greater_ffxB_svxv", (void *) greater_ffxB_svxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 1, 0, 0, 0 } };
/********************* greater_equal *********************/
static int greater_equal_ffxB_vsxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 tin1 = *(Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = *tin0 >= tin1;
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor greater_equal_ffxB_vsxv_descr =
{ "greater_equal_ffxB_vsxv", (void *) greater_equal_ffxB_vsxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 0, 1, 0, 0 } };
static int greater_equal_ffxB_vvxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = *tin0 >= *tin1;
++tin0; ++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor greater_equal_ffxB_vvxv_descr =
{ "greater_equal_ffxB_vvxv", (void *) greater_equal_ffxB_vvxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 0, 0, 0, 0 } };
static int greater_equal_ffxB_svxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 tin0 = *(Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = tin0 >= *tin1;
++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor greater_equal_ffxB_svxv_descr =
{ "greater_equal_ffxB_svxv", (void *) greater_equal_ffxB_svxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 1, 0, 0, 0 } };
/********************* less *********************/
static int less_ffxB_vsxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 tin1 = *(Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = *tin0 < tin1;
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor less_ffxB_vsxv_descr =
{ "less_ffxB_vsxv", (void *) less_ffxB_vsxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 0, 1, 0, 0 } };
static int less_ffxB_vvxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = *tin0 < *tin1;
++tin0; ++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor less_ffxB_vvxv_descr =
{ "less_ffxB_vvxv", (void *) less_ffxB_vvxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 0, 0, 0, 0 } };
static int less_ffxB_svxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 tin0 = *(Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = tin0 < *tin1;
++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor less_ffxB_svxv_descr =
{ "less_ffxB_svxv", (void *) less_ffxB_svxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 1, 0, 0, 0 } };
/********************* less_equal *********************/
static int less_equal_ffxB_vsxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 tin1 = *(Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = *tin0 <= tin1;
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor less_equal_ffxB_vsxv_descr =
{ "less_equal_ffxB_vsxv", (void *) less_equal_ffxB_vsxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 0, 1, 0, 0 } };
static int less_equal_ffxB_vvxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = *tin0 <= *tin1;
++tin0; ++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor less_equal_ffxB_vvxv_descr =
{ "less_equal_ffxB_vvxv", (void *) less_equal_ffxB_vvxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 0, 0, 0, 0 } };
static int less_equal_ffxB_svxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 tin0 = *(Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = tin0 <= *tin1;
++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor less_equal_ffxB_svxv_descr =
{ "less_equal_ffxB_svxv", (void *) less_equal_ffxB_svxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 1, 0, 0, 0 } };
/********************* logical_and *********************/
static int logical_and_ffxB_vsxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 tin1 = *(Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = logical_and(*tin0, tin1);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor logical_and_ffxB_vsxf_descr =
{ "logical_and_ffxB_vsxf", (void *) logical_and_ffxB_vsxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 0, 1, 0, 0 } };
static int logical_and_ffxB_vvxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = logical_and(*tin0, *tin1);
++tin0; ++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor logical_and_ffxB_vvxf_descr =
{ "logical_and_ffxB_vvxf", (void *) logical_and_ffxB_vvxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 0, 0, 0, 0 } };
static int logical_and_ffxB_svxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 tin0 = *(Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = logical_and(tin0, *tin1);
++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor logical_and_ffxB_svxf_descr =
{ "logical_and_ffxB_svxf", (void *) logical_and_ffxB_svxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 1, 0, 0, 0 } };
/********************* logical_or *********************/
static int logical_or_ffxB_vsxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 tin1 = *(Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = logical_or(*tin0, tin1);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor logical_or_ffxB_vsxf_descr =
{ "logical_or_ffxB_vsxf", (void *) logical_or_ffxB_vsxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 0, 1, 0, 0 } };
static int logical_or_ffxB_vvxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = logical_or(*tin0, *tin1);
++tin0; ++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor logical_or_ffxB_vvxf_descr =
{ "logical_or_ffxB_vvxf", (void *) logical_or_ffxB_vvxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 0, 0, 0, 0 } };
static int logical_or_ffxB_svxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 tin0 = *(Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = logical_or(tin0, *tin1);
++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor logical_or_ffxB_svxf_descr =
{ "logical_or_ffxB_svxf", (void *) logical_or_ffxB_svxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 1, 0, 0, 0 } };
/********************* logical_xor *********************/
static int logical_xor_ffxB_vsxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 tin1 = *(Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = logical_xor(*tin0, tin1);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor logical_xor_ffxB_vsxf_descr =
{ "logical_xor_ffxB_vsxf", (void *) logical_xor_ffxB_vsxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 0, 1, 0, 0 } };
static int logical_xor_ffxB_vvxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = logical_xor(*tin0, *tin1);
++tin0; ++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor logical_xor_ffxB_vvxf_descr =
{ "logical_xor_ffxB_vvxf", (void *) logical_xor_ffxB_vvxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 0, 0, 0, 0 } };
static int logical_xor_ffxB_svxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 tin0 = *(Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Bool *tout0 = (Bool *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = logical_xor(tin0, *tin1);
++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor logical_xor_ffxB_svxf_descr =
{ "logical_xor_ffxB_svxf", (void *) logical_xor_ffxB_svxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Bool) }, { 1, 0, 0, 0 } };
/********************* logical_and *********************/
/********************* logical_or *********************/
/********************* logical_xor *********************/
/********************* logical_not *********************/
static int logical_not_fxB_vxv(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Bool *tout0 = (Bool *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = !*tin0;
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor logical_not_fxB_vxv_descr =
{ "logical_not_fxB_vxv", (void *) logical_not_fxB_vxv, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Bool) }, { 0, 0, 0 } };
/********************* bitwise_and *********************/
/********************* bitwise_or *********************/
/********************* bitwise_xor *********************/
/********************* bitwise_not *********************/
/********************* bitwise_not *********************/
/********************* rshift *********************/
/********************* lshift *********************/
/********************* floor *********************/
/********************* floor *********************/
static int floor_fxf_vxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tout0 = (Float32 *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = floor(*tin0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor floor_fxf_vxf_descr =
{ "floor_fxf_vxf", (void *) floor_fxf_vxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Float32) }, { 0, 0, 0 } };
/********************* ceil *********************/
/********************* ceil *********************/
static int ceil_fxf_vxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tout0 = (Float32 *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = ceil(*tin0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor ceil_fxf_vxf_descr =
{ "ceil_fxf_vxf", (void *) ceil_fxf_vxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Float32) }, { 0, 0, 0 } };
/********************* maximum *********************/
static int maximum_ffxf_vsxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 tin1 = *(Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
Float32 temp1, temp2;
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = ufmaximum(*tin0, tin1);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor maximum_ffxf_vsxf_descr =
{ "maximum_ffxf_vsxf", (void *) maximum_ffxf_vsxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 1, 0, 0 } };
static int maximum_ffxf_vvxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
Float32 temp1, temp2;
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = ufmaximum(*tin0, *tin1);
++tin0; ++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor maximum_ffxf_vvxf_descr =
{ "maximum_ffxf_vvxf", (void *) maximum_ffxf_vvxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 0, 0, 0 } };
static void _maximum_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 net;
Float32 temp1, temp2;
if (dim == 0) {
net = *tout0;
for (i=1; i<niters[dim]; i++) {
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
net = ufmaximum(net, *tin0);
}
*tout0 = net;
}
else {
for (i=0; i<niters[dim]; i++) {
_maximum_fxf_R(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int maximum_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_maximum_fxf_R(dim, dummy, niters, input, inboffset, inbstrides,
output, outboffset, outbstrides );
END_THREADS
return 0;
}
STRIDING_DESCR2(maximum_fxf_R, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static void _maximum_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 lastval;
Float32 temp1, temp2;
if (dim == 0) {
for (i=1; i<niters[dim]; i++) {
lastval = *tout0;
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
tout0 = (Float32 *) ((char *) tout0 + outbstrides[dim]);
*tout0 = ufmaximum(lastval ,*tin0);
}
}
else {
for (i=0; i<niters[dim]; i++) {
_maximum_fxf_A(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int maximum_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_maximum_fxf_A(dim, dummy, niters,
input, inboffset, inbstrides, output,
outboffset, outbstrides);
END_THREADS
return 0;
}
STRIDING_DESCR2(maximum_fxf_A, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static int maximum_ffxf_svxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 tin0 = *(Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
Float32 temp1, temp2;
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = ufmaximum(tin0, *tin1);
++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor maximum_ffxf_svxf_descr =
{ "maximum_ffxf_svxf", (void *) maximum_ffxf_svxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 1, 0, 0, 0 } };
/********************* minimum *********************/
static int minimum_ffxf_vsxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 tin1 = *(Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
Float32 temp1, temp2;
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = ufminimum(*tin0, tin1);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor minimum_ffxf_vsxf_descr =
{ "minimum_ffxf_vsxf", (void *) minimum_ffxf_vsxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 1, 0, 0 } };
static int minimum_ffxf_vvxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
Float32 temp1, temp2;
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = ufminimum(*tin0, *tin1);
++tin0; ++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor minimum_ffxf_vvxf_descr =
{ "minimum_ffxf_vvxf", (void *) minimum_ffxf_vvxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 0, 0, 0 } };
static void _minimum_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 net;
Float32 temp1, temp2;
if (dim == 0) {
net = *tout0;
for (i=1; i<niters[dim]; i++) {
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
net = ufminimum(net, *tin0);
}
*tout0 = net;
}
else {
for (i=0; i<niters[dim]; i++) {
_minimum_fxf_R(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int minimum_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_minimum_fxf_R(dim, dummy, niters, input, inboffset, inbstrides,
output, outboffset, outbstrides );
END_THREADS
return 0;
}
STRIDING_DESCR2(minimum_fxf_R, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static void _minimum_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 lastval;
Float32 temp1, temp2;
if (dim == 0) {
for (i=1; i<niters[dim]; i++) {
lastval = *tout0;
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
tout0 = (Float32 *) ((char *) tout0 + outbstrides[dim]);
*tout0 = ufminimum(lastval ,*tin0);
}
}
else {
for (i=0; i<niters[dim]; i++) {
_minimum_fxf_A(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int minimum_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_minimum_fxf_A(dim, dummy, niters,
input, inboffset, inbstrides, output,
outboffset, outbstrides);
END_THREADS
return 0;
}
STRIDING_DESCR2(minimum_fxf_A, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static int minimum_ffxf_svxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 tin0 = *(Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
Float32 temp1, temp2;
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = ufminimum(tin0, *tin1);
++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor minimum_ffxf_svxf_descr =
{ "minimum_ffxf_svxf", (void *) minimum_ffxf_svxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 1, 0, 0, 0 } };
/********************* fabs *********************/
static int fabs_fxf_vxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tout0 = (Float32 *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = fabs(*tin0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor fabs_fxf_vxf_descr =
{ "fabs_fxf_vxf", (void *) fabs_fxf_vxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Float32) }, { 0, 0, 0 } };
/********************* _round *********************/
static int _round_fxf_vxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tout0 = (Float32 *) buffers[1];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = num_round(*tin0);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor _round_fxf_vxf_descr =
{ "_round_fxf_vxf", (void *) _round_fxf_vxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 1, 1,
{ sizeof(Float32), sizeof(Float32) }, { 0, 0, 0 } };
/********************* hypot *********************/
static int hypot_ffxf_vsxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 tin1 = *(Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = hypot(*tin0, tin1);
++tin0; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor hypot_ffxf_vsxf_descr =
{ "hypot_ffxf_vsxf", (void *) hypot_ffxf_vsxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 1, 0, 0 } };
static int hypot_ffxf_vvxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 *tin0 = (Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = hypot(*tin0, *tin1);
++tin0; ++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor hypot_ffxf_vvxf_descr =
{ "hypot_ffxf_vvxf", (void *) hypot_ffxf_vvxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 0, 0, 0, 0 } };
static void _hypot_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 net;
if (dim == 0) {
net = *tout0;
for (i=1; i<niters[dim]; i++) {
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
net = hypot(net, *tin0);
}
*tout0 = net;
}
else {
for (i=0; i<niters[dim]; i++) {
_hypot_fxf_R(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int hypot_fxf_R(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_hypot_fxf_R(dim, dummy, niters, input, inboffset, inbstrides,
output, outboffset, outbstrides );
END_THREADS
return 0;
}
STRIDING_DESCR2(hypot_fxf_R, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static void _hypot_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
long i;
Float32 *tin0 = (Float32 *) ((char *) input + inboffset);
Float32 *tout0 = (Float32 *) ((char *) output + outboffset);
Float32 lastval;
if (dim == 0) {
for (i=1; i<niters[dim]; i++) {
lastval = *tout0;
tin0 = (Float32 *) ((char *) tin0 + inbstrides[dim]);
tout0 = (Float32 *) ((char *) tout0 + outbstrides[dim]);
*tout0 = hypot(lastval ,*tin0);
}
}
else {
for (i=0; i<niters[dim]; i++) {
_hypot_fxf_A(dim-1, dummy, niters,
input, inboffset + i*inbstrides[dim], inbstrides,
output, outboffset + i*outbstrides[dim], outbstrides);
}
}
}
static int hypot_fxf_A(long dim, long dummy, maybelong *niters,
void *input, long inboffset, maybelong *inbstrides,
void *output, long outboffset, maybelong *outbstrides) {
BEGIN_THREADS
_hypot_fxf_A(dim, dummy, niters,
input, inboffset, inbstrides, output,
outboffset, outbstrides);
END_THREADS
return 0;
}
STRIDING_DESCR2(hypot_fxf_A, CHECK_ALIGN, sizeof(Float32), sizeof(Float32));
static int hypot_ffxf_svxf(long niter, long ninargs, long noutargs, void **buffers, long *bsizes) {
long i;
Float32 tin0 = *(Float32 *) buffers[0];
Float32 *tin1 = (Float32 *) buffers[1];
Float32 *tout0 = (Float32 *) buffers[2];
BEGIN_THREADS
for (i=0; i<niter; i++) {
*tout0 = hypot(tin0, *tin1);
++tin1; ++tout0;
}
END_THREADS
return 0;
}
static CfuncDescriptor hypot_ffxf_svxf_descr =
{ "hypot_ffxf_svxf", (void *) hypot_ffxf_svxf, CFUNC_UFUNC, 0, CHECK_ALIGN, 2, 1,
{ sizeof(Float32), sizeof(Float32), sizeof(Float32) }, { 1, 0, 0, 0 } };
/********************* minus *********************/
/********************* add *********************/
/********************* subtract *********************/
/********************* multiply *********************/
/********************* divide *********************/
/********************* true_divide *********************/
/********************* remainder *********************/
/********************* power *********************/
/********************* abs *********************/
/********************* sin *********************/
/********************* cos *********************/
/********************* tan *********************/
/********************* arcsin *********************/
/********************* arccos *********************/
/********************* arctan *********************/
/********************* arcsinh *********************/
/********************* arccosh *********************/
/********************* arctanh *********************/
/********************* log *********************/
/********************* log10 *********************/
/********************* exp *********************/
/********************* sinh *********************/
/********************* cosh *********************/
/********************* tanh *********************/
/********************* sqrt *********************/
/********************* equal *********************/
/********************* not_equal *********************/
/********************* greater *********************/
/********************* greater_equal *********************/
/********************* less *********************/
/********************* less_equal *********************/
/********************* logical_and *********************/
/********************* logical_or *********************/
/********************* logical_xor *********************/
/********************* logical_not *********************/
/********************* floor *********************/
/********************* ceil *********************/
/********************* maximum *********************/
/********************* minimum *********************/
/********************* fabs *********************/
/********************* _round *********************/
/********************* hypot *********************/
static PyMethodDef _ufuncFloat32Methods[] = {
{NULL, NULL} /* Sentinel */
};
static PyObject *init_funcDict(void) {
PyObject *dict, *keytuple, *cfunc;
dict = PyDict_New();
/* _distance3d_fffxf_vvvxf */
keytuple=Py_BuildValue("ss((sss)(s))","_distance3d","vvv","Float32","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&_distance3d_fffxf_vvvxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* _distance3d_fffxf_vssxf */
keytuple=Py_BuildValue("ss((sss)(s))","_distance3d","vss","Float32","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&_distance3d_fffxf_vssxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* minus_fxf_vxv */
keytuple=Py_BuildValue("ss((s)(s))","minus","v","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&minus_fxf_vxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* add_ffxf_vsxv */
keytuple=Py_BuildValue("ss((ss)(s))","add","vs","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&add_ffxf_vsxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* add_ffxf_vvxv */
keytuple=Py_BuildValue("ss((ss)(s))","add","vv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&add_ffxf_vvxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* add_fxf_R */
keytuple=Py_BuildValue("ss((s)(s))","add","R","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&add_fxf_R_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* add_fxf_A */
keytuple=Py_BuildValue("ss((s)(s))","add","A","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&add_fxf_A_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* add_ffxf_svxv */
keytuple=Py_BuildValue("ss((ss)(s))","add","sv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&add_ffxf_svxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* subtract_ffxf_vsxv */
keytuple=Py_BuildValue("ss((ss)(s))","subtract","vs","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&subtract_ffxf_vsxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* subtract_ffxf_vvxv */
keytuple=Py_BuildValue("ss((ss)(s))","subtract","vv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&subtract_ffxf_vvxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* subtract_fxf_R */
keytuple=Py_BuildValue("ss((s)(s))","subtract","R","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&subtract_fxf_R_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* subtract_fxf_A */
keytuple=Py_BuildValue("ss((s)(s))","subtract","A","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&subtract_fxf_A_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* subtract_ffxf_svxv */
keytuple=Py_BuildValue("ss((ss)(s))","subtract","sv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&subtract_ffxf_svxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* multiply_ffxf_vsxv */
keytuple=Py_BuildValue("ss((ss)(s))","multiply","vs","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&multiply_ffxf_vsxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* multiply_ffxf_vvxv */
keytuple=Py_BuildValue("ss((ss)(s))","multiply","vv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&multiply_ffxf_vvxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* multiply_fxf_R */
keytuple=Py_BuildValue("ss((s)(s))","multiply","R","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&multiply_fxf_R_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* multiply_fxf_A */
keytuple=Py_BuildValue("ss((s)(s))","multiply","A","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&multiply_fxf_A_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* multiply_ffxf_svxv */
keytuple=Py_BuildValue("ss((ss)(s))","multiply","sv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&multiply_ffxf_svxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* divide_ffxf_vsxv */
keytuple=Py_BuildValue("ss((ss)(s))","divide","vs","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)÷_ffxf_vsxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* divide_ffxf_vvxv */
keytuple=Py_BuildValue("ss((ss)(s))","divide","vv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)÷_ffxf_vvxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* divide_fxf_R */
keytuple=Py_BuildValue("ss((s)(s))","divide","R","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)÷_fxf_R_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* divide_fxf_A */
keytuple=Py_BuildValue("ss((s)(s))","divide","A","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)÷_fxf_A_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* divide_ffxf_svxv */
keytuple=Py_BuildValue("ss((ss)(s))","divide","sv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)÷_ffxf_svxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* floor_divide_ffxf_vsxv */
keytuple=Py_BuildValue("ss((ss)(s))","floor_divide","vs","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&floor_divide_ffxf_vsxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* floor_divide_ffxf_vvxv */
keytuple=Py_BuildValue("ss((ss)(s))","floor_divide","vv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&floor_divide_ffxf_vvxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* floor_divide_fxf_R */
keytuple=Py_BuildValue("ss((s)(s))","floor_divide","R","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&floor_divide_fxf_R_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* floor_divide_fxf_A */
keytuple=Py_BuildValue("ss((s)(s))","floor_divide","A","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&floor_divide_fxf_A_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* floor_divide_ffxf_svxv */
keytuple=Py_BuildValue("ss((ss)(s))","floor_divide","sv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&floor_divide_ffxf_svxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* true_divide_ffxf_vsxv */
keytuple=Py_BuildValue("ss((ss)(s))","true_divide","vs","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&true_divide_ffxf_vsxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* true_divide_ffxf_vvxv */
keytuple=Py_BuildValue("ss((ss)(s))","true_divide","vv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&true_divide_ffxf_vvxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* true_divide_fxf_R */
keytuple=Py_BuildValue("ss((s)(s))","true_divide","R","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&true_divide_fxf_R_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* true_divide_fxf_A */
keytuple=Py_BuildValue("ss((s)(s))","true_divide","A","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&true_divide_fxf_A_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* true_divide_ffxf_svxv */
keytuple=Py_BuildValue("ss((ss)(s))","true_divide","sv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&true_divide_ffxf_svxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* remainder_ffxf_vsxf */
keytuple=Py_BuildValue("ss((ss)(s))","remainder","vs","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&remainder_ffxf_vsxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* remainder_ffxf_vvxf */
keytuple=Py_BuildValue("ss((ss)(s))","remainder","vv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&remainder_ffxf_vvxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* remainder_fxf_R */
keytuple=Py_BuildValue("ss((s)(s))","remainder","R","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&remainder_fxf_R_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* remainder_fxf_A */
keytuple=Py_BuildValue("ss((s)(s))","remainder","A","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&remainder_fxf_A_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* remainder_ffxf_svxf */
keytuple=Py_BuildValue("ss((ss)(s))","remainder","sv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&remainder_ffxf_svxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* power_ffxf_vsxf */
keytuple=Py_BuildValue("ss((ss)(s))","power","vs","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&power_ffxf_vsxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* power_ffxf_vvxf */
keytuple=Py_BuildValue("ss((ss)(s))","power","vv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&power_ffxf_vvxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* power_fxf_R */
keytuple=Py_BuildValue("ss((s)(s))","power","R","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&power_fxf_R_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* power_fxf_A */
keytuple=Py_BuildValue("ss((s)(s))","power","A","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&power_fxf_A_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* power_ffxf_svxf */
keytuple=Py_BuildValue("ss((ss)(s))","power","sv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&power_ffxf_svxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* abs_fxf_vxf */
keytuple=Py_BuildValue("ss((s)(s))","abs","v","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&abs_fxf_vxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* sin_fxf_vxf */
keytuple=Py_BuildValue("ss((s)(s))","sin","v","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&sin_fxf_vxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* cos_fxf_vxf */
keytuple=Py_BuildValue("ss((s)(s))","cos","v","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&cos_fxf_vxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* tan_fxf_vxf */
keytuple=Py_BuildValue("ss((s)(s))","tan","v","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&tan_fxf_vxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* arcsin_fxf_vxf */
keytuple=Py_BuildValue("ss((s)(s))","arcsin","v","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&arcsin_fxf_vxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* arccos_fxf_vxf */
keytuple=Py_BuildValue("ss((s)(s))","arccos","v","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&arccos_fxf_vxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* arctan_fxf_vxf */
keytuple=Py_BuildValue("ss((s)(s))","arctan","v","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&arctan_fxf_vxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* arctan2_ffxf_vsxf */
keytuple=Py_BuildValue("ss((ss)(s))","arctan2","vs","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&arctan2_ffxf_vsxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* arctan2_ffxf_vvxf */
keytuple=Py_BuildValue("ss((ss)(s))","arctan2","vv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&arctan2_ffxf_vvxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* arctan2_fxf_R */
keytuple=Py_BuildValue("ss((s)(s))","arctan2","R","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&arctan2_fxf_R_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* arctan2_fxf_A */
keytuple=Py_BuildValue("ss((s)(s))","arctan2","A","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&arctan2_fxf_A_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* arctan2_ffxf_svxf */
keytuple=Py_BuildValue("ss((ss)(s))","arctan2","sv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&arctan2_ffxf_svxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* log_fxf_vxf */
keytuple=Py_BuildValue("ss((s)(s))","log","v","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&log_fxf_vxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* log10_fxf_vxf */
keytuple=Py_BuildValue("ss((s)(s))","log10","v","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&log10_fxf_vxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* exp_fxf_vxf */
keytuple=Py_BuildValue("ss((s)(s))","exp","v","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&exp_fxf_vxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* sinh_fxf_vxf */
keytuple=Py_BuildValue("ss((s)(s))","sinh","v","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&sinh_fxf_vxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* cosh_fxf_vxf */
keytuple=Py_BuildValue("ss((s)(s))","cosh","v","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&cosh_fxf_vxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* tanh_fxf_vxf */
keytuple=Py_BuildValue("ss((s)(s))","tanh","v","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&tanh_fxf_vxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* arcsinh_fxf_vxf */
keytuple=Py_BuildValue("ss((s)(s))","arcsinh","v","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&arcsinh_fxf_vxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* arccosh_fxf_vxf */
keytuple=Py_BuildValue("ss((s)(s))","arccosh","v","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&arccosh_fxf_vxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* arctanh_fxf_vxf */
keytuple=Py_BuildValue("ss((s)(s))","arctanh","v","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&arctanh_fxf_vxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* ieeemask_fixB_vsxf */
keytuple=Py_BuildValue("ss((ss)(s))","ieeemask","vs","Float32","Int32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&ieeemask_fixB_vsxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* ieeemask_fixB_vvxf */
keytuple=Py_BuildValue("ss((ss)(s))","ieeemask","vv","Float32","Int32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&ieeemask_fixB_vvxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* ieeemask_fixB_svxf */
keytuple=Py_BuildValue("ss((ss)(s))","ieeemask","sv","Float32","Int32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&ieeemask_fixB_svxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* isnan_fxB_vxf */
keytuple=Py_BuildValue("ss((s)(s))","isnan","v","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&isnan_fxB_vxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* sqrt_fxf_vxf */
keytuple=Py_BuildValue("ss((s)(s))","sqrt","v","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&sqrt_fxf_vxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* equal_ffxB_vsxv */
keytuple=Py_BuildValue("ss((ss)(s))","equal","vs","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&equal_ffxB_vsxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* equal_ffxB_vvxv */
keytuple=Py_BuildValue("ss((ss)(s))","equal","vv","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&equal_ffxB_vvxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* equal_ffxB_svxv */
keytuple=Py_BuildValue("ss((ss)(s))","equal","sv","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&equal_ffxB_svxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* not_equal_ffxB_vsxv */
keytuple=Py_BuildValue("ss((ss)(s))","not_equal","vs","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)¬_equal_ffxB_vsxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* not_equal_ffxB_vvxv */
keytuple=Py_BuildValue("ss((ss)(s))","not_equal","vv","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)¬_equal_ffxB_vvxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* not_equal_ffxB_svxv */
keytuple=Py_BuildValue("ss((ss)(s))","not_equal","sv","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)¬_equal_ffxB_svxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* greater_ffxB_vsxv */
keytuple=Py_BuildValue("ss((ss)(s))","greater","vs","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&greater_ffxB_vsxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* greater_ffxB_vvxv */
keytuple=Py_BuildValue("ss((ss)(s))","greater","vv","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&greater_ffxB_vvxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* greater_ffxB_svxv */
keytuple=Py_BuildValue("ss((ss)(s))","greater","sv","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&greater_ffxB_svxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* greater_equal_ffxB_vsxv */
keytuple=Py_BuildValue("ss((ss)(s))","greater_equal","vs","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&greater_equal_ffxB_vsxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* greater_equal_ffxB_vvxv */
keytuple=Py_BuildValue("ss((ss)(s))","greater_equal","vv","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&greater_equal_ffxB_vvxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* greater_equal_ffxB_svxv */
keytuple=Py_BuildValue("ss((ss)(s))","greater_equal","sv","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&greater_equal_ffxB_svxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* less_ffxB_vsxv */
keytuple=Py_BuildValue("ss((ss)(s))","less","vs","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&less_ffxB_vsxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* less_ffxB_vvxv */
keytuple=Py_BuildValue("ss((ss)(s))","less","vv","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&less_ffxB_vvxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* less_ffxB_svxv */
keytuple=Py_BuildValue("ss((ss)(s))","less","sv","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&less_ffxB_svxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* less_equal_ffxB_vsxv */
keytuple=Py_BuildValue("ss((ss)(s))","less_equal","vs","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&less_equal_ffxB_vsxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* less_equal_ffxB_vvxv */
keytuple=Py_BuildValue("ss((ss)(s))","less_equal","vv","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&less_equal_ffxB_vvxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* less_equal_ffxB_svxv */
keytuple=Py_BuildValue("ss((ss)(s))","less_equal","sv","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&less_equal_ffxB_svxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* logical_and_ffxB_vsxf */
keytuple=Py_BuildValue("ss((ss)(s))","logical_and","vs","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&logical_and_ffxB_vsxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* logical_and_ffxB_vvxf */
keytuple=Py_BuildValue("ss((ss)(s))","logical_and","vv","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&logical_and_ffxB_vvxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* logical_and_ffxB_svxf */
keytuple=Py_BuildValue("ss((ss)(s))","logical_and","sv","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&logical_and_ffxB_svxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* logical_or_ffxB_vsxf */
keytuple=Py_BuildValue("ss((ss)(s))","logical_or","vs","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&logical_or_ffxB_vsxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* logical_or_ffxB_vvxf */
keytuple=Py_BuildValue("ss((ss)(s))","logical_or","vv","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&logical_or_ffxB_vvxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* logical_or_ffxB_svxf */
keytuple=Py_BuildValue("ss((ss)(s))","logical_or","sv","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&logical_or_ffxB_svxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* logical_xor_ffxB_vsxf */
keytuple=Py_BuildValue("ss((ss)(s))","logical_xor","vs","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&logical_xor_ffxB_vsxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* logical_xor_ffxB_vvxf */
keytuple=Py_BuildValue("ss((ss)(s))","logical_xor","vv","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&logical_xor_ffxB_vvxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* logical_xor_ffxB_svxf */
keytuple=Py_BuildValue("ss((ss)(s))","logical_xor","sv","Float32","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&logical_xor_ffxB_svxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* logical_not_fxB_vxv */
keytuple=Py_BuildValue("ss((s)(s))","logical_not","v","Float32","Bool");
cfunc = (PyObject*)NA_new_cfunc((void*)&logical_not_fxB_vxv_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* floor_fxf_vxf */
keytuple=Py_BuildValue("ss((s)(s))","floor","v","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&floor_fxf_vxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* ceil_fxf_vxf */
keytuple=Py_BuildValue("ss((s)(s))","ceil","v","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&ceil_fxf_vxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* maximum_ffxf_vsxf */
keytuple=Py_BuildValue("ss((ss)(s))","maximum","vs","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&maximum_ffxf_vsxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* maximum_ffxf_vvxf */
keytuple=Py_BuildValue("ss((ss)(s))","maximum","vv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&maximum_ffxf_vvxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* maximum_fxf_R */
keytuple=Py_BuildValue("ss((s)(s))","maximum","R","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&maximum_fxf_R_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* maximum_fxf_A */
keytuple=Py_BuildValue("ss((s)(s))","maximum","A","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&maximum_fxf_A_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* maximum_ffxf_svxf */
keytuple=Py_BuildValue("ss((ss)(s))","maximum","sv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&maximum_ffxf_svxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* minimum_ffxf_vsxf */
keytuple=Py_BuildValue("ss((ss)(s))","minimum","vs","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&minimum_ffxf_vsxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* minimum_ffxf_vvxf */
keytuple=Py_BuildValue("ss((ss)(s))","minimum","vv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&minimum_ffxf_vvxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* minimum_fxf_R */
keytuple=Py_BuildValue("ss((s)(s))","minimum","R","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&minimum_fxf_R_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* minimum_fxf_A */
keytuple=Py_BuildValue("ss((s)(s))","minimum","A","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&minimum_fxf_A_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* minimum_ffxf_svxf */
keytuple=Py_BuildValue("ss((ss)(s))","minimum","sv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&minimum_ffxf_svxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* fabs_fxf_vxf */
keytuple=Py_BuildValue("ss((s)(s))","fabs","v","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&fabs_fxf_vxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* _round_fxf_vxf */
keytuple=Py_BuildValue("ss((s)(s))","_round","v","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&_round_fxf_vxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* hypot_ffxf_vsxf */
keytuple=Py_BuildValue("ss((ss)(s))","hypot","vs","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&hypot_ffxf_vsxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* hypot_ffxf_vvxf */
keytuple=Py_BuildValue("ss((ss)(s))","hypot","vv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&hypot_ffxf_vvxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* hypot_fxf_R */
keytuple=Py_BuildValue("ss((s)(s))","hypot","R","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&hypot_fxf_R_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* hypot_fxf_A */
keytuple=Py_BuildValue("ss((s)(s))","hypot","A","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&hypot_fxf_A_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
/* hypot_ffxf_svxf */
keytuple=Py_BuildValue("ss((ss)(s))","hypot","sv","Float32","Float32","Float32");
cfunc = (PyObject*)NA_new_cfunc((void*)&hypot_ffxf_svxf_descr);
PyDict_SetItem(dict,keytuple,cfunc);
Py_DECREF(keytuple);
Py_DECREF(cfunc);
return dict;
}
/* platform independent*/
#ifdef MS_WIN32
__declspec(dllexport)
#endif
void init_ufuncFloat32(void) {
PyObject *m, *d, *functions;
m = Py_InitModule("_ufuncFloat32", _ufuncFloat32Methods);
d = PyModule_GetDict(m);
import_libnumarray();
functions = init_funcDict();
PyDict_SetItemString(d, "functionDict", functions);
Py_DECREF(functions);
ADD_VERSION(m);
}
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