mapnik/src/miniz_png.cpp

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/*****************************************************************************
*
* This file is part of Mapnik (c++ mapping toolkit)
*
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* Copyright (C) 2015 Artem Pavlenko
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*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*
*****************************************************************************/
// mapnik
#include <mapnik/palette.hpp>
#include <mapnik/miniz_png.hpp>
#include <mapnik/image.hpp>
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#include <mapnik/image_view.hpp>
// miniz
#define MINIZ_NO_ARCHIVE_APIS
#define MINIZ_NO_ZLIB_COMPATIBLE_NAMES
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wsign-conversion"
#pragma GCC diagnostic ignored "-Wconversion"
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extern "C" {
#include "miniz.c"
}
#pragma GCC diagnostic pop
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// zlib
#include <zlib.h>
// stl
#include <vector>
#include <iostream>
#include <stdexcept>
namespace mapnik { namespace MiniZ {
PNGWriter::PNGWriter(int level, int strategy)
{
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buffer = nullptr;
compressor = nullptr;
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if (level == -1)
{
level = MZ_DEFAULT_LEVEL; // 6
}
else if (level < 0 || level > 10)
{
throw std::runtime_error("compression level must be between 0 and 10");
}
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mz_uint flags = s_tdefl_num_probes[level] | TDEFL_WRITE_ZLIB_HEADER;
if (level <= 3)
{
flags |= TDEFL_GREEDY_PARSING_FLAG;
}
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if (strategy == Z_FILTERED) flags |= TDEFL_FILTER_MATCHES;
else if (strategy == Z_HUFFMAN_ONLY) flags &= ~TDEFL_MAX_PROBES_MASK;
else if (strategy == Z_RLE) flags |= TDEFL_RLE_MATCHES;
else if (strategy == Z_FIXED) flags |= TDEFL_FORCE_ALL_STATIC_BLOCKS;
buffer = (tdefl_output_buffer *)MZ_MALLOC(sizeof(tdefl_output_buffer));
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if (buffer == nullptr)
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{
throw std::bad_alloc();
}
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buffer->m_pBuf = nullptr;
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buffer->m_capacity = 8192;
buffer->m_expandable = MZ_TRUE;
buffer->m_pBuf = (mz_uint8 *)MZ_MALLOC(buffer->m_capacity);
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if (buffer->m_pBuf == nullptr)
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{
throw std::bad_alloc();
}
compressor = (tdefl_compressor *)MZ_MALLOC(sizeof(tdefl_compressor));
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if (compressor == nullptr)
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{
throw std::bad_alloc();
}
// Reset output buffer.
buffer->m_size = 0;
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tdefl_status tdstatus = tdefl_init(compressor, tdefl_output_buffer_putter, buffer, flags);
if (tdstatus != TDEFL_STATUS_OKAY)
{
throw std::runtime_error("tdefl_init failed");
}
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// Write preamble.
mz_bool status = tdefl_output_buffer_putter(preamble, 8, buffer);
if (status != MZ_TRUE)
{
throw std::bad_alloc();
}
}
PNGWriter::~PNGWriter()
{
if (compressor)
{
MZ_FREE(compressor);
}
if (buffer)
{
if (buffer->m_pBuf)
{
MZ_FREE(buffer->m_pBuf);
}
MZ_FREE(buffer);
}
}
inline void PNGWriter::writeUInt32BE(mz_uint8 *target, mz_uint32 value)
{
target[0] = (value >> 24) & 0xFF;
target[1] = (value >> 16) & 0xFF;
target[2] = (value >> 8) & 0xFF;
target[3] = value & 0xFF;
}
size_t PNGWriter::startChunk(const mz_uint8 header[], size_t length)
{
size_t start = buffer->m_size;
mz_bool status = tdefl_output_buffer_putter(header, length, buffer);
if (status != MZ_TRUE)
{
throw std::bad_alloc();
}
return start;
}
void PNGWriter::finishChunk(size_t start)
{
// Write chunk length at the beginning of the chunk.
size_t payloadLength = buffer->m_size - start - 4 - 4;
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writeUInt32BE(buffer->m_pBuf + start, static_cast<mz_uint32>(payloadLength));
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// Write CRC32 checksum. Don't include the 4-byte length, but /do/ include
// the 4-byte chunk name.
mz_uint32 crc = mz_crc32(MZ_CRC32_INIT, buffer->m_pBuf + start + 4, payloadLength + 4);
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mz_uint8 checksum[] = { static_cast<mz_uint8>(crc >> 24),
static_cast<mz_uint8>(crc >> 16),
static_cast<mz_uint8>(crc >> 8),
static_cast<mz_uint8>(crc) };
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mz_bool status = tdefl_output_buffer_putter(checksum, 4, buffer);
if (status != MZ_TRUE)
{
throw std::bad_alloc();
}
}
void PNGWriter::writeIHDR(mz_uint32 width, mz_uint32 height, mz_uint8 pixel_depth)
{
// Write IHDR chunk.
size_t IHDR = startChunk(IHDR_tpl, 21);
writeUInt32BE(buffer->m_pBuf + IHDR + 8, width);
writeUInt32BE(buffer->m_pBuf + IHDR + 12, height);
if (pixel_depth == 32)
{
// Alpha full color image.
buffer->m_pBuf[IHDR + 16] = 8; // bit depth
buffer->m_pBuf[IHDR + 17] = 6; // color type (6 == true color with alpha)
}
else if (pixel_depth == 24)
{
// Full color image.
buffer->m_pBuf[IHDR + 16] = 8; // bit depth
buffer->m_pBuf[IHDR + 17] = 2; // color type (2 == true color without alpha)
}
else
{
// Paletted image.
buffer->m_pBuf[IHDR + 16] = pixel_depth; // bit depth
buffer->m_pBuf[IHDR + 17] = 3; // color type (3 == indexed color)
}
buffer->m_pBuf[IHDR + 18] = 0; // compression method
buffer->m_pBuf[IHDR + 19] = 0; // filter method
buffer->m_pBuf[IHDR + 20] = 0; // interlace method
finishChunk(IHDR);
}
void PNGWriter::writePLTE(std::vector<rgb> const& palette)
{
// Write PLTE chunk.
size_t PLTE = startChunk(PLTE_tpl, 8);
const mz_uint8 *colors = reinterpret_cast<const mz_uint8 *>(&palette[0]);
mz_bool status = tdefl_output_buffer_putter(colors, palette.size() * 3, buffer);
if (status != MZ_TRUE)
{
throw std::bad_alloc();
}
finishChunk(PLTE);
}
void PNGWriter::writetRNS(std::vector<unsigned> const& alpha)
{
if (alpha.size() == 0)
{
return;
}
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std::vector<unsigned char> transparency(alpha.size());
unsigned char transparencySize = 0; // Stores position of biggest to nonopaque value.
for(unsigned i = 0; i < alpha.size(); i++)
{
transparency[i] = alpha[i];
if (alpha[i] < 255)
{
transparencySize = i + 1;
}
}
if (transparencySize > 0)
{
// Write tRNS chunk.
size_t tRNS = startChunk(tRNS_tpl, 8);
mz_bool status = tdefl_output_buffer_putter(&transparency[0], transparencySize, buffer);
if (status != MZ_TRUE)
{
throw std::bad_alloc();
}
finishChunk(tRNS);
}
}
template<typename T>
void PNGWriter::writeIDAT(T const& image)
{
// Write IDAT chunk.
size_t IDAT = startChunk(IDAT_tpl, 8);
mz_uint8 filter_type = 0;
tdefl_status status;
int bytes_per_pixel = sizeof(typename T::pixel_type);
int stride = image.width() * bytes_per_pixel;
for (unsigned int y = 0; y < image.height(); y++)
{
// Write filter_type
status = tdefl_compress_buffer(compressor, &filter_type, 1, TDEFL_NO_FLUSH);
if (status != TDEFL_STATUS_OKAY)
{
throw std::runtime_error("failed to compress image");
}
// Write scanline
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status = tdefl_compress_buffer(compressor, (mz_uint8 *)image.get_row(y), stride, TDEFL_NO_FLUSH);
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if (status != TDEFL_STATUS_OKAY)
{
throw std::runtime_error("failed to compress image");
}
}
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status = tdefl_compress_buffer(compressor, nullptr, 0, TDEFL_FINISH);
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if (status != TDEFL_STATUS_DONE)
{
throw std::runtime_error("failed to compress image");
}
finishChunk(IDAT);
}
template<typename T>
void PNGWriter::writeIDATStripAlpha(T const& image) {
// Write IDAT chunk.
size_t IDAT = startChunk(IDAT_tpl, 8);
mz_uint8 filter_type = 0;
tdefl_status status;
size_t stride = image.width() * 3;
size_t i, j;
mz_uint8 *scanline = (mz_uint8 *)MZ_MALLOC(stride);
for (unsigned int y = 0; y < image.height(); y++) {
// Write filter_type
status = tdefl_compress_buffer(compressor, &filter_type, 1, TDEFL_NO_FLUSH);
if (status != TDEFL_STATUS_OKAY)
{
MZ_FREE(scanline);
throw std::runtime_error("failed to compress image");
}
// Strip alpha bytes from scanline
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mz_uint8 *row = (mz_uint8 *)image.get_row(y);
for (i = 0, j = 0; j < stride; i += 4, j += 3) {
scanline[j] = row[i];
scanline[j+1] = row[i+1];
scanline[j+2] = row[i+2];
}
// Write scanline
status = tdefl_compress_buffer(compressor, scanline, stride, TDEFL_NO_FLUSH);
if (status != TDEFL_STATUS_OKAY) {
MZ_FREE(scanline);
throw std::runtime_error("failed to compress image");
}
}
MZ_FREE(scanline);
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status = tdefl_compress_buffer(compressor, nullptr, 0, TDEFL_FINISH);
if (status != TDEFL_STATUS_DONE) throw std::runtime_error("failed to compress image");
finishChunk(IDAT);
}
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void PNGWriter::writeIEND()
{
// Write IEND chunk.
size_t IEND = startChunk(IEND_tpl, 8);
finishChunk(IEND);
}
void PNGWriter::toStream(std::ostream& stream)
{
stream.write((char *)buffer->m_pBuf, buffer->m_size);
}
const mz_uint8 PNGWriter::preamble[] = {
0x89, 0x50, 0x4e, 0x47, 0x0d, 0x0a, 0x1a, 0x0a
};
const mz_uint8 PNGWriter::IHDR_tpl[] = {
0x00, 0x00, 0x00, 0x0D, // chunk length
'I', 'H', 'D', 'R', // "IHDR"
0x00, 0x00, 0x00, 0x00, // image width (4 bytes)
0x00, 0x00, 0x00, 0x00, // image height (4 bytes)
0x00, // bit depth (1 byte)
0x00, // color type (1 byte)
0x00, // compression method (1 byte), has to be 0
0x00, // filter method (1 byte)
0x00 // interlace method (1 byte)
};
const mz_uint8 PNGWriter::PLTE_tpl[] = {
0x00, 0x00, 0x00, 0x00, // chunk length
'P', 'L', 'T', 'E' // "IDAT"
};
const mz_uint8 PNGWriter::tRNS_tpl[] = {
0x00, 0x00, 0x00, 0x00, // chunk length
't', 'R', 'N', 'S' // "IDAT"
};
const mz_uint8 PNGWriter::IDAT_tpl[] = {
0x00, 0x00, 0x00, 0x00, // chunk length
'I', 'D', 'A', 'T' // "IDAT"
};
const mz_uint8 PNGWriter::IEND_tpl[] = {
0x00, 0x00, 0x00, 0x00, // chunk length
'I', 'E', 'N', 'D' // "IEND"
};
template void PNGWriter::writeIDAT<image_gray8>(image_gray8 const& image);
template void PNGWriter::writeIDAT<image_view_gray8>(image_view_gray8 const& image);
template void PNGWriter::writeIDAT<image_rgba8>(image_rgba8 const& image);
template void PNGWriter::writeIDAT<image_view_rgba8>(image_view_rgba8 const& image);
template void PNGWriter::writeIDATStripAlpha<image_rgba8>(image_rgba8 const& image);
template void PNGWriter::writeIDATStripAlpha<image_view_rgba8>(image_view_rgba8 const& image);
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}}