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tiff_io.hpp - Hosted on DriveHQ Cloud IT Platform
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路径: \\game3dprogramming\materials\GameFactory\GameFactoryDemo\references\boost_1_35_0\boost\gil\extension\io\tiff_io.hpp
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/* Copyright 2005-2007 Adobe Systems Incorporated Use, modification and distribution are subject to 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). See http://opensource.adobe.com/gil for most recent version including documentation. */ /*************************************************************************************************/ #ifndef GIL_TIFF_IO_H #define GIL_TIFF_IO_H /// \file /// \brief Support for reading and writing TIFF files /// Requires libtiff! /// \author Hailin Jin and Lubomir Bourdev \n /// Adobe Systems Incorporated /// \date 2005-2007 \n Last updated September 24, 2006 #include
#include
#include
#include
#include
#include "../../gil_all.hpp" #include "io_error.hpp" namespace boost { namespace gil { namespace detail { template
struct tiff_read_support_private { BOOST_STATIC_CONSTANT(bool,is_supported=false); BOOST_STATIC_CONSTANT(int,bit_depth=0); BOOST_STATIC_CONSTANT(int,color_type=0); }; template <> struct tiff_read_support_private
{ BOOST_STATIC_CONSTANT(bool,is_supported=true); BOOST_STATIC_CONSTANT(int,bit_depth=8); BOOST_STATIC_CONSTANT(int,color_type=PHOTOMETRIC_MINISBLACK); }; template <> struct tiff_read_support_private
{ BOOST_STATIC_CONSTANT(bool,is_supported=true); BOOST_STATIC_CONSTANT(int,bit_depth=8); BOOST_STATIC_CONSTANT(int,color_type=PHOTOMETRIC_RGB); }; template <> struct tiff_read_support_private
{ BOOST_STATIC_CONSTANT(bool,is_supported=true); BOOST_STATIC_CONSTANT(int,bit_depth=16); BOOST_STATIC_CONSTANT(int,color_type=PHOTOMETRIC_MINISBLACK); }; template <> struct tiff_read_support_private
{ BOOST_STATIC_CONSTANT(bool,is_supported=true); BOOST_STATIC_CONSTANT(int,bit_depth=16); BOOST_STATIC_CONSTANT(int,color_type=PHOTOMETRIC_RGB); }; template <> struct tiff_read_support_private
{ BOOST_STATIC_CONSTANT(bool,is_supported=true); BOOST_STATIC_CONSTANT(int,bit_depth=32); BOOST_STATIC_CONSTANT(int,color_type=PHOTOMETRIC_MINISBLACK); }; template <> struct tiff_read_support_private
{ BOOST_STATIC_CONSTANT(bool,is_supported=true); BOOST_STATIC_CONSTANT(int,bit_depth=32); BOOST_STATIC_CONSTANT(int,color_type=PHOTOMETRIC_RGB); }; template
struct tiff_write_support_private { BOOST_STATIC_CONSTANT(bool,is_supported=false); BOOST_STATIC_CONSTANT(int,bit_depth=0); BOOST_STATIC_CONSTANT(int,color_type=0); }; template <> struct tiff_write_support_private
{ BOOST_STATIC_CONSTANT(bool,is_supported=true); BOOST_STATIC_CONSTANT(int,bit_depth=8); BOOST_STATIC_CONSTANT(int,color_type=PHOTOMETRIC_MINISBLACK); }; template <> struct tiff_write_support_private
{ BOOST_STATIC_CONSTANT(bool,is_supported=true); BOOST_STATIC_CONSTANT(int,bit_depth=8); BOOST_STATIC_CONSTANT(int,color_type=PHOTOMETRIC_RGB); }; template <> struct tiff_write_support_private
{ BOOST_STATIC_CONSTANT(bool,is_supported=true); BOOST_STATIC_CONSTANT(int,bit_depth=16); BOOST_STATIC_CONSTANT(int,color_type=PHOTOMETRIC_MINISBLACK); }; template <> struct tiff_write_support_private
{ BOOST_STATIC_CONSTANT(bool,is_supported=true); BOOST_STATIC_CONSTANT(int,bit_depth=16); BOOST_STATIC_CONSTANT(int,color_type=PHOTOMETRIC_RGB); }; template <> struct tiff_write_support_private
{ BOOST_STATIC_CONSTANT(bool,is_supported=true); BOOST_STATIC_CONSTANT(int,bit_depth=32); BOOST_STATIC_CONSTANT(int,color_type=PHOTOMETRIC_MINISBLACK); }; template <> struct tiff_write_support_private
{ BOOST_STATIC_CONSTANT(bool,is_supported=true); BOOST_STATIC_CONSTANT(int,bit_depth=32); BOOST_STATIC_CONSTANT(int,color_type=PHOTOMETRIC_RGB); }; class tiff_reader { protected: TIFF *_tp; public: tiff_reader(const char* filename) { io_error_if((_tp=TIFFOpen(filename,"r"))==NULL, "tiff_reader: fail to open file"); } ~tiff_reader() { TIFFClose(_tp); } template
void apply(const View& view) { unsigned short bps,photometric; point2
dims=get_dimensions(); io_error_if(TIFFGetField(_tp,TIFFTAG_BITSPERSAMPLE,&bps)!=1); io_error_if(TIFFGetField(_tp,TIFFTAG_PHOTOMETRIC,&photometric)!=1); io_error_if(dims!=view.dimensions(), "tiff_read_view: input view size does not match TIFF file size"); io_error_if(tiff_read_support_private
::type, typename color_space_type
::type>::bit_depth!=bps || tiff_read_support_private
::type, typename color_space_type
::type>::color_type!=photometric, "tiff_read_view: input view type is incompatible with the image type"); std::size_t element_size=sizeof(pixel
::type, layout
::type> >); std::size_t size_to_allocate = (std::max)((std::size_t)view.width(), (std::size_t)(TIFFScanlineSize(_tp)+element_size-1)/element_size); std::vector
::type, layout
::type> > > row(size_to_allocate); for (int y=0;y
get_dimensions() { int w,h; io_error_if(TIFFGetField(_tp,TIFFTAG_IMAGEWIDTH, &w)!=1); io_error_if(TIFFGetField(_tp,TIFFTAG_IMAGELENGTH,&h)!=1); return point2
(w,h); } template
void read_image(Image& im) { im.recreate(get_dimensions()); apply(view(im)); } }; // This code will be simplified... template
class tiff_reader_color_convert : public tiff_reader { private: CC _cc; public: tiff_reader_color_convert(const char* filename) : tiff_reader(filename) {} tiff_reader_color_convert(const char* filename,CC cc_in) : tiff_reader(filename),_cc(cc_in) {} template
void apply(const View& view) { point2
dims=get_dimensions(); unsigned short bps,photometric; io_error_if(TIFFGetField(_tp,TIFFTAG_BITSPERSAMPLE,&bps)!=1); io_error_if(TIFFGetField(_tp,TIFFTAG_PHOTOMETRIC,&photometric)!=1); io_error_if(dims!=view.dimensions(), "tiff_reader_color_convert::apply(): input view size does not match TIFF file size"); switch (photometric) { case PHOTOMETRIC_MINISBLACK: { switch (bps) { case 8: { std::size_t element_size=sizeof(gray8_pixel_t); std::size_t size_to_allocate = (std::max)((std::size_t)view.width(), (std::size_t)(TIFFScanlineSize(_tp)+element_size-1)/element_size); std::vector
row(size_to_allocate); for (int y=0;y
(_cc)); } break; } case 16: { std::size_t element_size=sizeof(gray16_pixel_t); std::size_t size_to_allocate = (std::max)((std::size_t)view.width(), (std::size_t)(TIFFScanlineSize(_tp)+element_size-1)/element_size); std::vector
row(size_to_allocate); for (int y=0;y
(_cc)); } break; } case 32: { std::size_t element_size=sizeof(gray32f_pixel_t); std::size_t size_to_allocate = (std::max)((std::size_t)view.width(), (std::size_t)(TIFFScanlineSize(_tp)+element_size-1)/element_size); std::vector
row(size_to_allocate); for (int y=0;y
(_cc)); } break; } default: io_error("tiff_reader_color_convert::apply(): unknown combination of color type and bit depth"); } break; } case PHOTOMETRIC_RGB: { switch (bps) { case 8: { std::size_t element_size=sizeof(rgb8_pixel_t); std::size_t size_to_allocate = (std::max)((std::size_t)view.width(), (std::size_t)(TIFFScanlineSize(_tp)+element_size-1)/element_size); std::vector
row(size_to_allocate); for (int y=0;y
(_cc)); } break; } case 16: { std::size_t element_size=sizeof(rgb16_pixel_t); std::size_t size_to_allocate = (std::max)((std::size_t)view.width(), (std::size_t)(TIFFScanlineSize(_tp)+element_size-1)/element_size); std::vector
row(size_to_allocate); for (int y=0;y
(_cc)); } break; } case 32: { std::size_t element_size=sizeof(rgb32f_pixel_t); std::size_t size_to_allocate = (std::max)((std::size_t)view.width(), (std::size_t)(TIFFScanlineSize(_tp)+element_size-1)/element_size); std::vector
row(size_to_allocate); for (int y=0;y
(_cc)); } break; } default: io_error("tiff_reader_color_convert::apply(): unknown combination of color type and bit depth"); } break; } default: { // reads an image in incompatible format via TIFFReadRGBAImage rgba8_image_t rgbaImg(dims); io_error_if(!TIFFReadRGBAImage(_tp, dims.x, dims.y, (uint32*)&gil::view(rgbaImg)(0,0), 0), "tiff_reader_color_convert::unsupported image format"); copy_and_convert_pixels(flipped_up_down_view(const_view(rgbaImg)), view, _cc); } } } template
void read_image(Image& im) { im.recreate(get_dimensions()); apply(view(im)); } }; class tiff_writer { protected: TIFF* _tp; public: tiff_writer(const char *filename) { io_error_if((_tp=TIFFOpen(filename,"w"))==NULL, "tiff_writer: fail to open file"); } ~tiff_writer() {TIFFClose(_tp);} template
void apply(const View& view) { io_error_if(TIFFSetField(_tp,TIFFTAG_IMAGELENGTH, view.height())!=1); io_error_if(TIFFSetField(_tp,TIFFTAG_IMAGEWIDTH, view.width())!=1); io_error_if(TIFFSetField(_tp,TIFFTAG_PHOTOMETRIC, tiff_write_support_private
::type, typename color_space_type
::type>::color_type)!=1); io_error_if(TIFFSetField(_tp,TIFFTAG_RESOLUTIONUNIT, RESUNIT_NONE)!=1); io_error_if(TIFFSetField(_tp,TIFFTAG_PLANARCONFIG, PLANARCONFIG_CONTIG)!=1); io_error_if(TIFFSetField(_tp,TIFFTAG_ORIENTATION, ORIENTATION_TOPLEFT)!=1); io_error_if(TIFFSetField(_tp,TIFFTAG_SAMPLESPERPIXEL,num_channels
::value)!=1); io_error_if(TIFFSetField(_tp,TIFFTAG_BITSPERSAMPLE, tiff_write_support_private
::type, typename color_space_type
::type>::bit_depth)!=1); io_error_if(TIFFSetField(_tp,TIFFTAG_ROWSPERSTRIP, TIFFDefaultStripSize(_tp, 0))!=1); std::vector
::type, layout
::type> > > row(view.width()); for (int y=0;y
struct tiff_read_support { BOOST_STATIC_CONSTANT(bool,is_supported= (detail::tiff_read_support_private
::type, typename color_space_type
::type>::is_supported)); BOOST_STATIC_CONSTANT(int,bit_depth= (detail::tiff_read_support_private
::type, typename color_space_type
::type>::bit_depth)); BOOST_STATIC_CONSTANT(int,color_type= (detail::tiff_read_support_private
::type, typename color_space_type
::type>::color_type)); }; /// \ingroup TIFF_IO /// \brief Returns the width and height of the TIFF file at the specified location. /// Throws std::ios_base::failure if the location does not correspond to a valid TIFF file inline point2
tiff_read_dimensions(const char* filename) { detail::tiff_reader m(filename); return m.get_dimensions(); } /// \ingroup TIFF_IO /// \brief Returns the width and height of the TIFF file at the specified location. /// Throws std::ios_base::failure if the location does not correspond to a valid TIFF file inline point2
tiff_read_dimensions(const std::string& filename) { return tiff_read_dimensions(filename.c_str()); } /// \ingroup TIFF_IO /// \brief Loads the image specified by the given tiff image file name into the given view. /// Triggers a compile assert if the view color space and channel depth are not supported by the TIFF library or by the I/O extension. /// Throws std::ios_base::failure if the file is not a valid TIFF file, or if its color space or channel depth are not /// compatible with the ones specified by View, or if its dimensions don't match the ones of the view. template
inline void tiff_read_view(const char* filename,const View& view) { BOOST_STATIC_ASSERT(tiff_read_support
::is_supported); detail::tiff_reader m(filename); m.apply(view); } /// \ingroup TIFF_IO /// \brief Loads the image specified by the given tiff image file name into the given view. template
inline void tiff_read_view(const std::string& filename,const View& view) { tiff_read_view(filename.c_str(),view); } /// \ingroup TIFF_IO /// \brief Allocates a new image whose dimensions are determined by the given tiff image file, and loads the pixels into it. /// Triggers a compile assert if the image color space or channel depth are not supported by the TIFF library or by the I/O extension. /// Throws std::ios_base::failure if the file is not a valid TIFF file, or if its color space or channel depth are not /// compatible with the ones specified by Image template
void tiff_read_image(const char* filename,Image& im) { BOOST_STATIC_ASSERT(tiff_read_support
::is_supported); detail::tiff_reader m(filename); m.read_image(im); } /// \ingroup TIFF_IO /// \brief Allocates a new image whose dimensions are determined by the given tiff image file, and loads the pixels into it. template
inline void tiff_read_image(const std::string& filename,Image& im) { tiff_read_image(filename.c_str(),im); } /// \ingroup TIFF_IO /// \brief Loads and color-converts the image specified by the given tiff image file name into the given view. /// Throws std::ios_base::failure if the file is not a valid TIFF file, or if its dimensions don't match the ones of the view. template
inline void tiff_read_and_convert_view(const char* filename,const View& view,CC cc) { detail::tiff_reader_color_convert
m(filename,cc); m.apply(view); } /// \ingroup TIFF_IO /// \brief Loads and color-converts the image specified by the given tiff image file name into the given view. /// Throws std::ios_base::failure if the file is not a valid TIFF file, or if its dimensions don't match the ones of the view. template
inline void tiff_read_and_convert_view(const char* filename,const View& view) { detail::tiff_reader_color_convert
m(filename,default_color_converter()); m.apply(view); } /// \ingroup TIFF_IO /// \brief Loads and color-converts the image specified by the given tiff image file name into the given view. template
inline void tiff_read_and_convert_view(const std::string& filename,const View& view,CC cc) { tiff_read_and_convert_view(filename.c_str(),view,cc); } /// \ingroup TIFF_IO /// \brief Loads and color-converts the image specified by the given tiff image file name into the given view. template
inline void tiff_read_and_convert_view(const std::string& filename,const View& view) { tiff_read_and_convert_view(filename.c_str(),view); } /// \ingroup TIFF_IO /// \brief Allocates a new image whose dimensions are determined by the given tiff image file, loads and color-converts the pixels into it. /// Throws std::ios_base::failure if the file is not a valid TIFF file template
void tiff_read_and_convert_image(const char* filename,Image& im,CC cc) { detail::tiff_reader_color_convert
m(filename,cc); m.read_image(im); } /// \ingroup TIFF_IO /// \brief Allocates a new image whose dimensions are determined by the given tiff image file, loads and color-converts the pixels into it. /// Throws std::ios_base::failure if the file is not a valid TIFF file template
void tiff_read_and_convert_image(const char* filename,Image& im) { detail::tiff_reader_color_convert
m(filename,default_color_converter()); m.read_image(im); } /// \ingroup TIFF_IO /// \brief Allocates a new image whose dimensions are determined by the given tiff image file, loads and color-converts the pixels into it. template
inline void tiff_read_and_convert_image(const std::string& filename,Image& im,CC cc) { tiff_read_and_convert_image(filename.c_str(),im,cc); } /// \ingroup TIFF_IO /// \brief Allocates a new image whose dimensions are determined by the given tiff image file, loads and color-converts the pixels into it. template
inline void tiff_read_and_convert_image(const std::string& filename,Image& im) { tiff_read_and_convert_image(filename.c_str(),im); } /// \ingroup TIFF_IO /// \brief Determines whether the given view type is supported for writing template
struct tiff_write_support { BOOST_STATIC_CONSTANT(bool,is_supported= (detail::tiff_write_support_private
::type, typename color_space_type
::type>::is_supported)); BOOST_STATIC_CONSTANT(int,bit_depth= (detail::tiff_write_support_private
::type, typename color_space_type
::type>::bit_depth)); BOOST_STATIC_CONSTANT(int,color_type= (detail::tiff_write_support_private
::type, typename color_space_type
::type>::color_type)); BOOST_STATIC_CONSTANT(bool, value=is_supported); }; /// \ingroup TIFF_IO /// \brief Saves the view to a tiff file specified by the given tiff image file name. /// Triggers a compile assert if the view color space and channel depth are not supported by the TIFF library or by the I/O extension. /// Throws std::ios_base::failure if it fails to create the file. template
inline void tiff_write_view(const char* filename,const View& view) { BOOST_STATIC_ASSERT(tiff_write_support
::is_supported); detail::tiff_writer m(filename); m.apply(view); } /// \ingroup TIFF_IO /// \brief Saves the view to a tiff file specified by the given tiff image file name. template
inline void tiff_write_view(const std::string& filename,const View& view) { tiff_write_view(filename.c_str(),view); } } } // namespace boost::gil #endif
tiff_io.hpp
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