winamp/Src/Plugins/Visualization/vis_avs/evallib/cfunc.c

902 lines
20 KiB
C
Raw Normal View History

2024-09-24 14:54:57 +02:00
#include <windows.h>
#include <stdio.h>
#include <math.h>
#include "Compiler.h"
#include "eval.h"
// these are used by our assembly code
static float g_cmpaddtab[2]={0.0,1.0};
static float g_signs[2]={1.0,-1.0};
static double g_closefact = 0.00001;
static float g_half=0.5;
static float negativezeropointfive=-0.5f;
static float onepointfive=1.5f;
/// functions called by built code
#define SHITCALL __fastcall
#define isnonzero(x) (fabs(x) > g_closefact)
//---------------------------------------------------------------------------------------------------------------
static double SHITCALL _rand(double *x)
{
if (*x < 1.0) *x=1.0;
return (double)(rand()%(int)max(*x,1.0));
}
//---------------------------------------------------------------------------------------------------------------
static double SHITCALL _band(double *var, double *var2)
{
return isnonzero(*var) && isnonzero(*var2) ? 1 : 0;
}
//---------------------------------------------------------------------------------------------------------------
static double SHITCALL _bor(double *var, double *var2)
{
return isnonzero(*var) || isnonzero(*var2) ? 1 : 0;
}
//---------------------------------------------------------------------------------------------------------------
static double SHITCALL _sig(double *x, double *constraint)
{
double t = (1+exp(-*x * (*constraint)));
return isnonzero(t) ? 1.0/t : 0;
}
extern char *g_evallib_visdata;
static double SHITCALL getvis(unsigned char *visdata, int bc, int bw, int ch, int xorv)
{
int x;
int accum=0;
if (ch && ch != 1 && ch != 2) return 0.0;
if (bw < 1) bw=1;
bc-=bw/2;
if (bc < 0)
{
bw+=bc;
bc=0;
}
if (bc > 575) bc=575;
if (bc+bw > 576) bw=576-bc;
if (!ch)
{
for (x = 0; x < bw; x ++)
{
accum+=(visdata[bc]^xorv)-xorv;
accum+=(visdata[bc+576]^xorv)-xorv;
bc++;
}
return (double)accum / ((double)bw*255.0);
}
else
{
if (ch == 2) visdata+=576;
for (x = 0; x < bw; x ++) accum+=(visdata[bc++]^xorv)-xorv;
return (double)accum / ((double)bw*127.5);
}
}
static double SHITCALL getspec_(double *band, double *bandw, double *chan)
{
if (!g_evallib_visdata) return 0.0;
return getvis((unsigned char *)g_evallib_visdata,(int)(*band*576.0),(int)(*bandw*576.0),(int)(*chan+0.5),0)*0.5;
}
static double SHITCALL getosc_(double *band, double *bandw, double *chan)
{
if (!g_evallib_visdata) return 0.0;
return getvis((unsigned char *)g_evallib_visdata+576*2,(int)(*band*576.0),(int)(*bandw*576.0),(int)(*chan+0.5),128);
}
static double SHITCALL gettime_(double *sc)
{
int ispos;
if ((ispos=(*sc > -1.001 && *sc < -0.999)) || (*sc > -2.001 && *sc < -1.999))
{
int pos=0;
extern HWND hwnd_WinampParent;
if (IsWindow(hwnd_WinampParent))
{
if (!SendMessageTimeout( hwnd_WinampParent, WM_USER,(WPARAM)!ispos,(LPARAM)105,SMTO_BLOCK,50,(LPDWORD)&pos)) pos=0;
}
if (!ispos) return (double)pos;
return pos / 1000.0;
}
return GetTickCount()/1000.0 - *sc;
}
static double SHITCALL setmousepos_(double *x, double *y)
{
//fucko: implement me
return 0.0;
}
static double SHITCALL getmouse_(double *which)
{
int w=(int)(*which+0.5);
if (w > 5)
return (GetAsyncKeyState(w)&0x8000)?1.0:0.0;
if (w == 1 || w == 2)
{
double DDraw_translatePoint(POINT p, int isY);
POINT p;
GetCursorPos(&p);
return DDraw_translatePoint(p,w==2);
}
if (w == 3) return (GetAsyncKeyState(MK_LBUTTON)&0x8000)?1.0:0.0;
if (w == 4) return (GetAsyncKeyState(MK_RBUTTON)&0x8000)?1.0:0.0;
if (w == 5) return (GetAsyncKeyState(MK_MBUTTON)&0x8000)?1.0:0.0;
return 0.0;
}
// end functions called by inline code
// these make room on the stack for local variables, but do not need to
// worry about trashing ebp, since none of our code uses ebp and there's
// a pushad+popad surrounding the call
#if 0 // dont seem to need to do this
#define CF_PUSHREGS __asm { push esi } __asm { push edi }
#define CF_POPREGS __asm { pop edi } __asm { pop esi }
#else
#define CF_PUSHREGS
#define CF_POPREGS
#endif
#define FUNC1_ENTER \
double *parm_a, *__nextBlock; \
__asm { mov ebp, esp } \
__asm { sub esp, __LOCAL_SIZE } \
__asm { mov dword ptr parm_a, eax } \
__asm { mov __nextBlock, esi } \
CF_PUSHREGS
#define FUNC2_ENTER \
double *parm_a,*parm_b,*__nextBlock; \
__asm { mov ebp, esp } \
__asm { sub esp, __LOCAL_SIZE } \
__asm { mov dword ptr parm_a, eax } \
__asm { mov dword ptr parm_b, ebx } \
__asm { mov __nextBlock, esi } \
CF_PUSHREGS
#define FUNC3_ENTER \
double *parm_a,*parm_b,*parm_c,*__nextBlock; \
__asm { mov ebp, esp } \
__asm { sub esp, __LOCAL_SIZE } \
__asm { mov dword ptr parm_a, eax } \
__asm { mov dword ptr parm_b, ebx } \
__asm { mov dword ptr parm_c, ecx } \
__asm { mov __nextBlock, esi } \
CF_PUSHREGS
#define FUNC_LEAVE \
__asm { mov eax, esi } \
__asm { add esi, 8 } \
__asm { mov esp, ebp } \
CF_POPREGS
static double (*__asin)(double) = &asin;
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_asin(void)
{
FUNC1_ENTER
*__nextBlock = __asin(*parm_a);
FUNC_LEAVE
}
__declspec ( naked ) void _asm_asin_end(void) {}
static double (*__acos)(double) = &acos;
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_acos(void)
{
FUNC1_ENTER
*__nextBlock = __acos(*parm_a);
FUNC_LEAVE
}
__declspec ( naked ) void _asm_acos_end(void) {}
//---------------------------------------------------------------------------------------------------------------
static double (*__atan)(double) = &atan;
__declspec ( naked ) void _asm_atan(void)
{
FUNC1_ENTER
*__nextBlock = __atan(*parm_a);
FUNC_LEAVE
}
__declspec ( naked ) void _asm_atan_end(void) {}
//---------------------------------------------------------------------------------------------------------------
static double (*__atan2)(double,double) = &atan2;
__declspec ( naked ) void _asm_atan2(void)
{
FUNC2_ENTER
*__nextBlock = __atan2(*parm_b, *parm_a);
FUNC_LEAVE
}
__declspec ( naked ) void _asm_atan2_end(void) {}
//---------------------------------------------------------------------------------------------------------------
static double (SHITCALL * __sig)(double *,double *) = &_sig;
__declspec ( naked ) void _asm_sig(void)
{
FUNC2_ENTER
*__nextBlock = __sig(parm_b, parm_a);
FUNC_LEAVE
}
__declspec ( naked ) void _asm_sig_end(void) {}
//---------------------------------------------------------------------------------------------------------------
static double (SHITCALL *__rand)(double *) = &_rand;
__declspec ( naked ) void _asm_rand(void)
{
FUNC1_ENTER
*__nextBlock = __rand(parm_a);
FUNC_LEAVE
}
__declspec ( naked ) void _asm_rand_end(void) {}
//---------------------------------------------------------------------------------------------------------------
static double (SHITCALL *__band)(double *,double *) = &_band;
__declspec ( naked ) void _asm_band(void)
{
FUNC2_ENTER
*__nextBlock = __band(parm_b, parm_a);
FUNC_LEAVE
}
__declspec ( naked ) void _asm_band_end(void) {}
//---------------------------------------------------------------------------------------------------------------
static double ( SHITCALL *__bor)(double *,double *) = &_bor;
__declspec ( naked ) void _asm_bor(void)
{
FUNC2_ENTER
*__nextBlock = __bor(parm_b, parm_a);
FUNC_LEAVE
}
__declspec ( naked ) void _asm_bor_end(void) {}
//---------------------------------------------------------------------------------------------------------------
static double (* __pow)(double,double) = &pow;
__declspec ( naked ) void _asm_pow(void)
{
FUNC2_ENTER
*__nextBlock = __pow(*parm_b, *parm_a);
FUNC_LEAVE
}
__declspec ( naked ) void _asm_pow_end(void) {}
//---------------------------------------------------------------------------------------------------------------
static double (*__exp)(double) = &exp;
__declspec ( naked ) void _asm_exp(void)
{
FUNC1_ENTER
*__nextBlock = __exp(*parm_a);
FUNC_LEAVE
}
__declspec ( naked ) void _asm_exp_end(void) {}
//---------------------------------------------------------------------------------------------------------------
static double (*__floor)(double) = &floor;
__declspec ( naked ) void _asm_floor(void)
{
FUNC1_ENTER
*__nextBlock = __floor(*parm_a);
FUNC_LEAVE
}
__declspec ( naked ) void _asm_floor_end(void) {}
//---------------------------------------------------------------------------------------------------------------
static double (*__ceil)(double) = &ceil;
__declspec ( naked ) void _asm_ceil(void)
{
FUNC1_ENTER
*__nextBlock = __ceil(*parm_a);
FUNC_LEAVE
}
__declspec ( naked ) void _asm_ceil_end(void) {}
//---------------------------------------------------------------------------------------------------------------
static double (SHITCALL *__getosc)(double *,double *,double *) = &getosc_;
__declspec ( naked ) void _asm_getosc(void)
{
FUNC3_ENTER
*__nextBlock = __getosc(parm_c,parm_b,parm_a);
FUNC_LEAVE
}
__declspec ( naked ) void _asm_getosc_end(void) {}
static double (SHITCALL *__getspec)(double *,double *,double *) = &getspec_;
__declspec ( naked ) void _asm_getspec(void)
{
FUNC3_ENTER
*__nextBlock = __getspec(parm_c,parm_b,parm_a);
FUNC_LEAVE
}
__declspec ( naked ) void _asm_getspec_end(void) {}
static double (SHITCALL *__gettime)(double *) = &gettime_;
__declspec ( naked ) void _asm_gettime(void)
{
FUNC1_ENTER
*__nextBlock = __gettime(parm_a);
FUNC_LEAVE
}
__declspec ( naked ) void _asm_gettime_end(void) {}
// do nothing, eh
__declspec ( naked ) void _asm_exec2(void)
{
}
__declspec ( naked ) void _asm_exec2_end(void) { }
static double (SHITCALL *__getmouse)(double *) = &getmouse_;
__declspec ( naked ) void _asm_getmouse(void)
{
FUNC1_ENTER
*__nextBlock = __getmouse(parm_a);
FUNC_LEAVE
}
__declspec ( naked ) void _asm_getmouse_end(void) {}
static double (SHITCALL *__setmousepos)(double *,double *) = &setmousepos_;
__declspec ( naked ) void _asm_setmousepos(void)
{
FUNC2_ENTER
*__nextBlock = __setmousepos(parm_a,parm_b);
FUNC_LEAVE
}
__declspec ( naked ) void _asm_setmousepos_end(void) {}
__declspec ( naked ) void _asm_invsqrt(void)
{
__asm
{
fld qword ptr [eax]
mov edx, 0x5f3759df
fst dword ptr [esi]
// floating point stack has input, as does [eax]
fmul dword ptr [negativezeropointfive]
mov ecx, [esi]
sar ecx, 1
sub edx, ecx
mov [esi], edx
// st(0) = input, [eax] has x
fmul dword ptr [esi]
fmul dword ptr [esi]
fadd dword ptr [onepointfive]
fmul dword ptr [esi]
mov eax, esi
fstp qword ptr [esi]
add esi, 8
}
}
__declspec ( naked ) void _asm_invsqrt_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_sin(void)
{
__asm
{
fld qword ptr [eax]
fsin
mov eax, esi
fstp qword ptr [esi]
add esi, 8
}
}
__declspec ( naked ) void _asm_sin_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_cos(void)
{
__asm
{
fld qword ptr [eax]
fcos
mov eax, esi
fstp qword ptr [esi]
add esi, 8
}
}
__declspec ( naked ) void _asm_cos_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_tan(void)
{
__asm
{
fld qword ptr [eax]
fsincos
fdiv
mov eax, esi
fstp qword ptr [esi]
add esi, 8
}
}
__declspec ( naked ) void _asm_tan_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_sqr(void)
{
__asm
{
fld qword ptr [eax]
fmul st(0), st(0)
mov eax, esi
fstp qword ptr [esi]
add esi, 8
}
}
__declspec ( naked ) void _asm_sqr_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_sqrt(void)
{
__asm
{
fld qword ptr [eax]
fabs
fsqrt
mov eax, esi
fstp qword ptr [esi]
add esi, 8
}
}
__declspec ( naked ) void _asm_sqrt_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_log(void)
{
__asm
{
fld1
fldl2e
fdiv
fld qword ptr [eax]
mov eax, esi
fyl2x
fstp qword ptr [esi]
add esi, 8
}
}
__declspec ( naked ) void _asm_log_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_log10(void)
{
__asm
{
fld1
fldl2t
fdiv
fld qword ptr [eax]
mov eax, esi
fyl2x
fstp qword ptr [esi]
add esi, 8
}
}
__declspec ( naked ) void _asm_log10_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_abs(void)
{
__asm
{
fld qword ptr [eax]
fabs
mov eax, esi
fstp qword ptr [esi]
add esi, 8
}
}
__declspec ( naked ) void _asm_abs_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_assign(void)
{
__asm
{
fld qword ptr [eax]
fstp qword ptr [ebx]
}
}
__declspec ( naked ) void _asm_assign_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_add(void)
{
__asm
{
fld qword ptr [eax]
fadd qword ptr [ebx]
mov eax, esi
fstp qword ptr [esi]
add esi, 8
}
}
__declspec ( naked ) void _asm_add_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_sub(void)
{
__asm
{
fld qword ptr [ebx]
fsub qword ptr [eax]
mov eax, esi
fstp qword ptr [esi]
add esi, 8
}
}
__declspec ( naked ) void _asm_sub_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_mul(void)
{
__asm
{
fld qword ptr [ebx]
fmul qword ptr [eax]
mov eax, esi
fstp qword ptr [esi]
add esi, 8
}
}
__declspec ( naked ) void _asm_mul_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_div(void)
{
__asm
{
fld qword ptr [ebx]
fdiv qword ptr [eax]
mov eax, esi
fstp qword ptr [esi]
add esi, 8
}
}
__declspec ( naked ) void _asm_div_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_mod(void)
{
__asm
{
fld qword ptr [ebx]
fld qword ptr [eax]
fsub dword ptr [g_cmpaddtab+4]
fabs
fadd qword ptr [eax]
fadd dword ptr [g_cmpaddtab+4]
fmul dword ptr [g_half]
fistp dword ptr [esi]
fistp dword ptr [esi+4]
mov eax, [esi+4]
xor edx, edx
div dword ptr [esi]
mov [esi], edx
fild dword ptr [esi]
mov eax, esi
fstp qword ptr [esi]
add esi, 8
}
}
__declspec ( naked ) void _asm_mod_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_or(void)
{
__asm
{
fld qword ptr [ebx]
fld qword ptr [eax]
fistp qword ptr [esi]
fistp qword ptr [esi+8]
mov ebx, [esi+8]
or [esi], ebx
mov ebx, [esi+12]
or [esi+4], ebx
fild qword ptr [esi]
fstp qword ptr [esi]
mov eax, esi
add esi, 8
}
}
__declspec ( naked ) void _asm_or_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_and(void)
{
__asm
{
fld qword ptr [ebx]
fld qword ptr [eax]
fistp qword ptr [esi]
fistp qword ptr [esi+8]
mov ebx, [esi+8]
and [esi], ebx
mov ebx, [esi+12]
and [esi+4], ebx
fild qword ptr [esi]
fstp qword ptr [esi]
mov eax, esi
add esi, 8
}
}
__declspec ( naked ) void _asm_and_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_uplus(void) // this is the same as doing nothing, it seems
{
#if 0
__asm
{
mov ebx, nextBlock
mov ecx, [eax]
mov [ebx], ecx
mov ecx, [eax+4]
mov [ebx+4], ecx
mov eax, ebx
add ebx, 8
mov nextBlock, ebx
}
#endif
}
__declspec ( naked ) void _asm_uplus_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_uminus(void)
{
__asm
{
mov ecx, [eax]
mov ebx, [eax+4]
xor ebx, 0x80000000
mov [esi], ecx
mov [esi+4], ebx
mov eax, esi
add esi, 8
}
}
__declspec ( naked ) void _asm_uminus_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_sign(void)
{
__asm
{
mov ecx, [eax+4]
shr ecx, 31
fld dword ptr [g_signs+ecx*4]
fstp qword ptr [esi]
mov eax, esi
add esi, 8
}
}
__declspec ( naked ) void _asm_sign_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_bnot(void)
{
__asm
{
fld qword ptr [eax]
fabs
fcomp qword ptr [g_closefact]
fstsw ax
shr eax, 6
and eax, (1<<2)
fld dword ptr [g_cmpaddtab+eax]
fstp qword ptr [esi]
mov eax, esi
add esi, 8
}
}
__declspec ( naked ) void _asm_bnot_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_if(void)
{
__asm
{
fld qword ptr [eax]
fabs
fcomp qword ptr [g_closefact]
fstsw ax
shr eax, 6
mov dword ptr [esi], 0FFFFFFFFh
mov dword ptr [esi+4], 0FFFFFFFFh
and eax, (1<<2)
mov eax, [esi+eax]
call eax // call the proper function
// at this point, the return value will be in eax, as desired
}
}
__declspec ( naked ) void _asm_if_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_equal(void)
{
__asm
{
fld qword ptr [eax]
fsub qword ptr [ebx]
fabs
fcomp qword ptr [g_closefact]
fstsw ax
shr eax, 6
and eax, (1<<2)
fld dword ptr [g_cmpaddtab+eax]
fstp qword ptr [esi]
mov eax, esi
add esi, 8
}
}
__declspec ( naked ) void _asm_equal_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_below(void)
{
__asm
{
fld qword ptr [ebx]
fcomp qword ptr [eax]
fstsw ax
shr eax, 6
and eax, (1<<2)
fld dword ptr [g_cmpaddtab+eax]
fstp qword ptr [esi]
mov eax, esi
add esi, 8
}
}
__declspec ( naked ) void _asm_below_end(void) {}
//---------------------------------------------------------------------------------------------------------------
__declspec ( naked ) void _asm_above(void)
{
__asm
{
fld qword ptr [eax]
fcomp qword ptr [ebx]
fstsw ax
shr eax, 6
and eax, (1<<2)
fld dword ptr [g_cmpaddtab+eax]
fstp qword ptr [esi]
mov eax, esi
add esi, 8
}
}
__declspec ( naked ) void _asm_above_end(void) {}
__declspec ( naked ) void _asm_min(void)
{
__asm
{
fld qword ptr [eax]
fld qword ptr [ebx]
fld st(1)
fsub st(0), st(1)
fabs // stack contains fabs(1-2),1,2
fchs
fadd
fadd
fmul dword ptr [g_half]
fstp qword ptr [esi]
mov eax, esi
add esi, 8
}
}
__declspec ( naked ) void _asm_min_end(void) {}
__declspec ( naked ) void _asm_max(void)
{
__asm
{
fld qword ptr [eax]
fld qword ptr [ebx]
fld st(1)
fsub st(0), st(1)
fabs // stack contains fabs(1-2),1,2
fadd
fadd
fmul dword ptr [g_half]
fstp qword ptr [esi]
mov eax, esi
add esi, 8
}
}
__declspec ( naked ) void _asm_max_end(void) {}