#ifndef _DATATYPES_H_ #define _DATATYPES_H_ #include "imconfig.h" #include "imio.h" #define MAXCHANNELS 4 /* used for palette indices in some internal code (which might be exposed at some point */ typedef unsigned char i_palidx; /* We handle 2 types of sample, this is hopefully the most common, and the smaller of the ones we support */ typedef unsigned char i_sample_t; typedef struct { i_sample_t gray_color; } gray_color; typedef struct { i_sample_t r,g,b; } rgb_color; typedef struct { i_sample_t r,g,b,a; } rgba_color; typedef struct { i_sample_t c,m,y,k; } cmyk_color; typedef int undef_int; /* special value to put in typemaps to retun undef on 0 and 1 on 1 */ typedef union { gray_color gray; rgb_color rgb; rgba_color rgba; cmyk_color cmyk; i_sample_t channel[MAXCHANNELS]; unsigned int ui; } i_color; /* this is the larger sample type, it should be able to accurately represent any sample size we use */ typedef double i_fsample_t; typedef struct { i_fsample_t gray_color; } i_fgray_color_t; typedef struct { i_fsample_t r, g, b; } i_frgb_color_t; typedef struct { i_fsample_t r, g, b, a; } i_frgba_color_t; typedef struct { i_fsample_t c, m, y, k; } i_fcmyk_color_t; typedef union { i_fgray_color_t gray; i_frgb_color_t rgb; i_frgba_color_t rgba; i_fcmyk_color_t cmyk; i_fsample_t channel[MAXCHANNELS]; } i_fcolor; typedef enum { i_direct_type, /* direct colour, keeps RGB values per pixel */ i_palette_type /* keeps a palette index per pixel */ } i_img_type_t; typedef enum { /* bits per sample, not per pixel */ /* a paletted image might have one bit per sample */ i_8_bits = 8, i_16_bits = 16, i_double_bits = sizeof(double) * 8 } i_img_bits_t; typedef struct { char *name; /* name of a given tag, might be NULL */ int code; /* number of a given tag, -1 if it has no meaning */ char *data; /* value of a given tag if it's not an int, may be NULL */ int size; /* size of the data */ int idata; /* value of a given tag if data is NULL */ } i_img_tag; typedef struct { int count; /* how many tags have been set */ int alloc; /* how many tags have been allocated for */ i_img_tag *tags; } i_img_tags; typedef struct i_img_ i_img; typedef int (*i_f_ppix_t)(i_img *im, int x, int y, const i_color *pix); typedef int (*i_f_ppixf_t)(i_img *im, int x, int y, const i_fcolor *pix); typedef int (*i_f_plin_t)(i_img *im, int x, int r, int y, const i_color *vals); typedef int (*i_f_plinf_t)(i_img *im, int x, int r, int y, const i_fcolor *vals); typedef int (*i_f_gpix_t)(i_img *im, int x, int y, i_color *pix); typedef int (*i_f_gpixf_t)(i_img *im, int x, int y, i_fcolor *pix); typedef int (*i_f_glin_t)(i_img *im, int x, int r, int y, i_color *vals); typedef int (*i_f_glinf_t)(i_img *im, int x, int r, int y, i_fcolor *vals); typedef int (*i_f_gsamp_t)(i_img *im, int x, int r, int y, i_sample_t *samp, const int *chans, int chan_count); typedef int (*i_f_gsampf_t)(i_img *im, int x, int r, int y, i_fsample_t *samp, const int *chan, int chan_count); typedef int (*i_f_gpal_t)(i_img *im, int x, int r, int y, i_palidx *vals); typedef int (*i_f_ppal_t)(i_img *im, int x, int r, int y, const i_palidx *vals); typedef int (*i_f_addcolors_t)(i_img *im, const i_color *colors, int count); typedef int (*i_f_getcolors_t)(i_img *im, int i, i_color *, int count); typedef int (*i_f_colorcount_t)(i_img *im); typedef int (*i_f_maxcolors_t)(i_img *im); typedef int (*i_f_findcolor_t)(i_img *im, const i_color *color, i_palidx *entry); typedef int (*i_f_setcolors_t)(i_img *im, int index, const i_color *colors, int count); typedef void (*i_f_destroy_t)(i_img *im); typedef int (*i_f_gsamp_bits_t)(i_img *im, int x, int r, int y, unsigned *samp, const int *chans, int chan_count, int bits); typedef int (*i_f_psamp_bits_t)(i_img *im, int x, int r, int y, unsigned const *samp, const int *chans, int chan_count, int bits); typedef int i_img_dim; /* =item i_img =category Data Types =synopsis i_img *img; This is Imager's image type. It contains the following members: =over =item * channels - the number of channels in the image =item * xsize, ysize - the width and height of the image in pixels =item * bytes - the number of bytes used to store the image data. Undefined where virtual is non-zero. =item * ch_mask - a mask of writable channels. eg. if this is 6 then only channels 1 and 2 are writable. There may be bits set for which there are no channels in the image. =item * bits - the number of bits stored per sample. Should be one of i_8_bits, i_16_bits, i_double_bits. =item * type - either i_direct_type for direct color images, or i_palette_type for paletted images. =item * virtual - if zero then this image is-self contained. If non-zero then this image could be an interface to some other implementation. =item * idata - the image data. This should not be directly accessed. A new image implementation can use this to store its image data. i_img_destroy() will myfree() this pointer if it's non-null. =item * tags - a structure storing the image's tags. This should only be accessed via the i_tags_*() functions. =item * ext_data - a pointer for use internal to an image implementation. This should be freed by the image's destroy handler. =item * im_data - data internal to Imager. This is initialized by i_img_init(). =item * i_f_ppix, i_f_ppixf, i_f_plin, i_f_plinf, i_f_gpix, i_f_gpixf, i_f_glin, i_f_glinf, i_f_gsamp, i_f_gampf - implementations for each of the required image functions. An image implementation should initialize these between calling i_img_alloc() and i_img_init(). =item * i_f_gpal, i_f_ppal, i_f_addcolors, i_f_getcolors, i_f_colorcount, i_f_maxcolors, i_f_findcolor, i_f_setcolors - implementations for each paletted image function. =item * i_f_destroy - custom image destruction function. This should be used to release memory if necessary. =item * i_f_gsamp_bits - implements i_gsamp_bits() for this image. =item * i_f_psamp_bits - implements i_psamp_bits() for this image. =back =cut */ struct i_img_ { int channels; i_img_dim xsize,ysize; size_t bytes; unsigned int ch_mask; i_img_bits_t bits; i_img_type_t type; int virtual; /* image might not keep any data, must use functions */ unsigned char *idata; /* renamed to force inspection of existing code */ /* can be NULL if virtual is non-zero */ i_img_tags tags; void *ext_data; /* interface functions */ i_f_ppix_t i_f_ppix; i_f_ppixf_t i_f_ppixf; i_f_plin_t i_f_plin; i_f_plinf_t i_f_plinf; i_f_gpix_t i_f_gpix; i_f_gpixf_t i_f_gpixf; i_f_glin_t i_f_glin; i_f_glinf_t i_f_glinf; i_f_gsamp_t i_f_gsamp; i_f_gsampf_t i_f_gsampf; /* only valid for type == i_palette_type */ i_f_gpal_t i_f_gpal; i_f_ppal_t i_f_ppal; i_f_addcolors_t i_f_addcolors; i_f_getcolors_t i_f_getcolors; i_f_colorcount_t i_f_colorcount; i_f_maxcolors_t i_f_maxcolors; i_f_findcolor_t i_f_findcolor; i_f_setcolors_t i_f_setcolors; i_f_destroy_t i_f_destroy; /* as of 0.61 */ i_f_gsamp_bits_t i_f_gsamp_bits; i_f_psamp_bits_t i_f_psamp_bits; void *im_data; }; /* ext_data for paletted images */ typedef struct { int count; /* amount of space used in palette (in entries) */ int alloc; /* amount of space allocated for palette (in entries) */ i_color *pal; int last_found; } i_img_pal_ext; /* Helper datatypes The types in here so far are: doubly linked bucket list - pretty efficient octtree - no idea about goodness needed: hashes. */ /* bitmap mask */ struct i_bitmap { int xsize,ysize; char *data; }; struct i_bitmap* btm_new(int xsize,int ysize); void btm_destroy(struct i_bitmap *btm); int btm_test(struct i_bitmap *btm,int x,int y); void btm_set(struct i_bitmap *btm,int x,int y); /* Stack/Linked list */ struct llink { struct llink *p,*n; void *data; int fill; /* Number used in this link */ }; struct llist { struct llink *h,*t; int multip; /* # of copies in a single chain */ int ssize; /* size of each small element */ int count; /* number of elements on the list */ }; /* Links */ struct llink *llink_new( struct llink* p,int size ); int llist_llink_push( struct llist *lst, struct llink *lnk, void *data ); /* Lists */ struct llist *llist_new( int multip, int ssize ); void llist_destroy( struct llist *l ); void llist_push( struct llist *l, void *data ); void llist_dump( struct llist *l ); int llist_pop( struct llist *l,void *data ); /* Octtree */ struct octt { struct octt *t[8]; int cnt; }; struct octt *octt_new(void); int octt_add(struct octt *ct,unsigned char r,unsigned char g,unsigned char b); void octt_dump(struct octt *ct); void octt_count(struct octt *ct,int *tot,int max,int *overflow); void octt_delete(struct octt *ct); void octt_histo(struct octt *ct, unsigned int **col_usage_it_adr); /* font bounding box results */ enum bounding_box_index_t { BBOX_NEG_WIDTH, BBOX_GLOBAL_DESCENT, BBOX_POS_WIDTH, BBOX_GLOBAL_ASCENT, BBOX_DESCENT, BBOX_ASCENT, BBOX_ADVANCE_WIDTH, BBOX_RIGHT_BEARING, BOUNDING_BOX_COUNT }; /* Generic fills */ struct i_fill_tag; typedef void (*i_fill_with_color_f) (struct i_fill_tag *fill, int x, int y, int width, int channels, i_color *data); typedef void (*i_fill_with_fcolor_f) (struct i_fill_tag *fill, int x, int y, int width, int channels, i_fcolor *data); typedef void (*i_fill_destroy_f)(struct i_fill_tag *fill); /* combine functions modify their target and are permitted to modify the source to prevent having to perform extra copying/memory allocations, etc The out array has I channels. The in array has I channels + an alpha channel if one isn't included in I. */ typedef void (*i_fill_combine_f)(i_color *out, i_color *in, int channels, int count); typedef void (*i_fill_combinef_f)(i_fcolor *out, i_fcolor *in, int channels, int count); /* fountain fill types */ typedef enum { i_fst_linear, i_fst_curved, i_fst_sine, i_fst_sphere_up, i_fst_sphere_down, i_fst_end } i_fountain_seg_type; typedef enum { i_fc_direct, i_fc_hue_up, i_fc_hue_down, i_fc_end } i_fountain_color; typedef struct { double start, middle, end; i_fcolor c[2]; i_fountain_seg_type type; i_fountain_color color; } i_fountain_seg; typedef enum { i_fr_none, i_fr_sawtooth, i_fr_triangle, i_fr_saw_both, i_fr_tri_both } i_fountain_repeat; typedef enum { i_ft_linear, i_ft_bilinear, i_ft_radial, i_ft_radial_square, i_ft_revolution, i_ft_conical, i_ft_end } i_fountain_type; typedef enum { i_fts_none, i_fts_grid, i_fts_random, i_fts_circle } i_ft_supersample; typedef struct i_fill_tag { /* called for 8-bit/sample image (and maybe lower) */ /* this may be NULL, if so call fill_with_fcolor */ i_fill_with_color_f f_fill_with_color; /* called for other sample sizes */ /* this must be non-NULL */ i_fill_with_fcolor_f f_fill_with_fcolor; /* called if non-NULL to release any extra resources */ i_fill_destroy_f destroy; /* if non-zero the caller will fill data with the original data from the image */ i_fill_combine_f combine; i_fill_combinef_f combinef; } i_fill_t; typedef enum { ic_none, ic_normal, ic_multiply, ic_dissolve, ic_add, ic_subtract, ic_diff, ic_lighten, ic_darken, ic_hue, ic_sat, ic_value, ic_color } i_combine_t; /* describes an axis of a MM font. Modelled on FT2's FT_MM_Axis. It would be nice to have a default entry too, but FT2 doesn't support it. */ typedef struct i_font_mm_axis_tag { char const *name; int minimum; int maximum; } i_font_mm_axis; #define IM_FONT_MM_MAX_AXES 4 /* multiple master information for a font, if any modelled on FT2's FT_Multi_Master. */ typedef struct i_font_mm_tag { int num_axis; int num_designs; /* provided but not necessarily useful */ i_font_mm_axis axis[IM_FONT_MM_MAX_AXES]; } i_font_mm; #ifdef HAVE_LIBTT struct TT_Fonthandle_; typedef struct TT_Fonthandle_ TT_Fonthandle; #endif #ifdef HAVE_FT2 typedef struct FT2_Fonthandle FT2_Fonthandle; #endif /* transparency handling for quantized output */ typedef enum i_transp_tag { tr_none, /* ignore any alpha channel */ tr_threshold, /* threshold the transparency - uses tr_threshold */ tr_errdiff, /* error diffusion */ tr_ordered /* an ordered dither */ } i_transp; /* controls how we build the colour map */ typedef enum i_make_colors_tag { mc_none, /* user supplied colour map only */ mc_web_map, /* Use the 216 colour web colour map */ mc_addi, /* Addi's algorithm */ mc_median_cut, /* median cut - similar to giflib, hopefully */ mc_mono, /* fixed mono color map */ mc_mask = 0xFF /* (mask for generator) */ } i_make_colors; /* controls how we translate the colours */ typedef enum i_translate_tag { pt_giflib, /* get gif lib to do it (ignores make_colours) */ pt_closest, /* just use the closest match within the hashbox */ pt_perturb, /* randomly perturb the data - uses perturb_size*/ pt_errdiff /* error diffusion dither - uses errdiff */ } i_translate; /* Which error diffusion map to use */ typedef enum i_errdiff_tag { ed_floyd, /* floyd-steinberg */ ed_jarvis, /* Jarvis, Judice and Ninke */ ed_stucki, /* Stucki */ ed_custom, /* the map found in ed_map|width|height|orig */ ed_mask = 0xFF, /* mask to get the map */ ed_bidir = 0x100 /* change direction for each row */ } i_errdiff; /* which ordered dither map to use currently only available for transparency I don't know of a way to do ordered dither of an image against some general palette */ typedef enum i_ord_dith_tag { od_random, /* sort of random */ od_dot8, /* large dot */ od_dot4, od_hline, od_vline, od_slashline, /* / line dither */ od_backline, /* \ line dither */ od_tiny, /* small checkerbox */ od_custom /* custom 8x8 map */ } i_ord_dith; typedef struct i_gif_pos_tag { int x, y; } i_gif_pos; /* passed into i_writegif_gen() to control quantization */ typedef struct i_quantize_tag { /* how to handle transparency */ i_transp transp; /* the threshold at which to make pixels opaque */ int tr_threshold; i_errdiff tr_errdiff; i_ord_dith tr_orddith; unsigned char tr_custom[64]; /* how to make the colour map */ i_make_colors make_colors; /* any existing colours mc_existing is an existing colour table mc_count is the number of existing colours mc_size is the total size of the array that mc_existing points at - this must be at least 256 */ i_color *mc_colors; int mc_size; int mc_count; /* how we translate the colours */ i_translate translate; /* the error diffusion map to use if translate is mc_errdiff */ i_errdiff errdiff; /* the following define the error diffusion values to use if errdiff is ed_custom. ed_orig is the column on the top row that represents the current */ int *ed_map; int ed_width, ed_height, ed_orig; /* the amount of perturbation to use for translate is mc_perturb */ int perturb; } i_quantize; typedef struct i_gif_opts { /* each image has a local color map */ int each_palette; /* images are interlaced */ int interlace; /* time for which image is displayed (in 1/100 seconds) default: 0 */ int delay_count; int *delays; /* user input flags default: 0 */ int user_input_count; char *user_input_flags; /* disposal default: 0 */ int disposal_count; char *disposal; /* this is added to the color table when we make an image transparent */ i_color tran_color; /* image positions */ int position_count; i_gif_pos *positions; /* Netscape loop extension - number of loops */ int loop_count; /* should be eliminate unused colors? */ int eliminate_unused; } i_gif_opts; /* distance measures used by some filters */ enum { i_dmeasure_euclidean = 0, i_dmeasure_euclidean_squared = 1, i_dmeasure_manhatten = 2, i_dmeasure_limit = 2, }; #include "iolayert.h" #include "rendert.h" #endif