kolibrios-fun/programs/demos/3dsheart/trunk/grd_cat.ASM

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NASM
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ROUND equ 8
CATMULL_SHIFT equ 8
gouraud_triangle_z:
;----procedure drawing gouraud triangle with z coordinate
;----interpolation ( Catmull alghoritm )-----------------
;------------------in - eax - x1 shl 16 + y1 ------------
;---------------------- ebx - x2 shl 16 + y2 ------------
;---------------------- ecx - x3 shl 16 + y3 ------------
;---------------------- esi - pointer to Z-buffer--------
;---------------------- Z-buffer filled with dd variables
;---------------------- shifted CATMULL_SHIFT------------
;---------------------- edi - pointer to screen buffer---
;---------------------- stack : colors-------------------
;----------------- procedure don't save registers !!-----
.col1r equ ebp+4 ; each color as word
.col1g equ ebp+6 ; each z coordinate as word
.col1b equ ebp+8
.z1 equ ebp+10
.col2r equ ebp+12
.col2g equ ebp+14
.col2b equ ebp+16
.z2 equ ebp+18
.col3r equ ebp+20
.col3g equ ebp+22
.col3b equ ebp+24
.z3 equ ebp+26
.x1 equ word[ebp-2]
.y1 equ word[ebp-4]
.x2 equ word[ebp-6]
.y2 equ word[ebp-8]
.x3 equ word[ebp-10]
.y3 equ word[ebp-12]
.dx12 equ dword[ebp-16]
.dz12 equ dword[ebp-20]
.dc12r equ dword[ebp-24]
.dc12g equ dword[ebp-28]
.dc12b equ dword[ebp-32]
.dx13 equ dword[ebp-36]
.dz13 equ dword[ebp-40]
.dc13r equ dword[ebp-44]
.dc13g equ dword[ebp-48]
.dc13b equ dword[ebp-52]
.dx23 equ dword[ebp-56]
.dz23 equ dword[ebp-60]
.dc23r equ dword[ebp-64]
.dc23g equ dword[ebp-68]
.dc23b equ dword[ebp-72]
.c1r equ dword[ebp-76]
.c1g equ dword[ebp-80]
.c1b equ dword[ebp-84]
.c2r equ dword[ebp-88]
.c2g equ dword[ebp-92]
.c2b equ dword[ebp-96]
.zz1 equ dword[ebp-100]
.zz2 equ dword[ebp-104]
mov ebp,esp
; sub esp,84
.sort3: ; sort triangle coordinates...
cmp ax,bx
jle .sort1
xchg eax,ebx
mov edx,dword[.col1r]
xchg edx,dword[.col2r]
mov dword[.col1r],edx
mov edx,dword[.col1b]
xchg edx,dword[.col2b]
mov dword[.col1b],edx
.sort1:
cmp bx,cx
jle .sort2
xchg ebx,ecx
mov edx,dword[.col2r]
xchg edx,dword[.col3r]
mov dword[.col2r],edx
mov edx,dword[.col2b]
xchg edx,dword[.col3b]
mov dword[.col2b],edx
jmp .sort3
.sort2:
push eax ; store in variables
push ebx
push ecx
mov edx,80008000h ; eax,ebx,ecx are ANDd together into edx which means that
and edx,ebx ; if *all* of them are negative a sign flag is raised
and edx,ecx
and edx,eax
test edx,80008000h ; Check both X&Y at once
jne .gt_loop2_end
mov bx,.y2 ; calc deltas
sub bx,.y1
jnz .gt_dx12_make
; mov .dx12,0
; mov .dz12,0
; mov .dc12r,0
; mov .dc12g,0
; mov .dc12b,0
mov ecx,5
@@:
push dword 0
loop @b
jmp .gt_dx12_done
.gt_dx12_make:
mov ax,.x2
sub ax,.x1
cwde
movsx ebx,bx
shl eax,ROUND
cdq
idiv ebx
; mov .dx12,eax
push eax
mov ax,word[.z2]
sub ax,word[.z1]
cwde
shl eax,CATMULL_SHIFT
cdq
idiv ebx
push eax
mov ax,word[.col2r]
sub ax,word[.col1r]
cwde
shl eax,ROUND
cdq
idiv ebx
; mov .dc12r,eax
push eax
mov ax,word[.col2g]
sub ax,word[.col1g]
cwde
shl eax,ROUND
cdq
idiv ebx
; mov .dc12g,eax
push eax
mov ax,word[.col2b] ;;---
sub ax,word[.col1b]
cwde
shl eax,ROUND
cdq
idiv ebx
; mov .dc12b,eax
push eax
.gt_dx12_done:
mov bx,.y3 ; calc deltas
sub bx,.y1
jnz .gt_dx13_make
; mov .dx13,0
; mov .dz13,0
; mov .dc13r,0
; mov .dc13g,0
; mov .dc13b,0
mov ecx,5
@@:
push dword 0
loop @b
jmp .gt_dx13_done
.gt_dx13_make:
mov ax,.x3
sub ax,.x1
cwde
movsx ebx,bx
shl eax,ROUND
cdq
idiv ebx
; mov .dx13,eax
push eax
mov ax,word[.z3]
sub ax,word[.z1]
cwde
shl eax,CATMULL_SHIFT
cdq
idiv ebx
push eax
mov ax,word[.col3r]
sub ax,word[.col1r]
cwde
shl eax,ROUND
cdq
idiv ebx
; mov .dc13r,eax
push eax
mov ax,word[.col3g]
sub ax,word[.col1g]
cwde
shl eax,ROUND
cdq
idiv ebx
; mov .dc13g,eax
push eax
mov ax,word[.col3b]
sub ax,word[.col1b]
cwde
shl eax,ROUND
cdq
idiv ebx
; mov .dc13b,eax
push eax
.gt_dx13_done:
mov bx,.y3 ; calc deltas
sub bx,.y2
jnz .gt_dx23_make
; mov .dx23,0
; mov .dz23,0
; mov .dc23r,0
; mov .dc23g,0
; mov .dc23b,0
mov ecx,5
@@:
push dword 0
loop @b
jmp .gt_dx23_done
.gt_dx23_make:
mov ax,.x3
sub ax,.x2
cwde
movsx ebx,bx
shl eax,ROUND
cdq
idiv ebx
; mov .dx23,eax
push eax
mov ax,word[.z3]
sub ax,word[.z2]
cwde
shl eax,CATMULL_SHIFT
cdq
idiv ebx
push eax
mov ax,word[.col3r]
sub ax,word[.col2r]
cwde
shl eax,ROUND
cdq
idiv ebx
; mov .dc23r,eax
push eax
mov ax,word[.col3g]
sub ax,word[.col2g]
cwde
shl eax,ROUND
cdq
idiv ebx
; mov .dc23g,eax
push eax
mov ax,word[.col3b]
sub ax,word[.col2b]
cwde
shl eax,ROUND
cdq
idiv ebx
; mov .dc23b,eax
push eax
.gt_dx23_done:
sub esp,32
movsx eax,.x1 ; eax - cur x1
shl eax,ROUND ; ebx - cur x2
mov ebx,eax
movsx edx,word[.z1]
shl edx,CATMULL_SHIFT
mov .zz1,edx
mov .zz2,edx
movzx edx,word[.col1r]
shl edx,ROUND
mov .c1r,edx
mov .c2r,edx
movzx edx,word[.col1g]
shl edx,ROUND
mov .c1g,edx
mov .c2g,edx
movzx edx,word[.col1b]
shl edx,ROUND
mov .c1b,edx
mov .c2b,edx
mov cx,.y1
cmp cx,.y2
jge .gt_loop1_end
.gt_loop1:
pushad
; macro .debug
mov edx,.c2r ; c2r,c2g,c2b,c1r,c1g,c1b - current colors
sar edx,ROUND
push dx
mov edx,.c2g
sar edx,ROUND
push dx
mov edx,.c2b
sar edx,ROUND
push dx
sar ebx,ROUND ; x2
push bx
mov edx,.c1r
sar edx,ROUND
push dx
mov edx,.c1g
sar edx,ROUND
push dx
mov edx,.c1b
sar edx,ROUND
push dx
sar eax,ROUND
push ax ; x1
push cx ; y
push .zz2
push .zz1
call gouraud_line_z
popad
mov edx,.dc13r
add .c1r,edx
mov edx,.dc13g
add .c1g,edx
mov edx,.dc13b
add .c1b,edx
mov edx,.dc12r
add .c2r,edx
mov edx,.dc12g
add .c2g,edx
mov edx,.dc12b
add .c2b,edx
mov edx,.dz13
add .zz1,edx
mov edx,.dz12
add .zz2,edx
add eax,.dx13
add ebx,.dx12
inc cx
cmp cx,.y2
jl .gt_loop1
.gt_loop1_end:
mov cx,.y2
cmp cx,.y3
jge .gt_loop2_end
movsx ebx,.x2 ; eax - cur x1
shl ebx,ROUND ; ebx - cur x2
movsx edx,word[.z2]
shl edx,CATMULL_SHIFT
mov .zz2,edx
movzx edx,word[.col2r]
shl edx,ROUND
mov .c2r,edx
movzx edx,word[.col2g]
shl edx,ROUND
mov .c2g,edx
movzx edx,word[.col2b]
shl edx,ROUND
mov .c2b,edx
.gt_loop2:
pushad
; macro .debug
mov edx,.c2r ; c2r,c2g,c2b,c1r,c1g,c1b - current colors
sar edx,ROUND
push dx
mov edx,.c2g
sar edx,ROUND
push dx
mov edx,.c2b
sar edx,ROUND
push dx
sar ebx,ROUND ; x2
push bx
mov edx,.c1r
sar edx,ROUND
push dx
mov edx,.c1g
sar edx,ROUND
push dx
mov edx,.c1b
sar edx,ROUND
push dx
sar eax,ROUND
push ax ; x1
push cx ; y
push .zz2
push .zz1
call gouraud_line_z
popad
mov edx,.dc13r
add .c1r,edx
mov edx,.dc13g
add .c1g,edx
mov edx,.dc13b
add .c1b,edx
mov edx,.dc23r
add .c2r,edx
mov edx,.dc23g
add .c2g,edx
mov edx,.dc23b
add .c2b,edx
mov edx,.dz13
add .zz1,edx
mov edx,.dz23
add .zz2,edx
add eax,.dx13
add ebx,.dx23
inc cx
cmp cx,.y3
jl .gt_loop2
.gt_loop2_end:
mov esp,ebp
ret 24
gouraud_line_z:
;----------------- procedure drawing gouraud line
;----------------- with z coordinate interpolation
;----------------- esi - pointer to Z_buffer
;----------------- edi - pointer to screen buffer
;----------------- stack:
.z1 equ dword[ebp+4] ; z coordiunate shifted left CATMULL_SHIFT
.z2 equ dword[ebp+8]
.y equ word[ebp+12]
.x1 equ ebp+14
.c1b equ ebp+16
.c1g equ ebp+18
.c1r equ ebp+20
.x2 equ ebp+22
.c2b equ ebp+24
.c2g equ ebp+26
.c2r equ ebp+28
.dz equ dword[ebp-4]
.dc_r equ dword[ebp-8]
.dc_g equ dword[ebp-12]
.dc_b equ dword[ebp-16]
.cr equ dword[ebp-20]
.cg equ dword[ebp-24]
.cb equ dword[ebp-28]
mov ebp,esp
mov ax,.y
or ax,ax
jl .gl_quit
cmp ax,SIZE_Y
jge .gl_quit
mov eax,dword[.x1]
cmp ax,word[.x2]
je .gl_quit
jl @f
xchg eax,dword[.x2]
mov dword[.x1],eax
mov eax,dword[.c1g]
xchg eax,dword[.c2g]
mov dword[.c1g],eax
mov eax,.z1
xchg eax,.z2
mov .z1,eax
@@:
cmp word[.x1],SIZE_X
jge .gl_quit
cmp word[.x2],0
jle .gl_quit
mov eax,.z2
sub eax,.z1
cdq
mov bx,word[.x2] ; dz = z2-z1/x2-x1
sub bx,word[.x1]
movsx ebx,bx
idiv ebx
push eax
mov ax,word[.c2r]
sub ax,word[.c1r]
cwde
shl eax,ROUND ; dc_r = c2r-c1r/x2-x1
cdq
idiv ebx
push eax
mov ax,word[.c2g]
sub ax,word[.c1g]
cwde
shl eax,ROUND
cdq
idiv ebx
push eax
mov ax,word[.c2b]
sub ax,word[.c1b]
cwde
shl eax,ROUND
cdq
idiv ebx
push eax
cmp word[.x1],0 ; clipping on function
jg @f
mov eax,.dz
movsx ebx,word[.x1]
neg ebx
imul ebx
add .z1,eax
mov word[.x1],0
mov eax,.dc_r
imul ebx
sar eax,ROUND
add word[.c1r],ax
mov eax,.dc_g
imul ebx
sar eax,ROUND
add word[.c1g],ax
mov eax,.dc_b
imul ebx
sar eax,ROUND
add word[.c1b],ax
@@:
cmp word[.x2],SIZE_X
jl @f
mov word[.x2],SIZE_X
@@:
sub esp,12 ; calculate memory begin
mov edx,SIZE_X ; in buffers
movzx eax,.y
mul edx
movzx edx,word[.x1]
add eax,edx
push eax
lea eax,[eax*3]
add edi,eax
pop eax
shl eax,2
add esi,eax
mov cx,word[.x2]
sub cx,word[.x1]
movzx ecx,cx
mov ebx,.z1 ; ebx - currrent z shl CATMULL_SIFT
mov edx,.dz ; edx - delta z
movzx eax,word[.c1r]
shl eax,ROUND
mov .cr,eax
movzx eax,word[.c1g]
shl eax,ROUND
mov .cg,eax
movzx eax,word[.c1b]
shl eax,ROUND
mov .cb,eax
.ddraw:
cmp ebx,dword[esi] ; esi - z_buffer
jge .skip ; edi - Screen buffer
mov eax,.cr
sar eax,ROUND
stosb
mov eax,.cg
sar eax,ROUND
stosb
mov eax,.cb
sar eax,ROUND
stosb
mov dword[esi],ebx
jmp .no_skip
.skip:
add edi,3
.no_skip:
add esi,4
add ebx,edx
mov eax,.dc_r
add .cr,eax
mov eax,.dc_g
add .cg,eax
mov eax,.dc_b
add .cb,eax
loop .ddraw
.gl_quit:
mov esp,ebp
ret 26