xfa/src/fxbarcode/BC_TwoDimWriter.cpp

// Copyright 2014 PDFium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.

// Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com

#include <algorithm>

#include "third_party/base/numerics/safe_math.h"
#include "xfa/src/fxbarcode/barcode.h"
#include "xfa/src/fxbarcode/common/BC_CommonBitMatrix.h"
#include "xfa/src/fxbarcode/BC_Writer.h"
#include "xfa/src/fxbarcode/BC_TwoDimWriter.h"

CBC_TwoDimWriter::CBC_TwoDimWriter() {
  m_iCorrectLevel = 1;
  m_bFixedSize = TRUE;
  m_output = NULL;
}
CBC_TwoDimWriter::~CBC_TwoDimWriter() {
  if (m_output != NULL) {
    delete m_output;
    m_output = NULL;
  }
}
void CBC_TwoDimWriter::RenderDeviceResult(CFX_RenderDevice* device,
                                          const CFX_Matrix* matrix) {
  CFX_GraphStateData stateData;
  CFX_PathData path;
  path.AppendRect(0, 0, (FX_FLOAT)m_Width, (FX_FLOAT)m_Height);
  device->DrawPath(&path, matrix, &stateData, m_backgroundColor,
                   m_backgroundColor, FXFILL_ALTERNATE);
  int32_t leftPos = 0;
  int32_t topPos = 0;
  if (m_bFixedSize) {
    leftPos = (m_Width - m_output->GetWidth()) / 2;
    topPos = (m_Height - m_output->GetHeight()) / 2;
  }
  CFX_Matrix matri = *matrix;
  if (m_Width < m_output->GetWidth() && m_Height < m_output->GetHeight()) {
    CFX_Matrix matriScale(
        (FX_FLOAT)m_Width / (FX_FLOAT)m_output->GetWidth(), 0.0, 0.0,
        (FX_FLOAT)m_Height / (FX_FLOAT)m_output->GetHeight(), 0.0, 0.0);
    matriScale.Concat(*matrix);
    matri = matriScale;
  }
  for (int32_t x = 0; x < m_output->GetWidth(); x++) {
    for (int32_t y = 0; y < m_output->GetHeight(); y++) {
      CFX_PathData rect;
      rect.AppendRect((FX_FLOAT)leftPos + x, (FX_FLOAT)topPos + y,
                      (FX_FLOAT)(leftPos + x + 1), (FX_FLOAT)(topPos + y + 1));
      CFX_GraphStateData stateData;
      if (m_output->Get(x, y)) {
        device->DrawPath(&rect, &matri, &stateData, m_barColor, 0,
                         FXFILL_WINDING);
      }
    }
  }
}
void CBC_TwoDimWriter::RenderBitmapResult(CFX_DIBitmap*& pOutBitmap,
                                          int32_t& e) {
  if (m_bFixedSize) {
    pOutBitmap = CreateDIBitmap(m_Width, m_Height);
  } else {
    pOutBitmap = CreateDIBitmap(m_output->GetWidth(), m_output->GetHeight());
  }
  if (!pOutBitmap) {
    e = BCExceptionFailToCreateBitmap;
    return;
  }
  pOutBitmap->Clear(m_backgroundColor);
  int32_t leftPos = 0;
  int32_t topPos = 0;
  if (m_bFixedSize) {
    leftPos = (m_Width - m_output->GetWidth()) / 2;
    topPos = (m_Height - m_output->GetHeight()) / 2;
  }
  for (int32_t x = 0; x < m_output->GetWidth(); x++) {
    for (int32_t y = 0; y < m_output->GetHeight(); y++) {
      if (m_output->Get(x, y)) {
        pOutBitmap->SetPixel(leftPos + x, topPos + y, m_barColor);
      }
    }
  }
  if (!m_bFixedSize) {
    CFX_DIBitmap* pStretchBitmap = pOutBitmap->StretchTo(m_Width, m_Height);
    if (pOutBitmap) {
      delete pOutBitmap;
    }
    pOutBitmap = pStretchBitmap;
  }
}
void CBC_TwoDimWriter::RenderResult(uint8_t* code,
                                    int32_t codeWidth,
                                    int32_t codeHeight,
                                    int32_t& e) {
  int32_t inputWidth = codeWidth;
  int32_t inputHeight = codeHeight;
  int32_t tempWidth = inputWidth + 2;
  int32_t tempHeight = inputHeight + 2;
  FX_FLOAT moduleHSize = std::min(m_ModuleWidth, m_ModuleHeight);
  moduleHSize = std::min(moduleHSize, 8.0f);
  moduleHSize = std::max(moduleHSize, 1.0f);
  pdfium::base::CheckedNumeric<int32_t> scaledWidth = tempWidth;
  pdfium::base::CheckedNumeric<int32_t> scaledHeight = tempHeight;
  scaledWidth *= moduleHSize;
  scaledHeight *= moduleHSize;

  int32_t outputWidth = scaledWidth.ValueOrDie();
  int32_t outputHeight = scaledHeight.ValueOrDie();
  if (m_bFixedSize) {
    if (m_Width < outputWidth || m_Height < outputHeight) {
      e = BCExceptionBitmapSizeError;
      return;
    }
  } else {
    if (m_Width > outputWidth || m_Height > outputHeight) {
      outputWidth = (int32_t)(outputWidth *
                              ceil((FX_FLOAT)m_Width / (FX_FLOAT)outputWidth));
      outputHeight = (int32_t)(
          outputHeight * ceil((FX_FLOAT)m_Height / (FX_FLOAT)outputHeight));
    }
  }
  int32_t multiX = (int32_t)ceil((FX_FLOAT)outputWidth / (FX_FLOAT)tempWidth);
  int32_t multiY = (int32_t)ceil((FX_FLOAT)outputHeight / (FX_FLOAT)tempHeight);
  if (m_bFixedSize) {
    multiX = std::min(multiX, multiY);
    multiY = multiX;
  }
  int32_t leftPadding = (outputWidth - (inputWidth * multiX)) / 2;
  int32_t topPadding = (outputHeight - (inputHeight * multiY)) / 2;
  if (leftPadding < 0) {
    leftPadding = 0;
  }
  if (topPadding < 0) {
    topPadding = 0;
  }
  m_output = new CBC_CommonBitMatrix;
  m_output->Init(outputWidth, outputHeight);
  for (int32_t inputY = 0, outputY = topPadding;
       (inputY < inputHeight) && (outputY < outputHeight - multiY);
       inputY++, outputY += multiY) {
    for (int32_t inputX = 0, outputX = leftPadding;
         (inputX < inputWidth) && (outputX < outputWidth - multiX);
         inputX++, outputX += multiX) {
      if (code[inputX + inputY * inputWidth] == 1) {
        m_output->SetRegion(outputX, outputY, multiX, multiY, e);
        BC_EXCEPTION_CHECK_ReturnVoid(e);
      }
    }
  }
}