Image::Leptonica::Func::textops
version 0.04
textops.c
textops.c Font layout PIX *pixAddSingleTextblock() PIX *pixAddSingleTextline() l_int32 pixSetTextblock() l_int32 pixSetTextline() PIXA *pixaAddTextNumber() PIXA *pixaAddTextline() Text size estimation and partitioning SARRAY *bmfGetLineStrings() NUMA *bmfGetWordWidths() l_int32 bmfGetStringWidth() Text splitting SARRAY *splitStringToParagraphs() static l_int32 stringAllWhitespace() static l_int32 stringLeadingWhitespace() This is a simple utility to put text on images. One font and style is provided, with a variety of pt sizes. For example, to put a line of green 10 pt text on an image, with the beginning baseline at (50, 50): L_Bmf *bmf = bmfCreate("./fonts", 10); const char *textstr = "This is a funny cat"; pixSetTextline(pixs, bmf, textstr, 0x00ff0000, 50, 50, NULL, NULL); The simplest interfaces for adding text to an image are pixAddSingleTextline() and pixAddSingleTextblock().
SARRAY * bmfGetLineStrings ( L_BMF *bmf, const char *textstr, l_int32 maxw, l_int32 firstindent, l_int32 *ph )
bmfGetLineStrings() Input: bmf textstr maxw (max width of a text line in pixels) firstindent (indentation of first line, in x-widths) &h (<return> height required to hold text bitmap) Return: sarray of text strings for each line, or null on error Notes: (1) Divides the input text string into an array of text strings, each of which will fit within maxw bits of width.
l_int32 bmfGetStringWidth ( L_BMF *bmf, const char *textstr, l_int32 *pw )
bmfGetStringWidth() Input: bmf textstr &w (<return> width of text string, in pixels for the font represented by the bmf) Return: 0 if OK, 1 on error
NUMA * bmfGetWordWidths ( L_BMF *bmf, const char *textstr, SARRAY *sa )
bmfGetWordWidths() Input: bmf textstr sa (of individual words) Return: numa (of word lengths in pixels for the font represented by the bmf), or null on error
PIX * pixAddSingleTextblock ( PIX *pixs, L_BMF *bmf, const char *textstr, l_uint32 val, l_int32 location, l_int32 *poverflow )
pixAddSingleTextblock() Input: pixs (input pix; colormap ok) bmf (bitmap font data) textstr (<optional> text string to be added) val (color to set the text) location (L_ADD_ABOVE, L_ADD_AT_TOP, L_ADD_AT_BOT, L_ADD_BELOW) &overflow (<optional return> 1 if text overflows allocated region and is clipped; 0 otherwise) Return: pixd (new pix with rendered text), or null on error Notes: (1) This function paints a set of lines of text over an image. If @location is L_ADD_ABOVE or L_ADD_BELOW, the pix size is expanded with a border and rendered over the border. (2) @val is the pixel value to be painted through the font mask. It should be chosen to agree with the depth of pixs. If it is out of bounds, an intermediate value is chosen. For RGB, use hex notation: 0xRRGGBB00, where RR is the hex representation of the red intensity, etc. (3) If textstr == NULL, use the text field in the pix. (4) If there is a colormap, this does the best it can to use the requested color, or something similar to it. (5) Typical usage is for labelling a pix with some text data.
PIX * pixAddSingleTextline ( PIX *pixs, L_BMF *bmf, const char *textstr, l_uint32 val, l_int32 location )
pixAddSingleTextline() Input: pixs (input pix; colormap ok) bmf (bitmap font data) textstr (<optional> text string to be added) val (color to set the text) location (L_ADD_ABOVE, L_ADD_BELOW, L_ADD_LEFT, L_ADD_RIGHT) Return: pixd (new pix with rendered text), or null on error Notes: (1) This function expands an image as required to paint a single line of text adjacent to the image. (2) @val is the pixel value to be painted through the font mask. It should be chosen to agree with the depth of pixs. If it is out of bounds, an intermediate value is chosen. For RGB, use hex notation: 0xRRGGBB00, where RR is the hex representation of the red intensity, etc. (3) If textstr == NULL, use the text field in the pix. (4) If there is a colormap, this does the best it can to use the requested color, or something similar to it. (5) Typical usage is for labelling a pix with some text data.
l_int32 pixSetTextblock ( PIX *pixs, L_BMF *bmf, const char *textstr, l_uint32 val, l_int32 x0, l_int32 y0, l_int32 wtext, l_int32 firstindent, l_int32 *poverflow )
pixSetTextblock() Input: pixs (input image) bmf (bitmap font data) textstr (block text string to be set) val (color to set the text) x0 (left edge for each line of text) y0 (baseline location for the first text line) wtext (max width of each line of generated text) firstindent (indentation of first line, in x-widths) &overflow (<optional return> 0 if text is contained in input pix; 1 if it is clipped) Return: 0 if OK, 1 on error Notes: (1) This function paints a set of lines of text over an image. (2) @val is the pixel value to be painted through the font mask. It should be chosen to agree with the depth of pixs. If it is out of bounds, an intermediate value is chosen. For RGB, use hex notation: 0xRRGGBB00, where RR is the hex representation of the red intensity, etc. The last two hex digits are 00 (byte value 0), assigned to the A component. Note that, as usual, RGBA proceeds from left to right in the order from MSB to LSB (see pix.h for details). (3) If there is a colormap, this does the best it can to use the requested color, or something similar to it.
l_int32 pixSetTextline ( PIX *pixs, L_BMF *bmf, const char *textstr, l_uint32 val, l_int32 x0, l_int32 y0, l_int32 *pwidth, l_int32 *poverflow )
pixSetTextline() Input: pixs (input image) bmf (bitmap font data) textstr (text string to be set on the line) val (color to set the text) x0 (left edge for first char) y0 (baseline location for all text on line) &width (<optional return> width of generated text) &overflow (<optional return> 0 if text is contained in input pix; 1 if it is clipped) Return: 0 if OK, 1 on error Notes: (1) This function paints a line of text over an image. (2) @val is the pixel value to be painted through the font mask. It should be chosen to agree with the depth of pixs. If it is out of bounds, an intermediate value is chosen. For RGB, use hex notation: 0xRRGGBB00, where RR is the hex representation of the red intensity, etc. The last two hex digits are 00 (byte value 0), assigned to the A component. Note that, as usual, RGBA proceeds from left to right in the order from MSB to LSB (see pix.h for details). (3) If there is a colormap, this does the best it can to use the requested color, or something similar to it.
PIXA * pixaAddTextNumber ( PIXA *pixas, L_BMF *bmf, NUMA *na, l_uint32 val, l_int32 location )
pixaAddTextNumber() Input: pixas (input pixa; colormap ok) bmf (bitmap font data) numa (<optional> number array; use 1 ... n if null) val (color to set the text) location (L_ADD_ABOVE, L_ADD_BELOW, L_ADD_LEFT, L_ADD_RIGHT) Return: pixad (new pixa with rendered numbers), or null on error Notes: (1) Typical usage is for labelling each pix in a pixa with a number. (2) This function paints numbers external to each pix, in a position given by @location. In all cases, the pix is expanded on on side and the number is painted over white in the added region. (3) @val is the pixel value to be painted through the font mask. It should be chosen to agree with the depth of pixs. If it is out of bounds, an intermediate value is chosen. For RGB, use hex notation: 0xRRGGBB00, where RR is the hex representation of the red intensity, etc. (4) If na == NULL, number each pix sequentially, starting with 1. (5) If there is a colormap, this does the best it can to use the requested color, or something similar to it.
PIXA * pixaAddTextline ( PIXA *pixas, L_BMF *bmf, SARRAY *sa, l_uint32 val, l_int32 location )
pixaAddTextline() Input: pixas (input pixa; colormap ok) bmf (bitmap font data) sa (<optional> sarray; use text embedded in each pix if null) val (color to set the text) location (L_ADD_ABOVE, L_ADD_BELOW, L_ADD_LEFT, L_ADD_RIGHT) Return: pixad (new pixa with rendered text), or null on error Notes: (1) This function paints a line of text external to each pix, in a position given by @location. In all cases, the pix is expanded as necessary to accommodate the text. (2) @val is the pixel value to be painted through the font mask. It should be chosen to agree with the depth of pixs. If it is out of bounds, an intermediate value is chosen. For RGB, use hex notation: 0xRRGGBB00, where RR is the hex representation of the red intensity, etc. (3) If sa == NULL, use the text embedded in each pix. (4) If sa has a smaller count than pixa, issue a warning but do not use any embedded text. (5) If there is a colormap, this does the best it can to use the requested color, or something similar to it.
SARRAY * splitStringToParagraphs ( char *textstr, l_int32 splitflag )
splitStringToParagraphs() Input: textstring splitting flag (see enum in bmf.h; valid values in {1,2,3}) Return: sarray (where each string is a paragraph of the input), or null on error.
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.