1
0
mirror of https://github.com/FFmpeg/FFmpeg.git synced 2024-12-28 20:53:54 +02:00
FFmpeg/libavcodec/mips/hpeldsp_mmi.c
Zhou Xiaoyong 89ec4adad6 avcodec/mips: loongson optimize mmi load and store operators
1.MMI_ load/store macros are defined in libavutil/mips/mmiutils.h
2.Replace some unnecessary unaligned access with aligned operator
3.The MMI_ load/store is compatible with cpu loongson2e/2f which not support instructions start with gs

Signed-off-by: Michael Niedermayer <michael@niedermayer.cc>
2016-10-23 03:23:09 +02:00

1191 lines
53 KiB
C

/*
* Loongson SIMD optimized qpeldsp
*
* Copyright (c) 2016 Loongson Technology Corporation Limited
* Copyright (c) 2016 Zhou Xiaoyong <zhouxiaoyong@loongson.cn>
*
* This file is part of FFmpeg.
*
* FFmpeg is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* FFmpeg is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with FFmpeg; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "hpeldsp_mips.h"
#include "libavcodec/bit_depth_template.c"
#include "libavutil/mips/mmiutils.h"
#include "constants.h"
void ff_put_pixels4_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
double ftmp[2];
mips_reg addr[2];
DECLARE_VAR_LOW32;
DECLARE_VAR_ADDRT;
__asm__ volatile (
PTR_ADDU "%[addr1], %[line_size], %[line_size] \n\t"
"1: \n\t"
PTR_ADDU "%[addr0], %[pixels], %[line_size] \n\t"
MMI_ULWC1(%[ftmp0], %[pixels], 0x00)
MMI_ULWC1(%[ftmp1], %[addr0], 0x00)
MMI_SWC1(%[ftmp0], %[block], 0x00)
MMI_SWXC1(%[ftmp1], %[block], %[line_size], 0x00)
PTR_ADDU "%[pixels], %[pixels], %[addr1] \n\t"
PTR_ADDU "%[block], %[block], %[addr1] \n\t"
PTR_ADDU "%[addr0], %[pixels], %[line_size] \n\t"
MMI_ULWC1(%[ftmp0], %[pixels], 0x00)
MMI_ULWC1(%[ftmp1], %[addr0], 0x00)
MMI_SWC1(%[ftmp0], %[block], 0x00)
MMI_SWXC1(%[ftmp1], %[block], %[line_size], 0x00)
PTR_ADDU "%[pixels], %[pixels], %[addr1] \n\t"
PTR_ADDU "%[block], %[block], %[addr1] \n\t"
PTR_ADDI "%[h], %[h], -0x04 \n\t"
"bnez %[h], 1b \n\t"
: [ftmp0]"=&f"(ftmp[0]), [ftmp1]"=&f"(ftmp[1]),
RESTRICT_ASM_LOW32
RESTRICT_ASM_ADDRT
[addr0]"=&r"(addr[0]), [addr1]"=&r"(addr[1]),
[block]"+&r"(block), [pixels]"+&r"(pixels),
[h]"+&r"(h)
: [line_size]"r"((mips_reg)line_size)
: "memory"
);
}
void ff_put_pixels8_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
double ftmp[2];
mips_reg addr[3];
DECLARE_VAR_ALL64;
__asm__ volatile (
PTR_ADDU "%[addr1], %[line_size], %[line_size] \n\t"
"1: \n\t"
MMI_ULDC1(%[ftmp0], %[pixels], 0x00)
PTR_ADDU "%[addr0], %[pixels], %[line_size] \n\t"
MMI_ULDC1(%[ftmp1], %[addr0], 0x00)
MMI_SDC1(%[ftmp0], %[block], 0x00)
PTR_ADDU "%[addr2], %[block], %[line_size] \n\t"
MMI_SDC1(%[ftmp1], %[addr2], 0x00)
PTR_ADDU "%[pixels], %[pixels], %[addr1] \n\t"
PTR_ADDU "%[block], %[block], %[addr1] \n\t"
MMI_ULDC1(%[ftmp0], %[pixels], 0x00)
PTR_ADDU "%[addr0], %[pixels], %[line_size] \n\t"
MMI_ULDC1(%[ftmp1], %[addr0], 0x00)
MMI_SDC1(%[ftmp0], %[block], 0x00)
PTR_ADDU "%[addr2], %[block], %[line_size] \n\t"
MMI_SDC1(%[ftmp1], %[addr2], 0x00)
PTR_ADDU "%[pixels], %[pixels], %[addr1] \n\t"
PTR_ADDU "%[block], %[block], %[addr1] \n\t"
PTR_ADDI "%[h], %[h], -0x04 \n\t"
"bnez %[h], 1b \n\t"
: [ftmp0]"=&f"(ftmp[0]), [ftmp1]"=&f"(ftmp[1]),
RESTRICT_ASM_ALL64
[addr0]"=&r"(addr[0]), [addr1]"=&r"(addr[1]),
[addr2]"=&r"(addr[2]),
[block]"+&r"(block), [pixels]"+&r"(pixels),
[h]"+&r"(h)
: [line_size]"r"((mips_reg)line_size)
: "memory"
);
}
void ff_put_pixels16_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
double ftmp[4];
mips_reg addr[2];
DECLARE_VAR_ALL64;
DECLARE_VAR_ADDRT;
__asm__ volatile (
PTR_ADDU "%[addr1], %[line_size], %[line_size] \n\t"
"1: \n\t"
PTR_ADDU "%[addr0], %[pixels], %[line_size] \n\t"
MMI_ULDC1(%[ftmp0], %[pixels], 0x00)
MMI_ULDC1(%[ftmp2], %[pixels], 0x08)
MMI_ULDC1(%[ftmp1], %[addr0], 0x00)
MMI_ULDC1(%[ftmp3], %[addr0], 0x08)
MMI_SDC1(%[ftmp0], %[block], 0x00)
MMI_SDXC1(%[ftmp1], %[block], %[line_size], 0x00)
MMI_SDC1(%[ftmp2], %[block], 0x08)
MMI_SDXC1(%[ftmp3], %[block], %[line_size], 0x08)
PTR_ADDU "%[pixels], %[pixels], %[addr1] \n\t"
PTR_ADDU "%[block], %[block], %[addr1] \n\t"
PTR_ADDU "%[addr0], %[pixels], %[line_size] \n\t"
MMI_ULDC1(%[ftmp0], %[pixels], 0x00)
MMI_ULDC1(%[ftmp2], %[pixels], 0x08)
MMI_ULDC1(%[ftmp1], %[addr0], 0x00)
MMI_ULDC1(%[ftmp3], %[addr0], 0x08)
MMI_SDC1(%[ftmp0], %[block], 0x00)
MMI_SDXC1(%[ftmp1], %[block], %[line_size], 0x00)
MMI_SDC1(%[ftmp2], %[block], 0x08)
MMI_SDXC1(%[ftmp3], %[block], %[line_size], 0x08)
PTR_ADDU "%[pixels], %[pixels], %[addr1] \n\t"
PTR_ADDU "%[block], %[block], %[addr1] \n\t"
PTR_ADDI "%[h], %[h], -0x04 \n\t"
"bnez %[h], 1b \n\t"
: [ftmp0]"=&f"(ftmp[0]), [ftmp1]"=&f"(ftmp[1]),
[ftmp2]"=&f"(ftmp[2]), [ftmp3]"=&f"(ftmp[3]),
RESTRICT_ASM_ALL64
RESTRICT_ASM_ADDRT
[addr0]"=&r"(addr[0]), [addr1]"=&r"(addr[1]),
[block]"+&r"(block), [pixels]"+&r"(pixels),
[h]"+&r"(h)
: [line_size]"r"((mips_reg)line_size)
: "memory"
);
}
void ff_avg_pixels4_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
double ftmp[4];
mips_reg addr[3];
DECLARE_VAR_LOW32;
DECLARE_VAR_ADDRT;
__asm__ volatile (
PTR_ADDU "%[addr2], %[line_size], %[line_size] \n\t"
"1: \n\t"
PTR_ADDU "%[addr0], %[pixels], %[line_size] \n\t"
MMI_ULWC1(%[ftmp0], %[pixels], 0x00)
MMI_ULWC1(%[ftmp1], %[addr0], 0x00)
PTR_ADDU "%[addr1], %[block], %[line_size] \n\t"
MMI_ULWC1(%[ftmp2], %[block], 0x00)
MMI_ULWC1(%[ftmp3], %[addr1], 0x00)
"pavgb %[ftmp0], %[ftmp0], %[ftmp2] \n\t"
"pavgb %[ftmp1], %[ftmp1], %[ftmp3] \n\t"
MMI_SWC1(%[ftmp0], %[block], 0x00)
MMI_SWXC1(%[ftmp1], %[block], %[line_size], 0x00)
PTR_ADDU "%[pixels], %[pixels], %[addr2] \n\t"
PTR_ADDU "%[block], %[block], %[addr2] \n\t"
PTR_ADDU "%[addr0], %[pixels], %[line_size] \n\t"
MMI_ULWC1(%[ftmp0], %[pixels], 0x00)
MMI_ULWC1(%[ftmp1], %[addr0], 0x00)
PTR_ADDU "%[addr1], %[block], %[line_size] \n\t"
MMI_ULWC1(%[ftmp2], %[block], 0x00)
MMI_ULWC1(%[ftmp3], %[addr1], 0x00)
"pavgb %[ftmp0], %[ftmp0], %[ftmp2] \n\t"
"pavgb %[ftmp1], %[ftmp1], %[ftmp3] \n\t"
MMI_SWC1(%[ftmp0], %[block], 0x00)
MMI_SWXC1(%[ftmp1], %[block], %[line_size], 0x00)
PTR_ADDU "%[pixels], %[pixels], %[addr2] \n\t"
PTR_ADDU "%[block], %[block], %[addr2] \n\t"
PTR_ADDI "%[h], %[h], -0x04 \n\t"
"bnez %[h], 1b \n\t"
: [ftmp0]"=&f"(ftmp[0]), [ftmp1]"=&f"(ftmp[1]),
[ftmp2]"=&f"(ftmp[2]), [ftmp3]"=&f"(ftmp[3]),
RESTRICT_ASM_LOW32
RESTRICT_ASM_ADDRT
[addr0]"=&r"(addr[0]), [addr1]"=&r"(addr[1]),
[addr2]"=&r"(addr[2]),
[block]"+&r"(block), [pixels]"+&r"(pixels),
[h]"+&r"(h)
: [line_size]"r"((mips_reg)line_size)
: "memory"
);
}
void ff_avg_pixels8_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
double ftmp[4];
mips_reg addr[3];
DECLARE_VAR_ALL64;
DECLARE_VAR_ADDRT;
__asm__ volatile (
PTR_ADDU "%[addr2], %[line_size], %[line_size] \n\t"
"1: \n\t"
MMI_ULDC1(%[ftmp0], %[pixels], 0x00)
PTR_ADDU "%[addr0], %[pixels], %[line_size] \n\t"
MMI_ULDC1(%[ftmp1], %[addr0], 0x00)
PTR_ADDU "%[addr1], %[block], %[line_size] \n\t"
MMI_ULDC1(%[ftmp2], %[block], 0x00)
MMI_ULDC1(%[ftmp3], %[addr1], 0x00)
"pavgb %[ftmp0], %[ftmp0], %[ftmp2] \n\t"
"pavgb %[ftmp1], %[ftmp1], %[ftmp3] \n\t"
MMI_SDC1(%[ftmp0], %[block], 0x00)
MMI_SDXC1(%[ftmp1], %[block], %[line_size], 0x00)
PTR_ADDU "%[pixels], %[pixels], %[addr2] \n\t"
PTR_ADDU "%[block], %[block], %[addr2] \n\t"
MMI_ULDC1(%[ftmp0], %[pixels], 0x00)
PTR_ADDU "%[addr0], %[pixels], %[line_size] \n\t"
MMI_ULDC1(%[ftmp1], %[addr0], 0x00)
PTR_ADDU "%[addr1], %[block], %[line_size] \n\t"
MMI_ULDC1(%[ftmp2], %[block], 0x00)
MMI_ULDC1(%[ftmp3], %[addr1], 0x00)
"pavgb %[ftmp0], %[ftmp0], %[ftmp2] \n\t"
"pavgb %[ftmp1], %[ftmp1], %[ftmp3] \n\t"
MMI_SDC1(%[ftmp0], %[block], 0x00)
MMI_SDXC1(%[ftmp1], %[block], %[line_size], 0x00)
PTR_ADDU "%[pixels], %[pixels], %[addr2] \n\t"
PTR_ADDU "%[block], %[block], %[addr2] \n\t"
PTR_ADDI "%[h], %[h], -0x04 \n\t"
"bnez %[h], 1b \n\t"
: [ftmp0]"=&f"(ftmp[0]), [ftmp1]"=&f"(ftmp[1]),
[ftmp2]"=&f"(ftmp[2]), [ftmp3]"=&f"(ftmp[3]),
RESTRICT_ASM_ALL64
RESTRICT_ASM_ADDRT
[addr0]"=&r"(addr[0]), [addr1]"=&r"(addr[1]),
[addr2]"=&r"(addr[2]),
[block]"+&r"(block), [pixels]"+&r"(pixels),
[h]"+&r"(h)
: [line_size]"r"((mips_reg)line_size)
: "memory"
);
}
void ff_avg_pixels16_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
double ftmp[8];
mips_reg addr[3];
DECLARE_VAR_ALL64;
DECLARE_VAR_ADDRT;
__asm__ volatile (
PTR_ADDU "%[addr2], %[line_size], %[line_size] \n\t"
"1: \n\t"
MMI_ULDC1(%[ftmp0], %[pixels], 0x00)
PTR_ADDU "%[addr0], %[pixels], %[line_size] \n\t"
MMI_ULDC1(%[ftmp4], %[pixels], 0x08)
PTR_ADDU "%[addr1], %[block], %[line_size] \n\t"
MMI_ULDC1(%[ftmp1], %[addr0], 0x00)
MMI_ULDC1(%[ftmp5], %[addr0], 0x08)
MMI_ULDC1(%[ftmp2], %[block], 0x00)
MMI_ULDC1(%[ftmp6], %[block], 0x08)
MMI_ULDC1(%[ftmp3], %[addr1], 0x00)
MMI_ULDC1(%[ftmp7], %[addr1], 0x08)
"pavgb %[ftmp0], %[ftmp0], %[ftmp2] \n\t"
"pavgb %[ftmp4], %[ftmp4], %[ftmp6] \n\t"
"pavgb %[ftmp1], %[ftmp1], %[ftmp3] \n\t"
"pavgb %[ftmp5], %[ftmp5], %[ftmp7] \n\t"
MMI_SDC1(%[ftmp0], %[block], 0x00)
MMI_SDXC1(%[ftmp1], %[block], %[line_size], 0x00)
MMI_SDC1(%[ftmp4], %[block], 0x08)
MMI_SDXC1(%[ftmp5], %[block], %[line_size], 0x08)
PTR_ADDU "%[pixels], %[pixels], %[addr2] \n\t"
PTR_ADDU "%[block], %[block], %[addr2] \n\t"
MMI_ULDC1(%[ftmp0], %[pixels], 0x00)
PTR_ADDU "%[addr0], %[pixels], %[line_size] \n\t"
MMI_ULDC1(%[ftmp4], %[pixels], 0x08)
PTR_ADDU "%[addr1], %[block], %[line_size] \n\t"
MMI_ULDC1(%[ftmp1], %[addr0], 0x00)
MMI_ULDC1(%[ftmp5], %[addr0], 0x08)
MMI_ULDC1(%[ftmp2], %[block], 0x00)
MMI_ULDC1(%[ftmp6], %[block], 0x08)
MMI_ULDC1(%[ftmp3], %[addr1], 0x00)
MMI_ULDC1(%[ftmp7], %[addr1], 0x08)
"pavgb %[ftmp0], %[ftmp0], %[ftmp2] \n\t"
"pavgb %[ftmp4], %[ftmp4], %[ftmp6] \n\t"
"pavgb %[ftmp1], %[ftmp1], %[ftmp3] \n\t"
"pavgb %[ftmp5], %[ftmp5], %[ftmp7] \n\t"
MMI_SDC1(%[ftmp0], %[block], 0x00)
MMI_SDXC1(%[ftmp1], %[block], %[line_size], 0x00)
MMI_SDC1(%[ftmp4], %[block], 0x08)
MMI_SDXC1(%[ftmp5], %[block], %[line_size], 0x08)
PTR_ADDU "%[pixels], %[pixels], %[addr2] \n\t"
PTR_ADDU "%[block], %[block], %[addr2] \n\t"
PTR_ADDI "%[h], %[h], -0x04 \n\t"
"bnez %[h], 1b \n\t"
: [ftmp0]"=&f"(ftmp[0]), [ftmp1]"=&f"(ftmp[1]),
[ftmp2]"=&f"(ftmp[2]), [ftmp3]"=&f"(ftmp[3]),
[ftmp4]"=&f"(ftmp[4]), [ftmp5]"=&f"(ftmp[5]),
[ftmp6]"=&f"(ftmp[6]), [ftmp7]"=&f"(ftmp[7]),
RESTRICT_ASM_ALL64
RESTRICT_ASM_ADDRT
[addr0]"=&r"(addr[0]), [addr1]"=&r"(addr[1]),
[addr2]"=&r"(addr[2]),
[block]"+&r"(block), [pixels]"+&r"(pixels),
[h]"+&r"(h)
: [line_size]"r"((mips_reg)line_size)
: "memory"
);
}
inline void ff_put_pixels4_l2_8_mmi(uint8_t *dst, const uint8_t *src1,
const uint8_t *src2, int dst_stride, int src_stride1, int src_stride2,
int h)
{
double ftmp[4];
mips_reg addr[5];
DECLARE_VAR_LOW32;
DECLARE_VAR_ADDRT;
__asm__ volatile (
PTR_ADDU "%[addr2], %[src_stride1], %[src_stride1] \n\t"
PTR_ADDU "%[addr3], %[src_stride2], %[src_stride2] \n\t"
PTR_ADDU "%[addr4], %[dst_stride], %[dst_stride] \n\t"
"1: \n\t"
PTR_ADDU "%[addr0], %[src1], %[src_stride1] \n\t"
MMI_ULWC1(%[ftmp0], %[src1], 0x00)
MMI_ULWC1(%[ftmp1], %[addr0], 0x00)
MMI_ULWC1(%[ftmp2], %[src2], 0x00)
PTR_ADDU "%[addr1], %[src2], %[src_stride2] \n\t"
MMI_ULWC1(%[ftmp3], %[addr1], 0x00)
PTR_ADDU "%[src1], %[src1], %[addr2] \n\t"
"pavgb %[ftmp0], %[ftmp0], %[ftmp2] \n\t"
"pavgb %[ftmp1], %[ftmp1], %[ftmp3] \n\t"
MMI_SWC1(%[ftmp0], %[dst], 0x00)
MMI_SWXC1(%[ftmp1], %[dst], %[dst_stride], 0x00)
PTR_ADDU "%[src2], %[src2], %[addr3] \n\t"
PTR_ADDU "%[dst], %[dst], %[addr4] \n\t"
PTR_ADDU "%[addr0], %[src1], %[src_stride1] \n\t"
MMI_ULWC1(%[ftmp0], %[src1], 0x00)
MMI_ULWC1(%[ftmp1], %[addr0], 0x00)
MMI_ULWC1(%[ftmp2], %[src2], 0x00)
PTR_ADDU "%[addr1], %[src2], %[src_stride2] \n\t"
MMI_ULWC1(%[ftmp3], %[addr1], 0x00)
PTR_ADDU "%[src1], %[src1], %[addr2] \n\t"
"pavgb %[ftmp0], %[ftmp0], %[ftmp2] \n\t"
"pavgb %[ftmp1], %[ftmp1], %[ftmp3] \n\t"
MMI_SWC1(%[ftmp0], %[dst], 0x00)
MMI_SWXC1(%[ftmp1], %[dst], %[dst_stride], 0x00)
PTR_ADDU "%[src2], %[src2], %[addr3] \n\t"
PTR_ADDU "%[dst], %[dst], %[addr4] \n\t"
PTR_ADDI "%[h], %[h], -0x04 \n\t"
"bnez %[h], 1b \n\t"
: [ftmp0]"=&f"(ftmp[0]), [ftmp1]"=&f"(ftmp[1]),
[ftmp2]"=&f"(ftmp[2]), [ftmp3]"=&f"(ftmp[3]),
RESTRICT_ASM_LOW32
RESTRICT_ASM_ADDRT
[addr0]"=&r"(addr[0]), [addr1]"=&r"(addr[1]),
[addr2]"=&r"(addr[2]), [addr3]"=&r"(addr[3]),
[addr4]"=&r"(addr[4]),
[dst]"+&r"(dst), [src1]"+&r"(src1),
[src2]"+&r"(src2), [h]"+&r"(h)
: [dst_stride]"r"((mips_reg)dst_stride),
[src_stride1]"r"((mips_reg)src_stride1),
[src_stride2]"r"((mips_reg)src_stride2)
: "memory"
);
}
inline void ff_put_pixels8_l2_8_mmi(uint8_t *dst, const uint8_t *src1,
const uint8_t *src2, int dst_stride, int src_stride1, int src_stride2,
int h)
{
double ftmp[4];
mips_reg addr[5];
DECLARE_VAR_ALL64;
DECLARE_VAR_ADDRT;
__asm__ volatile (
PTR_ADDU "%[addr2], %[src_stride1], %[src_stride1] \n\t"
PTR_ADDU "%[addr3], %[src_stride2], %[src_stride2] \n\t"
PTR_ADDU "%[addr4], %[dst_stride], %[dst_stride] \n\t"
"1: \n\t"
MMI_ULDC1(%[ftmp0], %[src1], 0x00)
PTR_ADDU "%[addr0], %[src1], %[src_stride1] \n\t"
MMI_ULDC1(%[ftmp1], %[addr0], 0x00)
MMI_ULDC1(%[ftmp2], %[src2], 0x00)
PTR_ADDU "%[addr1], %[src2], %[src_stride2] \n\t"
MMI_ULDC1(%[ftmp3], %[addr1], 0x00)
PTR_ADDU "%[src1], %[src1], %[addr2] \n\t"
"pavgb %[ftmp0], %[ftmp0], %[ftmp2] \n\t"
"pavgb %[ftmp1], %[ftmp1], %[ftmp3] \n\t"
MMI_SDC1(%[ftmp0], %[dst], 0x00)
MMI_SDXC1(%[ftmp1], %[dst], %[dst_stride], 0x00)
PTR_ADDU "%[src2], %[src2], %[addr3] \n\t"
PTR_ADDU "%[dst], %[dst], %[addr4] \n\t"
MMI_ULDC1(%[ftmp0], %[src1], 0x00)
PTR_ADDU "%[addr0], %[src1], %[src_stride1] \n\t"
MMI_ULDC1(%[ftmp1], %[addr0], 0x00)
MMI_ULDC1(%[ftmp2], %[src2], 0x00)
PTR_ADDU "%[addr1], %[src2], %[src_stride2] \n\t"
MMI_ULDC1(%[ftmp3], %[addr1], 0x00)
PTR_ADDU "%[src1], %[src1], %[addr2] \n\t"
"pavgb %[ftmp0], %[ftmp0], %[ftmp2] \n\t"
"pavgb %[ftmp1], %[ftmp1], %[ftmp3] \n\t"
MMI_SDC1(%[ftmp0], %[dst], 0x00)
MMI_SDXC1(%[ftmp1], %[dst], %[dst_stride], 0x00)
PTR_ADDU "%[src2], %[src2], %[addr3] \n\t"
PTR_ADDU "%[dst], %[dst], %[addr4] \n\t"
PTR_ADDI "%[h], %[h], -0x04 \n\t"
"bnez %[h], 1b \n\t"
: [ftmp0]"=&f"(ftmp[0]), [ftmp1]"=&f"(ftmp[1]),
[ftmp2]"=&f"(ftmp[2]), [ftmp3]"=&f"(ftmp[3]),
RESTRICT_ASM_ALL64
RESTRICT_ASM_ADDRT
[addr0]"=&r"(addr[0]), [addr1]"=&r"(addr[1]),
[addr2]"=&r"(addr[2]), [addr3]"=&r"(addr[3]),
[addr4]"=&r"(addr[4]),
[dst]"+&r"(dst), [src1]"+&r"(src1),
[src2]"+&r"(src2), [h]"+&r"(h)
: [dst_stride]"r"((mips_reg)dst_stride),
[src_stride1]"r"((mips_reg)src_stride1),
[src_stride2]"r"((mips_reg)src_stride2)
: "memory"
);
}
inline void ff_put_pixels16_l2_8_mmi(uint8_t *dst, const uint8_t *src1,
const uint8_t *src2, int dst_stride, int src_stride1, int src_stride2,
int h)
{
double ftmp[8];
mips_reg addr[5];
DECLARE_VAR_ALL64;
DECLARE_VAR_ADDRT;
__asm__ volatile (
PTR_ADDU "%[addr2], %[src_stride1], %[src_stride1] \n\t"
PTR_ADDU "%[addr3], %[src_stride2], %[src_stride2] \n\t"
PTR_ADDU "%[addr4], %[dst_stride], %[dst_stride] \n\t"
"1: \n\t"
MMI_ULDC1(%[ftmp0], %[src1], 0x00)
PTR_ADDU "%[addr0], %[src1], %[src_stride1] \n\t"
MMI_ULDC1(%[ftmp4], %[src1], 0x08)
MMI_ULDC1(%[ftmp1], %[addr0], 0x00)
MMI_ULDC1(%[ftmp5], %[addr0], 0x08)
MMI_ULDC1(%[ftmp2], %[src2], 0x00)
PTR_ADDU "%[addr1], %[src2], %[src_stride2] \n\t"
MMI_ULDC1(%[ftmp6], %[src2], 0x08)
MMI_ULDC1(%[ftmp3], %[addr1], 0x00)
PTR_ADDU "%[src1], %[src1], %[addr2] \n\t"
MMI_ULDC1(%[ftmp7], %[addr1], 0x08)
"pavgb %[ftmp0], %[ftmp0], %[ftmp2] \n\t"
"pavgb %[ftmp4], %[ftmp4], %[ftmp6] \n\t"
"pavgb %[ftmp1], %[ftmp1], %[ftmp3] \n\t"
"pavgb %[ftmp5], %[ftmp5], %[ftmp7] \n\t"
MMI_SDC1(%[ftmp0], %[dst], 0x00)
MMI_SDXC1(%[ftmp1], %[dst], %[dst_stride], 0x00)
MMI_SDC1(%[ftmp4], %[dst], 0x08)
MMI_SDXC1(%[ftmp5], %[dst], %[dst_stride], 0x08)
PTR_ADDU "%[src2], %[src2], %[addr3] \n\t"
PTR_ADDU "%[dst], %[dst], %[addr4] \n\t"
MMI_ULDC1(%[ftmp0], %[src1], 0x00)
PTR_ADDU "%[addr0], %[src1], %[src_stride1] \n\t"
MMI_ULDC1(%[ftmp4], %[src1], 0x08)
MMI_ULDC1(%[ftmp1], %[addr0], 0x00)
MMI_ULDC1(%[ftmp5], %[addr0], 0x08)
MMI_ULDC1(%[ftmp2], %[src2], 0x00)
PTR_ADDU "%[addr1], %[src2], %[src_stride2] \n\t"
MMI_ULDC1(%[ftmp6], %[src2], 0x08)
MMI_ULDC1(%[ftmp3], %[addr1], 0x00)
PTR_ADDU "%[src1], %[src1], %[addr2] \n\t"
MMI_ULDC1(%[ftmp7], %[addr1], 0x08)
"pavgb %[ftmp0], %[ftmp0], %[ftmp2] \n\t"
"pavgb %[ftmp4], %[ftmp4], %[ftmp6] \n\t"
"pavgb %[ftmp1], %[ftmp1], %[ftmp3] \n\t"
"pavgb %[ftmp5], %[ftmp5], %[ftmp7] \n\t"
MMI_SDC1(%[ftmp0], %[dst], 0x00)
MMI_SDXC1(%[ftmp1], %[dst], %[dst_stride], 0x00)
MMI_SDC1(%[ftmp4], %[dst], 0x08)
MMI_SDXC1(%[ftmp5], %[dst], %[dst_stride], 0x08)
PTR_ADDU "%[src2], %[src2], %[addr3] \n\t"
PTR_ADDU "%[dst], %[dst], %[addr4] \n\t"
PTR_ADDI "%[h], %[h], -0x04 \n\t"
"bnez %[h], 1b \n\t"
: [ftmp0]"=&f"(ftmp[0]), [ftmp1]"=&f"(ftmp[1]),
[ftmp2]"=&f"(ftmp[2]), [ftmp3]"=&f"(ftmp[3]),
[ftmp4]"=&f"(ftmp[4]), [ftmp5]"=&f"(ftmp[5]),
[ftmp6]"=&f"(ftmp[6]), [ftmp7]"=&f"(ftmp[7]),
RESTRICT_ASM_ALL64
RESTRICT_ASM_ADDRT
[addr0]"=&r"(addr[0]), [addr1]"=&r"(addr[1]),
[addr2]"=&r"(addr[2]), [addr3]"=&r"(addr[3]),
[addr4]"=&r"(addr[4]),
[dst]"+&r"(dst), [src1]"+&r"(src1),
[src2]"+&r"(src2), [h]"+&r"(h)
: [dst_stride]"r"((mips_reg)dst_stride),
[src_stride1]"r"((mips_reg)src_stride1),
[src_stride2]"r"((mips_reg)src_stride2)
: "memory"
);
}
inline void ff_avg_pixels4_l2_8_mmi(uint8_t *dst, const uint8_t *src1,
const uint8_t *src2, int dst_stride, int src_stride1, int src_stride2,
int h)
{
double ftmp[6];
mips_reg addr[6];
DECLARE_VAR_LOW32;
DECLARE_VAR_ADDRT;
__asm__ volatile (
PTR_ADDU "%[addr2], %[src_stride1], %[src_stride1] \n\t"
PTR_ADDU "%[addr3], %[src_stride2], %[src_stride2] \n\t"
PTR_ADDU "%[addr4], %[dst_stride], %[dst_stride] \n\t"
"1: \n\t"
PTR_ADDU "%[addr0], %[src1], %[src_stride1] \n\t"
MMI_ULWC1(%[ftmp0], %[src1], 0x00)
MMI_ULWC1(%[ftmp1], %[addr0], 0x00)
MMI_ULWC1(%[ftmp2], %[src2], 0x00)
PTR_ADDU "%[addr1], %[src2], %[src_stride2] \n\t"
MMI_ULWC1(%[ftmp3], %[addr1], 0x00)
PTR_ADDU "%[src1], %[src1], %[addr2] \n\t"
"pavgb %[ftmp0], %[ftmp0], %[ftmp2] \n\t"
"pavgb %[ftmp1], %[ftmp1], %[ftmp3] \n\t"
PTR_ADDU "%[addr5], %[dst], %[dst_stride] \n\t"
MMI_ULWC1(%[ftmp4], %[dst], 0x00)
MMI_ULWC1(%[ftmp5], %[addr5], 0x00)
"pavgb %[ftmp0], %[ftmp0], %[ftmp4] \n\t"
"pavgb %[ftmp1], %[ftmp1], %[ftmp5] \n\t"
MMI_SWC1(%[ftmp0], %[dst], 0x00)
MMI_SWXC1(%[ftmp1], %[dst], %[dst_stride], 0x00)
PTR_ADDU "%[src2], %[src2], %[addr3] \n\t"
PTR_ADDU "%[dst], %[dst], %[addr4] \n\t"
PTR_ADDU "%[addr0], %[src1], %[src_stride1] \n\t"
MMI_ULWC1(%[ftmp0], %[src1], 0x00)
MMI_ULWC1(%[ftmp1], %[addr0], 0x00)
MMI_ULWC1(%[ftmp2], %[src2], 0x00)
PTR_ADDU "%[addr1], %[src2], %[src_stride2] \n\t"
MMI_ULWC1(%[ftmp3], %[addr1], 0x00)
PTR_ADDU "%[src1], %[src1], %[addr2] \n\t"
"pavgb %[ftmp0], %[ftmp0], %[ftmp2] \n\t"
"pavgb %[ftmp1], %[ftmp1], %[ftmp3] \n\t"
PTR_ADDU "%[addr5], %[dst], %[dst_stride] \n\t"
MMI_ULWC1(%[ftmp4], %[dst], 0x00)
MMI_ULWC1(%[ftmp5], %[addr5], 0x00)
"pavgb %[ftmp0], %[ftmp0], %[ftmp4] \n\t"
"pavgb %[ftmp1], %[ftmp1], %[ftmp5] \n\t"
MMI_SWC1(%[ftmp0], %[dst], 0x00)
MMI_SWXC1(%[ftmp1], %[dst], %[dst_stride], 0x00)
PTR_ADDU "%[src2], %[src2], %[addr3] \n\t"
PTR_ADDU "%[dst], %[dst], %[addr4] \n\t"
PTR_ADDI "%[h], %[h], -0x04 \n\t"
"bnez %[h], 1b \n\t"
: [ftmp0]"=&f"(ftmp[0]), [ftmp1]"=&f"(ftmp[1]),
[ftmp2]"=&f"(ftmp[2]), [ftmp3]"=&f"(ftmp[3]),
[ftmp4]"=&f"(ftmp[4]), [ftmp5]"=&f"(ftmp[5]),
RESTRICT_ASM_LOW32
RESTRICT_ASM_ADDRT
[addr0]"=&r"(addr[0]), [addr1]"=&r"(addr[1]),
[addr2]"=&r"(addr[2]), [addr3]"=&r"(addr[3]),
[addr4]"=&r"(addr[4]), [addr5]"=&r"(addr[5]),
[dst]"+&r"(dst), [src1]"+&r"(src1),
[src2]"+&r"(src2), [h]"+&r"(h)
: [dst_stride]"r"((mips_reg)dst_stride),
[src_stride1]"r"((mips_reg)src_stride1),
[src_stride2]"r"((mips_reg)src_stride2)
: "memory"
);
}
inline void ff_avg_pixels8_l2_8_mmi(uint8_t *dst, const uint8_t *src1,
const uint8_t *src2, int dst_stride, int src_stride1, int src_stride2,
int h)
{
double ftmp[6];
mips_reg addr[6];
DECLARE_VAR_ALL64;
DECLARE_VAR_ADDRT;
__asm__ volatile (
PTR_ADDU "%[addr2], %[src_stride1], %[src_stride1] \n\t"
PTR_ADDU "%[addr3], %[src_stride2], %[src_stride2] \n\t"
PTR_ADDU "%[addr4], %[dst_stride], %[dst_stride] \n\t"
"1: \n\t"
MMI_ULDC1(%[ftmp0], %[src1], 0x00)
PTR_ADDU "%[addr0], %[src1], %[src_stride1] \n\t"
MMI_ULDC1(%[ftmp1], %[addr0], 0x00)
PTR_ADDU "%[addr1], %[src2], %[src_stride2] \n\t"
MMI_ULDC1(%[ftmp2], %[src2], 0x00)
MMI_ULDC1(%[ftmp3], %[addr1], 0x00)
PTR_ADDU "%[src1], %[src1], %[addr2] \n\t"
"pavgb %[ftmp0], %[ftmp0], %[ftmp2] \n\t"
"pavgb %[ftmp1], %[ftmp1], %[ftmp3] \n\t"
PTR_ADDU "%[addr5], %[dst], %[dst_stride] \n\t"
MMI_ULDC1(%[ftmp4], %[dst], 0x00)
MMI_ULDC1(%[ftmp5], %[addr5], 0x00)
"pavgb %[ftmp0], %[ftmp0], %[ftmp4] \n\t"
"pavgb %[ftmp1], %[ftmp1], %[ftmp5] \n\t"
MMI_SDC1(%[ftmp0], %[dst], 0x00)
MMI_SDXC1(%[ftmp1], %[dst], %[dst_stride], 0x00)
PTR_ADDU "%[src2], %[src2], %[addr3] \n\t"
PTR_ADDU "%[dst], %[dst], %[addr4] \n\t"
MMI_ULDC1(%[ftmp0], %[src1], 0x00)
PTR_ADDU "%[addr0], %[src1], %[src_stride1] \n\t"
MMI_ULDC1(%[ftmp1], %[addr0], 0x00)
PTR_ADDU "%[addr1], %[src2], %[src_stride2] \n\t"
MMI_ULDC1(%[ftmp2], %[src2], 0x00)
MMI_ULDC1(%[ftmp3], %[addr1], 0x00)
PTR_ADDU "%[src1], %[src1], %[addr2] \n\t"
"pavgb %[ftmp0], %[ftmp0], %[ftmp2] \n\t"
"pavgb %[ftmp1], %[ftmp1], %[ftmp3] \n\t"
PTR_ADDU "%[addr5], %[dst], %[dst_stride] \n\t"
MMI_ULDC1(%[ftmp4], %[dst], 0x00)
MMI_ULDC1(%[ftmp5], %[addr5], 0x00)
"pavgb %[ftmp0], %[ftmp0], %[ftmp4] \n\t"
"pavgb %[ftmp1], %[ftmp1], %[ftmp5] \n\t"
MMI_SDC1(%[ftmp0], %[dst], 0x00)
MMI_SDXC1(%[ftmp1], %[dst], %[dst_stride], 0x00)
PTR_ADDU "%[src2], %[src2], %[addr3] \n\t"
PTR_ADDU "%[dst], %[dst], %[addr4] \n\t"
PTR_ADDI "%[h], %[h], -0x04 \n\t"
"bnez %[h], 1b \n\t"
: [ftmp0]"=&f"(ftmp[0]), [ftmp1]"=&f"(ftmp[1]),
[ftmp2]"=&f"(ftmp[2]), [ftmp3]"=&f"(ftmp[3]),
[ftmp4]"=&f"(ftmp[4]), [ftmp5]"=&f"(ftmp[5]),
RESTRICT_ASM_ALL64
RESTRICT_ASM_ADDRT
[addr0]"=&r"(addr[0]), [addr1]"=&r"(addr[1]),
[addr2]"=&r"(addr[2]), [addr3]"=&r"(addr[3]),
[addr4]"=&r"(addr[4]), [addr5]"=&r"(addr[5]),
[dst]"+&r"(dst), [src1]"+&r"(src1),
[src2]"+&r"(src2), [h]"+&r"(h)
: [dst_stride]"r"((mips_reg)dst_stride),
[src_stride1]"r"((mips_reg)src_stride1),
[src_stride2]"r"((mips_reg)src_stride2)
: "memory"
);
}
inline void ff_avg_pixels16_l2_8_mmi(uint8_t *dst, const uint8_t *src1,
const uint8_t *src2, int dst_stride, int src_stride1, int src_stride2,
int h)
{
ff_avg_pixels8_l2_8_mmi(dst, src1, src2, dst_stride, src_stride1,
src_stride2, h);
ff_avg_pixels8_l2_8_mmi(dst + 8, src1 + 8, src2 + 8, dst_stride,
src_stride1, src_stride2, h);
}
void ff_put_pixels4_x2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
ff_put_pixels4_l2_8_mmi(block, pixels, pixels + 1, line_size, line_size,
line_size, h);
}
void ff_put_pixels8_x2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
ff_put_pixels8_l2_8_mmi(block, pixels, pixels + 1, line_size, line_size,
line_size, h);
}
void ff_put_pixels16_x2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
ff_put_pixels16_l2_8_mmi(block, pixels, pixels + 1, line_size, line_size,
line_size, h);
}
void ff_avg_pixels4_x2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
ff_avg_pixels4_l2_8_mmi(block, pixels, pixels + 1, line_size, line_size,
line_size, h);
}
void ff_avg_pixels8_x2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
ff_avg_pixels8_l2_8_mmi(block, pixels, pixels + 1, line_size, line_size,
line_size, h);
}
void ff_avg_pixels16_x2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
ff_avg_pixels8_x2_8_mmi(block, pixels, line_size, h);
ff_avg_pixels8_x2_8_mmi(block + 8, pixels + 8, line_size, h);
}
inline void ff_put_no_rnd_pixels8_l2_8_mmi(uint8_t *dst, const uint8_t *src1,
const uint8_t *src2, int dst_stride, int src_stride1, int src_stride2,
int h)
{
double ftmp[5];
mips_reg addr[5];
DECLARE_VAR_ALL64;
DECLARE_VAR_ADDRT;
__asm__ volatile (
"pcmpeqb %[ftmp4], %[ftmp4], %[ftmp4] \n\t"
PTR_ADDU "%[addr2], %[src_stride1], %[src_stride1] \n\t"
PTR_ADDU "%[addr3], %[src_stride2], %[src_stride2] \n\t"
PTR_ADDU "%[addr4], %[dst_stride], %[dst_stride] \n\t"
"1: \n\t"
MMI_ULDC1(%[ftmp0], %[src1], 0x00)
PTR_ADDU "%[addr0], %[src1], %[src_stride1] \n\t"
MMI_ULDC1(%[ftmp1], %[addr0], 0x00)
MMI_ULDC1(%[ftmp2], %[src2], 0x00)
PTR_ADDU "%[addr1], %[src2], %[src_stride2] \n\t"
MMI_ULDC1(%[ftmp3], %[addr1], 0x00)
PTR_ADDU "%[src1], %[src1], %[addr2] \n\t"
"xor %[ftmp0], %[ftmp0], %[ftmp4] \n\t"
"xor %[ftmp1], %[ftmp1], %[ftmp4] \n\t"
"xor %[ftmp2], %[ftmp2], %[ftmp4] \n\t"
"xor %[ftmp3], %[ftmp3], %[ftmp4] \n\t"
"pavgb %[ftmp0], %[ftmp0], %[ftmp2] \n\t"
"pavgb %[ftmp1], %[ftmp1], %[ftmp3] \n\t"
"xor %[ftmp0], %[ftmp0], %[ftmp4] \n\t"
"xor %[ftmp1], %[ftmp1], %[ftmp4] \n\t"
MMI_SDC1(%[ftmp0], %[dst], 0x00)
MMI_SDXC1(%[ftmp1], %[dst], %[dst_stride], 0x00)
PTR_ADDU "%[src2], %[src2], %[addr3] \n\t"
PTR_ADDU "%[dst], %[dst], %[addr4] \n\t"
MMI_ULDC1(%[ftmp0], %[src1], 0x00)
PTR_ADDU "%[addr0], %[src1], %[src_stride1] \n\t"
MMI_ULDC1(%[ftmp1], %[addr0], 0x00)
MMI_ULDC1(%[ftmp2], %[src2], 0x00)
PTR_ADDU "%[addr1], %[src2], %[src_stride2] \n\t"
MMI_ULDC1(%[ftmp3], %[addr1], 0x00)
PTR_ADDU "%[src1], %[src1], %[addr2] \n\t"
"xor %[ftmp0], %[ftmp0], %[ftmp4] \n\t"
"xor %[ftmp1], %[ftmp1], %[ftmp4] \n\t"
"xor %[ftmp2], %[ftmp2], %[ftmp4] \n\t"
"xor %[ftmp3], %[ftmp3], %[ftmp4] \n\t"
"pavgb %[ftmp0], %[ftmp0], %[ftmp2] \n\t"
"pavgb %[ftmp1], %[ftmp1], %[ftmp3] \n\t"
"xor %[ftmp0], %[ftmp0], %[ftmp4] \n\t"
"xor %[ftmp1], %[ftmp1], %[ftmp4] \n\t"
MMI_SDC1(%[ftmp0], %[dst], 0x00)
MMI_SDXC1(%[ftmp1], %[dst], %[dst_stride], 0x00)
PTR_ADDU "%[src2], %[src2], %[addr3] \n\t"
PTR_ADDU "%[dst], %[dst], %[addr4] \n\t"
PTR_ADDI "%[h], %[h], -0x04 \n\t"
"bnez %[h], 1b \n\t"
: [ftmp0]"=&f"(ftmp[0]), [ftmp1]"=&f"(ftmp[1]),
[ftmp2]"=&f"(ftmp[2]), [ftmp3]"=&f"(ftmp[3]),
[ftmp4]"=&f"(ftmp[4]),
RESTRICT_ASM_ALL64
RESTRICT_ASM_ADDRT
[addr0]"=&r"(addr[0]), [addr1]"=&r"(addr[1]),
[addr2]"=&r"(addr[2]), [addr3]"=&r"(addr[3]),
[addr4]"=&r"(addr[4]),
[dst]"+&r"(dst), [src1]"+&r"(src1),
[src2]"+&r"(src2), [h]"+&r"(h)
: [dst_stride]"r"((mips_reg)dst_stride),
[src_stride1]"r"((mips_reg)src_stride1),
[src_stride2]"r"((mips_reg)src_stride2)
: "memory"
);
}
void ff_put_no_rnd_pixels8_x2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
ff_put_no_rnd_pixels8_l2_8_mmi(block, pixels, pixels + 1, line_size,
line_size, line_size, h);
}
void ff_put_no_rnd_pixels16_x2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
ff_put_no_rnd_pixels8_x2_8_mmi(block, pixels, line_size, h);
ff_put_no_rnd_pixels8_x2_8_mmi(block + 8, pixels + 8, line_size, h);
}
void ff_put_pixels4_y2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
ff_put_pixels4_l2_8_mmi(block, pixels, pixels + line_size, line_size,
line_size, line_size, h);
}
void ff_put_pixels8_y2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
ff_put_pixels8_l2_8_mmi(block, pixels, pixels + line_size, line_size,
line_size, line_size, h);
}
void ff_put_pixels16_y2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
ff_put_pixels16_l2_8_mmi(block, pixels, pixels + line_size, line_size,
line_size, line_size, h);
}
void ff_avg_pixels4_y2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
ff_avg_pixels4_l2_8_mmi(block, pixels, pixels + line_size, line_size,
line_size, line_size, h);
}
void ff_avg_pixels8_y2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
ff_avg_pixels8_l2_8_mmi(block, pixels, pixels + line_size, line_size,
line_size, line_size, h);
}
void ff_avg_pixels16_y2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
ff_avg_pixels8_y2_8_mmi(block, pixels, line_size, h);
ff_avg_pixels8_y2_8_mmi(block + 8, pixels + 8, line_size, h);
}
void ff_put_no_rnd_pixels8_y2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
ff_put_no_rnd_pixels8_l2_8_mmi(block, pixels, pixels + line_size,
line_size, line_size, line_size, h);
}
void ff_put_no_rnd_pixels16_y2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
ff_put_no_rnd_pixels8_y2_8_mmi(block, pixels, line_size, h);
ff_put_no_rnd_pixels8_y2_8_mmi(block + 8 , pixels + 8, line_size, h);
}
void ff_put_pixels4_xy2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
/* FIXME HIGH BIT DEPTH */
int i;
const uint32_t a = AV_RN32(pixels);
const uint32_t b = AV_RN32(pixels + 1);
uint32_t l0 = (a & 0x03030303UL) +
(b & 0x03030303UL) +
0x02020202UL;
uint32_t h0 = ((a & 0xFCFCFCFCUL) >> 2) +
((b & 0xFCFCFCFCUL) >> 2);
uint32_t l1, h1;
pixels += line_size;
for (i = 0; i < h; i += 2) {
uint32_t a = AV_RN32(pixels);
uint32_t b = AV_RN32(pixels + 1);
l1 = (a & 0x03030303UL) +
(b & 0x03030303UL);
h1 = ((a & 0xFCFCFCFCUL) >> 2) +
((b & 0xFCFCFCFCUL) >> 2);
*((uint32_t *) block) = h0 + h1 + (((l0 + l1) >> 2) & 0x0F0F0F0FUL);
pixels += line_size;
block += line_size;
a = AV_RN32(pixels);
b = AV_RN32(pixels + 1);
l0 = (a & 0x03030303UL) +
(b & 0x03030303UL) +
0x02020202UL;
h0 = ((a & 0xFCFCFCFCUL) >> 2) +
((b & 0xFCFCFCFCUL) >> 2);
*((uint32_t *) block) = h0 + h1 + (((l0 + l1) >> 2) & 0x0F0F0F0FUL);
pixels += line_size;
block += line_size;
}
}
void ff_put_pixels8_xy2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
#if 1
double ftmp[10];
mips_reg addr[2];
DECLARE_VAR_ALL64;
DECLARE_VAR_ADDRT;
__asm__ volatile (
"xor %[ftmp7], %[ftmp7], %[ftmp7] \n\t"
"dli %[addr0], 0x0f \n\t"
"pcmpeqw %[ftmp6], %[ftmp6], %[ftmp6] \n\t"
"dmtc1 %[addr0], %[ftmp8] \n\t"
"dli %[addr0], 0x01 \n\t"
"psrlh %[ftmp6], %[ftmp6], %[ftmp8] \n\t"
"dmtc1 %[addr0], %[ftmp8] \n\t"
"psllh %[ftmp6], %[ftmp6], %[ftmp8] \n\t"
"dli %[addr0], 0x02 \n\t"
"dmtc1 %[addr0], %[ftmp9] \n\t"
MMI_ULDC1(%[ftmp0], %[pixels], 0x00)
MMI_ULDC1(%[ftmp4], %[pixels], 0x01)
"mov.d %[ftmp1], %[ftmp0] \n\t"
"mov.d %[ftmp5], %[ftmp4] \n\t"
"punpcklbh %[ftmp0], %[ftmp0], %[ftmp7] \n\t"
"punpcklbh %[ftmp4], %[ftmp4], %[ftmp7] \n\t"
"punpckhbh %[ftmp1], %[ftmp1], %[ftmp7] \n\t"
"punpckhbh %[ftmp5], %[ftmp5], %[ftmp7] \n\t"
"paddush %[ftmp4], %[ftmp4], %[ftmp0] \n\t"
"paddush %[ftmp5], %[ftmp5], %[ftmp1] \n\t"
"xor %[addr0], %[addr0], %[addr0] \n\t"
PTR_ADDU "%[pixels], %[pixels], %[line_size] \n\t"
".p2align 3 \n\t"
"1: \n\t"
PTR_ADDU "%[addr1], %[pixels], %[addr0] \n\t"
MMI_ULDC1(%[ftmp0], %[addr1], 0x00)
MMI_ULDC1(%[ftmp2], %[addr1], 0x01)
"mov.d %[ftmp1], %[ftmp0] \n\t"
"mov.d %[ftmp3], %[ftmp2] \n\t"
"punpcklbh %[ftmp0], %[ftmp0], %[ftmp7] \n\t"
"punpcklbh %[ftmp2], %[ftmp2], %[ftmp7] \n\t"
"punpckhbh %[ftmp1], %[ftmp1], %[ftmp7] \n\t"
"punpckhbh %[ftmp3], %[ftmp3], %[ftmp7] \n\t"
"paddush %[ftmp0], %[ftmp0], %[ftmp2] \n\t"
"paddush %[ftmp1], %[ftmp1], %[ftmp3] \n\t"
"paddush %[ftmp4], %[ftmp4], %[ftmp6] \n\t"
"paddush %[ftmp5], %[ftmp5], %[ftmp6] \n\t"
"paddush %[ftmp4], %[ftmp4], %[ftmp0] \n\t"
"paddush %[ftmp5], %[ftmp5], %[ftmp1] \n\t"
"psrlh %[ftmp4], %[ftmp4], %[ftmp9] \n\t"
"psrlh %[ftmp5], %[ftmp5], %[ftmp9] \n\t"
"packushb %[ftmp4], %[ftmp4], %[ftmp5] \n\t"
MMI_SDXC1(%[ftmp4], %[block], %[addr0], 0x00)
PTR_ADDU "%[addr0], %[addr0], %[line_size] \n\t"
PTR_ADDU "%[addr1], %[pixels], %[addr0] \n\t"
MMI_ULDC1(%[ftmp2], %[addr1], 0x00)
MMI_ULDC1(%[ftmp4], %[addr1], 0x01)
"mov.d %[ftmp3], %[ftmp2] \n\t"
"mov.d %[ftmp5], %[ftmp4] \n\t"
"punpcklbh %[ftmp2], %[ftmp2], %[ftmp7] \n\t"
"punpcklbh %[ftmp4], %[ftmp4], %[ftmp7] \n\t"
"punpckhbh %[ftmp3], %[ftmp3], %[ftmp7] \n\t"
"punpckhbh %[ftmp5], %[ftmp5], %[ftmp7] \n\t"
"paddush %[ftmp4], %[ftmp4], %[ftmp2] \n\t"
"paddush %[ftmp5], %[ftmp5], %[ftmp3] \n\t"
"paddush %[ftmp0], %[ftmp0], %[ftmp6] \n\t"
"paddush %[ftmp1], %[ftmp1], %[ftmp6] \n\t"
"paddush %[ftmp0], %[ftmp0], %[ftmp4] \n\t"
"paddush %[ftmp1], %[ftmp1], %[ftmp5] \n\t"
"psrlh %[ftmp0], %[ftmp0], %[ftmp9] \n\t"
"psrlh %[ftmp1], %[ftmp1], %[ftmp9] \n\t"
"packushb %[ftmp0], %[ftmp0], %[ftmp1] \n\t"
MMI_SDXC1(%[ftmp0], %[block], %[addr0], 0x00)
PTR_ADDU "%[addr0], %[addr0], %[line_size] \n\t"
PTR_ADDU "%[h], %[h], -0x02 \n\t"
"bnez %[h], 1b \n\t"
: [ftmp0]"=&f"(ftmp[0]), [ftmp1]"=&f"(ftmp[1]),
[ftmp2]"=&f"(ftmp[2]), [ftmp3]"=&f"(ftmp[3]),
[ftmp4]"=&f"(ftmp[4]), [ftmp5]"=&f"(ftmp[5]),
[ftmp6]"=&f"(ftmp[6]), [ftmp7]"=&f"(ftmp[7]),
[ftmp8]"=&f"(ftmp[8]), [ftmp9]"=&f"(ftmp[9]),
RESTRICT_ASM_ALL64
RESTRICT_ASM_ADDRT
[addr0]"=&r"(addr[0]), [addr1]"=&r"(addr[1]),
[h]"+&r"(h), [pixels]"+&r"(pixels)
: [block]"r"(block), [line_size]"r"((mips_reg)line_size)
: "memory"
);
#else
/* FIXME HIGH BIT DEPTH */
int j;
for (j = 0; j < 2; j++) {
int i;
const uint32_t a = AV_RN32(pixels);
const uint32_t b = AV_RN32(pixels + 1);
uint32_t l0 = (a & 0x03030303UL) +
(b & 0x03030303UL) +
0x02020202UL;
uint32_t h0 = ((a & 0xFCFCFCFCUL) >> 2) +
((b & 0xFCFCFCFCUL) >> 2);
uint32_t l1, h1;
pixels += line_size;
for (i = 0; i < h; i += 2) {
uint32_t a = AV_RN32(pixels);
uint32_t b = AV_RN32(pixels + 1);
l1 = (a & 0x03030303UL) +
(b & 0x03030303UL);
h1 = ((a & 0xFCFCFCFCUL) >> 2) +
((b & 0xFCFCFCFCUL) >> 2);
*((uint32_t *) block) = h0 + h1 + (((l0 + l1) >> 2) & 0x0F0F0F0FUL);
pixels += line_size;
block += line_size;
a = AV_RN32(pixels);
b = AV_RN32(pixels + 1);
l0 = (a & 0x03030303UL) +
(b & 0x03030303UL) +
0x02020202UL;
h0 = ((a & 0xFCFCFCFCUL) >> 2) +
((b & 0xFCFCFCFCUL) >> 2);
*((uint32_t *) block) = h0 + h1 + (((l0 + l1) >> 2) & 0x0F0F0F0FUL);
pixels += line_size;
block += line_size;
}
pixels += 4 - line_size * (h + 1);
block += 4 - line_size * h;
}
#endif
}
void ff_put_pixels16_xy2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
ff_put_pixels8_xy2_8_mmi(block, pixels, line_size, h);
ff_put_pixels8_xy2_8_mmi(block + 8, pixels + 8, line_size, h);
}
void ff_avg_pixels4_xy2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
/* FIXME HIGH BIT DEPTH */
int i;
const uint32_t a = AV_RN32(pixels);
const uint32_t b = AV_RN32(pixels + 1);
uint32_t l0 = (a & 0x03030303UL) +
(b & 0x03030303UL) +
0x02020202UL;
uint32_t h0 = ((a & 0xFCFCFCFCUL) >> 2) +
((b & 0xFCFCFCFCUL) >> 2);
uint32_t l1, h1;
pixels += line_size;
for (i = 0; i < h; i += 2) {
uint32_t a = AV_RN32(pixels);
uint32_t b = AV_RN32(pixels + 1);
l1 = (a & 0x03030303UL) +
(b & 0x03030303UL);
h1 = ((a & 0xFCFCFCFCUL) >> 2) +
((b & 0xFCFCFCFCUL) >> 2);
*((uint32_t *) block) = rnd_avg32(*((uint32_t *) block), h0 + h1 + (((l0 + l1) >> 2) & 0x0F0F0F0FUL));
pixels += line_size;
block += line_size;
a = AV_RN32(pixels);
b = AV_RN32(pixels + 1);
l0 = (a & 0x03030303UL) +
(b & 0x03030303UL) +
0x02020202UL;
h0 = ((a & 0xFCFCFCFCUL) >> 2) +
((b & 0xFCFCFCFCUL) >> 2);
*((uint32_t *) block) = rnd_avg32(*((uint32_t *) block), h0 + h1 + (((l0 + l1) >> 2) & 0x0F0F0F0FUL));
pixels += line_size;
block += line_size;
}
}
void ff_avg_pixels8_xy2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
/* FIXME HIGH BIT DEPTH */
int j;
for (j = 0; j < 2; j++) {
int i;
const uint32_t a = AV_RN32(pixels);
const uint32_t b = AV_RN32(pixels + 1);
uint32_t l0 = (a & 0x03030303UL) +
(b & 0x03030303UL) +
0x02020202UL;
uint32_t h0 = ((a & 0xFCFCFCFCUL) >> 2) +
((b & 0xFCFCFCFCUL) >> 2);
uint32_t l1, h1;
pixels += line_size;
for (i = 0; i < h; i += 2) {
uint32_t a = AV_RN32(pixels);
uint32_t b = AV_RN32(pixels + 1);
l1 = (a & 0x03030303UL) +
(b & 0x03030303UL);
h1 = ((a & 0xFCFCFCFCUL) >> 2) +
((b & 0xFCFCFCFCUL) >> 2);
*((uint32_t *) block) = rnd_avg32(*((uint32_t *) block), h0 + h1 + (((l0 + l1) >> 2) & 0x0F0F0F0FUL));
pixels += line_size;
block += line_size;
a = AV_RN32(pixels);
b = AV_RN32(pixels + 1);
l0 = (a & 0x03030303UL) +
(b & 0x03030303UL) +
0x02020202UL;
h0 = ((a & 0xFCFCFCFCUL) >> 2) +
((b & 0xFCFCFCFCUL) >> 2);
*((uint32_t *) block) = rnd_avg32(*((uint32_t *) block), h0 + h1 + (((l0 + l1) >> 2) & 0x0F0F0F0FUL));
pixels += line_size;
block += line_size;
}
pixels += 4 - line_size * (h + 1);
block += 4 - line_size * h;
}
}
void ff_avg_pixels16_xy2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
ff_avg_pixels8_xy2_8_mmi(block, pixels, line_size, h);
ff_avg_pixels8_xy2_8_mmi(block + 8, pixels + 8, line_size, h);
}
void ff_put_no_rnd_pixels8_xy2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
/* FIXME HIGH BIT DEPTH */
int j;
for (j = 0; j < 2; j++) {
int i;
const uint32_t a = AV_RN32(pixels);
const uint32_t b = AV_RN32(pixels + 1);
uint32_t l0 = (a & 0x03030303UL) +
(b & 0x03030303UL) +
0x01010101UL;
uint32_t h0 = ((a & 0xFCFCFCFCUL) >> 2) +
((b & 0xFCFCFCFCUL) >> 2);
uint32_t l1, h1;
pixels += line_size;
for (i = 0; i < h; i += 2) {
uint32_t a = AV_RN32(pixels);
uint32_t b = AV_RN32(pixels + 1);
l1 = (a & 0x03030303UL) +
(b & 0x03030303UL);
h1 = ((a & 0xFCFCFCFCUL) >> 2) +
((b & 0xFCFCFCFCUL) >> 2);
*((uint32_t *) block) = h0 + h1 + (((l0 + l1) >> 2) & 0x0F0F0F0FUL);
pixels += line_size;
block += line_size;
a = AV_RN32(pixels);
b = AV_RN32(pixels + 1);
l0 = (a & 0x03030303UL) +
(b & 0x03030303UL) +
0x01010101UL;
h0 = ((a & 0xFCFCFCFCUL) >> 2) +
((b & 0xFCFCFCFCUL) >> 2);
*((uint32_t *) block) = h0 + h1 + (((l0 + l1) >> 2) & 0x0F0F0F0FUL);
pixels += line_size;
block += line_size;
}
pixels += 4 - line_size * (h + 1);
block += 4 - line_size * h;
}
}
void ff_put_no_rnd_pixels16_xy2_8_mmi(uint8_t *block, const uint8_t *pixels,
ptrdiff_t line_size, int h)
{
ff_put_no_rnd_pixels8_xy2_8_mmi(block, pixels, line_size, h);
ff_put_no_rnd_pixels8_xy2_8_mmi(block + 8, pixels + 8, line_size, h);
}