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#include <stdlib.h>
#include "config.h"
#include "image.h"
#include "file.h"

#ifdef LC_HAVE_PNGLIB

#include <png.h>

#define alpha_composite(composite, fg, alpha, bg) {			\
  unsigned short temp = ((unsigned short)(fg)*(unsigned short)(alpha) +	\
  (unsigned short)(bg)*(unsigned short)(255 - (unsigned short)(alpha)) + (unsigned short)128);	\
  (composite) = (unsigned char)((temp + (temp >> 8)) >> 8);			\
}

// =============================================================================

static void user_read_fn (png_structp png_ptr, png_bytep data, png_size_t length)
{
  png_size_t check;

  // Read() returns 0 on error, so it is OK to store this in a png_size_t
  // instead of an int, which is what Read() actually returns.
  check = (png_size_t)((File*)png_ptr->io_ptr)->Read (data, length);

  if (check != length)
    png_error(png_ptr, "Read Error");
}

bool Image::LoadPNG (File& file)
{
  unsigned char sig[8], red, green, blue;
  unsigned char *image_data = NULL;
  unsigned char *src, *dest;
  unsigned char r, g, b, a;
  unsigned long i, row;
  unsigned long image_rowbytes;
  png_color_16p pBackground;
  png_structp png_ptr = NULL;
  png_infop info_ptr = NULL;
  png_uint_32 width, height;
  png_bytepp row_pointers = NULL;
  int bit_depth, color_type;
  int image_channels;
  double gamma;

  FreeData ();

  file.Read (sig, 8);
  if (!png_check_sig(sig, 8))
    return false;	// bad signature

  png_ptr = png_create_read_struct(PNG_LIBPNG_VER_STRING, NULL, NULL, NULL);
  if (!png_ptr)
    return false;	// out of memory
 
  info_ptr = png_create_info_struct(png_ptr);
  if (!info_ptr)
  {
    png_destroy_read_struct(&png_ptr, NULL, NULL);
    return false;	// out of memory
  }

  if (setjmp(png_ptr->jmpbuf))
  {
    png_destroy_read_struct(&png_ptr, &info_ptr, NULL);
    return false;
  }

  png_set_read_fn(png_ptr, (void *)&file, user_read_fn);
//  png_init_io(png_ptr, f);
  png_set_sig_bytes(png_ptr, 8);	// we already read the 8 signature bytes

  png_read_info(png_ptr, info_ptr);  // read all PNG info up to image data
  png_get_IHDR(png_ptr, info_ptr, &width, &height, &bit_depth, &color_type,
	       NULL, NULL, NULL);

  if (setjmp(png_ptr->jmpbuf))
  {
    png_destroy_read_struct(&png_ptr, &info_ptr, NULL);
    return false;
  }

  if (png_get_valid(png_ptr, info_ptr, PNG_INFO_bKGD))
  {
    png_get_bKGD(png_ptr, info_ptr, &pBackground);

    if (setjmp (png_ptr->jmpbuf))
    {
      png_destroy_read_struct(&png_ptr, &info_ptr, NULL);
      return false;
    }

    // however, it always returns the raw bKGD data, regardless of any
    // bit-depth transformations, so check depth and adjust if necessary
    if (bit_depth == 16)
    {
      red   = pBackground->red >> 8;
      green = pBackground->green >> 8;
      blue  = pBackground->blue	>> 8;
    }
    else if (color_type == PNG_COLOR_TYPE_GRAY && bit_depth < 8)
    {
      if (bit_depth == 1)
        red = green = blue = pBackground->gray? 255 : 0;
      else if (bit_depth == 2)
        red = green = blue = (255/3) * pBackground->gray;
      else // bit_depth == 4
        red = green = blue = (255/15) * pBackground->gray;
    }
    else
    {
      red   = (unsigned char)pBackground->red;
      green = (unsigned char)pBackground->green;
      blue  = (unsigned char)pBackground->blue;
    }
  }
  else
  {
    if (setjmp (png_ptr->jmpbuf))
    {
      png_destroy_read_struct(&png_ptr, &info_ptr, NULL);
      return false;
    }

    red = green = blue = 0;
  }

  // expand palette images to RGB, low-bit-depth grayscale images to 8 bits,
  // transparency chunks to full alpha channel; strip 16-bit-per-sample
  // images to 8 bits per sample; and convert grayscale to RGB[A]
  if (color_type == PNG_COLOR_TYPE_PALETTE)
    png_set_expand(png_ptr);
  if (color_type == PNG_COLOR_TYPE_GRAY && bit_depth < 8)
    png_set_expand(png_ptr);
  if (png_get_valid(png_ptr, info_ptr, PNG_INFO_tRNS))
    png_set_expand(png_ptr);
  if (bit_depth == 16)
    png_set_strip_16(png_ptr);
  if (color_type == PNG_COLOR_TYPE_GRAY ||
      color_type == PNG_COLOR_TYPE_GRAY_ALPHA)
    png_set_gray_to_rgb(png_ptr);

  if (png_get_gAMA(png_ptr, info_ptr, &gamma))
    png_set_gamma(png_ptr, 2.2, gamma);

  // all transformations have been registered; now update info_ptr data,
  // get rowbytes and channels, and allocate image memory
  png_read_update_info(png_ptr, info_ptr);

  image_rowbytes = png_get_rowbytes(png_ptr, info_ptr);
  image_channels = (int)png_get_channels(png_ptr, info_ptr);

  if ((image_data = (unsigned char*)malloc(image_rowbytes*height)) == NULL)
  {
    png_destroy_read_struct(&png_ptr, &info_ptr, NULL);
    return false;
  }

  if ((row_pointers = (png_bytepp)malloc(height*sizeof(png_bytep))) == NULL)
  {
    png_destroy_read_struct(&png_ptr, &info_ptr, NULL);
    free(image_data);
    return false;
  }

  // set the individual row_pointers to point at the correct offsets
  for (i = 0;  i < height;  ++i)
    row_pointers[i] = image_data + i*image_rowbytes;

  // now we can go ahead and just read the whole image
  png_read_image(png_ptr, row_pointers);

  // and we're done!  (png_read_end() can be omitted if no processing of
  // post-IDAT text/time/etc. is desired)
  free(row_pointers);
  row_pointers = NULL;

  png_read_end(png_ptr, NULL);

  // done with PNG file, so clean up to minimize memory usage
  png_destroy_read_struct(&png_ptr, &info_ptr, NULL);

  if (!image_data)
    return false;

  // get our buffer set to hold data
  m_pData = (unsigned char*)malloc(width*height*image_channels);

  if (m_pData == NULL)
  {
    free (image_data);
    return false;
  }

  m_nWidth = width;
  m_nHeight = height;
  if (image_channels == 3)
    m_bAlpha = false;
  else
    m_bAlpha = true;

  for (row = 0; row < height; row++)
  {
    src = image_data + row*image_rowbytes;
    dest = m_pData + row*image_channels*width;

    if (image_channels == 3)
    {
      for (i = width; i > 0; i--)
      {
        r = *src++;
        g = *src++;
        b = *src++;
        *dest++ = r;
        *dest++ = g;
        *dest++ = b;
      }
    }
    else // if (image_channels == 4)
    {
      for (i = width; i > 0; i--)
      {
        r = *src++;
        g = *src++;
        b = *src++;
        a = *src++;

        if (a == 255)
        {
          *dest++ = r;
          *dest++ = g;
          *dest++ = b;
        }
        else if (a == 0)
        {
          *dest++ = red;
          *dest++ = green;
          *dest++ = blue;
        }
        else
        {
          // this macro (copied from png.h) composites the
          // foreground and background values and puts the
          // result into the first argument; there are no
          // side effects with the first argument
          alpha_composite(*dest++, r, a, red);
          alpha_composite(*dest++, g, a, green);
          alpha_composite(*dest++, b, a, blue);
        }
        *dest++ = a;
      }
    }
  }

  free(image_data);
  return true;
}

// =============================================================================

static void user_write_fn (png_structp png_ptr, png_bytep data, png_size_t length)
{
  png_uint_32 check;

  check = ((File*)png_ptr->io_ptr)->Write (data, length);
  if (check != length)
  {
    png_error(png_ptr, "Write Error");
  }
}

static void user_flush_fn (png_structp png_ptr)
{
  ((File*)png_ptr->io_ptr)->Flush ();
}

bool Image::SavePNG (File& file, bool transparent, bool interlaced, unsigned char* background) const
{
  png_structp png_ptr;
  png_infop info_ptr;
  png_bytepp row_pointers = NULL;
  png_color_8 sig_bit;
  png_color_16 bg;
  int i;

  png_ptr = png_create_write_struct(PNG_LIBPNG_VER_STRING, NULL, NULL, NULL);
  if (!png_ptr)
    return false;

  info_ptr = png_create_info_struct(png_ptr);
  if (!info_ptr)
  {
    png_destroy_write_struct(&png_ptr, NULL);
    return false;
  }

  if (setjmp(png_ptr->jmpbuf))
  {
    png_destroy_write_struct(&png_ptr,  (png_infopp)NULL);
    return false;
  }

//  png_init_io(png_ptr, fp);
  png_set_write_fn (png_ptr, &file, user_write_fn, user_flush_fn);

  png_set_IHDR (png_ptr, info_ptr, m_nWidth, m_nHeight, 8, 
		transparent ? PNG_COLOR_TYPE_RGB_ALPHA : PNG_COLOR_TYPE_RGB,
		interlaced ? PNG_INTERLACE_ADAM7 : PNG_INTERLACE_NONE,
		PNG_COMPRESSION_TYPE_DEFAULT, PNG_FILTER_TYPE_DEFAULT);

  bg.red = background[0];
  bg.green = background[1];
  bg.blue = background[2];
  png_set_bKGD(png_ptr, info_ptr, &bg);

  png_write_info(png_ptr, info_ptr);

  // Set the true bit depth of the image data
  sig_bit.red = 8;
  sig_bit.green = 8;
  sig_bit.blue = 8;
  sig_bit.alpha = 8;

  png_set_sBIT(png_ptr, info_ptr, &sig_bit);

  if ((row_pointers = (png_bytepp)malloc(m_nHeight*sizeof(png_bytep))) == NULL)
  {
    png_destroy_write_struct(&png_ptr, (png_infopp)NULL);
    return false;
  }

  // set the individual row_pointers to point at the correct offsets
  if (transparent)
  {
    unsigned char *buf, *src, *dst, alpha;
    dst = buf = (unsigned char*)malloc (m_nWidth*m_nHeight*4);
    src = m_pData;

    for (i = 0; i < m_nWidth*m_nHeight; i++)
    {
      if ((src[0] == background[0]) &&
        (src[1] == background[1]) &&
        (src[2] == background[2]))
        alpha = 0;
      else
        alpha = 255;
      *dst++ = *src++;
      *dst++ = *src++;
      *dst++ = *src++;
      *dst++ = alpha;
    }

    for (i = 0; i < m_nHeight; i++)
      row_pointers[i] = buf + i*m_nWidth*4;
    png_write_image(png_ptr, row_pointers);

    free(buf);
  }
  else
  {
    for (i = 0; i < m_nHeight; i++)
      row_pointers[i] = m_pData + i*m_nWidth*3;
    png_write_image(png_ptr, row_pointers);
  }

  free(row_pointers);

  png_write_end(png_ptr, info_ptr);
  png_destroy_write_struct(&png_ptr, &info_ptr);

  return true;
}

#endif // LC_HAVE_PNGLIB