comparison Meerwald-dir/wavelet.h @ 24:9f20bce6184e v0.7

move directories, support netpbm 11
author Peter Meerwald-Stadler <pmeerw@pmeerw.net>
date Fri, 20 Dec 2024 13:08:59 +0100
parents Meerwald/wavelet.h@f83ef905a63d
children
comparison
equal deleted inserted replaced
23:71dd4b96221b 24:9f20bce6184e
1 #ifndef WAVELET_H
2
3 #include <stdio.h>
4
5 extern char dbgstr[1000];
6
7 /* this are internal functions - don't use 'em! */
8 void out_dbg_str(const char *str);
9 void start_trace(void);
10 void stop_trace(void);
11 void flush_trace_file(void);
12
13 /* public functions / macros */
14 #define StartTrace
15 #define StopTrace
16
17 #define Trace(str)
18 #define TraceVar(str,var)
19
20 #define Entering
21 #define Leaving
22 #define LeavingErr
23 #define FlushTrace
24
25 #define Warning(str)
26
27 #define PreCondition(exp,str)
28 #define PostCondition(exp,str)
29
30 /* Note that if an error is added, an errormessage for this specific
31 error must also be added. Otherwise no appropriate message can
32 be displayed in an error window. ( Then "Unknown error ocurred"
33 will be displayed.)
34 The errormessage must be added to the case-construct in the
35 procedure err_GetErrorMessage
36 */
37
38 typedef enum
39 {
40 Error_NoError, /* No Error has happened. */
41 Error_NotImplemented, /* A needed part has not (yet) been
42 implemented */
43 Error_AssertionFailed, /* An assertion, pre- or postcondition failed.
44 Occurs only in buggy programs. */
45 Error_NotEnoughMemory, /* We can't allocate the memory we need. */
46
47 Error_Limitation, /* Some limitation exceeded, e.g. a string
48 variable is too short */
49
50
51 Error_CantOpenFile, /* The file cannot be opened */
52 Error_CantCreateFile,
53 Error_CantWriteIntoFile,
54 Error_CantCloseFile,
55 Error_WrongFileFormat,
56
57 Error_WidthOrHeightZero,
58 Error_CompressedZeroContent,
59 Error_OriginalZeroContent,
60
61 Error_InternalError
62
63 }Error;
64
65
66 /************************************************************************/
67 /* Functionname: err_simple_message */
68 /* -------------------------------------------------------------------- */
69 /* Parameter: */
70 /* char *: string that contains information about an */
71 /* error the user should know. */
72 /* -------------------------------------------------------------------- */
73 /* Description: */
74 /* Prints error messages for the user. */
75 /************************************************************************/
76 void err_SimpleMessage(char *message);
77
78 /************************************************************************/
79 /* Functionname: err_get_message */
80 /* -------------------------------------------------------------------- */
81 /* Return value: Errormessage for this specific error. */
82 /* Parameter: */
83 /* Error err: Error whose errormessage should be returned */
84 /* -------------------------------------------------------------------- */
85 /* Description: */
86 /************************************************************************/
87 char * err_GetErrorMessage(Error err);
88
89 #include <stddef.h>
90
91 typedef double Pixel;
92
93 typedef struct Image_struct {
94 Pixel *data;
95 int width,height;
96
97 /* redundant, for our fun only :-) */
98 Pixel min_val,max_val; /* range of pixel-values in data */
99 /* [min_val..max_val] */
100 int size; /* = width * height */
101 int bpp; /* bits per pixel of original image */
102 } *Image;
103
104 typedef unsigned int IntPixel;
105
106 typedef struct IntImage_struct {
107 IntPixel *data;
108 int width, height;
109
110 /* redundant, for our fun only :-) */
111 IntPixel min_val,max_val; /* range of values in data */
112 /* [min_val..max_val] */
113 int size; /* = width * height */
114 int bpp; /* bits per pixel of original image */
115 } *IntImage;
116
117 typedef struct Image_tree_struct {
118 double entropy;
119 struct Image_tree_struct *coarse,*horizontal,*vertical,*diagonal,*doubletree;
120 Image image;
121 int level;
122 int flag;
123
124 void *codec_data;
125 IntImage significance_map;
126 } *Image_tree;
127
128 typedef struct Image_info_struct {
129 Pixel min,max,mean,var,rms;
130 } *Image_info;
131
132 enum zigzag_direction {zigzag_up,zigzag_down,zigzag_right,zigzag_left};
133
134 typedef struct Zigzag_data_struct {
135 int x,y,w,h;
136 enum zigzag_direction dir;
137 } *Zigzag_data;
138
139 #define get_intpixel(image,x,y) ( ((image)==NULL || \
140 (x)<0 || (x)>=(image)->width || (y)<0 || (y)>=(image)->height) \
141 ? (IntPixel) 0 : (image)->data[(x)+(y)*(image)->width])
142
143 #define set_intpixel(image,x,y,val) if (!((image)==NULL || \
144 (x)<0 || (x)>=(image)->width || (y)<0 || (y)>=(image)->height)) \
145 (image)->data[(x)+(y)*(image)->width]=(IntPixel) (val)
146
147 #define get_pixel(image,x,y) ( ((image)==NULL || \
148 (x)<0 || (x)>=(image)->width || (y)<0 || (y)>=(image)->height) \
149 ? (Pixel) 0 : (image)->data[(x)+(y)*(image)->width])
150
151 #define set_pixel(image,x,y,val) if (!((image)==NULL || \
152 (x)<0 || (x)>=(image)->width || (y)<0 || (y)>=(image)->height)) \
153 (image)->data[(x)+(y)*(image)->width]=(Pixel) (val)
154
155 #define get_pixel_adr(image,x,y) ( ((image)==NULL || \
156 (x)<0 || (x)>=(image)->width || (y)<0 || (y)>=(image)->height) \
157 ? (Pixel*) NULL : (image)->data+((x)+(y)*(image)->width))
158
159 /* functions: */
160
161 IntImage new_intimage(int width, int height);
162 IntImage load_intimage(char *file, int max_val);
163 void free_intimage(IntImage img);
164
165 void clear_intimage(IntImage img);
166 void copy_into_intimage(IntImage img1,IntImage img2,int x,int y);
167 void copy_part_of_intimage(IntImage img1,IntImage img2,int x,int y);
168
169 Image new_image(int width, int height);
170 void free_image(Image img);
171 void clear_image(Image img);
172 void copy_into_image(Image img1,Image img2,int x,int y);
173 void scale_image(Image img,int maximum);
174 void copy_part_of_image(Image img1,Image img2,int x,int y);
175
176 void copy_part_of_image_into_image(
177 Image dest_img, int dest_x, int dest_y,
178 Image src_img, int src_x, int src_y,
179 int width, int height);
180
181
182 int string_to_pixel(char *str, Pixel *p);
183
184 Image load_image(char *file, int max_val);
185 int save_image_P5(char *file, Image img);
186
187 Image intimage_to_image(IntImage i);
188 IntImage image_to_intimage(Image i);
189
190 Image_tree new_image_tree();
191 void free_image_tree(Image_tree t);
192
193 Image get_difference_image(Image image1, Image image2);
194
195 void get_image_infos(Image image, Image_info info);
196
197 void get_intimage_infos(IntImage image, IntPixel *min, IntPixel *max, Pixel *avg, Pixel *var);
198
199 void init_zigzag(Zigzag_data zz, int width, int height);
200 void next_zigzag(Zigzag_data zz);
201 Image get_absolute_image_scaled(Image img);
202
203 /* common macros */
204
205 #ifndef MIN
206 #define MIN(a,b) ((a)<(b)?(a):(b))
207 #endif
208
209 #ifndef MAX
210 #define MAX(a,b) ((a)>(b)?(a):(b))
211 #endif
212
213 enum FilterType { FTNoSymm, FTSymm, FTAntiSymm};
214
215 typedef struct FilterStruct {
216 enum FilterType type;
217 int hipass;
218 Pixel * data;
219 int start,end;
220
221 int len;
222 } *Filter;
223
224 Filter new_filter(int size);
225
226 int filter_cutoff(Image in, int in_start, int in_len, int in_step,
227 Image out, int out_start, int out_len, int out_step,
228 Filter f);
229
230 int filter_inv_cutoff(Image in, int in_start, int in_len, int in_step,
231 Image out, int out_start, int out_len, int out_step,
232 Filter f);
233
234 int filter_periodical(Image in, int in_start, int in_len, int in_step,
235 Image out, int out_start, int out_len, int out_step,
236 Filter f);
237
238 int filter_inv_periodical(Image in, int in_start, int in_len, int in_step,
239 Image out, int out_start, int out_len, int out_step,
240 Filter f);
241
242 int filter_mirror(Image in, int in_start, int in_len, int in_step,
243 Image out, int out_start, int out_len, int out_step,
244 Filter f);
245
246 int filter_inv_mirror(Image in, int in_start, int in_len, int in_step,
247 Image out, int out_start, int out_len, int out_step,
248 Filter f);
249
250 Pixel get_filter_center(Filter f);
251
252 enum FilterGHType { FTOrtho, FTBiOrtho, FTOther};
253
254 typedef struct FilterGHStruct {
255 enum FilterGHType type;
256 Filter g, h, gi, hi;
257 char *name;
258 } *FilterGH;
259
260 typedef struct AllFilterStruct {
261 FilterGH *filter;
262 int count;
263 } *AllFilters;
264
265
266 AllFilters load_filters(char *name);
267
268 typedef struct SegmentsStruct {
269 int width,height; /* segment width & height*/
270 int *data;
271 } *Segments;
272
273 enum FilterMethod{cutoff,inv_cutoff,periodical,inv_periodical,mirror,inv_mirror};
274
275 enum Information_Cost{threshold,log_energy,entropy,norml,norml2,gauss_markov,
276 shanon,weak_l,weak_lq,compression_number,compression_numberq,
277 compression_area,compression_areaq,sdiscrepancy,discrepancy,concentration};
278
279 Image_tree wavelettransform(Image original,int level,FilterGH *flt,enum FilterMethod method);
280 Image_tree wavelettransform_wp(Image original,int level,FilterGH *flt,enum FilterMethod method);
281
282 Image_tree best_basis(Image original,int level,FilterGH *flt,
283 enum FilterMethod method,enum Information_Cost cost,double epsilon);
284
285 Image_tree best_level(Image original,int maxlevel,int *bestlevel,FilterGH *flt,enum FilterMethod method,
286 enum Information_Cost cost,double epsilon);
287
288 Image build_image(Image_tree quadtree,int width,int height);
289
290 Image inv_transform(Image_tree quadtree,FilterGH *flt,
291 enum FilterMethod method);
292
293 Image inv_transform_wp(Image_tree quadtree,FilterGH *flt,
294 enum FilterMethod method);
295
296 int rec_double(Image_tree dtree,int level,FilterGH *flt,enum FilterMethod method,enum Information_Cost cost,double epsilon);
297
298 Image_tree decompose_to_level(Image original,int level,FilterGH *flt,enum FilterMethod method);
299
300 int decompose_all(Image_tree tree,int maxlevel,FilterGH *flt,enum FilterMethod method,
301 enum Information_Cost cost,double epsilon);
302
303 int find_deepest_level(int width,int height);
304
305
306 #define WAVELET_H
307 #endif

Repositories maintained by Peter Meerwald, pmeerw@pmeerw.net.