mirror of https://github.com/axmolengine/axmol.git
256 lines
7.9 KiB
C
256 lines
7.9 KiB
C
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/*
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* AltiVec optimizations for libjpeg-turbo
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*
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* Copyright (C) 2014-2015, D. R. Commander. All Rights Reserved.
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*
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* This software is provided 'as-is', without any express or implied
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* warranty. In no event will the authors be held liable for any damages
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* arising from the use of this software.
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*
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* Permission is granted to anyone to use this software for any purpose,
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* including commercial applications, and to alter it and redistribute it
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* freely, subject to the following restrictions:
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*
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* 1. The origin of this software must not be misrepresented; you must not
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* claim that you wrote the original software. If you use this software
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* in a product, an acknowledgment in the product documentation would be
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* appreciated but is not required.
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* 2. Altered source versions must be plainly marked as such, and must not be
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* misrepresented as being the original software.
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* 3. This notice may not be removed or altered from any source distribution.
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*/
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/* FAST INTEGER INVERSE DCT
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*
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* This is similar to the SSE2 implementation, except that we left-shift the
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* constants by 1 less bit (the -1 in CONST_SHIFT.) This is because
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* vec_madds(arg1, arg2, arg3) generates the 16-bit saturated sum of:
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* the elements in arg3 + the most significant 17 bits of
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* (the elements in arg1 * the elements in arg2).
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*/
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#include "jsimd_altivec.h"
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#define F_1_082 277 /* FIX(1.082392200) */
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#define F_1_414 362 /* FIX(1.414213562) */
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#define F_1_847 473 /* FIX(1.847759065) */
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#define F_2_613 669 /* FIX(2.613125930) */
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#define F_1_613 (F_2_613 - 256) /* FIX(2.613125930) - FIX(1) */
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#define CONST_BITS 8
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#define PASS1_BITS 2
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#define PRE_MULTIPLY_SCALE_BITS 2
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#define CONST_SHIFT (16 - PRE_MULTIPLY_SCALE_BITS - CONST_BITS - 1)
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#define DO_IDCT(in) { \
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/* Even part */ \
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\
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tmp10 = vec_add(in##0, in##4); \
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tmp11 = vec_sub(in##0, in##4); \
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tmp13 = vec_add(in##2, in##6); \
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\
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tmp12 = vec_sub(in##2, in##6); \
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tmp12 = vec_sl(tmp12, pre_multiply_scale_bits); \
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tmp12 = vec_madds(tmp12, pw_F1414, pw_zero); \
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tmp12 = vec_sub(tmp12, tmp13); \
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\
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tmp0 = vec_add(tmp10, tmp13); \
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tmp3 = vec_sub(tmp10, tmp13); \
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tmp1 = vec_add(tmp11, tmp12); \
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tmp2 = vec_sub(tmp11, tmp12); \
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\
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/* Odd part */ \
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\
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z13 = vec_add(in##5, in##3); \
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z10 = vec_sub(in##5, in##3); \
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z10s = vec_sl(z10, pre_multiply_scale_bits); \
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z11 = vec_add(in##1, in##7); \
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z12s = vec_sub(in##1, in##7); \
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z12s = vec_sl(z12s, pre_multiply_scale_bits); \
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\
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tmp11 = vec_sub(z11, z13); \
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tmp11 = vec_sl(tmp11, pre_multiply_scale_bits); \
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tmp11 = vec_madds(tmp11, pw_F1414, pw_zero); \
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\
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tmp7 = vec_add(z11, z13); \
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\
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/* To avoid overflow... \
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* \
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* (Original) \
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* tmp12 = -2.613125930 * z10 + z5; \
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* \
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* (This implementation) \
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* tmp12 = (-1.613125930 - 1) * z10 + z5; \
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* = -1.613125930 * z10 - z10 + z5; \
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*/ \
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\
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z5 = vec_add(z10s, z12s); \
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z5 = vec_madds(z5, pw_F1847, pw_zero); \
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\
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tmp10 = vec_madds(z12s, pw_F1082, pw_zero); \
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tmp10 = vec_sub(tmp10, z5); \
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tmp12 = vec_madds(z10s, pw_MF1613, z5); \
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tmp12 = vec_sub(tmp12, z10); \
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\
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tmp6 = vec_sub(tmp12, tmp7); \
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tmp5 = vec_sub(tmp11, tmp6); \
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tmp4 = vec_add(tmp10, tmp5); \
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\
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out0 = vec_add(tmp0, tmp7); \
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out1 = vec_add(tmp1, tmp6); \
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out2 = vec_add(tmp2, tmp5); \
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out3 = vec_sub(tmp3, tmp4); \
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out4 = vec_add(tmp3, tmp4); \
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out5 = vec_sub(tmp2, tmp5); \
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out6 = vec_sub(tmp1, tmp6); \
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out7 = vec_sub(tmp0, tmp7); \
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}
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void jsimd_idct_ifast_altivec(void *dct_table_, JCOEFPTR coef_block,
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JSAMPARRAY output_buf, JDIMENSION output_col)
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{
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short *dct_table = (short *)dct_table_;
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int *outptr;
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__vector short row0, row1, row2, row3, row4, row5, row6, row7,
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col0, col1, col2, col3, col4, col5, col6, col7,
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quant0, quant1, quant2, quant3, quant4, quant5, quant6, quant7,
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tmp0, tmp1, tmp2, tmp3, tmp4, tmp5, tmp6, tmp7, tmp10, tmp11, tmp12, tmp13,
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z5, z10, z10s, z11, z12s, z13,
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out0, out1, out2, out3, out4, out5, out6, out7;
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__vector signed char outb;
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/* Constants */
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__vector short pw_zero = { __8X(0) },
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pw_F1414 = { __8X(F_1_414 << CONST_SHIFT) },
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pw_F1847 = { __8X(F_1_847 << CONST_SHIFT) },
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pw_MF1613 = { __8X(-F_1_613 << CONST_SHIFT) },
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pw_F1082 = { __8X(F_1_082 << CONST_SHIFT) };
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__vector unsigned short
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pre_multiply_scale_bits = { __8X(PRE_MULTIPLY_SCALE_BITS) },
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pass1_bits3 = { __8X(PASS1_BITS + 3) };
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__vector signed char pb_centerjsamp = { __16X(CENTERJSAMPLE) };
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/* Pass 1: process columns */
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col0 = vec_ld(0, coef_block);
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col1 = vec_ld(16, coef_block);
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col2 = vec_ld(32, coef_block);
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col3 = vec_ld(48, coef_block);
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col4 = vec_ld(64, coef_block);
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col5 = vec_ld(80, coef_block);
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col6 = vec_ld(96, coef_block);
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col7 = vec_ld(112, coef_block);
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tmp1 = vec_or(col1, col2);
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tmp2 = vec_or(col3, col4);
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tmp1 = vec_or(tmp1, tmp2);
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tmp3 = vec_or(col5, col6);
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tmp3 = vec_or(tmp3, col7);
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tmp1 = vec_or(tmp1, tmp3);
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quant0 = vec_ld(0, dct_table);
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col0 = vec_mladd(col0, quant0, pw_zero);
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if (vec_all_eq(tmp1, pw_zero)) {
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/* AC terms all zero */
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row0 = vec_splat(col0, 0);
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row1 = vec_splat(col0, 1);
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row2 = vec_splat(col0, 2);
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row3 = vec_splat(col0, 3);
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row4 = vec_splat(col0, 4);
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row5 = vec_splat(col0, 5);
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row6 = vec_splat(col0, 6);
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row7 = vec_splat(col0, 7);
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} else {
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quant1 = vec_ld(16, dct_table);
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quant2 = vec_ld(32, dct_table);
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quant3 = vec_ld(48, dct_table);
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quant4 = vec_ld(64, dct_table);
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quant5 = vec_ld(80, dct_table);
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quant6 = vec_ld(96, dct_table);
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quant7 = vec_ld(112, dct_table);
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col1 = vec_mladd(col1, quant1, pw_zero);
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col2 = vec_mladd(col2, quant2, pw_zero);
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col3 = vec_mladd(col3, quant3, pw_zero);
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col4 = vec_mladd(col4, quant4, pw_zero);
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col5 = vec_mladd(col5, quant5, pw_zero);
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col6 = vec_mladd(col6, quant6, pw_zero);
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col7 = vec_mladd(col7, quant7, pw_zero);
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DO_IDCT(col);
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TRANSPOSE(out, row);
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}
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/* Pass 2: process rows */
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DO_IDCT(row);
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out0 = vec_sra(out0, pass1_bits3);
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out1 = vec_sra(out1, pass1_bits3);
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out2 = vec_sra(out2, pass1_bits3);
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out3 = vec_sra(out3, pass1_bits3);
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out4 = vec_sra(out4, pass1_bits3);
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out5 = vec_sra(out5, pass1_bits3);
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out6 = vec_sra(out6, pass1_bits3);
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out7 = vec_sra(out7, pass1_bits3);
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TRANSPOSE(out, col);
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outb = vec_packs(col0, col0);
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outb = vec_add(outb, pb_centerjsamp);
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outptr = (int *)(output_buf[0] + output_col);
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vec_ste((__vector int)outb, 0, outptr);
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vec_ste((__vector int)outb, 4, outptr);
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outb = vec_packs(col1, col1);
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outb = vec_add(outb, pb_centerjsamp);
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outptr = (int *)(output_buf[1] + output_col);
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vec_ste((__vector int)outb, 0, outptr);
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vec_ste((__vector int)outb, 4, outptr);
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outb = vec_packs(col2, col2);
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outb = vec_add(outb, pb_centerjsamp);
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outptr = (int *)(output_buf[2] + output_col);
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vec_ste((__vector int)outb, 0, outptr);
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vec_ste((__vector int)outb, 4, outptr);
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outb = vec_packs(col3, col3);
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outb = vec_add(outb, pb_centerjsamp);
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outptr = (int *)(output_buf[3] + output_col);
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vec_ste((__vector int)outb, 0, outptr);
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vec_ste((__vector int)outb, 4, outptr);
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outb = vec_packs(col4, col4);
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outb = vec_add(outb, pb_centerjsamp);
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outptr = (int *)(output_buf[4] + output_col);
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vec_ste((__vector int)outb, 0, outptr);
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vec_ste((__vector int)outb, 4, outptr);
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outb = vec_packs(col5, col5);
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outb = vec_add(outb, pb_centerjsamp);
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outptr = (int *)(output_buf[5] + output_col);
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vec_ste((__vector int)outb, 0, outptr);
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vec_ste((__vector int)outb, 4, outptr);
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outb = vec_packs(col6, col6);
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outb = vec_add(outb, pb_centerjsamp);
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outptr = (int *)(output_buf[6] + output_col);
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vec_ste((__vector int)outb, 0, outptr);
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vec_ste((__vector int)outb, 4, outptr);
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outb = vec_packs(col7, col7);
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outb = vec_add(outb, pb_centerjsamp);
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outptr = (int *)(output_buf[7] + output_col);
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vec_ste((__vector int)outb, 0, outptr);
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vec_ste((__vector int)outb, 4, outptr);
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}
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