ref: 611afe7417d63d716531f2ba9f6ae4a2d570a6b8
dir: /external/SDL2/src/video/arm/pixman-arm-simd-asm.S/
/*
* Copyright (c) 2016 RISC OS Open Ltd
*
* This software is provided 'as-is', without any express or implied
* warranty. In no event will the authors be held liable for any damages
* arising from the use of this software.
*
* Permission is granted to anyone to use this software for any purpose,
* including commercial applications, and to alter it and redistribute it
* freely, subject to the following restrictions:
*
* 1. The origin of this software must not be misrepresented; you must not
* claim that you wrote the original software. If you use this software
* in a product, an acknowledgment in the product documentation would be
* appreciated but is not required.
* 2. Altered source versions must be plainly marked as such, and must not be
* misrepresented as being the original software.
* 3. This notice may not be removed or altered from any source distribution.
*/
/* Prevent the stack from becoming executable */
#if defined(__linux__) && defined(__ELF__)
.section .note.GNU-stack,"",%progbits
#endif
.text
.arch armv6
.object_arch armv4
.arm
.altmacro
.p2align 2
#include "pixman-arm-asm.h"
#include "pixman-arm-simd-asm.h"
/* A head macro should do all processing which results in an output of up to
* 16 bytes, as far as the final load instruction. The corresponding tail macro
* should complete the processing of the up-to-16 bytes. The calling macro will
* sometimes choose to insert a preload or a decrement of X between them.
* cond ARM condition code for code block
* numbytes Number of output bytes that should be generated this time
* firstreg First WK register in which to place output
* unaligned_src Whether to use non-wordaligned loads of source image
* unaligned_mask Whether to use non-wordaligned loads of mask image
* preload If outputting 16 bytes causes 64 bytes to be read, whether an extra preload should be output
*/
/******************************************************************************/
.macro FillRect32_init
ldr SRC, [sp, #ARGS_STACK_OFFSET]
mov STRIDE_S, SRC
mov MASK, SRC
mov STRIDE_M, SRC
.endm
.macro FillRect16_init
ldrh SRC, [sp, #ARGS_STACK_OFFSET]
orr SRC, SRC, lsl #16
mov STRIDE_S, SRC
mov MASK, SRC
mov STRIDE_M, SRC
.endm
.macro FillRect8_init
ldrb SRC, [sp, #ARGS_STACK_OFFSET]
orr SRC, SRC, lsl #8
orr SRC, SRC, lsl #16
mov STRIDE_S, SRC
mov MASK, SRC
mov STRIDE_M, SRC
.endm
.macro FillRect_process_tail cond, numbytes, firstreg
WK4 .req SRC
WK5 .req STRIDE_S
WK6 .req MASK
WK7 .req STRIDE_M
pixst cond, numbytes, 4, DST
.unreq WK4
.unreq WK5
.unreq WK6
.unreq WK7
.endm
generate_composite_function \
FillRect32ARMSIMDAsm, 0, 0, 32, \
FLAG_DST_WRITEONLY | FLAG_COND_EXEC | FLAG_PROCESS_PRESERVES_PSR | FLAG_PROCESS_DOES_STORE | FLAG_PROCESS_PRESERVES_SCRATCH \
0, /* prefetch distance doesn't apply */ \
FillRect32_init \
nop_macro, /* newline */ \
nop_macro /* cleanup */ \
nop_macro /* process head */ \
FillRect_process_tail
generate_composite_function \
FillRect16ARMSIMDAsm, 0, 0, 16, \
FLAG_DST_WRITEONLY | FLAG_COND_EXEC | FLAG_PROCESS_PRESERVES_PSR | FLAG_PROCESS_DOES_STORE | FLAG_PROCESS_PRESERVES_SCRATCH \
0, /* prefetch distance doesn't apply */ \
FillRect16_init \
nop_macro, /* newline */ \
nop_macro /* cleanup */ \
nop_macro /* process head */ \
FillRect_process_tail
generate_composite_function \
FillRect8ARMSIMDAsm, 0, 0, 8, \
FLAG_DST_WRITEONLY | FLAG_COND_EXEC | FLAG_PROCESS_PRESERVES_PSR | FLAG_PROCESS_DOES_STORE | FLAG_PROCESS_PRESERVES_SCRATCH \
0, /* prefetch distance doesn't apply */ \
FillRect8_init \
nop_macro, /* newline */ \
nop_macro /* cleanup */ \
nop_macro /* process head */ \
FillRect_process_tail
/******************************************************************************/
/* This differs from the over_8888_8888 routine in Pixman in that the destination
* alpha component is always left unchanged, and RGB components are not
* premultiplied by alpha. It differs from BlitRGBtoRGBPixelAlpha in that
* renormalisation is done by multiplying by 257/256 (with rounding) rather than
* simply shifting right by 8 bits - removing the need to special-case alpha=0xff.
*/
.macro RGBtoRGBPixelAlpha_init
line_saved_regs STRIDE_S, ORIG_W
mov MASK, #0x80
.endm
.macro RGBtoRGBPixelAlpha_1pixel_translucent s, d, tmp0, tmp1, tmp2, tmp3, half
uxtb tmp3, s
uxtb tmp0, d
sub tmp0, tmp3, tmp0
uxtb tmp3, s, ror #16
uxtb tmp1, d, ror #16
sub tmp1, tmp3, tmp1
uxtb tmp3, s, ror #8
mov s, s, lsr #24
uxtb tmp2, d, ror #8
sub tmp2, tmp3, tmp2
smlabb tmp0, tmp0, s, half
smlabb tmp1, tmp1, s, half
smlabb tmp2, tmp2, s, half
add tmp0, tmp0, asr #8
add tmp1, tmp1, asr #8
add tmp2, tmp2, asr #8
pkhbt tmp0, tmp0, tmp1, lsl #16
and tmp2, tmp2, #0xff00
uxtb16 tmp0, tmp0, ror #8
orr tmp0, tmp0, tmp2
uadd8 d, d, tmp0
.endm
.macro RGBtoRGBPixelAlpha_1pixel_opaque s, d
and d, d, #0xff000000
bic s, s, #0xff000000
orr d, d, s
.endm
.macro RGBtoRGBPixelAlpha_process_head cond, numbytes, firstreg, unaligned_src, unaligned_mask, preload
.if numbytes == 16
ldm SRC!, {WK0, WK1}
ldm SRC!, {STRIDE_S, STRIDE_M}
ldrd WK2, WK3, [DST], #16
orr SCRATCH, WK0, WK1
and ORIG_W, WK0, WK1
orr SCRATCH, SCRATCH, STRIDE_S
and ORIG_W, ORIG_W, STRIDE_S
orr SCRATCH, SCRATCH, STRIDE_M
and ORIG_W, ORIG_W, STRIDE_M
tst SCRATCH, #0xff000000
.elseif numbytes == 8
ldm SRC!, {WK0, WK1}
ldm DST!, {WK2, WK3}
orr SCRATCH, WK0, WK1
and ORIG_W, WK0, WK1
tst SCRATCH, #0xff000000
.else // numbytes == 4
ldr WK0, [SRC], #4
ldr WK2, [DST], #4
tst WK0, #0xff000000
.endif
.endm
.macro RGBtoRGBPixelAlpha_process_tail cond, numbytes, firstreg
beq 20f @ all transparent
.if numbytes == 16
cmp ORIG_W, #0xff000000
bhs 10f @ all opaque
RGBtoRGBPixelAlpha_1pixel_translucent WK0, WK2, STRIDE_S, STRIDE_M, SCRATCH, ORIG_W, MASK
RGBtoRGBPixelAlpha_1pixel_translucent WK1, WK3, STRIDE_S, STRIDE_M, SCRATCH, ORIG_W, MASK
strd WK2, WK3, [DST, #-16]
ldrd WK0, WK1, [SRC, #-8]
ldrd WK2, WK3, [DST, #-8]
RGBtoRGBPixelAlpha_1pixel_translucent WK0, WK2, STRIDE_S, STRIDE_M, SCRATCH, ORIG_W, MASK
RGBtoRGBPixelAlpha_1pixel_translucent WK1, WK3, STRIDE_S, STRIDE_M, SCRATCH, ORIG_W, MASK
b 19f
10: RGBtoRGBPixelAlpha_1pixel_opaque WK0, WK2
RGBtoRGBPixelAlpha_1pixel_opaque WK1, WK3
strd WK2, WK3, [DST, #-16]
ldrd WK0, WK1, [SRC, #-8]
ldrd WK2, WK3, [DST, #-8]
RGBtoRGBPixelAlpha_1pixel_opaque WK0, WK2
RGBtoRGBPixelAlpha_1pixel_opaque WK1, WK3
19: strd WK2, WK3, [DST, #-8]
.elseif numbytes == 8
cmp ORIG_W, #0xff000000
bhs 10f @ all opaque
RGBtoRGBPixelAlpha_1pixel_translucent WK0, WK2, STRIDE_S, STRIDE_M, SCRATCH, ORIG_W, MASK
RGBtoRGBPixelAlpha_1pixel_translucent WK1, WK3, STRIDE_S, STRIDE_M, SCRATCH, ORIG_W, MASK
b 19f
10: RGBtoRGBPixelAlpha_1pixel_opaque WK0, WK2
RGBtoRGBPixelAlpha_1pixel_opaque WK1, WK3
19: strd WK2, WK3, [DST, #-8]
.else // numbytes == 4
cmp WK0, #0xff000000
bhs 10f @ opaque
RGBtoRGBPixelAlpha_1pixel_translucent WK0, WK2, STRIDE_S, STRIDE_M, SCRATCH, ORIG_W, MASK
b 19f
10: RGBtoRGBPixelAlpha_1pixel_opaque WK0, WK2
19: str WK2, [DST, #-4]
.endif
20:
.endm
generate_composite_function \
BlitRGBtoRGBPixelAlphaARMSIMDAsm, 32, 0, 32, \
FLAG_DST_READWRITE | FLAG_BRANCH_OVER | FLAG_PROCESS_CORRUPTS_PSR | FLAG_PROCESS_DOES_STORE | FLAG_SPILL_LINE_VARS | FLAG_PROCESS_CORRUPTS_WK0, \
2, /* prefetch distance */ \
RGBtoRGBPixelAlpha_init, \
nop_macro, /* newline */ \
nop_macro, /* cleanup */ \
RGBtoRGBPixelAlpha_process_head, \
RGBtoRGBPixelAlpha_process_tail
/******************************************************************************/
.macro ARGBto565PixelAlpha_init
line_saved_regs STRIDE_D, STRIDE_S, ORIG_W
mov MASK, #0x001f
mov STRIDE_M, #0x0010
orr MASK, MASK, MASK, lsl #16
orr STRIDE_M, STRIDE_M, STRIDE_M, lsl #16
.endm
.macro ARGBto565PixelAlpha_newline
mov STRIDE_S, #0x0200
.endm
/* On entry:
* s1 holds 1 32bpp source pixel
* d holds 1 16bpp destination pixel
* rbmask, rbhalf, ghalf hold 0x001f001f, 0x00100010, 0x00000200 respectively
* other registers are temporaries
* On exit:
* Constant registers preserved
*/
.macro ARGBto565PixelAlpha_1pixel_translucent s, d, rbmask, rbhalf, ghalf, alpha, rb, g, misc
mov alpha, s, lsr #27
and misc, s, #0xfc00
and g, d, #0x07e0
pkhbt rb, d, d, lsl #5
rsb misc, g, misc, lsr #5
and s, rbmask, s, lsr #3
and rb, rbmask, rb
sub s, s, rb
smlabb misc, misc, alpha, ghalf
mla s, s, alpha, rbhalf
add misc, misc, misc, lsl #5
add g, g, misc, asr #10
add s, s, s, lsl #5
and g, g, #0x07e0
add rb, rb, s, asr #10
and rb, rb, rbmask
pkhbt rb, rb, rb, lsl #11
orr d, rb, g
orr d, d, rb, lsr #16
.endm
/* On entry:
* s1 holds 1 32bpp source pixel
* d holds 1 16bpp destination pixel
* rbmask holds 0x001f001f
* On exit:
* Constant registers preserved
*/
.macro ARGBto565PixelAlpha_1pixel_opaque s, d, rbmask
and d, rbmask, s, lsr #3
and s, s, #0xfc00
orr d, d, d, lsr #5
orr d, d, s, lsr #5
.endm
/* On entry:
* s1, s2 hold 2 32bpp source pixels
* d holds 2 16bpp destination pixels
* rbmask, rbhalf, ghalf hold 0x001f001f, 0x00100010, 0x00000200 respectively
* other registers are temporaries
* On exit:
* Constant registers preserved
* Blended results have been written through destination pointer
*/
.macro ARGBto565PixelAlpha_2pixels_translucent s1, s2, d, rbmask, rbhalf, ghalf, alpha, rb, g, misc
mov alpha, s1, lsr #27
and misc, s1, #0xfc00
and g, d, #0x07e0
pkhbt rb, d, d, lsl #5
rsb misc, g, misc, lsr #5
and s1, rbmask, s1, lsr #3
and rb, rbmask, rb
sub s1, s1, rb
smlabb misc, misc, alpha, ghalf
mla s1, s1, alpha, rbhalf
uxth d, d, ror #16
add misc, misc, misc, lsl #5
mov alpha, s2, lsr #27
add g, g, misc, asr #10
add s1, s1, s1, lsl #5
and g, g, #0x07e0
add rb, rb, s1, asr #10
and rb, rb, rbmask
and misc, s2, #0xfc00
pkhbt rb, rb, rb, lsl #11
and s1, d, #0x07e0
pkhbt d, d, d, lsl #5
rsb misc, s1, misc, lsr #5
and s2, rbmask, s2, lsr #3
and d, rbmask, d
sub s2, s2, d
smlabb misc, misc, alpha, ghalf
mla s2, s2, alpha, rbhalf
orr alpha, rb, g
add misc, misc, misc, lsl #5
orr alpha, alpha, rb, lsr #16
add s1, s1, misc, asr #10
add s2, s2, s2, lsl #5
and s1, s1, #0x07e0
add d, d, s2, asr #10
and d, d, rbmask
strh alpha, [DST, #-4]
pkhbt d, d, d, lsl #11
orr alpha, d, s1
orr alpha, alpha, d, lsr #16
strh alpha, [DST, #-2]
.endm
/* On entry:
* s1, s2 hold 2 32bpp source pixels
* rbmask holds 0x001f001f
* other registers are temporaries
* On exit:
* Constant registers preserved
* Blended results have been written through destination pointer
*/
.macro ARGBto565PixelAlpha_2pixels_opaque s1, s2, d, rbmask, g
and g, s1, #0xfc00
and d, rbmask, s1, lsr #3
and s1, rbmask, s2, lsr #3
orr d, d, d, lsr #5
orr d, d, g, lsr #5
and g, s2, #0xfc00
strh d, [DST, #-4]
orr s1, s1, s1, lsr #5
orr s1, s1, g, lsr #5
strh s1, [DST, #-2]
.endm
.macro ARGBto565PixelAlpha_2pixels_head
ldrd WK0, WK1, [SRC], #8
ldr WK2, [DST], #4
orr SCRATCH, WK0, WK1
and ORIG_W, WK0, WK1
tst SCRATCH, #0xff000000
.endm
.macro ARGBto565PixelAlpha_2pixels_tail
beq 20f @ all transparent
cmp ORIG_W, #0xff000000
bhs 10f @ all opaque
ARGBto565PixelAlpha_2pixels_translucent WK0, WK1, WK2, MASK, STRIDE_M, STRIDE_S, STRIDE_D, WK3, SCRATCH, ORIG_W
b 20f
10: ARGBto565PixelAlpha_2pixels_opaque WK0, WK1, WK2, MASK, SCRATCH
20:
.endm
.macro ARGBto565PixelAlpha_process_head cond, numbytes, firstreg, unaligned_src, unaligned_mask, preload
.if numbytes == 16
ARGBto565PixelAlpha_2pixels_head
ARGBto565PixelAlpha_2pixels_tail
ARGBto565PixelAlpha_2pixels_head
ARGBto565PixelAlpha_2pixels_tail
.endif
.if numbytes >= 8
ARGBto565PixelAlpha_2pixels_head
ARGBto565PixelAlpha_2pixels_tail
.endif
.if numbytes >= 4
ARGBto565PixelAlpha_2pixels_head
.else // numbytes == 2
ldr WK0, [SRC], #4
ldrh WK2, [DST], #2
tst WK0, #0xff000000
.endif
.endm
.macro ARGBto565PixelAlpha_process_tail cond, numbytes, firstreg
.if numbytes >= 4
ARGBto565PixelAlpha_2pixels_tail
.else // numbytes == 2
beq 20f @ all transparent
cmp WK0, #0xff000000
bhs 10f @ opaque
ARGBto565PixelAlpha_1pixel_translucent WK0, WK2, MASK, STRIDE_M, STRIDE_S, STRIDE_D, WK3, SCRATCH, ORIG_W
b 19f
10: ARGBto565PixelAlpha_1pixel_opaque WK0, WK2, MASK
19: strh WK2, [DST, #-2]
20:
.endif
.endm
generate_composite_function \
BlitARGBto565PixelAlphaARMSIMDAsm, 32, 0, 16, \
FLAG_DST_READWRITE | FLAG_BRANCH_OVER | FLAG_PROCESS_CORRUPTS_PSR | FLAG_PROCESS_DOES_STORE | FLAG_SPILL_LINE_VARS | FLAG_PROCESS_CORRUPTS_WK0, \
2, /* prefetch distance */ \
ARGBto565PixelAlpha_init, \
ARGBto565PixelAlpha_newline, \
nop_macro, /* cleanup */ \
ARGBto565PixelAlpha_process_head, \
ARGBto565PixelAlpha_process_tail
/******************************************************************************/
.macro BGR888toRGB888_1pixel cond, reg, tmp
uxtb16&cond tmp, WK®, ror #8
uxtb16&cond WK®, WK®, ror #16
orr&cond WK®, WK®, tmp, lsl #8
.endm
.macro BGR888toRGB888_2pixels cond, reg1, reg2, tmp1, tmp2
uxtb16&cond tmp1, WK®1, ror #8
uxtb16&cond WK®1, WK®1, ror #16
uxtb16&cond tmp2, WK®2, ror #8
uxtb16&cond WK®2, WK®2, ror #16
orr&cond WK®1, WK®1, tmp1, lsl #8
orr&cond WK®2, WK®2, tmp2, lsl #8
.endm
.macro BGR888toRGB888_process_head cond, numbytes, firstreg, unaligned_src, unaligned_mask, preload
pixld cond, numbytes, firstreg, SRC, unaligned_src
.endm
.macro BGR888toRGB888_process_tail cond, numbytes, firstreg
.if numbytes >= 8
BGR888toRGB888_2pixels cond, %(firstreg+0), %(firstreg+1), MASK, STRIDE_M
.if numbytes == 16
BGR888toRGB888_2pixels cond, %(firstreg+2), %(firstreg+3), MASK, STRIDE_M
.endif
.else @ numbytes == 4
BGR888toRGB888_1pixel cond, %(firstreg+0), MASK
.endif
.endm
generate_composite_function \
Blit_BGR888_RGB888ARMSIMDAsm, 32, 0, 32, \
FLAG_DST_WRITEONLY | FLAG_COND_EXEC | FLAG_PROCESS_PRESERVES_SCRATCH, \
2, /* prefetch distance */ \
nop_macro, /* init */ \
nop_macro, /* newline */ \
nop_macro, /* cleanup */ \
BGR888toRGB888_process_head, \
BGR888toRGB888_process_tail
/******************************************************************************/
.macro RGB444toRGB888_init
ldr MASK, =0x0f0f0f0f
/* Set GE[3:0] to 0101 so SEL instructions do what we want */
msr CPSR_s, #0x50000
.endm
.macro RGB444toRGB888_1pixel reg, mask, tmp
pkhbt WK®, WK®, WK®, lsl #12 @ 0000aaaarrrrggggaaaarrrrggggbbbb
and WK®, mask, WK® @ 0000aaaa0000gggg0000rrrr0000bbbb
orr WK®, WK®, WK®, lsl #4 @ aaaaaaaaggggggggrrrrrrrrbbbbbbbb
pkhtb tmp, WK®, WK®, asr #8 @ aaaaaaaaggggggggggggggggrrrrrrrr
pkhbt WK®, WK®, WK®, lsl #8 @ ggggggggrrrrrrrrrrrrrrrrbbbbbbbb
sel WK®, WK®, tmp @ aaaaaaaarrrrrrrrggggggggbbbbbbbb
.endm
.macro RGB444toRGB888_2pixels in, out1, out2, mask, tmp1, tmp2
and tmp1, mask, WK&in @ 0000RRRR0000BBBB0000rrrr0000bbbb
and tmp2, mask, WK&in, lsr #4 @ 0000AAAA0000GGGG0000aaaa0000gggg
orr tmp1, tmp1, tmp1, lsl #4 @ RRRRRRRRBBBBBBBBrrrrrrrrbbbbbbbb
orr tmp2, tmp2, tmp2, lsl #4 @ AAAAAAAAGGGGGGGGaaaaaaaagggggggg
pkhtb WK&out2, tmp2, tmp1, asr #16 @ AAAAAAAAGGGGGGGGRRRRRRRRBBBBBBBB
pkhbt WK&out1, tmp1, tmp2, lsl #16 @ aaaaaaaaggggggggrrrrrrrrbbbbbbbb
pkhtb tmp2, WK&out2, WK&out2, asr #8 @ AAAAAAAAGGGGGGGGGGGGGGGGRRRRRRRR
pkhtb tmp1, WK&out1, WK&out1, asr #8 @ aaaaaaaaggggggggggggggggrrrrrrrr
pkhbt WK&out1, WK&out1, WK&out1, lsl #8 @ ggggggggrrrrrrrrrrrrrrrrbbbbbbbb
pkhbt WK&out2, WK&out2, WK&out2, lsl #8 @ GGGGGGGGRRRRRRRRRRRRRRRRBBBBBBBB
sel WK&out1, WK&out1, tmp1 @ aaaaaaaarrrrrrrrggggggggbbbbbbbb
sel WK&out2, WK&out2, tmp2 @ AAAAAAAARRRRRRRRGGGGGGGGBBBBBBBB
.endm
.macro RGB444toRGB888_process_head cond, numbytes, firstreg, unaligned_src, unaligned_mask, preload
pixld cond, numbytes/2, firstreg, SRC, unaligned_src
.endm
.macro RGB444toRGB888_process_tail cond, numbytes, firstreg
.if numbytes >= 8
.if numbytes == 16
RGB444toRGB888_2pixels %(firstreg+1), %(firstreg+2), %(firstreg+3), MASK, STRIDE_M, SCRATCH
.endif
RGB444toRGB888_2pixels %(firstreg+0), %(firstreg+0), %(firstreg+1), MASK, STRIDE_M, SCRATCH
.else @ numbytes == 4
RGB444toRGB888_1pixel %(firstreg+0), MASK, SCRATCH
.endif
.endm
generate_composite_function \
Blit_RGB444_RGB888ARMSIMDAsm, 16, 0, 32, \
FLAG_DST_WRITEONLY | FLAG_BRANCH_OVER, \
2, /* prefetch distance */ \
RGB444toRGB888_init, \
nop_macro, /* newline */ \
nop_macro, /* cleanup */ \
RGB444toRGB888_process_head, \
RGB444toRGB888_process_tail