kolibrios/programs/demos/3DS/B_PROCS.INC

;init_envmap_cub2:
;        mov esi,envmap
;        mov edi,envmap_cub    ;take cubic env. map from
;        xor eax,eax           ;spherical env. map
;      @@:
;        add esi,eax
;        movsd
;        dec edi
;        dec esi
;        add esi,511*3
;        add eax,3
;        cmp eax,511*3
;        jl  @b
;ret
init_envmap_cub:	 ; create 512x512 env map
.temp equ word [ebp-2]
	 push	  ebp
	 mov	  ebp,esp
	 sub	  esp,2
	 mov	  edi,envmap_cub
	 fninit

	 mov	  cx,-256
    .ie_hor:
	 mov	  .temp,cx
	 fild	  .temp
	 fabs
  ;      fmul     st,st0
  ;      fsqrt
	 mov	  .temp,255
	 fisubr   .temp
	 fmul	  [env_const]
	 fistp	  .temp
	 mov	  ax,.temp

	 or	 ax,ax
	 jge	 .ie_ok1
	 xor	 ax,ax
	 jmp	 .ie_ok2
  .ie_ok1:
	 cmp	 ax,255
	 jle	 .ie_ok2
	 mov	 ax,255
  .ie_ok2:
	 stosb
	 stosb
	 stosb

	 inc	 cx
	 cmp	 cx,256
	 jne	 .ie_hor

	 mov	 esp,ebp
	 pop	 ebp
ret

calc_one_col:
; procedure don't save registers !!!
; in -   st - dot_product
;        stack - other parameters
; out - eax - 0x00rrggbb
.dot_prd   equ dword[ebp+4]	      ; dot product   - cos x  - not now
.min_col_r equ word[ebp+8]	      ; minimum color - ambient
.min_col_g equ word[ebp+10]
.min_col_b equ word[ebp+12]
.max_col_r equ word[ebp+14]	      ; maximum color - specular
.max_col_g equ word[ebp+16]
.max_col_b equ word[ebp+18]
.org_col_r equ word[ebp+20]	      ; orginal color - diffuse
.org_col_g equ word[ebp+22]
.org_col_b equ word[ebp+24]
.n	   equ word[ebp+26]	      ; shines - not implemented
.temp	   equ word[ebp-2]
.color_sum_r equ dword[ebp-6]
.color_sum_g equ dword[ebp-10]
.color_sum_b equ dword[ebp-14]
; color = ambient+cos(x)*diffuse+(cos(x)^n)*specular
	 mov	 ebp,esp
	 sub	 esp,14

	 mov	  ax,.min_col_r
	 add	  ax,.max_col_r
	 add	  ax,.org_col_r
	 cwde
	 mov	  .color_sum_r,eax

	 mov	  ax,.min_col_g
	 add	  ax,.max_col_g
	 add	  ax,.org_col_g
	 cwde
	 mov	  .color_sum_g,eax

	 mov	  ax,.min_col_b
	 add	  ax,.max_col_b
	 add	  ax,.org_col_b
	 cwde
	 mov	  .color_sum_b,eax


;         fld     .dot_prd
       ;  fild    .n
       ;  fxch    st1
       ;  fabs
       ;  fyl2x                     ;
       ;  f2xm1
       ;  fld1
       ;  faddp        ; st =  dot_product ^ n

	 fld	 st	       ; copy dot pr
	 fmul	 st,st0
	 fmul	 st,st0
	 fmul	 st,st0
	 cmp	 .n,255 	   ; .n = 255 -> spot light
	 jne	 @f
	 fmul	 st,st0
	 fmul	 st,st0
	 fmul	 st,st0
      @@:
	 fld	 st	       ; st0=st1=dot_pr^n, st2=dot_pr
	 fimul	 .max_col_b
	 fild	 .org_col_b
	 fmul	 st,st3
	 faddp		       ; st0=first piece of col, st1=dot_pr^n..
	 fiadd	 .min_col_b
	 fimul	 .max_col_b
	 fidiv	 .color_sum_b
	 fistp	 .temp
	 movzx	 eax,.temp
	 shl	 eax,16

	 fld	 st
	 fimul	 .max_col_g
	 fild	 .org_col_g
	 fmul	 st,st3
	 faddp
	 fiadd	 .min_col_g
	 fimul	 .max_col_g
	 fidiv	 .color_sum_g
	 fistp	 .temp
	 mov	 ax,.temp
	 mov	 ah,al
	 shl	 eax,8

	 fimul	 .max_col_r
	 fild	 .org_col_r
	 fmulp	 st2,st
	 faddp
	 fiadd	 .min_col_r
	 fimul	 .max_col_r
	 fidiv	 .color_sum_r
	 fistp	 .temp
	 mov	 ax,.temp	   ;eax -  0xbbgg00rr
     ;   mov     ah,al
	 ror	 eax,16
	 xchg	 al,ah		   ; eax - 0x00rrggbb
	 mov	 esp,ebp
ret 24

calc_bumpmap:		 ; calculate random bumpmap
;--------------in edi _ pointer to TEX_X x TEX_Y bumpmap

	 push	 edi

	 cmp	 [bumps_flag],0
	 je	 .random_bump_map
	 ; else bumps according to texture
	 mov	 esi,texmap
	 mov	 ecx,TEXTURE_SIZE
      @@:
	 movzx	 ax,byte[esi]
	 movzx	 bx,byte[esi+1]
	 movzx	 dx,byte[esi+2]
	 add	 ax,bx
	 add	 ax,dx
	 cwd
	 div	 [i3]
	 stosb
	 add	 esi,3
	 loop	 @b
	 jmp	 .blur_map
;         push    ecx
;         mov     eax,0x88888888
;         mov     ecx,16/4
;         rep     stosd
;         mov     eax,0xffffffff
;         mov     ecx,16/4
;         rep     stosd
;         pop     ecx
;         loop    @b
  .random_bump_map:

	 mov	 ecx,TEXTURE_SIZE
      @@:
	 push	 ecx
	 xor	 ecx,ecx
	 mov	 edx,255
	 call	 random
	 stosb
	 pop	ecx
	 loop	@b

      .blur_map:
	 pop	edi
	 movzx	ecx,[bumps_deep_flag]
	 inc	cx
      .blur:
	 xor	esi,esi
	 mov	edx,TEXTURE_SIZE
	 xor	eax,eax
	 xor	ebx,ebx
      @@:
	 mov	ebp,esi
	 dec	ebp
	 and	ebp,TEXTURE_SIZE
	 mov	al,byte[ebp+edi]

	 mov	ebp,esi
	 inc	ebp
	 and	ebp,TEXTURE_SIZE
	 mov	bl,byte[ebp+edi]
	 add	eax,ebx

	 mov	ebp,esi
	 sub	ebp,TEX_X
	 and	ebp,TEXTURE_SIZE
	 mov	bl,byte[ebp+edi]
	 add	eax,ebx

	 mov	ebp,esi
	 add	ebp,TEX_X
	 and	ebp,TEXTURE_SIZE
	 mov	bl,byte[ebp+edi]
	 add	eax,ebx

	 shr	eax,2
	 mov	byte[esi+edi],al

	 inc	esi
	 dec	edx
	 jnz	@b

	 loop	.blur
ret
random:
;  in  - ecx - min
;        edx - max
;  out - eax - random number
	 mov	bx,[rand_seed]
	 add	bx,0x9248
	 ror	bx,3
	 mov	[rand_seed],bx

	 mov	ax,dx
	 sub	ax,cx
	 mul	bx
	 mov	ax,dx
	 add	ax,cx
	 cwde
ret

optimize_object1:	 ; setting   point (0,0,0) in center of object
			 ; recalculate all coords , scale object,
			 ;the coords in <-1.0,1.0>
;in :  real_points - table filled of real float dd coordinates (x,y,z), end mark  dd -1
;                  _ global variable
;      points_count_var - dw integer variable with exactly points count
;                       - global variable
;      SIZE_X, SIZE_Y must be defined

.max   equ dword[ebp-4]
.min   equ dword[ebp-8]
.maxxx equ dword[ebp-12]
.center equ dword[ebp-16]

	mov	ebp,esp
	sub	esp,16
	fninit
	mov	.maxxx,0
	mov	ecx,3
	xor	ebx,ebx 	; ebx - x,y,z coord in real_points list
    .next_c:			; max/min/center x,y,z
	mov	edi,[points_ptr]      ; in real_point list minimum two points
	mov	dx,[points_count_var]
	fld	dword[edi+ebx]
	fst	.max
	fstp	.min
	add	edi,12
	dec	dx
    .next_coord:	       ; next coord from real_points list
	fld	dword [edi+ebx]   ; real_points -> x,y,z
	fcom	.max	; max_x,y,z
	fstsw	ax
	sahf
	jbe	@f	       ; jmp less equal
	fstp	.max	; new max_x,y,z
	jmp	.end_coords
     @@:
	fcom	.min	; min_x,y,z
	fstsw	ax
	sahf
	jnbe	@f		; jmp greater
	fst	.min   ; new min_x
    @@:
	ffree	st
    .end_coords:
	add	edi,12
   ;     cmp     dword[edi],-1   ; cmp with end mark
	dec	 dx
	jnz	.next_coord
	; ok after this we found max_coord and min_coord
	fld	.max	      ; find center point
	fadd	.min
	fld1
	fld1
	faddp
	fdivp	st1,st	      ; st0 - center coord
	fstp	.center

	fld	.max
	fsub	.center      ; st = .max - .center
	fcom	.maxxx	    ; maximum of all .max
	fstsw	ax
	sahf
	jbe	@f	    ; jmp lower
	fst	.maxxx	    ; new maxx
    @@:
	ffree	st
	mov	edi,[points_ptr]
	mov	dx,[points_count_var]	; substraction all coords - center point
    @@:
	fld	dword[edi+ebx]
	fsub	.center
	fstp	dword[edi+ebx]
	add	edi,12
;        cmp     dword[edi],-1
;        jne     @b
	dec	 dx
	jnz	 @b

	add	ebx,4		    ; ebx - x,y,z cooficientes in list real_points
	dec	ecx
	jnz	.next_c

	fld	.maxxx
	mov	edi,[points_ptr]   ; create all coords in <-1.0,1.0>
	movzx	ecx,[points_count_var]
     @@:
	fld	dword[edi]
	fdiv	.maxxx
	fstp	dword[edi]
	fld	dword[edi+4]
	fdiv	.maxxx
	fstp	dword[edi+4]
	fld	dword[edi+8]
	fdiv	.maxxx
	fstp	dword[edi+8]
	add	edi,12
	loop	@b
     ;   cmp     dword[edi],-1

     ;   jne     @b

	mov	esp,ebp
ret

generate_object:	 ; generate node
.N	   equ 32
.x	   equ word[ebp-2]
.Ndiv2	   equ word[ebp-10]
.MthickSqr equ dword[ebp-14]   ; diameter^2
.temp	   equ dword[ebp-18]   ; variable for x <-1;1>
.Hthick    equ dword[ebp-22]
.cos_temp  equ dword[ebp-26]
.next_const  equ dword[ebp-30]
.a	     equ dword[ebp-34]
.Pi2	     equ       ebp-38



       mov	ebp,esp
       sub	esp,42

       mov	.Ndiv2,.N/2
       fninit
       fldpi
       fadd	st,st
       fst	dword[.Pi2]
       fidiv	.Ndiv2
       fst	.a			 ; .Ndiv2*.a=2Pi => .a=2pi/.Ndiv2

       fld	[.Mthick]	    ; inside diameter, (outside daiameter = 1)
       fmul	st,st0
       fstp	.MthickSqr
       fld1

       fsub	 [.Mthick]

       fst	.Hthick 	   ; Hthick = 1 - Mthick
       fld	st
       fadd	st,st
       faddp
       fstp	.next_const	    ; next_const = Hthick * 3


    ;init triangles list
       mov	edi,[triangles_ptr]

       xor	si,si
       xor	ax,ax
       mov	bx,.N+1
       mov	cx,(.N*2)+2  ;--
       mov	dx,(.N*3)+3  ;---
       mov	[triangles_count_var],0
     .again_tri:
       stosw				 ; main wave
       mov	word[edi],bx
       inc	ax
       add	edi,2
       stosw
       stosw
       mov	word[edi],bx
       inc	bx
       mov	word[edi+2],bx


       add	edi,4

       mov	word[edi],cx	  ;----   ;     n2+2        ;    xor      ax,ax
       inc	cx			  ;     n2+3        ;    mov      bx,.N+1
       mov	word[edi+2],dx		  ;                 ;    mov      cx,(.N*2)+2  ;--
       mov	word[edi+4],cx		  ;     n3+3        ;    mov      dx,(.N*3)+3  ;---
       mov	word[edi+6],dx		  ;     n3+3        ;
       inc	dx			  ;                 ;
       mov	word[edi+8],dx		  ;     n2+3        ;
       mov	word[edi+10],cx 	  ;     n3+4
       add	edi,12		    ;----

       dec	ax	    ; border of wave
       dec	bx
       dec	cx
       dec	dx

       stosw			  ; first border
       inc	ax
       stosw
       mov	word[edi],dx
       add	edi,2

       mov	word[edi],dx
       add	edi,2
       stosw
       inc	dx
       mov	word[edi],dx

       mov     word[edi+2],bx	   ; second border
       mov     word[edi+4],cx
       inc     bx
       mov     word[edi+6],bx

       mov     word[edi+8],bx
       mov     word[edi+10],cx
       inc     cx
       mov     word[edi+12],cx
       add     edi,14

       add	[triangles_count_var],8     ;10
       inc	si
       cmp	si,.N
       jne	.again_tri

       add	ax,((.N+1)*3)+1
       add	bx,((.N+1)*3)+1
       add	cx,((.N+1)*3)+1
       add	dx,((.N+1)*3)+1
       xor	si,si
       cmp	ax,(.N*13)+13	 ;;;(.N*23)+23                ; ax,(.N*13)+13
       jl      .again_tri

       mov	dword[edi],-1	       ;      <--- end mark not always in use

    ; init real points list
       mov	.x,-(.N/2)
       mov	edi,[points_ptr]
       lea	esi,[edi+(12*(.N+1))]
       mov	eax,[points_ptr]
       mov	ebx,eax
       add	eax,2*12*(.N+1)    ;---
       add	ebx,3*12*(.N+1)    ;---
       mov	[points_count_var],0


       .R_P4 equ edi+(4*12*(.N+1))
       .R_P5 equ edi+(5*12*(.N+1))
       .R_P6 equ edi+(6*12*(.N+1))
       .R_P7 equ edi+(7*12*(.N+1))

       .R_P8 equ edi+(8*12*(.N+1))
       .R_P9 equ edi+(9*12*(.N+1))
       .R_P10 equ edi+(10*12*(.N+1))
       .R_P11 equ edi+(11*12*(.N+1))

       .R_P12 equ edi+(12*12*(.N+1))
       .R_P13 equ edi+(13*12*(.N+1))
       .R_P14 equ edi+(14*12*(.N+1))
       .R_P15 equ edi+(15*12*(.N+1))

     @@:
       ; x coordinate
       fild	.x
       fld	st
;;       fmul     .a                  ; st = <-2pi;2pi>  when mul .a
       fidiv	.Ndiv2
       fst	.temp		      ; temporary x in <-1.0;1.0>

       fst	dword[edi]		;x coordinate of point
       fst	dword[esi]
       fst	dword[eax]		;--


       fst	dword[.R_P4]
       fst	dword[.R_P5]
       fst	dword[.R_P6]
       fst	dword[.R_P7]

       fst	dword[.R_P8]
       fst	dword[.R_P9]
       fst	dword[.R_P10]
       fst	dword[.R_P11]

       fst	dword[.R_P12]
       fst	dword[.R_P13]
       fst	dword[.R_P14]
       fst	dword[.R_P15]

       fstp	dword[ebx]  ;pop
      ;*******y coord               dword[offset + 4]
       fmul	 .a	 ;  st  = <-2pi;2pi>
       fsincos
       fmul	.next_const
       fst	dword[edi+4]		; y coordinate of point
       fst	dword[esi+4]
       fst	dword[.R_P4+4]
       fst	dword[.R_P5+4]
       fld	.Hthick
       faddp
       fst	dword[.R_P6+4]
       fst	dword[.R_P7+4]
       fst	dword[eax+4]
       fst	dword[ebx+4]

       fchs
       fst	dword[.R_P10+4]
       fst	dword[.R_P11+4]
       fst	dword[.R_P14+4]
       fst	dword[.R_P15+4]
       fadd	.Hthick
       fadd	.Hthick
       fst	dword[.R_P8+4]
       fst	dword[.R_P9+4]
       fst	dword[.R_P12+4]
       fstp	dword[.R_P13+4]


       fmul	.Hthick
       fmul	.next_const
       fstp	.cos_temp	    ; cos_temp = Hthick^2 * 3

     ;***************z coord
       fld	.temp
       fld	st
       fmul	st,st0			; z coords
       fchs
       fld1
       faddp
       fabs
       fsqrt
;       fld      st
;       fsub
       fld	st
       fsub	.cos_temp
       fst	dword[esi+8]
       fstp	dword[eax+8]		;--
       fld	st
       fadd	.cos_temp
       fst	dword[.R_P9+8]
       fstp	dword[.R_P10+8]
       fchs
       fld	st
       fsub	.cos_temp
       fst	dword[.R_P6+8]
       fstp	dword[.R_P5+8]
       fadd	.cos_temp
       fst	dword[.R_P13+8]
       fstp	dword[.R_P14+8]

       fmul	[.Mthick]
       fmul	st,st0
       fchs
       fld	.MthickSqr
       faddp
       fabs
       fsqrt
       fld	st
       fsub	.cos_temp
       fst	dword[edi+8]		;  z coordinate
       fstp	dword[ebx+8]		;--
       fld	st
       fadd	.cos_temp
       fst	dword[.R_P8+8]
       fstp	dword[.R_P11+8]
       fchs
       fld	st
       fsub	.cos_temp
       fst	dword[.R_P7+8]
       fstp	dword[.R_P4+8]
       fadd	.cos_temp
       fst	dword[.R_P12+8]
       fstp	dword[.R_P15+8]

       add	edi,12
       add	esi,12
       add	eax,12			;--
       add	ebx,12			;---
       add	[points_count_var],24	      ;16
       inc	.x
       cmp	.x,.N/2
       jng	@b
;       mov      dword[esi],-1       ; <-- end mark
       mov	 [culling_flag],0
       mov     esp,ebp
ret
.Mthick dd  0.85     ; size-thickness

make_random_lights:
  .temp1  equ ebp-4
  .temp2  equ ebp-8	;  - light vector generate variables
  .temp3  equ ebp-12
  .max equ 800
	push	ebp
	mov	ebp,esp
	sub	esp,12
	mov	edi,lights
	fninit
	mov	dword[.temp2],.max
	mov	dword[.temp3],.max/2

    .again:
	xor	esi,esi
     @@:
	mov	edx,.max
	xor	ecx,ecx
	call	random
	sub	eax,.max/2
	mov	dword[.temp1],eax
	fild	dword[.temp1]
	fidiv	dword[.temp3]
	fstp	dword[edi+esi*4]
	inc	esi
	cmp	esi,2
	jne	@b

  .max1 equ 1000
	mov	dword[.temp2],.max1/2
	mov	edx,.max1
	xor	ecx,ecx
	call	random
	mov	dword[.temp1],eax
	fild	dword[.temp1]
	fchs
	fidiv	dword[.temp2]
	fstp	dword[edi+8]

	xor	esi,esi
     @@:
	mov	ecx,220 	   ; max colors and shine  , ecx = 200 - more bright shading
	mov	edx,255
	call	random
	mov	byte[edi+18+esi],al
	inc	esi
	cmp	esi,4
	jne	@b


	xor	esi,esi
     @@:
	mov	ecx,100 	     ; orginal colors
	movzx	edx,byte[edi+18+esi]
	call	random
	mov	byte[edi+12+esi],al
	inc	esi
	cmp	esi,3
	jne	@b

	xor	esi,esi
     @@:
	mov	ecx,1		    ; min cols
	movzx	edx,byte[edi+12+esi]
	call	random
	mov	byte[edi+15+esi],al
	inc	esi
	cmp	esi,3
	jne	@b

	add	edi,LIGHT_SIZE ;22
	cmp	edi,lightsend	  ; see file View3ds,asm
	jne	.again

	mov	esp,ebp
	pop	ebp
ret

generate_texture2:
.const equ 32
	mov	edi,texmap
	xor	bx,bx
     .next_line:
	xor	dx,dx
     .next2stripes:
	mov	eax,-1
	mov	ecx,(TEX_X/.const)*3/4
	rep	stosd
	mov	eax,0x00ff0000
	mov	ecx,(TEX_X/.const)
     @@:
	stosd
	dec	edi
	loop	@b
	inc	dx
	cmp	dx,.const/2
	jl	.next2stripes
	inc	bx
	cmp	bx,TEX_Y
	jl	.next_line
ret

blur_screen:	;blur n times  ; blur or fire
;in - ecx  times count
;.counter equ dword[esp-4]
.counter1 equ dword[esp-8]
if Ext>=MMX
	 emms
	 push	    ebp
	 mov	    ebp,esp
	 push	    dword 0x0
	 push	    dword 0x01010101
.again_blur:
	 push	    ecx
	 mov	    edi,screen
	 mov	    ecx,SIZE_X*3/4
	 pxor	    mm5,mm5
	 xor	    eax,eax
	 rep	    stosd

	 mov	    ecx,(SIZE_X*(SIZE_Y-3))*3/4
     .blr:
     @@:

	 movd	    mm0,[edi+SIZE_X*3]
	 movd	    mm1,[edi-SIZE_X*3]
	 movd	    mm2,[edi-3]
	 movd	    mm3,[edi+3]

	 punpcklbw  mm0,mm5
	 punpcklbw  mm1,mm5
	 punpcklbw  mm2,mm5
	 punpcklbw  mm3,mm5
	 paddw	    mm0,mm1
	 paddw	    mm0,mm2
	 paddw	    mm0,mm3
	 psrlw	    mm0,2

	 packuswb   mm0,mm5
	 psubusb    mm0,qword[esp]  ; importand if fire
	 movd	    eax,mm0
	 stosd

	 loop	     .blr

	 xor	    eax,eax
	 mov	    ecx,SIZE_X*3/4
	 rep	    stosd
	 pop	     ecx
	 loop	    .again_blur
	 mov	    esp,ebp
	 pop	    ebp
end if
if  Ext=NON
      .blur:
	 push	ecx
	 xor	ecx,ecx
      .next_col_coof:
	 xor	esi,esi
	 xor	eax,eax
	 xor	ebx,ebx
	 mov	edi,SIZE_X*SIZE_Y
      .next:
	 mov	ebp,esi
	 dec	ebp

	 cmp	ebp,SIZE_X*SIZE_Y-1   ; clipping
	 jl	@f
	 mov	ebp,SIZE_X*SIZE_Y-1
      @@:
	 or	ebp,ebp
	 jg	@f
	 xor	ebp,ebp
      @@:
	 lea	edx,[ebp*3+screen]
	 mov	al,byte[edx+ecx]

	 mov	ebp,esi
	 inc	ebp
	 cmp	ebp,SIZE_X*SIZE_Y-1   ; clipping
	 jl	@f
	 mov	ebp,SIZE_X*SIZE_Y-1
      @@:
	 or	ebp,ebp
	 jg	@f
	 xor	ebp,ebp
      @@:
	 lea	edx,[ebp*3+screen]
	 mov	bl,byte[edx+ecx]
	 add	eax,ebx

	 mov	ebp,esi
	 sub	ebp,SIZE_X
	 cmp	ebp,SIZE_X*SIZE_Y-1   ; clipping
	 jl	@f
	 mov	ebp,SIZE_X*SIZE_Y-1
      @@:
	 or	ebp,ebp
	 jg	@f
	 xor	ebp,ebp
      @@:
	 lea	edx,[ebp*3+screen]
	 mov	bl,byte[edx+ecx]
	 add	eax,ebx

	 mov	ebp,esi
	 add	ebp,SIZE_X
	 cmp	ebp,SIZE_X*SIZE_Y-1   ; clipping
	 jl	@f
	 mov	ebp,SIZE_X*SIZE_Y-1
      @@:
	 or	ebp,ebp
	 jg	@f
	 xor	ebp,ebp
      @@:
	 lea	edx,[ebp*3+screen]
	 mov	bl,byte[edx+ecx]
	 add	eax,ebx

	 shr	eax,2
	 lea	edx,[esi*3+screen]
	 or	al,al
	 jz	@f
	 dec	al		; not importand if fire
	 mov	byte[edx+ecx],al
     @@:

	 inc	esi
	 dec	edi
	 jnz	.next

	 inc	ecx
	 cmp	ecx,3
	 jne	.next_col_coof
	 pop	ecx
	 dec	 ecx
	 jnz	.blur
end if
ret

mirror: 			      ; mirror effect - loseless operation
; in ah - button id = 11, 12, 13
	 mov	  edi,[points_ptr]     ; one real point - triple float
	 mov	  esi,[points_normals_ptr]   ; one 3dvector - triple float dword x,y,z
	 fninit
	 movzx	  ecx,[points_count_var]

	 cmp	  ah,11
	 je	  @f
	 cmp	  ah,12
	 je	  .yn
	 cmp	  ah,13
	 je	  .zn

       @@:				; neg x
	 fld	  dword[edi]	;x
	 fchs
	 fstp	  dword[edi]	;x
	 fld	  dword[esi]
	 fchs
	 fstp	  dword[esi]
	 add	  edi,12
	 add	  esi,12
	 loop	  @b
	 ret
       .yn:
	 fld	  dword[edi+4]	;y
	 fchs
	 fstp	  dword[edi+4]	;y
	 fld	  dword[esi+4]
	 fchs
	 fstp	  dword[esi+4]

	 add	  edi,12
	 add	  esi,12
	 loop	  .yn
	 ret
      .zn:
	 fld	  dword[edi+8]	  ;z
	 fchs
	 fstp	  dword[edi+8]	  ;z
	 fld	  dword[esi+8]
	 fchs
	 fstp	  dword[esi+8]

	 add	  edi,12
	 add	  esi,12
	 loop	  .zn
ret

exchange:			      ; exchange some coords - loseless operation
	 mov	  edi,[points_ptr]     ; one real point - triple float
	 mov	  esi,[points_normals_ptr]  ; one 3dvector - triple float dword x,y,z
	 fninit 		      ; exchange both points and normal vactors coords/coofics
	 movzx	  ecx,[points_count_var]

	 cmp	  [xchg_flag],1
	 je	  @f
	 cmp	  [xchg_flag],2
	 je	  .zx
	 cmp	  [xchg_flag],3
	 je	  .yz
       @@:
	 fld	  dword[edi]	;x
	 fld	  dword[edi+4]	;y
	 fstp	  dword[edi]	;x
	 fstp	  dword[edi+4]	;y
	 fld	  dword[esi]	;x
	 fld	  dword[esi+4]	;y
	 fstp	  dword[esi]	;x
	 fstp	  dword[esi+4]	;y

	 add	  esi,12
	 add	  edi,12
	 loop	  @b
	 ret
       .zx:
	 fld	  dword[edi]	;x
	 fld	  dword[edi+8]	;z
	 fstp	  dword[edi]	;x
	 fstp	  dword[edi+8]	;z
	 fld	  dword[esi]	;x
	 fld	  dword[esi+8]	;y
	 fstp	  dword[esi]	;x
	 fstp	  dword[esi+8]	;y

	 add	  esi,12
	 add	  edi,12
	 loop	  .zx
	 ret
      .yz:
	 fld	  dword[edi+8]	  ;z
	 fld	  dword[edi+4]	  ;y
	 fstp	  dword[edi+8]	  ;z
	 fstp	  dword[edi+4]	  ;y
	 fld	  dword[esi+8]	  ;x
	 fld	  dword[esi+4]	  ;y
	 fstp	  dword[esi+8]	  ;x
	 fstp	  dword[esi+4]	  ;y

	 add	  edi,12
	 add	  esi,12
	 loop	  .yz
ret

;#\\\\\\\\\\\\\\\\\\\\\\\\\comented///////////////////////////////
if 0
calc_attenuation_light: 	 ;; calculate point to spot_light distance
; spot light with attenuation    ;; and vector, normalize vector,
				 ;; calc dot_pr and unlinear color according
				 ;; to dot_product, write to color buff
.distance equ dword[ebp-4]	 ;; color buff in bumpmap for save the mem
.temp_col equ word[ebp-6]
.vector   equ [ebp-20]
.spot_light_ptr equ dword [ebp-24]
	mov	ebp,esp
	sub	esp,24
	mov	edi,rotated_points_r  ;points_rotated
	mov	edx,point_normals_rotated
	mov	ecx,bumpmap	   ; mem area with temp points color list
	xor	ax,ax		   ; counter
	mov	esi,spot_light_params
	mov	.spot_light_ptr,esi
     .again_color:
	push	eax
	lea	ebx,.vector
	mov	esi,.spot_light_ptr ; calc vector fom light to every point
	call	make_vector_r
	; ebx - ptr to result vector
	fld	dword [ebx]
	fmul	st, st
	fld	dword [ebx+4]
	fmul	st, st
	fld	dword [ebx+8]
	fmul	st, st
	faddp	st1, st
	faddp	st1, st
	fsqrt
	fstp	.distance
	push	edi
	mov	edi,ebx
	call	normalize_vector
	; edi - normalized distance vector
	mov	esi,edx
	call	dot_product  ; esi first vector, edi second vector
	; st0 - dot product
	fabs	; why not ? - think about it
	pop	edi
	fldz
	fcomip	st1
	jbe	@f	     ; st1>0
	mov	dword[ecx],0
	mov	word[ecx+4],0
	add	ecx,6
	ffree	st0
	jmp	.update_counters
  @@:
     ;   pop     edi

	; calc color(with atenuation), write to buff
	; buff - color of points list
	; color = ambient+cos(x)*diffuse+(cos(x)^n)*specular

	push	edx
	push	edi

	push	ecx
	push	ebp

;        mov     eax,spot_light_params
	mov	eax,.spot_light_ptr
	movzx	dx,byte[eax+15]
	push	dx	       ; shines
	movzx	dx,byte[eax+8] ; b
	push	dx	       ; orginal col
	movzx	dx,byte[eax+7] ; g
	push	dx
	movzx	dx,byte[eax+6]	 ; r
	push	dx
	movzx	dx,byte[eax+14] ; max col
	push	dx
	movzx	dx,byte[eax+13]
	push	dx
	movzx	dx,byte[eax+12]
	push	dx
	movzx	dx,byte[eax+11] ; min col
	push	dx
	movzx	dx,byte[eax+10]
	push	dx
	movzx	dx,byte[eax+9]
	push	dx
	push	eax	       ; dot pr.  (in st0)
	call	calc_one_col
	; eax - 0x00rrggbb
	; brightness = 1 - (distance/light.fadezero)^fogness
	; if brightness  < 0, then brightness = 0
	; attenuetion equation taken from 3dica tutorial - 1/d^2 isn't perfect
	; color = color * brightness  ;  fogness = <0.5,2.0>
	pop	ebp
	pop	ecx

	fld    .distance
	mov	esi,.spot_light_ptr
;        fidiv   word[spot_light_params+16]   ; fadezero
	fidiv	word[esi+16]   ; fadezero
      ;  fmul    st,st0       ; fogness = 2
	fabs		      ; to be sure
	fchs
	fld1
	faddp
	fld1
	fcomip	st1
	jnbe	@f
	ffree	st0
	fld1
      @@:
	fld	st	      ; st - brightness
	ror	eax,16
	movzx	bx,al	     ; al - r
	mov	.temp_col,bx
	fimul	.temp_col
	fistp	word[ecx]
	cmp	word[ecx],0
	jge	@f
	mov	word[ecx],0
    @@:
   ;     mov     edx,dword[spot_light_params+12]  ; max colors
	mov	edx,dword[esi+12]  ; max colors
	movzx	bx,dl	      ; r max
	cmp	word[ecx],bx  ; choose the brightest for r, g, b
	jl	@f
	mov	word[ecx],bx
    @@:

	add	ecx,2
	fld	st
	ror	eax,16
	movzx	bx,ah	     ; g
	mov	.temp_col,bx
	fimul	.temp_col
	fistp	word[ecx]
	cmp	word[ecx],0
	jg	@f
	mov	word[ecx],0
    @@:
	movzx	bx,dh	     ; g max
	cmp	word[ecx],bx
	jle	@f
	mov	word[ecx],bx
    @@:

	add	ecx,2
	movzx	bx,al	     ; b
	mov	.temp_col,bx
	fimul	.temp_col
	fistp	word[ecx]
	cmp	word[ecx],0
	jg	@f
	mov	word[ecx],0
    @@:
	shr	edx,16
	movzx	bx,dl	     ; b max
	cmp	word[ecx],bx
	jle	@f
	mov	word[ecx],bx
    @@:
	add	ecx,2
;end if
;        ror     eax,16
;        movzx   bx,al
;        mov     word[ecx],bx
;        ror     eax,16
;        movzx   bx,ah
;        mov     word[ecx+2],bx
;        xor     ah,ah
;        mov     word[ecx+4],ax
;        add     ecx,6

	pop    edi
	pop    edx

    .update_counters:
	add	edx,12	; normal_size
	add	edi,12	 ;6   ; 3d point_coord_size

	pop	eax
	inc	ax
	cmp	ax,[points_count_var]
	jne	.again_color

	add	.spot_light_ptr,18
	cmp	.spot_light_ptr,spot_l_end
	jl	.again_color

	mov	esp,ebp
ret
end if
;#\\\\\\\\\\\\\\\\\\\\\\\\\comented////////////////////////////////////