| .TH LIBPNG 3 "2018-Jul-29" |
| .SH NAME |
| libpng \- Portable Network Graphics (PNG) Reference Library 1.6.36.git |
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| .SH SYNOPSIS |
| \fB#include <png.h>\fP |
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| \fBpng_uint_32 png_access_version_number (void);\fP |
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| \fBvoid png_benign_error (png_structp \fP\fIpng_ptr\fP\fB, png_const_charp \fIerror\fP\fB);\fP |
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| \fBvoid png_build_grayscale_palette (int \fP\fIbit_depth\fP\fB, png_colorp \fIpalette\fP\fB);\fP |
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| \fBpng_voidp png_calloc (png_structp \fP\fIpng_ptr\fP\fB, png_alloc_size_t \fIsize\fP\fB);\fP |
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| \fBvoid png_chunk_benign_error (png_structp \fP\fIpng_ptr\fP\fB, png_const_charp \fIerror\fP\fB);\fP |
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| \fBvoid png_chunk_error (png_structp \fP\fIpng_ptr\fP\fB, png_const_charp \fIerror\fP\fB);\fP |
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| \fBvoid png_chunk_warning (png_structp \fP\fIpng_ptr\fP\fB, png_const_charp \fImessage\fP\fB);\fP |
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| \fBvoid png_convert_from_struct_tm (png_timep \fP\fIptime\fP\fB, struct tm FAR * \fIttime\fP\fB);\fP |
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| \fBvoid png_convert_from_time_t (png_timep \fP\fIptime\fP\fB, time_t \fIttime\fP\fB);\fP |
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| \fBpng_charp png_convert_to_rfc1123 (png_structp \fP\fIpng_ptr\fP\fB, png_timep \fIptime\fP\fB);\fP |
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| \fBpng_infop png_create_info_struct (png_structp \fIpng_ptr\fP\fB);\fP |
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| \fBpng_structp png_create_read_struct (png_const_charp \fP\fIuser_png_ver\fP\fB, png_voidp \fP\fIerror_ptr\fP\fB, png_error_ptr \fP\fIerror_fn\fP\fB, png_error_ptr \fIwarn_fn\fP\fB);\fP |
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| \fBpng_structp png_create_read_struct_2 (png_const_charp \fP\fIuser_png_ver\fP\fB, png_voidp \fP\fIerror_ptr\fP\fB, png_error_ptr \fP\fIerror_fn\fP\fB, png_error_ptr \fP\fIwarn_fn\fP\fB, png_voidp \fP\fImem_ptr\fP\fB, png_malloc_ptr \fP\fImalloc_fn\fP\fB, png_free_ptr \fIfree_fn\fP\fB);\fP |
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| \fBpng_structp png_create_write_struct (png_const_charp \fP\fIuser_png_ver\fP\fB, png_voidp \fP\fIerror_ptr\fP\fB, png_error_ptr \fP\fIerror_fn\fP\fB, png_error_ptr \fIwarn_fn\fP\fB);\fP |
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| \fBpng_structp png_create_write_struct_2 (png_const_charp \fP\fIuser_png_ver\fP\fB, png_voidp \fP\fIerror_ptr\fP\fB, png_error_ptr \fP\fIerror_fn\fP\fB, png_error_ptr \fP\fIwarn_fn\fP\fB, png_voidp \fP\fImem_ptr\fP\fB, png_malloc_ptr \fP\fImalloc_fn\fP\fB, png_free_ptr \fIfree_fn\fP\fB);\fP |
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| \fBvoid png_data_freer (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, int \fP\fIfreer\fP\fB, png_uint_32 \fImask\fP\fB);\fP |
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| \fBvoid png_destroy_info_struct (png_structp \fP\fIpng_ptr\fP\fB, png_infopp \fIinfo_ptr_ptr\fP\fB);\fP |
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| \fBvoid png_destroy_read_struct (png_structpp \fP\fIpng_ptr_ptr\fP\fB, png_infopp \fP\fIinfo_ptr_ptr\fP\fB, png_infopp \fIend_info_ptr_ptr\fP\fB);\fP |
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| \fBvoid png_destroy_write_struct (png_structpp \fP\fIpng_ptr_ptr\fP\fB, png_infopp \fIinfo_ptr_ptr\fP\fB);\fP |
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| \fBvoid png_err (png_structp \fIpng_ptr\fP\fB);\fP |
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| \fBvoid png_error (png_structp \fP\fIpng_ptr\fP\fB, png_const_charp \fIerror\fP\fB);\fP |
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| \fBvoid png_free (png_structp \fP\fIpng_ptr\fP\fB, png_voidp \fIptr\fP\fB);\fP |
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| \fBvoid png_free_chunk_list (png_structp \fIpng_ptr\fP\fB);\fP |
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| \fBvoid png_free_default (png_structp \fP\fIpng_ptr\fP\fB, png_voidp \fIptr\fP\fB);\fP |
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| \fBvoid png_free_data (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, int \fInum\fP\fB);\fP |
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| \fBpng_byte png_get_bit_depth (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_bKGD (png_const_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_color_16p \fI*background\fP\fB);\fP |
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| \fBpng_byte png_get_channels (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_cHRM (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, double \fP\fI*white_x\fP\fB, double \fP\fI*white_y\fP\fB, double \fP\fI*red_x\fP\fB, double \fP\fI*red_y\fP\fB, double \fP\fI*green_x\fP\fB, double \fP\fI*green_y\fP\fB, double \fP\fI*blue_x\fP\fB, double \fI*blue_y\fP\fB);\fP |
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| \fBpng_uint_32 png_get_cHRM_fixed (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, png_uint_32 \fP\fI*white_x\fP\fB, png_uint_32 \fP\fI*white_y\fP\fB, png_uint_32 \fP\fI*red_x\fP\fB, png_uint_32 \fP\fI*red_y\fP\fB, png_uint_32 \fP\fI*green_x\fP\fB, png_uint_32 \fP\fI*green_y\fP\fB, png_uint_32 \fP\fI*blue_x\fP\fB, png_uint_32 \fI*blue_y\fP\fB);\fP |
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| \fBpng_uint_32 png_get_cHRM_XYZ (png_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, double \fP\fI*red_X\fP\fB, double \fP\fI*red_Y\fP\fB, double \fP\fI*red_Z\fP\fB, double \fP\fI*green_X\fP\fB, double \fP\fI*green_Y\fP\fB, double \fP\fI*green_Z\fP\fB, double \fP\fI*blue_X\fP\fB, double \fP\fI*blue_Y\fP\fB, double \fI*blue_Z\fP\fB);\fP |
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| \fBpng_uint_32 png_get_cHRM_XYZ_fixed (png_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, png_fixed_point \fP\fI*int_red_X\fP\fB, png_fixed_point \fP\fI*int_red_Y\fP\fB, png_fixed_point \fP\fI*int_red_Z\fP\fB, png_fixed_point \fP\fI*int_green_X\fP\fB, png_fixed_point \fP\fI*int_green_Y\fP\fB, png_fixed_point \fP\fI*int_green_Z\fP\fB, png_fixed_point \fP\fI*int_blue_X\fP\fB, png_fixed_point \fP\fI*int_blue_Y\fP\fB, png_fixed_point \fI*int_blue_Z\fP\fB);\fP |
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| \fBpng_uint_32 png_get_chunk_cache_max (png_const_structp \fIpng_ptr\fP\fB);\fP |
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| \fBpng_alloc_size_t png_get_chunk_malloc_max (png_const_structp \fIpng_ptr\fP\fB);\fP |
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| \fBpng_byte png_get_color_type (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_compression_buffer_size (png_const_structp \fIpng_ptr\fP\fB);\fP |
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| \fBpng_byte png_get_compression_type (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_byte png_get_copyright (png_const_structp \fIpng_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_current_row_number \fI(png_const_structp\fP\fB);\fP |
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| \fBpng_byte png_get_current_pass_number \fI(png_const_structp\fP\fB);\fP |
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| \fBpng_voidp png_get_error_ptr (png_const_structp \fIpng_ptr\fP\fB);\fP |
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| \fBpng_byte png_get_filter_type (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_gAMA (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, double \fI*file_gamma\fP\fB);\fP |
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| \fBpng_uint_32 png_get_gAMA_fixed (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, png_uint_32 \fI*int_file_gamma\fP\fB);\fP |
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| \fBpng_byte png_get_header_ver (png_const_structp \fIpng_ptr\fP\fB);\fP |
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| \fBpng_byte png_get_header_version (png_const_structp \fIpng_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_eXIf (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, png_bytep \fI*exif\fP\fB);\fP |
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| \fBpng_uint_32 png_get_eXIf_1 (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, png_unit_32 \fP\fI*num_exif\fP\fB, png_bytep \fI*exif\fP\fB);\fP |
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| \fBpng_uint_32 png_get_hIST (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, png_uint_16p \fI*hist\fP\fB);\fP |
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| \fBpng_uint_32 png_get_iCCP (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, png_charpp \fP\fIname\fP\fB, int \fP\fI*compression_type\fP\fB, png_bytepp \fP\fIprofile\fP\fB, png_uint_32 \fI*proflen\fP\fB);\fP |
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| \fBpng_uint_32 png_get_IHDR (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_uint_32 \fP\fI*width\fP\fB, png_uint_32 \fP\fI*height\fP\fB, int \fP\fI*bit_depth\fP\fB, int \fP\fI*color_type\fP\fB, int \fP\fI*interlace_type\fP\fB, int \fP\fI*compression_type\fP\fB, int \fI*filter_type\fP\fB);\fP |
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| \fBpng_uint_32 png_get_image_height (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_image_width (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_int_32 png_get_int_32 (png_bytep \fIbuf\fP\fB);\fP |
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| \fBpng_byte png_get_interlace_type (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_io_chunk_type (png_const_structp \fIpng_ptr\fP\fB);\fP |
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| \fBpng_voidp png_get_io_ptr (png_structp \fIpng_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_io_state (png_structp \fIpng_ptr\fP\fB);\fP |
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| \fBpng_byte png_get_libpng_ver (png_const_structp \fIpng_ptr\fP\fB);\fP |
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| \fBint png_get_palette_max(png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_voidp png_get_mem_ptr (png_const_structp \fIpng_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_oFFs (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, png_uint_32 \fP\fI*offset_x\fP\fB, png_uint_32 \fP\fI*offset_y\fP\fB, int \fI*unit_type\fP\fB);\fP |
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| \fBpng_uint_32 png_get_pCAL (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, png_charp \fP\fI*purpose\fP\fB, png_int_32 \fP\fI*X0\fP\fB, png_int_32 \fP\fI*X1\fP\fB, int \fP\fI*type\fP\fB, int \fP\fI*nparams\fP\fB, png_charp \fP\fI*units\fP\fB, png_charpp \fI*params\fP\fB);\fP |
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| \fBpng_uint_32 png_get_pHYs (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, png_uint_32 \fP\fI*res_x\fP\fB, png_uint_32 \fP\fI*res_y\fP\fB, int \fI*unit_type\fP\fB);\fP |
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| \fBfloat png_get_pixel_aspect_ratio (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_pHYs_dpi (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, png_uint_32 \fP\fI*res_x\fP\fB, png_uint_32 \fP\fI*res_y\fP\fB, int \fI*unit_type\fP\fB);\fP |
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| \fBpng_fixed_point png_get_pixel_aspect_ratio_fixed (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_pixels_per_inch (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_pixels_per_meter (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_voidp png_get_progressive_ptr (png_const_structp \fIpng_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_PLTE (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, png_colorp \fP\fI*palette\fP\fB, int \fI*num_palette\fP\fB);\fP |
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| \fBpng_byte png_get_rgb_to_gray_status (png_const_structp \fIpng_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_rowbytes (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_bytepp png_get_rows (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_sBIT (png_const_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_color_8p \fI*sig_bit\fP\fB);\fP |
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| \fBvoid png_get_sCAL (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, int* \fP\fIunit\fP\fB, double* \fP\fIwidth\fP\fB, double* \fIheight\fP\fB);\fP |
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| \fBvoid png_get_sCAL_fixed (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, int* \fP\fIunit\fP\fB, png_fixed_pointp \fP\fIwidth\fP\fB, png_fixed_pointp \fIheight\fP\fB);\fP |
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| \fBvoid png_get_sCAL_s (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, int* \fP\fIunit\fP\fB, png_charpp \fP\fIwidth\fP\fB, png_charpp \fIheight\fP\fB);\fP |
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| \fBpng_bytep png_get_signature (png_const_structp \fP\fIpng_ptr\fP\fB, png_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_sPLT (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, png_spalette_p \fI*splt_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_sRGB (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, int \fI*file_srgb_intent\fP\fB);\fP |
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| \fBpng_uint_32 png_get_text (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, png_textp \fP\fI*text_ptr\fP\fB, int \fI*num_text\fP\fB);\fP |
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| \fBpng_uint_32 png_get_tIME (png_const_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_timep \fI*mod_time\fP\fB);\fP |
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| \fBpng_uint_32 png_get_tRNS (png_const_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_bytep \fP\fI*trans_alpha\fP\fB, int \fP\fI*num_trans\fP\fB, png_color_16p \fI*trans_color\fP\fB);\fP |
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| \fB/* This function is really an inline macro. \fI*/ |
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| \fBpng_uint_16 png_get_uint_16 (png_bytep \fIbuf\fP\fB);\fP |
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| \fBpng_uint_32 png_get_uint_31 (png_structp \fP\fIpng_ptr\fP\fB, png_bytep \fIbuf\fP\fB);\fP |
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| \fB/* This function is really an inline macro. \fI*/ |
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| \fBpng_uint_32 png_get_uint_32 (png_bytep \fIbuf\fP\fB);\fP |
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| \fBpng_uint_32 png_get_unknown_chunks (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, png_unknown_chunkpp \fIunknowns\fP\fB);\fP |
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| \fBpng_voidp png_get_user_chunk_ptr (png_const_structp \fIpng_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_user_height_max (png_const_structp \fIpng_ptr\fP\fB);\fP |
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| \fBpng_voidp png_get_user_transform_ptr (png_const_structp \fIpng_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_user_width_max (png_const_structp \fIpng_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_valid (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fP\fIinfo_ptr\fP\fB, png_uint_32 \fIflag\fP\fB);\fP |
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| \fBfloat png_get_x_offset_inches (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_fixed_point png_get_x_offset_inches_fixed (png_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_int_32 png_get_x_offset_microns (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_int_32 png_get_x_offset_pixels (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_x_pixels_per_inch (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_x_pixels_per_meter (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBfloat png_get_y_offset_inches (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_fixed_point png_get_y_offset_inches_fixed (png_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_int_32 png_get_y_offset_microns (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_int_32 png_get_y_offset_pixels (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_y_pixels_per_inch (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBpng_uint_32 png_get_y_pixels_per_meter (png_const_structp \fP\fIpng_ptr\fP\fB, png_const_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBint png_handle_as_unknown (png_structp \fP\fIpng_ptr\fP\fB, png_bytep \fIchunk_name\fP\fB);\fP |
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| \fBint png_image_begin_read_from_file (png_imagep \fP\fIimage\fP\fB, const char \fI*file_name\fP\fB);\fP |
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| \fBint png_image_begin_read_from_stdio (png_imagep \fP\fIimage\fP\fB, FILE* \fIfile\fP\fB);\fP |
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| \fBint, png_image_begin_read_from_memory (png_imagep \fP\fIimage\fP\fB, png_const_voidp \fP\fImemory\fP\fB, size_t \fIsize\fP\fB);\fP |
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| \fBint png_image_finish_read (png_imagep \fP\fIimage\fP\fB, png_colorp \fP\fIbackground\fP\fB, void \fP\fI*buffer\fP\fB, png_int_32 \fP\fIrow_stride\fP\fB, void \fI*colormap\fP\fB);\fP |
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| \fBvoid png_image_free (png_imagep \fIimage\fP\fB);\fP |
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| \fBint png_image_write_to_file (png_imagep \fP\fIimage\fP\fB, const char \fP\fI*file\fP\fB, int \fP\fIconvert_to_8bit\fP\fB, const void \fP\fI*buffer\fP\fB, png_int_32 \fP\fIrow_stride\fP\fB, void \fI*colormap\fP\fB);\fP |
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| \fBint png_image_write_to_memory (png_imagep \fP\fIimage\fP\fB, void \fP\fI*memory\fP\fB, png_alloc_size_t * PNG_RESTRICT \fP\fImemory_bytes\fP\fB, int \fP\fIconvert_to_8_bit\fP\fB, const void \fP\fI*buffer\fP\fB, png_int_32 \fP\fIrow_stride\fP\fB, const void \fI*colormap\fP\fB);\fP |
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| \fBint png_image_write_to_stdio (png_imagep \fP\fIimage\fP\fB, FILE \fP\fI*file\fP\fB, int \fP\fIconvert_to_8_bit\fP\fB, const void \fP\fI*buffer\fP\fB, png_int_32 \fP\fIrow_stride\fP\fB, void \fI*colormap\fP\fB);\fP |
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| \fBvoid png_info_init_3 (png_infopp \fP\fIinfo_ptr\fP\fB, size_t \fIpng_info_struct_size\fP\fB);\fP |
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| \fBvoid png_init_io (png_structp \fP\fIpng_ptr\fP\fB, FILE \fI*fp\fP\fB);\fP |
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| \fBvoid png_longjmp (png_structp \fP\fIpng_ptr\fP\fB, int \fIval\fP\fB);\fP |
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| \fBpng_voidp png_malloc (png_structp \fP\fIpng_ptr\fP\fB, png_alloc_size_t \fIsize\fP\fB);\fP |
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| \fBpng_voidp png_malloc_default (png_structp \fP\fIpng_ptr\fP\fB, png_alloc_size_t \fIsize\fP\fB);\fP |
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| \fBpng_voidp png_malloc_warn (png_structp \fP\fIpng_ptr\fP\fB, png_alloc_size_t \fIsize\fP\fB);\fP |
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| \fBpng_uint_32 png_permit_mng_features (png_structp \fP\fIpng_ptr\fP\fB, png_uint_32 \fImng_features_permitted\fP\fB);\fP |
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| \fBvoid png_process_data (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_bytep \fP\fIbuffer\fP\fB, size_t \fIbuffer_size\fP\fB);\fP |
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| \fBsize_t png_process_data_pause (png_structp \fP\fIpng_ptr\fP\fB, int \fIsave\fP\fB);\fP |
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| \fBpng_uint_32 png_process_data_skip (png_structp \fP\fIpng_ptr\fP\fB);\fP |
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| \fBvoid png_progressive_combine_row (png_structp \fP\fIpng_ptr\fP\fB, png_bytep \fP\fIold_row\fP\fB, png_bytep \fInew_row\fP\fB);\fP |
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| \fBvoid png_read_end (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBvoid png_read_image (png_structp \fP\fIpng_ptr\fP\fB, png_bytepp \fIimage\fP\fB);\fP |
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| \fBvoid png_read_info (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBvoid png_read_png (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, int \fP\fItransforms\fP\fB, png_voidp \fIparams\fP\fB);\fP |
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| \fBvoid png_read_row (png_structp \fP\fIpng_ptr\fP\fB, png_bytep \fP\fIrow\fP\fB, png_bytep \fIdisplay_row\fP\fB);\fP |
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| \fBvoid png_read_rows (png_structp \fP\fIpng_ptr\fP\fB, png_bytepp \fP\fIrow\fP\fB, png_bytepp \fP\fIdisplay_row\fP\fB, png_uint_32 \fInum_rows\fP\fB);\fP |
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| \fBvoid png_read_update_info (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fIinfo_ptr\fP\fB);\fP |
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| \fBint png_reset_zstream (png_structp \fIpng_ptr\fP\fB);\fP |
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| \fBvoid png_save_int_32 (png_bytep \fP\fIbuf\fP\fB, png_int_32 \fIi\fP\fB);\fP |
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| \fBvoid png_save_uint_16 (png_bytep \fP\fIbuf\fP\fB, unsigned int \fIi\fP\fB);\fP |
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| \fBvoid png_save_uint_32 (png_bytep \fP\fIbuf\fP\fB, png_uint_32 \fIi\fP\fB);\fP |
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| \fBvoid png_set_add_alpha (png_structp \fP\fIpng_ptr\fP\fB, png_uint_32 \fP\fIfiller\fP\fB, int \fIflags\fP\fB);\fP |
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| \fBvoid png_set_alpha_mode (png_structp \fP\fIpng_ptr\fP\fB, int \fP\fImode\fP\fB, double \fIoutput_gamma\fP\fB);\fP |
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| \fBvoid png_set_alpha_mode_fixed (png_structp \fP\fIpng_ptr\fP\fB, int \fP\fImode\fP\fB, png_fixed_point \fIoutput_gamma\fP\fB);\fP |
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| \fBvoid png_set_background (png_structp \fP\fIpng_ptr\fP\fB, png_color_16p \fP\fIbackground_color\fP\fB, int \fP\fIbackground_gamma_code\fP\fB, int \fP\fIneed_expand\fP\fB, double \fIbackground_gamma\fP\fB);\fP |
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| \fBvoid png_set_background_fixed (png_structp \fP\fIpng_ptr\fP\fB, png_color_16p \fP\fIbackground_color\fP\fB, int \fP\fIbackground_gamma_code\fP\fB, int \fP\fIneed_expand\fP\fB, png_uint_32 \fIbackground_gamma\fP\fB);\fP |
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| \fBvoid png_set_benign_errors (png_structp \fP\fIpng_ptr\fP\fB, int \fIallowed\fP\fB);\fP |
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| \fBvoid png_set_bgr (png_structp \fIpng_ptr\fP\fB);\fP |
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| \fBvoid png_set_bKGD (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_color_16p \fIbackground\fP\fB);\fP |
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| \fBvoid png_set_check_for_invalid_index (png_structrp \fP\fIpng_ptr\fP\fB, int \fIallowed\fP\fB);\fP |
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| \fBvoid png_set_cHRM (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, double \fP\fIwhite_x\fP\fB, double \fP\fIwhite_y\fP\fB, double \fP\fIred_x\fP\fB, double \fP\fIred_y\fP\fB, double \fP\fIgreen_x\fP\fB, double \fP\fIgreen_y\fP\fB, double \fP\fIblue_x\fP\fB, double \fIblue_y\fP\fB);\fP |
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| \fBvoid png_set_cHRM_fixed (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_uint_32 \fP\fIwhite_x\fP\fB, png_uint_32 \fP\fIwhite_y\fP\fB, png_uint_32 \fP\fIred_x\fP\fB, png_uint_32 \fP\fIred_y\fP\fB, png_uint_32 \fP\fIgreen_x\fP\fB, png_uint_32 \fP\fIgreen_y\fP\fB, png_uint_32 \fP\fIblue_x\fP\fB, png_uint_32 \fIblue_y\fP\fB);\fP |
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| \fBvoid png_set_cHRM_XYZ (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, double \fP\fIred_X\fP\fB, double \fP\fIred_Y\fP\fB, double \fP\fIred_Z\fP\fB, double \fP\fIgreen_X\fP\fB, double \fP\fIgreen_Y\fP\fB, double \fP\fIgreen_Z\fP\fB, double \fP\fIblue_X\fP\fB, double \fP\fIblue_Y\fP\fB, double \fIblue_Z\fP\fB);\fP |
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| \fBvoid png_set_cHRM_XYZ_fixed (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_fixed_point \fP\fIint_red_X\fP\fB, png_fixed_point \fP\fIint_red_Y\fP\fB, png_fixed_point \fP\fIint_red_Z\fP\fB, png_fixed_point \fP\fIint_green_X\fP\fB, png_fixed_point \fP\fIint_green_Y\fP\fB, png_fixed_point \fP\fIint_green_Z\fP\fB, png_fixed_point \fP\fIint_blue_X\fP\fB, png_fixed_point \fP\fIint_blue_Y\fP\fB, png_fixed_point \fIint_blue_Z\fP\fB);\fP |
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| \fBvoid png_set_chunk_cache_max (png_structp \fP\fIpng_ptr\fP\fB, png_uint_32 \fIuser_chunk_cache_max\fP\fB);\fP |
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| \fBvoid png_set_compression_level (png_structp \fP\fIpng_ptr\fP\fB, int \fIlevel\fP\fB);\fP |
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| \fBvoid png_set_compression_mem_level (png_structp \fP\fIpng_ptr\fP\fB, int \fImem_level\fP\fB);\fP |
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| \fBvoid png_set_compression_method (png_structp \fP\fIpng_ptr\fP\fB, int \fImethod\fP\fB);\fP |
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| \fBvoid png_set_compression_strategy (png_structp \fP\fIpng_ptr\fP\fB, int \fIstrategy\fP\fB);\fP |
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| \fBvoid png_set_compression_window_bits (png_structp \fP\fIpng_ptr\fP\fB, int \fIwindow_bits\fP\fB);\fP |
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| \fBvoid png_set_crc_action (png_structp \fP\fIpng_ptr\fP\fB, int \fP\fIcrit_action\fP\fB, int \fIancil_action\fP\fB);\fP |
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| \fBvoid png_set_error_fn (png_structp \fP\fIpng_ptr\fP\fB, png_voidp \fP\fIerror_ptr\fP\fB, png_error_ptr \fP\fIerror_fn\fP\fB, png_error_ptr \fIwarning_fn\fP\fB);\fP |
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| \fBvoid png_set_expand (png_structp \fIpng_ptr\fP\fB);\fP |
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| \fBvoid png_set_expand_16 (png_structp \fIpng_ptr\fP\fB);\fP |
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| \fBvoid png_set_expand_gray_1_2_4_to_8 (png_structp \fIpng_ptr\fP\fB);\fP |
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| \fBvoid png_set_filler (png_structp \fP\fIpng_ptr\fP\fB, png_uint_32 \fP\fIfiller\fP\fB, int \fIflags\fP\fB);\fP |
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| \fBvoid png_set_filter (png_structp \fP\fIpng_ptr\fP\fB, int \fP\fImethod\fP\fB, int \fIfilters\fP\fB);\fP |
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| \fBvoid png_set_filter_heuristics (png_structp \fP\fIpng_ptr\fP\fB, int \fP\fIheuristic_method\fP\fB, int \fP\fInum_weights\fP\fB, png_doublep \fP\fIfilter_weights\fP\fB, png_doublep \fIfilter_costs\fP\fB);\fP |
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| \fBvoid png_set_filter_heuristics_fixed (png_structp \fP\fIpng_ptr\fP\fB, int \fP\fIheuristic_method\fP\fB, int \fP\fInum_weights\fP\fB, png_fixed_point_p \fP\fIfilter_weights\fP\fB, png_fixed_point_p \fIfilter_costs\fP\fB);\fP |
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| \fBvoid png_set_flush (png_structp \fP\fIpng_ptr\fP\fB, int \fInrows\fP\fB);\fP |
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| \fBvoid png_set_gamma (png_structp \fP\fIpng_ptr\fP\fB, double \fP\fIscreen_gamma\fP\fB, double \fIdefault_file_gamma\fP\fB);\fP |
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| \fBvoid png_set_gamma_fixed (png_structp \fP\fIpng_ptr\fP\fB, png_uint_32 \fP\fIscreen_gamma\fP\fB, png_uint_32 \fIdefault_file_gamma\fP\fB);\fP |
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| \fBvoid png_set_gAMA (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, double \fIfile_gamma\fP\fB);\fP |
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| \fBvoid png_set_gAMA_fixed (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_uint_32 \fIfile_gamma\fP\fB);\fP |
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| \fBvoid png_set_gray_1_2_4_to_8 (png_structp \fIpng_ptr\fP\fB);\fP |
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| \fBvoid png_set_gray_to_rgb (png_structp \fIpng_ptr\fP\fB);\fP |
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| \fBvoid png_set_eXIf (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_bytep \fIexif\fP\fB);\fP |
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| \fBvoid png_set_eXIf_1 (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_uint_32 \fP\fInum_exif\fP\fB, png_bytep \fIexif\fP\fB);\fP |
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| \fBvoid png_set_hIST (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_uint_16p \fIhist\fP\fB);\fP |
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| \fBvoid png_set_iCCP (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_const_charp \fP\fIname\fP\fB, int \fP\fIcompression_type\fP\fB, png_const_bytep \fP\fIprofile\fP\fB, png_uint_32 \fIproflen\fP\fB);\fP |
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| \fBint png_set_interlace_handling (png_structp \fIpng_ptr\fP\fB);\fP |
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| \fBvoid png_set_invalid (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, int \fImask\fP\fB);\fP |
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| \fBvoid png_set_invert_alpha (png_structp \fIpng_ptr\fP\fB);\fP |
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| \fBvoid png_set_invert_mono (png_structp \fIpng_ptr\fP\fB);\fP |
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| \fBvoid png_set_IHDR (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_uint_32 \fP\fIwidth\fP\fB, png_uint_32 \fP\fIheight\fP\fB, int \fP\fIbit_depth\fP\fB, int \fP\fIcolor_type\fP\fB, int \fP\fIinterlace_type\fP\fB, int \fP\fIcompression_type\fP\fB, int \fIfilter_type\fP\fB);\fP |
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| \fBvoid png_set_keep_unknown_chunks (png_structp \fP\fIpng_ptr\fP\fB, int \fP\fIkeep\fP\fB, png_bytep \fP\fIchunk_list\fP\fB, int \fInum_chunks\fP\fB);\fP |
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| \fBjmp_buf* png_set_longjmp_fn (png_structp \fP\fIpng_ptr\fP\fB, png_longjmp_ptr \fP\fIlongjmp_fn\fP\fB, size_t \fIjmp_buf_size\fP\fB);\fP |
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| \fBvoid png_set_chunk_malloc_max (png_structp \fP\fIpng_ptr\fP\fB, png_alloc_size_t \fIuser_chunk_cache_max\fP\fB);\fP |
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| \fBvoid png_set_compression_buffer_size (png_structp \fP\fIpng_ptr\fP\fB, png_uint_32 \fIsize\fP\fB);\fP |
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| \fBvoid png_set_mem_fn (png_structp \fP\fIpng_ptr\fP\fB, png_voidp \fP\fImem_ptr\fP\fB, png_malloc_ptr \fP\fImalloc_fn\fP\fB, png_free_ptr \fIfree_fn\fP\fB);\fP |
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| \fBvoid png_set_oFFs (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_uint_32 \fP\fIoffset_x\fP\fB, png_uint_32 \fP\fIoffset_y\fP\fB, int \fIunit_type\fP\fB);\fP |
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| \fBint png_set_option(png_structrp \fP\fIpng_ptr\fP\fB, int \fP\fIoption\fP\fB, int \fIonoff\fP\fB);\fP |
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| \fBvoid png_set_packing (png_structp \fIpng_ptr\fP\fB);\fP |
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| \fBvoid png_set_packswap (png_structp \fIpng_ptr\fP\fB);\fP |
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| \fBvoid png_set_palette_to_rgb (png_structp \fIpng_ptr\fP\fB);\fP |
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| \fBvoid png_set_pCAL (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_charp \fP\fIpurpose\fP\fB, png_int_32 \fP\fIX0\fP\fB, png_int_32 \fP\fIX1\fP\fB, int \fP\fItype\fP\fB, int \fP\fInparams\fP\fB, png_charp \fP\fIunits\fP\fB, png_charpp \fIparams\fP\fB);\fP |
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| \fBvoid png_set_pHYs (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_uint_32 \fP\fIres_x\fP\fB, png_uint_32 \fP\fIres_y\fP\fB, int \fIunit_type\fP\fB);\fP |
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| \fBvoid png_set_progressive_read_fn (png_structp \fP\fIpng_ptr\fP\fB, png_voidp \fP\fIprogressive_ptr\fP\fB, png_progressive_info_ptr \fP\fIinfo_fn\fP\fB, png_progressive_row_ptr \fP\fIrow_fn\fP\fB, png_progressive_end_ptr \fIend_fn\fP\fB);\fP |
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| \fBvoid png_set_PLTE (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_colorp \fP\fIpalette\fP\fB, int \fInum_palette\fP\fB);\fP |
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| \fBvoid png_set_quantize (png_structp \fP\fIpng_ptr\fP\fB, png_colorp \fP\fIpalette\fP\fB, int \fP\fInum_palette\fP\fB, int \fP\fImaximum_colors\fP\fB, png_uint_16p \fP\fIhistogram\fP\fB, int \fIfull_quantize\fP\fB);\fP |
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| \fBvoid png_set_read_fn (png_structp \fP\fIpng_ptr\fP\fB, png_voidp \fP\fIio_ptr\fP\fB, png_rw_ptr \fIread_data_fn\fP\fB);\fP |
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| \fBvoid png_set_read_status_fn (png_structp \fP\fIpng_ptr\fP\fB, png_read_status_ptr \fIread_row_fn\fP\fB);\fP |
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| \fBvoid png_set_read_user_chunk_fn (png_structp \fP\fIpng_ptr\fP\fB, png_voidp \fP\fIuser_chunk_ptr\fP\fB, png_user_chunk_ptr \fIread_user_chunk_fn\fP\fB);\fP |
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| \fBvoid png_set_read_user_transform_fn (png_structp \fP\fIpng_ptr\fP\fB, png_user_transform_ptr \fIread_user_transform_fn\fP\fB);\fP |
| |
| \fBvoid png_set_rgb_to_gray (png_structp \fP\fIpng_ptr\fP\fB, int \fP\fIerror_action\fP\fB, double \fP\fIred\fP\fB, double \fIgreen\fP\fB);\fP |
| |
| \fBvoid png_set_rgb_to_gray_fixed (png_structp \fP\fIpng_ptr\fP\fB, int error_action png_uint_32 \fP\fIred\fP\fB, png_uint_32 \fIgreen\fP\fB);\fP |
| |
| \fBvoid png_set_rows (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_bytepp \fIrow_pointers\fP\fB);\fP |
| |
| \fBvoid png_set_sBIT (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_color_8p \fIsig_bit\fP\fB);\fP |
| |
| \fBvoid png_set_sCAL (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, int \fP\fIunit\fP\fB, double \fP\fIwidth\fP\fB, double \fIheight\fP\fB);\fP |
| |
| \fBvoid png_set_sCAL_fixed (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, int \fP\fIunit\fP\fB, png_fixed_point \fP\fIwidth\fP\fB, png_fixed_point \fIheight\fP\fB);\fP |
| |
| \fBvoid png_set_sCAL_s (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, int \fP\fIunit\fP\fB, png_charp \fP\fIwidth\fP\fB, png_charp \fIheight\fP\fB);\fP |
| |
| \fBvoid png_set_scale_16 (png_structp \fIpng_ptr\fP\fB);\fP |
| |
| \fBvoid png_set_shift (png_structp \fP\fIpng_ptr\fP\fB, png_color_8p \fItrue_bits\fP\fB);\fP |
| |
| \fBvoid png_set_sig_bytes (png_structp \fP\fIpng_ptr\fP\fB, int \fInum_bytes\fP\fB);\fP |
| |
| \fBvoid png_set_sPLT (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_spalette_p \fP\fIsplt_ptr\fP\fB, int \fInum_spalettes\fP\fB);\fP |
| |
| \fBvoid png_set_sRGB (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, int \fIsrgb_intent\fP\fB);\fP |
| |
| \fBvoid png_set_sRGB_gAMA_and_cHRM (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, int \fIsrgb_intent\fP\fB);\fP |
| |
| \fBvoid png_set_strip_16 (png_structp \fIpng_ptr\fP\fB);\fP |
| |
| \fBvoid png_set_strip_alpha (png_structp \fIpng_ptr\fP\fB);\fP |
| |
| \fBvoid png_set_strip_error_numbers (png_structp \fP\fIpng_ptr\fP\fB, png_uint_32 \fIstrip_mode\fP\fB);\fP |
| |
| \fBvoid png_set_swap (png_structp \fIpng_ptr\fP\fB);\fP |
| |
| \fBvoid png_set_swap_alpha (png_structp \fIpng_ptr\fP\fB);\fP |
| |
| \fBvoid png_set_text (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_textp \fP\fItext_ptr\fP\fB, int \fInum_text\fP\fB);\fP |
| |
| \fBvoid png_set_text_compression_level (png_structp \fP\fIpng_ptr\fP\fB, int \fIlevel\fP\fB);\fP |
| |
| \fBvoid png_set_text_compression_mem_level (png_structp \fP\fIpng_ptr\fP\fB, int \fImem_level\fP\fB);\fP |
| |
| \fBvoid png_set_text_compression_strategy (png_structp \fP\fIpng_ptr\fP\fB, int \fIstrategy\fP\fB);\fP |
| |
| \fBvoid png_set_text_compression_window_bits (png_structp \fP\fIpng_ptr\fP\fB, int \fIwindow_bits\fP\fB);\fP |
| |
| \fBvoid png_set_text_compression_method (png_structp \fP\fIpng_ptr\fP\fB, int \fImethod\fP\fB);\fP |
| |
| \fBvoid png_set_tIME (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_timep \fImod_time\fP\fB);\fP |
| |
| \fBvoid png_set_tRNS (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_bytep \fP\fItrans_alpha\fP\fB, int \fP\fInum_trans\fP\fB, png_color_16p \fItrans_color\fP\fB);\fP |
| |
| \fBvoid png_set_tRNS_to_alpha (png_structp \fIpng_ptr\fP\fB);\fP |
| |
| \fBpng_uint_32 png_set_unknown_chunks (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, png_unknown_chunkp \fP\fIunknowns\fP\fB, int \fP\fInum\fP\fB, int \fIlocation\fP\fB);\fP |
| |
| \fBvoid png_set_unknown_chunk_location (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, int \fP\fIchunk\fP\fB, int \fIlocation\fP\fB);\fP |
| |
| \fBvoid png_set_user_limits (png_structp \fP\fIpng_ptr\fP\fB, png_uint_32 \fP\fIuser_width_max\fP\fB, png_uint_32 \fIuser_height_max\fP\fB);\fP |
| |
| \fBvoid png_set_user_transform_info (png_structp \fP\fIpng_ptr\fP\fB, png_voidp \fP\fIuser_transform_ptr\fP\fB, int \fP\fIuser_transform_depth\fP\fB, int \fIuser_transform_channels\fP\fB);\fP |
| |
| \fBvoid png_set_write_fn (png_structp \fP\fIpng_ptr\fP\fB, png_voidp \fP\fIio_ptr\fP\fB, png_rw_ptr \fP\fIwrite_data_fn\fP\fB, png_flush_ptr \fIoutput_flush_fn\fP\fB);\fP |
| |
| \fBvoid png_set_write_status_fn (png_structp \fP\fIpng_ptr\fP\fB, png_write_status_ptr \fIwrite_row_fn\fP\fB);\fP |
| |
| \fBvoid png_set_write_user_transform_fn (png_structp \fP\fIpng_ptr\fP\fB, png_user_transform_ptr \fIwrite_user_transform_fn\fP\fB);\fP |
| |
| \fBint png_sig_cmp (png_bytep \fP\fIsig\fP\fB, size_t \fP\fIstart\fP\fB, size_t \fInum_to_check\fP\fB);\fP |
| |
| \fBvoid png_start_read_image (png_structp \fIpng_ptr\fP\fB);\fP |
| |
| \fBvoid png_warning (png_structp \fP\fIpng_ptr\fP\fB, png_const_charp \fImessage\fP\fB);\fP |
| |
| \fBvoid png_write_chunk (png_structp \fP\fIpng_ptr\fP\fB, png_bytep \fP\fIchunk_name\fP\fB, png_bytep \fP\fIdata\fP\fB, size_t \fIlength\fP\fB);\fP |
| |
| \fBvoid png_write_chunk_data (png_structp \fP\fIpng_ptr\fP\fB, png_bytep \fP\fIdata\fP\fB, size_t \fIlength\fP\fB);\fP |
| |
| \fBvoid png_write_chunk_end (png_structp \fIpng_ptr\fP\fB);\fP |
| |
| \fBvoid png_write_chunk_start (png_structp \fP\fIpng_ptr\fP\fB, png_bytep \fP\fIchunk_name\fP\fB, png_uint_32 \fIlength\fP\fB);\fP |
| |
| \fBvoid png_write_end (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fIinfo_ptr\fP\fB);\fP |
| |
| \fBvoid png_write_flush (png_structp \fIpng_ptr\fP\fB);\fP |
| |
| \fBvoid png_write_image (png_structp \fP\fIpng_ptr\fP\fB, png_bytepp \fIimage\fP\fB);\fP |
| |
| \fBvoid png_write_info (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fIinfo_ptr\fP\fB);\fP |
| |
| \fBvoid png_write_info_before_PLTE (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fIinfo_ptr\fP\fB);\fP |
| |
| \fBvoid png_write_png (png_structp \fP\fIpng_ptr\fP\fB, png_infop \fP\fIinfo_ptr\fP\fB, int \fP\fItransforms\fP\fB, png_voidp \fIparams\fP\fB);\fP |
| |
| \fBvoid png_write_row (png_structp \fP\fIpng_ptr\fP\fB, png_bytep \fIrow\fP\fB);\fP |
| |
| \fBvoid png_write_rows (png_structp \fP\fIpng_ptr\fP\fB, png_bytepp \fP\fIrow\fP\fB, png_uint_32 \fInum_rows\fP\fB);\fP |
| |
| \fBvoid png_write_sig (png_structp \fIpng_ptr\fP\fB);\fP |
| |
| .SH DESCRIPTION |
| The |
| .I libpng |
| library supports encoding, decoding, and various manipulations of |
| the Portable Network Graphics (PNG) format image files. It uses the |
| .IR zlib(3) |
| compression library. |
| Following is a copy of the libpng-manual.txt file that accompanies libpng. |
| |
| .SH LIBPNG.TXT |
| libpng-manual.txt - A description on how to use and modify libpng |
| |
| Copyright (c) 2018 Cosmin Truta |
| Copyright (c) 1998-2018 Glenn Randers-Pehrson |
| |
| This document is released under the libpng license. |
| For conditions of distribution and use, see the disclaimer |
| and license in png.h |
| |
| Based on: |
| |
| libpng versions 0.97, January 1998, through 1.6.35 - July 15, 2018 |
| Updated and distributed by Glenn Randers-Pehrson |
| Copyright (c) 1998-2018 Glenn Randers-Pehrson |
| |
| libpng 1.0 beta 6 - version 0.96 - May 28, 1997 |
| Updated and distributed by Andreas Dilger |
| Copyright (c) 1996, 1997 Andreas Dilger |
| |
| libpng 1.0 beta 2 - version 0.88 - January 26, 1996 |
| For conditions of distribution and use, see copyright |
| notice in png.h. Copyright (c) 1995, 1996 Guy Eric |
| Schalnat, Group 42, Inc. |
| |
| Updated/rewritten per request in the libpng FAQ |
| Copyright (c) 1995, 1996 Frank J. T. Wojcik |
| December 18, 1995 & January 20, 1996 |
| |
| TABLE OF CONTENTS |
| |
| I. Introduction |
| II. Structures |
| III. Reading |
| IV. Writing |
| V. Simplified API |
| VI. Modifying/Customizing libpng |
| VII. MNG support |
| VIII. Changes to Libpng from version 0.88 |
| IX. Changes to Libpng from version 1.0.x to 1.2.x |
| X. Changes to Libpng from version 1.0.x/1.2.x to 1.4.x |
| XI. Changes to Libpng from version 1.4.x to 1.5.x |
| XII. Changes to Libpng from version 1.5.x to 1.6.x |
| XIII. Detecting libpng |
| XIV. Source code repository |
| XV. Coding style |
| |
| .SH I. Introduction |
| |
| This file describes how to use and modify the PNG reference library |
| (known as libpng) for your own use. In addition to this |
| file, example.c is a good starting point for using the library, as |
| it is heavily commented and should include everything most people |
| will need. We assume that libpng is already installed; see the |
| INSTALL file for instructions on how to configure and install libpng. |
| |
| For examples of libpng usage, see the files "example.c", "pngtest.c", |
| and the files in the "contrib" directory, all of which are included in |
| the libpng distribution. |
| |
| Libpng was written as a companion to the PNG specification, as a way |
| of reducing the amount of time and effort it takes to support the PNG |
| file format in application programs. |
| |
| The PNG specification (second edition), November 2003, is available as |
| a W3C Recommendation and as an ISO Standard (ISO/IEC 15948:2004 (E)) at |
| <https://www.w3.org/TR/2003/REC-PNG-20031110/ |
| The W3C and ISO documents have identical technical content. |
| |
| The PNG-1.2 specification is available at |
| <https://png-mng.sourceforge.io/pub/png/spec/1.2/>. |
| It is technically equivalent |
| to the PNG specification (second edition) but has some additional material. |
| |
| The PNG-1.0 specification is available as RFC 2083 |
| <https://png-mng.sourceforge.io/pub/png/spec/1.0/> and as a |
| W3C Recommendation <https://www.w3.org/TR/REC-png-961001>. |
| |
| Some additional chunks are described in the special-purpose public chunks |
| documents at <http://www.libpng.org/pub/png/spec/register/> |
| |
| Other information |
| about PNG, and the latest version of libpng, can be found at the PNG home |
| page, <http://www.libpng.org/pub/png/>. |
| |
| Most users will not have to modify the library significantly; advanced |
| users may want to modify it more. All attempts were made to make it as |
| complete as possible, while keeping the code easy to understand. |
| Currently, this library only supports C. Support for other languages |
| is being considered. |
| |
| Libpng has been designed to handle multiple sessions at one time, |
| to be easily modifiable, to be portable to the vast majority of |
| machines (ANSI, K&R, 16-, 32-, and 64-bit) available, and to be easy |
| to use. The ultimate goal of libpng is to promote the acceptance of |
| the PNG file format in whatever way possible. While there is still |
| work to be done (see the TODO file), libpng should cover the |
| majority of the needs of its users. |
| |
| Libpng uses zlib for its compression and decompression of PNG files. |
| Further information about zlib, and the latest version of zlib, can |
| be found at the zlib home page, <https://zlib.net/>. |
| The zlib compression utility is a general purpose utility that is |
| useful for more than PNG files, and can be used without libpng. |
| See the documentation delivered with zlib for more details. |
| You can usually find the source files for the zlib utility wherever you |
| find the libpng source files. |
| |
| Libpng is thread safe, provided the threads are using different |
| instances of the structures. Each thread should have its own |
| png_struct and png_info instances, and thus its own image. |
| Libpng does not protect itself against two threads using the |
| same instance of a structure. |
| |
| .SH II. Structures |
| |
| There are two main structures that are important to libpng, png_struct |
| and png_info. Both are internal structures that are no longer exposed |
| in the libpng interface (as of libpng 1.5.0). |
| |
| The png_info structure is designed to provide information about the |
| PNG file. At one time, the fields of png_info were intended to be |
| directly accessible to the user. However, this tended to cause problems |
| with applications using dynamically loaded libraries, and as a result |
| a set of interface functions for png_info (the png_get_*() and png_set_*() |
| functions) was developed, and direct access to the png_info fields was |
| deprecated.. |
| |
| The png_struct structure is the object used by the library to decode a |
| single image. As of 1.5.0 this structure is also not exposed. |
| |
| Almost all libpng APIs require a pointer to a png_struct as the first argument. |
| Many (in particular the png_set and png_get APIs) also require a pointer |
| to png_info as the second argument. Some application visible macros |
| defined in png.h designed for basic data access (reading and writing |
| integers in the PNG format) don't take a png_info pointer, but it's almost |
| always safe to assume that a (png_struct*) has to be passed to call an API |
| function. |
| |
| You can have more than one png_info structure associated with an image, |
| as illustrated in pngtest.c, one for information valid prior to the |
| IDAT chunks and another (called "end_info" below) for things after them. |
| |
| The png.h header file is an invaluable reference for programming with libpng. |
| And while I'm on the topic, make sure you include the libpng header file: |
| |
| #include <png.h> |
| |
| and also (as of libpng-1.5.0) the zlib header file, if you need it: |
| |
| #include <zlib.h> |
| |
| .SS Types |
| |
| The png.h header file defines a number of integral types used by the |
| APIs. Most of these are fairly obvious; for example types corresponding |
| to integers of particular sizes and types for passing color values. |
| |
| One exception is how non-integral numbers are handled. For application |
| convenience most APIs that take such numbers have C (double) arguments; |
| however, internally PNG, and libpng, use 32 bit signed integers and encode |
| the value by multiplying by 100,000. As of libpng 1.5.0 a convenience |
| macro PNG_FP_1 is defined in png.h along with a type (png_fixed_point) |
| which is simply (png_int_32). |
| |
| All APIs that take (double) arguments also have a matching API that |
| takes the corresponding fixed point integer arguments. The fixed point |
| API has the same name as the floating point one with "_fixed" appended. |
| The actual range of values permitted in the APIs is frequently less than |
| the full range of (png_fixed_point) (\-21474 to +21474). When APIs require |
| a non-negative argument the type is recorded as png_uint_32 above. Consult |
| the header file and the text below for more information. |
| |
| Special care must be take with sCAL chunk handling because the chunk itself |
| uses non-integral values encoded as strings containing decimal floating point |
| numbers. See the comments in the header file. |
| |
| .SS Configuration |
| |
| The main header file function declarations are frequently protected by C |
| preprocessing directives of the form: |
| |
| #ifdef PNG_feature_SUPPORTED |
| declare-function |
| #endif |
| ... |
| #ifdef PNG_feature_SUPPORTED |
| use-function |
| #endif |
| |
| The library can be built without support for these APIs, although a |
| standard build will have all implemented APIs. Application programs |
| should check the feature macros before using an API for maximum |
| portability. From libpng 1.5.0 the feature macros set during the build |
| of libpng are recorded in the header file "pnglibconf.h" and this file |
| is always included by png.h. |
| |
| If you don't need to change the library configuration from the default, skip to |
| the next section ("Reading"). |
| |
| Notice that some of the makefiles in the 'scripts' directory and (in 1.5.0) all |
| of the build project files in the 'projects' directory simply copy |
| scripts/pnglibconf.h.prebuilt to pnglibconf.h. This means that these build |
| systems do not permit easy auto-configuration of the library - they only |
| support the default configuration. |
| |
| The easiest way to make minor changes to the libpng configuration when |
| auto-configuration is supported is to add definitions to the command line |
| using (typically) CPPFLAGS. For example: |
| |
| CPPFLAGS=\-DPNG_NO_FLOATING_ARITHMETIC |
| |
| will change the internal libpng math implementation for gamma correction and |
| other arithmetic calculations to fixed point, avoiding the need for fast |
| floating point support. The result can be seen in the generated pnglibconf.h - |
| make sure it contains the changed feature macro setting. |
| |
| If you need to make more extensive configuration changes - more than one or two |
| feature macro settings - you can either add \-DPNG_USER_CONFIG to the build |
| command line and put a list of feature macro settings in pngusr.h or you can set |
| DFA_XTRA (a makefile variable) to a file containing the same information in the |
| form of 'option' settings. |
| |
| A. Changing pnglibconf.h |
| |
| A variety of methods exist to build libpng. Not all of these support |
| reconfiguration of pnglibconf.h. To reconfigure pnglibconf.h it must either be |
| rebuilt from scripts/pnglibconf.dfa using awk or it must be edited by hand. |
| |
| Hand editing is achieved by copying scripts/pnglibconf.h.prebuilt to |
| pnglibconf.h and changing the lines defining the supported features, paying |
| very close attention to the 'option' information in scripts/pnglibconf.dfa |
| that describes those features and their requirements. This is easy to get |
| wrong. |
| |
| B. Configuration using DFA_XTRA |
| |
| Rebuilding from pnglibconf.dfa is easy if a functioning 'awk', or a later |
| variant such as 'nawk' or 'gawk', is available. The configure build will |
| automatically find an appropriate awk and build pnglibconf.h. |
| The scripts/pnglibconf.mak file contains a set of make rules for doing the |
| same thing if configure is not used, and many of the makefiles in the scripts |
| directory use this approach. |
| |
| When rebuilding simply write a new file containing changed options and set |
| DFA_XTRA to the name of this file. This causes the build to append the new file |
| to the end of scripts/pnglibconf.dfa. The pngusr.dfa file should contain lines |
| of the following forms: |
| |
| everything = off |
| |
| This turns all optional features off. Include it at the start of pngusr.dfa to |
| make it easier to build a minimal configuration. You will need to turn at least |
| some features on afterward to enable either reading or writing code, or both. |
| |
| option feature on |
| option feature off |
| |
| Enable or disable a single feature. This will automatically enable other |
| features required by a feature that is turned on or disable other features that |
| require a feature which is turned off. Conflicting settings will cause an error |
| message to be emitted by awk. |
| |
| setting feature default value |
| |
| Changes the default value of setting 'feature' to 'value'. There are a small |
| number of settings listed at the top of pnglibconf.h, they are documented in the |
| source code. Most of these values have performance implications for the library |
| but most of them have no visible effect on the API. Some can also be overridden |
| from the API. |
| |
| This method of building a customized pnglibconf.h is illustrated in |
| contrib/pngminim/*. See the "$(PNGCONF):" target in the makefile and |
| pngusr.dfa in these directories. |
| |
| C. Configuration using PNG_USER_CONFIG |
| |
| If \-DPNG_USER_CONFIG is added to the CPPFLAGS when pnglibconf.h is built, |
| the file pngusr.h will automatically be included before the options in |
| scripts/pnglibconf.dfa are processed. Your pngusr.h file should contain only |
| macro definitions turning features on or off or setting settings. |
| |
| Apart from the global setting "everything = off" all the options listed above |
| can be set using macros in pngusr.h: |
| |
| #define PNG_feature_SUPPORTED |
| |
| is equivalent to: |
| |
| option feature on |
| |
| #define PNG_NO_feature |
| |
| is equivalent to: |
| |
| option feature off |
| |
| #define PNG_feature value |
| |
| is equivalent to: |
| |
| setting feature default value |
| |
| Notice that in both cases, pngusr.dfa and pngusr.h, the contents of the |
| pngusr file you supply override the contents of scripts/pnglibconf.dfa |
| |
| If confusing or incomprehensible behavior results it is possible to |
| examine the intermediate file pnglibconf.dfn to find the full set of |
| dependency information for each setting and option. Simply locate the |
| feature in the file and read the C comments that precede it. |
| |
| This method is also illustrated in the contrib/pngminim/* makefiles and |
| pngusr.h. |
| |
| .SH III. Reading |
| |
| We'll now walk you through the possible functions to call when reading |
| in a PNG file sequentially, briefly explaining the syntax and purpose |
| of each one. See example.c and png.h for more detail. While |
| progressive reading is covered in the next section, you will still |
| need some of the functions discussed in this section to read a PNG |
| file. |
| |
| .SS Setup |
| |
| You will want to do the I/O initialization(*) before you get into libpng, |
| so if it doesn't work, you don't have much to undo. Of course, you |
| will also want to insure that you are, in fact, dealing with a PNG |
| file. Libpng provides a simple check to see if a file is a PNG file. |
| To use it, pass in the first 1 to 8 bytes of the file to the function |
| png_sig_cmp(), and it will return 0 (false) if the bytes match the |
| corresponding bytes of the PNG signature, or nonzero (true) otherwise. |
| Of course, the more bytes you pass in, the greater the accuracy of the |
| prediction. |
| |
| If you are intending to keep the file pointer open for use in libpng, |
| you must ensure you don't read more than 8 bytes from the beginning |
| of the file, and you also have to make a call to png_set_sig_bytes() |
| with the number of bytes you read from the beginning. Libpng will |
| then only check the bytes (if any) that your program didn't read. |
| |
| (*): If you are not using the standard I/O functions, you will need |
| to replace them with custom functions. See the discussion under |
| Customizing libpng. |
| |
| FILE *fp = fopen(file_name, "rb"); |
| if (!fp) |
| { |
| return ERROR; |
| } |
| |
| if (fread(header, 1, number, fp) != number) |
| { |
| return ERROR; |
| } |
| |
| is_png = !png_sig_cmp(header, 0, number); |
| if (!is_png) |
| { |
| return NOT_PNG; |
| } |
| |
| Next, png_struct and png_info need to be allocated and initialized. In |
| order to ensure that the size of these structures is correct even with a |
| dynamically linked libpng, there are functions to initialize and |
| allocate the structures. We also pass the library version, optional |
| pointers to error handling functions, and a pointer to a data struct for |
| use by the error functions, if necessary (the pointer and functions can |
| be NULL if the default error handlers are to be used). See the section |
| on Changes to Libpng below regarding the old initialization functions. |
| The structure allocation functions quietly return NULL if they fail to |
| create the structure, so your application should check for that. |
| |
| png_structp png_ptr = png_create_read_struct |
| (PNG_LIBPNG_VER_STRING, (png_voidp)user_error_ptr, |
| user_error_fn, user_warning_fn); |
| |
| if (!png_ptr) |
| return ERROR; |
| |
| png_infop info_ptr = png_create_info_struct(png_ptr); |
| |
| if (!info_ptr) |
| { |
| png_destroy_read_struct(&png_ptr, |
| (png_infopp)NULL, (png_infopp)NULL); |
| return ERROR; |
| } |
| |
| If you want to use your own memory allocation routines, |
| use a libpng that was built with PNG_USER_MEM_SUPPORTED defined, and use |
| png_create_read_struct_2() instead of png_create_read_struct(): |
| |
| png_structp png_ptr = png_create_read_struct_2 |
| (PNG_LIBPNG_VER_STRING, (png_voidp)user_error_ptr, |
| user_error_fn, user_warning_fn, (png_voidp) |
| user_mem_ptr, user_malloc_fn, user_free_fn); |
| |
| The error handling routines passed to png_create_read_struct() |
| and the memory alloc/free routines passed to png_create_struct_2() |
| are only necessary if you are not using the libpng supplied error |
| handling and memory alloc/free functions. |
| |
| When libpng encounters an error, it expects to longjmp back |
| to your routine. Therefore, you will need to call setjmp and pass |
| your png_jmpbuf(png_ptr). If you read the file from different |
| routines, you will need to update the longjmp buffer every time you enter |
| a new routine that will call a png_*() function. |
| |
| See your documentation of setjmp/longjmp for your compiler for more |
| information on setjmp/longjmp. See the discussion on libpng error |
| handling in the Customizing Libpng section below for more information |
| on the libpng error handling. If an error occurs, and libpng longjmp's |
| back to your setjmp, you will want to call png_destroy_read_struct() to |
| free any memory. |
| |
| if (setjmp(png_jmpbuf(png_ptr))) |
| { |
| png_destroy_read_struct(&png_ptr, &info_ptr, |
| &end_info); |
| fclose(fp); |
| return ERROR; |
| } |
| |
| Pass (png_infopp)NULL instead of &end_info if you didn't create |
| an end_info structure. |
| |
| If you would rather avoid the complexity of setjmp/longjmp issues, |
| you can compile libpng with PNG_NO_SETJMP, in which case |
| errors will result in a call to PNG_ABORT() which defaults to abort(). |
| |
| You can #define PNG_ABORT() to a function that does something |
| more useful than abort(), as long as your function does not |
| return. |
| |
| Now you need to set up the input code. The default for libpng is to |
| use the C function fread(). If you use this, you will need to pass a |
| valid FILE * in the function png_init_io(). Be sure that the file is |
| opened in binary mode. If you wish to handle reading data in another |
| way, you need not call the png_init_io() function, but you must then |
| implement the libpng I/O methods discussed in the Customizing Libpng |
| section below. |
| |
| png_init_io(png_ptr, fp); |
| |
| If you had previously opened the file and read any of the signature from |
| the beginning in order to see if this was a PNG file, you need to let |
| libpng know that there are some bytes missing from the start of the file. |
| |
| png_set_sig_bytes(png_ptr, number); |
| |
| You can change the zlib compression buffer size to be used while |
| reading compressed data with |
| |
| png_set_compression_buffer_size(png_ptr, buffer_size); |
| |
| where the default size is 8192 bytes. Note that the buffer size |
| is changed immediately and the buffer is reallocated immediately, |
| instead of setting a flag to be acted upon later. |
| |
| If you want CRC errors to be handled in a different manner than |
| the default, use |
| |
| png_set_crc_action(png_ptr, crit_action, ancil_action); |
| |
| The values for png_set_crc_action() say how libpng is to handle CRC errors in |
| ancillary and critical chunks, and whether to use the data contained |
| therein. Starting with libpng-1.6.26, this also governs how an ADLER32 error |
| is handled while reading the IDAT chunk. Note that it is impossible to |
| "discard" data in a critical chunk. |
| |
| Choices for (int) crit_action are |
| PNG_CRC_DEFAULT 0 error/quit |
| PNG_CRC_ERROR_QUIT 1 error/quit |
| PNG_CRC_WARN_USE 3 warn/use data |
| PNG_CRC_QUIET_USE 4 quiet/use data |
| PNG_CRC_NO_CHANGE 5 use the current value |
| |
| Choices for (int) ancil_action are |
| PNG_CRC_DEFAULT 0 error/quit |
| PNG_CRC_ERROR_QUIT 1 error/quit |
| PNG_CRC_WARN_DISCARD 2 warn/discard data |
| PNG_CRC_WARN_USE 3 warn/use data |
| PNG_CRC_QUIET_USE 4 quiet/use data |
| PNG_CRC_NO_CHANGE 5 use the current value |
| |
| When the setting for crit_action is PNG_CRC_QUIET_USE, the CRC and ADLER32 |
| checksums are not only ignored, but they are not evaluated. |
| |
| .SS Setting up callback code |
| |
| You can set up a callback function to handle any unknown chunks in the |
| input stream. You must supply the function |
| |
| read_chunk_callback(png_structp png_ptr, |
| png_unknown_chunkp chunk); |
| { |
| /* The unknown chunk structure contains your |
| chunk data, along with similar data for any other |
| unknown chunks: */ |
| |
| png_byte name[5]; |
| png_byte *data; |
| size_t size; |
| |
| /* Note that libpng has already taken care of |
| the CRC handling */ |
| |
| /* put your code here. Search for your chunk in the |
| unknown chunk structure, process it, and return one |
| of the following: */ |
| |
| return \-n; /* chunk had an error */ |
| return 0; /* did not recognize */ |
| return n; /* success */ |
| } |
| |
| (You can give your function another name that you like instead of |
| "read_chunk_callback") |
| |
| To inform libpng about your function, use |
| |
| png_set_read_user_chunk_fn(png_ptr, user_chunk_ptr, |
| read_chunk_callback); |
| |
| This names not only the callback function, but also a user pointer that |
| you can retrieve with |
| |
| png_get_user_chunk_ptr(png_ptr); |
| |
| If you call the png_set_read_user_chunk_fn() function, then all unknown |
| chunks which the callback does not handle will be saved when read. You can |
| cause them to be discarded by returning '1' ("handled") instead of '0'. This |
| behavior will change in libpng 1.7 and the default handling set by the |
| png_set_keep_unknown_chunks() function, described below, will be used when the |
| callback returns 0. If you want the existing behavior you should set the global |
| default to PNG_HANDLE_CHUNK_IF_SAFE now; this is compatible with all current |
| versions of libpng and with 1.7. Libpng 1.6 issues a warning if you keep the |
| default, or PNG_HANDLE_CHUNK_NEVER, and the callback returns 0. |
| |
| At this point, you can set up a callback function that will be |
| called after each row has been read, which you can use to control |
| a progress meter or the like. It's demonstrated in pngtest.c. |
| You must supply a function |
| |
| void read_row_callback(png_structp png_ptr, |
| png_uint_32 row, int pass); |
| { |
| /* put your code here */ |
| } |
| |
| (You can give it another name that you like instead of "read_row_callback") |
| |
| To inform libpng about your function, use |
| |
| png_set_read_status_fn(png_ptr, read_row_callback); |
| |
| When this function is called the row has already been completely processed and |
| the 'row' and 'pass' refer to the next row to be handled. For the |
| non-interlaced case the row that was just handled is simply one less than the |
| passed in row number, and pass will always be 0. For the interlaced case the |
| same applies unless the row value is 0, in which case the row just handled was |
| the last one from one of the preceding passes. Because interlacing may skip a |
| pass you cannot be sure that the preceding pass is just 'pass\-1'; if you really |
| need to know what the last pass is record (row,pass) from the callback and use |
| the last recorded value each time. |
| |
| As with the user transform you can find the output row using the |
| PNG_ROW_FROM_PASS_ROW macro. |
| |
| .SS Unknown-chunk handling |
| |
| Now you get to set the way the library processes unknown chunks in the |
| input PNG stream. Both known and unknown chunks will be read. Normal |
| behavior is that known chunks will be parsed into information in |
| various info_ptr members while unknown chunks will be discarded. This |
| behavior can be wasteful if your application will never use some known |
| chunk types. To change this, you can call: |
| |
| png_set_keep_unknown_chunks(png_ptr, keep, |
| chunk_list, num_chunks); |
| |
| keep - 0: default unknown chunk handling |
| 1: ignore; do not keep |
| 2: keep only if safe-to-copy |
| 3: keep even if unsafe-to-copy |
| |
| You can use these definitions: |
| PNG_HANDLE_CHUNK_AS_DEFAULT 0 |
| PNG_HANDLE_CHUNK_NEVER 1 |
| PNG_HANDLE_CHUNK_IF_SAFE 2 |
| PNG_HANDLE_CHUNK_ALWAYS 3 |
| |
| chunk_list - list of chunks affected (a byte string, |
| five bytes per chunk, NULL or '\0' if |
| num_chunks is positive; ignored if |
| numchunks <= 0). |
| |
| num_chunks - number of chunks affected; if 0, all |
| unknown chunks are affected. If positive, |
| only the chunks in the list are affected, |
| and if negative all unknown chunks and |
| all known chunks except for the IHDR, |
| PLTE, tRNS, IDAT, and IEND chunks are |
| affected. |
| |
| Unknown chunks declared in this way will be saved as raw data onto a |
| list of png_unknown_chunk structures. If a chunk that is normally |
| known to libpng is named in the list, it will be handled as unknown, |
| according to the "keep" directive. If a chunk is named in successive |
| instances of png_set_keep_unknown_chunks(), the final instance will |
| take precedence. The IHDR and IEND chunks should not be named in |
| chunk_list; if they are, libpng will process them normally anyway. |
| If you know that your application will never make use of some particular |
| chunks, use PNG_HANDLE_CHUNK_NEVER (or 1) as demonstrated below. |
| |
| Here is an example of the usage of png_set_keep_unknown_chunks(), |
| where the private "vpAg" chunk will later be processed by a user chunk |
| callback function: |
| |
| png_byte vpAg[5]={118, 112, 65, 103, (png_byte) '\0'}; |
| |
| #if defined(PNG_UNKNOWN_CHUNKS_SUPPORTED) |
| png_byte unused_chunks[]= |
| { |
| 104, 73, 83, 84, (png_byte) '\0', /* hIST */ |
| 105, 84, 88, 116, (png_byte) '\0', /* iTXt */ |
| 112, 67, 65, 76, (png_byte) '\0', /* pCAL */ |
| 115, 67, 65, 76, (png_byte) '\0', /* sCAL */ |
| 115, 80, 76, 84, (png_byte) '\0', /* sPLT */ |
| 116, 73, 77, 69, (png_byte) '\0', /* tIME */ |
| }; |
| #endif |
| |
| ... |
| |
| #if defined(PNG_UNKNOWN_CHUNKS_SUPPORTED) |
| /* ignore all unknown chunks |
| * (use global setting "2" for libpng16 and earlier): |
| */ |
| png_set_keep_unknown_chunks(read_ptr, 2, NULL, 0); |
| |
| /* except for vpAg: */ |
| png_set_keep_unknown_chunks(read_ptr, 2, vpAg, 1); |
| |
| /* also ignore unused known chunks: */ |
| png_set_keep_unknown_chunks(read_ptr, 1, unused_chunks, |
| (int)(sizeof unused_chunks)/5); |
| #endif |
| |
| .SS User limits |
| |
| The PNG specification allows the width and height of an image to be as |
| large as 2^(31\-1 (0x7fffffff), or about 2.147 billion rows and columns. |
| For safety, libpng imposes a default limit of 1 million rows and columns. |
| Larger images will be rejected immediately with a png_error() call. If |
| you wish to change these limits, you can use |
| |
| png_set_user_limits(png_ptr, width_max, height_max); |
| |
| to set your own limits (libpng may reject some very wide images |
| anyway because of potential buffer overflow conditions). |
| |
| You should put this statement after you create the PNG structure and |
| before calling png_read_info(), png_read_png(), or png_process_data(). |
| |
| When writing a PNG datastream, put this statement before calling |
| png_write_info() or png_write_png(). |
| |
| If you need to retrieve the limits that are being applied, use |
| |
| width_max = png_get_user_width_max(png_ptr); |
| height_max = png_get_user_height_max(png_ptr); |
| |
| The PNG specification sets no limit on the number of ancillary chunks |
| allowed in a PNG datastream. By default, libpng imposes a limit of |
| a total of 1000 sPLT, tEXt, iTXt, zTXt, and unknown chunks to be stored. |
| If you have set up both info_ptr and end_info_ptr, the limit applies |
| separately to each. You can change the limit on the total number of such |
| chunks that will be stored, with |
| |
| png_set_chunk_cache_max(png_ptr, user_chunk_cache_max); |
| |
| where 0x7fffffffL means unlimited. You can retrieve this limit with |
| |
| chunk_cache_max = png_get_chunk_cache_max(png_ptr); |
| |
| Libpng imposes a limit of 8 Megabytes (8,000,000 bytes) on the amount of |
| memory that any chunk other than IDAT can occupy, originally or when |
| decompressed (prior to libpng-1.6.32 the limit was only applied to compressed |
| chunks after decompression). You can change this limit with |
| |
| png_set_chunk_malloc_max(png_ptr, user_chunk_malloc_max); |
| |
| and you can retrieve the limit with |
| |
| chunk_malloc_max = png_get_chunk_malloc_max(png_ptr); |
| |
| Any chunks that would cause either of these limits to be exceeded will |
| be ignored. |
| |
| .SS Information about your system |
| |
| If you intend to display the PNG or to incorporate it in other image data you |
| need to tell libpng information about your display or drawing surface so that |
| libpng can convert the values in the image to match the display. |
| |
| From libpng-1.5.4 this information can be set before reading the PNG file |
| header. In earlier versions png_set_gamma() existed but behaved incorrectly if |
| called before the PNG file header had been read and png_set_alpha_mode() did not |
| exist. |
| |
| If you need to support versions prior to libpng-1.5.4 test the version number |
| as illustrated below using "PNG_LIBPNG_VER >= 10504" and follow the procedures |
| described in the appropriate manual page. |
| |
| You give libpng the encoding expected by your system expressed as a 'gamma' |
| value. You can also specify a default encoding for the PNG file in |
| case the required information is missing from the file. By default libpng |
| assumes that the PNG data matches your system, to keep this default call: |
| |
| png_set_gamma(png_ptr, screen_gamma, output_gamma); |
| |
| or you can use the fixed point equivalent: |
| |
| png_set_gamma_fixed(png_ptr, PNG_FP_1*screen_gamma, |
| PNG_FP_1*output_gamma); |
| |
| If you don't know the gamma for your system it is probably 2.2 - a good |
| approximation to the IEC standard for display systems (sRGB). If images are |
| too contrasty or washed out you got the value wrong - check your system |
| documentation! |
| |
| Many systems permit the system gamma to be changed via a lookup table in the |
| display driver, a few systems, including older Macs, change the response by |
| default. As of 1.5.4 three special values are available to handle common |
| situations: |
| |
| PNG_DEFAULT_sRGB: Indicates that the system conforms to the |
| IEC 61966-2-1 standard. This matches almost |
| all systems. |
| PNG_GAMMA_MAC_18: Indicates that the system is an older |
| (pre Mac OS 10.6) Apple Macintosh system with |
| the default settings. |
| PNG_GAMMA_LINEAR: Just the fixed point value for 1.0 - indicates |
| that the system expects data with no gamma |
| encoding. |
| |
| You would use the linear (unencoded) value if you need to process the pixel |
| values further because this avoids the need to decode and re-encode each |
| component value whenever arithmetic is performed. A lot of graphics software |
| uses linear values for this reason, often with higher precision component values |
| to preserve overall accuracy. |
| |
| |
| The output_gamma value expresses how to decode the output values, not how |
| they are encoded. The values used correspond to the normal numbers used to |
| describe the overall gamma of a computer display system; for example 2.2 for |
| an sRGB conformant system. The values are scaled by 100000 in the _fixed |
| version of the API (so 220000 for sRGB.) |
| |
| The inverse of the value is always used to provide a default for the PNG file |
| encoding if it has no gAMA chunk and if png_set_gamma() has not been called |
| to override the PNG gamma information. |
| |
| When the ALPHA_OPTIMIZED mode is selected the output gamma is used to encode |
| opaque pixels however pixels with lower alpha values are not encoded, |
| regardless of the output gamma setting. |
| |
| When the standard Porter Duff handling is requested with mode 1 the output |
| encoding is set to be linear and the output_gamma value is only relevant |
| as a default for input data that has no gamma information. The linear output |
| encoding will be overridden if png_set_gamma() is called - the results may be |
| highly unexpected! |
| |
| The following numbers are derived from the sRGB standard and the research |
| behind it. sRGB is defined to be approximated by a PNG gAMA chunk value of |
| 0.45455 (1/2.2) for PNG. The value implicitly includes any viewing |
| correction required to take account of any differences in the color |
| environment of the original scene and the intended display environment; the |
| value expresses how to *decode* the image for display, not how the original |
| data was *encoded*. |
| |
| sRGB provides a peg for the PNG standard by defining a viewing environment. |
| sRGB itself, and earlier TV standards, actually use a more complex transform |
| (a linear portion then a gamma 2.4 power law) than PNG can express. (PNG is |
| limited to simple power laws.) By saying that an image for direct display on |
| an sRGB conformant system should be stored with a gAMA chunk value of 45455 |
| (11.3.3.2 and 11.3.3.5 of the ISO PNG specification) the PNG specification |
| makes it possible to derive values for other display systems and |
| environments. |
| |
| The Mac value is deduced from the sRGB based on an assumption that the actual |
| extra viewing correction used in early Mac display systems was implemented as |
| a power 1.45 lookup table. |
| |
| Any system where a programmable lookup table is used or where the behavior of |
| the final display device characteristics can be changed requires system |
| specific code to obtain the current characteristic. However this can be |
| difficult and most PNG gamma correction only requires an approximate value. |
| |
| By default, if png_set_alpha_mode() is not called, libpng assumes that all |
| values are unencoded, linear, values and that the output device also has a |
| linear characteristic. This is only very rarely correct - it is invariably |
| better to call png_set_alpha_mode() with PNG_DEFAULT_sRGB than rely on the |
| default if you don't know what the right answer is! |
| |
| The special value PNG_GAMMA_MAC_18 indicates an older Mac system (pre Mac OS |
| 10.6) which used a correction table to implement a somewhat lower gamma on an |
| otherwise sRGB system. |
| |
| Both these values are reserved (not simple gamma values) in order to allow |
| more precise correction internally in the future. |
| |
| NOTE: the values can be passed to either the fixed or floating |
| point APIs, but the floating point API will also accept floating point |
| values. |
| |
| The second thing you may need to tell libpng about is how your system handles |
| alpha channel information. Some, but not all, PNG files contain an alpha |
| channel. To display these files correctly you need to compose the data onto a |
| suitable background, as described in the PNG specification. |
| |
| Libpng only supports composing onto a single color (using png_set_background; |
| see below). Otherwise you must do the composition yourself and, in this case, |
| you may need to call png_set_alpha_mode: |
| |
| #if PNG_LIBPNG_VER >= 10504 |
| png_set_alpha_mode(png_ptr, mode, screen_gamma); |
| #else |
| png_set_gamma(png_ptr, screen_gamma, 1.0/screen_gamma); |
| #endif |
| |
| The screen_gamma value is the same as the argument to png_set_gamma; however, |
| how it affects the output depends on the mode. png_set_alpha_mode() sets the |
| file gamma default to 1/screen_gamma, so normally you don't need to call |
| png_set_gamma. If you need different defaults call png_set_gamma() before |
| png_set_alpha_mode() - if you call it after it will override the settings made |
| by png_set_alpha_mode(). |
| |
| The mode is as follows: |
| |
| PNG_ALPHA_PNG: The data is encoded according to the PNG |
| specification. Red, green and blue, or gray, components are |
| gamma encoded color values and are not premultiplied by the |
| alpha value. The alpha value is a linear measure of the |
| contribution of the pixel to the corresponding final output pixel. |
| |
| You should normally use this format if you intend to perform |
| color correction on the color values; most, maybe all, color |
| correction software has no handling for the alpha channel and, |
| anyway, the math to handle pre-multiplied component values is |
| unnecessarily complex. |
| |
| Before you do any arithmetic on the component values you need |
| to remove the gamma encoding and multiply out the alpha |
| channel. See the PNG specification for more detail. It is |
| important to note that when an image with an alpha channel is |
| scaled, linear encoded, pre-multiplied component values must |
| be used! |
| |
| The remaining modes assume you don't need to do any further color correction or |
| that if you do, your color correction software knows all about alpha (it |
| probably doesn't!). They 'associate' the alpha with the color information by |
| storing color channel values that have been scaled by the alpha. The |
| advantage is that the color channels can be resampled (the image can be |
| scaled) in this form. The disadvantage is that normal practice is to store |
| linear, not (gamma) encoded, values and this requires 16-bit channels for |
| still images rather than the 8-bit channels that are just about sufficient if |
| gamma encoding is used. In addition all non-transparent pixel values, |
| including completely opaque ones, must be gamma encoded to produce the final |
| image. These are the 'STANDARD', 'ASSOCIATED' or 'PREMULTIPLIED' modes |
| described below (the latter being the two common names for associated alpha |
| color channels). Note that PNG files always contain non-associated color |
| channels; png_set_alpha_mode() with one of the modes causes the decoder to |
| convert the pixels to an associated form before returning them to your |
| application. |
| |
| Since it is not necessary to perform arithmetic on opaque color values so |
| long as they are not to be resampled and are in the final color space it is |
| possible to optimize the handling of alpha by storing the opaque pixels in |
| the PNG format (adjusted for the output color space) while storing partially |
| opaque pixels in the standard, linear, format. The accuracy required for |
| standard alpha composition is relatively low, because the pixels are |
| isolated, therefore typically the accuracy loss in storing 8-bit linear |
| values is acceptable. (This is not true if the alpha channel is used to |
| simulate transparency over large areas - use 16 bits or the PNG mode in |
| this case!) This is the 'OPTIMIZED' mode. For this mode a pixel is |
| treated as opaque only if the alpha value is equal to the maximum value. |
| |
| PNG_ALPHA_STANDARD: The data libpng produces is encoded in the |
| standard way assumed by most correctly written graphics software. |
| The gamma encoding will be removed by libpng and the |
| linear component values will be pre-multiplied by the |
| alpha channel. |
| |
| With this format the final image must be re-encoded to |
| match the display gamma before the image is displayed. |
| If your system doesn't do that, yet still seems to |
| perform arithmetic on the pixels without decoding them, |
| it is broken - check out the modes below. |
| |
| With PNG_ALPHA_STANDARD libpng always produces linear |
| component values, whatever screen_gamma you supply. The |
| screen_gamma value is, however, used as a default for |
| the file gamma if the PNG file has no gamma information. |
| |
| If you call png_set_gamma() after png_set_alpha_mode() you |
| will override the linear encoding. Instead the |
| pre-multiplied pixel values will be gamma encoded but |
| the alpha channel will still be linear. This may |
| actually match the requirements of some broken software, |
| but it is unlikely. |
| |
| While linear 8-bit data is often used it has |
| insufficient precision for any image with a reasonable |
| dynamic range. To avoid problems, and if your software |
| supports it, use png_set_expand_16() to force all |
| components to 16 bits. |
| |
| PNG_ALPHA_OPTIMIZED: This mode is the same as PNG_ALPHA_STANDARD |
| except that completely opaque pixels are gamma encoded according to |
| the screen_gamma value. Pixels with alpha less than 1.0 |
| will still have linear components. |
| |
| Use this format if you have control over your |
| compositing software and so don't do other arithmetic |
| (such as scaling) on the data you get from libpng. Your |
| compositing software can simply copy opaque pixels to |
| the output but still has linear values for the |
| non-opaque pixels. |
| |
| In normal compositing, where the alpha channel encodes |
| partial pixel coverage (as opposed to broad area |
| translucency), the inaccuracies of the 8-bit |
| representation of non-opaque pixels are irrelevant. |
| |
| You can also try this format if your software is broken; |
| it might look better. |
| |
| PNG_ALPHA_BROKEN: This is PNG_ALPHA_STANDARD; however, all component |
| values, including the alpha channel are gamma encoded. This is |
| broken because, in practice, no implementation that uses this choice |
| correctly undoes the encoding before handling alpha composition. Use this |
| choice only if other serious errors in the software or hardware you use |
| mandate it. In most cases of broken software or hardware the bug in the |
| final display manifests as a subtle halo around composited parts of the |
| image. You may not even perceive this as a halo; the composited part of |
| the image may simply appear separate from the background, as though it had |
| been cut out of paper and pasted on afterward. |
| |
| If you don't have to deal with bugs in software or hardware, or if you can fix |
| them, there are three recommended ways of using png_set_alpha_mode(): |
| |
| png_set_alpha_mode(png_ptr, PNG_ALPHA_PNG, |
| screen_gamma); |
| |
| You can do color correction on the result (libpng does not currently |
| support color correction internally). When you handle the alpha channel |
| you need to undo the gamma encoding and multiply out the alpha. |
| |
| png_set_alpha_mode(png_ptr, PNG_ALPHA_STANDARD, |
| screen_gamma); |
| png_set_expand_16(png_ptr); |
| |
| If you are using the high level interface, don't call png_set_expand_16(); |
| instead pass PNG_TRANSFORM_EXPAND_16 to the interface. |
| |
| With this mode you can't do color correction, but you can do arithmetic, |
| including composition and scaling, on the data without further processing. |
| |
| png_set_alpha_mode(png_ptr, PNG_ALPHA_OPTIMIZED, |
| screen_gamma); |
| |
| You can avoid the expansion to 16-bit components with this mode, but you |
| lose the ability to scale the image or perform other linear arithmetic. |
| All you can do is compose the result onto a matching output. Since this |
| mode is libpng-specific you also need to write your own composition |
| software. |
| |
| The following are examples of calls to png_set_alpha_mode to achieve the |
| required overall gamma correction and, where necessary, alpha |
| premultiplication. |
| |
| png_set_alpha_mode(pp, PNG_ALPHA_PNG, PNG_DEFAULT_sRGB); |
| |
| Choices for the alpha_mode are |
| |
| PNG_ALPHA_PNG 0 /* according to the PNG standard */ |
| PNG_ALPHA_STANDARD 1 /* according to Porter/Duff */ |
| PNG_ALPHA_ASSOCIATED 1 /* as above; this is the normal practice */ |
| PNG_ALPHA_PREMULTIPLIED 1 /* as above */ |
| PNG_ALPHA_OPTIMIZED 2 /* 'PNG' for opaque pixels, else 'STANDARD' */ |
| PNG_ALPHA_BROKEN 3 /* the alpha channel is gamma encoded */ |
| |
| PNG_ALPHA_PNG is the default libpng handling of the alpha channel. It is not |
| pre-multiplied into the color components. In addition the call states |
| that the output is for a sRGB system and causes all PNG files without gAMA |
| chunks to be assumed to be encoded using sRGB. |
| |
| png_set_alpha_mode(pp, PNG_ALPHA_PNG, PNG_GAMMA_MAC); |
| |
| In this case the output is assumed to be something like an sRGB conformant |
| display preceded by a power-law lookup table of power 1.45. This is how |
| early Mac systems behaved. |
| |
| png_set_alpha_mode(pp, PNG_ALPHA_STANDARD, PNG_GAMMA_LINEAR); |
| |
| This is the classic Jim Blinn approach and will work in academic |
| environments where everything is done by the book. It has the shortcoming |
| of assuming that input PNG data with no gamma information is linear - this |
| is unlikely to be correct unless the PNG files were generated locally. |
| Most of the time the output precision will be so low as to show |
| significant banding in dark areas of the image. |
| |
| png_set_expand_16(pp); |
| png_set_alpha_mode(pp, PNG_ALPHA_STANDARD, PNG_DEFAULT_sRGB); |
| |
| This is a somewhat more realistic Jim Blinn inspired approach. PNG files |
| are assumed to have the sRGB encoding if not marked with a gamma value and |
| the output is always 16 bits per component. This permits accurate scaling |
| and processing of the data. If you know that your input PNG files were |
| generated locally you might need to replace PNG_DEFAULT_sRGB with the |
| correct value for your system. |
| |
| png_set_alpha_mode(pp, PNG_ALPHA_OPTIMIZED, PNG_DEFAULT_sRGB); |
| |
| If you just need to composite the PNG image onto an existing background |
| and if you control the code that does this you can use the optimization |
| setting. In this case you just copy completely opaque pixels to the |
| output. For pixels that are not completely transparent (you just skip |
| those) you do the composition math using png_composite or png_composite_16 |
| below then encode the resultant 8-bit or 16-bit values to match the output |
| encoding. |
| |
| Other cases |
| |
| If neither the PNG nor the standard linear encoding work for you because |
| of the software or hardware you use then you have a big problem. The PNG |
| case will probably result in halos around the image. The linear encoding |
| will probably result in a washed out, too bright, image (it's actually too |
| contrasty.) Try the ALPHA_OPTIMIZED mode above - this will probably |
| substantially reduce the halos. Alternatively try: |
| |
| png_set_alpha_mode(pp, PNG_ALPHA_BROKEN, PNG_DEFAULT_sRGB); |
| |
| This option will also reduce the halos, but there will be slight dark |
| halos round the opaque parts of the image where the background is light. |
| In the OPTIMIZED mode the halos will be light halos where the background |
| is dark. Take your pick - the halos are unavoidable unless you can get |
| your hardware/software fixed! (The OPTIMIZED approach is slightly |
| faster.) |
| |
| When the default gamma of PNG files doesn't match the output gamma. |
| If you have PNG files with no gamma information png_set_alpha_mode allows |
| you to provide a default gamma, but it also sets the output gamma to the |
| matching value. If you know your PNG files have a gamma that doesn't |
| match the output you can take advantage of the fact that |
| png_set_alpha_mode always sets the output gamma but only sets the PNG |
| default if it is not already set: |
| |
| png_set_alpha_mode(pp, PNG_ALPHA_PNG, PNG_DEFAULT_sRGB); |
| png_set_alpha_mode(pp, PNG_ALPHA_PNG, PNG_GAMMA_MAC); |
| |
| The first call sets both the default and the output gamma values, the |
| second call overrides the output gamma without changing the default. This |
| is easier than achieving the same effect with png_set_gamma. You must use |
| PNG_ALPHA_PNG for the first call - internal checking in png_set_alpha will |
| fire if more than one call to png_set_alpha_mode and png_set_background is |
| made in the same read operation, however multiple calls with PNG_ALPHA_PNG |
| are ignored. |
| |
| If you don't need, or can't handle, the alpha channel you can call |
| png_set_background() to remove it by compositing against a fixed color. Don't |
| call png_set_strip_alpha() to do this - it will leave spurious pixel values in |
| transparent parts of this image. |
| |
| png_set_background(png_ptr, &background_color, |
| PNG_BACKGROUND_GAMMA_SCREEN, 0, 1); |
| |
| The background_color is an RGB or grayscale value according to the data format |
| libpng will produce for you. Because you don't yet know the format of the PNG |
| file, if you call png_set_background at this point you must arrange for the |
| format produced by libpng to always have 8-bit or 16-bit components and then |
| store the color as an 8-bit or 16-bit color as appropriate. The color contains |
| separate gray and RGB component values, so you can let libpng produce gray or |
| RGB output according to the input format, but low bit depth grayscale images |
| must always be converted to at least 8-bit format. (Even though low bit depth |
| grayscale images can't have an alpha channel they can have a transparent |
| color!) |
| |
| You set the transforms you need later, either as flags to the high level |
| interface or libpng API calls for the low level interface. For reference the |
| settings and API calls required are: |
| |
| 8-bit values: |
| PNG_TRANSFORM_SCALE_16 | PNG_EXPAND |
| png_set_expand(png_ptr); png_set_scale_16(png_ptr); |
| |
| If you must get exactly the same inaccurate results |
| produced by default in versions prior to libpng-1.5.4, |
| use PNG_TRANSFORM_STRIP_16 and png_set_strip_16(png_ptr) |
| instead. |
| |
| 16-bit values: |
| PNG_TRANSFORM_EXPAND_16 |
| png_set_expand_16(png_ptr); |
| |
| In either case palette image data will be expanded to RGB. If you just want |
| color data you can add PNG_TRANSFORM_GRAY_TO_RGB or png_set_gray_to_rgb(png_ptr) |
| to the list. |
| |
| Calling png_set_background before the PNG file header is read will not work |
| prior to libpng-1.5.4. Because the failure may result in unexpected warnings or |
| errors it is therefore much safer to call png_set_background after the head has |
| been read. Unfortunately this means that prior to libpng-1.5.4 it cannot be |
| used with the high level interface. |
| |
| .SS The high-level read interface |
| |
| At this point there are two ways to proceed; through the high-level |
| read interface, or through a sequence of low-level read operations. |
| You can use the high-level interface if (a) you are willing to read |
| the entire image into memory, and (b) the input transformations |
| you want to do are limited to the following set: |
| |
| PNG_TRANSFORM_IDENTITY No transformation |
| PNG_TRANSFORM_SCALE_16 Strip 16-bit samples to |
| 8-bit accurately |
| PNG_TRANSFORM_STRIP_16 Chop 16-bit samples to |
| 8-bit less accurately |
| PNG_TRANSFORM_STRIP_ALPHA Discard the alpha channel |
| PNG_TRANSFORM_PACKING Expand 1, 2 and 4-bit |
| samples to bytes |
| PNG_TRANSFORM_PACKSWAP Change order of packed |
| pixels to LSB first |
| PNG_TRANSFORM_EXPAND Perform set_expand() |
| PNG_TRANSFORM_INVERT_MONO Invert monochrome images |
| PNG_TRANSFORM_SHIFT Normalize pixels to the |
| sBIT depth |
| PNG_TRANSFORM_BGR Flip RGB to BGR, RGBA |
| to BGRA |
| PNG_TRANSFORM_SWAP_ALPHA Flip RGBA to ARGB or GA |
| to AG |
| PNG_TRANSFORM_INVERT_ALPHA Change alpha from opacity |
| to transparency |
| PNG_TRANSFORM_SWAP_ENDIAN Byte-swap 16-bit samples |
| PNG_TRANSFORM_GRAY_TO_RGB Expand grayscale samples |
| to RGB (or GA to RGBA) |
| PNG_TRANSFORM_EXPAND_16 Expand samples to 16 bits |
| |
| (This excludes setting a background color, doing gamma transformation, |
| quantizing, and setting filler.) If this is the case, simply do this: |
| |
| png_read_png(png_ptr, info_ptr, png_transforms, NULL) |
| |
| where png_transforms is an integer containing the bitwise OR of some |
| set of transformation flags. This call is equivalent to png_read_info(), |
| followed the set of transformations indicated by the transform mask, |
| then png_read_image(), and finally png_read_end(). |
| |
| (The final parameter of this call is not yet used. Someday it might point |
| to transformation parameters required by some future input transform.) |
| |
| You must use png_transforms and not call any png_set_transform() functions |
| when you use png_read_png(). |
| |
| After you have called png_read_png(), you can retrieve the image data |
| with |
| |
| row_pointers = png_get_rows(png_ptr, info_ptr); |
| |
| where row_pointers is an array of pointers to the pixel data for each row: |
| |
| png_bytep row_pointers[height]; |
| |
| If you know your image size and pixel size ahead of time, you can allocate |
| row_pointers prior to calling png_read_png() with |
| |
| if (height > PNG_UINT_32_MAX/(sizeof (png_byte))) |
| png_error (png_ptr, |
| "Image is too tall to process in memory"); |
| |
| if (width > PNG_UINT_32_MAX/pixel_size) |
| png_error (png_ptr, |
| "Image is too wide to process in memory"); |
| |
| row_pointers = png_malloc(png_ptr, |
| height*(sizeof (png_bytep))); |
| |
| for (int i=0; i<height, i++) |
| row_pointers[i]=NULL; /* security precaution */ |
| |
| for (int i=0; i<height, i++) |
| row_pointers[i]=png_malloc(png_ptr, |
| width*pixel_size); |
| |
| png_set_rows(png_ptr, info_ptr, &row_pointers); |
| |
| Alternatively you could allocate your image in one big block and define |
| row_pointers[i] to point into the proper places in your block, but first |
| be sure that your platform is able to allocate such a large buffer: |
| |
| /* Guard against integer overflow */ |
| if (height > PNG_SIZE_MAX/(width*pixel_size)) { |
| png_error(png_ptr,"image_data buffer would be too large"); |
| } |
| |
| png_bytep buffer=png_malloc(png_ptr,height*width*pixel_size); |
| |
| for (int i=0; i<height, i++) |
| row_pointers[i]=buffer+i*width*pixel_size; |
| |
| png_set_rows(png_ptr, info_ptr, &row_pointers); |
| |
| If you use png_set_rows(), the application is responsible for freeing |
| row_pointers (and row_pointers[i], if they were separately allocated). |
| |
| If you don't allocate row_pointers ahead of time, png_read_png() will |
| do it, and it'll be free'ed by libpng when you call png_destroy_*(). |
| |
| .SS The low-level read interface |
| |
| If you are going the low-level route, you are now ready to read all |
| the file information up to the actual image data. You do this with a |
| call to png_read_info(). |
| |
| png_read_info(png_ptr, info_ptr); |
| |
| This will process all chunks up to but not including the image data. |
| |
| This also copies some of the data from the PNG file into the decode structure |
| for use in later transformations. Important information copied in is: |
| |
| 1) The PNG file gamma from the gAMA chunk. This overwrites the default value |
| provided by an earlier call to png_set_gamma or png_set_alpha_mode. |
| |
| 2) Prior to libpng-1.5.4 the background color from a bKGd chunk. This |
| damages the information provided by an earlier call to png_set_background |
| resulting in unexpected behavior. Libpng-1.5.4 no longer does this. |
| |
| 3) The number of significant bits in each component value. Libpng uses this to |
| optimize gamma handling by reducing the internal lookup table sizes. |
| |
| 4) The transparent color information from a tRNS chunk. This can be modified by |
| a later call to png_set_tRNS. |
| |
| .SS Querying the info structure |
| |
| Functions are used to get the information from the info_ptr once it |
| has been read. Note that these fields may not be completely filled |
| in until png_read_end() has read the chunk data following the image. |
| |
| png_get_IHDR(png_ptr, info_ptr, &width, &height, |
| &bit_depth, &color_type, &interlace_type, |
| &compression_type, &filter_method); |
| |
| width - holds the width of the image |
| in pixels (up to 2^31). |
| |
| height - holds the height of the image |
| in pixels (up to 2^31). |
| |
| bit_depth - holds the bit depth of one of the |
| image channels. (valid values are |
| 1, 2, 4, 8, 16 and depend also on |
| the color_type. See also |
| significant bits (sBIT) below). |
| |
| color_type - describes which color/alpha channels |
| are present. |
| PNG_COLOR_TYPE_GRAY |
| (bit depths 1, 2, 4, 8, 16) |
| PNG_COLOR_TYPE_GRAY_ALPHA |
| (bit depths 8, 16) |
| PNG_COLOR_TYPE_PALETTE |
| (bit depths 1, 2, 4, 8) |
| PNG_COLOR_TYPE_RGB |
| (bit_depths 8, 16) |
| PNG_COLOR_TYPE_RGB_ALPHA |
| (bit_depths 8, 16) |
| |
| PNG_COLOR_MASK_PALETTE |
| PNG_COLOR_MASK_COLOR |
| PNG_COLOR_MASK_ALPHA |
| |
| interlace_type - (PNG_INTERLACE_NONE or |
| PNG_INTERLACE_ADAM7) |
| |
| compression_type - (must be PNG_COMPRESSION_TYPE_BASE |
| for PNG 1.0) |
| |
| filter_method - (must be PNG_FILTER_TYPE_BASE |
| for PNG 1.0, and can also be |
| PNG_INTRAPIXEL_DIFFERENCING if |
| the PNG datastream is embedded in |
| a MNG-1.0 datastream) |
| |
| Any of width, height, color_type, bit_depth, |
| interlace_type, compression_type, or filter_method can |
| be NULL if you are not interested in their values. |
| |
| Note that png_get_IHDR() returns 32-bit data into |
| the application's width and height variables. |
| This is an unsafe situation if these are not png_uint_32 |
| variables. In such situations, the |
| png_get_image_width() and png_get_image_height() |
| functions described below are safer. |
| |
| width = png_get_image_width(png_ptr, |
| info_ptr); |
| |
| height = png_get_image_height(png_ptr, |
| info_ptr); |
| |
| bit_depth = png_get_bit_depth(png_ptr, |
| info_ptr); |
| |
| color_type = png_get_color_type(png_ptr, |
| info_ptr); |
| |
| interlace_type = png_get_interlace_type(png_ptr, |
| info_ptr); |
| |
| compression_type = png_get_compression_type(png_ptr, |
| info_ptr); |
| |
| filter_method = png_get_filter_type(png_ptr, |
| info_ptr); |
| |
| channels = png_get_channels(png_ptr, info_ptr); |
| |
| channels - number of channels of info for the |
| color type (valid values are 1 (GRAY, |
| PALETTE), 2 (GRAY_ALPHA), 3 (RGB), |
| 4 (RGB_ALPHA or RGB + filler byte)) |
| |
| rowbytes = png_get_rowbytes(png_ptr, info_ptr); |
| |
| rowbytes - number of bytes needed to hold a row |
| This value, the bit_depth, color_type, |
| and the number of channels can change |
| if you use transforms such as |
| png_set_expand(). See |
| png_read_update_info(), below. |
| |
| signature = png_get_signature(png_ptr, info_ptr); |
| |
| signature - holds the signature read from the |
| file (if any). The data is kept in |
| the same offset it would be if the |
| whole signature were read (i.e. if an |
| application had already read in 4 |
| bytes of signature before starting |
| libpng, the remaining 4 bytes would |
| be in signature[4] through signature[7] |
| (see png_set_sig_bytes())). |
| |
| These are also important, but their validity depends on whether the chunk |
| has been read. The png_get_valid(png_ptr, info_ptr, PNG_INFO_<chunk>) and |
| png_get_<chunk>(png_ptr, info_ptr, ...) functions return non-zero if the |
| data has been read, or zero if it is missing. The parameters to the |
| png_get_<chunk> are set directly if they are simple data types, or a |
| pointer into the info_ptr is returned for any complex types. |
| |
| The colorspace data from gAMA, cHRM, sRGB, iCCP, and sBIT chunks |
| is simply returned to give the application information about how the |
| image was encoded. Libpng itself only does transformations using the file |
| gamma when combining semitransparent pixels with the background color, and, |
| since libpng-1.6.0, when converting between 8-bit sRGB and 16-bit linear pixels |
| within the simplified API. Libpng also uses the file gamma when converting |
| RGB to gray, beginning with libpng-1.0.5, if the application calls |
| png_set_rgb_to_gray()). |
| |
| png_get_PLTE(png_ptr, info_ptr, &palette, |
| &num_palette); |
| |
| palette - the palette for the file |
| (array of png_color) |
| |
| num_palette - number of entries in the palette |
| |
| png_get_gAMA(png_ptr, info_ptr, &file_gamma); |
| png_get_gAMA_fixed(png_ptr, info_ptr, &int_file_gamma); |
| |
| file_gamma - the gamma at which the file is |
| written (PNG_INFO_gAMA) |
| |
| int_file_gamma - 100,000 times the gamma at which the |
| file is written |
| |
| png_get_cHRM(png_ptr, info_ptr, &white_x, &white_y, &red_x, |
| &red_y, &green_x, &green_y, &blue_x, &blue_y) |
| png_get_cHRM_XYZ(png_ptr, info_ptr, &red_X, &red_Y, &red_Z, |
| &green_X, &green_Y, &green_Z, &blue_X, &blue_Y, |
| &blue_Z) |
| png_get_cHRM_fixed(png_ptr, info_ptr, &int_white_x, |
| &int_white_y, &int_red_x, &int_red_y, |
| &int_green_x, &int_green_y, &int_blue_x, |
| &int_blue_y) |
| png_get_cHRM_XYZ_fixed(png_ptr, info_ptr, &int_red_X, &int_red_Y, |
| &int_red_Z, &int_green_X, &int_green_Y, |
| &int_green_Z, &int_blue_X, &int_blue_Y, |
| &int_blue_Z) |
| |
| {white,red,green,blue}_{x,y} |
| A color space encoding specified using the |
| chromaticities of the end points and the |
| white point. (PNG_INFO_cHRM) |
| |
| {red,green,blue}_{X,Y,Z} |
| A color space encoding specified using the |
| encoding end points - the CIE tristimulus |
| specification of the intended color of the red, |
| green and blue channels in the PNG RGB data. |
| The white point is simply the sum of the three |
| end points. (PNG_INFO_cHRM) |
| |
| png_get_sRGB(png_ptr, info_ptr, &srgb_intent); |
| |
| srgb_intent - the rendering intent (PNG_INFO_sRGB) |
| The presence of the sRGB chunk |
| means that the pixel data is in the |
| sRGB color space. This chunk also |
| implies specific values of gAMA and |
| cHRM. |
| |
| png_get_iCCP(png_ptr, info_ptr, &name, |
| &compression_type, &profile, &proflen); |
| |
| name - The profile name. |
| |
| compression_type - The compression type; always |
| PNG_COMPRESSION_TYPE_BASE for PNG 1.0. |
| You may give NULL to this argument to |
| ignore it. |
| |
| profile - International Color Consortium color |
| profile data. May contain NULs. |
| |
| proflen - length of profile data in bytes. |
| |
| png_get_sBIT(png_ptr, info_ptr, &sig_bit); |
| |
| sig_bit - the number of significant bits for |
| (PNG_INFO_sBIT) each of the gray, |
| red, green, and blue channels, |
| whichever are appropriate for the |
| given color type (png_color_16) |
| |
| png_get_tRNS(png_ptr, info_ptr, &trans_alpha, |
| &num_trans, &trans_color); |
| |
| trans_alpha - array of alpha (transparency) |
| entries for palette (PNG_INFO_tRNS) |
| |
| num_trans - number of transparent entries |
| (PNG_INFO_tRNS) |
| |
| trans_color - graylevel or color sample values of |
| the single transparent color for |
| non-paletted images (PNG_INFO_tRNS) |
| |
| png_get_eXIf_1(png_ptr, info_ptr, &num_exif, &exif); |
| (PNG_INFO_eXIf) |
| |
| exif - Exif profile (array of png_byte) |
| |
| png_get_hIST(png_ptr, info_ptr, &hist); |
| (PNG_INFO_hIST) |
| |
| hist - histogram of palette (array of |
| png_uint_16) |
| |
| png_get_tIME(png_ptr, info_ptr, &mod_time); |
| |
| mod_time - time image was last modified |
| (PNG_VALID_tIME) |
| |
| png_get_bKGD(png_ptr, info_ptr, &background); |
| |
| background - background color (of type |
| png_color_16p) (PNG_VALID_bKGD) |
| valid 16-bit red, green and blue |
| values, regardless of color_type |
| |
| num_comments = png_get_text(png_ptr, info_ptr, |
| &text_ptr, &num_text); |
| |
| num_comments - number of comments |
| |
| text_ptr - array of png_text holding image |
| comments |
| |
| text_ptr[i].compression - type of compression used |
| on "text" PNG_TEXT_COMPRESSION_NONE |
| PNG_TEXT_COMPRESSION_zTXt |
| PNG_ITXT_COMPRESSION_NONE |
| PNG_ITXT_COMPRESSION_zTXt |
| |
| text_ptr[i].key - keyword for comment. Must contain |
| 1-79 characters. |
| |
| text_ptr[i].text - text comments for current |
| keyword. Can be empty. |
| |
| text_ptr[i].text_length - length of text string, |
| after decompression, 0 for iTXt |
| |
| text_ptr[i].itxt_length - length of itxt string, |
| after decompression, 0 for tEXt/zTXt |
| |
| text_ptr[i].lang - language of comment (empty |
| string for unknown). |
| |
| text_ptr[i].lang_key - keyword in UTF-8 |
| (empty string for unknown). |
| |
| Note that the itxt_length, lang, and lang_key |
| members of the text_ptr structure only exist when the |
| library is built with iTXt chunk support. Prior to |
| libpng-1.4.0 the library was built by default without |
| iTXt support. Also note that when iTXt is supported, |
| they contain NULL pointers when the "compression" |
| field contains PNG_TEXT_COMPRESSION_NONE or |
| PNG_TEXT_COMPRESSION_zTXt. |
| |
| num_text - number of comments (same as |
| num_comments; you can put NULL here |
| to avoid the duplication) |
| |
| Note while png_set_text() will accept text, language, |
| and translated keywords that can be NULL pointers, the |
| structure returned by png_get_text will always contain |
| regular zero-terminated C strings. They might be |
| empty strings but they will never be NULL pointers. |
| |
| num_spalettes = png_get_sPLT(png_ptr, info_ptr, |
| &palette_ptr); |
| |
| num_spalettes - number of sPLT chunks read. |
| |
| palette_ptr - array of palette structures holding |
| contents of one or more sPLT chunks |
| read. |
| |
| png_get_oFFs(png_ptr, info_ptr, &offset_x, &offset_y, |
| &unit_type); |
| |
| offset_x - positive offset from the left edge |
| of the screen (can be negative) |
| |
| offset_y - positive offset from the top edge |
| of the screen (can be negative) |
| |
| unit_type - PNG_OFFSET_PIXEL, PNG_OFFSET_MICROMETER |
| |
| png_get_pHYs(png_ptr, info_ptr, &res_x, &res_y, |
| &unit_type); |
| |
| res_x - pixels/unit physical resolution in |
| x direction |
| |
| res_y - pixels/unit physical resolution in |
| x direction |
| |
| unit_type - PNG_RESOLUTION_UNKNOWN, |
| PNG_RESOLUTION_METER |
| |
| png_get_sCAL(png_ptr, info_ptr, &unit, &width, |
| &height) |
| |
| unit - physical scale units (an integer) |
| |
| width - width of a pixel in physical scale units |
| |
| height - height of a pixel in physical scale units |
| (width and height are doubles) |
| |
| png_get_sCAL_s(png_ptr, info_ptr, &unit, &width, |
| &height) |
| |
| unit - physical scale units (an integer) |
| |
| width - width of a pixel in physical scale units |
| (expressed as a string) |
| |
| height - height of a pixel in physical scale units |
| (width and height are strings like "2.54") |
| |
| num_unknown_chunks = png_get_unknown_chunks(png_ptr, |
| info_ptr, &unknowns) |
| |
| unknowns - array of png_unknown_chunk |
| structures holding unknown chunks |
| |
| unknowns[i].name - name of unknown chunk |
| |
| unknowns[i].data - data of unknown chunk |
| |
| unknowns[i].size - size of unknown chunk's data |
| |
| unknowns[i].location - position of chunk in file |
| |
| The value of "i" corresponds to the order in which the |
| chunks were read from the PNG file or inserted with the |
| png_set_unknown_chunks() function. |
| |
| The value of "location" is a bitwise "or" of |
| |
| PNG_HAVE_IHDR (0x01) |
| PNG_HAVE_PLTE (0x02) |
| PNG_AFTER_IDAT (0x08) |
| |
| The data from the pHYs chunk can be retrieved in several convenient |
| forms: |
| |
| res_x = png_get_x_pixels_per_meter(png_ptr, |
| info_ptr) |
| |
| res_y = png_get_y_pixels_per_meter(png_ptr, |
| info_ptr) |
| |
| res_x_and_y = png_get_pixels_per_meter(png_ptr, |
| info_ptr) |
| |
| res_x = png_get_x_pixels_per_inch(png_ptr, |
| info_ptr) |
| |
| res_y = png_get_y_pixels_per_inch(png_ptr, |
| info_ptr) |
| |
| res_x_and_y = png_get_pixels_per_inch(png_ptr, |
| info_ptr) |
| |
| aspect_ratio = png_get_pixel_aspect_ratio(png_ptr, |
| info_ptr) |
| |
| Each of these returns 0 [signifying "unknown"] if |
| the data is not present or if res_x is 0; |
| res_x_and_y is 0 if res_x != res_y |
| |
| Note that because of the way the resolutions are |
| stored internally, the inch conversions won't |
| come out to exactly even number. For example, |
| 72 dpi is stored as 0.28346 pixels/meter, and |
| when this is retrieved it is 71.9988 dpi, so |
| be sure to round the returned value appropriately |
| if you want to display a reasonable-looking result. |
| |
| The data from the oFFs chunk can be retrieved in several convenient |
| forms: |
| |
| x_offset = png_get_x_offset_microns(png_ptr, info_ptr); |
| |
| y_offset = png_get_y_offset_microns(png_ptr, info_ptr); |
| |
| x_offset = png_get_x_offset_inches(png_ptr, info_ptr); |
| |
| y_offset = png_get_y_offset_inches(png_ptr, info_ptr); |
| |
| Each of these returns 0 [signifying "unknown" if both |
| x and y are 0] if the data is not present or if the |
| chunk is present but the unit is the pixel. The |
| remark about inexact inch conversions applies here |
| as well, because a value in inches can't always be |
| converted to microns and back without some loss |
| of precision. |
| |
| For more information, see the |
| PNG specification for chunk contents. Be careful with trusting |
| rowbytes, as some of the transformations could increase the space |
| needed to hold a row (expand, filler, gray_to_rgb, etc.). |
| See png_read_update_info(), below. |
| |
| A quick word about text_ptr and num_text. PNG stores comments in |
| keyword/text pairs, one pair per chunk, with no limit on the number |
| of text chunks, and a 2^31 byte limit on their size. While there are |
| suggested keywords, there is no requirement to restrict the use to these |
| strings. It is strongly suggested that keywords and text be sensible |
| to humans (that's the point), so don't use abbreviations. Non-printing |
| symbols are not allowed. See the PNG specification for more details. |
| There is also no requirement to have text after the keyword. |
| |
| Keywords should be limited to 79 Latin-1 characters without leading or |
| trailing spaces, but non-consecutive spaces are allowed within the |
| keyword. It is possible to have the same keyword any number of times. |
| The text_ptr is an array of png_text structures, each holding a |
| pointer to a language string, a pointer to a keyword and a pointer to |
| a text string. The text string, language code, and translated |
| keyword may be empty or NULL pointers. The keyword/text |
| pairs are put into the array in the order that they are received. |
| However, some or all of the text chunks may be after the image, so, to |
| make sure you have read all the text chunks, don't mess with these |
| until after you read the stuff after the image. This will be |
| mentioned again below in the discussion that goes with png_read_end(). |
| |
| .SS Input transformations |
| |
| After you've read the header information, you can set up the library |
| to handle any special transformations of the image data. The various |
| ways to transform the data will be described in the order that they |
| should occur. This is important, as some of these change the color |
| type and/or bit depth of the data, and some others only work on |
| certain color types and bit depths. |
| |
| Transformations you request are ignored if they don't have any meaning for a |
| particular input data format. However some transformations can have an effect |
| as a result of a previous transformation. If you specify a contradictory set of |
| transformations, for example both adding and removing the alpha channel, you |
| cannot predict the final result. |
| |
| The color used for the transparency values should be supplied in the same |
| format/depth as the current image data. It is stored in the same format/depth |
| as the image data in a tRNS chunk, so this is what libpng expects for this data. |
| |
| The color used for the background value depends on the need_expand argument as |
| described below. |
| |
| Data will be decoded into the supplied row buffers packed into bytes |
| unless the library has been told to transform it into another format. |
| For example, 4 bit/pixel paletted or grayscale data will be returned |
| 2 pixels/byte with the leftmost pixel in the high-order bits of the byte, |
| unless png_set_packing() is called. 8-bit RGB data will be stored |
| in RGB RGB RGB format unless png_set_filler() or png_set_add_alpha() |
| is called to insert filler bytes, either before or after each RGB triplet. |
| |
| 16-bit RGB data will be returned RRGGBB RRGGBB, with the most significant |
| byte of the color value first, unless png_set_scale_16() is called to |
| transform it to regular RGB RGB triplets, or png_set_filler() or |
| png_set_add alpha() is called to insert two filler bytes, either before |
| or after each RRGGBB triplet. Similarly, 8-bit or 16-bit grayscale data can |
| be modified with png_set_filler(), png_set_add_alpha(), png_set_strip_16(), |
| or png_set_scale_16(). |
| |
| The following code transforms grayscale images of less than 8 to 8 bits, |
| changes paletted images to RGB, and adds a full alpha channel if there is |
| transparency information in a tRNS chunk. This is most useful on |
| grayscale images with bit depths of 2 or 4 or if there is a multiple-image |
| viewing application that wishes to treat all images in the same way. |
| |
| if (color_type == PNG_COLOR_TYPE_PALETTE) |
| png_set_palette_to_rgb(png_ptr); |
| |
| if (png_get_valid(png_ptr, info_ptr, |
| PNG_INFO_tRNS)) png_set_tRNS_to_alpha(png_ptr); |
| |
| if (color_type == PNG_COLOR_TYPE_GRAY && |
| bit_depth < 8) png_set_expand_gray_1_2_4_to_8(png_ptr); |
| |
| The first two functions are actually aliases for png_set_expand(), added |
| in libpng version 1.0.4, with the function names expanded to improve code |
| readability. In some future version they may actually do different |
| things. |
| |
| As of libpng version 1.2.9, png_set_expand_gray_1_2_4_to_8() was |
| added. It expands the sample depth without changing tRNS to alpha. |
| |
| As of libpng version 1.5.2, png_set_expand_16() was added. It behaves as |
| png_set_expand(); however, the resultant channels have 16 bits rather than 8. |
| Use this when the output color or gray channels are made linear to avoid fairly |
| severe accuracy loss. |
| |
| if (bit_depth < 16) |
| png_set_expand_16(png_ptr); |
| |
| PNG can have files with 16 bits per channel. If you only can handle |
| 8 bits per channel, this will strip the pixels down to 8-bit. |
| |
| if (bit_depth == 16) |
| #if PNG_LIBPNG_VER >= 10504 |
| png_set_scale_16(png_ptr); |
| #else |
| png_set_strip_16(png_ptr); |
| #endif |
| |
| (The more accurate "png_set_scale_16()" API became available in libpng version |
| 1.5.4). |
| |
| If you need to process the alpha channel on the image separately from the image |
| data (for example if you convert it to a bitmap mask) it is possible to have |
| libpng strip the channel leaving just RGB or gray data: |
| |
| if (color_type & PNG_COLOR_MASK_ALPHA) |
| png_set_strip_alpha(png_ptr); |
| |
| If you strip the alpha channel you need to find some other way of dealing with |
| the information. If, instead, you want to convert the image to an opaque |
| version with no alpha channel use png_set_background; see below. |
| |
| As of libpng version 1.5.2, almost all useful expansions are supported, the |
| major ommissions are conversion of grayscale to indexed images (which can be |
| done trivially in the application) and conversion of indexed to grayscale (which |
| can be done by a trivial manipulation of the palette.) |
| |
| In the following table, the 01 means grayscale with depth<8, 31 means |
| indexed with depth<8, other numerals represent the color type, "T" means |
| the tRNS chunk is present, A means an alpha channel is present, and O |
| means tRNS or alpha is present but all pixels in the image are opaque. |
| |
| FROM 01 31 0 0T 0O 2 2T 2O 3 3T 3O 4A 4O 6A 6O |
| TO |
| 01 - [G] - - - - - - - - - - - - - |
| 31 [Q] Q [Q] [Q] [Q] Q Q Q Q Q Q [Q] [Q] Q Q |
| 0 1 G + . . G G G G G G B B GB GB |
| 0T lt Gt t + . Gt G G Gt G G Bt Bt GBt GBt |
| 0O lt Gt t . + Gt Gt G Gt Gt G Bt Bt GBt GBt |
| 2 C P C C C + . . C - - CB CB B B |
| 2T Ct - Ct C C t + t - - - CBt CBt Bt Bt |
| 2O Ct - Ct C C t t + - - - CBt CBt Bt Bt |
| 3 [Q] p [Q] [Q] [Q] Q Q Q + . . [Q] [Q] Q Q |
| 3T [Qt] p [Qt][Q] [Q] Qt Qt Qt t + t [Qt][Qt] Qt Qt |
| 3O [Qt] p [Qt][Q] [Q] Qt Qt Qt t t + [Qt][Qt] Qt Qt |
| 4A lA G A T T GA GT GT GA GT GT + BA G GBA |
| 4O lA GBA A T T GA GT GT GA GT GT BA + GBA G |
| 6A CA PA CA C C A T tT PA P P C CBA + BA |
| 6O CA PBA CA C C A tT T PA P P CBA C BA + |
| |
| Within the matrix, |
| "+" identifies entries where 'from' and 'to' are the same. |
| "-" means the transformation is not supported. |
| "." means nothing is necessary (a tRNS chunk can just be ignored). |
| "t" means the transformation is obtained by png_set_tRNS. |
| "A" means the transformation is obtained by png_set_add_alpha(). |
| "X" means the transformation is obtained by png_set_expand(). |
| "1" means the transformation is obtained by |
| png_set_expand_gray_1_2_4_to_8() (and by png_set_expand() |
| if there is no transparency in the original or the final |
| format). |
| "C" means the transformation is obtained by png_set_gray_to_rgb(). |
| "G" means the transformation is obtained by png_set_rgb_to_gray(). |
| "P" means the transformation is obtained by |
| png_set_expand_palette_to_rgb(). |
| "p" means the transformation is obtained by png_set_packing(). |
| "Q" means the transformation is obtained by png_set_quantize(). |
| "T" means the transformation is obtained by |
| png_set_tRNS_to_alpha(). |
| "B" means the transformation is obtained by |
| png_set_background(), or png_strip_alpha(). |
| |
| When an entry has multiple transforms listed all are required to cause the |
| right overall transformation. When two transforms are separated by a comma |
| either will do the job. When transforms are enclosed in [] the transform should |
| do the job but this is currently unimplemented - a different format will result |
| if the suggested transformations are used. |
| |
| In PNG files, the alpha channel in an image |
| is the level of opacity. If you need the alpha channel in an image to |
| be the level of transparency instead of opacity, you can invert the |
| alpha channel (or the tRNS chunk data) after it's read, so that 0 is |
| fully opaque and 255 (in 8-bit or paletted images) or 65535 (in 16-bit |
| images) is fully transparent, with |
| |
| png_set_invert_alpha(png_ptr); |
| |
| PNG files pack pixels of bit depths 1, 2, and 4 into bytes as small as |
| they can, resulting in, for example, 8 pixels per byte for 1 bit |
| files. This code expands to 1 pixel per byte without changing the |
| values of the pixels: |
| |
| if (bit_depth < 8) |
| png_set_packing(png_ptr); |
| |
| PNG files have possible bit depths of 1, 2, 4, 8, and 16. All pixels |
| stored in a PNG image have been "scaled" or "shifted" up to the next |
| higher possible bit depth (e.g. from 5 bits/sample in the range [0,31] |
| to 8 bits/sample in the range [0, 255]). However, it is also possible |
| to convert the PNG pixel data back to the original bit depth of the |
| image. This call reduces the pixels back down to the original bit depth: |
| |
| png_color_8p sig_bit; |
| |
| if (png_get_sBIT(png_ptr, info_ptr, &sig_bit)) |
| png_set_shift(png_ptr, sig_bit); |
| |
| PNG files store 3-color pixels in red, green, blue order. This code |
| changes the storage of the pixels to blue, green, red: |
| |
| if (color_type == PNG_COLOR_TYPE_RGB || |
| color_type == PNG_COLOR_TYPE_RGB_ALPHA) |
| png_set_bgr(png_ptr); |
| |
| PNG files store RGB pixels packed into 3 or 6 bytes. This code expands them |
| into 4 or 8 bytes for windowing systems that need them in this format: |
| |
| if (color_type == PNG_COLOR_TYPE_RGB) |
| png_set_filler(png_ptr, filler, PNG_FILLER_BEFORE); |
| |
| where "filler" is the 8-bit or 16-bit number to fill with, and the location |
| is either PNG_FILLER_BEFORE or PNG_FILLER_AFTER, depending upon whether |
| you want the filler before the RGB or after. When filling an 8-bit pixel, |
| the least significant 8 bits of the number are used, if a 16-bit number is |
| supplied. This transformation does not affect images that already have full |
| alpha channels. To add an opaque alpha channel, use filler=0xffff and |
| PNG_FILLER_AFTER which will generate RGBA pixels. |
| |
| Note that png_set_filler() does not change the color type. If you want |
| to do that, you can add a true alpha channel with |
| |
| if (color_type == PNG_COLOR_TYPE_RGB || |
| color_type == PNG_COLOR_TYPE_GRAY) |
| png_set_add_alpha(png_ptr, filler, PNG_FILLER_AFTER); |
| |
| where "filler" contains the alpha value to assign to each pixel. |
| The png_set_add_alpha() function was added in libpng-1.2.7. |
| |
| If you are reading an image with an alpha channel, and you need the |
| data as ARGB instead of the normal PNG format RGBA: |
| |
| if (color_type == PNG_COLOR_TYPE_RGB_ALPHA) |
| png_set_swap_alpha(png_ptr); |
| |
| For some uses, you may want a grayscale image to be represented as |
| RGB. This code will do that conversion: |
| |
| if (color_type == PNG_COLOR_TYPE_GRAY || |
| color_type == PNG_COLOR_TYPE_GRAY_ALPHA) |
| png_set_gray_to_rgb(png_ptr); |
| |
| Conversely, you can convert an RGB or RGBA image to grayscale or grayscale |
| with alpha. |
| |
| if (color_type == PNG_COLOR_TYPE_RGB || |
| color_type == PNG_COLOR_TYPE_RGB_ALPHA) |
| png_set_rgb_to_gray(png_ptr, error_action, |
| double red_weight, double green_weight); |
| |
| error_action = 1: silently do the conversion |
| |
| error_action = 2: issue a warning if the original |
| image has any pixel where |
| red != green or red != blue |
| |
| error_action = 3: issue an error and abort the |
| conversion if the original |
| image has any pixel where |
| red != green or red != blue |
| |
| red_weight: weight of red component |
| |
| green_weight: weight of green component |
| If either weight is negative, default |
| weights are used. |
| |
| In the corresponding fixed point API the red_weight and green_weight values are |
| simply scaled by 100,000: |
| |
| png_set_rgb_to_gray(png_ptr, error_action, |
| png_fixed_point red_weight, |
| png_fixed_point green_weight); |
| |
| If you have set error_action = 1 or 2, you can |
| later check whether the image really was gray, after processing |
| the image rows, with the png_get_rgb_to_gray_status(png_ptr) function. |
| It will return a png_byte that is zero if the image was gray or |
| 1 if there were any non-gray pixels. Background and sBIT data |
| will be silently converted to grayscale, using the green channel |
| data for sBIT, regardless of the error_action setting. |
| |
| The default values come from the PNG file cHRM chunk if present; otherwise, the |
| defaults correspond to the ITU-R recommendation 709, and also the sRGB color |
| space, as recommended in the Charles Poynton's Colour FAQ, |
| Copyright (c) 2006-11-28 Charles Poynton, in section 9: |
| |
| <http://www.poynton.com/notes/colour_and_gamma/ColorFAQ.html#RTFToC9> |
| |
| Y = 0.2126 * R + 0.7152 * G + 0.0722 * B |
| |
| Previous versions of this document, 1998 through 2002, recommended a slightly |
| different formula: |
| |
| Y = 0.212671 * R + 0.715160 * G + 0.072169 * B |
| |
| Libpng uses an integer approximation: |
| |
| Y = (6968 * R + 23434 * G + 2366 * B)/32768 |
| |
| The calculation is done in a linear colorspace, if the image gamma |
| can be determined. |
| |
| The png_set_background() function has been described already; it tells libpng to |
| composite images with alpha or simple transparency against the supplied |
| background color. For compatibility with versions of libpng earlier than |
| libpng-1.5.4 it is recommended that you call the function after reading the file |
| header, even if you don't want to use the color in a bKGD chunk, if one exists. |
| |
| If the PNG file contains a bKGD chunk (PNG_INFO_bKGD valid), |
| you may use this color, or supply another color more suitable for |
| the current display (e.g., the background color from a web page). You |
| need to tell libpng how the color is represented, both the format of the |
| component values in the color (the number of bits) and the gamma encoding of the |
| color. The function takes two arguments, background_gamma_mode and need_expand |
| to convey this information; however, only two combinations are likely to be |
| useful: |
| |
| png_color_16 my_background; |
| png_color_16p image_background; |
| |
| if (png_get_bKGD(png_ptr, info_ptr, &image_background)) |
| png_set_background(png_ptr, image_background, |
| PNG_BACKGROUND_GAMMA_FILE, 1/*needs to be expanded*/, 1); |
| else |
| png_set_background(png_ptr, &my_background, |
| PNG_BACKGROUND_GAMMA_SCREEN, 0/*do not expand*/, 1); |
| |
| The second call was described above - my_background is in the format of the |
| final, display, output produced by libpng. Because you now know the format of |
| the PNG it is possible to avoid the need to choose either 8-bit or 16-bit |
| output and to retain palette images (the palette colors will be modified |
| appropriately and the tRNS chunk removed.) However, if you are doing this, |
| take great care not to ask for transformations without checking first that |
| they apply! |
| |
| In the first call the background color has the original bit depth and color type |
| of the PNG file. So, for palette images the color is supplied as a palette |
| index and for low bit greyscale images the color is a reduced bit value in |
| image_background->gray. |
| |
| If you didn't call png_set_gamma() before reading the file header, for example |
| if you need your code to remain compatible with older versions of libpng prior |
| to libpng-1.5.4, this is the place to call it. |
| |
| Do not call it if you called png_set_alpha_mode(); doing so will damage the |
| settings put in place by png_set_alpha_mode(). (If png_set_alpha_mode() is |
| supported then you can certainly do png_set_gamma() before reading the PNG |
| header.) |
| |
| This API unconditionally sets the screen and file gamma values, so it will |
| override the value in the PNG file unless it is called before the PNG file |
| reading starts. For this reason you must always call it with the PNG file |
| value when you call it in this position: |
| |
| if (png_get_gAMA(png_ptr, info_ptr, &file_gamma)) |
| png_set_gamma(png_ptr, screen_gamma, file_gamma); |
| |
| else |
| png_set_gamma(png_ptr, screen_gamma, 0.45455); |
| |
| If you need to reduce an RGB file to a paletted file, or if a paletted |
| file has more entries than will fit on your screen, png_set_quantize() |
| will do that. Note that this is a simple match quantization that merely |
| finds the closest color available. This should work fairly well with |
| optimized palettes, but fairly badly with linear color cubes. If you |
| pass a palette that is larger than maximum_colors, the file will |
| reduce the number of colors in the palette so it will fit into |
| maximum_colors. If there is a histogram, libpng will use it to make |
| more intelligent choices when reducing the palette. If there is no |
| histogram, it may not do as good a job. |
| |
| if (color_type & PNG_COLOR_MASK_COLOR) |
| { |
| if (png_get_valid(png_ptr, info_ptr, |
| PNG_INFO_PLTE)) |
| { |
| png_uint_16p histogram = NULL; |
| |
| png_get_hIST(png_ptr, info_ptr, |
| &histogram); |
| png_set_quantize(png_ptr, palette, num_palette, |
| max_screen_colors, histogram, 1); |
| } |
| |
| else |
| { |
| png_color std_color_cube[MAX_SCREEN_COLORS] = |
| { ... colors ... }; |
| |
| png_set_quantize(png_ptr, std_color_cube, |
| MAX_SCREEN_COLORS, MAX_SCREEN_COLORS, |
| NULL,0); |
| } |
| } |
| |
| PNG files describe monochrome as black being zero and white being one. |
| The following code will reverse this (make black be one and white be |
| zero): |
| |
| if (bit_depth == 1 && color_type == PNG_COLOR_TYPE_GRAY) |
| png_set_invert_mono(png_ptr); |
| |
| This function can also be used to invert grayscale and gray-alpha images: |
| |
| if (color_type == PNG_COLOR_TYPE_GRAY || |
| color_type == PNG_COLOR_TYPE_GRAY_ALPHA) |
| png_set_invert_mono(png_ptr); |
| |
| PNG files store 16-bit pixels in network byte order (big-endian, |
| ie. most significant bits first). This code changes the storage to the |
| other way (little-endian, i.e. least significant bits first, the |
| way PCs store them): |
| |
| if (bit_depth == 16) |
| png_set_swap(png_ptr); |
| |
| If you are using packed-pixel images (1, 2, or 4 bits/pixel), and you |
| need to change the order the pixels are packed into bytes, you can use: |
| |
| if (bit_depth < 8) |
| png_set_packswap(png_ptr); |
| |
| Finally, you can write your own transformation function if none of |
| the existing ones meets your needs. This is done by setting a callback |
| with |
| |
| png_set_read_user_transform_fn(png_ptr, |
| read_transform_fn); |
| |
| You must supply the function |
| |
| void read_transform_fn(png_structp png_ptr, png_row_infop |
| row_info, png_bytep data) |
| |
| See pngtest.c for a working example. Your function will be called |
| after all of the other transformations have been processed. Take care with |
| interlaced images if you do the interlace yourself - the width of the row is the |
| width in 'row_info', not the overall image width. |
| |
| If supported, libpng provides two information routines that you can use to find |
| where you are in processing the image: |
| |
| png_get_current_pass_number(png_structp png_ptr); |
| png_get_current_row_number(png_structp png_ptr); |
| |
| Don't try using these outside a transform callback - firstly they are only |
| supported if user transforms are supported, secondly they may well return |
| unexpected results unless the row is actually being processed at the moment they |
| are called. |
| |
| With interlaced |
| images the value returned is the row in the input sub-image image. Use |
| PNG_ROW_FROM_PASS_ROW(row, pass) and PNG_COL_FROM_PASS_COL(col, pass) to |
| find the output pixel (x,y) given an interlaced sub-image pixel (row,col,pass). |
| |
| The discussion of interlace handling above contains more information on how to |
| use these values. |
| |
| You can also set up a pointer to a user structure for use by your |
| callback function, and you can inform libpng that your transform |
| function will change the number of channels or bit depth with the |
| function |
| |
| png_set_user_transform_info(png_ptr, user_ptr, |
| user_depth, user_channels); |
| |
| The user's application, not libpng, is responsible for allocating and |
| freeing any memory required for the user structure. |
| |
| You can retrieve the pointer via the function |
| png_get_user_transform_ptr(). For example: |
| |
| voidp read_user_transform_ptr = |
| png_get_user_transform_ptr(png_ptr); |
| |
| The last thing to handle is interlacing; this is covered in detail below, |
| but you must call the function here if you want libpng to handle expansion |
| of the interlaced image. |
| |
| number_of_passes = png_set_interlace_handling(png_ptr); |
| |
| After setting the transformations, libpng can update your png_info |
| structure to reflect any transformations you've requested with this |
| call. |
| |
| png_read_update_info(png_ptr, info_ptr); |
| |
| This is most useful to update the info structure's rowbytes |
| field so you can use it to allocate your image memory. This function |
| will also update your palette with the correct screen_gamma and |
| background if these have been given with the calls above. You may |
| only call png_read_update_info() once with a particular info_ptr. |
| |
| After you call png_read_update_info(), you can allocate any |
| memory you need to hold the image. The row data is simply |
| raw byte data for all forms of images. As the actual allocation |
| varies among applications, no example will be given. If you |
| are allocating one large chunk, you will need to build an |
| array of pointers to each row, as it will be needed for some |
| of the functions below. |
| |
| Be sure that your platform can allocate the buffer that you'll need. |
| libpng internally checks for oversize width, but you'll need to |
| do your own check for number_of_rows*width*pixel_size if you are using |
| a multiple-row buffer: |
| |
| /* Guard against integer overflow */ |
| if (number_of_rows > PNG_SIZE_MAX/(width*pixel_size)) { |
| png_error(png_ptr,"image_data buffer would be too large"); |
| } |
| |
| Remember: Before you call png_read_update_info(), the png_get_*() |
| functions return the values corresponding to the original PNG image. |
| After you call png_read_update_info the values refer to the image |
| that libpng will output. Consequently you must call all the png_set_ |
| functions before you call png_read_update_info(). This is particularly |
| important for png_set_interlace_handling() - if you are going to call |
| png_read_update_info() you must call png_set_interlace_handling() before |
| it unless you want to receive interlaced output. |
| |
| .SS Reading image data |
| |
| After you've allocated memory, you can read the image data. |
| The simplest way to do this is in one function call. If you are |
| allocating enough memory to hold the whole image, you can just |
| call png_read_image() and libpng will read in all the image data |
| and put it in the memory area supplied. You will need to pass in |
| an array of pointers to each row. |
| |
| This function automatically handles interlacing, so you don't |
| need to call png_set_interlace_handling() (unless you call |
| png_read_update_info()) or call this function multiple times, or any |
| of that other stuff necessary with png_read_rows(). |
| |
| png_read_image(png_ptr, row_pointers); |
| |
| where row_pointers is: |
| |
| png_bytep row_pointers[height]; |
| |
| You can point to void or char or whatever you use for pixels. |
| |
| If you don't want to read in the whole image at once, you can |
| use png_read_rows() instead. If there is no interlacing (check |
| interlace_type == PNG_INTERLACE_NONE), this is simple: |
| |
| png_read_rows(png_ptr, row_pointers, NULL, |
| number_of_rows); |
| |
| where row_pointers is the same as in the png_read_image() call. |
| |
| If you are doing this just one row at a time, you can do this with |
| a single row_pointer instead of an array of row_pointers: |
| |
| png_bytep row_pointer = row; |
| png_read_row(png_ptr, row_pointer, NULL); |
| |
| If the file is interlaced (interlace_type != 0 in the IHDR chunk), things |
| get somewhat harder. The only current (PNG Specification version 1.2) |
| interlacing type for PNG is (interlace_type == PNG_INTERLACE_ADAM7); |
| a somewhat complicated 2D interlace scheme, known as Adam7, that |
| breaks down an image into seven smaller images of varying size, based |
| on an 8x8 grid. This number is defined (from libpng 1.5) as |
| PNG_INTERLACE_ADAM7_PASSES in png.h |
| |
| libpng can fill out those images or it can give them to you "as is". |
| It is almost always better to have libpng handle the interlacing for you. |
| If you want the images filled out, there are two ways to do that. The one |
| mentioned in the PNG specification is to expand each pixel to cover |
| those pixels that have not been read yet (the "rectangle" method). |
| This results in a blocky image for the first pass, which gradually |
| smooths out as more pixels are read. The other method is the "sparkle" |
| method, where pixels are drawn only in their final locations, with the |
| rest of the image remaining whatever colors they were initialized to |
| before the start of the read. The first method usually looks better, |
| but tends to be slower, as there are more pixels to put in the rows. |
| |
| If, as is likely, you want libpng to expand the images, call this before |
| calling png_start_read_image() or png_read_update_info(): |
| |
| if (interlace_type == PNG_INTERLACE_ADAM7) |
| number_of_passes |
| = png_set_interlace_handling(png_ptr); |
| |
| This will return the number of passes needed. Currently, this is seven, |
| but may change if another interlace type is added. This function can be |
| called even if the file is not interlaced, where it will return one pass. |
| You then need to read the whole image 'number_of_passes' times. Each time |
| will distribute the pixels from the current pass to the correct place in |
| the output image, so you need to supply the same rows to png_read_rows in |
| each pass. |
| |
| If you are not going to display the image after each pass, but are |
| going to wait until the entire image is read in, use the sparkle |
| effect. This effect is faster and the end result of either method |
| is exactly the same. If you are planning on displaying the image |
| after each pass, the "rectangle" effect is generally considered the |
| better looking one. |
| |
| If you only want the "sparkle" effect, just call png_read_row() or |
| png_read_rows() as |
| normal, with the third parameter NULL. Make sure you make pass over |
| the image number_of_passes times, and you don't change the data in the |
| rows between calls. You can change the locations of the data, just |
| not the data. Each pass only writes the pixels appropriate for that |
| pass, and assumes the data from previous passes is still valid. |
| |
| png_read_rows(png_ptr, row_pointers, NULL, |
| number_of_rows); |
| or |
| png_read_row(png_ptr, row_pointers, NULL); |
| |
| If you only want the first effect (the rectangles), do the same as |
| before except pass the row buffer in the third parameter, and leave |
| the second parameter NULL. |
| |
| png_read_rows(png_ptr, NULL, row_pointers, |
| number_of_rows); |
| or |
| png_read_row(png_ptr, NULL, row_pointers); |
| |
| If you don't want libpng to handle the interlacing details, just call |
| png_read_rows() PNG_INTERLACE_ADAM7_PASSES times to read in all the images. |
| Each of the images is a valid image by itself; however, you will almost |
| certainly need to distribute the pixels from each sub-image to the |
| correct place. This is where everything gets very tricky. |
| |
| If you want to retrieve the separate images you must pass the correct |
| number of rows to each successive call of png_read_rows(). The calculation |
| gets pretty complicated for small images, where some sub-images may |
| not even exist because either their width or height ends up zero. |
| libpng provides two macros to help you in 1.5 and later versions: |
| |
| png_uint_32 width = PNG_PASS_COLS(image_width, pass_number); |
| png_uint_32 height = PNG_PASS_ROWS(image_height, pass_number); |
| |
| Respectively these tell you the width and height of the sub-image |
| corresponding to the numbered pass. 'pass' is in in the range 0 to 6 - |
| this can be confusing because the specification refers to the same passes |
| as 1 to 7! Be careful, you must check both the width and height before |
| calling png_read_rows() and not call it for that pass if either is zero. |
| |
| You can, of course, read each sub-image row by row. If you want to |
| produce optimal code to make a pixel-by-pixel transformation of an |
| interlaced image this is the best approach; read each row of each pass, |
| transform it, and write it out to a new interlaced image. |
| |
| If you want to de-interlace the image yourself libpng provides further |
| macros to help that tell you where to place the pixels in the output image. |
| Because the interlacing scheme is rectangular - sub-image pixels are always |
| arranged on a rectangular grid - all you need to know for each pass is the |
| starting column and row in the output image of the first pixel plus the |
| spacing between each pixel. As of libpng 1.5 there are four macros to |
| retrieve this information: |
| |
| png_uint_32 x = PNG_PASS_START_COL(pass); |
| png_uint_32 y = PNG_PASS_START_ROW(pass); |
| png_uint_32 xStep = 1U << PNG_PASS_COL_SHIFT(pass); |
| png_uint_32 yStep = 1U << PNG_PASS_ROW_SHIFT(pass); |
| |
| These allow you to write the obvious loop: |
| |
| png_uint_32 input_y = 0; |
| png_uint_32 output_y = PNG_PASS_START_ROW(pass); |
| |
| while (output_y < output_image_height) |
| { |
| png_uint_32 input_x = 0; |
| png_uint_32 output_x = PNG_PASS_START_COL(pass); |
| |
| while (output_x < output_image_width) |
| { |
| image[output_y][output_x] = |
| subimage[pass][input_y][input_x++]; |
| |
| output_x += xStep; |
| } |
| |
| ++input_y; |
| output_y += yStep; |
| } |
| |
| Notice that the steps between successive output rows and columns are |
| returned as shifts. This is possible because the pixels in the subimages |
| are always a power of 2 apart - 1, 2, 4 or 8 pixels - in the original |
| image. In practice you may need to directly calculate the output coordinate |
| given an input coordinate. libpng provides two further macros for this |
| purpose: |
| |
| png_uint_32 output_x = PNG_COL_FROM_PASS_COL(input_x, pass); |
| png_uint_32 output_y = PNG_ROW_FROM_PASS_ROW(input_y, pass); |
| |
| Finally a pair of macros are provided to tell you if a particular image |
| row or column appears in a given pass: |
| |
| int col_in_pass = PNG_COL_IN_INTERLACE_PASS(output_x, pass); |
| int row_in_pass = PNG_ROW_IN_INTERLACE_PASS(output_y, pass); |
| |
| Bear in mind that you will probably also need to check the width and height |
| of the pass in addition to the above to be sure the pass even exists! |
| |
| With any luck you are convinced by now that you don't want to do your own |
| interlace handling. In reality normally the only good reason for doing this |
| is if you are processing PNG files on a pixel-by-pixel basis and don't want |
| to load the whole file into memory when it is interlaced. |
| |
| libpng includes a test program, pngvalid, that illustrates reading and |
| writing of interlaced images. If you can't get interlacing to work in your |
| code and don't want to leave it to libpng (the recommended approach), see |
| how pngvalid.c does it. |
| |
| .SS Finishing a sequential read |
| |
| After you are finished reading the image through the |
| low-level interface, you can finish reading the file. |
| |
| If you want to use a different crc action for handling CRC errors in |
| chunks after the image data, you can call png_set_crc_action() |
| again at this point. |
| |
| If you are interested in comments or time, which may be stored either |
| before or after the image data, you should pass the separate png_info |
| struct if you want to keep the comments from before and after the image |
| separate. |
| |
| png_infop end_info = png_create_info_struct(png_ptr); |
| |
| if (!end_info) |
| { |
| png_destroy_read_struct(&png_ptr, &info_ptr, |
| (png_infopp)NULL); |
| return ERROR; |
| } |
| |
| png_read_end(png_ptr, end_info); |
| |
| If you are not interested, you should still call png_read_end() |
| but you can pass NULL, avoiding the need to create an end_info structure. |
| If you do this, libpng will not process any chunks after IDAT other than |
| skipping over them and perhaps (depending on whether you have called |
| png_set_crc_action) checking their CRCs while looking for the IEND chunk. |
| |
| png_read_end(png_ptr, (png_infop)NULL); |
| |
| If you don't call png_read_end(), then your file pointer will be |
| left pointing to the first chunk after the last IDAT, which is probably |
| not what you want if you expect to read something beyond the end of |
| the PNG datastream. |
| |
| When you are done, you can free all memory allocated by libpng like this: |
| |
| png_destroy_read_struct(&png_ptr, &info_ptr, |
| &end_info); |
| |
| or, if you didn't create an end_info structure, |
| |
| png_destroy_read_struct(&png_ptr, &info_ptr, |
| (png_infopp)NULL); |
| |
| It is also possible to individually free the info_ptr members that |
| point to libpng-allocated storage with the following function: |
| |
| png_free_data(png_ptr, info_ptr, mask, seq) |
| |
| mask - identifies data to be freed, a mask |
| containing the bitwise OR of one or |
| more of |
| PNG_FREE_PLTE, PNG_FREE_TRNS, |
| PNG_FREE_HIST, PNG_FREE_ICCP, |
| PNG_FREE_PCAL, PNG_FREE_ROWS, |
| PNG_FREE_SCAL, PNG_FREE_SPLT, |
| PNG_FREE_TEXT, PNG_FREE_UNKN, |
| or simply PNG_FREE_ALL |
| |
| seq - sequence number of item to be freed |
| (\-1 for all items) |
| |
| This function may be safely called when the relevant storage has |
| already been freed, or has not yet been allocated, or was allocated |
| by the user and not by libpng, and will in those cases do nothing. |
| The "seq" parameter is ignored if only one item of the selected data |
| type, such as PLTE, is allowed. If "seq" is not \-1, and multiple items |
| are allowed for the data type identified in the mask, such as text or |
| sPLT, only the n'th item in the structure is freed, where n is "seq". |
| |
| The default behavior is only to free data that was allocated internally |
| by libpng. This can be changed, so that libpng will not free the data, |
| or so that it will free data that was allocated by the user with png_malloc() |
| or png_calloc() and passed in via a png_set_*() function, with |
| |
| png_data_freer(png_ptr, info_ptr, freer, mask) |
| |
| freer - one of |
| PNG_DESTROY_WILL_FREE_DATA |
| PNG_SET_WILL_FREE_DATA |
| PNG_USER_WILL_FREE_DATA |
| |
| mask - which data elements are affected |
| same choices as in png_free_data() |
| |
| This function only affects data that has already been allocated. |
| You can call this function after reading the PNG data but before calling |
| any png_set_*() functions, to control whether the user or the png_set_*() |
| function is responsible for freeing any existing data that might be present, |
| and again after the png_set_*() functions to control whether the user |
| or png_destroy_*() is supposed to free the data. When the user assumes |
| responsibility for libpng-allocated data, the application must use |
| png_free() to free it, and when the user transfers responsibility to libpng |
| for data that the user has allocated, the user must have used png_malloc() |
| or png_calloc() to allocate it. |
| |
| If you allocated your row_pointers in a single block, as suggested above in |
| the description of the high level read interface, you must not transfer |
| responsibility for freeing it to the png_set_rows or png_read_destroy function, |
| because they would also try to free the individual row_pointers[i]. |
| |
| If you allocated text_ptr.text, text_ptr.lang, and text_ptr.translated_keyword |
| separately, do not transfer responsibility for freeing text_ptr to libpng, |
| because when libpng fills a png_text structure it combines these members with |
| the key member, and png_free_data() will free only text_ptr.key. Similarly, |
| if you transfer responsibility for free'ing text_ptr from libpng to your |
| application, your application must not separately free those members. |
| |
| The png_free_data() function will turn off the "valid" flag for anything |
| it frees. If you need to turn the flag off for a chunk that was freed by |
| your application instead of by libpng, you can use |
| |
| png_set_invalid(png_ptr, info_ptr, mask); |
| |
| mask - identifies the chunks to be made invalid, |
| containing the bitwise OR of one or |
| more of |
| PNG_INFO_gAMA, PNG_INFO_sBIT, |
| PNG_INFO_cHRM, PNG_INFO_PLTE, |
| PNG_INFO_tRNS, PNG_INFO_bKGD, |
| PNG_INFO_eXIf, |
| PNG_INFO_hIST, PNG_INFO_pHYs, |
| PNG_INFO_oFFs, PNG_INFO_tIME, |
| PNG_INFO_pCAL, PNG_INFO_sRGB, |
| PNG_INFO_iCCP, PNG_INFO_sPLT, |
| PNG_INFO_sCAL, PNG_INFO_IDAT |
| |
| For a more compact example of reading a PNG image, see the file example.c. |
| |
| .SS Reading PNG files progressively |
| |
| The progressive reader is slightly different from the non-progressive |
| reader. Instead of calling png_read_info(), png_read_rows(), and |
| png_read_end(), you make one call to png_process_data(), which calls |
| callbacks when it has the info, a row, or the end of the image. You |
| set up these callbacks with png_set_progressive_read_fn(). You don't |
| have to worry about the input/output functions of libpng, as you are |
| giving the library the data directly in png_process_data(). I will |
| assume that you have read the section on reading PNG files above, |
| so I will only highlight the differences (although I will show |
| all of the code). |
| |
| png_structp png_ptr; |
| png_infop info_ptr; |
| |
| /* An example code fragment of how you would |
| initialize the progressive reader in your |
| application. */ |
| int |
| initialize_png_reader() |
| { |
| png_ptr = png_create_read_struct |
| (PNG_LIBPNG_VER_STRING, (png_voidp)user_error_ptr, |
| user_error_fn, user_warning_fn); |
| |
| if (!png_ptr) |
| return ERROR; |
| |
| info_ptr = png_create_info_struct(png_ptr); |
| |
| if (!info_ptr) |
| { |
| png_destroy_read_struct(&png_ptr, |
| (png_infopp)NULL, (png_infopp)NULL); |
| return ERROR; |
| } |
| |
| if (setjmp(png_jmpbuf(png_ptr))) |
| { |
| png_destroy_read_struct(&png_ptr, &info_ptr, |
| (png_infopp)NULL); |
| return ERROR; |
| } |
| |
| /* This one's new. You can provide functions |
| to be called when the header info is valid, |
| when each row is completed, and when the image |
| is finished. If you aren't using all functions, |
| you can specify NULL parameters. Even when all |
| three functions are NULL, you need to call |
| png_set_progressive_read_fn(). You can use |
| any struct as the user_ptr (cast to a void pointer |
| for the function call), and retrieve the pointer |
| from inside the callbacks using the function |
| |
| png_get_progressive_ptr(png_ptr); |
| |
| which will return a void pointer, which you have |
| to cast appropriately. |
| */ |
| png_set_progressive_read_fn(png_ptr, (void *)user_ptr, |
| info_callback, row_callback, end_callback); |
| |
| return 0; |
| } |
| |
| /* A code fragment that you call as you receive blocks |
| of data */ |
| int |
| process_data(png_bytep buffer, png_uint_32 length) |
| { |
| if (setjmp(png_jmpbuf(png_ptr))) |
| { |
| png_destroy_read_struct(&png_ptr, &info_ptr, |
| (png_infopp)NULL); |
| return ERROR; |
| } |
| |
| /* This one's new also. Simply give it a chunk |
| of data from the file stream (in order, of |
| course). On machines with segmented memory |
| models machines, don't give it any more than |
| 64K. The library seems to run fine with sizes |
| of 4K. Although you can give it much less if |
| necessary (I assume you can give it chunks of |
| 1 byte, I haven't tried less than 256 bytes |
| yet). When this function returns, you may |
| want to display any rows that were generated |
| in the row callback if you don't already do |
| so there. |
| */ |
| png_process_data(png_ptr, info_ptr, buffer, length); |
| |
| /* At this point you can call png_process_data_skip if |
| you want to handle data the library will skip yourself; |
| it simply returns the number of bytes to skip (and stops |
| libpng skipping that number of bytes on the next |
| png_process_data call). |
| return 0; |
| } |
| |
| /* This function is called (as set by |
| png_set_progressive_read_fn() above) when enough data |
| has been supplied so all of the header has been |
| read. |
| */ |
| void |
| info_callback(png_structp png_ptr, png_infop info) |
| { |
| /* Do any setup here, including setting any of |
| the transformations mentioned in the Reading |
| PNG files section. For now, you _must_ call |
| either png_start_read_image() or |
| png_read_update_info() after all the |
| transformations are set (even if you don't set |
| any). You may start getting rows before |
| png_process_data() returns, so this is your |
| last chance to prepare for that. |
| |
| This is where you turn on interlace handling, |
| assuming you don't want to do it yourself. |
| |
| If you need to you can stop the processing of |
| your original input data at this point by calling |
| png_process_data_pause. This returns the number |
| of unprocessed bytes from the last png_process_data |
| call - it is up to you to ensure that the next call |
| sees these bytes again. If you don't want to bother |
| with this you can get libpng to cache the unread |
| bytes by setting the 'save' parameter (see png.h) but |
| then libpng will have to copy the data internally. |
| */ |
| } |
| |
| /* This function is called when each row of image |
| data is complete */ |
| void |
| row_callback(png_structp png_ptr, png_bytep new_row, |
| png_uint_32 row_num, int pass) |
| { |
| /* If the image is interlaced, and you turned |
| on the interlace handler, this function will |
| be called for every row in every pass. Some |
| of these rows will not be changed from the |
| previous pass. When the row is not changed, |
| the new_row variable will be NULL. The rows |
| and passes are called in order, so you don't |
| really need the row_num and pass, but I'm |
| supplying them because it may make your life |
| easier. |
| |
| If you did not turn on interlace handling then |
| the callback is called for each row of each |
| sub-image when the image is interlaced. In this |
| case 'row_num' is the row in the sub-image, not |
| the row in the output image as it is in all other |
| cases. |
| |
| For the non-NULL rows of interlaced images when |
| you have switched on libpng interlace handling, |
| you must call png_progressive_combine_row() |
| passing in the row and the old row. You can |
| call this function for NULL rows (it will just |
| return) and for non-interlaced images (it just |
| does the memcpy for you) if it will make the |
| code easier. Thus, you can just do this for |
| all cases if you switch on interlace handling; |
| */ |
| |
| png_progressive_combine_row(png_ptr, old_row, |
| new_row); |
| |
| /* where old_row is what was displayed |
| previously for the row. Note that the first |
| pass (pass == 0, really) will completely cover |
| the old row, so the rows do not have to be |
| initialized. After the first pass (and only |
| for interlaced images), you will have to pass |
| the current row, and the function will combine |
| the old row and the new row. |
| |
| You can also call png_process_data_pause in this |
| callback - see above. |
| */ |
| } |
| |
| void |
| end_callback(png_structp png_ptr, png_infop info) |
| { |
| /* This function is called after the whole image |
| has been read, including any chunks after the |
| image (up to and including the IEND). You |
| will usually have the same info chunk as you |
| had in the header, although some data may have |
| been added to the comments and time fields. |
| |
| Most people won't do much here, perhaps setting |
| a flag that marks the image as finished. |
| */ |
| } |
| |
| |
| |
| .SH IV. Writing |
| |
| Much of this is very similar to reading. However, everything of |
| importance is repeated here, so you won't have to constantly look |
| back up in the reading section to understand writing. |
| |
| .SS Setup |
| |
| You will want to do the I/O initialization before you get into libpng, |
| so if it doesn't work, you don't have anything to undo. If you are not |
| using the standard I/O functions, you will need to replace them with |
| custom writing functions. See the discussion under Customizing libpng. |
| |
| FILE *fp = fopen(file_name, "wb"); |
| |
| if (!fp) |
| return ERROR; |
| |
| Next, png_struct and png_info need to be allocated and initialized. |
| As these can be both relatively large, you may not want to store these |
| on the stack, unless you have stack space to spare. Of course, you |
| will want to check if they return NULL. If you are also reading, |
| you won't want to name your read structure and your write structure |
| both "png_ptr"; you can call them anything you like, such as |
| "read_ptr" and "write_ptr". Look at pngtest.c, for example. |
| |
| png_structp png_ptr = png_create_write_struct |
| (PNG_LIBPNG_VER_STRING, (png_voidp)user_error_ptr, |
| user_error_fn, user_warning_fn); |
| |
| if (!png_ptr) |
| return ERROR; |
| |
| png_infop info_ptr = png_create_info_struct(png_ptr); |
| if (!info_ptr) |
| { |
| png_destroy_write_struct(&png_ptr, |
| (png_infopp)NULL); |
| return ERROR; |
| } |
| |
| If you want to use your own memory allocation routines, |
| define PNG_USER_MEM_SUPPORTED and use |
| png_create_write_struct_2() instead of png_create_write_struct(): |
| |
| png_structp png_ptr = png_create_write_struct_2 |
| (PNG_LIBPNG_VER_STRING, (png_voidp)user_error_ptr, |
| user_error_fn, user_warning_fn, (png_voidp) |
| user_mem_ptr, user_malloc_fn, user_free_fn); |
| |
| After you have these structures, you will need to set up the |
| error handling. When libpng encounters an error, it expects to |
| longjmp() back to your routine. Therefore, you will need to call |
| setjmp() and pass the png_jmpbuf(png_ptr). If you |
| write the file from different routines, you will need to update |
| the png_jmpbuf(png_ptr) every time you enter a new routine that will |
| call a png_*() function. See your documentation of setjmp/longjmp |
| for your compiler for more information on setjmp/longjmp. See |
| the discussion on libpng error handling in the Customizing Libpng |
| section below for more information on the libpng error handling. |
| |
| if (setjmp(png_jmpbuf(png_ptr))) |
| { |
| png_destroy_write_struct(&png_ptr, &info_ptr); |
| fclose(fp); |
| return ERROR; |
| } |
| ... |
| return; |
| |
| If you would rather avoid the complexity of setjmp/longjmp issues, |
| you can compile libpng with PNG_NO_SETJMP, in which case |
| errors will result in a call to PNG_ABORT() which defaults to abort(). |
| |
| You can #define PNG_ABORT() to a function that does something |
| more useful than abort(), as long as your function does not |
| return. |
| |
| Checking for invalid palette index on write was added at libpng |
| 1.5.10. If a pixel contains an invalid (out-of-range) index libpng issues |
| a benign error. This is enabled by default because this condition is an |
| error according to the PNG specification, Clause 11.3.2, but the error can |
| be ignored in each png_ptr with |
| |
| png_set_check_for_invalid_index(png_ptr, 0); |
| |
| If the error is ignored, or if png_benign_error() treats it as a warning, |
| any invalid pixels are written as-is by the encoder, resulting in an |
| invalid PNG datastream as output. In this case the application is |
| responsible for ensuring that the pixel indexes are in range when it writes |
| a PLTE chunk with fewer entries than the bit depth would allow. |
| |
| Now you need to set up the output code. The default for libpng is to |
| use the C function fwrite(). If you use this, you will need to pass a |
| valid FILE * in the function png_init_io(). Be sure that the file is |
| opened in binary mode. Again, if you wish to handle writing data in |
| another way, see the discussion on libpng I/O handling in the Customizing |
| Libpng section below. |
| |
| png_init_io(png_ptr, fp); |
| |
| If you are embedding your PNG into a datastream such as MNG, and don't |
| want libpng to write the 8-byte signature, or if you have already |
| written the signature in your application, use |
| |
| png_set_sig_bytes(png_ptr, 8); |
| |
| to inform libpng that it should not write a signature. |
| |
| .SS Write callbacks |
| |
| At this point, you can set up a callback function that will be |
| called after each row has been written, which you can use to control |
| a progress meter or the like. It's demonstrated in pngtest.c. |
| You must supply a function |
| |
| void write_row_callback(png_structp png_ptr, png_uint_32 row, |
| int pass); |
| { |
| /* put your code here */ |
| } |
| |
| (You can give it another name that you like instead of "write_row_callback") |
| |
| To inform libpng about your function, use |
| |
| png_set_write_status_fn(png_ptr, write_row_callback); |
| |
| When this function is called the row has already been completely processed and |
| it has also been written out. The 'row' and 'pass' refer to the next row to be |
| handled. For the |
| non-interlaced case the row that was just handled is simply one less than the |
| passed in row number, and pass will always be 0. For the interlaced case the |
| same applies unless the row value is 0, in which case the row just handled was |
| the last one from one of the preceding passes. Because interlacing may skip a |
| pass you cannot be sure that the preceding pass is just 'pass\-1', if you really |
| need to know what the last pass is record (row,pass) from the callback and use |
| the last recorded value each time. |
| |
| As with the user transform you can find the output row using the |
| PNG_ROW_FROM_PASS_ROW macro. |
| |
| You now have the option of modifying how the compression library will |
| run. The following functions are mainly for testing, but may be useful |
| in some cases, like if you need to write PNG files extremely fast and |
| are willing to give up some compression, or if you want to get the |
| maximum possible compression at the expense of slower writing. If you |
| have no special needs in this area, let the library do what it wants by |
| not calling this function at all, as it has been tuned to deliver a good |
| speed/compression ratio. The second parameter to png_set_filter() is |
| the filter method, for which the only valid values are 0 (as of the |
| July 1999 PNG specification, version 1.2) or 64 (if you are writing |
| a PNG datastream that is to be embedded in a MNG datastream). The third |
| parameter is a flag that indicates which filter type(s) are to be tested |
| for each scanline. See the PNG specification for details on the specific |
| filter types. |
| |
| |
| /* turn on or off filtering, and/or choose |
| specific filters. You can use either a single |
| PNG_FILTER_VALUE_NAME or the bitwise OR of one |
| or more PNG_FILTER_NAME masks. |
| */ |
| png_set_filter(png_ptr, 0, |
| PNG_FILTER_NONE | PNG_FILTER_VALUE_NONE | |
| PNG_FILTER_SUB | PNG_FILTER_VALUE_SUB | |
| PNG_FILTER_UP | PNG_FILTER_VALUE_UP | |
| PNG_FILTER_AVG | PNG_FILTER_VALUE_AVG | |
| PNG_FILTER_PAETH | PNG_FILTER_VALUE_PAETH| |
| PNG_ALL_FILTERS | PNG_FAST_FILTERS); |
| |
| If an application wants to start and stop using particular filters during |
| compression, it should start out with all of the filters (to ensure that |
| the previous row of pixels will be stored in case it's needed later), |
| and then add and remove them after the start of compression. |
| |
| If you are writing a PNG datastream that is to be embedded in a MNG |
| datastream, the second parameter can be either 0 or 64. |
| |
| The png_set_compression_*() functions interface to the zlib compression |
| library, and should mostly be ignored unless you really know what you are |
| doing. The only generally useful call is png_set_compression_level() |
| which changes how much time zlib spends on trying to compress the image |
| data. See the Compression Library (zlib.h and algorithm.txt, distributed |
| with zlib) for details on the compression levels. |
| |
| #include zlib.h |
| |
| /* Set the zlib compression level */ |
| png_set_compression_level(png_ptr, |
| Z_BEST_COMPRESSION); |
| |
| /* Set other zlib parameters for compressing IDAT */ |
| png_set_compression_mem_level(png_ptr, 8); |
| png_set_compression_strategy(png_ptr, |
| Z_DEFAULT_STRATEGY); |
| png_set_compression_window_bits(png_ptr, 15); |
| png_set_compression_method(png_ptr, 8); |
| png_set_compression_buffer_size(png_ptr, 8192) |
| |
| /* Set zlib parameters for text compression |
| * If you don't call these, the parameters |
| * fall back on those defined for IDAT chunks |
| */ |
| png_set_text_compression_mem_level(png_ptr, 8); |
| png_set_text_compression_strategy(png_ptr, |
| Z_DEFAULT_STRATEGY); |
| png_set_text_compression_window_bits(png_ptr, 15); |
| png_set_text_compression_method(png_ptr, 8); |
| |
| .SS Setting the contents of info for output |
| |
| You now need to fill in the png_info structure with all the data you |
| wish to write before the actual image. Note that the only thing you |
| are allowed to write after the image is the text chunks and the time |
| chunk (as of PNG Specification 1.2, anyway). See png_write_end() and |
| the latest PNG specification for more information on that. If you |
| wish to write them before the image, fill them in now, and flag that |
| data as being valid. If you want to wait until after the data, don't |
| fill them until png_write_end(). For all the fields in png_info and |
| their data types, see png.h. For explanations of what the fields |
| contain, see the PNG specification. |
| |
| Some of the more important parts of the png_info are: |
| |
| png_set_IHDR(png_ptr, info_ptr, width, height, |
| bit_depth, color_type, interlace_type, |
| compression_type, filter_method) |
| |
| width - holds the width of the image |
| in pixels (up to 2^31). |
| |
| height - holds the height of the image |
| in pixels (up to 2^31). |
| |
| bit_depth - holds the bit depth of one of the |
| image channels. |
| (valid values are 1, 2, 4, 8, 16 |
| and depend also on the |
| color_type. See also significant |
| bits (sBIT) below). |
| |
| color_type - describes which color/alpha |
| channels are present. |
| PNG_COLOR_TYPE_GRAY |
| (bit depths 1, 2, 4, 8, 16) |
| PNG_COLOR_TYPE_GRAY_ALPHA |
| (bit depths 8, 16) |
| PNG_COLOR_TYPE_PALETTE |
| (bit depths 1, 2, 4, 8) |
| PNG_COLOR_TYPE_RGB |
| (bit_depths 8, 16) |
| PNG_COLOR_TYPE_RGB_ALPHA |
| (bit_depths 8, 16) |
| |
| PNG_COLOR_MASK_PALETTE |
| PNG_COLOR_MASK_COLOR |
| PNG_COLOR_MASK_ALPHA |
| |
| interlace_type - PNG_INTERLACE_NONE or |
| PNG_INTERLACE_ADAM7 |
| |
| compression_type - (must be |
| PNG_COMPRESSION_TYPE_DEFAULT) |
| |
| filter_method - (must be PNG_FILTER_TYPE_DEFAULT |
| or, if you are writing a PNG to |
| be embedded in a MNG datastream, |
| can also be |
| PNG_INTRAPIXEL_DIFFERENCING) |
| |
| If you call png_set_IHDR(), the call must appear before any of the |
| other png_set_*() functions, because they might require access to some of |
| the IHDR settings. The remaining png_set_*() functions can be called |
| in any order. |
| |
| If you wish, you can reset the compression_type, interlace_type, or |
| filter_method later by calling png_set_IHDR() again; if you do this, the |
| width, height, bit_depth, and color_type must be the same in each call. |
| |
| png_set_PLTE(png_ptr, info_ptr, palette, |
| num_palette); |
| |
| palette - the palette for the file |
| (array of png_color) |
| num_palette - number of entries in the palette |
| |
| |
| png_set_gAMA(png_ptr, info_ptr, file_gamma); |
| png_set_gAMA_fixed(png_ptr, info_ptr, int_file_gamma); |
| |
| file_gamma - the gamma at which the image was |
| created (PNG_INFO_gAMA) |
| |
| int_file_gamma - 100,000 times the gamma at which |
| the image was created |
| |
| png_set_cHRM(png_ptr, info_ptr, white_x, white_y, red_x, red_y, |
| green_x, green_y, blue_x, blue_y) |
| png_set_cHRM_XYZ(png_ptr, info_ptr, red_X, red_Y, red_Z, green_X, |
| green_Y, green_Z, blue_X, blue_Y, blue_Z) |
| png_set_cHRM_fixed(png_ptr, info_ptr, int_white_x, int_white_y, |
| int_red_x, int_red_y, int_green_x, int_green_y, |
| int_blue_x, int_blue_y) |
| png_set_cHRM_XYZ_fixed(png_ptr, info_ptr, int_red_X, int_red_Y, |
| int_red_Z, int_green_X, int_green_Y, int_green_Z, |
| int_blue_X, int_blue_Y, int_blue_Z) |
| |
| {white,red,green,blue}_{x,y} |
| A color space encoding specified using the chromaticities |
| of the end points and the white point. |
| |
| {red,green,blue}_{X,Y,Z} |
| A color space encoding specified using the encoding end |
| points - the CIE tristimulus specification of the intended |
| color of the red, green and blue channels in the PNG RGB |
| data. The white point is simply the sum of the three end |
| points. |
| |
| png_set_sRGB(png_ptr, info_ptr, srgb_intent); |
| |
| srgb_intent - the rendering intent |
| (PNG_INFO_sRGB) The presence of |
| the sRGB chunk means that the pixel |
| data is in the sRGB color space. |
| This chunk also implies specific |
| values of gAMA and cHRM. Rendering |
| intent is the CSS-1 property that |
| has been defined by the International |
| Color Consortium |
| (http://www.color.org). |
| It can be one of |
| PNG_sRGB_INTENT_SATURATION, |
| PNG_sRGB_INTENT_PERCEPTUAL, |
| PNG_sRGB_INTENT_ABSOLUTE, or |
| PNG_sRGB_INTENT_RELATIVE. |
| |
| |
| png_set_sRGB_gAMA_and_cHRM(png_ptr, info_ptr, |
| srgb_intent); |
| |
| srgb_intent - the rendering intent |
| (PNG_INFO_sRGB) The presence of the |
| sRGB chunk means that the pixel |
| data is in the sRGB color space. |
| This function also causes gAMA and |
| cHRM chunks with the specific values |
| that are consistent with sRGB to be |
| written. |
| |
| png_set_iCCP(png_ptr, info_ptr, name, compression_type, |
| profile, proflen); |
| |
| name - The profile name. |
| |
| compression_type - The compression type; always |
| PNG_COMPRESSION_TYPE_BASE for PNG 1.0. |
| You may give NULL to this argument to |
| ignore it. |
| |
| profile - International Color Consortium color |
| profile data. May contain NULs. |
| |
| proflen - length of profile data in bytes. |
| |
| png_set_sBIT(png_ptr, info_ptr, sig_bit); |
| |
| sig_bit - the number of significant bits for |
| (PNG_INFO_sBIT) each of the gray, red, |
| green, and blue channels, whichever are |
| appropriate for the given color type |
| (png_color_16) |
| |
| png_set_tRNS(png_ptr, info_ptr, trans_alpha, |
| num_trans, trans_color); |
| |
| trans_alpha - array of alpha (transparency) |
| entries for palette (PNG_INFO_tRNS) |
| |
| num_trans - number of transparent entries |
| (PNG_INFO_tRNS) |
| |
| trans_color - graylevel or color sample values |
| (in order red, green, blue) of the |
| single transparent color for |
| non-paletted images (PNG_INFO_tRNS) |
| |
| png_set_eXIf_1(png_ptr, info_ptr, num_exif, exif); |
| |
| exif - Exif profile (array of |
| png_byte) (PNG_INFO_eXIf) |
| |
| png_set_hIST(png_ptr, info_ptr, hist); |
| |
| hist - histogram of palette (array of |
| png_uint_16) (PNG_INFO_hIST) |
| |
| png_set_tIME(png_ptr, info_ptr, mod_time); |
| |
| mod_time - time image was last modified |
| (PNG_VALID_tIME) |
| |
| png_set_bKGD(png_ptr, info_ptr, background); |
| |
| background - background color (of type |
| png_color_16p) (PNG_VALID_bKGD) |
| |
| png_set_text(png_ptr, info_ptr, text_ptr, num_text); |
| |
| text_ptr - array of png_text holding image |
| comments |
| |
| text_ptr[i].compression - type of compression used |
| on "text" PNG_TEXT_COMPRESSION_NONE |
| PNG_TEXT_COMPRESSION_zTXt |
| PNG_ITXT_COMPRESSION_NONE |
| PNG_ITXT_COMPRESSION_zTXt |
| text_ptr[i].key - keyword for comment. Must contain |
| 1-79 characters. |
| text_ptr[i].text - text comments for current |
| keyword. Can be NULL or empty. |
| text_ptr[i].text_length - length of text string, |
| after decompression, 0 for iTXt |
| text_ptr[i].itxt_length - length of itxt string, |
| after decompression, 0 for tEXt/zTXt |
| text_ptr[i].lang - language of comment (NULL or |
| empty for unknown). |
| text_ptr[i].translated_keyword - keyword in UTF-8 (NULL |
| or empty for unknown). |
| |
| Note that the itxt_length, lang, and lang_key |
| members of the text_ptr structure only exist when the |
| library is built with iTXt chunk support. Prior to |
| libpng-1.4.0 the library was built by default without |
| iTXt support. Also note that when iTXt is supported, |
| they contain NULL pointers when the "compression" |
| field contains PNG_TEXT_COMPRESSION_NONE or |
| PNG_TEXT_COMPRESSION_zTXt. |
| |
| num_text - number of comments |
| |
| png_set_sPLT(png_ptr, info_ptr, &palette_ptr, |
| num_spalettes); |
| |
| palette_ptr - array of png_sPLT_struct structures |
| to be added to the list of palettes |
| in the info structure. |
| num_spalettes - number of palette structures to be |
| added. |
| |
| png_set_oFFs(png_ptr, info_ptr, offset_x, offset_y, |
| unit_type); |
| |
| offset_x - positive offset from the left |
| edge of the screen |
| |
| offset_y - positive offset from the top |
| edge of the screen |
| |
| unit_type - PNG_OFFSET_PIXEL, PNG_OFFSET_MICROMETER |
| |
| png_set_pHYs(png_ptr, info_ptr, res_x, res_y, |
| unit_type); |
| |
| res_x - pixels/unit physical resolution |
| in x direction |
| |
| res_y - pixels/unit physical resolution |
| in y direction |
| |
| unit_type - PNG_RESOLUTION_UNKNOWN, |
| PNG_RESOLUTION_METER |
| |
| png_set_sCAL(png_ptr, info_ptr, unit, width, height) |
| |
| unit - physical scale units (an integer) |
| |
| width - width of a pixel in physical scale units |
| |
| height - height of a pixel in physical scale units |
| (width and height are doubles) |
| |
| png_set_sCAL_s(png_ptr, info_ptr, unit, width, height) |
| |
| unit - physical scale units (an integer) |
| |
| width - width of a pixel in physical scale units |
| expressed as a string |
| |
| height - height of a pixel in physical scale units |
| (width and height are strings like "2.54") |
| |
| png_set_unknown_chunks(png_ptr, info_ptr, &unknowns, |
| num_unknowns) |
| |
| unknowns - array of png_unknown_chunk |
| structures holding unknown chunks |
| unknowns[i].name - name of unknown chunk |
| unknowns[i].data - data of unknown chunk |
| unknowns[i].size - size of unknown chunk's data |
| unknowns[i].location - position to write chunk in file |
| 0: do not write chunk |
| PNG_HAVE_IHDR: before PLTE |
| PNG_HAVE_PLTE: before IDAT |
| PNG_AFTER_IDAT: after IDAT |
| |
| The "location" member is set automatically according to |
| what part of the output file has already been written. |
| You can change its value after calling png_set_unknown_chunks() |
| as demonstrated in pngtest.c. Within each of the "locations", |
| the chunks are sequenced according to their position in the |
| structure (that is, the value of "i", which is the order in which |
| the chunk was either read from the input file or defined with |
| png_set_unknown_chunks). |
| |
| A quick word about text and num_text. text is an array of png_text |
| structures. num_text is the number of valid structures in the array. |
| Each png_text structure holds a language code, a keyword, a text value, |
| and a compression type. |
| |
| The compression types have the same valid numbers as the compression |
| types of the image data. Currently, the only valid number is zero. |
| However, you can store text either compressed or uncompressed, unlike |
| images, which always have to be compressed. So if you don't want the |
| text compressed, set the compression type to PNG_TEXT_COMPRESSION_NONE. |
| Because tEXt and zTXt chunks don't have a language field, if you |
| specify PNG_TEXT_COMPRESSION_NONE or PNG_TEXT_COMPRESSION_zTXt |
| any language code or translated keyword will not be written out. |
| |
| Until text gets around a few hundred bytes, it is not worth compressing it. |
| After the text has been written out to the file, the compression type |
| is set to PNG_TEXT_COMPRESSION_NONE_WR or PNG_TEXT_COMPRESSION_zTXt_WR, |
| so that it isn't written out again at the end (in case you are calling |
| png_write_end() with the same struct). |
| |
| The keywords that are given in the PNG Specification are: |
| |
| Title Short (one line) title or |
| caption for image |
| |
| Author Name of image's creator |
| |
| Description Description of image (possibly long) |
| |
| Copyright Copyright notice |
| |
| Creation Time Time of original image creation |
| (usually RFC 1123 format, see below) |
| |
| Software Software used to create the image |
| |
| Disclaimer Legal disclaimer |
| |
| Warning Warning of nature of content |
| |
| Source Device used to create the image |
| |
| Comment Miscellaneous comment; conversion |
| from other image format |
| |
| The keyword-text pairs work like this. Keywords should be short |
| simple descriptions of what the comment is about. Some typical |
| keywords are found in the PNG specification, as is some recommendations |
| on keywords. You can repeat keywords in a file. You can even write |
| some text before the image and some after. For example, you may want |
| to put a description of the image before the image, but leave the |
| disclaimer until after, so viewers working over modem connections |
| don't have to wait for the disclaimer to go over the modem before |
| they start seeing the image. Finally, keywords should be full |
| words, not abbreviations. Keywords and text are in the ISO 8859-1 |
| (Latin-1) character set (a superset of regular ASCII) and can not |
| contain NUL characters, and should not contain control or other |
| unprintable characters. To make the comments widely readable, stick |
| with basic ASCII, and avoid machine specific character set extensions |
| like the IBM-PC character set. The keyword must be present, but |
| you can leave off the text string on non-compressed pairs. |
| Compressed pairs must have a text string, as only the text string |
| is compressed anyway, so the compression would be meaningless. |
| |
| PNG supports modification time via the png_time structure. Two |
| conversion routines are provided, png_convert_from_time_t() for |
| time_t and png_convert_from_struct_tm() for struct tm. The |
| time_t routine uses gmtime(). You don't have to use either of |
| these, but if you wish to fill in the png_time structure directly, |
| you should provide the time in universal time (GMT) if possible |
| instead of your local time. Note that the year number is the full |
| year (e.g. 1998, rather than 98 - PNG is year 2000 compliant!), and |
| that months start with 1. |
| |
| If you want to store the time of the original image creation, you should |
| use a plain tEXt chunk with the "Creation Time" keyword. This is |
| necessary because the "creation time" of a PNG image is somewhat vague, |
| depending on whether you mean the PNG file, the time the image was |
| created in a non-PNG format, a still photo from which the image was |
| scanned, or possibly the subject matter itself. In order to facilitate |
| machine-readable dates, it is recommended that the "Creation Time" |
| tEXt chunk use RFC 1123 format dates (e.g. "22 May 1997 18:07:10 GMT"), |
| although this isn't a requirement. Unlike the tIME chunk, the |
| "Creation Time" tEXt chunk is not expected to be automatically changed |
| by the software. To facilitate the use of RFC 1123 dates, a function |
| png_convert_to_rfc1123_buffer(buffer, png_timep) is provided to |
| convert from PNG time to an RFC 1123 format string. The caller must provide |
| a writeable buffer of at least 29 bytes. |
| |
| .SS Writing unknown chunks |
| |
| You can use the png_set_unknown_chunks function to queue up private chunks |
| for writing. You give it a chunk name, location, raw data, and a size. You |
| also must use png_set_keep_unknown_chunks() to ensure that libpng will |
| handle them. That's all there is to it. The chunks will be written by the |
| next following png_write_info_before_PLTE, png_write_info, or png_write_end |
| function, depending upon the specified location. Any chunks previously |
| read into the info structure's unknown-chunk list will also be written out |
| in a sequence that satisfies the PNG specification's ordering rules. |
| |
| Here is an example of writing two private chunks, prVt and miNE: |
| |
| #ifdef PNG_WRITE_UNKNOWN_CHUNKS_SUPPORTED |
| /* Set unknown chunk data */ |
| png_unknown_chunk unk_chunk[2]; |
| strcpy((char *) unk_chunk[0].name, "prVt"; |
| unk_chunk[0].data = (unsigned char *) "PRIVATE DATA"; |
| unk_chunk[0].size = strlen(unk_chunk[0].data)+1; |
| unk_chunk[0].location = PNG_HAVE_IHDR; |
| strcpy((char *) unk_chunk[1].name, "miNE"; |
| unk_chunk[1].data = (unsigned char *) "MY CHUNK DATA"; |
| unk_chunk[1].size = strlen(unk_chunk[0].data)+1; |
| unk_chunk[1].location = PNG_AFTER_IDAT; |
| png_set_unknown_chunks(write_ptr, write_info_ptr, |
| unk_chunk, 2); |
| /* Needed because miNE is not safe-to-copy */ |
| png_set_keep_unknown_chunks(png, PNG_HANDLE_CHUNK_ALWAYS, |
| (png_bytep) "miNE", 1); |
| # if PNG_LIBPNG_VER < 10600 |
| /* Deal with unknown chunk location bug in 1.5.x and earlier */ |
| png_set_unknown_chunk_location(png, info, 0, PNG_HAVE_IHDR); |
| png_set_unknown_chunk_location(png, info, 1, PNG_AFTER_IDAT); |
| # endif |
| # if PNG_LIBPNG_VER < 10500 |
| /* PNG_AFTER_IDAT writes two copies of the chunk prior to libpng-1.5.0, |
| * one before IDAT and another after IDAT, so don't use it; only use |
| * PNG_HAVE_IHDR location. This call resets the location previously |
| * set by assignment and png_set_unknown_chunk_location() for chunk 1. |
| */ |
| png_set_unknown_chunk_location(png, info, 1, PNG_HAVE_IHDR); |
| # endif |
| #endif |
| |
| .SS The high-level write interface |
| |
| At this point there are two ways to proceed; through the high-level |
| write interface, or through a sequence of low-level write operations. |
| You can use the high-level interface if your image data is present |
| in the info structure. All defined output |
| transformations are permitted, enabled by the following masks. |
| |
| PNG_TRANSFORM_IDENTITY No transformation |
| PNG_TRANSFORM_PACKING Pack 1, 2 and 4-bit samples |
| PNG_TRANSFORM_PACKSWAP Change order of packed |
| pixels to LSB first |
| PNG_TRANSFORM_INVERT_MONO Invert monochrome images |
| PNG_TRANSFORM_SHIFT Normalize pixels to the |
| sBIT depth |
| PNG_TRANSFORM_BGR Flip RGB to BGR, RGBA |
| to BGRA |
| PNG_TRANSFORM_SWAP_ALPHA Flip RGBA to ARGB or GA |
| to AG |
| PNG_TRANSFORM_INVERT_ALPHA Change alpha from opacity |
| to transparency |
| PNG_TRANSFORM_SWAP_ENDIAN Byte-swap 16-bit samples |
| PNG_TRANSFORM_STRIP_FILLER Strip out filler |
| bytes (deprecated). |
| PNG_TRANSFORM_STRIP_FILLER_BEFORE Strip out leading |
| filler bytes |
| PNG_TRANSFORM_STRIP_FILLER_AFTER Strip out trailing |
| filler bytes |
| |
| If you have valid image data in the info structure (you can use |
| png_set_rows() to put image data in the info structure), simply do this: |
| |
| png_write_png(png_ptr, info_ptr, png_transforms, NULL) |
| |
| where png_transforms is an integer containing the bitwise OR of some set of |
| transformation flags. This call is equivalent to png_write_info(), |
| followed the set of transformations indicated by the transform mask, |
| then png_write_image(), and finally png_write_end(). |
| |
| (The final parameter of this call is not yet used. Someday it might point |
| to transformation parameters required by some future output transform.) |
| |
| You must use png_transforms and not call any png_set_transform() functions |
| when you use png_write_png(). |
| |
| .SS The low-level write interface |
| |
| If you are going the low-level route instead, you are now ready to |
| write all the file information up to the actual image data. You do |
| this with a call to png_write_info(). |
| |
| png_write_info(png_ptr, info_ptr); |
| |
| Note that there is one transformation you may need to do before |
| png_write_info(). In PNG files, the alpha channel in an image is the |
| level of opacity. If your data is supplied as a level of transparency, |
| you can invert the alpha channel before you write it, so that 0 is |
| fully transparent and 255 (in 8-bit or paletted images) or 65535 |
| (in 16-bit images) is fully opaque, with |
| |
| png_set_invert_alpha(png_ptr); |
| |
| This must appear before png_write_info() instead of later with the |
| other transformations because in the case of paletted images the tRNS |
| chunk data has to be inverted before the tRNS chunk is written. If |
| your image is not a paletted image, the tRNS data (which in such cases |
| represents a single color to be rendered as transparent) won't need to |
| be changed, and you can safely do this transformation after your |
| png_write_info() call. |
| |
| If you need to write a private chunk that you want to appear before |
| the PLTE chunk when PLTE is present, you can write the PNG info in |
| two steps, and insert code to write your own chunk between them: |
| |
| png_write_info_before_PLTE(png_ptr, info_ptr); |
| png_set_unknown_chunks(png_ptr, info_ptr, ...); |
| png_write_info(png_ptr, info_ptr); |
| |
| After you've written the file information, you can set up the library |
| to handle any special transformations of the image data. The various |
| ways to transform the data will be described in the order that they |
| should occur. This is important, as some of these change the color |
| type and/or bit depth of the data, and some others only work on |
| certain color types and bit depths. Even though each transformation |
| checks to see if it has data that it can do something with, you should |
| make sure to only enable a transformation if it will be valid for the |
| data. For example, don't swap red and blue on grayscale data. |
| |
| PNG files store RGB pixels packed into 3 or 6 bytes. This code tells |
| the library to strip input data that has 4 or 8 bytes per pixel down |
| to 3 or 6 bytes (or strip 2 or 4-byte grayscale+filler data to 1 or 2 |
| bytes per pixel). |
| |
| png_set_filler(png_ptr, 0, PNG_FILLER_BEFORE); |
| |
| where the 0 is unused, and the location is either PNG_FILLER_BEFORE or |
| PNG_FILLER_AFTER, depending upon whether the filler byte in the pixel |
| is stored XRGB or RGBX. |
| |
| PNG files pack pixels of bit depths 1, 2, and 4 into bytes as small as |
| they can, resulting in, for example, 8 pixels per byte for 1 bit files. |
| If the data is supplied at 1 pixel per byte, use this code, which will |
| correctly pack the pixels into a single byte: |
| |
| png_set_packing(png_ptr); |
| |
| PNG files reduce possible bit depths to 1, 2, 4, 8, and 16. If your |
| data is of another bit depth, you can write an sBIT chunk into the |
| file so that decoders can recover the original data if desired. |
| |
| /* Set the true bit depth of the image data */ |
| if (color_type & PNG_COLOR_MASK_COLOR) |
| { |
| sig_bit.red = true_bit_depth; |
| sig_bit.green = true_bit_depth; |
| sig_bit.blue = true_bit_depth; |
| } |
| |
| else |
| { |
| sig_bit.gray = true_bit_depth; |
| } |
| |
| if (color_type & PNG_COLOR_MASK_ALPHA) |
| { |
| sig_bit.alpha = true_bit_depth; |
| } |
| |
| png_set_sBIT(png_ptr, info_ptr, &sig_bit); |
| |
| If the data is stored in the row buffer in a bit depth other than |
| one supported by PNG (e.g. 3 bit data in the range 0-7 for a 4-bit PNG), |
| this will scale the values to appear to be the correct bit depth as |
| is required by PNG. |
| |
| png_set_shift(png_ptr, &sig_bit); |
| |
| PNG files store 16-bit pixels in network byte order (big-endian, |
| ie. most significant bits first). This code would be used if they are |
| supplied the other way (little-endian, i.e. least significant bits |
| first, the way PCs store them): |
| |
| if (bit_depth > 8) |
| png_set_swap(png_ptr); |
| |
| If you are using packed-pixel images (1, 2, or 4 bits/pixel), and you |
| need to change the order the pixels are packed into bytes, you can use: |
| |
| if (bit_depth < 8) |
| png_set_packswap(png_ptr); |
| |
| PNG files store 3 color pixels in red, green, blue order. This code |
| would be used if they are supplied as blue, green, red: |
| |
| png_set_bgr(png_ptr); |
| |
| PNG files describe monochrome as black being zero and white being |
| one. This code would be used if the pixels are supplied with this reversed |
| (black being one and white being zero): |
| |
| png_set_invert_mono(png_ptr); |
| |
| Finally, you can write your own transformation function if none of |
| the existing ones meets your needs. This is done by setting a callback |
| with |
| |
| png_set_write_user_transform_fn(png_ptr, |
| write_transform_fn); |
| |
| You must supply the function |
| |
| void write_transform_fn(png_structp png_ptr, png_row_infop |
| row_info, png_bytep data) |
| |
| See pngtest.c for a working example. Your function will be called |
| before any of the other transformations are processed. If supported |
| libpng also supplies an information routine that may be called from |
| your callback: |
| |
| png_get_current_row_number(png_ptr); |
| png_get_current_pass_number(png_ptr); |
| |
| This returns the current row passed to the transform. With interlaced |
| images the value returned is the row in the input sub-image image. Use |
| PNG_ROW_FROM_PASS_ROW(row, pass) and PNG_COL_FROM_PASS_COL(col, pass) to |
| find the output pixel (x,y) given an interlaced sub-image pixel (row,col,pass). |
| |
| The discussion of interlace handling above contains more information on how to |
| use these values. |
| |
| You can also set up a pointer to a user structure for use by your |
| callback function. |
| |
| png_set_user_transform_info(png_ptr, user_ptr, 0, 0); |
| |
| The user_channels and user_depth parameters of this function are ignored |
| when writing; you can set them to zero as shown. |
| |
| You can retrieve the pointer via the function png_get_user_transform_ptr(). |
| For example: |
| |
| voidp write_user_transform_ptr = |
| png_get_user_transform_ptr(png_ptr); |
| |
| It is possible to have libpng flush any pending output, either manually, |
| or automatically after a certain number of lines have been written. To |
| flush the output stream a single time call: |
| |
| png_write_flush(png_ptr); |
| |
| and to have libpng flush the output stream periodically after a certain |
| number of scanlines have been written, call: |
| |
| png_set_flush(png_ptr, nrows); |
| |
| Note that the distance between rows is from the last time png_write_flush() |
| was called, or the first row of the image if it has never been called. |
| So if you write 50 lines, and then png_set_flush 25, it will flush the |
| output on the next scanline, and every 25 lines thereafter, unless |
| png_write_flush() is called before 25 more lines have been written. |
| If nrows is too small (less than about 10 lines for a 640 pixel wide |
| RGB image) the image compression may decrease noticeably (although this |
| may be acceptable for real-time applications). Infrequent flushing will |
| only degrade the compression performance by a few percent over images |
| that do not use flushing. |
| |
| .SS Writing the image data |
| |
| That's it for the transformations. Now you can write the image data. |
| The simplest way to do this is in one function call. If you have the |
| whole image in memory, you can just call png_write_image() and libpng |
| will write the image. You will need to pass in an array of pointers to |
| each row. This function automatically handles interlacing, so you don't |
| need to call png_set_interlace_handling() or call this function multiple |
| times, or any of that other stuff necessary with png_write_rows(). |
| |
| png_write_image(png_ptr, row_pointers); |
| |
| where row_pointers is: |
| |
| png_byte *row_pointers[height]; |
| |
| You can point to void or char or whatever you use for pixels. |
| |
| If you don't want to write the whole image at once, you can |
| use png_write_rows() instead. If the file is not interlaced, |
| this is simple: |
| |
| png_write_rows(png_ptr, row_pointers, |
| number_of_rows); |
| |
| row_pointers is the same as in the png_write_image() call. |
| |
| If you are just writing one row at a time, you can do this with |
| a single row_pointer instead of an array of row_pointers: |
| |
| png_bytep row_pointer = row; |
| |
| png_write_row(png_ptr, row_pointer); |
| |
| When the file is interlaced, things can get a good deal more complicated. |
| The only currently (as of the PNG Specification version 1.2, dated July |
| 1999) defined interlacing scheme for PNG files is the "Adam7" interlace |
| scheme, that breaks down an image into seven smaller images of varying |
| size. libpng will build these images for you, or you can do them |
| yourself. If you want to build them yourself, see the PNG specification |
| for details of which pixels to write when. |
| |
| If you don't want libpng to handle the interlacing details, just |
| use png_set_interlace_handling() and call png_write_rows() the |
| correct number of times to write all the sub-images |
| (png_set_interlace_handling() returns the number of sub-images.) |
| |
| If you want libpng to build the sub-images, call this before you start |
| writing any rows: |
| |
| |