/*
* Copyright © 2012 Raspberry Pi Foundation
* Copyright © 2012 RISC OS Open Ltd
*
* Permission to use, copy, modify, distribute, and sell this software and its
* documentation for any purpose is hereby granted without fee, provided that
* the above copyright notice appear in all copies and that both that
* copyright notice and this permission notice appear in supporting
* documentation, and that the name of the copyright holders not be used in
* advertising or publicity pertaining to distribution of the software without
* specific, written prior permission. The copyright holders make no
* representations about the suitability of this software for any purpose. It
* is provided "as is" without express or implied warranty.
*
* THE COPYRIGHT HOLDERS DISCLAIM ALL WARRANTIES WITH REGARD TO THIS
* SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND
* FITNESS, IN NO EVENT SHALL THE COPYRIGHT HOLDERS BE LIABLE FOR ANY
* SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN
* AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING
* OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS
* SOFTWARE.
*
* Author: Ben Avison (bavison@riscosopen.org)
*
*/
/* 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-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 blit_init
line_saved_regs STRIDE_D, STRIDE_S
.endm
.macro blit_process_head cond, numbytes, firstreg, unaligned_src, unaligned_mask, preload
pixld cond, numbytes, firstreg, SRC, unaligned_src
.endm
.macro blit_inner_loop process_head, process_tail, unaligned_src, unaligned_mask, dst_alignment
WK4 .req STRIDE_D
WK5 .req STRIDE_S
WK6 .req MASK
WK7 .req STRIDE_M
110: pixld , 16, 0, SRC, unaligned_src
pixld , 16, 4, SRC, unaligned_src
pld [SRC, SCRATCH]
pixst , 16, 0, DST
pixst , 16, 4, DST
subs X, X, #32*8/src_bpp
bhs 110b
.unreq WK4
.unreq WK5
.unreq WK6
.unreq WK7
.endm
generate_composite_function \
pixman_composite_src_8888_8888_asm_armv6, 32, 0, 32, \
FLAG_DST_WRITEONLY | FLAG_COND_EXEC | FLAG_SPILL_LINE_VARS_WIDE | FLAG_PROCESS_PRESERVES_SCRATCH, \
4, /* prefetch distance */ \
blit_init, \
nop_macro, /* newline */ \
nop_macro, /* cleanup */ \
blit_process_head, \
nop_macro, /* process tail */ \
blit_inner_loop
generate_composite_function \
pixman_composite_src_0565_0565_asm_armv6, 16, 0, 16, \
FLAG_DST_WRITEONLY | FLAG_COND_EXEC | FLAG_SPILL_LINE_VARS_WIDE | FLAG_PROCESS_PRESERVES_SCRATCH, \
4, /* prefetch distance */ \
blit_init, \
nop_macro, /* newline */ \
nop_macro, /* cleanup */ \
blit_process_head, \
nop_macro, /* process tail */ \
blit_inner_loop
generate_composite_function \
pixman_composite_src_8_8_asm_armv6, 8, 0, 8, \
FLAG_DST_WRITEONLY | FLAG_COND_EXEC | FLAG_SPILL_LINE_VARS_WIDE | FLAG_PROCESS_PRESERVES_SCRATCH, \
3, /* prefetch distance */ \
blit_init, \
nop_macro, /* newline */ \
nop_macro, /* cleanup */ \
blit_process_head, \
nop_macro, /* process tail */ \
blit_inner_loop
/******************************************************************************/
.macro src_n_8888_init
ldr SRC, [sp, #ARGS_STACK_OFFSET]
mov STRIDE_S, SRC
mov MASK, SRC
mov STRIDE_M, SRC
.endm
.macro src_n_0565_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 src_n_8_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 fill_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 \
pixman_composite_src_n_8888_asm_armv6, 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 */ \
src_n_8888_init \
nop_macro, /* newline */ \
nop_macro /* cleanup */ \
nop_macro /* process head */ \
fill_process_tail
generate_composite_function \
pixman_composite_src_n_0565_asm_armv6, 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 */ \
src_n_0565_init \
nop_macro, /* newline */ \
nop_macro /* cleanup */ \
nop_macro /* process head */ \
fill_process_tail
generate_composite_function \
pixman_composite_src_n_8_asm_armv6, 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 */ \
src_n_8_init \
nop_macro, /* newline */ \
nop_macro /* cleanup */ \
nop_macro /* process head */ \
fill_process_tail
/******************************************************************************/
.macro src_x888_8888_pixel, cond, reg
orr&cond WK®, WK®, #0xFF000000
.endm
.macro pixman_composite_src_x888_8888_process_head cond, numbytes, firstreg, unaligned_src, unaligned_mask, preload
pixld cond, numbytes, firstreg, SRC, unaligned_src
.endm
.macro pixman_composite_src_x888_8888_process_tail cond, numbytes, firstreg
src_x888_8888_pixel cond, %(firstreg+0)
.if numbytes >= 8
src_x888_8888_pixel cond, %(firstreg+1)
.if numbytes == 16
src_x888_8888_pixel cond, %(firstreg+2)
src_x888_8888_pixel cond, %(firstreg+3)
.endif
.endif
.endm
generate_composite_function \
pixman_composite_src_x888_8888_asm_armv6, 32, 0, 32, \
FLAG_DST_WRITEONLY | FLAG_COND_EXEC | FLAG_PROCESS_PRESERVES_SCRATCH, \
3, /* prefetch distance */ \
nop_macro, /* init */ \
nop_macro, /* newline */ \
nop_macro, /* cleanup */ \
pixman_composite_src_x888_8888_process_head, \
pixman_composite_src_x888_8888_process_tail
/******************************************************************************/
.macro src_0565_8888_init
/* Hold loop invariants in MASK and STRIDE_M */
ldr MASK, =0x07E007E0
mov STRIDE_M, #0xFF000000
/* Set GE[3:0] to 1010 so SEL instructions do what we want */
ldr SCRATCH, =0x80008000
uadd8 SCRATCH, SCRATCH, SCRATCH
.endm
.macro src_0565_8888_2pixels, reg1, reg2
and SCRATCH, WK®1, MASK @ 00000GGGGGG0000000000gggggg00000
bic WK®2, WK®1, MASK @ RRRRR000000BBBBBrrrrr000000bbbbb
orr SCRATCH, SCRATCH, SCRATCH, lsr #6 @ 00000GGGGGGGGGGGG0000ggggggggggg
mov WK®1, WK®2, lsl #16 @ rrrrr000000bbbbb0000000000000000
mov SCRATCH, SCRATCH, ror #19 @ GGGG0000ggggggggggg00000GGGGGGGG
bic WK®2, WK®2, WK®1, lsr #16 @ RRRRR000000BBBBB0000000000000000
orr WK®1, WK®1, WK®1, lsr #5 @ rrrrrrrrrr0bbbbbbbbbb00000000000
orr WK®2, WK®2, WK®2, lsr #5 @ RRRRRRRRRR0BBBBBBBBBB00000000000
pkhtb WK®1, WK®1, WK®1, asr #5 @ rrrrrrrr--------bbbbbbbb--------
sel WK®1, WK®1, SCRATCH @ rrrrrrrrggggggggbbbbbbbb--------
mov SCRATCH, SCRATCH, ror #16 @ ggg00000GGGGGGGGGGGG0000gggggggg
pkhtb WK®2, WK®2, WK®2, asr #5 @ RRRRRRRR--------BBBBBBBB--------
sel WK®2, WK®2, SCRATCH @ RRRRRRRRGGGGGGGGBBBBBBBB--------
orr WK®1, STRIDE_M, WK®1, lsr #8 @ 11111111rrrrrrrrggggggggbbbbbbbb
orr WK®2, STRIDE_M, WK®2, lsr #8 @ 11111111RRRRRRRRGGGGGGGGBBBBBBBB
.endm
/* This version doesn't need STRIDE_M, but is one instruction longer.
It would however be preferable for an XRGB target, since we could knock off the last 2 instructions, but is that a common case?
and SCRATCH, WK®1, MASK @ 00000GGGGGG0000000000gggggg00000
bic WK®1, WK®1, MASK @ RRRRR000000BBBBBrrrrr000000bbbbb
orr SCRATCH, SCRATCH, SCRATCH, lsr #6 @ 00000GGGGGGGGGGGG0000ggggggggggg
mov WK®2, WK®1, lsr #16 @ 0000000000000000RRRRR000000BBBBB
mov SCRATCH, SCRATCH, ror #27 @ GGGGGGGGGGGG0000ggggggggggg00000
bic WK®1, WK®1, WK®2, lsl #16 @ 0000000000000000rrrrr000000bbbbb
mov WK®2, WK®2, lsl #3 @ 0000000000000RRRRR000000BBBBB000
mov WK®1, WK®1, lsl #3 @ 0000000000000rrrrr000000bbbbb000
orr WK®2, WK®2, WK®2, lsr #5 @ 0000000000000RRRRRRRRRR0BBBBBBBB
orr WK®1, WK®1, WK®1, lsr #5 @ 0000000000000rrrrrrrrrr0bbbbbbbb
pkhbt WK®2, WK®2, WK®2, lsl #5 @ --------RRRRRRRR--------BBBBBBBB
pkhbt WK®1, WK®1, WK®1, lsl #5 @ --------rrrrrrrr--------bbbbbbbb
sel WK®2, SCRATCH, WK®2 @ --------RRRRRRRRGGGGGGGGBBBBBBBB
sel WK®1, SCRATCH, WK®1 @ --------rrrrrrrrggggggggbbbbbbbb
orr WK®2, WK®2, #0xFF000000 @ 11111111RRRRRRRRGGGGGGGGBBBBBBBB
orr WK®1, WK®1, #0xFF000000 @ 11111111rrrrrrrrggggggggbbbbbbbb
*/
.macro src_0565_8888_1pixel, reg
bic SCRATCH, WK®, MASK @ 0000000000000000rrrrr000000bbbbb
and WK®, WK®, MASK @ 000000000000000000000gggggg00000
mov SCRATCH, SCRATCH, lsl #3 @ 0000000000000rrrrr000000bbbbb000
mov WK®, WK®, lsl #5 @ 0000000000000000gggggg0000000000
orr SCRATCH, SCRATCH, SCRATCH, lsr #5 @ 0000000000000rrrrrrrrrr0bbbbbbbb
orr WK®, WK®, WK®, lsr #6 @ 000000000000000gggggggggggg00000
pkhbt SCRATCH, SCRATCH, SCRATCH, lsl #5 @ --------rrrrrrrr--------bbbbbbbb
sel WK®, WK®, SCRATCH @ --------rrrrrrrrggggggggbbbbbbbb
orr WK®, WK®, #0xFF000000 @ 11111111rrrrrrrrggggggggbbbbbbbb
.endm
.macro src_0565_8888_process_head cond, numbytes, firstreg, unaligned_src, unaligned_mask, preload
.if numbytes == 16
pixldst ld,, 8, firstreg, %(firstreg+2),,, SRC, unaligned_src
.elseif numbytes == 8
pixld , 4, firstreg, SRC, unaligned_src
.elseif numbytes == 4
pixld , 2, firstreg, SRC, unaligned_src
.endif
.endm
.macro src_0565_8888_process_tail cond, numbytes, firstreg
.if numbytes == 16
src_0565_8888_2pixels firstreg, %(firstreg+1)
src_0565_8888_2pixels %(firstreg+2), %(firstreg+3)
.elseif numbytes == 8
src_0565_8888_2pixels firstreg, %(firstreg+1)
.else
src_0565_8888_1pixel firstreg
.endif
.endm
generate_composite_function \
pixman_composite_src_0565_8888_asm_armv6, 16, 0, 32, \
FLAG_DST_WRITEONLY | FLAG_BRANCH_OVER, \
3, /* prefetch distance */ \
src_0565_8888_init, \
nop_macro, /* newline */ \
nop_macro, /* cleanup */ \
src_0565_8888_process_head, \
src_0565_8888_process_tail
/******************************************************************************/
.macro add_8_8_8pixels cond, dst1, dst2
uqadd8&cond WK&dst1, WK&dst1, MASK
uqadd8&cond WK&dst2, WK&dst2, STRIDE_M
.endm
.macro add_8_8_4pixels cond, dst
uqadd8&cond WK&dst, WK&dst, MASK
.endm
.macro add_8_8_process_head cond, numbytes, firstreg, unaligned_src, unaligned_mask, preload
WK4 .req MASK
WK5 .req STRIDE_M
.if numbytes == 16
pixld cond, 8, 4, SRC, unaligned_src
pixld cond, 16, firstreg, DST, 0
add_8_8_8pixels cond, firstreg, %(firstreg+1)
pixld cond, 8, 4, SRC, unaligned_src
.else
pixld cond, numbytes, 4, SRC, unaligned_src
pixld cond, numbytes, firstreg, DST, 0
.endif
.unreq WK4
.unreq WK5
.endm
.macro add_8_8_process_tail cond, numbytes, firstreg
.if numbytes == 16
add_8_8_8pixels cond, %(firstreg+2), %(firstreg+3)
.elseif numbytes == 8
add_8_8_8pixels cond, firstreg, %(firstreg+1)
.else
add_8_8_4pixels cond, firstreg
.endif
.endm
generate_composite_function \
pixman_composite_add_8_8_asm_armv6, 8, 0, 8, \
FLAG_DST_READWRITE | FLAG_BRANCH_OVER | FLAG_PROCESS_PRESERVES_SCRATCH, \
2, /* prefetch distance */ \
nop_macro, /* init */ \
nop_macro, /* newline */ \
nop_macro, /* cleanup */ \
add_8_8_process_head, \
add_8_8_process_tail
/******************************************************************************/
.macro over_8888_8888_init
/* Hold loop invariant in MASK */
ldr MASK, =0x00800080
/* Set GE[3:0] to 0101 so SEL instructions do what we want */
uadd8 SCRATCH, MASK, MASK
line_saved_regs STRIDE_D, STRIDE_S, ORIG_W
.endm
.macro over_8888_8888_process_head cond, numbytes, firstreg, unaligned_src, unaligned_mask, preload
WK4 .req STRIDE_D
WK5 .req STRIDE_S
WK6 .req STRIDE_M
WK7 .req ORIG_W
pixld , numbytes, %(4+firstreg), SRC, unaligned_src
pixld , numbytes, firstreg, DST, 0
.unreq WK4
.unreq WK5
.unreq WK6
.unreq WK7
.endm
.macro over_8888_8888_check_transparent numbytes, reg0, reg1, reg2, reg3
/* Since these colours a premultiplied by alpha, only 0 indicates transparent (any other colour with 0 in the alpha byte is luminous) */
teq WK®0, #0
.if numbytes > 4
teqeq WK®1, #0
.if numbytes > 8
teqeq WK®2, #0
teqeq WK®3, #0
.endif
.endif
.endm
.macro over_8888_8888_prepare next
mov WK&next, WK&next, lsr #24
.endm
.macro over_8888_8888_1pixel src, dst, offset, next
/* src = destination component multiplier */
rsb WK&src, WK&src, #255
/* Split even/odd bytes of dst into SCRATCH/dst */
uxtb16 SCRATCH, WK&dst
uxtb16 WK&dst, WK&dst, ror #8
/* Multiply through, adding 0.5 to the upper byte of result for rounding */
mla SCRATCH, SCRATCH, WK&src, MASK
mla WK&dst, WK&dst, WK&src, MASK
/* Where we would have had a stall between the result of the first MLA and the shifter input,
* reload the complete source pixel */
ldr WK&src, [SRC, #offset]
/* Multiply by 257/256 to approximate 256/255 */
uxtab16 SCRATCH, SCRATCH, SCRATCH, ror #8
/* In this stall, start processing the next pixel */
.if offset < -4
mov WK&next, WK&next, lsr #24
.endif
uxtab16 WK&dst, WK&dst, WK&dst, ror #8
/* Recombine even/odd bytes of multiplied destination */
mov SCRATCH, SCRATCH, ror #8
sel WK&dst, SCRATCH, WK&dst
/* Saturated add of source to multiplied destination */
uqadd8 WK&dst, WK&dst, WK&src
.endm
.macro over_8888_8888_process_tail cond, numbytes, firstreg
WK4 .req STRIDE_D
WK5 .req STRIDE_S
WK6 .req STRIDE_M
WK7 .req ORIG_W
over_8888_8888_check_transparent numbytes, %(4+firstreg), %(5+firstreg), %(6+firstreg), %(7+firstreg)
beq 10f
over_8888_8888_prepare %(4+firstreg)
.set PROCESS_REG, firstreg
.set PROCESS_OFF, -numbytes
.rept numbytes / 4
over_8888_8888_1pixel %(4+PROCESS_REG), %(0+PROCESS_REG), PROCESS_OFF, %(5+PROCESS_REG)
.set PROCESS_REG, PROCESS_REG+1
.set PROCESS_OFF, PROCESS_OFF+4
.endr
pixst , numbytes, firstreg, DST
10:
.unreq WK4
.unreq WK5
.unreq WK6
.unreq WK7
.endm
generate_composite_function \
pixman_composite_over_8888_8888_asm_armv6, 32, 0, 32 \
FLAG_DST_READWRITE | FLAG_BRANCH_OVER | FLAG_PROCESS_CORRUPTS_PSR | FLAG_PROCESS_DOES_STORE | FLAG_SPILL_LINE_VARS \
2, /* prefetch distance */ \
over_8888_8888_init, \
nop_macro, /* newline */ \
nop_macro, /* cleanup */ \
over_8888_8888_process_head, \
over_8888_8888_process_tail
/******************************************************************************/
/* Multiply each byte of a word by a byte.
* Useful when there aren't any obvious ways to fill the stalls with other instructions.
* word Register containing 4 bytes
* byte Register containing byte multiplier (bits 8-31 must be 0)
* tmp Scratch register
* half Register containing the constant 0x00800080
* GE[3:0] bits must contain 0101
*/
.macro mul_8888_8 word, byte, tmp, half
/* Split even/odd bytes of word apart */
uxtb16 tmp, word
uxtb16 word, word, ror #8
/* Multiply bytes together with rounding, then by 257/256 */
mla tmp, tmp, byte, half
mla word, word, byte, half /* 1 stall follows */
uxtab16 tmp, tmp, tmp, ror #8 /* 1 stall follows */
uxtab16 word, word, word, ror #8
/* Recombine bytes */
mov tmp, tmp, ror #8
sel word, tmp, word
.endm
/******************************************************************************/
.macro over_8888_n_8888_init
/* Mask is constant */
ldr MASK, [sp, #ARGS_STACK_OFFSET+8]
/* Hold loop invariant in STRIDE_M */
ldr STRIDE_M, =0x00800080
/* We only want the alpha bits of the constant mask */
mov MASK, MASK, lsr #24
/* Set GE[3:0] to 0101 so SEL instructions do what we want */
uadd8 SCRATCH, STRIDE_M, STRIDE_M
line_saved_regs Y, STRIDE_D, STRIDE_S, ORIG_W
.endm
.macro over_8888_n_8888_process_head cond, numbytes, firstreg, unaligned_src, unaligned_mask, preload
WK4 .req Y
WK5 .req STRIDE_D
WK6 .req STRIDE_S
WK7 .req ORIG_W
pixld , numbytes, %(4+(firstreg%2)), SRC, unaligned_src
pixld , numbytes, firstreg, DST, 0
.unreq WK4
.unreq WK5
.unreq WK6
.unreq WK7
.endm
.macro over_8888_n_8888_1pixel src, dst
mul_8888_8 WK&src, MASK, SCRATCH, STRIDE_M
sub WK7, WK6, WK&src, lsr #24
mul_8888_8 WK&dst, WK7, SCRATCH, STRIDE_M
uqadd8 WK&dst, WK&dst, WK&src
.endm
.macro over_8888_n_8888_process_tail cond, numbytes, firstreg
WK4 .req Y
WK5 .req STRIDE_D
WK6 .req STRIDE_S
WK7 .req ORIG_W
over_8888_8888_check_transparent numbytes, %(4+(firstreg%2)), %(5+(firstreg%2)), %(6+firstreg), %(7+firstreg)
beq 10f
mov WK6, #255
.set PROCESS_REG, firstreg
.rept numbytes / 4
.if numbytes == 16 && PROCESS_REG == 2
/* We're using WK6 and WK7 as temporaries, so half way through
* 4 pixels, reload the second two source pixels but this time
* into WK4 and WK5 */
ldmdb SRC, {WK4, WK5}
.endif
over_8888_n_8888_1pixel %(4+(PROCESS_REG%2)), %(PROCESS_REG)
.set PROCESS_REG, PROCESS_REG+1
.endr
pixst , numbytes, firstreg, DST
10:
.unreq WK4
.unreq WK5
.unreq WK6
.unreq WK7
.endm
generate_composite_function \
pixman_composite_over_8888_n_8888_asm_armv6, 32, 0, 32 \
FLAG_DST_READWRITE | FLAG_BRANCH_OVER | FLAG_PROCESS_CORRUPTS_PSR | FLAG_PROCESS_DOES_STORE | FLAG_SPILL_LINE_VARS \
2, /* prefetch distance */ \
over_8888_n_8888_init, \
nop_macro, /* newline */ \
nop_macro, /* cleanup */ \
over_8888_n_8888_process_head, \
over_8888_n_8888_process_tail
/******************************************************************************/
.macro over_n_8_8888_init
/* Source is constant, but splitting it into even/odd bytes is a loop invariant */
ldr SRC, [sp, #ARGS_STACK_OFFSET]
/* Not enough registers to hold this constant, but we still use it here to set GE[3:0] */
ldr SCRATCH, =0x00800080
uxtb16 STRIDE_S, SRC
uxtb16 SRC, SRC, ror #8
/* Set GE[3:0] to 0101 so SEL instructions do what we want */
uadd8 SCRATCH, SCRATCH, SCRATCH
line_saved_regs Y, STRIDE_D, STRIDE_M, ORIG_W
.endm
.macro over_n_8_8888_newline
ldr STRIDE_D, =0x00800080
b 1f
.ltorg
1:
.endm
.macro over_n_8_8888_process_head cond, numbytes, firstreg, unaligned_src, unaligned_mask, preload
WK4 .req STRIDE_M
pixld , numbytes/4, 4, MASK, unaligned_mask
pixld , numbytes, firstreg, DST, 0
.unreq WK4
.endm
.macro over_n_8_8888_1pixel src, dst
uxtb Y, WK4, ror #src*8
/* Trailing part of multiplication of source */
mla SCRATCH, STRIDE_S, Y, STRIDE_D
mla Y, SRC, Y, STRIDE_D
mov ORIG_W, #255
uxtab16 SCRATCH, SCRATCH, SCRATCH, ror #8
uxtab16 Y, Y, Y, ror #8
mov SCRATCH, SCRATCH, ror #8
sub ORIG_W, ORIG_W, Y, lsr #24
sel Y, SCRATCH, Y
/* Then multiply the destination */
mul_8888_8 WK&dst, ORIG_W, SCRATCH, STRIDE_D
uqadd8 WK&dst, WK&dst, Y
.endm
.macro over_n_8_8888_process_tail cond, numbytes, firstreg
WK4 .req STRIDE_M
teq WK4, #0
beq 10f
.set PROCESS_REG, firstreg
.rept numbytes / 4
over_n_8_8888_1pixel %(PROCESS_REG-firstreg), %(PROCESS_REG)
.set PROCESS_REG, PROCESS_REG+1
.endr
pixst , numbytes, firstreg, DST
10:
.unreq WK4
.endm
generate_composite_function \
pixman_composite_over_n_8_8888_asm_armv6, 0, 8, 32 \
FLAG_DST_READWRITE | FLAG_BRANCH_OVER | FLAG_PROCESS_CORRUPTS_PSR | FLAG_PROCESS_DOES_STORE | FLAG_SPILL_LINE_VARS \
2, /* prefetch distance */ \
over_n_8_8888_init, \
over_n_8_8888_newline, \
nop_macro, /* cleanup */ \
over_n_8_8888_process_head, \
over_n_8_8888_process_tail
/******************************************************************************/