gzdoom-gles/src/misc.nas

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;*
;* misc.nas
;* Miscellaneous assembly functions
;*
;*---------------------------------------------------------------------------
;* Copyright 1998-2006 Randy Heit
;* All rights reserved.
;*
;* Redistribution and use in source and binary forms, with or without
;* modification, are permitted provided that the following conditions
;* are met:
;*
;* 1. Redistributions of source code must retain the above copyright
;* notice, this list of conditions and the following disclaimer.
;* 2. Redistributions in binary form must reproduce the above copyright
;* notice, this list of conditions and the following disclaimer in the
;* documentation and/or other materials provided with the distribution.
;* 3. The name of the author may not be used to endorse or promote products
;* derived from this software without specific prior written permission.
;*
;* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
;* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
;* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
;* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
;* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
;* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
;* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
;* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
;* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
;* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
;*---------------------------------------------------------------------------
;*
BITS 32
%ifndef M_TARGET_LINUX
%define CheckMMX _CheckMMX
%define EndMMX _EndMMX
%define DoBlending_MMX _DoBlending_MMX
%define BestColor_MMX _BestColor_MMX
%define DoubleHoriz_MMX _DoubleHoriz_MMX
%define DoubleHorizVert_MMX _DoubleHorizVert_MMX
%define DoubleVert_ASM _DoubleVert_ASM
%endif
%ifdef M_TARGET_WATCOM
SEGMENT DATA PUBLIC ALIGN=16 CLASS=DATA USE32
SEGMENT DATA
%else
SECTION .data
%endif
Blending256:
dd 0x01000100,0x00000100
%ifdef M_TARGET_WATCOM
SEGMENT CODE PUBLIC ALIGN=16 CLASS=CODE USE32
SEGMENT CODE
%else
SECTION .text
%endif
;-----------------------------------------------------------
;
; CheckMMX
;
; Checks for the presence of MMX instructions on the
; current processor. This code is adapted from the samples
; in AMD's document entitled "AMD-K6<4B> MMX Processor
; Multimedia Extensions." Also fills in the vendor
; information string.
;
;-----------------------------------------------------------
GLOBAL CheckMMX
; void CheckMMX (struct CPUInfo *)
CheckMMX:
xor eax,eax
mov ecx,92/4
push ebx
push edi
mov edi,[esp+12]
rep stosd
sub edi,92
mov [edi+88],byte 32; Assume a 32-byte cache line
pushfd ; save EFLAGS
pop eax ; store EFLAGS in EAX
mov ebx,eax ; save in EBX for later testing
xor eax,0x00200000 ; toggle bit 21
push eax ; put to stack
popfd ; save changed EAX to EFLAGS
pushfd ; push EFLAGS to TOS
pop eax ; store EFLAGS in EAX
cmp eax,ebx ; see if bit 21 has changed
jz near .noid ; if no change, then no CPUID
; Get vendor ID
xor eax,eax
CPUID
mov [edi],ebx
mov [edi+4],edx
mov [edi+8],ecx
cmp ebx,0x68747541 ; 'htuA'
jne .notamd
cmp edx,0x69746e65 ; 'itne'
jne .notamd
cmp ecx,0x444d4163 ; 'DMAc'
jne .notamd
inc byte [edi+87]
.notamd:
; Get features flags and other info
mov eax,1
CPUID
mov [edi+68],ebx ; Store brand index and other stuff
mov [edi+72],ecx ; Store extended feature flags
mov [edi+76],edx ; Store feature flags
test edx,(1<<19) ; If CLFLUSH instruction is supported,
jz .noclf
shl bh,3 ; get the real cache line size.
mov [edi+88],bh
.noclf mov bl,al ; Extract stepping
and bl,0x0F
mov [edi+64],bl
mov bl,ah ; Extract processor type
shr bl,4 ; (Valid for Intel only)
and bl,0x03
mov [edi+67],bl
shr al,4 ; Extract model and family
and ah,0x0F ; model in al and family in ah
cmp ah,15
jne .noex
mov ebx,eax ; Add extended model and family
shr ebx,12
and bl,0xF0
add ah,bh
or al,bl
.noex mov [edi+65],al
mov [edi+66],ah
; Check for processor brand string
mov eax,0x80000000
CPUID
cmp eax,0x80000001
je .feat2
jb near .noid
cmp eax,0x80000004
jb .feat2
cmp eax,0x80000005
jb .brand
; Get data L1 cache info
mov eax,0x80000005
CPUID
mov [edi+88],ecx
; Get processor brand string
.brand mov eax,0x80000002
CPUID
mov [edi+16],eax
mov [edi+20],ebx
mov [edi+24],ecx
mov [edi+28],edx
mov eax,0x80000003
CPUID
mov [edi+32],eax
mov [edi+36],ebx
mov [edi+40],ecx
mov [edi+44],edx
mov eax,0x80000004
CPUID
mov [edi+48],eax
mov [edi+52],ebx
mov [edi+56],ecx
mov [edi+60],edx
; Get AMD-specific feature flags
.feat2 cmp byte [edi+87],0
jz .noid
mov eax,0x80000001
CPUID
mov [edi+80],edx
mov bl,al ; Extract stepping
and bl,0x0F
mov [edi+84],bl
shr al,4 ; Extract model and family
and ah,0x0F ; model in al and family in ah
cmp ah,15
jne .noex2
mov ebx,eax ; Add extended model and family
shr ebx,12
and bl,0xF0
add ah,bh
or al,bl
.noex2 mov [edi+85],al
mov [edi+86],ah
.noid pop edi
pop ebx
ret
;-----------------------------------------------------------
;
; EndMMX
;
; Signal the end of MMX code for compilers that can't
; do inline assembly. Currently unused.
;
;-----------------------------------------------------------
GLOBAL EndMMX
EndMMX:
emms
ret
;-----------------------------------------------------------
;
; DoBlending_MMX
;
; MMX version of DoBlending
;
; (DWORD *from, DWORD *to, count, tor, tog, tob, toa)
;-----------------------------------------------------------
GLOBAL DoBlending_MMX
DoBlending_MMX:
pxor mm0,mm0 ; mm0 = 0
mov eax,[esp+4*4]
shl eax,16
mov edx,[esp+4*5]
shl edx,8
or eax,[esp+4*6]
or eax,edx
mov ecx,[esp+4*3] ; ecx = count
movd mm1,eax ; mm1 = 00000000 00RRGGBB
mov eax,[esp+4*7]
shl eax,16
mov edx,[esp+4*7]
shl edx,8
or eax,[esp+4*7]
or eax,edx
mov edx,[esp+4*2] ; edx = dest
movd mm6,eax ; mm6 = 00000000 00AAAAAA
punpcklbw mm1,mm0 ; mm1 = 000000RR 00GG00BB
movq mm7,[Blending256]
punpcklbw mm6,mm0 ; mm6 = 000000AA 00AA00AA
mov eax,[esp+4*1] ; eax = source
pmullw mm1,mm6 ; mm1 = 000000RR 00GG00BB (multiplied by alpha)
psubusw mm7,mm6 ; mm7 = 000000aa 00aa00aa (one minus alpha)
nop ; Does this actually pair on a Pentium?
; Do two colors per iteration: Count must be even.
.loop movq mm2,[eax] ; mm2 = 00r2g2b2 00r1g1b1
add eax,8
movq mm3,mm2 ; mm3 = 00r2g2b2 00r1g1b1
punpcklbw mm2,mm0 ; mm2 = 000000r1 00g100b1
movq mm4,mm1
punpckhbw mm3,mm0 ; mm3 = 000000r2 00g200b2
pmullw mm2,mm7 ; mm2 = 0000r1rr g1ggb1bb
add edx,8
pmullw mm3,mm7 ; mm3 = 0000r2rr g2ggb2bb
sub ecx,2
paddusw mm2,mm1
paddusw mm3,mm1
psrlw mm2,8
psrlw mm3,8
packuswb mm2,mm3 ; mm2 = 00r2g2b2 00r1g1b1
movq [edx-8],mm2
jnz .loop
emms
ret
;-----------------------------------------------------------
;
; BestColor_MMX
;
; Picks the closest matching color from a palette
;
; Passed FFRRGGBB and palette array in same format
; FF is the index of the first palette entry to consider
;
;-----------------------------------------------------------
GLOBAL BestColor_MMX
GLOBAL @BestColor_MMX@8
BestColor_MMX:
mov ecx,[esp+4]
mov edx,[esp+8]
@BestColor_MMX@8:
pxor mm0,mm0
movd mm1,ecx ; mm1 = color searching for
mov eax,257*257+257*257+257*257 ;eax = bestdist
push ebx
punpcklbw mm1,mm0
mov ebx,ecx ; ebx = best color
shr ecx,24 ; ecx = count
and ebx,0xffffff
push esi
push ebp
.loop movd mm2,[edx+ecx*4] ; mm2 = color considering now
inc ecx
punpcklbw mm2,mm0
movq mm3,mm1
psubsw mm3,mm2
pmullw mm3,mm3 ; mm3 = color distance squared
movd ebp,mm3 ; add the three components
psrlq mm3,32 ; into ebp to get the real
mov esi,ebp ; (squared) distance
shr esi,16
and ebp,0xffff
add ebp,esi
movd esi,mm3
add ebp,esi
jz .perf ; found a perfect match
cmp eax,ebp
jb .skip
mov eax,ebp
lea ebx,[ecx-1]
.skip cmp ecx,256
jne .loop
mov eax,ebx
pop ebp
pop esi
pop ebx
emms
ret
.perf lea eax,[ecx-1]
pop ebp
pop esi
pop ebx
emms
ret
;-----------------------------------------------------------
;
; DoubleHoriz_MMX
;
; Stretches an image horizontally using MMX instructions.
; The source image is assumed to occupy the right half
; of the destination image.
;
; height of source
; width of source
; dest pointer (at end of row)
; pitch
;
;-----------------------------------------------------------
GLOBAL DoubleHoriz_MMX
DoubleHoriz_MMX:
mov edx,[esp+8] ; edx = width
push edi
neg edx ; make edx negative so we can count up
mov edi,[esp+16] ; edi = dest pointer
sar edx,2 ; and make edx count groups of 4 pixels
push ebp
mov ebp,edx ; ebp = # of columns remaining in this row
push ebx
mov ebx,[esp+28] ; ebx = pitch
mov ecx,[esp+16] ; ecx = # of rows remaining
.loop movq mm0,[edi+ebp*4]
.loop2 movq mm1,mm0
punpcklbw mm0,mm0 ; double left 4 pixels
movq mm2,[edi+ebp*4+8]
punpckhbw mm1,mm1 ; double right 4 pixels
movq [edi+ebp*8],mm0 ; write left pixels
movq mm0,mm2
movq [edi+ebp*8+8],mm1 ; write right pixels
add ebp,2 ; increment counter
jnz .loop2 ; repeat until done with this row
add edi,ebx ; move edi to next row
dec ecx ; decrease row counter
mov ebp,edx ; prep ebp for next row
jnz .loop ; repeat until every row is done
emms
pop ebx
pop ebp
pop edi
ret
;-----------------------------------------------------------
;
; DoubleHorizVert_MMX
;
; Stretches an image horizontally and vertically using
; MMX instructions. The source image is assumed to occupy
; the right half of the destination image and to leave
; every other line unused for expansion.
;
; height of source
; width of source
; dest pointer (at end of row)
; pitch
;
;-----------------------------------------------------------
GLOBAL DoubleHorizVert_MMX
DoubleHorizVert_MMX:
mov edx,[esp+8] ; edx = width
push edi
neg edx ; make edx negative so we can count up
mov edi,[esp+16] ; edi = dest pointer
sar edx,2 ; and make edx count groups of 4 pixels
push ebp
mov ebp,edx ; ebp = # of columns remaining in this row
push ebx
mov ebx,[esp+28] ; ebx = pitch
mov ecx,[esp+16] ; ecx = # of rows remaining
push esi
lea esi,[edi+ebx]
.loop movq mm0,[edi+ebp*4] ; get 8 pixels
movq mm1,mm0
punpcklbw mm0,mm0 ; double left 4
punpckhbw mm1,mm1 ; double right 4
add ebp,2 ; increment counter
movq [edi+ebp*8-16],mm0 ; write them back out
movq [edi+ebp*8-8],mm1
movq [esi+ebp*8-16],mm0
movq [esi+ebp*8-8],mm1
jnz .loop ; repeat until done with this row
lea edi,[edi+ebx*2] ; move edi and esi to next row
lea esi,[esi+ebx*2]
dec ecx ; decrease row counter
mov ebp,edx ; prep ebp for next row
jnz .loop ; repeat until every row is done
emms
pop esi
pop ebx
pop ebp
pop edi
ret
;-----------------------------------------------------------
;
; DoubleVert_ASM
;
; Stretches an image vertically using regular x86
; instructions. The source image should be interleaved.
;
; height of source
; width of source
; source/dest pointer
; pitch
;
;-----------------------------------------------------------
GLOBAL DoubleVert_ASM
DoubleVert_ASM:
mov edx,[esp+16] ; edx = pitch
mov eax,[esp+4] ; eax = # of rows left
push esi
mov esi,[esp+16]
push edi
lea edi,[esi+edx]
shl edx,1 ; edx = pitch*2
mov ecx,[esp+16]
sub edx,ecx ; edx = dist from end of one line to start of next
shr ecx,2
.loop rep movsd
mov ecx,[esp+16]
add esi,edx
add edi,edx
shr ecx,2
dec eax
jnz .loop
pop edi
pop esi
ret