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https://github.com/FFmpeg/FFmpeg.git
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153c607525
Replace STnxm_UB and LDnxm_SH with new macros ST_{H/W/D}{1/2/4/8}. The old macros are difficult to use because they don't follow the same parameter passing rules. Changing details as following: 1. remove LD4x4_SH. 2. replace ST2x4_UB with ST_H4. 3. replace ST4x2_UB with ST_W2. 4. replace ST4x4_UB with ST_W4. 5. replace ST4x8_UB with ST_W8. 6. replace ST6x4_UB with ST_W2 and ST_H2. 7. replace ST8x1_UB with ST_D1. 8. replace ST8x2_UB with ST_D2. 9. replace ST8x4_UB with ST_D4. 10. replace ST8x8_UB with ST_D8. 11. replace ST12x4_UB with ST_D4 and ST_W4. Examples of new macro: ST_H4(in, idx0, idx1, idx2, idx3, pdst, stride) ST_H4 store four half-word elements in vector 'in' to pdst with stride. About the macro name: 1) 'ST' means store operation. 2) 'H/W/D' means type of vector element is 'half-word/word/double-word'. 3) Number '1/2/4/8' means how many elements will be stored. About the macro parameter: 1) 'in0, in1...' 128-bits vector. 2) 'idx0, idx1...' elements index. 3) 'pdst' destination pointer to store to 4) 'stride' stride of each store operation. Signed-off-by: Michael Niedermayer <michael@niedermayer.cc>
535 lines
22 KiB
C
535 lines
22 KiB
C
/*
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* Copyright (c) 2015 Shivraj Patil (Shivraj.Patil@imgtec.com)
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*
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* This file is part of FFmpeg.
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*
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* FFmpeg is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* FFmpeg is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with FFmpeg; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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#include "libavcodec/vp9dsp.h"
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#include "libavutil/mips/generic_macros_msa.h"
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#include "vp9dsp_mips.h"
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#define IPRED_SUBS_UH2_UH(in0, in1, out0, out1) \
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{ \
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out0 = __msa_subs_u_h(out0, in0); \
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out1 = __msa_subs_u_h(out1, in1); \
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}
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void ff_vert_16x16_msa(uint8_t *dst, ptrdiff_t dst_stride, const uint8_t *left,
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const uint8_t *src)
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{
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uint32_t row;
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v16u8 src0;
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src0 = LD_UB(src);
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for (row = 16; row--;) {
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ST_UB(src0, dst);
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dst += dst_stride;
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}
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}
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void ff_vert_32x32_msa(uint8_t *dst, ptrdiff_t dst_stride, const uint8_t *left,
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const uint8_t *src)
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{
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uint32_t row;
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v16u8 src1, src2;
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src1 = LD_UB(src);
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src2 = LD_UB(src + 16);
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for (row = 32; row--;) {
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ST_UB2(src1, src2, dst, 16);
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dst += dst_stride;
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}
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}
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void ff_hor_16x16_msa(uint8_t *dst, ptrdiff_t dst_stride, const uint8_t *src,
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const uint8_t *top)
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{
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uint32_t row, inp;
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v16u8 src0, src1, src2, src3;
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src += 12;
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for (row = 4; row--;) {
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inp = LW(src);
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src -= 4;
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src0 = (v16u8) __msa_fill_b(inp >> 24);
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src1 = (v16u8) __msa_fill_b(inp >> 16);
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src2 = (v16u8) __msa_fill_b(inp >> 8);
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src3 = (v16u8) __msa_fill_b(inp);
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ST_UB4(src0, src1, src2, src3, dst, dst_stride);
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dst += (4 * dst_stride);
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}
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}
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void ff_hor_32x32_msa(uint8_t *dst, ptrdiff_t dst_stride, const uint8_t *src,
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const uint8_t *top)
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{
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uint32_t row, inp;
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v16u8 src0, src1, src2, src3;
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src += 28;
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for (row = 8; row--;) {
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inp = LW(src);
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src -= 4;
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src0 = (v16u8) __msa_fill_b(inp >> 24);
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src1 = (v16u8) __msa_fill_b(inp >> 16);
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src2 = (v16u8) __msa_fill_b(inp >> 8);
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src3 = (v16u8) __msa_fill_b(inp);
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ST_UB2(src0, src0, dst, 16);
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dst += dst_stride;
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ST_UB2(src1, src1, dst, 16);
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dst += dst_stride;
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ST_UB2(src2, src2, dst, 16);
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dst += dst_stride;
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ST_UB2(src3, src3, dst, 16);
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dst += dst_stride;
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}
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}
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void ff_dc_4x4_msa(uint8_t *dst, ptrdiff_t dst_stride, const uint8_t *src_left,
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const uint8_t *src_top)
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{
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uint32_t val0, val1;
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v16i8 store, src = { 0 };
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v8u16 sum_h;
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v4u32 sum_w;
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v2u64 sum_d;
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val0 = LW(src_top);
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val1 = LW(src_left);
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INSERT_W2_SB(val0, val1, src);
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sum_h = __msa_hadd_u_h((v16u8) src, (v16u8) src);
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sum_w = __msa_hadd_u_w(sum_h, sum_h);
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sum_d = __msa_hadd_u_d(sum_w, sum_w);
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sum_w = (v4u32) __msa_srari_w((v4i32) sum_d, 3);
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store = __msa_splati_b((v16i8) sum_w, 0);
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val0 = __msa_copy_u_w((v4i32) store, 0);
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SW4(val0, val0, val0, val0, dst, dst_stride);
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}
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#define INTRA_DC_TL_4x4(dir) \
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void ff_dc_##dir##_4x4_msa(uint8_t *dst, ptrdiff_t dst_stride, \
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const uint8_t *left, \
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const uint8_t *top) \
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{ \
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uint32_t val0; \
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v16i8 store, data = { 0 }; \
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v8u16 sum_h; \
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v4u32 sum_w; \
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\
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val0 = LW(dir); \
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data = (v16i8) __msa_insert_w((v4i32) data, 0, val0); \
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sum_h = __msa_hadd_u_h((v16u8) data, (v16u8) data); \
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sum_w = __msa_hadd_u_w(sum_h, sum_h); \
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sum_w = (v4u32) __msa_srari_w((v4i32) sum_w, 2); \
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store = __msa_splati_b((v16i8) sum_w, 0); \
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val0 = __msa_copy_u_w((v4i32) store, 0); \
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\
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SW4(val0, val0, val0, val0, dst, dst_stride); \
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}
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INTRA_DC_TL_4x4(top);
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INTRA_DC_TL_4x4(left);
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void ff_dc_8x8_msa(uint8_t *dst, ptrdiff_t dst_stride, const uint8_t *src_left,
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const uint8_t *src_top)
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{
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uint64_t val0, val1;
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v16i8 store;
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v16u8 src = { 0 };
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v8u16 sum_h;
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v4u32 sum_w;
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v2u64 sum_d;
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val0 = LD(src_top);
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val1 = LD(src_left);
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INSERT_D2_UB(val0, val1, src);
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sum_h = __msa_hadd_u_h(src, src);
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sum_w = __msa_hadd_u_w(sum_h, sum_h);
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sum_d = __msa_hadd_u_d(sum_w, sum_w);
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sum_w = (v4u32) __msa_pckev_w((v4i32) sum_d, (v4i32) sum_d);
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sum_d = __msa_hadd_u_d(sum_w, sum_w);
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sum_w = (v4u32) __msa_srari_w((v4i32) sum_d, 4);
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store = __msa_splati_b((v16i8) sum_w, 0);
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val0 = __msa_copy_u_d((v2i64) store, 0);
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SD4(val0, val0, val0, val0, dst, dst_stride);
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dst += (4 * dst_stride);
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SD4(val0, val0, val0, val0, dst, dst_stride);
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}
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#define INTRA_DC_TL_8x8(dir) \
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void ff_dc_##dir##_8x8_msa(uint8_t *dst, ptrdiff_t dst_stride, \
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const uint8_t *left, \
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const uint8_t *top) \
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{ \
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uint64_t val0; \
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v16i8 store; \
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v16u8 data = { 0 }; \
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v8u16 sum_h; \
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v4u32 sum_w; \
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v2u64 sum_d; \
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\
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val0 = LD(dir); \
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data = (v16u8) __msa_insert_d((v2i64) data, 0, val0); \
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sum_h = __msa_hadd_u_h(data, data); \
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sum_w = __msa_hadd_u_w(sum_h, sum_h); \
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sum_d = __msa_hadd_u_d(sum_w, sum_w); \
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sum_w = (v4u32) __msa_srari_w((v4i32) sum_d, 3); \
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store = __msa_splati_b((v16i8) sum_w, 0); \
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val0 = __msa_copy_u_d((v2i64) store, 0); \
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\
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SD4(val0, val0, val0, val0, dst, dst_stride); \
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dst += (4 * dst_stride); \
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SD4(val0, val0, val0, val0, dst, dst_stride); \
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}
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INTRA_DC_TL_8x8(top);
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INTRA_DC_TL_8x8(left);
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void ff_dc_16x16_msa(uint8_t *dst, ptrdiff_t dst_stride,
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const uint8_t *src_left, const uint8_t *src_top)
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{
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v16u8 top, left, out;
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v8u16 sum_h, sum_top, sum_left;
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v4u32 sum_w;
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v2u64 sum_d;
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top = LD_UB(src_top);
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left = LD_UB(src_left);
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HADD_UB2_UH(top, left, sum_top, sum_left);
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sum_h = sum_top + sum_left;
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sum_w = __msa_hadd_u_w(sum_h, sum_h);
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sum_d = __msa_hadd_u_d(sum_w, sum_w);
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sum_w = (v4u32) __msa_pckev_w((v4i32) sum_d, (v4i32) sum_d);
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sum_d = __msa_hadd_u_d(sum_w, sum_w);
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sum_w = (v4u32) __msa_srari_w((v4i32) sum_d, 5);
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out = (v16u8) __msa_splati_b((v16i8) sum_w, 0);
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ST_UB8(out, out, out, out, out, out, out, out, dst, dst_stride);
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dst += (8 * dst_stride);
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ST_UB8(out, out, out, out, out, out, out, out, dst, dst_stride);
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}
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#define INTRA_DC_TL_16x16(dir) \
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void ff_dc_##dir##_16x16_msa(uint8_t *dst, ptrdiff_t dst_stride, \
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const uint8_t *left, \
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const uint8_t *top) \
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{ \
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v16u8 data, out; \
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v8u16 sum_h; \
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v4u32 sum_w; \
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v2u64 sum_d; \
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\
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data = LD_UB(dir); \
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sum_h = __msa_hadd_u_h(data, data); \
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sum_w = __msa_hadd_u_w(sum_h, sum_h); \
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sum_d = __msa_hadd_u_d(sum_w, sum_w); \
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sum_w = (v4u32) __msa_pckev_w((v4i32) sum_d, (v4i32) sum_d); \
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sum_d = __msa_hadd_u_d(sum_w, sum_w); \
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sum_w = (v4u32) __msa_srari_w((v4i32) sum_d, 4); \
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out = (v16u8) __msa_splati_b((v16i8) sum_w, 0); \
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\
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ST_UB8(out, out, out, out, out, out, out, out, dst, dst_stride); \
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dst += (8 * dst_stride); \
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ST_UB8(out, out, out, out, out, out, out, out, dst, dst_stride); \
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}
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INTRA_DC_TL_16x16(top);
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INTRA_DC_TL_16x16(left);
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void ff_dc_32x32_msa(uint8_t *dst, ptrdiff_t dst_stride,
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const uint8_t *src_left, const uint8_t *src_top)
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{
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uint32_t row;
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v16u8 top0, top1, left0, left1, out;
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v8u16 sum_h, sum_top0, sum_top1, sum_left0, sum_left1;
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v4u32 sum_w;
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v2u64 sum_d;
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LD_UB2(src_top, 16, top0, top1);
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LD_UB2(src_left, 16, left0, left1);
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HADD_UB2_UH(top0, top1, sum_top0, sum_top1);
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HADD_UB2_UH(left0, left1, sum_left0, sum_left1);
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sum_h = sum_top0 + sum_top1;
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sum_h += sum_left0 + sum_left1;
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sum_w = __msa_hadd_u_w(sum_h, sum_h);
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sum_d = __msa_hadd_u_d(sum_w, sum_w);
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sum_w = (v4u32) __msa_pckev_w((v4i32) sum_d, (v4i32) sum_d);
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sum_d = __msa_hadd_u_d(sum_w, sum_w);
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sum_w = (v4u32) __msa_srari_w((v4i32) sum_d, 6);
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out = (v16u8) __msa_splati_b((v16i8) sum_w, 0);
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for (row = 16; row--;)
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{
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ST_UB2(out, out, dst, 16);
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dst += dst_stride;
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ST_UB2(out, out, dst, 16);
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dst += dst_stride;
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}
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}
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#define INTRA_DC_TL_32x32(dir) \
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void ff_dc_##dir##_32x32_msa(uint8_t *dst, ptrdiff_t dst_stride, \
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const uint8_t *left, \
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const uint8_t *top) \
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{ \
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uint32_t row; \
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v16u8 data0, data1, out; \
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v8u16 sum_h, sum_data0, sum_data1; \
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v4u32 sum_w; \
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v2u64 sum_d; \
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\
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LD_UB2(dir, 16, data0, data1); \
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HADD_UB2_UH(data0, data1, sum_data0, sum_data1); \
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sum_h = sum_data0 + sum_data1; \
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sum_w = __msa_hadd_u_w(sum_h, sum_h); \
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sum_d = __msa_hadd_u_d(sum_w, sum_w); \
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sum_w = (v4u32) __msa_pckev_w((v4i32) sum_d, (v4i32) sum_d); \
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sum_d = __msa_hadd_u_d(sum_w, sum_w); \
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sum_w = (v4u32) __msa_srari_w((v4i32) sum_d, 5); \
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out = (v16u8) __msa_splati_b((v16i8) sum_w, 0); \
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\
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for (row = 16; row--;) \
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{ \
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ST_UB2(out, out, dst, 16); \
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dst += dst_stride; \
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ST_UB2(out, out, dst, 16); \
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dst += dst_stride; \
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} \
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}
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INTRA_DC_TL_32x32(top);
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INTRA_DC_TL_32x32(left);
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#define INTRA_PREDICT_VALDC_16X16_MSA(val) \
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void ff_dc_##val##_16x16_msa(uint8_t *dst, ptrdiff_t dst_stride, \
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const uint8_t *left, const uint8_t *top) \
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{ \
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v16u8 out = (v16u8) __msa_ldi_b(val); \
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\
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ST_UB8(out, out, out, out, out, out, out, out, dst, dst_stride); \
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dst += (8 * dst_stride); \
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ST_UB8(out, out, out, out, out, out, out, out, dst, dst_stride); \
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}
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INTRA_PREDICT_VALDC_16X16_MSA(127);
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INTRA_PREDICT_VALDC_16X16_MSA(128);
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INTRA_PREDICT_VALDC_16X16_MSA(129);
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#define INTRA_PREDICT_VALDC_32X32_MSA(val) \
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void ff_dc_##val##_32x32_msa(uint8_t *dst, ptrdiff_t dst_stride, \
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const uint8_t *left, const uint8_t *top) \
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{ \
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uint32_t row; \
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v16u8 out = (v16u8) __msa_ldi_b(val); \
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\
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for (row = 16; row--;) \
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{ \
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ST_UB2(out, out, dst, 16); \
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dst += dst_stride; \
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ST_UB2(out, out, dst, 16); \
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dst += dst_stride; \
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} \
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}
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INTRA_PREDICT_VALDC_32X32_MSA(127);
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INTRA_PREDICT_VALDC_32X32_MSA(128);
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INTRA_PREDICT_VALDC_32X32_MSA(129);
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void ff_tm_4x4_msa(uint8_t *dst, ptrdiff_t dst_stride,
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const uint8_t *src_left, const uint8_t *src_top_ptr)
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{
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uint32_t left;
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uint8_t top_left = src_top_ptr[-1];
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v16i8 src_top, src_left0, src_left1, src_left2, src_left3, tmp0, tmp1;
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v16u8 src0, src1, src2, src3;
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v8u16 src_top_left, vec0, vec1, vec2, vec3;
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src_top_left = (v8u16) __msa_fill_h(top_left);
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src_top = LD_SB(src_top_ptr);
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left = LW(src_left);
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src_left0 = __msa_fill_b(left >> 24);
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src_left1 = __msa_fill_b(left >> 16);
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src_left2 = __msa_fill_b(left >> 8);
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src_left3 = __msa_fill_b(left);
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ILVR_B4_UB(src_left0, src_top, src_left1, src_top, src_left2, src_top,
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src_left3, src_top, src0, src1, src2, src3);
|
|
HADD_UB4_UH(src0, src1, src2, src3, vec0, vec1, vec2, vec3);
|
|
IPRED_SUBS_UH2_UH(src_top_left, src_top_left, vec0, vec1);
|
|
IPRED_SUBS_UH2_UH(src_top_left, src_top_left, vec2, vec3);
|
|
SAT_UH4_UH(vec0, vec1, vec2, vec3, 7);
|
|
PCKEV_B2_SB(vec1, vec0, vec3, vec2, tmp0, tmp1);
|
|
ST_W2(tmp0, 0, 2, dst, dst_stride);
|
|
ST_W2(tmp1, 0, 2, dst + 2 * dst_stride, dst_stride);
|
|
}
|
|
|
|
void ff_tm_8x8_msa(uint8_t *dst, ptrdiff_t dst_stride,
|
|
const uint8_t *src_left, const uint8_t *src_top_ptr)
|
|
{
|
|
uint8_t top_left = src_top_ptr[-1];
|
|
uint32_t loop_cnt, left;
|
|
v16i8 src_top, src_left0, src_left1, src_left2, src_left3, tmp0, tmp1;
|
|
v8u16 src_top_left, vec0, vec1, vec2, vec3;
|
|
v16u8 src0, src1, src2, src3;
|
|
|
|
src_top = LD_SB(src_top_ptr);
|
|
src_top_left = (v8u16) __msa_fill_h(top_left);
|
|
|
|
src_left += 4;
|
|
for (loop_cnt = 2; loop_cnt--;) {
|
|
left = LW(src_left);
|
|
src_left0 = __msa_fill_b(left >> 24);
|
|
src_left1 = __msa_fill_b(left >> 16);
|
|
src_left2 = __msa_fill_b(left >> 8);
|
|
src_left3 = __msa_fill_b(left);
|
|
src_left -= 4;
|
|
|
|
ILVR_B4_UB(src_left0, src_top, src_left1, src_top, src_left2, src_top,
|
|
src_left3, src_top, src0, src1, src2, src3);
|
|
HADD_UB4_UH(src0, src1, src2, src3, vec0, vec1, vec2, vec3);
|
|
IPRED_SUBS_UH2_UH(src_top_left, src_top_left, vec0, vec1);
|
|
IPRED_SUBS_UH2_UH(src_top_left, src_top_left, vec2, vec3);
|
|
SAT_UH4_UH(vec0, vec1, vec2, vec3, 7);
|
|
PCKEV_B2_SB(vec1, vec0, vec3, vec2, tmp0, tmp1);
|
|
ST_D4(tmp0, tmp1, 0, 1, 0, 1, dst, dst_stride);
|
|
dst += (4 * dst_stride);
|
|
}
|
|
}
|
|
|
|
void ff_tm_16x16_msa(uint8_t *dst, ptrdiff_t dst_stride,
|
|
const uint8_t *src_left, const uint8_t *src_top_ptr)
|
|
{
|
|
uint8_t top_left = src_top_ptr[-1];
|
|
uint32_t loop_cnt, left;
|
|
v16i8 src_top, src_left0, src_left1, src_left2, src_left3;
|
|
v8u16 src_top_left, res_r, res_l;
|
|
|
|
src_top = LD_SB(src_top_ptr);
|
|
src_top_left = (v8u16) __msa_fill_h(top_left);
|
|
|
|
src_left += 12;
|
|
for (loop_cnt = 4; loop_cnt--;) {
|
|
left = LW(src_left);
|
|
src_left0 = __msa_fill_b(left >> 24);
|
|
src_left1 = __msa_fill_b(left >> 16);
|
|
src_left2 = __msa_fill_b(left >> 8);
|
|
src_left3 = __msa_fill_b(left);
|
|
src_left -= 4;
|
|
|
|
ILVRL_B2_UH(src_left0, src_top, res_r, res_l);
|
|
HADD_UB2_UH(res_r, res_l, res_r, res_l);
|
|
IPRED_SUBS_UH2_UH(src_top_left, src_top_left, res_r, res_l);
|
|
|
|
SAT_UH2_UH(res_r, res_l, 7);
|
|
PCKEV_ST_SB(res_r, res_l, dst);
|
|
dst += dst_stride;
|
|
|
|
ILVRL_B2_UH(src_left1, src_top, res_r, res_l);
|
|
HADD_UB2_UH(res_r, res_l, res_r, res_l);
|
|
IPRED_SUBS_UH2_UH(src_top_left, src_top_left, res_r, res_l);
|
|
SAT_UH2_UH(res_r, res_l, 7);
|
|
PCKEV_ST_SB(res_r, res_l, dst);
|
|
dst += dst_stride;
|
|
|
|
ILVRL_B2_UH(src_left2, src_top, res_r, res_l);
|
|
HADD_UB2_UH(res_r, res_l, res_r, res_l);
|
|
IPRED_SUBS_UH2_UH(src_top_left, src_top_left, res_r, res_l);
|
|
SAT_UH2_UH(res_r, res_l, 7);
|
|
PCKEV_ST_SB(res_r, res_l, dst);
|
|
dst += dst_stride;
|
|
|
|
ILVRL_B2_UH(src_left3, src_top, res_r, res_l);
|
|
HADD_UB2_UH(res_r, res_l, res_r, res_l);
|
|
IPRED_SUBS_UH2_UH(src_top_left, src_top_left, res_r, res_l);
|
|
SAT_UH2_UH(res_r, res_l, 7);
|
|
PCKEV_ST_SB(res_r, res_l, dst);
|
|
dst += dst_stride;
|
|
}
|
|
}
|
|
|
|
void ff_tm_32x32_msa(uint8_t *dst, ptrdiff_t dst_stride,
|
|
const uint8_t *src_left, const uint8_t *src_top_ptr)
|
|
{
|
|
uint8_t top_left = src_top_ptr[-1];
|
|
uint32_t loop_cnt, left;
|
|
v16i8 src_top0, src_top1, src_left0, src_left1, src_left2, src_left3;
|
|
v8u16 src_top_left, res_r0, res_r1, res_l0, res_l1;
|
|
|
|
src_top0 = LD_SB(src_top_ptr);
|
|
src_top1 = LD_SB(src_top_ptr + 16);
|
|
src_top_left = (v8u16) __msa_fill_h(top_left);
|
|
|
|
src_left += 28;
|
|
for (loop_cnt = 8; loop_cnt--;) {
|
|
left = LW(src_left);
|
|
src_left0 = __msa_fill_b(left >> 24);
|
|
src_left1 = __msa_fill_b(left >> 16);
|
|
src_left2 = __msa_fill_b(left >> 8);
|
|
src_left3 = __msa_fill_b(left);
|
|
src_left -= 4;
|
|
|
|
ILVR_B2_UH(src_left0, src_top0, src_left0, src_top1, res_r0, res_r1);
|
|
ILVL_B2_UH(src_left0, src_top0, src_left0, src_top1, res_l0, res_l1);
|
|
HADD_UB4_UH(res_r0, res_l0, res_r1, res_l1, res_r0, res_l0, res_r1,
|
|
res_l1);
|
|
IPRED_SUBS_UH2_UH(src_top_left, src_top_left, res_r0, res_l0);
|
|
IPRED_SUBS_UH2_UH(src_top_left, src_top_left, res_r1, res_l1);
|
|
SAT_UH4_UH(res_r0, res_l0, res_r1, res_l1, 7);
|
|
PCKEV_ST_SB(res_r0, res_l0, dst);
|
|
PCKEV_ST_SB(res_r1, res_l1, dst + 16);
|
|
dst += dst_stride;
|
|
|
|
ILVR_B2_UH(src_left1, src_top0, src_left1, src_top1, res_r0, res_r1);
|
|
ILVL_B2_UH(src_left1, src_top0, src_left1, src_top1, res_l0, res_l1);
|
|
HADD_UB4_UH(res_r0, res_l0, res_r1, res_l1, res_r0, res_l0, res_r1,
|
|
res_l1);
|
|
IPRED_SUBS_UH2_UH(src_top_left, src_top_left, res_r0, res_l0);
|
|
IPRED_SUBS_UH2_UH(src_top_left, src_top_left, res_r1, res_l1);
|
|
SAT_UH4_UH(res_r0, res_l0, res_r1, res_l1, 7);
|
|
PCKEV_ST_SB(res_r0, res_l0, dst);
|
|
PCKEV_ST_SB(res_r1, res_l1, dst + 16);
|
|
dst += dst_stride;
|
|
|
|
ILVR_B2_UH(src_left2, src_top0, src_left2, src_top1, res_r0, res_r1);
|
|
ILVL_B2_UH(src_left2, src_top0, src_left2, src_top1, res_l0, res_l1);
|
|
HADD_UB4_UH(res_r0, res_l0, res_r1, res_l1, res_r0, res_l0, res_r1,
|
|
res_l1);
|
|
IPRED_SUBS_UH2_UH(src_top_left, src_top_left, res_r0, res_l0);
|
|
IPRED_SUBS_UH2_UH(src_top_left, src_top_left, res_r1, res_l1);
|
|
SAT_UH4_UH(res_r0, res_l0, res_r1, res_l1, 7);
|
|
PCKEV_ST_SB(res_r0, res_l0, dst);
|
|
PCKEV_ST_SB(res_r1, res_l1, dst + 16);
|
|
dst += dst_stride;
|
|
|
|
ILVR_B2_UH(src_left3, src_top0, src_left3, src_top1, res_r0, res_r1);
|
|
ILVL_B2_UH(src_left3, src_top0, src_left3, src_top1, res_l0, res_l1);
|
|
HADD_UB4_UH(res_r0, res_l0, res_r1, res_l1, res_r0, res_l0, res_r1,
|
|
res_l1);
|
|
IPRED_SUBS_UH2_UH(src_top_left, src_top_left, res_r0, res_l0);
|
|
IPRED_SUBS_UH2_UH(src_top_left, src_top_left, res_r1, res_l1);
|
|
SAT_UH4_UH(res_r0, res_l0, res_r1, res_l1, 7);
|
|
PCKEV_ST_SB(res_r0, res_l0, dst);
|
|
PCKEV_ST_SB(res_r1, res_l1, dst + 16);
|
|
dst += dst_stride;
|
|
}
|
|
}
|