ref: e86670a2af279917397271d6cfe4db2e30fe4693
dir: /third_party/libyuv/source/row_mips.cc/
/*
* Copyright (c) 2012 The LibYuv project authors. All Rights Reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#include "libyuv/row.h"
#ifdef __cplusplus
namespace libyuv {
extern "C" {
#endif
// The following are available on Mips platforms:
#if !defined(LIBYUV_DISABLE_MIPS) && defined(__mips__) && \
(_MIPS_SIM == _MIPS_SIM_ABI32)
#ifdef HAS_COPYROW_MIPS
void CopyRow_MIPS(const uint8* src, uint8* dst, int count) {
__asm__ __volatile__ (
".set noreorder \n"
".set noat \n"
"slti $at, %[count], 8 \n"
"bne $at ,$zero, $last8 \n"
"xor $t8, %[src], %[dst] \n"
"andi $t8, $t8, 0x3 \n"
"bne $t8, $zero, unaligned \n"
"negu $a3, %[dst] \n"
// make dst/src aligned
"andi $a3, $a3, 0x3 \n"
"beq $a3, $zero, $chk16w \n"
// word-aligned now count is the remining bytes count
"subu %[count], %[count], $a3 \n"
"lwr $t8, 0(%[src]) \n"
"addu %[src], %[src], $a3 \n"
"swr $t8, 0(%[dst]) \n"
"addu %[dst], %[dst], $a3 \n"
// Now the dst/src are mutually word-aligned with word-aligned addresses
"$chk16w: \n"
"andi $t8, %[count], 0x3f \n" // whole 64-B chunks?
// t8 is the byte count after 64-byte chunks
"beq %[count], $t8, chk8w \n"
// There will be at most 1 32-byte chunk after it
"subu $a3, %[count], $t8 \n" // the reminder
// Here a3 counts bytes in 16w chunks
"addu $a3, %[dst], $a3 \n"
// Now a3 is the final dst after 64-byte chunks
"addu $t0, %[dst], %[count] \n"
// t0 is the "past the end" address
// When in the loop we exercise "pref 30,x(a1)", the a1+x should not be past
// the "t0-32" address
// This means: for x=128 the last "safe" a1 address is "t0-160"
// Alternatively, for x=64 the last "safe" a1 address is "t0-96"
// we will use "pref 30,128(a1)", so "t0-160" is the limit
"subu $t9, $t0, 160 \n"
// t9 is the "last safe pref 30,128(a1)" address
"pref 0, 0(%[src]) \n" // first line of src
"pref 0, 32(%[src]) \n" // second line of src
"pref 0, 64(%[src]) \n"
"pref 30, 32(%[dst]) \n"
// In case the a1 > t9 don't use "pref 30" at all
"sgtu $v1, %[dst], $t9 \n"
"bgtz $v1, $loop16w \n"
"nop \n"
// otherwise, start with using pref30
"pref 30, 64(%[dst]) \n"
"$loop16w: \n"
"pref 0, 96(%[src]) \n"
"lw $t0, 0(%[src]) \n"
"bgtz $v1, $skip_pref30_96 \n" // skip
"lw $t1, 4(%[src]) \n"
"pref 30, 96(%[dst]) \n" // continue
"$skip_pref30_96: \n"
"lw $t2, 8(%[src]) \n"
"lw $t3, 12(%[src]) \n"
"lw $t4, 16(%[src]) \n"
"lw $t5, 20(%[src]) \n"
"lw $t6, 24(%[src]) \n"
"lw $t7, 28(%[src]) \n"
"pref 0, 128(%[src]) \n"
// bring the next lines of src, addr 128
"sw $t0, 0(%[dst]) \n"
"sw $t1, 4(%[dst]) \n"
"sw $t2, 8(%[dst]) \n"
"sw $t3, 12(%[dst]) \n"
"sw $t4, 16(%[dst]) \n"
"sw $t5, 20(%[dst]) \n"
"sw $t6, 24(%[dst]) \n"
"sw $t7, 28(%[dst]) \n"
"lw $t0, 32(%[src]) \n"
"bgtz $v1, $skip_pref30_128 \n" // skip pref 30,128(a1)
"lw $t1, 36(%[src]) \n"
"pref 30, 128(%[dst]) \n" // set dest, addr 128
"$skip_pref30_128: \n"
"lw $t2, 40(%[src]) \n"
"lw $t3, 44(%[src]) \n"
"lw $t4, 48(%[src]) \n"
"lw $t5, 52(%[src]) \n"
"lw $t6, 56(%[src]) \n"
"lw $t7, 60(%[src]) \n"
"pref 0, 160(%[src]) \n"
// bring the next lines of src, addr 160
"sw $t0, 32(%[dst]) \n"
"sw $t1, 36(%[dst]) \n"
"sw $t2, 40(%[dst]) \n"
"sw $t3, 44(%[dst]) \n"
"sw $t4, 48(%[dst]) \n"
"sw $t5, 52(%[dst]) \n"
"sw $t6, 56(%[dst]) \n"
"sw $t7, 60(%[dst]) \n"
"addiu %[dst], %[dst], 64 \n" // adding 64 to dest
"sgtu $v1, %[dst], $t9 \n"
"bne %[dst], $a3, $loop16w \n"
" addiu %[src], %[src], 64 \n" // adding 64 to src
"move %[count], $t8 \n"
// Here we have src and dest word-aligned but less than 64-bytes to go
"chk8w: \n"
"pref 0, 0x0(%[src]) \n"
"andi $t8, %[count], 0x1f \n" // 32-byte chunk?
// the t8 is the reminder count past 32-bytes
"beq %[count], $t8, chk1w \n"
// count=t8,no 32-byte chunk
" nop \n"
"lw $t0, 0(%[src]) \n"
"lw $t1, 4(%[src]) \n"
"lw $t2, 8(%[src]) \n"
"lw $t3, 12(%[src]) \n"
"lw $t4, 16(%[src]) \n"
"lw $t5, 20(%[src]) \n"
"lw $t6, 24(%[src]) \n"
"lw $t7, 28(%[src]) \n"
"addiu %[src], %[src], 32 \n"
"sw $t0, 0(%[dst]) \n"
"sw $t1, 4(%[dst]) \n"
"sw $t2, 8(%[dst]) \n"
"sw $t3, 12(%[dst]) \n"
"sw $t4, 16(%[dst]) \n"
"sw $t5, 20(%[dst]) \n"
"sw $t6, 24(%[dst]) \n"
"sw $t7, 28(%[dst]) \n"
"addiu %[dst], %[dst], 32 \n"
"chk1w: \n"
"andi %[count], $t8, 0x3 \n"
// now count is the reminder past 1w chunks
"beq %[count], $t8, $last8 \n"
" subu $a3, $t8, %[count] \n"
// a3 is count of bytes in 1w chunks
"addu $a3, %[dst], $a3 \n"
// now a3 is the dst address past the 1w chunks
// copying in words (4-byte chunks)
"$wordCopy_loop: \n"
"lw $t3, 0(%[src]) \n"
// the first t3 may be equal t0 ... optimize?
"addiu %[src], %[src],4 \n"
"addiu %[dst], %[dst],4 \n"
"bne %[dst], $a3,$wordCopy_loop \n"
" sw $t3, -4(%[dst]) \n"
// For the last (<8) bytes
"$last8: \n"
"blez %[count], leave \n"
" addu $a3, %[dst], %[count] \n" // a3 -last dst address
"$last8loop: \n"
"lb $v1, 0(%[src]) \n"
"addiu %[src], %[src], 1 \n"
"addiu %[dst], %[dst], 1 \n"
"bne %[dst], $a3, $last8loop \n"
" sb $v1, -1(%[dst]) \n"
"leave: \n"
" j $ra \n"
" nop \n"
//
// UNALIGNED case
//
"unaligned: \n"
// got here with a3="negu a1"
"andi $a3, $a3, 0x3 \n" // a1 is word aligned?
"beqz $a3, $ua_chk16w \n"
" subu %[count], %[count], $a3 \n"
// bytes left after initial a3 bytes
"lwr $v1, 0(%[src]) \n"
"lwl $v1, 3(%[src]) \n"
"addu %[src], %[src], $a3 \n" // a3 may be 1, 2 or 3
"swr $v1, 0(%[dst]) \n"
"addu %[dst], %[dst], $a3 \n"
// below the dst will be word aligned (NOTE1)
"$ua_chk16w: \n"
"andi $t8, %[count], 0x3f \n" // whole 64-B chunks?
// t8 is the byte count after 64-byte chunks
"beq %[count], $t8, ua_chk8w \n"
// if a2==t8, no 64-byte chunks
// There will be at most 1 32-byte chunk after it
"subu $a3, %[count], $t8 \n" // the reminder
// Here a3 counts bytes in 16w chunks
"addu $a3, %[dst], $a3 \n"
// Now a3 is the final dst after 64-byte chunks
"addu $t0, %[dst], %[count] \n" // t0 "past the end"
"subu $t9, $t0, 160 \n"
// t9 is the "last safe pref 30,128(a1)" address
"pref 0, 0(%[src]) \n" // first line of src
"pref 0, 32(%[src]) \n" // second line addr 32
"pref 0, 64(%[src]) \n"
"pref 30, 32(%[dst]) \n"
// safe, as we have at least 64 bytes ahead
// In case the a1 > t9 don't use "pref 30" at all
"sgtu $v1, %[dst], $t9 \n"
"bgtz $v1, $ua_loop16w \n"
// skip "pref 30,64(a1)" for too short arrays
" nop \n"
// otherwise, start with using pref30
"pref 30, 64(%[dst]) \n"
"$ua_loop16w: \n"
"pref 0, 96(%[src]) \n"
"lwr $t0, 0(%[src]) \n"
"lwl $t0, 3(%[src]) \n"
"lwr $t1, 4(%[src]) \n"
"bgtz $v1, $ua_skip_pref30_96 \n"
" lwl $t1, 7(%[src]) \n"
"pref 30, 96(%[dst]) \n"
// continue setting up the dest, addr 96
"$ua_skip_pref30_96: \n"
"lwr $t2, 8(%[src]) \n"
"lwl $t2, 11(%[src]) \n"
"lwr $t3, 12(%[src]) \n"
"lwl $t3, 15(%[src]) \n"
"lwr $t4, 16(%[src]) \n"
"lwl $t4, 19(%[src]) \n"
"lwr $t5, 20(%[src]) \n"
"lwl $t5, 23(%[src]) \n"
"lwr $t6, 24(%[src]) \n"
"lwl $t6, 27(%[src]) \n"
"lwr $t7, 28(%[src]) \n"
"lwl $t7, 31(%[src]) \n"
"pref 0, 128(%[src]) \n"
// bring the next lines of src, addr 128
"sw $t0, 0(%[dst]) \n"
"sw $t1, 4(%[dst]) \n"
"sw $t2, 8(%[dst]) \n"
"sw $t3, 12(%[dst]) \n"
"sw $t4, 16(%[dst]) \n"
"sw $t5, 20(%[dst]) \n"
"sw $t6, 24(%[dst]) \n"
"sw $t7, 28(%[dst]) \n"
"lwr $t0, 32(%[src]) \n"
"lwl $t0, 35(%[src]) \n"
"lwr $t1, 36(%[src]) \n"
"bgtz $v1, ua_skip_pref30_128 \n"
" lwl $t1, 39(%[src]) \n"
"pref 30, 128(%[dst]) \n"
// continue setting up the dest, addr 128
"ua_skip_pref30_128: \n"
"lwr $t2, 40(%[src]) \n"
"lwl $t2, 43(%[src]) \n"
"lwr $t3, 44(%[src]) \n"
"lwl $t3, 47(%[src]) \n"
"lwr $t4, 48(%[src]) \n"
"lwl $t4, 51(%[src]) \n"
"lwr $t5, 52(%[src]) \n"
"lwl $t5, 55(%[src]) \n"
"lwr $t6, 56(%[src]) \n"
"lwl $t6, 59(%[src]) \n"
"lwr $t7, 60(%[src]) \n"
"lwl $t7, 63(%[src]) \n"
"pref 0, 160(%[src]) \n"
// bring the next lines of src, addr 160
"sw $t0, 32(%[dst]) \n"
"sw $t1, 36(%[dst]) \n"
"sw $t2, 40(%[dst]) \n"
"sw $t3, 44(%[dst]) \n"
"sw $t4, 48(%[dst]) \n"
"sw $t5, 52(%[dst]) \n"
"sw $t6, 56(%[dst]) \n"
"sw $t7, 60(%[dst]) \n"
"addiu %[dst],%[dst],64 \n" // adding 64 to dest
"sgtu $v1,%[dst],$t9 \n"
"bne %[dst],$a3,$ua_loop16w \n"
" addiu %[src],%[src],64 \n" // adding 64 to src
"move %[count],$t8 \n"
// Here we have src and dest word-aligned but less than 64-bytes to go
"ua_chk8w: \n"
"pref 0, 0x0(%[src]) \n"
"andi $t8, %[count], 0x1f \n" // 32-byte chunk?
// the t8 is the reminder count
"beq %[count], $t8, $ua_chk1w \n"
// when count==t8, no 32-byte chunk
"lwr $t0, 0(%[src]) \n"
"lwl $t0, 3(%[src]) \n"
"lwr $t1, 4(%[src]) \n"
"lwl $t1, 7(%[src]) \n"
"lwr $t2, 8(%[src]) \n"
"lwl $t2, 11(%[src]) \n"
"lwr $t3, 12(%[src]) \n"
"lwl $t3, 15(%[src]) \n"
"lwr $t4, 16(%[src]) \n"
"lwl $t4, 19(%[src]) \n"
"lwr $t5, 20(%[src]) \n"
"lwl $t5, 23(%[src]) \n"
"lwr $t6, 24(%[src]) \n"
"lwl $t6, 27(%[src]) \n"
"lwr $t7, 28(%[src]) \n"
"lwl $t7, 31(%[src]) \n"
"addiu %[src], %[src], 32 \n"
"sw $t0, 0(%[dst]) \n"
"sw $t1, 4(%[dst]) \n"
"sw $t2, 8(%[dst]) \n"
"sw $t3, 12(%[dst]) \n"
"sw $t4, 16(%[dst]) \n"
"sw $t5, 20(%[dst]) \n"
"sw $t6, 24(%[dst]) \n"
"sw $t7, 28(%[dst]) \n"
"addiu %[dst], %[dst], 32 \n"
"$ua_chk1w: \n"
"andi %[count], $t8, 0x3 \n"
// now count is the reminder past 1w chunks
"beq %[count], $t8, ua_smallCopy \n"
"subu $a3, $t8, %[count] \n"
// a3 is count of bytes in 1w chunks
"addu $a3, %[dst], $a3 \n"
// now a3 is the dst address past the 1w chunks
// copying in words (4-byte chunks)
"$ua_wordCopy_loop: \n"
"lwr $v1, 0(%[src]) \n"
"lwl $v1, 3(%[src]) \n"
"addiu %[src], %[src], 4 \n"
"addiu %[dst], %[dst], 4 \n"
// note: dst=a1 is word aligned here, see NOTE1
"bne %[dst], $a3, $ua_wordCopy_loop \n"
" sw $v1,-4(%[dst]) \n"
// Now less than 4 bytes (value in count) left to copy
"ua_smallCopy: \n"
"beqz %[count], leave \n"
" addu $a3, %[dst], %[count] \n" // a3 = last dst address
"$ua_smallCopy_loop: \n"
"lb $v1, 0(%[src]) \n"
"addiu %[src], %[src], 1 \n"
"addiu %[dst], %[dst], 1 \n"
"bne %[dst],$a3,$ua_smallCopy_loop \n"
" sb $v1, -1(%[dst]) \n"
"j $ra \n"
" nop \n"
".set at \n"
".set reorder \n"
: [dst] "+r" (dst), [src] "+r" (src)
: [count] "r" (count)
: "t0", "t1", "t2", "t3", "t4", "t5", "t6", "t7",
"t8", "t9", "a3", "v1", "at"
);
}
#endif // HAS_COPYROW_MIPS
// DSPR2 functions
#if !defined(LIBYUV_DISABLE_MIPS) && defined(__mips_dsp) && \
(__mips_dsp_rev >= 2) && \
(_MIPS_SIM == _MIPS_SIM_ABI32) && (__mips_isa_rev < 6)
void SplitUVRow_DSPR2(const uint8* src_uv, uint8* dst_u, uint8* dst_v,
int width) {
__asm__ __volatile__ (
".set push \n"
".set noreorder \n"
"srl $t4, %[width], 4 \n" // multiplies of 16
"blez $t4, 2f \n"
" andi %[width], %[width], 0xf \n" // residual
"1: \n"
"addiu $t4, $t4, -1 \n"
"lw $t0, 0(%[src_uv]) \n" // V1 | U1 | V0 | U0
"lw $t1, 4(%[src_uv]) \n" // V3 | U3 | V2 | U2
"lw $t2, 8(%[src_uv]) \n" // V5 | U5 | V4 | U4
"lw $t3, 12(%[src_uv]) \n" // V7 | U7 | V6 | U6
"lw $t5, 16(%[src_uv]) \n" // V9 | U9 | V8 | U8
"lw $t6, 20(%[src_uv]) \n" // V11 | U11 | V10 | U10
"lw $t7, 24(%[src_uv]) \n" // V13 | U13 | V12 | U12
"lw $t8, 28(%[src_uv]) \n" // V15 | U15 | V14 | U14
"addiu %[src_uv], %[src_uv], 32 \n"
"precrq.qb.ph $t9, $t1, $t0 \n" // V3 | V2 | V1 | V0
"precr.qb.ph $t0, $t1, $t0 \n" // U3 | U2 | U1 | U0
"precrq.qb.ph $t1, $t3, $t2 \n" // V7 | V6 | V5 | V4
"precr.qb.ph $t2, $t3, $t2 \n" // U7 | U6 | U5 | U4
"precrq.qb.ph $t3, $t6, $t5 \n" // V11 | V10 | V9 | V8
"precr.qb.ph $t5, $t6, $t5 \n" // U11 | U10 | U9 | U8
"precrq.qb.ph $t6, $t8, $t7 \n" // V15 | V14 | V13 | V12
"precr.qb.ph $t7, $t8, $t7 \n" // U15 | U14 | U13 | U12
"sw $t9, 0(%[dst_v]) \n"
"sw $t0, 0(%[dst_u]) \n"
"sw $t1, 4(%[dst_v]) \n"
"sw $t2, 4(%[dst_u]) \n"
"sw $t3, 8(%[dst_v]) \n"
"sw $t5, 8(%[dst_u]) \n"
"sw $t6, 12(%[dst_v]) \n"
"sw $t7, 12(%[dst_u]) \n"
"addiu %[dst_v], %[dst_v], 16 \n"
"bgtz $t4, 1b \n"
" addiu %[dst_u], %[dst_u], 16 \n"
"beqz %[width], 3f \n"
" nop \n"
"2: \n"
"lbu $t0, 0(%[src_uv]) \n"
"lbu $t1, 1(%[src_uv]) \n"
"addiu %[src_uv], %[src_uv], 2 \n"
"addiu %[width], %[width], -1 \n"
"sb $t0, 0(%[dst_u]) \n"
"sb $t1, 0(%[dst_v]) \n"
"addiu %[dst_u], %[dst_u], 1 \n"
"bgtz %[width], 2b \n"
" addiu %[dst_v], %[dst_v], 1 \n"
"3: \n"
".set pop \n"
: [src_uv] "+r" (src_uv),
[width] "+r" (width),
[dst_u] "+r" (dst_u),
[dst_v] "+r" (dst_v)
:
: "t0", "t1", "t2", "t3",
"t4", "t5", "t6", "t7", "t8", "t9"
);
}
void MirrorRow_DSPR2(const uint8* src, uint8* dst, int width) {
__asm__ __volatile__ (
".set push \n"
".set noreorder \n"
"srl $t4, %[width], 4 \n" // multiplies of 16
"andi $t5, %[width], 0xf \n"
"blez $t4, 2f \n"
" addu %[src], %[src], %[width] \n" // src += width
"1: \n"
"lw $t0, -16(%[src]) \n" // |3|2|1|0|
"lw $t1, -12(%[src]) \n" // |7|6|5|4|
"lw $t2, -8(%[src]) \n" // |11|10|9|8|
"lw $t3, -4(%[src]) \n" // |15|14|13|12|
"wsbh $t0, $t0 \n" // |2|3|0|1|
"wsbh $t1, $t1 \n" // |6|7|4|5|
"wsbh $t2, $t2 \n" // |10|11|8|9|
"wsbh $t3, $t3 \n" // |14|15|12|13|
"rotr $t0, $t0, 16 \n" // |0|1|2|3|
"rotr $t1, $t1, 16 \n" // |4|5|6|7|
"rotr $t2, $t2, 16 \n" // |8|9|10|11|
"rotr $t3, $t3, 16 \n" // |12|13|14|15|
"addiu %[src], %[src], -16 \n"
"addiu $t4, $t4, -1 \n"
"sw $t3, 0(%[dst]) \n" // |15|14|13|12|
"sw $t2, 4(%[dst]) \n" // |11|10|9|8|
"sw $t1, 8(%[dst]) \n" // |7|6|5|4|
"sw $t0, 12(%[dst]) \n" // |3|2|1|0|
"bgtz $t4, 1b \n"
" addiu %[dst], %[dst], 16 \n"
"beqz $t5, 3f \n"
" nop \n"
"2: \n"
"lbu $t0, -1(%[src]) \n"
"addiu $t5, $t5, -1 \n"
"addiu %[src], %[src], -1 \n"
"sb $t0, 0(%[dst]) \n"
"bgez $t5, 2b \n"
" addiu %[dst], %[dst], 1 \n"
"3: \n"
".set pop \n"
: [src] "+r" (src), [dst] "+r" (dst)
: [width] "r" (width)
: "t0", "t1", "t2", "t3", "t4", "t5"
);
}
void MirrorUVRow_DSPR2(const uint8* src_uv, uint8* dst_u, uint8* dst_v,
int width) {
int x;
int y;
__asm__ __volatile__ (
".set push \n"
".set noreorder \n"
"addu $t4, %[width], %[width] \n"
"srl %[x], %[width], 4 \n"
"andi %[y], %[width], 0xf \n"
"blez %[x], 2f \n"
" addu %[src_uv], %[src_uv], $t4 \n"
"1: \n"
"lw $t0, -32(%[src_uv]) \n" // |3|2|1|0|
"lw $t1, -28(%[src_uv]) \n" // |7|6|5|4|
"lw $t2, -24(%[src_uv]) \n" // |11|10|9|8|
"lw $t3, -20(%[src_uv]) \n" // |15|14|13|12|
"lw $t4, -16(%[src_uv]) \n" // |19|18|17|16|
"lw $t6, -12(%[src_uv]) \n" // |23|22|21|20|
"lw $t7, -8(%[src_uv]) \n" // |27|26|25|24|
"lw $t8, -4(%[src_uv]) \n" // |31|30|29|28|
"rotr $t0, $t0, 16 \n" // |1|0|3|2|
"rotr $t1, $t1, 16 \n" // |5|4|7|6|
"rotr $t2, $t2, 16 \n" // |9|8|11|10|
"rotr $t3, $t3, 16 \n" // |13|12|15|14|
"rotr $t4, $t4, 16 \n" // |17|16|19|18|
"rotr $t6, $t6, 16 \n" // |21|20|23|22|
"rotr $t7, $t7, 16 \n" // |25|24|27|26|
"rotr $t8, $t8, 16 \n" // |29|28|31|30|
"precr.qb.ph $t9, $t0, $t1 \n" // |0|2|4|6|
"precrq.qb.ph $t5, $t0, $t1 \n" // |1|3|5|7|
"precr.qb.ph $t0, $t2, $t3 \n" // |8|10|12|14|
"precrq.qb.ph $t1, $t2, $t3 \n" // |9|11|13|15|
"precr.qb.ph $t2, $t4, $t6 \n" // |16|18|20|22|
"precrq.qb.ph $t3, $t4, $t6 \n" // |17|19|21|23|
"precr.qb.ph $t4, $t7, $t8 \n" // |24|26|28|30|
"precrq.qb.ph $t6, $t7, $t8 \n" // |25|27|29|31|
"addiu %[src_uv], %[src_uv], -32 \n"
"addiu %[x], %[x], -1 \n"
"swr $t4, 0(%[dst_u]) \n"
"swl $t4, 3(%[dst_u]) \n" // |30|28|26|24|
"swr $t6, 0(%[dst_v]) \n"
"swl $t6, 3(%[dst_v]) \n" // |31|29|27|25|
"swr $t2, 4(%[dst_u]) \n"
"swl $t2, 7(%[dst_u]) \n" // |22|20|18|16|
"swr $t3, 4(%[dst_v]) \n"
"swl $t3, 7(%[dst_v]) \n" // |23|21|19|17|
"swr $t0, 8(%[dst_u]) \n"
"swl $t0, 11(%[dst_u]) \n" // |14|12|10|8|
"swr $t1, 8(%[dst_v]) \n"
"swl $t1, 11(%[dst_v]) \n" // |15|13|11|9|
"swr $t9, 12(%[dst_u]) \n"
"swl $t9, 15(%[dst_u]) \n" // |6|4|2|0|
"swr $t5, 12(%[dst_v]) \n"
"swl $t5, 15(%[dst_v]) \n" // |7|5|3|1|
"addiu %[dst_v], %[dst_v], 16 \n"
"bgtz %[x], 1b \n"
" addiu %[dst_u], %[dst_u], 16 \n"
"beqz %[y], 3f \n"
" nop \n"
"b 2f \n"
" nop \n"
"2: \n"
"lbu $t0, -2(%[src_uv]) \n"
"lbu $t1, -1(%[src_uv]) \n"
"addiu %[src_uv], %[src_uv], -2 \n"
"addiu %[y], %[y], -1 \n"
"sb $t0, 0(%[dst_u]) \n"
"sb $t1, 0(%[dst_v]) \n"
"addiu %[dst_u], %[dst_u], 1 \n"
"bgtz %[y], 2b \n"
" addiu %[dst_v], %[dst_v], 1 \n"
"3: \n"
".set pop \n"
: [src_uv] "+r" (src_uv),
[dst_u] "+r" (dst_u),
[dst_v] "+r" (dst_v),
[x] "=&r" (x),
[y] "=&r" (y)
: [width] "r" (width)
: "t0", "t1", "t2", "t3", "t4",
"t5", "t7", "t8", "t9"
);
}
// Convert (4 Y and 2 VU) I422 and arrange RGB values into
// t5 = | 0 | B0 | 0 | b0 |
// t4 = | 0 | B1 | 0 | b1 |
// t9 = | 0 | G0 | 0 | g0 |
// t8 = | 0 | G1 | 0 | g1 |
// t2 = | 0 | R0 | 0 | r0 |
// t1 = | 0 | R1 | 0 | r1 |
#define YUVTORGB \
"lw $t0, 0(%[y_buf]) \n" \
"lhu $t1, 0(%[u_buf]) \n" \
"lhu $t2, 0(%[v_buf]) \n" \
"preceu.ph.qbr $t1, $t1 \n" \
"preceu.ph.qbr $t2, $t2 \n" \
"preceu.ph.qbra $t3, $t0 \n" \
"preceu.ph.qbla $t0, $t0 \n" \
"subu.ph $t1, $t1, $s5 \n" \
"subu.ph $t2, $t2, $s5 \n" \
"subu.ph $t3, $t3, $s4 \n" \
"subu.ph $t0, $t0, $s4 \n" \
"mul.ph $t3, $t3, $s0 \n" \
"mul.ph $t0, $t0, $s0 \n" \
"shll.ph $t4, $t1, 0x7 \n" \
"subu.ph $t4, $t4, $t1 \n" \
"mul.ph $t6, $t1, $s1 \n" \
"mul.ph $t1, $t2, $s2 \n" \
"addq_s.ph $t5, $t4, $t3 \n" \
"addq_s.ph $t4, $t4, $t0 \n" \
"shra.ph $t5, $t5, 6 \n" \
"shra.ph $t4, $t4, 6 \n" \
"addiu %[u_buf], 2 \n" \
"addiu %[v_buf], 2 \n" \
"addu.ph $t6, $t6, $t1 \n" \
"mul.ph $t1, $t2, $s3 \n" \
"addu.ph $t9, $t6, $t3 \n" \
"addu.ph $t8, $t6, $t0 \n" \
"shra.ph $t9, $t9, 6 \n" \
"shra.ph $t8, $t8, 6 \n" \
"addu.ph $t2, $t1, $t3 \n" \
"addu.ph $t1, $t1, $t0 \n" \
"shra.ph $t2, $t2, 6 \n" \
"shra.ph $t1, $t1, 6 \n" \
"subu.ph $t5, $t5, $s5 \n" \
"subu.ph $t4, $t4, $s5 \n" \
"subu.ph $t9, $t9, $s5 \n" \
"subu.ph $t8, $t8, $s5 \n" \
"subu.ph $t2, $t2, $s5 \n" \
"subu.ph $t1, $t1, $s5 \n" \
"shll_s.ph $t5, $t5, 8 \n" \
"shll_s.ph $t4, $t4, 8 \n" \
"shll_s.ph $t9, $t9, 8 \n" \
"shll_s.ph $t8, $t8, 8 \n" \
"shll_s.ph $t2, $t2, 8 \n" \
"shll_s.ph $t1, $t1, 8 \n" \
"shra.ph $t5, $t5, 8 \n" \
"shra.ph $t4, $t4, 8 \n" \
"shra.ph $t9, $t9, 8 \n" \
"shra.ph $t8, $t8, 8 \n" \
"shra.ph $t2, $t2, 8 \n" \
"shra.ph $t1, $t1, 8 \n" \
"addu.ph $t5, $t5, $s5 \n" \
"addu.ph $t4, $t4, $s5 \n" \
"addu.ph $t9, $t9, $s5 \n" \
"addu.ph $t8, $t8, $s5 \n" \
"addu.ph $t2, $t2, $s5 \n" \
"addu.ph $t1, $t1, $s5 \n"
// TODO(fbarchard): accept yuv conversion constants.
void I422ToARGBRow_DSPR2(const uint8* y_buf,
const uint8* u_buf,
const uint8* v_buf,
uint8* rgb_buf,
const struct YuvConstants* yuvconstants,
int width) {
__asm__ __volatile__ (
".set push \n"
".set noreorder \n"
"beqz %[width], 2f \n"
" repl.ph $s0, 74 \n" // |YG|YG| = |74|74|
"repl.ph $s1, -25 \n" // |UG|UG| = |-25|-25|
"repl.ph $s2, -52 \n" // |VG|VG| = |-52|-52|
"repl.ph $s3, 102 \n" // |VR|VR| = |102|102|
"repl.ph $s4, 16 \n" // |0|16|0|16|
"repl.ph $s5, 128 \n" // |128|128| // clipping
"lui $s6, 0xff00 \n"
"ori $s6, 0xff00 \n" // |ff|00|ff|00|ff|
"1: \n"
YUVTORGB
// Arranging into argb format
"precr.qb.ph $t4, $t8, $t4 \n" // |G1|g1|B1|b1|
"precr.qb.ph $t5, $t9, $t5 \n" // |G0|g0|B0|b0|
"addiu %[width], -4 \n"
"precrq.qb.ph $t8, $t4, $t5 \n" // |G1|B1|G0|B0|
"precr.qb.ph $t9, $t4, $t5 \n" // |g1|b1|g0|b0|
"precr.qb.ph $t2, $t1, $t2 \n" // |R1|r1|R0|r0|
"addiu %[y_buf], 4 \n"
"preceu.ph.qbla $t1, $t2 \n" // |0 |R1|0 |R0|
"preceu.ph.qbra $t2, $t2 \n" // |0 |r1|0 |r0|
"or $t1, $t1, $s6 \n" // |ff|R1|ff|R0|
"or $t2, $t2, $s6 \n" // |ff|r1|ff|r0|
"precrq.ph.w $t0, $t2, $t9 \n" // |ff|r1|g1|b1|
"precrq.ph.w $t3, $t1, $t8 \n" // |ff|R1|G1|B1|
"sll $t9, $t9, 16 \n"
"sll $t8, $t8, 16 \n"
"packrl.ph $t2, $t2, $t9 \n" // |ff|r0|g0|b0|
"packrl.ph $t1, $t1, $t8 \n" // |ff|R0|G0|B0|
// Store results.
"sw $t2, 0(%[rgb_buf]) \n"
"sw $t0, 4(%[rgb_buf]) \n"
"sw $t1, 8(%[rgb_buf]) \n"
"sw $t3, 12(%[rgb_buf]) \n"
"bnez %[width], 1b \n"
" addiu %[rgb_buf], 16 \n"
"2: \n"
".set pop \n"
:[y_buf] "+r" (y_buf),
[u_buf] "+r" (u_buf),
[v_buf] "+r" (v_buf),
[width] "+r" (width),
[rgb_buf] "+r" (rgb_buf)
:
: "t0", "t1", "t2", "t3", "t4", "t5",
"t6", "t7", "t8", "t9",
"s0", "s1", "s2", "s3",
"s4", "s5", "s6"
);
}
// Bilinear filter 8x2 -> 8x1
void InterpolateRow_DSPR2(uint8* dst_ptr, const uint8* src_ptr,
ptrdiff_t src_stride, int dst_width,
int source_y_fraction) {
int y0_fraction = 256 - source_y_fraction;
const uint8* src_ptr1 = src_ptr + src_stride;
__asm__ __volatile__ (
".set push \n"
".set noreorder \n"
"replv.ph $t0, %[y0_fraction] \n"
"replv.ph $t1, %[source_y_fraction] \n"
"1: \n"
"lw $t2, 0(%[src_ptr]) \n"
"lw $t3, 0(%[src_ptr1]) \n"
"lw $t4, 4(%[src_ptr]) \n"
"lw $t5, 4(%[src_ptr1]) \n"
"muleu_s.ph.qbl $t6, $t2, $t0 \n"
"muleu_s.ph.qbr $t7, $t2, $t0 \n"
"muleu_s.ph.qbl $t8, $t3, $t1 \n"
"muleu_s.ph.qbr $t9, $t3, $t1 \n"
"muleu_s.ph.qbl $t2, $t4, $t0 \n"
"muleu_s.ph.qbr $t3, $t4, $t0 \n"
"muleu_s.ph.qbl $t4, $t5, $t1 \n"
"muleu_s.ph.qbr $t5, $t5, $t1 \n"
"addq.ph $t6, $t6, $t8 \n"
"addq.ph $t7, $t7, $t9 \n"
"addq.ph $t2, $t2, $t4 \n"
"addq.ph $t3, $t3, $t5 \n"
"shra.ph $t6, $t6, 8 \n"
"shra.ph $t7, $t7, 8 \n"
"shra.ph $t2, $t2, 8 \n"
"shra.ph $t3, $t3, 8 \n"
"precr.qb.ph $t6, $t6, $t7 \n"
"precr.qb.ph $t2, $t2, $t3 \n"
"addiu %[src_ptr], %[src_ptr], 8 \n"
"addiu %[src_ptr1], %[src_ptr1], 8 \n"
"addiu %[dst_width], %[dst_width], -8 \n"
"sw $t6, 0(%[dst_ptr]) \n"
"sw $t2, 4(%[dst_ptr]) \n"
"bgtz %[dst_width], 1b \n"
" addiu %[dst_ptr], %[dst_ptr], 8 \n"
".set pop \n"
: [dst_ptr] "+r" (dst_ptr),
[src_ptr1] "+r" (src_ptr1),
[src_ptr] "+r" (src_ptr),
[dst_width] "+r" (dst_width)
: [source_y_fraction] "r" (source_y_fraction),
[y0_fraction] "r" (y0_fraction),
[src_stride] "r" (src_stride)
: "t0", "t1", "t2", "t3", "t4", "t5",
"t6", "t7", "t8", "t9"
);
}
#endif // __mips_dsp_rev >= 2
#endif // defined(__mips__)
#ifdef __cplusplus
} // extern "C"
} // namespace libyuv
#endif