Image::Leptonica::Func::fmorphauto
version 0.04
fmorphauto.c
fmorphauto.c Main function calls: l_int32 fmorphautogen() l_int32 fmorphautogen1() l_int32 fmorphautogen2() Static helpers: static SARRAY *sarrayMakeWplsCode() static SARRAY *sarrayMakeInnerLoopDWACode() static char *makeBarrelshiftString() This automatically generates dwa code for erosion and dilation. Here's a road map for how it all works. (1) You generate an array (a SELA) of structuring elements (SELs). This can be done in several ways, including (a) calling the function selaAddBasic() for pre-compiled SELs (b) generating the SELA in code in line (c) reading in a SELA from file, using selaRead() or various other formats. (2) You call fmorphautogen1() and fmorphautogen2() on this SELA. These use the text files morphtemplate1.txt and morphtemplate2.txt for building up the source code. See the file prog/fmorphautogen.c for an example of how this is done. The output is written to files named fmorphgen.*.c and fmorphgenlow.*.c, where "*" is an integer that you input to this function. That integer labels both the output files, as well as all the functions that are generated. That way, using different integers, you can invoke fmorphautogen() any number of times to get functions that all have different names so that they can be linked into one program. (3) You copy the generated source files back to your src directory for compilation. Put their names in the Makefile, regenerate the prototypes, and recompile the library. Look at the Makefile to see how I've included morphgen.1.c and fmorphgenlow.1.c. These files provide the high-level interfaces for erosion, dilation, opening and closing, and the low-level interfaces to do the actual work, for all 58 SELs in the SEL array. (4) In an application, you now use this interface. Again for the example files in the library, using integer "1": PIX *pixMorphDwa_1(PIX *pixd, PIX, *pixs, l_int32 operation, char *selname); or PIX *pixFMorphopGen_1(PIX *pixd, PIX *pixs, l_int32 operation, char *selname); where the operation is one of {L_MORPH_DILATE, L_MORPH_ERODE. L_MORPH_OPEN, L_MORPH_CLOSE}, and the selname is one of the set that were defined as the name field of sels. This set is listed at the beginning of the file fmorphgen.1.c. For examples of use, see the file prog/binmorph_reg1.c, which verifies the consistency of the various implementations by comparing the dwa result with that of full-image rasterops.
l_int32 fmorphautogen ( SELA *sela, l_int32 fileindex, const char *filename )
fmorphautogen() Input: sela fileindex filename (<optional>; can be null) Return: 0 if OK; 1 on error Notes: (1) This function generates all the code for implementing dwa morphological operations using all the sels in the sela. (2) See fmorphautogen1() and fmorphautogen2() for details.
l_int32 fmorphautogen1 ( SELA *sela, l_int32 fileindex, const char *filename )
fmorphautogen1() Input: sela fileindex filename (<optional>; can be null) Return: 0 if OK; 1 on error Notes: (1) This function uses morphtemplate1.txt to create a top-level file that contains two functions. These functions will carry out dilation, erosion, opening or closing for any of the sels in the input sela. (2) The fileindex parameter is inserted into the output filename, as described below. (3) If filename == NULL, the output file is fmorphgen.<n>.c, where <n> is equal to the 'fileindex' parameter. (4) If filename != NULL, the output file is <filename>.<n>.c.
l_int32 fmorphautogen2 ( SELA *sela, l_int32 fileindex, const char *filename )
fmorphautogen2() Input: sela fileindex filename (<optional>; can be null) Return: 0 if OK; 1 on error Notes: (1) This function uses morphtemplate2.txt to create a low-level file that contains the low-level functions for implementing dilation and erosion for every sel in the input sela. (2) The fileindex parameter is inserted into the output filename, as described below. (3) If filename == NULL, the output file is fmorphgenlow.<n>.c, where <n> is equal to the 'fileindex' parameter. (4) If filename != NULL, the output file is <filename>low.<n>.c.
Zakariyya Mughal <zmughal@cpan.org>
This software is copyright (c) 2014 by Zakariyya Mughal.
This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself.
To install Image::Leptonica, copy and paste the appropriate command in to your terminal.
cpanm
cpanm Image::Leptonica
CPAN shell
perl -MCPAN -e shell install Image::Leptonica
For more information on module installation, please visit the detailed CPAN module installation guide.