forked from Mirrors/freeswitch
185 lines
8.9 KiB
C
185 lines
8.9 KiB
C
/*
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* Copyright (c) 2014 The WebM project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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#include <arm_neon.h>
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#include "./vpx_dsp_rtcd.h"
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#include "./vpx_config.h"
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#include "vpx/vpx_integer.h"
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#include "vpx_dsp/variance.h"
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#include "vpx_dsp/arm/mem_neon.h"
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static const uint8_t bilinear_filters[8][2] = {
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{ 128, 0 }, { 112, 16 }, { 96, 32 }, { 80, 48 },
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{ 64, 64 }, { 48, 80 }, { 32, 96 }, { 16, 112 },
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};
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// Process a block exactly 4 wide and a multiple of 2 high.
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static void var_filter_block2d_bil_w4(const uint8_t *src_ptr,
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uint8_t *output_ptr,
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unsigned int src_pixels_per_line,
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int pixel_step,
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unsigned int output_height,
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const uint8_t *filter) {
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const uint8x8_t f0 = vdup_n_u8(filter[0]);
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const uint8x8_t f1 = vdup_n_u8(filter[1]);
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unsigned int i;
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for (i = 0; i < output_height; i += 2) {
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const uint8x8_t src_0 = load_unaligned_u8(src_ptr, src_pixels_per_line);
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const uint8x8_t src_1 =
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load_unaligned_u8(src_ptr + pixel_step, src_pixels_per_line);
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const uint16x8_t a = vmull_u8(src_0, f0);
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const uint16x8_t b = vmlal_u8(a, src_1, f1);
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const uint8x8_t out = vrshrn_n_u16(b, FILTER_BITS);
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vst1_u8(output_ptr, out);
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src_ptr += 2 * src_pixels_per_line;
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output_ptr += 8;
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}
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}
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// Process a block exactly 8 wide and any height.
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static void var_filter_block2d_bil_w8(const uint8_t *src_ptr,
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uint8_t *output_ptr,
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unsigned int src_pixels_per_line,
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int pixel_step,
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unsigned int output_height,
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const uint8_t *filter) {
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const uint8x8_t f0 = vdup_n_u8(filter[0]);
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const uint8x8_t f1 = vdup_n_u8(filter[1]);
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unsigned int i;
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for (i = 0; i < output_height; ++i) {
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const uint8x8_t src_0 = vld1_u8(&src_ptr[0]);
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const uint8x8_t src_1 = vld1_u8(&src_ptr[pixel_step]);
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const uint16x8_t a = vmull_u8(src_0, f0);
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const uint16x8_t b = vmlal_u8(a, src_1, f1);
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const uint8x8_t out = vrshrn_n_u16(b, FILTER_BITS);
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vst1_u8(output_ptr, out);
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src_ptr += src_pixels_per_line;
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output_ptr += 8;
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}
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}
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// Process a block which is a mutiple of 16 wide and any height.
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static void var_filter_block2d_bil_w16(const uint8_t *src_ptr,
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uint8_t *output_ptr,
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unsigned int src_pixels_per_line,
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int pixel_step,
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unsigned int output_height,
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unsigned int output_width,
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const uint8_t *filter) {
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const uint8x8_t f0 = vdup_n_u8(filter[0]);
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const uint8x8_t f1 = vdup_n_u8(filter[1]);
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unsigned int i, j;
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for (i = 0; i < output_height; ++i) {
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for (j = 0; j < output_width; j += 16) {
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const uint8x16_t src_0 = vld1q_u8(&src_ptr[j]);
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const uint8x16_t src_1 = vld1q_u8(&src_ptr[j + pixel_step]);
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const uint16x8_t a = vmull_u8(vget_low_u8(src_0), f0);
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const uint16x8_t b = vmlal_u8(a, vget_low_u8(src_1), f1);
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const uint8x8_t out_lo = vrshrn_n_u16(b, FILTER_BITS);
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const uint16x8_t c = vmull_u8(vget_high_u8(src_0), f0);
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const uint16x8_t d = vmlal_u8(c, vget_high_u8(src_1), f1);
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const uint8x8_t out_hi = vrshrn_n_u16(d, FILTER_BITS);
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vst1q_u8(output_ptr + j, vcombine_u8(out_lo, out_hi));
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}
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src_ptr += src_pixels_per_line;
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output_ptr += output_width;
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}
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}
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// 4xM filter writes an extra row to fdata because it processes two rows at a
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// time.
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#define sub_pixel_varianceNxM(n, m) \
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uint32_t vpx_sub_pixel_variance##n##x##m##_neon( \
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const uint8_t *src_ptr, int src_stride, int x_offset, int y_offset, \
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const uint8_t *ref_ptr, int ref_stride, uint32_t *sse) { \
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uint8_t temp0[n * (m + (n == 4 ? 2 : 1))]; \
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uint8_t temp1[n * m]; \
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\
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if (n == 4) { \
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var_filter_block2d_bil_w4(src_ptr, temp0, src_stride, 1, (m + 2), \
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bilinear_filters[x_offset]); \
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var_filter_block2d_bil_w4(temp0, temp1, n, n, m, \
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bilinear_filters[y_offset]); \
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} else if (n == 8) { \
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var_filter_block2d_bil_w8(src_ptr, temp0, src_stride, 1, (m + 1), \
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bilinear_filters[x_offset]); \
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var_filter_block2d_bil_w8(temp0, temp1, n, n, m, \
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bilinear_filters[y_offset]); \
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} else { \
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var_filter_block2d_bil_w16(src_ptr, temp0, src_stride, 1, (m + 1), n, \
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bilinear_filters[x_offset]); \
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var_filter_block2d_bil_w16(temp0, temp1, n, n, m, n, \
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bilinear_filters[y_offset]); \
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} \
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return vpx_variance##n##x##m(temp1, n, ref_ptr, ref_stride, sse); \
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}
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sub_pixel_varianceNxM(4, 4);
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sub_pixel_varianceNxM(4, 8);
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sub_pixel_varianceNxM(8, 4);
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sub_pixel_varianceNxM(8, 8);
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sub_pixel_varianceNxM(8, 16);
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sub_pixel_varianceNxM(16, 8);
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sub_pixel_varianceNxM(16, 16);
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sub_pixel_varianceNxM(16, 32);
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sub_pixel_varianceNxM(32, 16);
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sub_pixel_varianceNxM(32, 32);
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sub_pixel_varianceNxM(32, 64);
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sub_pixel_varianceNxM(64, 32);
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sub_pixel_varianceNxM(64, 64);
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// 4xM filter writes an extra row to fdata because it processes two rows at a
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// time.
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#define sub_pixel_avg_varianceNxM(n, m) \
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uint32_t vpx_sub_pixel_avg_variance##n##x##m##_neon( \
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const uint8_t *src_ptr, int src_stride, int x_offset, int y_offset, \
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const uint8_t *ref_ptr, int ref_stride, uint32_t *sse, \
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const uint8_t *second_pred) { \
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uint8_t temp0[n * (m + (n == 4 ? 2 : 1))]; \
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uint8_t temp1[n * m]; \
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\
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if (n == 4) { \
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var_filter_block2d_bil_w4(src_ptr, temp0, src_stride, 1, (m + 2), \
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bilinear_filters[x_offset]); \
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var_filter_block2d_bil_w4(temp0, temp1, n, n, m, \
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bilinear_filters[y_offset]); \
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} else if (n == 8) { \
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var_filter_block2d_bil_w8(src_ptr, temp0, src_stride, 1, (m + 1), \
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bilinear_filters[x_offset]); \
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var_filter_block2d_bil_w8(temp0, temp1, n, n, m, \
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bilinear_filters[y_offset]); \
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} else { \
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var_filter_block2d_bil_w16(src_ptr, temp0, src_stride, 1, (m + 1), n, \
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bilinear_filters[x_offset]); \
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var_filter_block2d_bil_w16(temp0, temp1, n, n, m, n, \
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bilinear_filters[y_offset]); \
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} \
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\
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vpx_comp_avg_pred(temp0, second_pred, n, m, temp1, n); \
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\
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return vpx_variance##n##x##m(temp0, n, ref_ptr, ref_stride, sse); \
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}
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sub_pixel_avg_varianceNxM(4, 4);
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sub_pixel_avg_varianceNxM(4, 8);
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sub_pixel_avg_varianceNxM(8, 4);
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sub_pixel_avg_varianceNxM(8, 8);
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sub_pixel_avg_varianceNxM(8, 16);
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sub_pixel_avg_varianceNxM(16, 8);
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sub_pixel_avg_varianceNxM(16, 16);
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sub_pixel_avg_varianceNxM(16, 32);
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sub_pixel_avg_varianceNxM(32, 16);
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sub_pixel_avg_varianceNxM(32, 32);
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sub_pixel_avg_varianceNxM(32, 64);
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sub_pixel_avg_varianceNxM(64, 32);
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sub_pixel_avg_varianceNxM(64, 64);
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