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map-display/include/boost/gil/extension/io/bmp/detail/read.hpp

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//
// Copyright 2012 Christian Henning
//
// Distributed under the Boost Software License, Version 1.0
// See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt
//
#ifndef BOOST_GIL_EXTENSION_IO_BMP_DETAIL_READ_HPP
#define BOOST_GIL_EXTENSION_IO_BMP_DETAIL_READ_HPP
#include <boost/gil/extension/io/bmp/detail/is_allowed.hpp>
#include <boost/gil/extension/io/bmp/detail/reader_backend.hpp>
#include <boost/gil/io/base.hpp>
#include <boost/gil/io/bit_operations.hpp>
#include <boost/gil/io/conversion_policies.hpp>
#include <boost/gil/io/device.hpp>
#include <boost/gil/io/dynamic_io_new.hpp>
#include <boost/gil/io/reader_base.hpp>
#include <boost/gil/io/row_buffer_helper.hpp>
#include <boost/gil/io/typedefs.hpp>
#include <boost/assert.hpp>
#include <type_traits>
#include <vector>
namespace boost { namespace gil {
#if BOOST_WORKAROUND(BOOST_MSVC, >= 1400)
#pragma warning(push)
#pragma warning(disable:4512) //assignment operator could not be generated
#endif
///
/// BMP Reader
///
template< typename Device
, typename ConversionPolicy
>
class reader< Device
, bmp_tag
, ConversionPolicy
>
: public reader_base< bmp_tag
, ConversionPolicy
>
, public reader_backend< Device
, bmp_tag
>
{
private:
using this_t = reader<Device, bmp_tag, ConversionPolicy>;
using cc_t = typename ConversionPolicy::color_converter_type;
public:
using backend_t = reader_backend< Device, bmp_tag>;
public:
//
// Constructor
//
reader( const Device& io_dev
, const image_read_settings< bmp_tag >& settings
)
: backend_t( io_dev
, settings
)
, _pitch( 0 )
{}
//
// Constructor
//
reader( const Device& io_dev
, const ConversionPolicy& cc
, const image_read_settings< bmp_tag >& settings
)
: reader_base< bmp_tag
, ConversionPolicy
>( cc )
, backend_t( io_dev
, settings
)
, _pitch( 0 )
{}
/// Read image.
template< typename View >
void apply( const View& dst_view )
{
if( this->_info._valid == false )
{
io_error( "Image header was not read." );
}
using is_read_and_convert_t = typename std::is_same
<
ConversionPolicy,
detail::read_and_no_convert
>::type;
io_error_if( !detail::is_allowed< View >( this->_info
, is_read_and_convert_t()
)
, "Image types aren't compatible."
);
// the row pitch must be multiple 4 bytes
if( this->_info._bits_per_pixel < 8 )
{
_pitch = static_cast<long>((( this->_info._width * this->_info._bits_per_pixel ) + 7 ) >> 3 );
}
else
{
_pitch = static_cast<long>( this->_info._width * (( this->_info._bits_per_pixel + 7 ) >> 3 ));
}
_pitch = (_pitch + 3) & ~3;
switch( this->_info._bits_per_pixel )
{
case 1:
{
this->_scanline_length = ( this->_info._width * num_channels< rgba8_view_t >::value + 3 ) & ~3;
read_palette_image
<
gray1_image_t::view_t,
detail::mirror_bits<byte_vector_t, std::true_type>
>(dst_view);
break;
}
case 4:
{
switch ( this->_info._compression )
{
case bmp_compression::_rle4:
{
///@todo How can we determine that?
this->_scanline_length = 0;
read_palette_image_rle( dst_view );
break;
}
case bmp_compression::_rgb:
{
this->_scanline_length = ( this->_info._width * num_channels< rgba8_view_t >::value + 3 ) & ~3;
read_palette_image
<
gray4_image_t::view_t,
detail::swap_half_bytes<byte_vector_t, std::true_type>
>(dst_view);
break;
}
default:
{
io_error( "Unsupported compression mode in BMP file." );
break;
}
}
break;
}
case 8:
{
switch ( this->_info._compression )
{
case bmp_compression::_rle8:
{
///@todo How can we determine that?
this->_scanline_length = 0;
read_palette_image_rle( dst_view );
break;
}
case bmp_compression::_rgb:
{
this->_scanline_length = ( this->_info._width * num_channels< rgba8_view_t >::value + 3 ) & ~3;
read_palette_image< gray8_image_t::view_t
, detail::do_nothing< std::vector< gray8_pixel_t > >
> ( dst_view );
break;
}
default:
{
io_error( "Unsupported compression mode in BMP file." );
break;
}
}
break;
}
case 15: case 16:
{
this->_scanline_length = ( this->_info._width * num_channels< rgb8_view_t >::value + 3 ) & ~3;
read_data_15( dst_view );
break;
}
case 24:
{
this->_scanline_length = ( this->_info._width * num_channels< rgb8_view_t >::value + 3 ) & ~3;
read_data< bgr8_view_t >( dst_view );
break;
}
case 32:
{
this->_scanline_length = ( this->_info._width * num_channels< rgba8_view_t >::value + 3 ) & ~3;
read_data< bgra8_view_t >( dst_view );
break;
}
}
}
private:
long get_offset( std::ptrdiff_t pos )
{
if( this->_info._height > 0 )
{
// the image is upside down
return static_cast<long>( ( this->_info._offset
+ ( this->_info._height - 1 - pos ) * _pitch
));
}
else
{
return static_cast<long>( ( this->_info._offset
+ pos * _pitch
));
}
}
template< typename View_Src
, typename Byte_Manipulator
, typename View_Dst
>
void read_palette_image( const View_Dst& view )
{
this->read_palette();
using rh_t = detail::row_buffer_helper_view<View_Src>;
using it_t = typename rh_t::iterator_t;
rh_t rh( _pitch, true );
// we have to swap bits
Byte_Manipulator byte_manipulator;
for( std::ptrdiff_t y = 0
; y < this->_settings._dim.y
; ++y
)
{
this->_io_dev.seek( get_offset( y + this->_settings._top_left.y ));
this->_io_dev.read( reinterpret_cast< byte_t* >( rh.data() )
, _pitch
);
byte_manipulator( rh.buffer() );
typename View_Dst::x_iterator dst_it = view.row_begin( y );
it_t it = rh.begin() + this->_settings._top_left.x;
it_t end = it + this->_settings._dim.x;
for( ; it != end; ++it, ++dst_it )
{
unsigned char c = get_color( *it, gray_color_t() );
*dst_it = this->_palette[ c ];
}
}
}
template< typename View >
void read_data_15( const View& view )
{
byte_vector_t row( _pitch );
// read the color masks
if( this->_info._compression == bmp_compression::_bitfield )
{
this->_mask.red.mask = this->_io_dev.read_uint32();
this->_mask.green.mask = this->_io_dev.read_uint32();
this->_mask.blue.mask = this->_io_dev.read_uint32();
this->_mask.red.width = detail::count_ones( this->_mask.red.mask );
this->_mask.green.width = detail::count_ones( this->_mask.green.mask );
this->_mask.blue.width = detail::count_ones( this->_mask.blue.mask );
this->_mask.red.shift = detail::trailing_zeros( this->_mask.red.mask );
this->_mask.green.shift = detail::trailing_zeros( this->_mask.green.mask );
this->_mask.blue.shift = detail::trailing_zeros( this->_mask.blue.mask );
}
else if( this->_info._compression == bmp_compression::_rgb )
{
switch( this->_info._bits_per_pixel )
{
case 15:
case 16:
{
this->_mask.red.mask = 0x007C00; this->_mask.red.width = 5; this->_mask.red.shift = 10;
this->_mask.green.mask = 0x0003E0; this->_mask.green.width = 5; this->_mask.green.shift = 5;
this->_mask.blue.mask = 0x00001F; this->_mask.blue.width = 5; this->_mask.blue.shift = 0;
break;
}
case 24:
case 32:
{
this->_mask.red.mask = 0xFF0000; this->_mask.red.width = 8; this->_mask.red.shift = 16;
this->_mask.green.mask = 0x00FF00; this->_mask.green.width = 8; this->_mask.green.shift = 8;
this->_mask.blue.mask = 0x0000FF; this->_mask.blue.width = 8; this->_mask.blue.shift = 0;
break;
}
}
}
else
{
io_error( "bmp_reader::apply(): unsupported BMP compression" );
}
using image_t = rgb8_image_t;
using it_t = typename image_t::view_t::x_iterator;
for( std::ptrdiff_t y = 0
; y < this->_settings._dim.y
; ++y
)
{
this->_io_dev.seek( get_offset( y + this->_settings._top_left.y ));
this->_io_dev.read( &row.front()
, row.size()
);
image_t img_row( this->_info._width, 1 );
image_t::view_t v = gil::view( img_row );
it_t it = v.row_begin( 0 );
it_t beg = v.row_begin( 0 ) + this->_settings._top_left.x;
it_t end = beg + this->_settings._dim.x;
byte_t* src = &row.front();
for( int32_t i = 0 ; i < this->_info._width; ++i, src += 2 )
{
int p = ( src[1] << 8 ) | src[0];
int r = ((p & this->_mask.red.mask) >> this->_mask.red.shift) << (8 - this->_mask.red.width);
int g = ((p & this->_mask.green.mask) >> this->_mask.green.shift) << (8 - this->_mask.green.width);
int b = ((p & this->_mask.blue.mask) >> this->_mask.blue.shift) << (8 - this->_mask.blue.width);
get_color( it[i], red_t() ) = static_cast< byte_t >( r );
get_color( it[i], green_t() ) = static_cast< byte_t >( g );
get_color( it[i], blue_t() ) = static_cast< byte_t >( b );
}
this->_cc_policy.read( beg
, end
, view.row_begin( y )
);
}
}
// 8-8-8 BGR
// 8-8-8-8 BGRA
template< typename View_Src
, typename View_Dst
>
void read_data( const View_Dst& view )
{
byte_vector_t row( _pitch );
View_Src v = interleaved_view( this->_info._width
, 1
, (typename View_Src::value_type*) &row.front()
, this->_info._width * num_channels< View_Src >::value
);
typename View_Src::x_iterator beg = v.row_begin( 0 ) + this->_settings._top_left.x;
typename View_Src::x_iterator end = beg + this->_settings._dim.x;
for( std::ptrdiff_t y = 0
; y < this->_settings._dim.y
; ++y
)
{
this->_io_dev.seek( get_offset( y + this->_settings._top_left.y ));
this->_io_dev.read( &row.front()
, row.size()
);
this->_cc_policy.read( beg
, end
, view.row_begin( y )
);
}
}
template< typename Buffer
, typename View
>
void copy_row_if_needed( const Buffer& buf
, const View& view
, std::ptrdiff_t y
)
{
if( y >= this->_settings._top_left.y
&& y < this->_settings._dim.y
)
{
typename Buffer::const_iterator beg = buf.begin() + this->_settings._top_left.x;
typename Buffer::const_iterator end = beg + this->_settings._dim.x;
std::copy( beg
, end
, view.row_begin( y )
);
}
}
template< typename View_Dst >
void read_palette_image_rle( const View_Dst& view )
{
BOOST_ASSERT(
this->_info._compression == bmp_compression::_rle4 ||
this->_info._compression == bmp_compression::_rle8);
this->read_palette();
// jump to start of rle4 data
this->_io_dev.seek( this->_info._offset );
// we need to know the stream position for padding purposes
std::size_t stream_pos = this->_info._offset;
using Buf_type = std::vector<rgba8_pixel_t>;
Buf_type buf( this->_settings._dim.x );
Buf_type::iterator dst_it = buf.begin();
Buf_type::iterator dst_end = buf.end();
// If height is positive, the bitmap is a bottom-up DIB.
// If height is negative, the bitmap is a top-down DIB.
// The origin of a bottom-up DIB is the bottom left corner of the bitmap image,
// which is the first pixel of the first row of bitmap data.
// The origin of a top-down DIB is also the bottom left corner of the bitmap image,
// but in this case the bottom left corner is the first pixel of the last row of bitmap data.
// - "Programming Windows", 5th Ed. by Charles Petzold explains Windows docs ambiguities.
std::ptrdiff_t ybeg = 0;
std::ptrdiff_t yend = this->_settings._dim.y;
std::ptrdiff_t yinc = 1;
if( this->_info._height > 0 )
{
ybeg = this->_settings._dim.y - 1;
yend = -1;
yinc = -1;
}
std::ptrdiff_t y = ybeg;
bool finished = false;
while ( !finished )
{
std::ptrdiff_t count = this->_io_dev.read_uint8();
std::ptrdiff_t second = this->_io_dev.read_uint8();
stream_pos += 2;
if ( count )
{
// encoded mode
// clamp to boundary
if( count > dst_end - dst_it )
{
count = dst_end - dst_it;
}
if( this->_info._compression == bmp_compression::_rle4 )
{
std::ptrdiff_t cs[2] = { second >> 4, second & 0x0f };
for( int i = 0; i < count; ++i )
{
*dst_it++ = this->_palette[ cs[i & 1] ];
}
}
else
{
for( int i = 0; i < count; ++i )
{
*dst_it++ = this->_palette[ second ];
}
}
}
else
{
switch( second )
{
case 0: // end of row
{
copy_row_if_needed( buf, view, y );
y += yinc;
if( y == yend )
{
finished = true;
}
else
{
dst_it = buf.begin();
dst_end = buf.end();
}
break;
}
case 1: // end of bitmap
{
copy_row_if_needed( buf, view, y );
finished = true;
break;
}
case 2: // offset coordinates
{
std::ptrdiff_t dx = this->_io_dev.read_uint8();
std::ptrdiff_t dy = this->_io_dev.read_uint8() * yinc;
stream_pos += 2;
if( dy )
{
copy_row_if_needed( buf, view, y );
}
std::ptrdiff_t x = dst_it - buf.begin();
x += dx;
if( x > this->_info._width )
{
io_error( "Mangled BMP file." );
}
y += dy;
if( yinc > 0 ? y > yend : y < yend )
{
io_error( "Mangled BMP file." );
}
dst_it = buf.begin() + x;
dst_end = buf.end();
break;
}
default: // absolute mode
{
count = second;
// clamp to boundary
if( count > dst_end - dst_it )
{
count = dst_end - dst_it;
}
if ( this->_info._compression == bmp_compression::_rle4 )
{
for( int i = 0; i < count; ++i )
{
uint8_t packed_indices = this->_io_dev.read_uint8();
++stream_pos;
*dst_it++ = this->_palette[ packed_indices >> 4 ];
if( ++i == second )
break;
*dst_it++ = this->_palette[ packed_indices & 0x0f ];
}
}
else
{
for( int i = 0; i < count; ++i )
{
uint8_t c = this->_io_dev.read_uint8();
++stream_pos;
*dst_it++ = this->_palette[ c ];
}
}
// pad to word boundary
if( ( stream_pos - get_offset( 0 )) & 1 )
{
this->_io_dev.seek( 1, SEEK_CUR );
++stream_pos;
}
break;
}
}
}
}
}
private:
std::size_t _pitch;
};
namespace detail {
class bmp_type_format_checker
{
public:
bmp_type_format_checker( const bmp_bits_per_pixel::type& bpp )
: _bpp( bpp )
{}
template< typename Image >
bool apply()
{
if( _bpp < 32 )
{
return pixels_are_compatible< typename Image::value_type, rgb8_pixel_t >::value
? true
: false;
}
else
{
return pixels_are_compatible< typename Image::value_type, rgba8_pixel_t >::value
? true
: false;
}
}
private:
// to avoid C4512
bmp_type_format_checker& operator=( const bmp_type_format_checker& ) { return *this; }
private:
const bmp_bits_per_pixel::type _bpp;
};
struct bmp_read_is_supported
{
template< typename View >
struct apply : public is_read_supported< typename get_pixel_type< View >::type
, bmp_tag
>
{};
};
} // namespace detail
///
/// BMP Dynamic Reader
///
template< typename Device >
class dynamic_image_reader< Device
, bmp_tag
>
: public reader< Device
, bmp_tag
, detail::read_and_no_convert
>
{
using parent_t = reader<Device, bmp_tag, detail::read_and_no_convert>;
public:
dynamic_image_reader( const Device& io_dev
, const image_read_settings< bmp_tag >& settings
)
: parent_t( io_dev
, settings
)
{}
template< typename ...Images >
void apply( any_image< Images... >& images )
{
detail::bmp_type_format_checker format_checker( this->_info._bits_per_pixel );
if( !construct_matched( images
, format_checker
))
{
io_error( "No matching image type between those of the given any_image and that of the file" );
}
else
{
this->init_image( images
, this->_settings
);
detail::dynamic_io_fnobj< detail::bmp_read_is_supported
, parent_t
> op( this );
apply_operation( view( images )
, op
);
}
}
};
#if BOOST_WORKAROUND(BOOST_MSVC, >= 1400)
#pragma warning(pop)
#endif
} // gil
} // boost
#endif
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