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// Copyright 2011 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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// functions for sample output.
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//
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// Author: Skal ([email protected])
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#include <assert.h>
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#include <stdlib.h>
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#include "src/dec/vp8i_dec.h"
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#include "src/dec/webpi_dec.h"
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#include "src/dsp/dsp.h"
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#include "src/dsp/yuv.h"
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#include "src/utils/utils.h"
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//------------------------------------------------------------------------------
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// Main YUV<->RGB conversion functions
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static int EmitYUV(const VP8Io* const io, WebPDecParams* const p) {
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  WebPDecBuffer* output = p->output;
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  const WebPYUVABuffer* const buf = &output->u.YUVA;
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  uint8_t* const y_dst = buf->y + io->mb_y * buf->y_stride;
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  uint8_t* const u_dst = buf->u + (io->mb_y >> 1) * buf->u_stride;
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  uint8_t* const v_dst = buf->v + (io->mb_y >> 1) * buf->v_stride;
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  const int mb_w = io->mb_w;
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  const int mb_h = io->mb_h;
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  const int uv_w = (mb_w + 1) / 2;
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  const int uv_h = (mb_h + 1) / 2;
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  int j;
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  for (j = 0; j < mb_h; ++j) {
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    memcpy(y_dst + j * buf->y_stride, io->y + j * io->y_stride, mb_w);
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  }
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  for (j = 0; j < uv_h; ++j) {
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    memcpy(u_dst + j * buf->u_stride, io->u + j * io->uv_stride, uv_w);
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    memcpy(v_dst + j * buf->v_stride, io->v + j * io->uv_stride, uv_w);
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  }
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  return io->mb_h;
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}
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// Point-sampling U/V sampler.
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static int EmitSampledRGB(const VP8Io* const io, WebPDecParams* const p) {
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  WebPDecBuffer* const output = p->output;
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  WebPRGBABuffer* const buf = &output->u.RGBA;
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  uint8_t* const dst = buf->rgba + io->mb_y * buf->stride;
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  WebPSamplerProcessPlane(io->y, io->y_stride,
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                          io->u, io->v, io->uv_stride,
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                          dst, buf->stride, io->mb_w, io->mb_h,
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                          WebPSamplers[output->colorspace]);
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  return io->mb_h;
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}
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//------------------------------------------------------------------------------
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// Fancy upsampling
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#ifdef FANCY_UPSAMPLING
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static int EmitFancyRGB(const VP8Io* const io, WebPDecParams* const p) {
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  int num_lines_out = io->mb_h;   // a priori guess
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  const WebPRGBABuffer* const buf = &p->output->u.RGBA;
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  uint8_t* dst = buf->rgba + io->mb_y * buf->stride;
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  WebPUpsampleLinePairFunc upsample = WebPUpsamplers[p->output->colorspace];
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  const uint8_t* cur_y = io->y;
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  const uint8_t* cur_u = io->u;
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  const uint8_t* cur_v = io->v;
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  const uint8_t* top_u = p->tmp_u;
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  const uint8_t* top_v = p->tmp_v;
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  int y = io->mb_y;
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  const int y_end = io->mb_y + io->mb_h;
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  const int mb_w = io->mb_w;
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  const int uv_w = (mb_w + 1) / 2;
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  if (y == 0) {
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    // First line is special cased. We mirror the u/v samples at boundary.
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    upsample(cur_y, NULL, cur_u, cur_v, cur_u, cur_v, dst, NULL, mb_w);
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  } else {
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    // We can finish the left-over line from previous call.
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    upsample(p->tmp_y, cur_y, top_u, top_v, cur_u, cur_v,
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             dst - buf->stride, dst, mb_w);
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    ++num_lines_out;
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  }
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  // Loop over each output pairs of row.
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  for (; y + 2 < y_end; y += 2) {
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    top_u = cur_u;
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    top_v = cur_v;
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    cur_u += io->uv_stride;
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    cur_v += io->uv_stride;
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    dst += 2 * buf->stride;
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    cur_y += 2 * io->y_stride;
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    upsample(cur_y - io->y_stride, cur_y,
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             top_u, top_v, cur_u, cur_v,
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             dst - buf->stride, dst, mb_w);
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  }
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  // move to last row
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  cur_y += io->y_stride;
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  if (io->crop_top + y_end < io->crop_bottom) {
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    // Save the unfinished samples for next call (as we're not done yet).
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    memcpy(p->tmp_y, cur_y, mb_w * sizeof(*p->tmp_y));
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    memcpy(p->tmp_u, cur_u, uv_w * sizeof(*p->tmp_u));
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    memcpy(p->tmp_v, cur_v, uv_w * sizeof(*p->tmp_v));
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    // The fancy upsampler leaves a row unfinished behind
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    // (except for the very last row)
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    num_lines_out--;
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  } else {
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    // Process the very last row of even-sized picture
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    if (!(y_end & 1)) {
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      upsample(cur_y, NULL, cur_u, cur_v, cur_u, cur_v,
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               dst + buf->stride, NULL, mb_w);
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    }
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  }
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  return num_lines_out;
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}
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#endif    /* FANCY_UPSAMPLING */
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//------------------------------------------------------------------------------
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static void FillAlphaPlane(uint8_t* dst, int w, int h, int stride) {
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  int j;
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  for (j = 0; j < h; ++j) {
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    memset(dst, 0xff, w * sizeof(*dst));
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    dst += stride;
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  }
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}
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static int EmitAlphaYUV(const VP8Io* const io, WebPDecParams* const p,
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                        int expected_num_lines_out) {
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  const uint8_t* alpha = io->a;
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  const WebPYUVABuffer* const buf = &p->output->u.YUVA;
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  const int mb_w = io->mb_w;
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  const int mb_h = io->mb_h;
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  uint8_t* dst = buf->a + io->mb_y * buf->a_stride;
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  int j;
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  (void)expected_num_lines_out;
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  assert(expected_num_lines_out == mb_h);
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  if (alpha != NULL) {
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    for (j = 0; j < mb_h; ++j) {
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      memcpy(dst, alpha, mb_w * sizeof(*dst));
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      alpha += io->width;
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      dst += buf->a_stride;
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    }
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  } else if (buf->a != NULL) {
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    // the user requested alpha, but there is none, set it to opaque.
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    FillAlphaPlane(dst, mb_w, mb_h, buf->a_stride);
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  }
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  return 0;
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}
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static int GetAlphaSourceRow(const VP8Io* const io,
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                             const uint8_t** alpha, int* const num_rows) {
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  int start_y = io->mb_y;
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  *num_rows = io->mb_h;
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  // Compensate for the 1-line delay of the fancy upscaler.
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  // This is similar to EmitFancyRGB().
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  if (io->fancy_upsampling) {
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    if (start_y == 0) {
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      // We don't process the last row yet. It'll be done during the next call.
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      --*num_rows;
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    } else {
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      --start_y;
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      // Fortunately, *alpha data is persistent, so we can go back
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      // one row and finish alpha blending, now that the fancy upscaler
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      // completed the YUV->RGB interpolation.
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      *alpha -= io->width;
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    }
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    if (io->crop_top + io->mb_y + io->mb_h == io->crop_bottom) {
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      // If it's the very last call, we process all the remaining rows!
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      *num_rows = io->crop_bottom - io->crop_top - start_y;
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    }
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  }
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  return start_y;
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}
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static int EmitAlphaRGB(const VP8Io* const io, WebPDecParams* const p,
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                        int expected_num_lines_out) {
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  const uint8_t* alpha = io->a;
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  if (alpha != NULL) {
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    const int mb_w = io->mb_w;
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    const WEBP_CSP_MODE colorspace = p->output->colorspace;
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    const int alpha_first =
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        (colorspace == MODE_ARGB || colorspace == MODE_Argb);
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    const WebPRGBABuffer* const buf = &p->output->u.RGBA;
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    int num_rows;
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    const int start_y = GetAlphaSourceRow(io, &alpha, &num_rows);
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    uint8_t* const base_rgba = buf->rgba + start_y * buf->stride;
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    uint8_t* const dst = base_rgba + (alpha_first ? 0 : 3);
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    const int has_alpha = WebPDispatchAlpha(alpha, io->width, mb_w,
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                                            num_rows, dst, buf->stride);
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    (void)expected_num_lines_out;
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    assert(expected_num_lines_out == num_rows);
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    // has_alpha is true if there's non-trivial alpha to premultiply with.
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    if (has_alpha && WebPIsPremultipliedMode(colorspace)) {
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      WebPApplyAlphaMultiply(base_rgba, alpha_first,
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                             mb_w, num_rows, buf->stride);
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    }
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  }
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  return 0;
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}
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static int EmitAlphaRGBA4444(const VP8Io* const io, WebPDecParams* const p,
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                             int expected_num_lines_out) {
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  const uint8_t* alpha = io->a;
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  if (alpha != NULL) {
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    const int mb_w = io->mb_w;
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    const WEBP_CSP_MODE colorspace = p->output->colorspace;
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    const WebPRGBABuffer* const buf = &p->output->u.RGBA;
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    int num_rows;
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    const int start_y = GetAlphaSourceRow(io, &alpha, &num_rows);
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    uint8_t* const base_rgba = buf->rgba + start_y * buf->stride;
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#if (WEBP_SWAP_16BIT_CSP == 1)
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    uint8_t* alpha_dst = base_rgba;
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#else
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    uint8_t* alpha_dst = base_rgba + 1;
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#endif
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    uint32_t alpha_mask = 0x0f;
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    int i, j;
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    for (j = 0; j < num_rows; ++j) {
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      for (i = 0; i < mb_w; ++i) {
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        // Fill in the alpha value (converted to 4 bits).
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        const uint32_t alpha_value = alpha[i] >> 4;
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        alpha_dst[2 * i] = (alpha_dst[2 * i] & 0xf0) | alpha_value;
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        alpha_mask &= alpha_value;
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      }
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      alpha += io->width;
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      alpha_dst += buf->stride;
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    }
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    (void)expected_num_lines_out;
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    assert(expected_num_lines_out == num_rows);
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    if (alpha_mask != 0x0f && WebPIsPremultipliedMode(colorspace)) {
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      WebPApplyAlphaMultiply4444(base_rgba, mb_w, num_rows, buf->stride);
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    }
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  }
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  return 0;
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}
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//------------------------------------------------------------------------------
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// YUV rescaling (no final RGB conversion needed)
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#if !defined(WEBP_REDUCE_SIZE)
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static int Rescale(const uint8_t* src, int src_stride,
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                   int new_lines, WebPRescaler* const wrk) {
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  int num_lines_out = 0;
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  while (new_lines > 0) {    // import new contributions of source rows.
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    const int lines_in = WebPRescalerImport(wrk, new_lines, src, src_stride);
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    src += lines_in * src_stride;
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    new_lines -= lines_in;
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    num_lines_out += WebPRescalerExport(wrk);    // emit output row(s)
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  }
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  return num_lines_out;
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}
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static int EmitRescaledYUV(const VP8Io* const io, WebPDecParams* const p) {
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  const int mb_h = io->mb_h;
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  const int uv_mb_h = (mb_h + 1) >> 1;
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  WebPRescaler* const scaler = p->scaler_y;
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  int num_lines_out = 0;
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  if (WebPIsAlphaMode(p->output->colorspace) && io->a != NULL) {
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    // Before rescaling, we premultiply the luma directly into the io->y
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    // internal buffer. This is OK since these samples are not used for
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    // intra-prediction (the top samples are saved in cache_y_/u_/v_).
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    // But we need to cast the const away, though.
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    WebPMultRows((uint8_t*)io->y, io->y_stride,
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                 io->a, io->width, io->mb_w, mb_h, 0);
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  }
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  num_lines_out = Rescale(io->y, io->y_stride, mb_h, scaler);
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  Rescale(io->u, io->uv_stride, uv_mb_h, p->scaler_u);
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  Rescale(io->v, io->uv_stride, uv_mb_h, p->scaler_v);
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  return num_lines_out;
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}
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static int EmitRescaledAlphaYUV(const VP8Io* const io, WebPDecParams* const p,
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                                int expected_num_lines_out) {
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  const WebPYUVABuffer* const buf = &p->output->u.YUVA;
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  uint8_t* const dst_a = buf->a + p->last_y * buf->a_stride;
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  if (io->a != NULL) {
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    uint8_t* const dst_y = buf->y + p->last_y * buf->y_stride;
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    const int num_lines_out = Rescale(io->a, io->width, io->mb_h, p->scaler_a);
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    assert(expected_num_lines_out == num_lines_out);
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    if (num_lines_out > 0) {   // unmultiply the Y
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      WebPMultRows(dst_y, buf->y_stride, dst_a, buf->a_stride,
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                   p->scaler_a->dst_width, num_lines_out, 1);
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    }
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  } else if (buf->a != NULL) {
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    // the user requested alpha, but there is none, set it to opaque.
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    assert(p->last_y + expected_num_lines_out <= io->scaled_height);
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    FillAlphaPlane(dst_a, io->scaled_width, expected_num_lines_out,
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                   buf->a_stride);
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  }
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  return 0;
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}
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static int InitYUVRescaler(const VP8Io* const io, WebPDecParams* const p) {
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  const int has_alpha = WebPIsAlphaMode(p->output->colorspace);
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  const WebPYUVABuffer* const buf = &p->output->u.YUVA;
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  const int out_width  = io->scaled_width;
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  const int out_height = io->scaled_height;
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  const int uv_out_width  = (out_width + 1) >> 1;
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  const int uv_out_height = (out_height + 1) >> 1;
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  const int uv_in_width  = (io->mb_w + 1) >> 1;
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  const int uv_in_height = (io->mb_h + 1) >> 1;
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  const size_t work_size = 2 * out_width;   // scratch memory for luma rescaler
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  const size_t uv_work_size = 2 * uv_out_width;  // and for each u/v ones
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  size_t tmp_size, rescaler_size;
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  rescaler_t* work;
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  WebPRescaler* scalers;
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  const int num_rescalers = has_alpha ? 4 : 3;
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  tmp_size = (work_size + 2 * uv_work_size) * sizeof(*work);
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  if (has_alpha) {
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    tmp_size += work_size * sizeof(*work);
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  }
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  rescaler_size = num_rescalers * sizeof(*p->scaler_y) + WEBP_ALIGN_CST;
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  p->memory = WebPSafeMalloc(1ULL, tmp_size + rescaler_size);
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  if (p->memory == NULL) {
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    return 0;   // memory error
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  }
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  work = (rescaler_t*)p->memory;
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  scalers = (WebPRescaler*)WEBP_ALIGN((const uint8_t*)work + tmp_size);
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  p->scaler_y = &scalers[0];
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  p->scaler_u = &scalers[1];
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  p->scaler_v = &scalers[2];
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  p->scaler_a = has_alpha ? &scalers[3] : NULL;
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  WebPRescalerInit(p->scaler_y, io->mb_w, io->mb_h,
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                   buf->y, out_width, out_height, buf->y_stride, 1,
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                   work);
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  WebPRescalerInit(p->scaler_u, uv_in_width, uv_in_height,
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                   buf->u, uv_out_width, uv_out_height, buf->u_stride, 1,
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                   work + work_size);
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  WebPRescalerInit(p->scaler_v, uv_in_width, uv_in_height,
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                   buf->v, uv_out_width, uv_out_height, buf->v_stride, 1,
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                   work + work_size + uv_work_size);
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  p->emit = EmitRescaledYUV;
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  if (has_alpha) {
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    WebPRescalerInit(p->scaler_a, io->mb_w, io->mb_h,
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                     buf->a, out_width, out_height, buf->a_stride, 1,
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                     work + work_size + 2 * uv_work_size);
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    p->emit_alpha = EmitRescaledAlphaYUV;
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    WebPInitAlphaProcessing();
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  }
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  return 1;
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}
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//------------------------------------------------------------------------------
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// RGBA rescaling
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static int ExportRGB(WebPDecParams* const p, int y_pos) {
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  const WebPYUV444Converter convert =
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      WebPYUV444Converters[p->output->colorspace];
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  const WebPRGBABuffer* const buf = &p->output->u.RGBA;
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  uint8_t* dst = buf->rgba + y_pos * buf->stride;
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  int num_lines_out = 0;
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  // For RGB rescaling, because of the YUV420, current scan position
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  // U/V can be +1/-1 line from the Y one.  Hence the double test.
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  while (WebPRescalerHasPendingOutput(p->scaler_y) &&
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         WebPRescalerHasPendingOutput(p->scaler_u)) {
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    assert(y_pos + num_lines_out < p->output->height);
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    assert(p->scaler_u->y_accum == p->scaler_v->y_accum);
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    WebPRescalerExportRow(p->scaler_y);
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    WebPRescalerExportRow(p->scaler_u);
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    WebPRescalerExportRow(p->scaler_v);
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    convert(p->scaler_y->dst, p->scaler_u->dst, p->scaler_v->dst,
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            dst, p->scaler_y->dst_width);
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    dst += buf->stride;
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    ++num_lines_out;
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  }
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  return num_lines_out;
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}
377

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static int EmitRescaledRGB(const VP8Io* const io, WebPDecParams* const p) {
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  const int mb_h = io->mb_h;
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  const int uv_mb_h = (mb_h + 1) >> 1;
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  int j = 0, uv_j = 0;
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  int num_lines_out = 0;
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  while (j < mb_h) {
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    const int y_lines_in =
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        WebPRescalerImport(p->scaler_y, mb_h - j,
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                           io->y + j * io->y_stride, io->y_stride);
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    j += y_lines_in;
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    if (WebPRescaleNeededLines(p->scaler_u, uv_mb_h - uv_j)) {
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      const int u_lines_in =
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          WebPRescalerImport(p->scaler_u, uv_mb_h - uv_j,
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                             io->u + uv_j * io->uv_stride, io->uv_stride);
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      const int v_lines_in =
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          WebPRescalerImport(p->scaler_v, uv_mb_h - uv_j,
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                             io->v + uv_j * io->uv_stride, io->uv_stride);
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      (void)v_lines_in;   // remove a gcc warning
396
      assert(u_lines_in == v_lines_in);
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      uv_j += u_lines_in;
398
    }
399
    num_lines_out += ExportRGB(p, p->last_y + num_lines_out);
400
  }
401
  return num_lines_out;
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}
403

404
static int ExportAlpha(WebPDecParams* const p, int y_pos, int max_lines_out) {
405
  const WebPRGBABuffer* const buf = &p->output->u.RGBA;
406
  uint8_t* const base_rgba = buf->rgba + y_pos * buf->stride;
407
  const WEBP_CSP_MODE colorspace = p->output->colorspace;
408
  const int alpha_first =
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      (colorspace == MODE_ARGB || colorspace == MODE_Argb);
410
  uint8_t* dst = base_rgba + (alpha_first ? 0 : 3);
411
  int num_lines_out = 0;
412
  const int is_premult_alpha = WebPIsPremultipliedMode(colorspace);
413
  uint32_t non_opaque = 0;
414
  const int width = p->scaler_a->dst_width;
415

416
  while (WebPRescalerHasPendingOutput(p->scaler_a) &&
417
         num_lines_out < max_lines_out) {
418
    assert(y_pos + num_lines_out < p->output->height);
419
    WebPRescalerExportRow(p->scaler_a);
420
    non_opaque |= WebPDispatchAlpha(p->scaler_a->dst, 0, width, 1, dst, 0);
421
    dst += buf->stride;
422
    ++num_lines_out;
423
  }
424
  if (is_premult_alpha && non_opaque) {
425
    WebPApplyAlphaMultiply(base_rgba, alpha_first,
426
                           width, num_lines_out, buf->stride);
427
  }
428
  return num_lines_out;
429
}
430

431
static int ExportAlphaRGBA4444(WebPDecParams* const p, int y_pos,
432
                               int max_lines_out) {
433
  const WebPRGBABuffer* const buf = &p->output->u.RGBA;
434
  uint8_t* const base_rgba = buf->rgba + y_pos * buf->stride;
435
#if (WEBP_SWAP_16BIT_CSP == 1)
436
  uint8_t* alpha_dst = base_rgba;
437
#else
438
  uint8_t* alpha_dst = base_rgba + 1;
439
#endif
440
  int num_lines_out = 0;
441
  const WEBP_CSP_MODE colorspace = p->output->colorspace;
442
  const int width = p->scaler_a->dst_width;
443
  const int is_premult_alpha = WebPIsPremultipliedMode(colorspace);
444
  uint32_t alpha_mask = 0x0f;
445

446
  while (WebPRescalerHasPendingOutput(p->scaler_a) &&
447
         num_lines_out < max_lines_out) {
448
    int i;
449
    assert(y_pos + num_lines_out < p->output->height);
450
    WebPRescalerExportRow(p->scaler_a);
451
    for (i = 0; i < width; ++i) {
452
      // Fill in the alpha value (converted to 4 bits).
453
      const uint32_t alpha_value = p->scaler_a->dst[i] >> 4;
454
      alpha_dst[2 * i] = (alpha_dst[2 * i] & 0xf0) | alpha_value;
455
      alpha_mask &= alpha_value;
456
    }
457
    alpha_dst += buf->stride;
458
    ++num_lines_out;
459
  }
460
  if (is_premult_alpha && alpha_mask != 0x0f) {
461
    WebPApplyAlphaMultiply4444(base_rgba, width, num_lines_out, buf->stride);
462
  }
463
  return num_lines_out;
464
}
465

466
static int EmitRescaledAlphaRGB(const VP8Io* const io, WebPDecParams* const p,
467
                                int expected_num_out_lines) {
468
  if (io->a != NULL) {
469
    WebPRescaler* const scaler = p->scaler_a;
470
    int lines_left = expected_num_out_lines;
471
    const int y_end = p->last_y + lines_left;
472
    while (lines_left > 0) {
473
      const int row_offset = scaler->src_y - io->mb_y;
474
      WebPRescalerImport(scaler, io->mb_h + io->mb_y - scaler->src_y,
475
                         io->a + row_offset * io->width, io->width);
476
      lines_left -= p->emit_alpha_row(p, y_end - lines_left, lines_left);
477
    }
478
  }
479
  return 0;
480
}
481

482
static int InitRGBRescaler(const VP8Io* const io, WebPDecParams* const p) {
483
  const int has_alpha = WebPIsAlphaMode(p->output->colorspace);
484
  const int out_width  = io->scaled_width;
485
  const int out_height = io->scaled_height;
486
  const int uv_in_width  = (io->mb_w + 1) >> 1;
487
  const int uv_in_height = (io->mb_h + 1) >> 1;
488
  const size_t work_size = 2 * out_width;   // scratch memory for one rescaler
489
  rescaler_t* work;  // rescalers work area
490
  uint8_t* tmp;   // tmp storage for scaled YUV444 samples before RGB conversion
491
  size_t tmp_size1, tmp_size2, total_size, rescaler_size;
492
  WebPRescaler* scalers;
493
  const int num_rescalers = has_alpha ? 4 : 3;
494

495
  tmp_size1 = 3 * work_size;
496
  tmp_size2 = 3 * out_width;
497
  if (has_alpha) {
498
    tmp_size1 += work_size;
499
    tmp_size2 += out_width;
500
  }
501
  total_size = tmp_size1 * sizeof(*work) + tmp_size2 * sizeof(*tmp);
502
  rescaler_size = num_rescalers * sizeof(*p->scaler_y) + WEBP_ALIGN_CST;
503

504
  p->memory = WebPSafeMalloc(1ULL, total_size + rescaler_size);
505
  if (p->memory == NULL) {
506
    return 0;   // memory error
507
  }
508
  work = (rescaler_t*)p->memory;
509
  tmp = (uint8_t*)(work + tmp_size1);
510

511
  scalers = (WebPRescaler*)WEBP_ALIGN((const uint8_t*)work + total_size);
512
  p->scaler_y = &scalers[0];
513
  p->scaler_u = &scalers[1];
514
  p->scaler_v = &scalers[2];
515
  p->scaler_a = has_alpha ? &scalers[3] : NULL;
516

517
  WebPRescalerInit(p->scaler_y, io->mb_w, io->mb_h,
518
                   tmp + 0 * out_width, out_width, out_height, 0, 1,
519
                   work + 0 * work_size);
520
  WebPRescalerInit(p->scaler_u, uv_in_width, uv_in_height,
521
                   tmp + 1 * out_width, out_width, out_height, 0, 1,
522
                   work + 1 * work_size);
523
  WebPRescalerInit(p->scaler_v, uv_in_width, uv_in_height,
524
                   tmp + 2 * out_width, out_width, out_height, 0, 1,
525
                   work + 2 * work_size);
526
  p->emit = EmitRescaledRGB;
527
  WebPInitYUV444Converters();
528

529
  if (has_alpha) {
530
    WebPRescalerInit(p->scaler_a, io->mb_w, io->mb_h,
531
                     tmp + 3 * out_width, out_width, out_height, 0, 1,
532
                     work + 3 * work_size);
533
    p->emit_alpha = EmitRescaledAlphaRGB;
534
    if (p->output->colorspace == MODE_RGBA_4444 ||
535
        p->output->colorspace == MODE_rgbA_4444) {
536
      p->emit_alpha_row = ExportAlphaRGBA4444;
537
    } else {
538
      p->emit_alpha_row = ExportAlpha;
539
    }
540
    WebPInitAlphaProcessing();
541
  }
542
  return 1;
543
}
544

545
#endif  // WEBP_REDUCE_SIZE
546

547
//------------------------------------------------------------------------------
548
// Default custom functions
549

550
static int CustomSetup(VP8Io* io) {
551
  WebPDecParams* const p = (WebPDecParams*)io->opaque;
552
  const WEBP_CSP_MODE colorspace = p->output->colorspace;
553
  const int is_rgb = WebPIsRGBMode(colorspace);
554
  const int is_alpha = WebPIsAlphaMode(colorspace);
555

556
  p->memory = NULL;
557
  p->emit = NULL;
558
  p->emit_alpha = NULL;
559
  p->emit_alpha_row = NULL;
560
  if (!WebPIoInitFromOptions(p->options, io, is_alpha ? MODE_YUV : MODE_YUVA)) {
561
    return 0;
562
  }
563
  if (is_alpha && WebPIsPremultipliedMode(colorspace)) {
564
    WebPInitUpsamplers();
565
  }
566
  if (io->use_scaling) {
567
#if !defined(WEBP_REDUCE_SIZE)
568
    const int ok = is_rgb ? InitRGBRescaler(io, p) : InitYUVRescaler(io, p);
569
    if (!ok) {
570
      return 0;    // memory error
571
    }
572
#else
573
    return 0;   // rescaling support not compiled
574
#endif
575
  } else {
576
    if (is_rgb) {
577
      WebPInitSamplers();
578
      p->emit = EmitSampledRGB;   // default
579
      if (io->fancy_upsampling) {
580
#ifdef FANCY_UPSAMPLING
581
        const int uv_width = (io->mb_w + 1) >> 1;
582
        p->memory = WebPSafeMalloc(1ULL, (size_t)(io->mb_w + 2 * uv_width));
583
        if (p->memory == NULL) {
584
          return 0;   // memory error.
585
        }
586
        p->tmp_y = (uint8_t*)p->memory;
587
        p->tmp_u = p->tmp_y + io->mb_w;
588
        p->tmp_v = p->tmp_u + uv_width;
589
        p->emit = EmitFancyRGB;
590
        WebPInitUpsamplers();
591
#endif
592
      }
593
    } else {
594
      p->emit = EmitYUV;
595
    }
596
    if (is_alpha) {  // need transparency output
597
      p->emit_alpha =
598
          (colorspace == MODE_RGBA_4444 || colorspace == MODE_rgbA_4444) ?
599
              EmitAlphaRGBA4444
600
          : is_rgb ? EmitAlphaRGB
601
          : EmitAlphaYUV;
602
      if (is_rgb) {
603
        WebPInitAlphaProcessing();
604
      }
605
    }
606
  }
607

608
  return 1;
609
}
610

611
//------------------------------------------------------------------------------
612

613
static int CustomPut(const VP8Io* io) {
614
  WebPDecParams* const p = (WebPDecParams*)io->opaque;
615
  const int mb_w = io->mb_w;
616
  const int mb_h = io->mb_h;
617
  int num_lines_out;
618
  assert(!(io->mb_y & 1));
619

620
  if (mb_w <= 0 || mb_h <= 0) {
621
    return 0;
622
  }
623
  num_lines_out = p->emit(io, p);
624
  if (p->emit_alpha != NULL) {
625
    p->emit_alpha(io, p, num_lines_out);
626
  }
627
  p->last_y += num_lines_out;
628
  return 1;
629
}
630

631
//------------------------------------------------------------------------------
632

633
static void CustomTeardown(const VP8Io* io) {
634
  WebPDecParams* const p = (WebPDecParams*)io->opaque;
635
  WebPSafeFree(p->memory);
636
  p->memory = NULL;
637
}
638

639
//------------------------------------------------------------------------------
640
// Main entry point
641

642
void WebPInitCustomIo(WebPDecParams* const params, VP8Io* const io) {
643
  io->put      = CustomPut;
644
  io->setup    = CustomSetup;
645
  io->teardown = CustomTeardown;
646
  io->opaque   = params;
647
}
648

649
//------------------------------------------------------------------------------
650

651