Mercurial > hg > wm
view Meerwald/wavelet.h @ 23:71dd4b96221b
fix some compiler warning
author | Peter Meerwald-Stadler <pmeerw@pmeerw.net> |
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date | Fri, 20 Dec 2024 12:53:41 +0100 |
parents | f83ef905a63d |
children |
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#ifndef WAVELET_H #include <stdio.h> extern char dbgstr[1000]; /* this are internal functions - don't use 'em! */ void out_dbg_str(const char *str); void start_trace(void); void stop_trace(void); void flush_trace_file(void); /* public functions / macros */ #define StartTrace #define StopTrace #define Trace(str) #define TraceVar(str,var) #define Entering #define Leaving #define LeavingErr #define FlushTrace #define Warning(str) #define PreCondition(exp,str) #define PostCondition(exp,str) /* Note that if an error is added, an errormessage for this specific error must also be added. Otherwise no appropriate message can be displayed in an error window. ( Then "Unknown error ocurred" will be displayed.) The errormessage must be added to the case-construct in the procedure err_GetErrorMessage */ typedef enum { Error_NoError, /* No Error has happened. */ Error_NotImplemented, /* A needed part has not (yet) been implemented */ Error_AssertionFailed, /* An assertion, pre- or postcondition failed. Occurs only in buggy programs. */ Error_NotEnoughMemory, /* We can't allocate the memory we need. */ Error_Limitation, /* Some limitation exceeded, e.g. a string variable is too short */ Error_CantOpenFile, /* The file cannot be opened */ Error_CantCreateFile, Error_CantWriteIntoFile, Error_CantCloseFile, Error_WrongFileFormat, Error_WidthOrHeightZero, Error_CompressedZeroContent, Error_OriginalZeroContent, Error_InternalError }Error; /************************************************************************/ /* Functionname: err_simple_message */ /* -------------------------------------------------------------------- */ /* Parameter: */ /* char *: string that contains information about an */ /* error the user should know. */ /* -------------------------------------------------------------------- */ /* Description: */ /* Prints error messages for the user. */ /************************************************************************/ void err_SimpleMessage(char *message); /************************************************************************/ /* Functionname: err_get_message */ /* -------------------------------------------------------------------- */ /* Return value: Errormessage for this specific error. */ /* Parameter: */ /* Error err: Error whose errormessage should be returned */ /* -------------------------------------------------------------------- */ /* Description: */ /************************************************************************/ char * err_GetErrorMessage(Error err); #include <stddef.h> typedef double Pixel; typedef struct Image_struct { Pixel *data; int width,height; /* redundant, for our fun only :-) */ Pixel min_val,max_val; /* range of pixel-values in data */ /* [min_val..max_val] */ int size; /* = width * height */ int bpp; /* bits per pixel of original image */ } *Image; typedef unsigned int IntPixel; typedef struct IntImage_struct { IntPixel *data; int width, height; /* redundant, for our fun only :-) */ IntPixel min_val,max_val; /* range of values in data */ /* [min_val..max_val] */ int size; /* = width * height */ int bpp; /* bits per pixel of original image */ } *IntImage; typedef struct Image_tree_struct { double entropy; struct Image_tree_struct *coarse,*horizontal,*vertical,*diagonal,*doubletree; Image image; int level; int flag; void *codec_data; IntImage significance_map; } *Image_tree; typedef struct Image_info_struct { Pixel min,max,mean,var,rms; } *Image_info; enum zigzag_direction {zigzag_up,zigzag_down,zigzag_right,zigzag_left}; typedef struct Zigzag_data_struct { int x,y,w,h; enum zigzag_direction dir; } *Zigzag_data; #define get_intpixel(image,x,y) ( ((image)==NULL || \ (x)<0 || (x)>=(image)->width || (y)<0 || (y)>=(image)->height) \ ? (IntPixel) 0 : (image)->data[(x)+(y)*(image)->width]) #define set_intpixel(image,x,y,val) if (!((image)==NULL || \ (x)<0 || (x)>=(image)->width || (y)<0 || (y)>=(image)->height)) \ (image)->data[(x)+(y)*(image)->width]=(IntPixel) (val) #define get_pixel(image,x,y) ( ((image)==NULL || \ (x)<0 || (x)>=(image)->width || (y)<0 || (y)>=(image)->height) \ ? (Pixel) 0 : (image)->data[(x)+(y)*(image)->width]) #define set_pixel(image,x,y,val) if (!((image)==NULL || \ (x)<0 || (x)>=(image)->width || (y)<0 || (y)>=(image)->height)) \ (image)->data[(x)+(y)*(image)->width]=(Pixel) (val) #define get_pixel_adr(image,x,y) ( ((image)==NULL || \ (x)<0 || (x)>=(image)->width || (y)<0 || (y)>=(image)->height) \ ? (Pixel*) NULL : (image)->data+((x)+(y)*(image)->width)) /* functions: */ IntImage new_intimage(int width, int height); IntImage load_intimage(char *file, int max_val); void free_intimage(IntImage img); void clear_intimage(IntImage img); void copy_into_intimage(IntImage img1,IntImage img2,int x,int y); void copy_part_of_intimage(IntImage img1,IntImage img2,int x,int y); Image new_image(int width, int height); void free_image(Image img); void clear_image(Image img); void copy_into_image(Image img1,Image img2,int x,int y); void scale_image(Image img,int maximum); void copy_part_of_image(Image img1,Image img2,int x,int y); void copy_part_of_image_into_image( Image dest_img, int dest_x, int dest_y, Image src_img, int src_x, int src_y, int width, int height); int string_to_pixel(char *str, Pixel *p); Image load_image(char *file, int max_val); int save_image_P5(char *file, Image img); Image intimage_to_image(IntImage i); IntImage image_to_intimage(Image i); Image_tree new_image_tree(); void free_image_tree(Image_tree t); Image get_difference_image(Image image1, Image image2); void get_image_infos(Image image, Image_info info); void get_intimage_infos(IntImage image, IntPixel *min, IntPixel *max, Pixel *avg, Pixel *var); void init_zigzag(Zigzag_data zz, int width, int height); void next_zigzag(Zigzag_data zz); Image get_absolute_image_scaled(Image img); /* common macros */ #ifndef MIN #define MIN(a,b) ((a)<(b)?(a):(b)) #endif #ifndef MAX #define MAX(a,b) ((a)>(b)?(a):(b)) #endif enum FilterType { FTNoSymm, FTSymm, FTAntiSymm}; typedef struct FilterStruct { enum FilterType type; int hipass; Pixel * data; int start,end; int len; } *Filter; Filter new_filter(int size); int filter_cutoff(Image in, int in_start, int in_len, int in_step, Image out, int out_start, int out_len, int out_step, Filter f); int filter_inv_cutoff(Image in, int in_start, int in_len, int in_step, Image out, int out_start, int out_len, int out_step, Filter f); int filter_periodical(Image in, int in_start, int in_len, int in_step, Image out, int out_start, int out_len, int out_step, Filter f); int filter_inv_periodical(Image in, int in_start, int in_len, int in_step, Image out, int out_start, int out_len, int out_step, Filter f); int filter_mirror(Image in, int in_start, int in_len, int in_step, Image out, int out_start, int out_len, int out_step, Filter f); int filter_inv_mirror(Image in, int in_start, int in_len, int in_step, Image out, int out_start, int out_len, int out_step, Filter f); Pixel get_filter_center(Filter f); enum FilterGHType { FTOrtho, FTBiOrtho, FTOther}; typedef struct FilterGHStruct { enum FilterGHType type; Filter g, h, gi, hi; char *name; } *FilterGH; typedef struct AllFilterStruct { FilterGH *filter; int count; } *AllFilters; AllFilters load_filters(char *name); typedef struct SegmentsStruct { int width,height; /* segment width & height*/ int *data; } *Segments; enum FilterMethod{cutoff,inv_cutoff,periodical,inv_periodical,mirror,inv_mirror}; enum Information_Cost{threshold,log_energy,entropy,norml,norml2,gauss_markov, shanon,weak_l,weak_lq,compression_number,compression_numberq, compression_area,compression_areaq,sdiscrepancy,discrepancy,concentration}; Image_tree wavelettransform(Image original,int level,FilterGH *flt,enum FilterMethod method); Image_tree wavelettransform_wp(Image original,int level,FilterGH *flt,enum FilterMethod method); Image_tree best_basis(Image original,int level,FilterGH *flt, enum FilterMethod method,enum Information_Cost cost,double epsilon); Image_tree best_level(Image original,int maxlevel,int *bestlevel,FilterGH *flt,enum FilterMethod method, enum Information_Cost cost,double epsilon); Image build_image(Image_tree quadtree,int width,int height); Image inv_transform(Image_tree quadtree,FilterGH *flt, enum FilterMethod method); Image inv_transform_wp(Image_tree quadtree,FilterGH *flt, enum FilterMethod method); int rec_double(Image_tree dtree,int level,FilterGH *flt,enum FilterMethod method,enum Information_Cost cost,double epsilon); Image_tree decompose_to_level(Image original,int level,FilterGH *flt,enum FilterMethod method); int decompose_all(Image_tree tree,int maxlevel,FilterGH *flt,enum FilterMethod method, enum Information_Cost cost,double epsilon); int find_deepest_level(int width,int height); #define WAVELET_H #endif