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fuchsia / third_party / libffi / 1f99701fad1761ffe4e9adf88cfe26f74f427e7c / . / testsuite / libffi.bhaible / test-callback.c
blob: 57a37832171121e0a11d6cf265dd4a6e4683dde0 [file] [log] [blame]
/*
* Copyright 1993 Bill Triggs <Bill.Triggs@inrialpes.fr>
* Copyright 1995-2017 Bruno Haible <bruno@clisp.org>
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/* { dg-do run } */
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <ffi.h>
#include "alignof.h"
#include "testcases.c"
/* libffi testsuite local changes -------------------------------- */
#ifdef DGTEST
/* Redefine exit(1) as a test failure */
#define exit(V) (void)((V) ? (abort(), 1) : exit(0))
int count = 0;
char rbuf1[2048];
char rbuf2[2048];
#define FPRINTF(STREAM,FMT,ARGS...) \
{ fprintf(STREAM, FMT, ##ARGS) ; \
switch (count++) \
{ \
case 0: \
case 1: \
sprintf(&rbuf1[strlen(rbuf1)], FMT, ##ARGS); \
break ; \
case 2: \
sprintf(rbuf2, FMT, ##ARGS); \
break; \
case 3: \
sprintf(&rbuf2[strlen(rbuf2)], FMT, ##ARGS); \
if (strcmp (rbuf1, rbuf2)) abort(); \
break; \
} \
}
#else
#define FPRINTF fprintf
#endif
/* --------------------------------------------------------------- */
/* Definitions that ought to be part of libffi. */
static ffi_type ffi_type_char;
#define ffi_type_slonglong ffi_type_sint64
#define ffi_type_ulonglong ffi_type_uint64
/* libffi does not support arrays inside structs. */
#define SKIP_EXTRA_STRUCTS
#define FFI_PREP_CIF(cif,argtypes,rettype) \
if (ffi_prep_cif(&(cif),FFI_DEFAULT_ABI,sizeof(argtypes)/sizeof(argtypes[0]),&rettype,argtypes) != FFI_OK) abort()
#define FFI_PREP_CIF_NOARGS(cif,rettype) \
if (ffi_prep_cif(&(cif),FFI_DEFAULT_ABI,0,&rettype,NULL) != FFI_OK) abort()
#if defined(__sparc__) && defined(__sun) && defined(__SUNPRO_C) /* SUNWspro cc */
/* SunPRO cc miscompiles the simulator function for X_BcdB: d.i[1] is
* temporarily stored in %l2 and put onto the stack from %l2, but in between
* the copy of X has used %l2 as a counter without saving and restoring its
* value.
*/
#define SKIP_X
#endif
#if defined(__mipsn32__) && !defined(__GNUC__)
/* The X test crashes for an unknown reason. */
#define SKIP_X
#endif
/* These functions simulate the behaviour of the functions defined in testcases.c. */
/* void tests */
void v_v_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&v_v) { fprintf(out,"wrong data for v_v\n"); exit(1); }
FPRINTF(out,"void f(void):\n");
fflush(out);
}
/* int tests */
void i_v_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&i_v) { fprintf(out,"wrong data for i_v\n"); exit(1); }
{int r=99;
FPRINTF(out,"int f(void):");
fflush(out);
*(int*)retp = r;
}}
void i_i_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&i_i) { fprintf(out,"wrong data for i_i\n"); exit(1); }
int a = *(int*)(*args++);
int r=a+1;
FPRINTF(out,"int f(int):(%d)",a);
fflush(out);
*(int*)retp = r;
}
void i_i2_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&i_i2) { fprintf(out,"wrong data for i_i2\n"); exit(1); }
{int a = *(int*)(*args++);
int b = *(int*)(*args++);
int r=a+b;
FPRINTF(out,"int f(2*int):(%d,%d)",a,b);
fflush(out);
*(int*)retp = r;
}}
void i_i4_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&i_i4) { fprintf(out,"wrong data for i_i4\n"); exit(1); }
{int a = *(int*)(*args++);
int b = *(int*)(*args++);
int c = *(int*)(*args++);
int d = *(int*)(*args++);
int r=a+b+c+d;
FPRINTF(out,"int f(4*int):(%d,%d,%d,%d)",a,b,c,d);
fflush(out);
*(int*)retp = r;
}}
void i_i8_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&i_i8) { fprintf(out,"wrong data for i_i8\n"); exit(1); }
{int a = *(int*)(*args++);
int b = *(int*)(*args++);
int c = *(int*)(*args++);
int d = *(int*)(*args++);
int e = *(int*)(*args++);
int f = *(int*)(*args++);
int g = *(int*)(*args++);
int h = *(int*)(*args++);
int r=a+b+c+d+e+f+g+h;
FPRINTF(out,"int f(8*int):(%d,%d,%d,%d,%d,%d,%d,%d)",a,b,c,d,e,f,g,h);
fflush(out);
*(int*)retp = r;
}}
void i_i16_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&i_i16) { fprintf(out,"wrong data for i_i16\n"); exit(1); }
{int a = *(int*)(*args++);
int b = *(int*)(*args++);
int c = *(int*)(*args++);
int d = *(int*)(*args++);
int e = *(int*)(*args++);
int f = *(int*)(*args++);
int g = *(int*)(*args++);
int h = *(int*)(*args++);
int i = *(int*)(*args++);
int j = *(int*)(*args++);
int k = *(int*)(*args++);
int l = *(int*)(*args++);
int m = *(int*)(*args++);
int n = *(int*)(*args++);
int o = *(int*)(*args++);
int p = *(int*)(*args++);
int r=a+b+c+d+e+f+g+h+i+j+k+l+m+n+o+p;
FPRINTF(out,"int f(16*int):(%d,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d)",
a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p);
fflush(out);
*(int*)retp = r;
}}
/* float tests */
void f_f_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&f_f) { fprintf(out,"wrong data for f_f\n"); exit(1); }
{float a = *(float*)(*args++);
float r=a+1.0;
FPRINTF(out,"float f(float):(%g)",a);
fflush(out);
*(float*)retp = r;
}}
void f_f2_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&f_f2) { fprintf(out,"wrong data for f_f2\n"); exit(1); }
{float a = *(float*)(*args++);
float b = *(float*)(*args++);
float r=a+b;
FPRINTF(out,"float f(2*float):(%g,%g)",a,b);
fflush(out);
*(float*)retp = r;
}}
void f_f4_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&f_f4) { fprintf(out,"wrong data for f_f4\n"); exit(1); }
{float a = *(float*)(*args++);
float b = *(float*)(*args++);
float c = *(float*)(*args++);
float d = *(float*)(*args++);
float r=a+b+c+d;
FPRINTF(out,"float f(4*float):(%g,%g,%g,%g)",a,b,c,d);
fflush(out);
*(float*)retp = r;
}}
void f_f8_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&f_f8) { fprintf(out,"wrong data for f_f8\n"); exit(1); }
{float a = *(float*)(*args++);
float b = *(float*)(*args++);
float c = *(float*)(*args++);
float d = *(float*)(*args++);
float e = *(float*)(*args++);
float f = *(float*)(*args++);
float g = *(float*)(*args++);
float h = *(float*)(*args++);
float r=a+b+c+d+e+f+g+h;
FPRINTF(out,"float f(8*float):(%g,%g,%g,%g,%g,%g,%g,%g)",a,b,c,d,e,f,g,h);
fflush(out);
*(float*)retp = r;
}}
void f_f16_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&f_f16) { fprintf(out,"wrong data for f_f16\n"); exit(1); }
{float a = *(float*)(*args++);
float b = *(float*)(*args++);
float c = *(float*)(*args++);
float d = *(float*)(*args++);
float e = *(float*)(*args++);
float f = *(float*)(*args++);
float g = *(float*)(*args++);
float h = *(float*)(*args++);
float i = *(float*)(*args++);
float j = *(float*)(*args++);
float k = *(float*)(*args++);
float l = *(float*)(*args++);
float m = *(float*)(*args++);
float n = *(float*)(*args++);
float o = *(float*)(*args++);
float p = *(float*)(*args++);
float r=a+b+c+d+e+f+g+h+i+j+k+l+m+n+o+p;
FPRINTF(out,"float f(16*float):(%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g)",a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p);
fflush(out);
*(float*)retp = r;
}}
void f_f24_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&f_f24) { fprintf(out,"wrong data for f_f24\n"); exit(1); }
{float a = *(float*)(*args++);
float b = *(float*)(*args++);
float c = *(float*)(*args++);
float d = *(float*)(*args++);
float e = *(float*)(*args++);
float f = *(float*)(*args++);
float g = *(float*)(*args++);
float h = *(float*)(*args++);
float i = *(float*)(*args++);
float j = *(float*)(*args++);
float k = *(float*)(*args++);
float l = *(float*)(*args++);
float m = *(float*)(*args++);
float n = *(float*)(*args++);
float o = *(float*)(*args++);
float p = *(float*)(*args++);
float q = *(float*)(*args++);
float s = *(float*)(*args++);
float t = *(float*)(*args++);
float u = *(float*)(*args++);
float v = *(float*)(*args++);
float w = *(float*)(*args++);
float x = *(float*)(*args++);
float y = *(float*)(*args++);
float r=a+b+c+d+e+f+g+h+i+j+k+l+m+n+o+p+q+s+t+u+v+w+x+y;
FPRINTF(out,"float f(24*float):(%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g)",a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,q,s,t,u,v,w,x,y);
fflush(out);
*(float*)retp = r;
}}
/* double tests */
void d_d_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_d) { fprintf(out,"wrong data for d_d\n"); exit(1); }
{double a = *(double*)(*args++);
double r=a+1.0;
FPRINTF(out,"double f(double):(%g)",a);
fflush(out);
*(double*)retp = r;
}}
void d_d2_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_d2) { fprintf(out,"wrong data for d_d2\n"); exit(1); }
{double a = *(double*)(*args++);
double b = *(double*)(*args++);
double r=a+b;
FPRINTF(out,"double f(2*double):(%g,%g)",a,b);
fflush(out);
*(double*)retp = r;
}}
void d_d4_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_d4) { fprintf(out,"wrong data for d_d4\n"); exit(1); }
{double a = *(double*)(*args++);
double b = *(double*)(*args++);
double c = *(double*)(*args++);
double d = *(double*)(*args++);
double r=a+b+c+d;
FPRINTF(out,"double f(4*double):(%g,%g,%g,%g)",a,b,c,d);
fflush(out);
*(double*)retp = r;
}}
void d_d8_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_d8) { fprintf(out,"wrong data for d_d8\n"); exit(1); }
{double a = *(double*)(*args++);
double b = *(double*)(*args++);
double c = *(double*)(*args++);
double d = *(double*)(*args++);
double e = *(double*)(*args++);
double f = *(double*)(*args++);
double g = *(double*)(*args++);
double h = *(double*)(*args++);
double r=a+b+c+d+e+f+g+h;
FPRINTF(out,"double f(8*double):(%g,%g,%g,%g,%g,%g,%g,%g)",a,b,c,d,e,f,g,h);
fflush(out);
*(double*)retp = r;
}}
void d_d16_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_d16) { fprintf(out,"wrong data for d_d16\n"); exit(1); }
{double a = *(double*)(*args++);
double b = *(double*)(*args++);
double c = *(double*)(*args++);
double d = *(double*)(*args++);
double e = *(double*)(*args++);
double f = *(double*)(*args++);
double g = *(double*)(*args++);
double h = *(double*)(*args++);
double i = *(double*)(*args++);
double j = *(double*)(*args++);
double k = *(double*)(*args++);
double l = *(double*)(*args++);
double m = *(double*)(*args++);
double n = *(double*)(*args++);
double o = *(double*)(*args++);
double p = *(double*)(*args++);
double r=a+b+c+d+e+f+g+h+i+j+k+l+m+n+o+p;
FPRINTF(out,"double f(16*double):(%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g)",a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p);
fflush(out);
*(double*)retp = r;
}}
/* pointer tests */
void vp_vpdpcpsp_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&vp_vpdpcpsp) { fprintf(out,"wrong data for vp_vpdpcpsp\n"); exit(1); }
{void* a = *(void* *)(*args++);
double* b = *(double* *)(*args++);
char* c = *(char* *)(*args++);
Int* d = *(Int* *)(*args++);
void* ret = (char*)b + 1;
FPRINTF(out,"void* f(void*,double*,char*,Int*):(0x%p,0x%p,0x%p,0x%p)",a,b,c,d);
fflush(out);
*(void* *)retp = ret;
}}
/* mixed number tests */
void uc_ucsil_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&uc_ucsil) { fprintf(out,"wrong data for uc_ucsil\n"); exit(1); }
{uchar a = *(unsigned char *)(*args++);
ushort b = *(unsigned short *)(*args++);
uint c = *(unsigned int *)(*args++);
ulong d = *(unsigned long *)(*args++);
uchar r = (uchar)-1;
FPRINTF(out,"uchar f(uchar,ushort,uint,ulong):(%u,%u,%u,%lu)",a,b,c,d);
fflush(out);
*(unsigned char *)retp = r;
}}
void d_iidd_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_iidd) { fprintf(out,"wrong data for d_iidd\n"); exit(1); }
{int a = *(int*)(*args++);
int b = *(int*)(*args++);
double c = *(double*)(*args++);
double d = *(double*)(*args++);
double r=a+b+c+d;
FPRINTF(out,"double f(int,int,double,double):(%d,%d,%g,%g)",a,b,c,d);
fflush(out);
*(double*)retp = r;
}}
void d_iiidi_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_iiidi) { fprintf(out,"wrong data for d_iiidi\n"); exit(1); }
{int a = *(int*)(*args++);
int b = *(int*)(*args++);
int c = *(int*)(*args++);
double d = *(double*)(*args++);
int e = *(int*)(*args++);
double r=a+b+c+d+e;
FPRINTF(out,"double f(int,int,int,double,int):(%d,%d,%d,%g,%d)",a,b,c,d,e);
fflush(out);
*(double*)retp = r;
}}
void d_idid_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_idid) { fprintf(out,"wrong data for d_idid\n"); exit(1); }
{int a = *(int*)(*args++);
double b = *(double*)(*args++);
int c = *(int*)(*args++);
double d = *(double*)(*args++);
double r=a+b+c+d;
FPRINTF(out,"double f(int,double,int,double):(%d,%g,%d,%g)",a,b,c,d);
fflush(out);
*(double*)retp = r;
}}
void d_fdi_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_fdi) { fprintf(out,"wrong data for d_fdi\n"); exit(1); }
{float a = *(float*)(*args++);
double b = *(double*)(*args++);
int c = *(int*)(*args++);
double r=a+b+c;
FPRINTF(out,"double f(float,double,int):(%g,%g,%d)",a,b,c);
fflush(out);
*(double*)retp = r;
}}
void us_cdcd_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&us_cdcd) { fprintf(out,"wrong data for us_cdcd\n"); exit(1); }
{char a = *(char*)(*args++);
double b = *(double*)(*args++);
char c = *(char*)(*args++);
double d = *(double*)(*args++);
ushort r = (ushort)(a + b + c + d);
FPRINTF(out,"ushort f(char,double,char,double):('%c',%g,'%c',%g)",a,b,c,d);
fflush(out);
*(unsigned short *)retp = r;
}}
void ll_iiilli_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&ll_iiilli) { fprintf(out,"wrong data for ll_iiilli\n"); exit(1); }
{int a = *(int*)(*args++);
int b = *(int*)(*args++);
int c = *(int*)(*args++);
long long d = *(long long *)(*args++);
int e = *(int*)(*args++);
long long r = (long long)(int)a + (long long)(int)b + (long long)(int)c + d + (long long)e;
FPRINTF(out,"long long f(int,int,int,long long,int):(%d,%d,%d,0x%lx%08lx,%d)",a,b,c,(long)(d>>32),(long)(d&0xffffffff),e);
fflush(out);
*(long long *)retp = r;
}}
void ll_flli_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&ll_flli) { fprintf(out,"wrong data for ll_flli\n"); exit(1); }
{float a = *(float*)(*args++);
long long b = *(long long *)(*args++);
int c = *(int*)(*args++);
long long r = (long long)(int)a + b + (long long)c;
FPRINTF(out,"long long f(float,long long,int):(%g,0x%lx%08lx,0x%lx)",a,(long)(b>>32),(long)(b&0xffffffff),(long)c);
fflush(out);
*(long long *)retp = r;
}}
void f_fi_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&f_fi) { fprintf(out,"wrong data for f_fi\n"); exit(1); }
{float a = *(float*)(*args++);
int z = *(int*)(*args++);
float r=a+z;
FPRINTF(out,"float f(float,int):(%g,%d)",a,z);
fflush(out);
*(float*)retp = r;
}}
void f_f2i_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&f_f2i) { fprintf(out,"wrong data for f_f2i\n"); exit(1); }
{float a = *(float*)(*args++);
float b = *(float*)(*args++);
int z = *(int*)(*args++);
float r=a+b+z;
FPRINTF(out,"float f(2*float,int):(%g,%g,%d)",a,b,z);
fflush(out);
*(float*)retp = r;
}}
void f_f3i_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&f_f3i) { fprintf(out,"wrong data for f_f3i\n"); exit(1); }
{float a = *(float*)(*args++);
float b = *(float*)(*args++);
float c = *(float*)(*args++);
int z = *(int*)(*args++);
float r=a+b+c+z;
FPRINTF(out,"float f(3*float,int):(%g,%g,%g,%d)",a,b,c,z);
fflush(out);
*(float*)retp = r;
}}
void f_f4i_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&f_f4i) { fprintf(out,"wrong data for f_f4i\n"); exit(1); }
{float a = *(float*)(*args++);
float b = *(float*)(*args++);
float c = *(float*)(*args++);
float d = *(float*)(*args++);
int z = *(int*)(*args++);
float r=a+b+c+d+z;
FPRINTF(out,"float f(4*float,int):(%g,%g,%g,%g,%d)",a,b,c,d,z);
fflush(out);
*(float*)retp = r;
}}
void f_f7i_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&f_f7i) { fprintf(out,"wrong data for f_f7i\n"); exit(1); }
{float a = *(float*)(*args++);
float b = *(float*)(*args++);
float c = *(float*)(*args++);
float d = *(float*)(*args++);
float e = *(float*)(*args++);
float f = *(float*)(*args++);
float g = *(float*)(*args++);
int z = *(int*)(*args++);
float r=a+b+c+d+e+f+g+z;
FPRINTF(out,"float f(7*float,int):(%g,%g,%g,%g,%g,%g,%g,%d)",a,b,c,d,e,f,g,z);
fflush(out);
*(float*)retp = r;
}}
void f_f8i_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&f_f8i) { fprintf(out,"wrong data for f_f8i\n"); exit(1); }
{float a = *(float*)(*args++);
float b = *(float*)(*args++);
float c = *(float*)(*args++);
float d = *(float*)(*args++);
float e = *(float*)(*args++);
float f = *(float*)(*args++);
float g = *(float*)(*args++);
float h = *(float*)(*args++);
int z = *(int*)(*args++);
float r=a+b+c+d+e+f+g+h+z;
FPRINTF(out,"float f(8*float,int):(%g,%g,%g,%g,%g,%g,%g,%g,%d)",a,b,c,d,e,f,g,h,z);
fflush(out);
*(float*)retp = r;
}}
void f_f12i_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&f_f12i) { fprintf(out,"wrong data for f_f12i\n"); exit(1); }
{float a = *(float*)(*args++);
float b = *(float*)(*args++);
float c = *(float*)(*args++);
float d = *(float*)(*args++);
float e = *(float*)(*args++);
float f = *(float*)(*args++);
float g = *(float*)(*args++);
float h = *(float*)(*args++);
float i = *(float*)(*args++);
float j = *(float*)(*args++);
float k = *(float*)(*args++);
float l = *(float*)(*args++);
int z = *(int*)(*args++);
float r=a+b+c+d+e+f+g+h+i+j+k+l+z;
FPRINTF(out,"float f(12*float,int):(%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%d)",a,b,c,d,e,f,g,h,i,j,k,l,z);
fflush(out);
*(float*)retp = r;
}}
void f_f13i_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&f_f13i) { fprintf(out,"wrong data for f_f13i\n"); exit(1); }
{float a = *(float*)(*args++);
float b = *(float*)(*args++);
float c = *(float*)(*args++);
float d = *(float*)(*args++);
float e = *(float*)(*args++);
float f = *(float*)(*args++);
float g = *(float*)(*args++);
float h = *(float*)(*args++);
float i = *(float*)(*args++);
float j = *(float*)(*args++);
float k = *(float*)(*args++);
float l = *(float*)(*args++);
float m = *(float*)(*args++);
int z = *(int*)(*args++);
float r=a+b+c+d+e+f+g+h+i+j+k+l+m+z;
FPRINTF(out,"float f(13*float,int):(%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%d)",a,b,c,d,e,f,g,h,i,j,k,l,m,z);
fflush(out);
*(float*)retp = r;
}}
void d_di_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_di) { fprintf(out,"wrong data for d_di\n"); exit(1); }
{double a = *(double*)(*args++);
int z = *(int*)(*args++);
double r=a+z;
FPRINTF(out,"double f(double,int):(%g,%d)",a,z);
fflush(out);
*(double*)retp = r;
}}
void d_d2i_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_d2i) { fprintf(out,"wrong data for d_d2i\n"); exit(1); }
{double a = *(double*)(*args++);
double b = *(double*)(*args++);
int z = *(int*)(*args++);
double r=a+b+z;
FPRINTF(out,"double f(2*double,int):(%g,%g,%d)",a,b,z);
fflush(out);
*(double*)retp = r;
}}
void d_d3i_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_d3i) { fprintf(out,"wrong data for d_d3i\n"); exit(1); }
{double a = *(double*)(*args++);
double b = *(double*)(*args++);
double c = *(double*)(*args++);
int z = *(int*)(*args++);
double r=a+b+c+z;
FPRINTF(out,"double f(3*double,int):(%g,%g,%g,%d)",a,b,c,z);
fflush(out);
*(double*)retp = r;
}}
void d_d4i_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_d4i) { fprintf(out,"wrong data for d_d4i\n"); exit(1); }
{double a = *(double*)(*args++);
double b = *(double*)(*args++);
double c = *(double*)(*args++);
double d = *(double*)(*args++);
int z = *(int*)(*args++);
double r=a+b+c+d+z;
FPRINTF(out,"double f(4*double,int):(%g,%g,%g,%g,%d)",a,b,c,d,z);
fflush(out);
*(double*)retp = r;
}}
void d_d7i_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_d7i) { fprintf(out,"wrong data for d_d7i\n"); exit(1); }
{double a = *(double*)(*args++);
double b = *(double*)(*args++);
double c = *(double*)(*args++);
double d = *(double*)(*args++);
double e = *(double*)(*args++);
double f = *(double*)(*args++);
double g = *(double*)(*args++);
int z = *(int*)(*args++);
double r=a+b+c+d+e+f+g+z;
FPRINTF(out,"double f(7*double,int):(%g,%g,%g,%g,%g,%g,%g,%d)",a,b,c,d,e,f,g,z);
fflush(out);
*(double*)retp = r;
}}
void d_d8i_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_d8i) { fprintf(out,"wrong data for d_d8i\n"); exit(1); }
{double a = *(double*)(*args++);
double b = *(double*)(*args++);
double c = *(double*)(*args++);
double d = *(double*)(*args++);
double e = *(double*)(*args++);
double f = *(double*)(*args++);
double g = *(double*)(*args++);
double h = *(double*)(*args++);
int z = *(int*)(*args++);
double r=a+b+c+d+e+f+g+h+z;
FPRINTF(out,"double f(8*double,int):(%g,%g,%g,%g,%g,%g,%g,%g,%d)",a,b,c,d,e,f,g,h,z);
fflush(out);
*(double*)retp = r;
}}
void d_d12i_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_d12i) { fprintf(out,"wrong data for d_d12i\n"); exit(1); }
{double a = *(double*)(*args++);
double b = *(double*)(*args++);
double c = *(double*)(*args++);
double d = *(double*)(*args++);
double e = *(double*)(*args++);
double f = *(double*)(*args++);
double g = *(double*)(*args++);
double h = *(double*)(*args++);
double i = *(double*)(*args++);
double j = *(double*)(*args++);
double k = *(double*)(*args++);
double l = *(double*)(*args++);
int z = *(int*)(*args++);
double r=a+b+c+d+e+f+g+h+i+j+k+l+z;
FPRINTF(out,"double f(12*double,int):(%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%d)",a,b,c,d,e,f,g,h,i,j,k,l,z);
fflush(out);
*(double*)retp = r;
}}
void d_d13i_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_d13i) { fprintf(out,"wrong data for d_d13i\n"); exit(1); }
{double a = *(double*)(*args++);
double b = *(double*)(*args++);
double c = *(double*)(*args++);
double d = *(double*)(*args++);
double e = *(double*)(*args++);
double f = *(double*)(*args++);
double g = *(double*)(*args++);
double h = *(double*)(*args++);
double i = *(double*)(*args++);
double j = *(double*)(*args++);
double k = *(double*)(*args++);
double l = *(double*)(*args++);
double m = *(double*)(*args++);
int z = *(int*)(*args++);
double r=a+b+c+d+e+f+g+h+i+j+k+l+m+z;
FPRINTF(out,"double f(13*double,int):(%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%d)",a,b,c,d,e,f,g,h,i,j,k,l,m,z);
fflush(out);
*(double*)retp = r;
}}
/* small structure return tests */
void S1_v_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&S1_v) { fprintf(out,"wrong data for S1_v\n"); exit(1); }
{Size1 r = Size1_1;
FPRINTF(out,"Size1 f(void):");
fflush(out);
*(Size1*)retp = r;
}}
void S2_v_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&S2_v) { fprintf(out,"wrong data for S2_v\n"); exit(1); }
{Size2 r = Size2_1;
FPRINTF(out,"Size2 f(void):");
fflush(out);
*(Size2*)retp = r;
}}
void S3_v_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&S3_v) { fprintf(out,"wrong data for S3_v\n"); exit(1); }
{Size3 r = Size3_1;
FPRINTF(out,"Size3 f(void):");
fflush(out);
*(Size3*)retp = r;
}}
void S4_v_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&S4_v) { fprintf(out,"wrong data for S4_v\n"); exit(1); }
{Size4 r = Size4_1;
FPRINTF(out,"Size4 f(void):");
fflush(out);
*(Size4*)retp = r;
}}
void S7_v_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&S7_v) { fprintf(out,"wrong data for S7_v\n"); exit(1); }
{Size7 r = Size7_1;
FPRINTF(out,"Size7 f(void):");
fflush(out);
*(Size7*)retp = r;
}}
void S8_v_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&S8_v) { fprintf(out,"wrong data for S8_v\n"); exit(1); }
{Size8 r = Size8_1;
FPRINTF(out,"Size8 f(void):");
fflush(out);
*(Size8*)retp = r;
}}
void S12_v_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&S12_v) { fprintf(out,"wrong data for S12_v\n"); exit(1); }
{Size12 r = Size12_1;
FPRINTF(out,"Size12 f(void):");
fflush(out);
*(Size12*)retp = r;
}}
void S15_v_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&S15_v) { fprintf(out,"wrong data for S15_v\n"); exit(1); }
{Size15 r = Size15_1;
FPRINTF(out,"Size15 f(void):");
fflush(out);
*(Size15*)retp = r;
}}
void S16_v_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&S16_v) { fprintf(out,"wrong data for S16_v\n"); exit(1); }
{Size16 r = Size16_1;
FPRINTF(out,"Size16 f(void):");
fflush(out);
*(Size16*)retp = r;
}}
/* structure tests */
void I_III_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&I_III) { fprintf(out,"wrong data for I_III\n"); exit(1); }
{Int a = *(Int*)(*args++);
Int b = *(Int*)(*args++);
Int c = *(Int*)(*args++);
Int r;
r.x = a.x + b.x + c.x;
FPRINTF(out,"Int f(Int,Int,Int):({%d},{%d},{%d})",a.x,b.x,c.x);
fflush(out);
*(Int*)retp = r;
}}
void C_CdC_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&C_CdC) { fprintf(out,"wrong data for C_CdC\n"); exit(1); }
{Char a = *(Char*)(*args++);
double b = *(double*)(*args++);
Char c = *(Char*)(*args++);
Char r;
r.x = (a.x + c.x)/2;
FPRINTF(out,"Char f(Char,double,Char):({'%c'},%g,{'%c'})",a.x,b,c.x);
fflush(out);
*(Char*)retp = r;
}}
void F_Ffd_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&F_Ffd) { fprintf(out,"wrong data for F_Ffd\n"); exit(1); }
{Float a = *(Float*)(*args++);
float b = *(float*)(*args++);
double c = *(double*)(*args++);
Float r;
r.x = a.x + b + c;
FPRINTF(out,"Float f(Float,float,double):({%g},%g,%g)",a.x,b,c);
fflush(out);
*(Float*)retp = r;
}}
void D_fDd_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&D_fDd) { fprintf(out,"wrong data for D_fDd\n"); exit(1); }
{float a = *(float*)(*args++);
Double b = *(Double*)(*args++);
double c = *(double*)(*args++);
Double r;
r.x = a + b.x + c;
FPRINTF(out,"Double f(float,Double,double):(%g,{%g},%g)",a,b.x,c);
fflush(out);
*(Double*)retp = r;
}}
void D_Dfd_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&D_Dfd) { fprintf(out,"wrong data for D_Dfd\n"); exit(1); }
{Double a = *(Double*)(*args++);
float b = *(float*)(*args++);
double c = *(double*)(*args++);
Double r;
r.x = a.x + b + c;
FPRINTF(out,"Double f(Double,float,double):({%g},%g,%g)",a.x,b,c);
fflush(out);
*(Double*)retp = r;
}}
void J_JiJ_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&J_JiJ) { fprintf(out,"wrong data for J_JiJ\n"); exit(1); }
{J a = *(J*)(*args++);
int b= *(int*)(*args++);
J c = *(J*)(*args++);
J r;
r.l1 = a.l1+c.l1; r.l2 = a.l2+b+c.l2;
FPRINTF(out,"J f(J,int,J):({%ld,%ld},%d,{%ld,%ld})",a.l1,a.l2,b,c.l1,c.l2);
fflush(out);
*(J*)retp = r;
}}
#ifndef SKIP_EXTRA_STRUCTS
void T_TcT_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&T_TcT) { fprintf(out,"wrong data for T_TcT\n"); exit(1); }
{T a = *(T*)(*args++);
char b = *(char*)(*args++);
T c = *(T*)(*args++);
T r;
r.c[0]='b'; r.c[1]=c.c[1]; r.c[2]=c.c[2];
FPRINTF(out,"T f(T,char,T):({\"%c%c%c\"},'%c',{\"%c%c%c\"})",a.c[0],a.c[1],a.c[2],b,c.c[0],c.c[1],c.c[2]);
fflush(out);
*(T*)retp = r;
}}
void X_BcdB_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&X_BcdB) { fprintf(out,"wrong data for X_BcdB\n"); exit(1); }
{B a = *(B*)(*args++);
char b = *(char*)(*args++);
double c = *(double*)(*args++);
B d = *(B*)(*args++);
static X xr={"return val",'R'};
X r;
r = xr;
r.c1 = b;
FPRINTF(out,"X f(B,char,double,B):({%g,{%d,%d,%d}},'%c',%g,{%g,{%d,%d,%d}})",
a.d,a.i[0],a.i[1],a.i[2],b,c,d.d,d.i[0],d.i[1],d.i[2]);
fflush(out);
*(X*)retp = r;
}}
#endif
/* gpargs boundary tests */
void l_l0K_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&l_l0K) { fprintf(out,"wrong data for l_l0K\n"); exit(1); }
{K b = *(K*)(*args++);
long c = *(long*)(*args++);
long r = b.l1 + b.l2 + b.l3 + b.l4 + c;
FPRINTF(out,"long f(K,long):(%ld,%ld,%ld,%ld,%ld)",b.l1,b.l2,b.l3,b.l4,c);
fflush(out);
*(long*)retp = r;
}}
void l_l1K_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&l_l1K) { fprintf(out,"wrong data for l_l1K\n"); exit(1); }
{long a1 = *(long*)(*args++);
K b = *(K*)(*args++);
long c = *(long*)(*args++);
long r = a1 + b.l1 + b.l2 + b.l3 + b.l4 + c;
FPRINTF(out,"long f(long,K,long):(%ld,%ld,%ld,%ld,%ld,%ld)",a1,b.l1,b.l2,b.l3,b.l4,c);
fflush(out);
*(long*)retp = r;
}}
void l_l2K_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&l_l2K) { fprintf(out,"wrong data for l_l2K\n"); exit(1); }
{long a1 = *(long*)(*args++);
long a2 = *(long*)(*args++);
K b = *(K*)(*args++);
long c = *(long*)(*args++);
long r = a1 + a2 + b.l1 + b.l2 + b.l3 + b.l4 + c;
FPRINTF(out,"long f(2*long,K,long):(%ld,%ld,%ld,%ld,%ld,%ld,%ld)",a1,a2,b.l1,b.l2,b.l3,b.l4,c);
fflush(out);
*(long*)retp = r;
}}
void l_l3K_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&l_l3K) { fprintf(out,"wrong data for l_l3K\n"); exit(1); }
{long a1 = *(long*)(*args++);
long a2 = *(long*)(*args++);
long a3 = *(long*)(*args++);
K b = *(K*)(*args++);
long c = *(long*)(*args++);
long r = a1 + a2 + a3 + b.l1 + b.l2 + b.l3 + b.l4 + c;
FPRINTF(out,"long f(3*long,K,long):(%ld,%ld,%ld,%ld,%ld,%ld,%ld,%ld)",a1,a2,a3,b.l1,b.l2,b.l3,b.l4,c);
fflush(out);
*(long*)retp = r;
}}
void l_l4K_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&l_l4K) { fprintf(out,"wrong data for l_l4K\n"); exit(1); }
{long a1 = *(long*)(*args++);
long a2 = *(long*)(*args++);
long a3 = *(long*)(*args++);
long a4 = *(long*)(*args++);
K b = *(K*)(*args++);
long c = *(long*)(*args++);
long r = a1 + a2 + a3 + a4 + b.l1 + b.l2 + b.l3 + b.l4 + c;
FPRINTF(out,"long f(4*long,K,long):(%ld,%ld,%ld,%ld,%ld,%ld,%ld,%ld,%ld)",a1,a2,a3,a4,b.l1,b.l2,b.l3,b.l4,c);
fflush(out);
*(long*)retp = r;
}}
void l_l5K_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&l_l5K) { fprintf(out,"wrong data for l_l5K\n"); exit(1); }
{long a1 = *(long*)(*args++);
long a2 = *(long*)(*args++);
long a3 = *(long*)(*args++);
long a4 = *(long*)(*args++);
long a5 = *(long*)(*args++);
K b = *(K*)(*args++);
long c = *(long*)(*args++);
long r = a1 + a2 + a3 + a4 + a5 + b.l1 + b.l2 + b.l3 + b.l4 + c;
FPRINTF(out,"long f(5*long,K,long):(%ld,%ld,%ld,%ld,%ld,%ld,%ld,%ld,%ld,%ld)",a1,a2,a3,a4,a5,b.l1,b.l2,b.l3,b.l4,c);
fflush(out);
*(long*)retp = r;
}}
void l_l6K_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&l_l6K) { fprintf(out,"wrong data for l_l6K\n"); exit(1); }
{long a1 = *(long*)(*args++);
long a2 = *(long*)(*args++);
long a3 = *(long*)(*args++);
long a4 = *(long*)(*args++);
long a5 = *(long*)(*args++);
long a6 = *(long*)(*args++);
K b = *(K*)(*args++);
long c = *(long*)(*args++);
long r = a1 + a2 + a3 + a4 + a5 + a6 + b.l1 + b.l2 + b.l3 + b.l4 + c;
FPRINTF(out,"long f(6*long,K,long):(%ld,%ld,%ld,%ld,%ld,%ld,%ld,%ld,%ld,%ld,%ld)",a1,a2,a3,a4,a5,a6,b.l1,b.l2,b.l3,b.l4,c);
fflush(out);
*(long*)retp = r;
}}
void f_f17l3L_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&f_f17l3L) { fprintf(out,"wrong data for f_f17l3L\n"); exit(1); }
{float a = *(float*)(*args++);
float b = *(float*)(*args++);
float c = *(float*)(*args++);
float d = *(float*)(*args++);
float e = *(float*)(*args++);
float f = *(float*)(*args++);
float g = *(float*)(*args++);
float h = *(float*)(*args++);
float i = *(float*)(*args++);
float j = *(float*)(*args++);
float k = *(float*)(*args++);
float l = *(float*)(*args++);
float m = *(float*)(*args++);
float n = *(float*)(*args++);
float o = *(float*)(*args++);
float p = *(float*)(*args++);
float q = *(float*)(*args++);
long s = *(long*)(*args++);
long t = *(long*)(*args++);
long u = *(long*)(*args++);
L z = *(L*)(*args++);
float r = a+b+c+d+e+f+g+h+i+j+k+l+m+n+o+p+q+s+t+u+z.l1+z.l2+z.l3+z.l4+z.l5+z.l6;
FPRINTF(out,"float f(17*float,3*int,L):(%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%ld,%ld,%ld,%ld,%ld,%ld,%ld,%ld,%ld)",a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,q,s,t,u,z.l1,z.l2,z.l3,z.l4,z.l5,z.l6);
fflush(out);
*(float*)retp = r;
}}
void d_d17l3L_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_d17l3L) { fprintf(out,"wrong data for d_d17l3L\n"); exit(1); }
{double a = *(double*)(*args++);
double b = *(double*)(*args++);
double c = *(double*)(*args++);
double d = *(double*)(*args++);
double e = *(double*)(*args++);
double f = *(double*)(*args++);
double g = *(double*)(*args++);
double h = *(double*)(*args++);
double i = *(double*)(*args++);
double j = *(double*)(*args++);
double k = *(double*)(*args++);
double l = *(double*)(*args++);
double m = *(double*)(*args++);
double n = *(double*)(*args++);
double o = *(double*)(*args++);
double p = *(double*)(*args++);
double q = *(double*)(*args++);
long s = *(long*)(*args++);
long t = *(long*)(*args++);
long u = *(long*)(*args++);
L z = *(L*)(*args++);
double r = a+b+c+d+e+f+g+h+i+j+k+l+m+n+o+p+q+s+t+u+z.l1+z.l2+z.l3+z.l4+z.l5+z.l6;
FPRINTF(out,"double f(17*double,3*int,L):(%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%g,%ld,%ld,%ld,%ld,%ld,%ld,%ld,%ld,%ld)",a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,q,s,t,u,z.l1,z.l2,z.l3,z.l4,z.l5,z.l6);
fflush(out);
*(double*)retp = r;
}}
void ll_l2ll_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&ll_l2ll) { fprintf(out,"wrong data for ll_l2ll\n"); exit(1); }
{long a1 = *(long*)(*args++);
long a2 = *(long*)(*args++);
long long b = *(long long *)(*args++);
long c = *(long*)(*args++);
long long r = (long long) (a1 + a2) + b + c;
FPRINTF(out,"long long f(2*long,long long,long):(%ld,%ld,0x%lx%08lx,%ld)",a1,a2,(long)(b>>32),(long)(b&0xffffffff),c);
fflush(out);
*(long long *)retp = r;
}}
void ll_l3ll_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&ll_l3ll) { fprintf(out,"wrong data for ll_l3ll\n"); exit(1); }
{long a1 = *(long*)(*args++);
long a2 = *(long*)(*args++);
long a3 = *(long*)(*args++);
long long b = *(long long *)(*args++);
long c = *(long*)(*args++);
long long r = (long long) (a1 + a2 + a3) + b + c;
FPRINTF(out,"long long f(3*long,long long,long):(%ld,%ld,%ld,0x%lx%08lx,%ld)",a1,a2,a3,(long)(b>>32),(long)(b&0xffffffff),c);
fflush(out);
*(long long *)retp = r;
}}
void ll_l4ll_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&ll_l4ll) { fprintf(out,"wrong data for ll_l4ll\n"); exit(1); }
{long a1 = *(long*)(*args++);
long a2 = *(long*)(*args++);
long a3 = *(long*)(*args++);
long a4 = *(long*)(*args++);
long long b = *(long long *)(*args++);
long c = *(long*)(*args++);
long long r = (long long) (a1 + a2 + a3 + a4) + b + c;
FPRINTF(out,"long long f(4*long,long long,long):(%ld,%ld,%ld,%ld,0x%lx%08lx,%ld)",a1,a2,a3,a4,(long)(b>>32),(long)(b&0xffffffff),c);
fflush(out);
*(long long *)retp = r;
}}
void ll_l5ll_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&ll_l5ll) { fprintf(out,"wrong data for ll_l5ll\n"); exit(1); }
{long a1 = *(long*)(*args++);
long a2 = *(long*)(*args++);
long a3 = *(long*)(*args++);
long a4 = *(long*)(*args++);
long a5 = *(long*)(*args++);
long long b = *(long long *)(*args++);
long c = *(long*)(*args++);
long long r = (long long) (a1 + a2 + a3 + a4 + a5) + b + c;
FPRINTF(out,"long long f(5*long,long long,long):(%ld,%ld,%ld,%ld,%ld,0x%lx%08lx,%ld)",a1,a2,a3,a4,a5,(long)(b>>32),(long)(b&0xffffffff),c);
fflush(out);
*(long long *)retp = r;
}}
void ll_l6ll_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&ll_l6ll) { fprintf(out,"wrong data for ll_l6ll\n"); exit(1); }
{long a1 = *(long*)(*args++);
long a2 = *(long*)(*args++);
long a3 = *(long*)(*args++);
long a4 = *(long*)(*args++);
long a5 = *(long*)(*args++);
long a6 = *(long*)(*args++);
long long b = *(long long *)(*args++);
long c = *(long*)(*args++);
long long r = (long long) (a1 + a2 + a3 + a4 + a5 + a6) + b + c;
FPRINTF(out,"long long f(6*long,long long,long):(%ld,%ld,%ld,%ld,%ld,%ld,0x%lx%08lx,%ld)",a1,a2,a3,a4,a5,a6,(long)(b>>32),(long)(b&0xffffffff),c);
fflush(out);
*(long long *)retp = r;
}}
void ll_l7ll_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&ll_l7ll) { fprintf(out,"wrong data for ll_l7ll\n"); exit(1); }
{long a1 = *(long*)(*args++);
long a2 = *(long*)(*args++);
long a3 = *(long*)(*args++);
long a4 = *(long*)(*args++);
long a5 = *(long*)(*args++);
long a6 = *(long*)(*args++);
long a7 = *(long*)(*args++);
long long b = *(long long *)(*args++);
long c = *(long*)(*args++);
long long r = (long long) (a1 + a2 + a3 + a4 + a5 + a6 + a7) + b + c;
FPRINTF(out,"long long f(7*long,long long,long):(%ld,%ld,%ld,%ld,%ld,%ld,%ld,0x%lx%08lx,%ld)",a1,a2,a3,a4,a5,a6,a7,(long)(b>>32),(long)(b&0xffffffff),c);
fflush(out);
*(long long *)retp = r;
}}
void d_l2d_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_l2d) { fprintf(out,"wrong data for d_l2d\n"); exit(1); }
{long a1 = *(long*)(*args++);
long a2 = *(long*)(*args++);
double b = *(double*)(*args++);
long c = *(long*)(*args++);
double r = (double) (a1 + a2) + b + c;
FPRINTF(out,"double f(2*long,double,long):(%ld,%ld,%g,%ld)",a1,a2,b,c);
fflush(out);
*(double*)retp = r;
}}
void d_l3d_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_l3d) { fprintf(out,"wrong data for d_l3d\n"); exit(1); }
{long a1 = *(long*)(*args++);
long a2 = *(long*)(*args++);
long a3 = *(long*)(*args++);
double b = *(double*)(*args++);
long c = *(long*)(*args++);
double r = (double) (a1 + a2 + a3) + b + c;
FPRINTF(out,"double f(3*long,double,long):(%ld,%ld,%ld,%g,%ld)",a1,a2,a3,b,c);
fflush(out);
*(double*)retp = r;
}}
void d_l4d_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_l4d) { fprintf(out,"wrong data for d_l4d\n"); exit(1); }
{long a1 = *(long*)(*args++);
long a2 = *(long*)(*args++);
long a3 = *(long*)(*args++);
long a4 = *(long*)(*args++);
double b = *(double*)(*args++);
long c = *(long*)(*args++);
double r = (double) (a1 + a2 + a3 + a4) + b + c;
FPRINTF(out,"double f(4*long,double,long):(%ld,%ld,%ld,%ld,%g,%ld)",a1,a2,a3,a4,b,c);
fflush(out);
*(double*)retp = r;
}}
void d_l5d_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_l5d) { fprintf(out,"wrong data for d_l5d\n"); exit(1); }
{long a1 = *(long*)(*args++);
long a2 = *(long*)(*args++);
long a3 = *(long*)(*args++);
long a4 = *(long*)(*args++);
long a5 = *(long*)(*args++);
double b = *(double*)(*args++);
long c = *(long*)(*args++);
double r = (double) (a1 + a2 + a3 + a4 + a5) + b + c;
FPRINTF(out,"double f(5*long,double,long):(%ld,%ld,%ld,%ld,%ld,%g,%ld)",a1,a2,a3,a4,a5,b,c);
fflush(out);
*(double*)retp = r;
}}
void d_l6d_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_l6d) { fprintf(out,"wrong data for d_l6d\n"); exit(1); }
{long a1 = *(long*)(*args++);
long a2 = *(long*)(*args++);
long a3 = *(long*)(*args++);
long a4 = *(long*)(*args++);
long a5 = *(long*)(*args++);
long a6 = *(long*)(*args++);
double b = *(double*)(*args++);
long c = *(long*)(*args++);
double r = (double) (a1 + a2 + a3 + a4 + a5 + a6) + b + c;
FPRINTF(out,"double f(6*long,double,long):(%ld,%ld,%ld,%ld,%ld,%ld,%g,%ld)",a1,a2,a3,a4,a5,a6,b,c);
fflush(out);
*(double*)retp = r;
}}
void d_l7d_simulator (ffi_cif* cif, void* retp, /*const*/ void* /*const*/ *args, void* data)
{
if (data != (void*)&d_l7d) { fprintf(out,"wrong data for d_l7d\n"); exit(1); }
{long a1 = *(long*)(*args++);
long a2 = *(long*)(*args++);
long a3 = *(long*)(*args++);
long a4 = *(long*)(*args++);
long a5 = *(long*)(*args++);
long a6 = *(long*)(*args++);
long a7 = *(long*)(*args++);
double b = *(double*)(*args++);
long c = *(long*)(*args++);
double r = (double) (a1 + a2 + a3 + a4 + a5 + a6 + a7) + b + c;
FPRINTF(out,"double f(7*long,double,long):(%ld,%ld,%ld,%ld,%ld,%ld,%ld,%g,%ld)",a1,a2,a3,a4,a5,a6,a7,b,c);
fflush(out);
*(double*)retp = r;
}}
/*
* The way we run these tests - first call the function directly, then
* through vacall() - there is the danger that arguments or results seem
* to be passed correctly, but what we are seeing are in fact the vestiges
* (traces) or the previous call. This may seriously fake the test.
* Avoid this by clearing the registers between the first and the second call.
*/
long clear_traces_i (long a, long b, long c, long d, long e, long f, long g, long h,
long i, long j, long k, long l, long m, long n, long o, long p)
{ return 0; }
float clear_traces_f (float a, float b, float c, float d, float e, float f, float g,
float h, float i, float j, float k, float l, float m, float n,
float o, float p)
{ return 0.0; }
double clear_traces_d (double a, double b, double c, double d, double e, double f, double g,
double h, double i, double j, double k, double l, double m, double n,
double o, double p)
{ return 0.0; }
J clear_traces_J (void)
{ J j; j.l1 = j.l2 = 0; return j; }
void clear_traces (void)
{ clear_traces_i(0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0);
clear_traces_f(0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0);
clear_traces_d(0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0,0.0);
clear_traces_J();
}
int main (void)
{
void* callback_code;
void* callback_writable;
#define ALLOC_CALLBACK() \
callback_writable = ffi_closure_alloc(sizeof(ffi_closure),&callback_code); \
if (!callback_writable) abort()
#define PREP_CALLBACK(cif,simulator,data) \
if (ffi_prep_closure_loc(callback_writable,&(cif),simulator,data,callback_code) != FFI_OK) abort()
#define FREE_CALLBACK() \
ffi_closure_free(callback_writable)
ffi_type_char = (char)(-1) < 0 ? ffi_type_schar : ffi_type_uchar;
out = stdout;
#if (!defined(DGTEST)) || DGTEST == 1
/* void tests */
v_v();
clear_traces();
ALLOC_CALLBACK();
{
ffi_cif cif;
FFI_PREP_CIF_NOARGS(cif,ffi_type_void);
PREP_CALLBACK(cif,v_v_simulator,(void*)&v_v);
((void (*) (void)) callback_code) ();
}
FREE_CALLBACK();
#endif
/* int tests */
{ int ir;
#if (!defined(DGTEST)) || DGTEST == 2
ir = i_v();
fprintf(out,"->%d\n",ir);
fflush(out);
ir = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_cif cif;
FFI_PREP_CIF_NOARGS(cif,ffi_type_sint);
PREP_CALLBACK(cif,i_v_simulator,(void*)&i_v);
ir = ((int (*) (void)) callback_code) ();
}
FREE_CALLBACK();
FPRINTF(out,"->%d\n",ir);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 3
ir = i_i(i1);
fprintf(out,"->%d\n",ir);
fflush(out);
ir = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_sint);
PREP_CALLBACK(cif,i_i_simulator,(void*)&i_i);
ir = ((int (*) (int)) callback_code) (i1);
}
FREE_CALLBACK();
FPRINTF(out,"->%d\n",ir);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 4
ir = i_i2(i1,i2);
fprintf(out,"->%d\n",ir);
fflush(out);
ir = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_sint, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_sint);
PREP_CALLBACK(cif,i_i2_simulator,(void*)&i_i2);
ir = ((int (*) (int,int)) callback_code) (i1,i2);
}
FREE_CALLBACK();
FPRINTF(out,"->%d\n",ir);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 5
ir = i_i4(i1,i2,i3,i4);
fprintf(out,"->%d\n",ir);
fflush(out);
ir = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_sint, &ffi_type_sint, &ffi_type_sint, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_sint);
PREP_CALLBACK(cif,i_i4_simulator,(void*)&i_i4);
ir = ((int (*) (int,int,int,int)) callback_code) (i1,i2,i3,i4);
}
FREE_CALLBACK();
FPRINTF(out,"->%d\n",ir);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 6
ir = i_i8(i1,i2,i3,i4,i5,i6,i7,i8);
fprintf(out,"->%d\n",ir);
fflush(out);
ir = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_sint, &ffi_type_sint, &ffi_type_sint, &ffi_type_sint, &ffi_type_sint, &ffi_type_sint, &ffi_type_sint, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_sint);
PREP_CALLBACK(cif,i_i8_simulator,(void*)&i_i8);
ir = ((int (*) (int,int,int,int,int,int,int,int)) callback_code) (i1,i2,i3,i4,i5,i6,i7,i8);
}
FREE_CALLBACK();
FPRINTF(out,"->%d\n",ir);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 7
ir = i_i16(i1,i2,i3,i4,i5,i6,i7,i8,i9,i10,i11,i12,i13,i14,i15,i16);
fprintf(out,"->%d\n",ir);
fflush(out);
ir = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_sint, &ffi_type_sint, &ffi_type_sint, &ffi_type_sint, &ffi_type_sint, &ffi_type_sint, &ffi_type_sint, &ffi_type_sint, &ffi_type_sint, &ffi_type_sint, &ffi_type_sint, &ffi_type_sint, &ffi_type_sint, &ffi_type_sint, &ffi_type_sint, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_sint);
PREP_CALLBACK(cif,i_i16_simulator,(void*)&i_i16);
ir = ((int (*) (int,int,int,int,int,int,int,int,int,int,int,int,int,int,int,int)) callback_code) (i1,i2,i3,i4,i5,i6,i7,i8,i9,i10,i11,i12,i13,i14,i15,i16);
}
FREE_CALLBACK();
FPRINTF(out,"->%d\n",ir);
fflush(out);
#endif
}
/* float tests */
{ float fr;
#if (!defined(DGTEST)) || DGTEST == 8
fr = f_f(f1);
fprintf(out,"->%g\n",fr);
fflush(out);
fr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_float };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_float);
PREP_CALLBACK(cif,f_f_simulator,(void*)&f_f);
fr = ((float (*) (float)) callback_code) (f1);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",fr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 9
fr = f_f2(f1,f2);
fprintf(out,"->%g\n",fr);
fflush(out);
fr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_float, &ffi_type_float };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_float);
PREP_CALLBACK(cif,f_f2_simulator,(void*)&f_f2);
fr = ((float (*) (float,float)) callback_code) (f1,f2);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",fr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 10
fr = f_f4(f1,f2,f3,f4);
fprintf(out,"->%g\n",fr);
fflush(out);
fr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_float);
PREP_CALLBACK(cif,f_f4_simulator,(void*)&f_f4);
fr = ((float (*) (float,float,float,float)) callback_code) (f1,f2,f3,f4);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",fr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 11
fr = f_f8(f1,f2,f3,f4,f5,f6,f7,f8);
fprintf(out,"->%g\n",fr);
fflush(out);
fr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_float);
PREP_CALLBACK(cif,f_f8_simulator,(void*)&f_f8);
fr = ((float (*) (float,float,float,float,float,float,float,float)) callback_code) (f1,f2,f3,f4,f5,f6,f7,f8);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",fr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 12
fr = f_f16(f1,f2,f3,f4,f5,f6,f7,f8,f9,f10,f11,f12,f13,f14,f15,f16);
fprintf(out,"->%g\n",fr);
fflush(out);
fr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_float);
PREP_CALLBACK(cif,f_f16_simulator,(void*)&f_f16);
fr = ((float (*) (float,float,float,float,float,float,float,float,float,float,float,float,float,float,float,float)) callback_code) (f1,f2,f3,f4,f5,f6,f7,f8,f9,f10,f11,f12,f13,f14,f15,f16);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",fr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 13
fr = f_f24(f1,f2,f3,f4,f5,f6,f7,f8,f9,f10,f11,f12,f13,f14,f15,f16,f17,f18,f19,f20,f21,f22,f23,f24);
fprintf(out,"->%g\n",fr);
fflush(out);
fr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_float);
PREP_CALLBACK(cif,f_f24_simulator,(void*)&f_f24);
fr = ((float (*) (float,float,float,float,float,float,float,float,float,float,float,float,float,float,float,float,float,float,float,float,float,float,float,float)) callback_code) (f1,f2,f3,f4,f5,f6,f7,f8,f9,f10,f11,f12,f13,f14,f15,f16,f17,f18,f19,f20,f21,f22,f23,f24);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",fr);
fflush(out);
#endif
}
/* double tests */
{ double dr;
#if (!defined(DGTEST)) || DGTEST == 14
dr = d_d(d1);
fprintf(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_double };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_d_simulator,(void*)&d_d);
dr = ((double (*) (double)) callback_code) (d1);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",dr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 15
dr = d_d2(d1,d2);
fprintf(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_double, &ffi_type_double };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_d2_simulator,(void*)&d_d2);
dr = ((double (*) (double,double)) callback_code) (d1,d2);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",dr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 16
dr = d_d4(d1,d2,d3,d4);
fprintf(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_d4_simulator,(void*)&d_d4);
dr = ((double (*) (double,double,double,double)) callback_code) (d1,d2,d3,d4);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",dr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 17
dr = d_d8(d1,d2,d3,d4,d5,d6,d7,d8);
fprintf(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_d8_simulator,(void*)&d_d8);
dr = ((double (*) (double,double,double,double,double,double,double,double)) callback_code) (d1,d2,d3,d4,d5,d6,d7,d8);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",dr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 18
dr = d_d16(d1,d2,d3,d4,d5,d6,d7,d8,d9,d10,d11,d12,d13,d14,d15,d16);
fprintf(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_d16_simulator,(void*)&d_d16);
dr = ((double (*) (double,double,double,double,double,double,double,double,double,double,double,double,double,double,double,double)) callback_code) (d1,d2,d3,d4,d5,d6,d7,d8,d9,d10,d11,d12,d13,d14,d15,d16);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",dr);
fflush(out);
#endif
}
/* pointer tests */
{ void* vpr;
#if (!defined(DGTEST)) || DGTEST == 19
vpr = vp_vpdpcpsp(&uc1,&d2,str3,&I4);
fprintf(out,"->0x%p\n",vpr);
fflush(out);
vpr = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_pointer, &ffi_type_pointer, &ffi_type_pointer, &ffi_type_pointer };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_pointer);
PREP_CALLBACK(cif,vp_vpdpcpsp_simulator,(void*)&vp_vpdpcpsp);
vpr = ((void* (*) (void*,double*,char*,Int*)) callback_code) (&uc1,&d2,str3,&I4);
}
FREE_CALLBACK();
FPRINTF(out,"->0x%p\n",vpr);
fflush(out);
#endif
}
/* mixed number tests */
{ uchar ucr;
ushort usr;
float fr;
double dr;
long long llr;
#if (!defined(DGTEST)) || DGTEST == 20
ucr = uc_ucsil(uc1,us2,ui3,ul4);
fprintf(out,"->%u\n",ucr);
fflush(out);
ucr = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_uchar, &ffi_type_ushort, &ffi_type_uint, &ffi_type_ulong };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_uchar);
PREP_CALLBACK(cif,uc_ucsil_simulator,(void*)&uc_ucsil);
ucr = ((uchar (*) (uchar,ushort,uint,ulong)) callback_code) (uc1,us2,ui3,ul4);
}
FREE_CALLBACK();
FPRINTF(out,"->%u\n",ucr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 21
dr = d_iidd(i1,i2,d3,d4);
fprintf(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_sint, &ffi_type_sint, &ffi_type_double, &ffi_type_double };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_iidd_simulator,(void*)&d_iidd);
dr = ((double (*) (int,int,double,double)) callback_code) (i1,i2,d3,d4);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",dr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 22
dr = d_iiidi(i1,i2,i3,d4,i5);
fprintf(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_sint, &ffi_type_sint, &ffi_type_sint, &ffi_type_double, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_iiidi_simulator,(void*)&d_iiidi);
dr = ((double (*) (int,int,int,double,int)) callback_code) (i1,i2,i3,d4,i5);
}
FREE_CALLBACK();
fprintf(out,"->%g\n",dr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 23
dr = d_idid(i1,d2,i3,d4);
FPRINTF(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_sint, &ffi_type_double, &ffi_type_sint, &ffi_type_double };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_idid_simulator,(void*)&d_idid);
dr = ((double (*) (int,double,int,double)) callback_code) (i1,d2,i3,d4);
}
FREE_CALLBACK();
fprintf(out,"->%g\n",dr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 24
dr = d_fdi(f1,d2,i3);
FPRINTF(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_float, &ffi_type_double, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_fdi_simulator,(void*)&d_fdi);
dr = ((double (*) (float,double,int)) callback_code) (f1,d2,i3);
}
FREE_CALLBACK();
fprintf(out,"->%g\n",dr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 25
usr = us_cdcd(c1,d2,c3,d4);
FPRINTF(out,"->%u\n",usr);
fflush(out);
usr = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_char, &ffi_type_double, &ffi_type_char, &ffi_type_double };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_ushort);
PREP_CALLBACK(cif,us_cdcd_simulator,(void*)&us_cdcd);
usr = ((ushort (*) (char,double,char,double)) callback_code) (c1,d2,c3,d4);
}
FREE_CALLBACK();
fprintf(out,"->%u\n",usr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 26
llr = ll_iiilli(i1,i2,i3,ll1,i13);
FPRINTF(out,"->0x%lx%08lx\n",(long)(llr>>32),(long)(llr&0xffffffff));
fflush(out);
llr = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_sint, &ffi_type_sint, &ffi_type_sint, &ffi_type_slonglong, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_slonglong);
PREP_CALLBACK(cif,ll_iiilli_simulator,(void*)&ll_iiilli);
llr = ((long long (*) (int,int,int,long long,int)) callback_code) (i1,i2,i3,ll1,i13);
}
FREE_CALLBACK();
FPRINTF(out,"->0x%lx%08lx\n",(long)(llr>>32),(long)(llr&0xffffffff));
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 27
llr = ll_flli(f13,ll1,i13);
FPRINTF(out,"->0x%lx%08lx\n",(long)(llr>>32),(long)(llr&0xffffffff));
fflush(out);
llr = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_float, &ffi_type_slonglong, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_slonglong);
PREP_CALLBACK(cif,ll_flli_simulator,(void*)&ll_flli);
llr = ((long long (*) (float,long long,int)) callback_code) (f13,ll1,i13);
}
FREE_CALLBACK();
FPRINTF(out,"->0x%lx%08lx\n",(long)(llr>>32),(long)(llr&0xffffffff));
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 28
fr = f_fi(f1,i9);
FPRINTF(out,"->%g\n",fr);
fflush(out);
fr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_float, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_float);
PREP_CALLBACK(cif,f_fi_simulator,(void*)&f_fi);
fr = ((float (*) (float,int)) callback_code) (f1,i9);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",fr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 29
fr = f_f2i(f1,f2,i9);
FPRINTF(out,"->%g\n",fr);
fflush(out);
fr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_float, &ffi_type_float, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_float);
PREP_CALLBACK(cif,f_f2i_simulator,(void*)&f_f2i);
fr = ((float (*) (float,float,int)) callback_code) (f1,f2,i9);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",fr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 30
fr = f_f3i(f1,f2,f3,i9);
FPRINTF(out,"->%g\n",fr);
fflush(out);
fr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_float);
PREP_CALLBACK(cif,f_f3i_simulator,(void*)&f_f3i);
fr = ((float (*) (float,float,float,int)) callback_code) (f1,f2,f3,i9);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",fr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 31
fr = f_f4i(f1,f2,f3,f4,i9);
FPRINTF(out,"->%g\n",fr);
fflush(out);
fr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_float);
PREP_CALLBACK(cif,f_f4i_simulator,(void*)&f_f4i);
fr = ((float (*) (float,float,float,float,int)) callback_code) (f1,f2,f3,f4,i9);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",fr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 32
fr = f_f7i(f1,f2,f3,f4,f5,f6,f7,i9);
FPRINTF(out,"->%g\n",fr);
fflush(out);
fr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_float);
PREP_CALLBACK(cif,f_f7i_simulator,(void*)&f_f7i);
fr = ((float (*) (float,float,float,float,float,float,float,int)) callback_code) (f1,f2,f3,f4,f5,f6,f7,i9);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",fr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 33
fr = f_f8i(f1,f2,f3,f4,f5,f6,f7,f8,i9);
FPRINTF(out,"->%g\n",fr);
fflush(out);
fr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_float);
PREP_CALLBACK(cif,f_f8i_simulator,(void*)&f_f8i);
fr = ((float (*) (float,float,float,float,float,float,float,float,int)) callback_code) (f1,f2,f3,f4,f5,f6,f7,f8,i9);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",fr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 34
fr = f_f13i(f1,f2,f3,f4,f5,f6,f7,f8,f9,f10,f11,f12,f13,i9);
FPRINTF(out,"->%g\n",fr);
fflush(out);
fr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_float);
PREP_CALLBACK(cif,f_f13i_simulator,(void*)&f_f13i);
fr = ((float (*) (float,float,float,float,float,float,float,float,float,float,float,float,float,int)) callback_code) (f1,f2,f3,f4,f5,f6,f7,f8,f9,f10,f11,f12,f13,i9);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",fr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 35
dr = d_di(d1,i9);
FPRINTF(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_double, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_di_simulator,(void*)&d_di);
dr = ((double (*) (double,int)) callback_code) (d1,i9);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",dr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 36
dr = d_d2i(d1,d2,i9);
FPRINTF(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_double, &ffi_type_double, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_d2i_simulator,(void*)&d_d2i);
dr = ((double (*) (double,double,int)) callback_code) (d1,d2,i9);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",dr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 37
dr = d_d3i(d1,d2,d3,i9);
FPRINTF(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_d3i_simulator,(void*)&d_d3i);
dr = ((double (*) (double,double,double,int)) callback_code) (d1,d2,d3,i9);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",dr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 38
dr = d_d4i(d1,d2,d3,d4,i9);
FPRINTF(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_d4i_simulator,(void*)&d_d4i);
dr = ((double (*) (double,double,double,double,int)) callback_code) (d1,d2,d3,d4,i9);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",dr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 39
dr = d_d7i(d1,d2,d3,d4,d5,d6,d7,i9);
FPRINTF(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_d7i_simulator,(void*)&d_d7i);
dr = ((double (*) (double,double,double,double,double,double,double,int)) callback_code) (d1,d2,d3,d4,d5,d6,d7,i9);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",dr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 40
dr = d_d8i(d1,d2,d3,d4,d5,d6,d7,d8,i9);
FPRINTF(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_d8i_simulator,(void*)&d_d8i);
dr = ((double (*) (double,double,double,double,double,double,double,double,int)) callback_code) (d1,d2,d3,d4,d5,d6,d7,d8,i9);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",dr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 41
dr = d_d12i(d1,d2,d3,d4,d5,d6,d7,d8,d9,d10,d11,d12,i9);
FPRINTF(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_d12i_simulator,(void*)&d_d12i);
dr = ((double (*) (double,double,double,double,double,double,double,double,double,double,double,double,int)) callback_code) (d1,d2,d3,d4,d5,d6,d7,d8,d9,d10,d11,d12,i9);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",dr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 42
dr = d_d13i(d1,d2,d3,d4,d5,d6,d7,d8,d9,d10,d11,d12,d13,i9);
FPRINTF(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_sint };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_d13i_simulator,(void*)&d_d13i);
dr = ((double (*) (double,double,double,double,double,double,double,double,double,double,double,double,double,int)) callback_code) (d1,d2,d3,d4,d5,d6,d7,d8,d9,d10,d11,d12,d13,i9);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",dr);
fflush(out);
#endif
}
/* small structure return tests */
#if (!defined(DGTEST)) || DGTEST == 43
{
Size1 r = S1_v();
FPRINTF(out,"->{%c}\n",r.x1);
fflush(out);
memset(&r,0,sizeof(r)); clear_traces();
ALLOC_CALLBACK();
{
ffi_type* ffi_type_Size1_elements[] = { &ffi_type_char, NULL };
ffi_type ffi_type_Size1;
ffi_type_Size1.type = FFI_TYPE_STRUCT;
ffi_type_Size1.size = sizeof(Size1);
ffi_type_Size1.alignment = alignof_slot(Size1);
ffi_type_Size1.elements = ffi_type_Size1_elements;
ffi_cif cif;
FFI_PREP_CIF_NOARGS(cif,ffi_type_Size1);
PREP_CALLBACK(cif,S1_v_simulator,(void*)&S1_v);
r = ((Size1 (*) (void)) callback_code) ();
}
FREE_CALLBACK();
FPRINTF(out,"->{%c}\n",r.x1);
fflush(out);
}
#endif
#if (!defined(DGTEST)) || DGTEST == 44
{
Size2 r = S2_v();
FPRINTF(out,"->{%c%c}\n",r.x1,r.x2);
fflush(out);
memset(&r,0,sizeof(r)); clear_traces();
ALLOC_CALLBACK();
{
ffi_type* ffi_type_Size2_elements[] = { &ffi_type_char, &ffi_type_char, NULL };
ffi_type ffi_type_Size2;
ffi_type_Size2.type = FFI_TYPE_STRUCT;
ffi_type_Size2.size = sizeof(Size2);
ffi_type_Size2.alignment = alignof_slot(Size2);
ffi_type_Size2.elements = ffi_type_Size2_elements;
ffi_cif cif;
FFI_PREP_CIF_NOARGS(cif,ffi_type_Size2);
PREP_CALLBACK(cif,S2_v_simulator,(void*)&S2_v);
r = ((Size2 (*) (void)) callback_code) ();
}
FREE_CALLBACK();
FPRINTF(out,"->{%c%c}\n",r.x1,r.x2);
fflush(out);
}
#endif
#if (!defined(DGTEST)) || DGTEST == 45
{
Size3 r = S3_v();
FPRINTF(out,"->{%c%c%c}\n",r.x1,r.x2,r.x3);
fflush(out);
memset(&r,0,sizeof(r)); clear_traces();
ALLOC_CALLBACK();
{
ffi_type* ffi_type_Size3_elements[] = { &ffi_type_char, &ffi_type_char, &ffi_type_char, NULL };
ffi_type ffi_type_Size3;
ffi_type_Size3.type = FFI_TYPE_STRUCT;
ffi_type_Size3.size = sizeof(Size3);
ffi_type_Size3.alignment = alignof_slot(Size3);
ffi_type_Size3.elements = ffi_type_Size3_elements;
ffi_cif cif;
FFI_PREP_CIF_NOARGS(cif,ffi_type_Size3);
PREP_CALLBACK(cif,S3_v_simulator,(void*)&S3_v);
r = ((Size3 (*) (void)) callback_code) ();
}
FREE_CALLBACK();
FPRINTF(out,"->{%c%c%c}\n",r.x1,r.x2,r.x3);
fflush(out);
}
#endif
#if (!defined(DGTEST)) || DGTEST == 46
{
Size4 r = S4_v();
FPRINTF(out,"->{%c%c%c%c}\n",r.x1,r.x2,r.x3,r.x4);
fflush(out);
memset(&r,0,sizeof(r)); clear_traces();
ALLOC_CALLBACK();
{
ffi_type* ffi_type_Size4_elements[] = { &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, NULL };
ffi_type ffi_type_Size4;
ffi_type_Size4.type = FFI_TYPE_STRUCT;
ffi_type_Size4.size = sizeof(Size4);
ffi_type_Size4.alignment = alignof_slot(Size4);
ffi_type_Size4.elements = ffi_type_Size4_elements;
ffi_cif cif;
FFI_PREP_CIF_NOARGS(cif,ffi_type_Size4);
PREP_CALLBACK(cif,S4_v_simulator,(void*)&S4_v);
r = ((Size4 (*) (void)) callback_code) ();
}
FREE_CALLBACK();
FPRINTF(out,"->{%c%c%c%c}\n",r.x1,r.x2,r.x3,r.x4);
fflush(out);
}
#endif
#if (!defined(DGTEST)) || DGTEST == 47
{
Size7 r = S7_v();
FPRINTF(out,"->{%c%c%c%c%c%c%c}\n",r.x1,r.x2,r.x3,r.x4,r.x5,r.x6,r.x7);
fflush(out);
memset(&r,0,sizeof(r)); clear_traces();
ALLOC_CALLBACK();
{
ffi_type* ffi_type_Size7_elements[] = { &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, NULL };
ffi_type ffi_type_Size7;
ffi_type_Size7.type = FFI_TYPE_STRUCT;
ffi_type_Size7.size = sizeof(Size7);
ffi_type_Size7.alignment = alignof_slot(Size7);
ffi_type_Size7.elements = ffi_type_Size7_elements;
ffi_cif cif;
FFI_PREP_CIF_NOARGS(cif,ffi_type_Size7);
PREP_CALLBACK(cif,S7_v_simulator,(void*)&S7_v);
r = ((Size7 (*) (void)) callback_code) ();
}
FREE_CALLBACK();
FPRINTF(out,"->{%c%c%c%c%c%c%c}\n",r.x1,r.x2,r.x3,r.x4,r.x5,r.x6,r.x7);
fflush(out);
}
#endif
#if (!defined(DGTEST)) || DGTEST == 48
{
Size8 r = S8_v();
FPRINTF(out,"->{%c%c%c%c%c%c%c%c}\n",r.x1,r.x2,r.x3,r.x4,r.x5,r.x6,r.x7,r.x8);
fflush(out);
memset(&r,0,sizeof(r)); clear_traces();
ALLOC_CALLBACK();
{
ffi_type* ffi_type_Size8_elements[] = { &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, NULL };
ffi_type ffi_type_Size8;
ffi_type_Size8.type = FFI_TYPE_STRUCT;
ffi_type_Size8.size = sizeof(Size8);
ffi_type_Size8.alignment = alignof_slot(Size8);
ffi_type_Size8.elements = ffi_type_Size8_elements;
ffi_cif cif;
FFI_PREP_CIF_NOARGS(cif,ffi_type_Size8);
PREP_CALLBACK(cif,S8_v_simulator,(void*)&S8_v);
r = ((Size8 (*) (void)) callback_code) ();
}
FREE_CALLBACK();
FPRINTF(out,"->{%c%c%c%c%c%c%c%c}\n",r.x1,r.x2,r.x3,r.x4,r.x5,r.x6,r.x7,r.x8);
fflush(out);
}
#endif
#if (!defined(DGTEST)) || DGTEST == 49
{
Size12 r = S12_v();
FPRINTF(out,"->{%c%c%c%c%c%c%c%c%c%c%c%c}\n",r.x1,r.x2,r.x3,r.x4,r.x5,r.x6,r.x7,r.x8,r.x9,r.x10,r.x11,r.x12);
fflush(out);
memset(&r,0,sizeof(r)); clear_traces();
ALLOC_CALLBACK();
{
ffi_type* ffi_type_Size12_elements[] = { &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, NULL };
ffi_type ffi_type_Size12;
ffi_type_Size12.type = FFI_TYPE_STRUCT;
ffi_type_Size12.size = sizeof(Size12);
ffi_type_Size12.alignment = alignof_slot(Size12);
ffi_type_Size12.elements = ffi_type_Size12_elements;
ffi_cif cif;
FFI_PREP_CIF_NOARGS(cif,ffi_type_Size12);
PREP_CALLBACK(cif,S12_v_simulator,(void*)&S12_v);
r = ((Size12 (*) (void)) callback_code) ();
}
FREE_CALLBACK();
FPRINTF(out,"->{%c%c%c%c%c%c%c%c%c%c%c%c}\n",r.x1,r.x2,r.x3,r.x4,r.x5,r.x6,r.x7,r.x8,r.x9,r.x10,r.x11,r.x12);
fflush(out);
}
#endif
#if (!defined(DGTEST)) || DGTEST == 50
{
Size15 r = S15_v();
FPRINTF(out,"->{%c%c%c%c%c%c%c%c%c%c%c%c%c%c%c}\n",r.x1,r.x2,r.x3,r.x4,r.x5,r.x6,r.x7,r.x8,r.x9,r.x10,r.x11,r.x12,r.x13,r.x14,r.x15);
fflush(out);
memset(&r,0,sizeof(r)); clear_traces();
ALLOC_CALLBACK();
{
ffi_type* ffi_type_Size15_elements[] = { &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, NULL };
ffi_type ffi_type_Size15;
ffi_type_Size15.type = FFI_TYPE_STRUCT;
ffi_type_Size15.size = sizeof(Size15);
ffi_type_Size15.alignment = alignof_slot(Size15);
ffi_type_Size15.elements = ffi_type_Size15_elements;
ffi_cif cif;
FFI_PREP_CIF_NOARGS(cif,ffi_type_Size15);
PREP_CALLBACK(cif,S15_v_simulator,(void*)&S15_v);
r = ((Size15 (*) (void)) callback_code) ();
}
FREE_CALLBACK();
FPRINTF(out,"->{%c%c%c%c%c%c%c%c%c%c%c%c%c%c%c}\n",r.x1,r.x2,r.x3,r.x4,r.x5,r.x6,r.x7,r.x8,r.x9,r.x10,r.x11,r.x12,r.x13,r.x14,r.x15);
fflush(out);
}
#endif
#if (!defined(DGTEST)) || DGTEST == 51
{
Size16 r = S16_v();
FPRINTF(out,"->{%c%c%c%c%c%c%c%c%c%c%c%c%c%c%c%c}\n",r.x1,r.x2,r.x3,r.x4,r.x5,r.x6,r.x7,r.x8,r.x9,r.x10,r.x11,r.x12,r.x13,r.x14,r.x15,r.x16);
fflush(out);
memset(&r,0,sizeof(r)); clear_traces();
ALLOC_CALLBACK();
{
ffi_type* ffi_type_Size16_elements[] = { &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, &ffi_type_char, NULL };
ffi_type ffi_type_Size16;
ffi_type_Size16.type = FFI_TYPE_STRUCT;
ffi_type_Size16.size = sizeof(Size16);
ffi_type_Size16.alignment = alignof_slot(Size16);
ffi_type_Size16.elements = ffi_type_Size16_elements;
ffi_cif cif;
FFI_PREP_CIF_NOARGS(cif,ffi_type_Size16);
PREP_CALLBACK(cif,S16_v_simulator,(void*)&S16_v);
r = ((Size16 (*) (void)) callback_code) ();
}
FREE_CALLBACK();
FPRINTF(out,"->{%c%c%c%c%c%c%c%c%c%c%c%c%c%c%c%c}\n",r.x1,r.x2,r.x3,r.x4,r.x5,r.x6,r.x7,r.x8,r.x9,r.x10,r.x11,r.x12,r.x13,r.x14,r.x15,r.x16);
fflush(out);
}
#endif
/* structure tests */
{ Int Ir;
Char Cr;
Float Fr;
Double Dr;
J Jr;
#ifndef SKIP_EXTRA_STRUCTS
T Tr;
X Xr;
#endif
#if (!defined(DGTEST)) || DGTEST == 52
Ir = I_III(I1,I2,I3);
FPRINTF(out,"->{%d}\n",Ir.x);
fflush(out);
Ir.x = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* ffi_type_Int_elements[] = { &ffi_type_sint, NULL };
ffi_type ffi_type_Int;
ffi_type_Int.type = FFI_TYPE_STRUCT;
ffi_type_Int.size = sizeof(Int);
ffi_type_Int.alignment = alignof_slot(Int);
ffi_type_Int.elements = ffi_type_Int_elements;
ffi_type* argtypes[] = { &ffi_type_Int, &ffi_type_Int, &ffi_type_Int };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_Int);
PREP_CALLBACK(cif,I_III_simulator,(void*)&I_III);
Ir = ((Int (*) (Int,Int,Int)) callback_code) (I1,I2,I3);
}
FREE_CALLBACK();
FPRINTF(out,"->{%d}\n",Ir.x);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 53
Cr = C_CdC(C1,d2,C3);
FPRINTF(out,"->{'%c'}\n",Cr.x);
fflush(out);
Cr.x = '\0'; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* ffi_type_Char_elements[] = { &ffi_type_char, NULL };
ffi_type ffi_type_Char;
ffi_type_Char.type = FFI_TYPE_STRUCT;
ffi_type_Char.size = sizeof(Char);
ffi_type_Char.alignment = alignof_slot(Char);
ffi_type_Char.elements = ffi_type_Char_elements;
ffi_type* argtypes[] = { &ffi_type_Char, &ffi_type_double, &ffi_type_Char };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_Char);
PREP_CALLBACK(cif,C_CdC_simulator,(void*)&C_CdC);
Cr = ((Char (*) (Char,double,Char)) callback_code) (C1,d2,C3);
}
FREE_CALLBACK();
FPRINTF(out,"->{'%c'}\n",Cr.x);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 54
Fr = F_Ffd(F1,f2,d3);
FPRINTF(out,"->{%g}\n",Fr.x);
fflush(out);
Fr.x = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* ffi_type_Float_elements[] = { &ffi_type_float, NULL };
ffi_type ffi_type_Float;
ffi_type_Float.type = FFI_TYPE_STRUCT;
ffi_type_Float.size = sizeof(Float);
ffi_type_Float.alignment = alignof_slot(Float);
ffi_type_Float.elements = ffi_type_Float_elements;
ffi_type* argtypes[] = { &ffi_type_Float, &ffi_type_float, &ffi_type_double };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_Float);
PREP_CALLBACK(cif,F_Ffd_simulator,(void*)&F_Ffd);
Fr = ((Float (*) (Float,float,double)) callback_code) (F1,f2,d3);
}
FREE_CALLBACK();
FPRINTF(out,"->{%g}\n",Fr.x);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 55
Dr = D_fDd(f1,D2,d3);
FPRINTF(out,"->{%g}\n",Dr.x);
fflush(out);
Dr.x = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* ffi_type_Double_elements[] = { &ffi_type_double, NULL };
ffi_type ffi_type_Double;
ffi_type_Double.type = FFI_TYPE_STRUCT;
ffi_type_Double.size = sizeof(Double);
ffi_type_Double.alignment = alignof_slot(Double);
ffi_type_Double.elements = ffi_type_Double_elements;
ffi_type* argtypes[] = { &ffi_type_float, &ffi_type_Double, &ffi_type_double };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_Double);
PREP_CALLBACK(cif,D_fDd_simulator,(void*)&D_fDd);
Dr = ((Double (*) (float,Double,double)) callback_code) (f1,D2,d3);
}
FREE_CALLBACK();
FPRINTF(out,"->{%g}\n",Dr.x);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 56
Dr = D_Dfd(D1,f2,d3);
FPRINTF(out,"->{%g}\n",Dr.x);
fflush(out);
Dr.x = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* ffi_type_Double_elements[] = { &ffi_type_double, NULL };
ffi_type ffi_type_Double;
ffi_type_Double.type = FFI_TYPE_STRUCT;
ffi_type_Double.size = sizeof(Double);
ffi_type_Double.alignment = alignof_slot(Double);
ffi_type_Double.elements = ffi_type_Double_elements;
ffi_type* argtypes[] = { &ffi_type_Double, &ffi_type_float, &ffi_type_double };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_Double);
PREP_CALLBACK(cif,D_Dfd_simulator,(void*)&D_Dfd);
Dr = ((Double (*) (Double,float,double)) callback_code) (D1,f2,d3);
}
FREE_CALLBACK();
FPRINTF(out,"->{%g}\n",Dr.x);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 57
Jr = J_JiJ(J1,i2,J2);
FPRINTF(out,"->{%ld,%ld}\n",Jr.l1,Jr.l2);
fflush(out);
Jr.l1 = Jr.l2 = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* ffi_type_J_elements[] = { &ffi_type_slong, &ffi_type_slong, NULL };
ffi_type ffi_type_J;
ffi_type_J.type = FFI_TYPE_STRUCT;
ffi_type_J.size = sizeof(J);
ffi_type_J.alignment = alignof_slot(J);
ffi_type_J.elements = ffi_type_J_elements;
ffi_type* argtypes[] = { &ffi_type_J, &ffi_type_sint, &ffi_type_J };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_J);
PREP_CALLBACK(cif,J_JiJ_simulator,(void*)&J_JiJ);
Jr = ((J (*) (J,int,J)) callback_code) (J1,i2,J2);
}
FREE_CALLBACK();
FPRINTF(out,"->{%ld,%ld}\n",Jr.l1,Jr.l2);
fflush(out);
#endif
#ifndef SKIP_EXTRA_STRUCTS
#if (!defined(DGTEST)) || DGTEST == 58
Tr = T_TcT(T1,' ',T2);
FPRINTF(out,"->{\"%c%c%c\"}\n",Tr.c[0],Tr.c[1],Tr.c[2]);
fflush(out);
Tr.c[0] = Tr.c[1] = Tr.c[2] = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* ffi_type_T_elements[] = { ??, NULL };
ffi_type ffi_type_T;
ffi_type_T.type = FFI_TYPE_STRUCT;
ffi_type_T.size = sizeof(T);
ffi_type_T.alignment = alignof_slot(T);
ffi_type_T.elements = ffi_type_T_elements;
ffi_type* argtypes[] = { &ffi_type_T, &ffi_type_char, &ffi_type_T };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_T);
PREP_CALLBACK(cif,T_TcT_simulator,(void*)&T_TcT);
Tr = ((T (*) (T,char,T)) callback_code) (T1,' ',T2);
}
FREE_CALLBACK();
FPRINTF(out,"->{\"%c%c%c\"}\n",Tr.c[0],Tr.c[1],Tr.c[2]);
fflush(out);
#endif
#ifndef SKIP_X
#if (!defined(DGTEST)) || DGTEST == 59
Xr = X_BcdB(B1,c2,d3,B2);
FPRINTF(out,"->{\"%s\",'%c'}\n",Xr.c,Xr.c1);
fflush(out);
Xr.c[0]=Xr.c1='\0'; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* ffi_type_X_elements[] = { ??, NULL };
ffi_type ffi_type_X;
ffi_type_X.type = FFI_TYPE_STRUCT;
ffi_type_X.size = sizeof(X);
ffi_type_X.alignment = alignof_slot(X);
ffi_type_X.elements = ffi_type_X_elements;
ffi_type* argtypes[] = { &ffi_type_X, &ffi_type_char, &ffi_type_double, &ffi_type_X };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_X);
PREP_CALLBACK(cif,X_BcdB_simulator,(void*)&X_BcdB);
Xr = ((X (*) (B,char,double,B)) callback_code) (B1,c2,d3,B2);
}
FREE_CALLBACK();
FPRINTF(out,"->{\"%s\",'%c'}\n",Xr.c,Xr.c1);
fflush(out);
#endif
#endif
#endif
}
/* gpargs boundary tests */
{
ffi_type* ffi_type_K_elements[] = { &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, NULL };
ffi_type ffi_type_K;
ffi_type* ffi_type_L_elements[] = { &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, NULL };
ffi_type ffi_type_L;
long lr;
long long llr;
float fr;
double dr;
ffi_type_K.type = FFI_TYPE_STRUCT;
ffi_type_K.size = sizeof(K);
ffi_type_K.alignment = alignof_slot(K);
ffi_type_K.elements = ffi_type_K_elements;
ffi_type_L.type = FFI_TYPE_STRUCT;
ffi_type_L.size = sizeof(L);
ffi_type_L.alignment = alignof_slot(L);
ffi_type_L.elements = ffi_type_L_elements;
#if (!defined(DGTEST)) || DGTEST == 60
lr = l_l0K(K1,l9);
FPRINTF(out,"->%ld\n",lr);
fflush(out);
lr = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_K, &ffi_type_slong };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_slong);
PREP_CALLBACK(cif,l_l0K_simulator,(void*)l_l0K);
lr = ((long (*) (K,long)) callback_code) (K1,l9);
}
FREE_CALLBACK();
FPRINTF(out,"->%ld\n",lr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 61
lr = l_l1K(l1,K1,l9);
FPRINTF(out,"->%ld\n",lr);
fflush(out);
lr = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_slong, &ffi_type_K, &ffi_type_slong };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_slong);
PREP_CALLBACK(cif,l_l1K_simulator,(void*)l_l1K);
lr = ((long (*) (long,K,long)) callback_code) (l1,K1,l9);
}
FREE_CALLBACK();
FPRINTF(out,"->%ld\n",lr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 62
lr = l_l2K(l1,l2,K1,l9);
FPRINTF(out,"->%ld\n",lr);
fflush(out);
lr = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_slong, &ffi_type_slong, &ffi_type_K, &ffi_type_slong };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_slong);
PREP_CALLBACK(cif,l_l2K_simulator,(void*)l_l2K);
lr = ((long (*) (long,long,K,long)) callback_code) (l1,l2,K1,l9);
}
FREE_CALLBACK();
FPRINTF(out,"->%ld\n",lr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 63
lr = l_l3K(l1,l2,l3,K1,l9);
FPRINTF(out,"->%ld\n",lr);
fflush(out);
lr = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_K, &ffi_type_slong };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_slong);
PREP_CALLBACK(cif,l_l3K_simulator,(void*)l_l3K);
lr = ((long (*) (long,long,long,K,long)) callback_code) (l1,l2,l3,K1,l9);
}
FREE_CALLBACK();
FPRINTF(out,"->%ld\n",lr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 64
lr = l_l4K(l1,l2,l3,l4,K1,l9);
FPRINTF(out,"->%ld\n",lr);
fflush(out);
lr = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_K, &ffi_type_slong };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_slong);
PREP_CALLBACK(cif,l_l4K_simulator,(void*)l_l4K);
lr = ((long (*) (long,long,long,long,K,long)) callback_code) (l1,l2,l3,l4,K1,l9);
}
FREE_CALLBACK();
FPRINTF(out,"->%ld\n",lr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 65
lr = l_l5K(l1,l2,l3,l4,l5,K1,l9);
FPRINTF(out,"->%ld\n",lr);
fflush(out);
lr = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_K, &ffi_type_slong };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_slong);
PREP_CALLBACK(cif,l_l5K_simulator,(void*)l_l5K);
lr = ((long (*) (long,long,long,long,long,K,long)) callback_code) (l1,l2,l3,l4,l5,K1,l9);
}
FREE_CALLBACK();
FPRINTF(out,"->%ld\n",lr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 66
lr = l_l6K(l1,l2,l3,l4,l5,l6,K1,l9);
FPRINTF(out,"->%ld\n",lr);
fflush(out);
lr = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_K, &ffi_type_slong };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_slong);
PREP_CALLBACK(cif,l_l6K_simulator,(void*)l_l6K);
lr = ((long (*) (long,long,long,long,long,long,K,long)) callback_code) (l1,l2,l3,l4,l5,l6,K1,l9);
}
FREE_CALLBACK();
FPRINTF(out,"->%ld\n",lr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 67
fr = f_f17l3L(f1,f2,f3,f4,f5,f6,f7,f8,f9,f10,f11,f12,f13,f14,f15,f16,f17,l6,l7,l8,L1);
FPRINTF(out,"->%g\n",fr);
fflush(out);
fr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_float, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_L };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_float);
PREP_CALLBACK(cif,f_f17l3L_simulator,(void*)&f_f17l3L);
fr = ((float (*) (float,float,float,float,float,float,float,float,float,float,float,float,float,float,float,float,float,long,long,long,L)) callback_code) (f1,f2,f3,f4,f5,f6,f7,f8,f9,f10,f11,f12,f13,f14,f15,f16,f17,l6,l7,l8,L1);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",fr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 68
dr = d_d17l3L(d1,d2,d3,d4,d5,d6,d7,d8,d9,d10,d11,d12,d13,d14,d15,d16,d17,l6,l7,l8,L1);
FPRINTF(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_double, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_L };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_d17l3L_simulator,(void*)&d_d17l3L);
dr = ((double (*) (double,double,double,double,double,double,double,double,double,double,double,double,double,double,double,double,double,long,long,long,L)) callback_code) (d1,d2,d3,d4,d5,d6,d7,d8,d9,d10,d11,d12,d13,d14,d15,d16,d17,l6,l7,l8,L1);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",dr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 69
llr = ll_l2ll(l1,l2,ll1,l9);
FPRINTF(out,"->0x%lx%08lx\n",(long)(llr>>32),(long)(llr&0xffffffff));
fflush(out);
llr = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_slong, &ffi_type_slong, &ffi_type_slonglong, &ffi_type_slong };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_slonglong);
PREP_CALLBACK(cif,ll_l2ll_simulator,(void*)ll_l2ll);
llr = ((long long (*) (long,long,long long,long)) callback_code) (l1,l2,ll1,l9);
}
FREE_CALLBACK();
FPRINTF(out,"->0x%lx%08lx\n",(long)(llr>>32),(long)(llr&0xffffffff));
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 70
llr = ll_l3ll(l1,l2,l3,ll1,l9);
FPRINTF(out,"->0x%lx%08lx\n",(long)(llr>>32),(long)(llr&0xffffffff));
fflush(out);
llr = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slonglong, &ffi_type_slong };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_slonglong);
PREP_CALLBACK(cif,ll_l3ll_simulator,(void*)ll_l3ll);
llr = ((long long (*) (long,long,long,long long,long)) callback_code) (l1,l2,l3,ll1,l9);
}
FREE_CALLBACK();
FPRINTF(out,"->0x%lx%08lx\n",(long)(llr>>32),(long)(llr&0xffffffff));
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 71
llr = ll_l4ll(l1,l2,l3,l4,ll1,l9);
FPRINTF(out,"->0x%lx%08lx\n",(long)(llr>>32),(long)(llr&0xffffffff));
fflush(out);
llr = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slonglong, &ffi_type_slong };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_slonglong);
PREP_CALLBACK(cif,ll_l4ll_simulator,(void*)ll_l4ll);
llr = ((long long (*) (long,long,long,long,long long,long)) callback_code) (l1,l2,l3,l4,ll1,l9);
}
FREE_CALLBACK();
FPRINTF(out,"->0x%lx%08lx\n",(long)(llr>>32),(long)(llr&0xffffffff));
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 72
llr = ll_l5ll(l1,l2,l3,l4,l5,ll1,l9);
FPRINTF(out,"->0x%lx%08lx\n",(long)(llr>>32),(long)(llr&0xffffffff));
fflush(out);
llr = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slonglong, &ffi_type_slong };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_slonglong);
PREP_CALLBACK(cif,ll_l5ll_simulator,(void*)ll_l5ll);
llr = ((long long (*) (long,long,long,long,long,long long,long)) callback_code) (l1,l2,l3,l4,l5,ll1,l9);
}
FREE_CALLBACK();
FPRINTF(out,"->0x%lx%08lx\n",(long)(llr>>32),(long)(llr&0xffffffff));
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 73
llr = ll_l6ll(l1,l2,l3,l4,l5,l6,ll1,l9);
FPRINTF(out,"->0x%lx%08lx\n",(long)(llr>>32),(long)(llr&0xffffffff));
fflush(out);
llr = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slonglong, &ffi_type_slong };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_slonglong);
PREP_CALLBACK(cif,ll_l6ll_simulator,(void*)ll_l6ll);
llr = ((long long (*) (long,long,long,long,long,long,long long,long)) callback_code) (l1,l2,l3,l4,l5,l6,ll1,l9);
}
FREE_CALLBACK();
FPRINTF(out,"->0x%lx%08lx\n",(long)(llr>>32),(long)(llr&0xffffffff));
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 74
llr = ll_l7ll(l1,l2,l3,l4,l5,l6,l7,ll1,l9);
FPRINTF(out,"->0x%lx%08lx\n",(long)(llr>>32),(long)(llr&0xffffffff));
fflush(out);
llr = 0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slonglong, &ffi_type_slong };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_slonglong);
PREP_CALLBACK(cif,ll_l7ll_simulator,(void*)ll_l7ll);
llr = ((long long (*) (long,long,long,long,long,long,long,long long,long)) callback_code) (l1,l2,l3,l4,l5,l6,l7,ll1,l9);
}
FREE_CALLBACK();
FPRINTF(out,"->0x%lx%08lx\n",(long)(llr>>32),(long)(llr&0xffffffff));
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 75
dr = d_l2d(l1,l2,ll1,l9);
FPRINTF(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_slong, &ffi_type_slong, &ffi_type_double, &ffi_type_slong };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_l2d_simulator,(void*)d_l2d);
dr = ((double (*) (long,long,double,long)) callback_code) (l1,l2,ll1,l9);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",dr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 76
dr = d_l3d(l1,l2,l3,ll1,l9);
FPRINTF(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_double, &ffi_type_slong };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_l3d_simulator,(void*)d_l3d);
dr = ((double (*) (long,long,long,double,long)) callback_code) (l1,l2,l3,ll1,l9);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",dr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 77
dr = d_l4d(l1,l2,l3,l4,ll1,l9);
FPRINTF(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_double, &ffi_type_slong };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_l4d_simulator,(void*)d_l4d);
dr = ((double (*) (long,long,long,long,double,long)) callback_code) (l1,l2,l3,l4,ll1,l9);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",dr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 78
dr = d_l5d(l1,l2,l3,l4,l5,ll1,l9);
FPRINTF(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_double, &ffi_type_slong };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_l5d_simulator,(void*)d_l5d);
dr = ((double (*) (long,long,long,long,long,double,long)) callback_code) (l1,l2,l3,l4,l5,ll1,l9);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",dr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 79
dr = d_l6d(l1,l2,l3,l4,l5,l6,ll1,l9);
FPRINTF(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_double, &ffi_type_slong };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_l6d_simulator,(void*)d_l6d);
dr = ((double (*) (long,long,long,long,long,long,double,long)) callback_code) (l1,l2,l3,l4,l5,l6,ll1,l9);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",dr);
fflush(out);
#endif
#if (!defined(DGTEST)) || DGTEST == 80
dr = d_l7d(l1,l2,l3,l4,l5,l6,l7,ll1,l9);
FPRINTF(out,"->%g\n",dr);
fflush(out);
dr = 0.0; clear_traces();
ALLOC_CALLBACK();
{
ffi_type* argtypes[] = { &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_slong, &ffi_type_double, &ffi_type_slong };
ffi_cif cif;
FFI_PREP_CIF(cif,argtypes,ffi_type_double);
PREP_CALLBACK(cif,d_l7d_simulator,(void*)d_l7d);
dr = ((double (*) (long,long,long,long,long,long,long,double,long)) callback_code) (l1,l2,l3,l4,l5,l6,l7,ll1,l9);
}
FREE_CALLBACK();
FPRINTF(out,"->%g\n",dr);
fflush(out);
#endif
}
exit(0);
}