/* -*- C++ -*- * File: libraw_internal_funcs.h * Copyright 2008-2018 LibRaw LLC (info@libraw.org) * Created: Sat Mar 14, 2008 LibRaw is free software; you can redistribute it and/or modify it under the terms of the one of two licenses as you choose: 1. GNU LESSER GENERAL PUBLIC LICENSE version 2.1 (See file LICENSE.LGPL provided in LibRaw distribution archive for details). 2. COMMON DEVELOPMENT AND DISTRIBUTION LICENSE (CDDL) Version 1.0 (See file LICENSE.CDDL provided in LibRaw distribution archive for details). */ #ifndef _LIBRAW_INTERNAL_FUNCS_H #define _LIBRAW_INTERNAL_FUNCS_H #ifndef LIBRAW_LIBRARY_BUILD #error "This file should be used only for libraw library build" #else /* WF */ void wf_bayer4_igauss_filter(int radius,void* src_image, int src_imgmode, void* dst_image, int dst_imgmode); void wf_bayer4_green_blur (int mode,void* src_image, int src_imgmode, void* dst_image, int dst_imgmode); void wf_bayer4_block_filter (int* radius_list, void* src_image, int src_imgmode, void* dst_image, int dst_imgmode); double wf_filter_energy (int r1_greenmode, int r1, int r2_greenmode, int r2); /* inline functions */ ushort sget2 (uchar *s); ushort sget2Rev(uchar *s); unsigned setCanonBodyFeatures (unsigned id); void processCanonCameraInfo (unsigned id, uchar *CameraInfo, unsigned maxlen, unsigned type); void Canon_CameraSettings(); void Canon_WBpresets (int skip1, int skip2); void Canon_WBCTpresets (short WBCTversion); void parseCanonMakernotes (unsigned tag, unsigned type, unsigned len); void processNikonLensData (uchar *LensData, unsigned len); void setOlympusBodyFeatures (unsigned long long id); void setPhaseOneFeatures (unsigned id); void setPentaxBodyFeatures (unsigned id); void PentaxISO (ushort c); void PentaxLensInfo (unsigned id, unsigned len); void setSonyBodyFeatures (unsigned id); void parseSonyLensType2 (uchar a, uchar b); void parseSonyLensFeatures (uchar a, uchar b); void process_Sony_0x0116 (uchar * buf, ushort, unsigned id); void process_Sony_0x2010 (uchar * buf, ushort); void process_Sony_0x9050 (uchar * buf, ushort, unsigned id); void process_Sony_0x9400 (uchar * buf, ushort, unsigned id); void process_Sony_0x9402 (uchar * buf, ushort); void process_Sony_0x9403 (uchar * buf, ushort); void process_Sony_0x9406 (uchar * buf, ushort); void process_Sony_0x940c (uchar * buf, ushort); void process_Sony_0x940e (uchar * buf, ushort, unsigned id); void parseSonyMakernotes (unsigned tag, unsigned type, unsigned len, unsigned dng_writer, uchar *&table_buf_0x0116, ushort &table_buf_0x0116_len, uchar *&table_buf_0x2010, ushort &table_buf_0x2010_len, uchar *&table_buf_0x9050, ushort &table_buf_0x9050_len, uchar *&table_buf_0x9400, ushort &table_buf_0x9400_len, uchar *&table_buf_0x9402, ushort &table_buf_0x9402_len, uchar *&table_buf_0x9403, ushort &table_buf_0x9403_len, uchar *&table_buf_0x9406, ushort &table_buf_0x9406_len, uchar *&table_buf_0x940c, ushort &table_buf_0x940c_len, uchar *&table_buf_0x940e, ushort &table_buf_0x940e_len); void parseFujiMakernotes (unsigned tag, unsigned type); ushort get2(); unsigned sget4 (uchar *s); unsigned getint (int type); float int_to_float (int i); double getreal (int type); void read_shorts (ushort *pixel, unsigned count); /* Canon P&S cameras */ void canon_600_fixed_wb (int temp); int canon_600_color (int ratio[2], int mar); void canon_600_auto_wb(); void canon_600_coeff(); void canon_600_load_raw(); void canon_600_correct(); int canon_s2is(); void parse_ciff (int offset, int length, int); void ciff_block_1030(); // LJPEG decoder unsigned getbithuff (int nbits, ushort *huff); ushort* make_decoder_ref (const uchar **source); ushort* make_decoder (const uchar *source); int ljpeg_start (struct jhead *jh, int info_only); void ljpeg_end(struct jhead *jh); int ljpeg_diff (ushort *huff); ushort * ljpeg_row (int jrow, struct jhead *jh); void ljpeg_idct (struct jhead *jh); unsigned ph1_bithuff (int nbits, ushort *huff); // Canon DSLRs void crw_init_tables (unsigned table, ushort *huff[2]); int canon_has_lowbits(); void canon_load_raw(); void lossless_jpeg_load_raw(); void canon_sraw_load_raw(); // Adobe DNG void adobe_copy_pixel (unsigned int row, unsigned int col, ushort **rp); void lossless_dng_load_raw(); void deflate_dng_load_raw(); void packed_dng_load_raw(); void lossy_dng_load_raw(); //void adobe_dng_load_raw_nc(); // Pentax void pentax_load_raw(); void pentax_4shot_load_raw(); void pentax_tree(); // Nikon (and Minolta Z2) void nikon_load_raw(); void nikon_load_striped_packed_raw(); void nikon_load_sraw(); void nikon_yuv_load_raw(); void nikon_coolscan_load_raw(); int nikon_e995(); int nikon_e2100(); void nikon_3700(); int minolta_z2(); void nikon_e2100_load_raw(); // Fuji //void fuji_load_raw(); void parse_fuji (int offset); // RedCine void parse_redcine(); void redcine_load_raw(); // Rollei void rollei_load_raw(); void parse_rollei(); // MF backs //int bayer (unsigned row, unsigned col); int raw(unsigned,unsigned); void phase_one_flat_field (int is_float, int nc); void phase_one_load_raw(); unsigned ph1_bits (int nbits); void phase_one_load_raw_c(); void hasselblad_load_raw(); void leaf_hdr_load_raw(); void sinar_4shot_load_raw(); void imacon_full_load_raw(); void hasselblad_full_load_raw(); void packed_load_raw(); float find_green(int,int,int,int); void unpacked_load_raw(); void unpacked_load_raw_reversed(); void unpacked_load_raw_fuji_f700s20(); void parse_sinar_ia(); void parse_phase_one (int base); // Misc P&S cameras void parse_broadcom(); void broadcom_load_raw(); void nokia_load_raw(); void android_loose_load_raw(); void android_tight_load_raw(); void canon_rmf_load_raw(); unsigned pana_data (int nb, unsigned *bytes); void panasonic_load_raw(); void panasonic_16x10_load_raw(); void olympus_load_raw(); void olympus_cseries_load_raw(); void minolta_rd175_load_raw(); void quicktake_100_load_raw(); const int* make_decoder_int (const int *source, int level); int radc_token (int tree); void kodak_radc_load_raw(); void kodak_jpeg_load_raw(); void kodak_dc120_load_raw(); void eight_bit_load_raw(); void smal_decode_segment (unsigned seg[2][2], int holes); void smal_v6_load_raw(); int median4 (int *p); void fill_holes (int holes); void smal_v9_load_raw(); void parse_riff(); void parse_cine(); void parse_smal (int offset, int fsize); int parse_jpeg (int offset); // Kodak void kodak_262_load_raw(); int kodak_65000_decode (short *out, int bsize); void kodak_65000_load_raw(); void kodak_rgb_load_raw(); void kodak_ycbcr_load_raw(); // void kodak_yrgb_load_raw(); void kodak_c330_load_raw(); void kodak_c603_load_raw(); void kodak_rgb_load_thumb(); void kodak_ycbcr_load_thumb(); // It's a Sony (and K&M) void sony_decrypt (unsigned *data, int len, int start, int key); void sony_load_raw(); void sony_arw_load_raw(); void sony_arw2_load_raw(); void sony_arq_load_raw(); void samsung_load_raw(); void samsung2_load_raw(); void samsung3_load_raw(); void parse_minolta (int base); // Foveon/Sigma // We always have x3f code compiled in! void parse_x3f(); void x3f_load_raw(); void x3f_dpq_interpolate_rg(); void x3f_dpq_interpolate_af(int xstep, int ystep, int scale); // 1x1 af pixels void x3f_dpq_interpolate_af_sd(int xstart,int ystart, int xend, int yend, int xstep, int ystep, int scale); // sd Quattro interpolation // CAM/RGB void pseudoinverse (double (*in)[3], double (*out)[3], int size); void simple_coeff (int index); // Tiff/Exif parsers void tiff_get (unsigned base,unsigned *tag, unsigned *type, unsigned *len, unsigned *save); void parse_thumb_note (int base, unsigned toff, unsigned tlen); void parse_makernote (int base, int uptag); void parse_makernote_0xc634(int base, int uptag, unsigned dng_writer); void parse_exif (int base); void linear_table (unsigned len); void Kodak_WB_0x08tags(int wb, unsigned type); void parse_kodak_ifd (int base); int parse_tiff_ifd (int base); int parse_tiff (int base); void apply_tiff(void); void parse_gps (int base); void parse_gps_libraw(int base); void romm_coeff(float romm_cam[3][3]); void parse_mos (int offset); void parse_qt (int end); void get_timestamp (int reversed); // External JPEGs, what cameras uses it ? void parse_external_jpeg(); // The identify short guess_byte_order (int words); // Tiff writer void tiff_set(struct tiff_hdr *th, ushort *ntag,ushort tag, ushort type, int count, int val); void tiff_head (struct tiff_hdr *th, int full); // split AHD code #define TS 512 void ahd_interpolate_green_h_and_v(int top, int left, ushort (*out_rgb)[TS][TS][3]); void ahd_interpolate_r_and_b_in_rgb_and_convert_to_cielab(int top, int left, ushort (*inout_rgb)[TS][3], short (*out_lab)[TS][3]); void ahd_interpolate_r_and_b_and_convert_to_cielab(int top, int left, ushort (*inout_rgb)[TS][TS][3], short (*out_lab)[TS][TS][3]); void ahd_interpolate_build_homogeneity_map(int top, int left, short (*lab)[TS][TS][3], char (*out_homogeneity_map)[TS][2]); void ahd_interpolate_combine_homogeneous_pixels(int top, int left, ushort (*rgb)[TS][TS][3], char (*homogeneity_map)[TS][2]); #undef TS void init_fuji_compr(struct fuji_compressed_params* info); void init_fuji_block(struct fuji_compressed_block* info, const struct fuji_compressed_params *params, INT64 raw_offset, unsigned dsize); void copy_line_to_xtrans(struct fuji_compressed_block* info, int cur_line, int cur_block, int cur_block_width); void copy_line_to_bayer(struct fuji_compressed_block* info, int cur_line, int cur_block, int cur_block_width); void xtrans_decode_block(struct fuji_compressed_block* info, const struct fuji_compressed_params *params, int cur_line); void fuji_bayer_decode_block(struct fuji_compressed_block* info, const struct fuji_compressed_params *params, int cur_line); void fuji_compressed_load_raw(); void fuji_14bit_load_raw(); void parse_fuji_compressed_header(); // DCB void dcb_pp(); void dcb_copy_to_buffer(float (*image2)[3]); void dcb_restore_from_buffer(float (*image2)[3]); void dcb_color(); void dcb_color_full(); void dcb_map(); void dcb_correction(); void dcb_correction2(); void dcb_refinement(); void rgb_to_lch(double (*image3)[3]); void lch_to_rgb(double (*image3)[3]); void fbdd_correction(); void fbdd_correction2(double (*image3)[3]); void fbdd_green(); void dcb_ver(float (*image3)[3]); void dcb_hor(float (*image2)[3]); void dcb_color2(float (*image2)[3]); void dcb_color3(float (*image3)[3]); void dcb_decide(float (*image2)[3], float (*image3)[3]); void dcb_nyquist(); #endif #endif