mirror of
https://github.com/42wim/matterbridge.git
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53cafa9f3d
This commit adds support for go/cgo tgs conversion when building with the -tags `cgo` The default binaries are still "pure" go and uses the old way of converting. * Move lottie_convert.py conversion code to its own file * Add optional libtgsconverter * Update vendor * Apply suggestions from code review * Update bridge/helper/libtgsconverter.go Co-authored-by: Wim <wim@42.be>
251 lines
7.8 KiB
C
251 lines
7.8 KiB
C
// Copyright 2014 Google Inc. 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 COPYING 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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//
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// Rescaling functions
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//
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// Author: Skal (pascal.massimino@gmail.com)
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#include <assert.h>
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#include "dsp_dsp.h"
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#include "utils_rescaler_utils.h"
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//------------------------------------------------------------------------------
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// Implementations of critical functions ImportRow / ExportRow
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#define ROUNDER (WEBP_RESCALER_ONE >> 1)
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#define MULT_FIX(x, y) (((uint64_t)(x) * (y) + ROUNDER) >> WEBP_RESCALER_RFIX)
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#define MULT_FIX_FLOOR(x, y) (((uint64_t)(x) * (y)) >> WEBP_RESCALER_RFIX)
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//------------------------------------------------------------------------------
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// Row import
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void WebPRescalerImportRowExpand_C(WebPRescaler* const wrk,
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const uint8_t* src) {
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const int x_stride = wrk->num_channels;
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const int x_out_max = wrk->dst_width * wrk->num_channels;
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int channel;
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assert(!WebPRescalerInputDone(wrk));
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assert(wrk->x_expand);
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for (channel = 0; channel < x_stride; ++channel) {
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int x_in = channel;
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int x_out = channel;
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// simple bilinear interpolation
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int accum = wrk->x_add;
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int left = src[x_in];
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int right = (wrk->src_width > 1) ? src[x_in + x_stride] : left;
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x_in += x_stride;
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while (1) {
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wrk->frow[x_out] = right * wrk->x_add + (left - right) * accum;
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x_out += x_stride;
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if (x_out >= x_out_max) break;
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accum -= wrk->x_sub;
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if (accum < 0) {
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left = right;
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x_in += x_stride;
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assert(x_in < wrk->src_width * x_stride);
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right = src[x_in];
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accum += wrk->x_add;
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}
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}
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assert(wrk->x_sub == 0 /* <- special case for src_width=1 */ || accum == 0);
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}
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}
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void WebPRescalerImportRowShrink_C(WebPRescaler* const wrk,
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const uint8_t* src) {
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const int x_stride = wrk->num_channels;
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const int x_out_max = wrk->dst_width * wrk->num_channels;
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int channel;
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assert(!WebPRescalerInputDone(wrk));
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assert(!wrk->x_expand);
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for (channel = 0; channel < x_stride; ++channel) {
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int x_in = channel;
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int x_out = channel;
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uint32_t sum = 0;
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int accum = 0;
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while (x_out < x_out_max) {
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uint32_t base = 0;
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accum += wrk->x_add;
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while (accum > 0) {
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accum -= wrk->x_sub;
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assert(x_in < wrk->src_width * x_stride);
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base = src[x_in];
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sum += base;
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x_in += x_stride;
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}
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{ // Emit next horizontal pixel.
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const rescaler_t frac = base * (-accum);
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wrk->frow[x_out] = sum * wrk->x_sub - frac;
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// fresh fractional start for next pixel
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sum = (int)MULT_FIX(frac, wrk->fx_scale);
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}
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x_out += x_stride;
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}
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assert(accum == 0);
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}
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}
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//------------------------------------------------------------------------------
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// Row export
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void WebPRescalerExportRowExpand_C(WebPRescaler* const wrk) {
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int x_out;
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uint8_t* const dst = wrk->dst;
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rescaler_t* const irow = wrk->irow;
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const int x_out_max = wrk->dst_width * wrk->num_channels;
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const rescaler_t* const frow = wrk->frow;
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assert(!WebPRescalerOutputDone(wrk));
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assert(wrk->y_accum <= 0);
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assert(wrk->y_expand);
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assert(wrk->y_sub != 0);
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if (wrk->y_accum == 0) {
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for (x_out = 0; x_out < x_out_max; ++x_out) {
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const uint32_t J = frow[x_out];
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const int v = (int)MULT_FIX(J, wrk->fy_scale);
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dst[x_out] = (v > 255) ? 255u : (uint8_t)v;
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}
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} else {
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const uint32_t B = WEBP_RESCALER_FRAC(-wrk->y_accum, wrk->y_sub);
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const uint32_t A = (uint32_t)(WEBP_RESCALER_ONE - B);
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for (x_out = 0; x_out < x_out_max; ++x_out) {
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const uint64_t I = (uint64_t)A * frow[x_out]
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+ (uint64_t)B * irow[x_out];
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const uint32_t J = (uint32_t)((I + ROUNDER) >> WEBP_RESCALER_RFIX);
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const int v = (int)MULT_FIX(J, wrk->fy_scale);
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dst[x_out] = (v > 255) ? 255u : (uint8_t)v;
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}
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}
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}
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void WebPRescalerExportRowShrink_C(WebPRescaler* const wrk) {
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int x_out;
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uint8_t* const dst = wrk->dst;
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rescaler_t* const irow = wrk->irow;
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const int x_out_max = wrk->dst_width * wrk->num_channels;
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const rescaler_t* const frow = wrk->frow;
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const uint32_t yscale = wrk->fy_scale * (-wrk->y_accum);
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assert(!WebPRescalerOutputDone(wrk));
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assert(wrk->y_accum <= 0);
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assert(!wrk->y_expand);
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if (yscale) {
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for (x_out = 0; x_out < x_out_max; ++x_out) {
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const uint32_t frac = (uint32_t)MULT_FIX_FLOOR(frow[x_out], yscale);
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const int v = (int)MULT_FIX(irow[x_out] - frac, wrk->fxy_scale);
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dst[x_out] = (v > 255) ? 255u : (uint8_t)v;
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irow[x_out] = frac; // new fractional start
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}
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} else {
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for (x_out = 0; x_out < x_out_max; ++x_out) {
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const int v = (int)MULT_FIX(irow[x_out], wrk->fxy_scale);
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dst[x_out] = (v > 255) ? 255u : (uint8_t)v;
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irow[x_out] = 0;
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}
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}
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}
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#undef MULT_FIX_FLOOR
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#undef MULT_FIX
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#undef ROUNDER
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//------------------------------------------------------------------------------
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// Main entry calls
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void WebPRescalerImportRow(WebPRescaler* const wrk, const uint8_t* src) {
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assert(!WebPRescalerInputDone(wrk));
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if (!wrk->x_expand) {
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WebPRescalerImportRowShrink(wrk, src);
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} else {
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WebPRescalerImportRowExpand(wrk, src);
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}
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}
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void WebPRescalerExportRow(WebPRescaler* const wrk) {
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if (wrk->y_accum <= 0) {
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assert(!WebPRescalerOutputDone(wrk));
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if (wrk->y_expand) {
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WebPRescalerExportRowExpand(wrk);
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} else if (wrk->fxy_scale) {
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WebPRescalerExportRowShrink(wrk);
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} else { // special case
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int i;
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assert(wrk->src_height == wrk->dst_height && wrk->x_add == 1);
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assert(wrk->src_width == 1 && wrk->dst_width <= 2);
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for (i = 0; i < wrk->num_channels * wrk->dst_width; ++i) {
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wrk->dst[i] = wrk->irow[i];
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wrk->irow[i] = 0;
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}
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}
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wrk->y_accum += wrk->y_add;
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wrk->dst += wrk->dst_stride;
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++wrk->dst_y;
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}
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}
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//------------------------------------------------------------------------------
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WebPRescalerImportRowFunc WebPRescalerImportRowExpand;
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WebPRescalerImportRowFunc WebPRescalerImportRowShrink;
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WebPRescalerExportRowFunc WebPRescalerExportRowExpand;
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WebPRescalerExportRowFunc WebPRescalerExportRowShrink;
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extern void WebPRescalerDspInitSSE2(void);
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extern void WebPRescalerDspInitMIPS32(void);
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extern void WebPRescalerDspInitMIPSdspR2(void);
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extern void WebPRescalerDspInitMSA(void);
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extern void WebPRescalerDspInitNEON(void);
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WEBP_DSP_INIT_FUNC(WebPRescalerDspInit) {
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#if !defined(WEBP_REDUCE_SIZE)
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#if !WEBP_NEON_OMIT_C_CODE
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WebPRescalerExportRowExpand = WebPRescalerExportRowExpand_C;
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WebPRescalerExportRowShrink = WebPRescalerExportRowShrink_C;
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#endif
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WebPRescalerImportRowExpand = WebPRescalerImportRowExpand_C;
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WebPRescalerImportRowShrink = WebPRescalerImportRowShrink_C;
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if (VP8GetCPUInfo != NULL) {
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#if defined(WEBP_USE_SSE2)
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if (VP8GetCPUInfo(kSSE2)) {
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WebPRescalerDspInitSSE2();
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}
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#endif
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#if defined(WEBP_USE_MIPS32)
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if (VP8GetCPUInfo(kMIPS32)) {
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WebPRescalerDspInitMIPS32();
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}
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#endif
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#if defined(WEBP_USE_MIPS_DSP_R2)
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if (VP8GetCPUInfo(kMIPSdspR2)) {
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WebPRescalerDspInitMIPSdspR2();
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}
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#endif
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#if defined(WEBP_USE_MSA)
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if (VP8GetCPUInfo(kMSA)) {
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WebPRescalerDspInitMSA();
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}
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#endif
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}
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#if defined(WEBP_USE_NEON)
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if (WEBP_NEON_OMIT_C_CODE ||
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(VP8GetCPUInfo != NULL && VP8GetCPUInfo(kNEON))) {
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WebPRescalerDspInitNEON();
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}
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#endif
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assert(WebPRescalerExportRowExpand != NULL);
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assert(WebPRescalerExportRowShrink != NULL);
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assert(WebPRescalerImportRowExpand != NULL);
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assert(WebPRescalerImportRowShrink != NULL);
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#endif // WEBP_REDUCE_SIZE
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}
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