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gd 2.0.1
This is gd 2.0.1 BETA.
If you have problems, report them
in detail, and consider using gd 1.8.4 until gd 2.0 final is out.
The gd 2.0 documentation update is not complete, but most new features
are documented to some degree and the what's new section is reasonably
complete. Enjoy!
gd 2.0.1
A graphics library for fast image creation
HEY! READ THIS!
gd 2.0.1 creates PNG, JPEG and WBMP images, not GIF images. This is a
good thing. PNG is a more compact format, and full compression is
available. JPEG works well with photographic images, and is still
more compatible with the major Web browsers than even PNG is. WBMP is
intended for wireless devices (not regular web browsers). Existing
code will need modification to call gdImagePng or gdImageJpeg instead
of gdImageGif. Please do not ask us to send you the old GIF
version of GD. Unisys holds a patent on the LZW compression
algorithm, which is used in fully compressed GIF images. The best
solution is to move to legally unencumbered, well-compressed,
modern image formats such as PNG and JPEG as soon as possible.
gd 2.0.1 requires that the following libraries
also be installed:
libpng (see the libpng home page)
zlib (see the info-zip home page)
zlib
jpeg-6b or later, if desired (see the Independent JPEG Group home page)
If you want to use the TrueType font support, you must also
install the FreeType 2.x library, including
the header files. See the Freetype
Home Page, or SourceForge.
No, I cannot explain why that site is down on a particular day, and no, I
can't send you a copy.
If you want to use the Xpm color bitmap loading support, you must also
have the X Window System and the Xpm library installed (Xpm is often
included in modern X distributions).
Please read the documentation and install the required libraries.
Do not send email asking why png.h is not found.
Do not send email asking why libgd.so is not found, either.
See the requirements section for more
information. Thank you!
Table of Contents
Up to the Boutell.Com, Inc. Home Page
Credits and license terms
In order to resolve any possible confusion regarding the authorship
of gd, the following copyright statement covers all of the authors
who have required such a statement. If you are aware of any oversights
in this copyright notice, please contact
Thomas Boutell who will be
pleased to correct them.
COPYRIGHT STATEMENT FOLLOWS THIS LINE
Portions copyright 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001 by Cold Spring
Harbor Laboratory. Funded under Grant P41-RR02188 by the National
Institutes of Health.
Portions copyright 1996, 1997, 1998, 1999, 2000, 2001 by Boutell.Com, Inc.
Portions relating to GD2 format copyright 1999, 2000 Philip Warner.
Portions relating to PNG copyright 1999, 2000 Greg Roelofs.
Portions relating to libttf copyright 1999, 2000 John Ellson (ellson@lucent.com).
Portions relating to JPEG and to color quantization copyright 2000, Doug
Becker and copyright (C) 1994-1998, Thomas G. Lane. This software is based
in part on the work of the Independent JPEG Group. See the file
README-JPEG.TXT for more information.
Portions relating to WBMP copyright 2000 Maurice Szmurlo and Johan Van
den Brande.
Permission has been granted to copy, distribute and modify gd in any
context without fee, including a commercial application, provided that this notice
is present in user-accessible supporting documentation.
This does not affect your ownership of the derived work itself, and the intent
is to assure proper credit for the authors of gd, not to interfere
with your productive use of gd. If you have questions, ask.
"Derived works" includes all programs that utilize the library.
Credit must be given in user-accessible documentation.
This software is provided "AS IS."
The copyright holders disclaim all warranties, either express or implied,
including but not limited to implied warranties of merchantability and
fitness for a particular purpose, with respect to this code and accompanying
documentation.
Although their code does not appear in gd 2.0.1, the authors wish to
thank David Koblas, David Rowley, and Hutchison Avenue Software
Corporation for their prior contributions.
END OF COPYRIGHT STATEMENT
What is gd?
gd is a graphics library. It allows your code to quickly
draw images complete with lines, arcs, text, multiple
colors, cut and paste from other images, and flood fills, and
write out the result as a PNG or JPEG file. This is particularly
useful in World Wide Web applications, where PNG and JPEG are two
of the formats accepted for inline images by most browsers.
gd is not a paint program.
If you are looking for a paint program, you are looking in
the wrong place. If you are not a programmer, you are looking
in the wrong place, unless you are installing a required
library in order to run an application.
gd does not provide for every possible desirable graphics
operation. It is not necessary or desirable for gd to become
a kitchen-sink graphics package, but version 2.0 does include
most frequently requested features, including both truecolor and
palette images, resampling (smooth resizing of truecolor images)
and so forth.
What if I want to use another programming
language?
Not all of these tools are necessarily up to date and fully compatible
with 2.0.1.
Perl
gd can also be used from Perl, courtesy of
Lincoln Stein's
GD.pm library, which uses gd as the basis for a set of
Perl 5.x classes. Highly recommended.
Tcl
gd can be used from Tcl with John Ellson's
Gdtclft
dynamically loaded extension package.
(Gdtclft2.0 or later is needed for gd-1.6 and up with PNG output.)
Pascal
Pascal enthusiasts should look into Michael Bradbury's
gdfp package.
Haskell
A new gd interface is now available for
Haskell
programmers.
REXX
A
gd interface
for the REXX language is available.
Any Language
There are, at the moment, at least three simple interpreters that
perform gd operations. You can output the desired commands to a simple
text file from whatever scripting language you prefer to use, then
invoke the interpreter.
- tgd, by Bradley K. Sherman
- fly, by Martin Gleeson
What's new in version 2.0.1?
- Workaround for a bug in gcc, apparently found in gcc 2.7.2 and up.
I reproduced and fixed it while using gcc 2.9.5.2. The bug occurred only
when the -g option was in use. This problem caused gcc to spew
internal error messages unrelated to the correctness of the code
in gd_gd2.c. Howard Jones was first to report it.
- gdImageFilledEllipse documented
and altered; no longer requires a superfluous style argument. Thanks to
Francis James Franklin.
- The Makefile now offers the correct syntax for
optionally creating a static library. Thanks to Jean-Lous Regez,
among others.
- A nested comment, an attempt to return the value of a void function,
and a potentially significant error in gdImageCopyResampled were fixed
thanks to Joseph Shirley.
- A bug preventing proper truecolor text rendering was fixed,
thanks to Jason Gallagher.
- gdImageStringFT (FreeType) should
now work better against a transparent or semitransparent background,
and should act in a manner consistent with the most recent
gdImageAlphaBlending setting.
Antialiasing is now done via the alpha channel mechanism if the
image is a truecolor image.
- Bugs in the output of gdImageArc and gdImageFilledArc were reported
by Bruce Verderaime. A simple and correct but inefficient implementation
has been substituted until fixes are contributed for the faster code,
which is in gd_arc_f_buggy.c along with the test program that reproduces
the bug(s).
- gdImageFilledArc now offers additional
style options, which can be combined to produce various effects.
- Masahito Yamaga (ma@yama-ga.com) sent a patch to improve
support for Japanese output via gdImageStringFT.
He also added a new
readme.jpn file.
- Zillions of documentation fixes.
What's new in version 2.0?
- Support for truecolor images! Version 2.0 can
load truecolor PNGs with no loss of color information, and almost
no loss of alpha channel information. Version 2.0 can also load
truecolor JPEGs with as little loss as possible; however, bear in
mind that JPEG is a lossy format, so repeated load/save cycles
always reduce image quality. This is not a bug. To create
a truecolor image from scratch, call the new
gdImageCreateTrueColor
function. The gdImageCreate function
is still available to create palette images, and may also be
referred to as gdImageCreatePalette.
- Support for alpha channels! In addition to
24 bits of color information for each pixel (eight bits of
red, green, and blue respectively), version 2.0 supports
7 bits of "alpha channel" information. This is used to determine
exactly how transparent the pixel should be. There is also support
for a full 7 bits of transparency for each individual palette index
in a palette-based image. Please note that, as of this writing,
only Macintosh Internet Explorer 5.x and Mozilla/Netscape 6.x
display partial transparency properly.
- The new gdImageAlphaBlending
function allows for two different modes of drawing. In blending mode,
the alpha channel component of the color supplied to all drawing
functions, such as gdImageSetPixel,
determines how much of the underlying color should be allowed to
shine through. The resulting image is not transparent. In non-blending
mode, drawing color is copied literally with the alpha channel
information, resulting in a transparent image. Blending mode is
not available when drawing on palette images.
- The gdImageCopyResampled
function provides "smooth" copying from a large image to a smaller
one, using a weighted average of the pixels of the source area rather
than selecting one representative pixel. This function is identical
to gdImageCopyResized when the
destination image is a palette image.
- The gdImageTrueColorToPalette
function converts a truecolor image to a palette image. The code for
this function was originally drawn from the Independent JPEG Group library
code, which is excellent. The code has been modified to preserve as much
alpha channel information as possible in the resulting palette, in addition
to preserving colors as well as possible. This does not work as well as
might be hoped. It is usually best to simply produce a truecolor
output image instead, which guarantees the highest output quality.
- A very high degree of backwards compatibility with existing
gd 1.x code has been maintained, at both the source code and binary
level. Code which directly accesses the
pixels array
will fail only if it encounters an existing truecolor image, which may
happen if the code attempts to open and modify an existing JPEG or
truecolor PNG. Such code should be modified to check the
trueColor flag of the gdImage structure, and
refer to the tpixels array instead when it is set.
- gd is now compiled and installed as a shared library. However,
gd still does not use autoconf, because I (TBB) have very limited
patience with autoconf. These days, most Unix systems provide a fairly
POSIX-standard environment, and the provided Makefile is likely to work well
if users read it and follow the instructions at the top.
- Support for line thickness was added by Michael Schwartz. My apologies
to him for sitting on his patches for so long. See the new
gdImageSetThickness function, which
affects all standard gd functions that draw lines and curves. In addition,
Michael added a convenient gdImageEllipse
function.
- The new gdImageFilledArc function
provides a straightforward way to draw filled arcs. Also,
gdImageFilledEllipse is a
convenient way to fill an ellipse without specifying starting
and ending angles. Thanks go out to F J Franklin.
- To put an end to the confusion, TrueType 1.x support has been
removed in favor of TrueType 2.x support. The old
gdImageStringTTF function simply invokes gdImageStringFT.
- The specialized .gd and .gd2 file formats have been upgraded to support
truecolor. New images written by the versions of these functions
found in 2.0 will be rejected, with varying degrees of grace, by
older versions of gd. THIS AFFECTS THE .GD and .GD2 FORMATS ONLY. IF YOU
ARE CONFUSED BY THIS PARAGRAPH, IT PROBABLY DOESN'T APPLY TO ANYTHING
YOU WILL EVER ENCOUNTER. Since these file formats are absolutely,
positively *not* designed for distributing images, just for
preprocessing them, this should not be a big problem. gd 2.0 should
read old .gd and .gd2 files correctly.
What's new in version 1.8.4?
- Add support for FreeType2 (John Ellson ellson@lucent.com)
- Add support for finding in fonts in a builtin DEFAULT_FONTPATH,
or in a path from the GDFONTPATH environment variable.
- remove some unused symbols to reduce compiler warnings
- bugfix in size comparisons in gdImageCompare
- REXX now mentioned
- All memory allocation functions are now wrapped within the
library; gdFree is exported and recommended for freeing memory
returned by the gdImage(Something)Ptr family of functions.
What's new in version 1.8.3?
- WBMP output memory leak fixed
#include <gd.h> corrected to #include "gd.h" in gd_wbmp.c
- Documented the fact that the source and output images shouldn't
match in the WBMP test except for black and white source images
What's new in version 1.8.2?
- WBMP support debugged and improved by Johann Van den Brande
- WBMP tests added to gdtest.c by Thomas Boutell
- Use of platform-dependent 'install' command removed by Thomas Boutell
- Comments added to Makefile warning users to juggle the order of the
libraries if the linker complains; is there any portable way to do this
automatically, short of using autoconf?
- Documentation of gdImageCreateFromXpm
corrected
- Updated links to fast-moving, always dodging libpng and zlib web sites
What's new in version 1.8.1?
- Optional components no longer built by default (following the
documentation)
- JPEG code no longer requires inappropriate header files
- Win32 patches from Joe Gregorio
- 16-bit font support for bdftogd, from Honza Pazdziora
What's new in version 1.8?
- Support for JPEG output, courtesy of Doug Becker
- A link to Michael Bradbery's Pascal wrapper
- Support for WBMP output, courtesy of Maurice Szmurlo
- gdImageColorClosestHWB function based on hue, whiteness, blackness,
superior to the regular gdImageColorClosest function, courtesy
of Philip Warner
- License clarification: yes, you can modify gd
Additional JPEG Information
Support for reading and writing JPEG-format images is courtesy
of Doug Becker and the Independent JPEG Group / Thomas G. Lane. You
can get the latest version of the IJG JPEG software from ftp://ftp.uu.net/graphics/jpeg/
(e.g., the jpegsrc.v6b.tar.gz
file). You must use
version 6b or later of the IJG JPEG software. You might also consult
the JPEG FAQ at
http://www.faqs.org/faqs/jpeg-faq/.
What's new in version 1.7.3?
Another attempt at Makefile fixes to permit
linking with all libraries required on platforms with order-
dependent linkers. Perhaps it will work this time.
What's new in version 1.7.2?
An uninitialized-pointer bug in gdtestttf.c was corrected.
This bug caused crashes at the end of each call to gdImageStringTTF on
some platforms. Thanks to Wolfgang Haefelinger.
Documentation fixes. Thanks to Dohn Arms.
Makefile fixes to permit
linking with all libraries required on platforms with order-
dependent linkers.
What's new in version 1.7.1?
A minor buglet in the Makefile was corrected, as well as an inaccurate
error message in gdtestttf.c . Thanks to Masahito Yamaga.
What's new in version 1.7?
Version 1.7 contains the following changes:
- Japanese language support for the TrueType functions.
Thanks to Masahito Yamaga.
autoconf and configure have been removed, in favor of a
carefully designed Makefile which produces and properly installs
the library and the binaries. System-dependent variables are
at the top of the Makefile for easy modification. I'm sorry,
folks, but autoconf generated many, many confused email
messages from people who didn't have things where autoconf
expected to find them. I am not an autoconf/automake wizard, and
gd is a simple, very compact library which does not need to
be a shared library. I did make many improvements
over the old gd 1.3 Makefile, which were directly inspired by the
autoconf version found in the 1.6 series (thanks to John Ellson).
- Completely ANSI C compliant, according to the
-pedantic-errors
flag of gcc. Several pieces of not-quite-ANSI-C code were causing problems
for those with non-gcc compilers.
gdttf.c patched to allow the use of Windows symbol
fonts, when present (thanks to Joseph Peppin).
extern "C" wrappers added to gd.h and the
font header files for the convenience of C++ programmers.
bdftogd was also modified to automatically insert these
wrappers into future font header files. Thanks to John Lindal.
- Compiles correctly on platforms that don't define
SEEK_SET .
Thanks to Robert Bonomi.
- Loads Xpm images via the
gdImageCreateFromXpm
function, if the Xpm library is available. Thanks to Caolan McNamara.
What's new in version 1.6.3?
Version 1.6.3 corrects a memory leak in gd_png.c. This leak caused
a significant amount of memory to be allocated and not freed when
writing a PNG image.
What's new in version 1.6.2?
Version 1.6.2 from John Ellson adds two new functions:
- gdImageStringTTF - scalable, rotatable, anti-aliased, TrueType strings using
the FreeType library, but only if libttf is found by configure.
We do not provide TrueType fonts. Obtaining them
is entirely up to you.
- gdImageColorResolve - an efficient alternative for the
common code fragment:
if ((color=gdImageColorExact(im,R,G,B)) < 0)
if ((color=gdImageColorAllocate(im,R,G,B)) < 0)
color=gdImageColorClosest(im,R,G,B);
Also in this release the build process has been converted to
GNU autoconf/automake/libtool conventions so that both (or either)
static and shared libraries can be built.
What's new in version 1.6.1?
Version 1.6.1 incorporates superior PNG reading and writing code
from Greg Roelofs, with minor modifications by Tom Boutell.
Specifically, I altered his code to read non-palette images
(converting them to palette images badly, by dithering them),
and to tolerate palette images with types of transparency that
gd doesn't actually support (it just ignores the advanced
transparency features). Any bugs in this area are therefore my
fault, not Greg's.
Unlike gd 1.6, users should have no trouble linking with
gd 1.6.1 if they follow the instructions and install all of
the pieces. However, If you get undefined symbol errors,
be sure to check for older versions of libpng in your
library directories!
What's new in version 1.6?
Version 1.6 features the following changes:
Support for 8-bit palette PNG images has been added.
Support for GIF has been removed. This step was taken
to completely avoid the legal controversy regarding the LZW
compression algorithm used in GIF. Unisys holds a patent which
is relevant to LZW compression. PNG is a superior image format
in any case. Now that PNG is supported by both Microsoft
Internet Explorer and Netscape (in their recent releases),
we highly recommend that GD users upgrade in order to get
well-compressed images in a format which is legally unemcumbered.
What's new in version 1.5?
Version 1.5 featured the following changes:
- New GD2 format
- An improvement over the GD format, the GD2 format uses the zlib
compression library to compress the image in chunks. This results
in file sizes comparable to GIFs, with the ability to access parts
of large images without having to read the entire image into memory.
This format also supports version numbers and rudimentary validity
checks, so it should be more 'supportable' than the previous GD format.
- Re-arranged source files
- gd.c has been broken into constituant parts: io, gif, gd, gd2 and
graphics functions are now in separate files.
- Extended I/O capabilities.
- The source/sink feature has been extended to support GD2 file formats (which
require seek/tell functions), and to allow more general non-file I/O.
- Better support for Lincoln Stein's Perl Module
- The new gdImage*Ptr function returns the chosen format stored in a block of memory.
This can be directly used by the GD perl module.
- Added functions
- gdImageCreateFromGd2Part - allows retrieval of part of an image (good for huge images, like maps),
gdImagePaletteCopy - Copies a palette from one image to another, doing it's best to match the colors in the target image to the colors in the source palette.
gdImageGd2, gdImageCreateFromGd2 - Support for new format
gdImageCopyMerge - Merges two images (useful to highlight part of an image)
gdImageCopyMergeGray - Similar to gdImageCopyMerge, but tries to preserve source image hue.
gdImagePngPtr, gdImageJpegPtr, gdImageWBMPPtr, gdImageGdPtr, gdImageGd2Ptr - return memory blocks for each type of image.
gdImageCreateFromPngCtx, gdImageCreateFromGdCtx, gdImageCreateFromGd2Ctx, gdImageCreateFromGd2PartCtx - Support for new I/O context.
NOTE: In fairness to Thomas Boutell, any bug/problems with any of the above features should
probably be reported to Philip Warner.
What's new in version 1.4?
Version 1.4 features the following changes:
- Fixed polygon fill routine (again)
- Thanks to Kirsten Schulz, version 1.4 is able to fill
numerous types of polygons that caused problems with
previous releases, including version 1.3.
- Support for alternate data sources
- Programmers who wish to load a GIF from something other
than a stdio FILE * stream can use the new
gdImageCreateFromPngSource function.
- Support for alternate data destinations
- Programmers who wish to write a GIF to something other
than a stdio FILE * stream can use the new
gdImagePngToSink function.
- More tolerant when reading GIFs
-
Version 1.4 does not crash when reading certain animated GIFs,
although it still only reads the first frame. Version 1.4 also has
overflow testing code to prevent crashes when reading
damaged GIFs.
What's new in version 1.3?
Version 1.3 features the following changes:
- Non-LZW-based GIF compression code
-
Version 1.3 contained GIF compression code that uses simple Run Length
Encoding instead of LZW compression, while still retaining compatibility
with normal LZW-based GIF decoders (your browser will still like your GIFs).
LZW compression is patented by Unisys. We are currently reevaluating
the approach taken by gd 1.3. The current release of gd does not support
this approach. We recommend that you use the current release, and generate
PNG images. Thanks to
Hutchison Avenue Software Corporation for contributing
the RLE GIF code.
- 8-bit fonts, and 8-bit font support
- This improves support for European languages. Thanks are due
to Honza Pazdziora and also to
Jan Pazdziora . Also see the provided bdftogd
Perl script if you wish to convert fixed-width X11 fonts
to gd fonts.
- 16-bit font support (no fonts provided)
- Although no such fonts are provided in the distribution,
fonts containing more than 256 characters should work if the
gdImageString16 and gdImageStringUp16 routines are used.
- Improvements to the "webpng" example/utility
- The "webpng" utility is now a slightly more useful application. Thanks to
Brian Dowling for this code.
- Corrections to the color resolution field of GIF output
- Thanks to Bruno Aureli.
- Fixed polygon fills
- A one-line patch for the infamous polygon fill bug, courtesy
of Jim Mason. I believe this fix is sufficient. However, if you
find a situation where polygon fills still fail to behave properly,
please send code that demonstrates the problem, and a fix if
you have one. Verifying the fix is important.
- Row-major, not column-major
- Internally, gd now represents the array of pixels as
an array of rows of pixels, rather than an array of columns
of pixels. This improves the performance of compression and
decompression routines slightly, because horizontally adjacent
pixels are now next to each other in memory. This should
not affect properly written gd applications, but applications that
directly manipulate the
pixels array will require
changes.
What else do I need to use gd?
To use gd, you will need an ANSI C compiler. All popular
Windows 95 and NT C compilers are ANSI C compliant. Any
full-ANSI-standard C compiler should be adequate. The cc
compiler released with SunOS 4.1.3 is not an ANSI C compiler.
Most Unix users who do not already have gcc should get it.
gcc is free, ANSI compliant and a de facto industry standard.
Ask your ISP why it is missing.
As of version 1.6, you also need the zlib compression library,
and the libpng library. As of version 1.6.2, you can draw text
using antialiased TrueType fonts if you also have the libttf
library installed, but this is not mandatory.
zlib is available for a variety of platforms from
the zlib web site.
libpng is available for a variety of platforms from
the PNG web site.
You will also want a PNG viewer, if you do not already have
one for your system, since you will need a good way to check the
results of your work. Netscape 4.04 and higher, and Microsoft
Internet Explorer 4.0 or higher, both support PNG.
For some purposes you might be happier with a package like
Lview Pro for Windows or xv for X. There are PNG viewers available
for every graphics-capable modern operating system, so consult
newsgroups relevant to your particular system.
How do I get gd?
By HTTP
By FTP
How do I build gd?
In order to build gd, you must first unpack the archive you have
downloaded. If you are not familiar with tar and
gunzip (Unix) or ZIP (Windows), please
consult with an experienced user of your system. Sorry, we cannot
answer questions about basic Internet skills.
Unpacking the archive will produce a directory called "gd-2.0.1".
For Unix
cd to the 2.0.1 directory. Edit the Makefile with
your preferred text editor and make any necessary changes to the
settings at the top, especially if you want Xpm or TrueType support.
Next, type "make install". Because gd 2.0 and above installs
as a shared library, it is necessary to install the library properly
before running gd-based programs.
If you get errors, edit the Makefile again, paying special attention
to the INCLUDEDIRS and LIBDIRS settings.
IF YOU GET LINKER ERRORS, TRY JUGGLING THE ORDER OF THE -l DIRECTIVES
IN THE MAKEFILE. Some platforms may prefer that the libraries be listed
in the opposite order.
For Windows, Mac, Et Cetera
Create a project using your favorite programming environment.
Copy all of the gd files to the project directory. Add gd.c
to your project. Add other source files as appropriate. Learning the
basic skills of creating projects with your chosen C environment
is up to you.
If you wish to test the library, type "make test" AFTER you have
successfully executed "make install". This will build
several test programs, including "gddemo". Run gddemo to see some of
the capabilities of gd.
gddemo should execute without incident, creating the file
demoout.png. (Note there is also a file named demoin.png,
which is provided in the package as part of the demonstration.)
Display demoout.png in your PNG viewer. The image should
be 128x128 pixels and should contain an image of the
space shuttle with quite a lot of graphical elements drawn
on top of it.
(If you are missing the demoin.png file, the other items
should appear anyway.)
Look at demoin.png to see the original space shuttle
image which was scaled and copied into the output image.
gd basics: using gd in your program
gd lets you create PNG or JPEG images on the fly. To use gd in your
program, include the file gd.h, and link with the libgd.a
library produced by "make libgd.a", under Unix. Under other
operating systems you will add gd.c to your own project.
If you want to use the provided fonts, include
gdfontt.h, gdfonts.h, gdfontmb.h, gdfontl.h and/or gdfontg.h. For
more impressive results, install FreeType 2.x and use the new
gdImageStringFT
function. If you are not using the provided Makefile and/or a
library-based approach, be sure to include the source modules as well in your
project. (They may be too large for 16-bit memory models,
that is, 16-bit DOS and Windows.)
Here is a short example program. (For a more advanced example,
see gddemo.c, included in the distribution. gddemo.c is NOT the same program;
it demonstrates additional features!)
/* Bring in gd library functions */
#include "gd.h"
/* Bring in standard I/O so we can output the PNG to a file */
#include <stdio.h>
int main() {
/* Declare the image */
gdImagePtr im;
/* Declare output files */
FILE *pngout, *jpegout;
/* Declare color indexes */
int black;
int white;
/* Allocate the image: 64 pixels across by 64 pixels tall */
im = gdImageCreate(64, 64);
/* Allocate the color black (red, green and blue all minimum).
Since this is the first color in a new image, it will
be the background color. */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Allocate the color white (red, green and blue all maximum). */
white = gdImageColorAllocate(im, 255, 255, 255);
/* Draw a line from the upper left to the lower right,
using white color index. */
gdImageLine(im, 0, 0, 63, 63, white);
/* Open a file for writing. "wb" means "write binary", important
under MSDOS, harmless under Unix. */
pngout = fopen("test.png", "wb");
/* Do the same for a JPEG-format file. */
jpegout = fopen("test.jpg", "wb");
/* Output the image to the disk file in PNG format. */
gdImagePng(im, pngout);
/* Output the same image in JPEG format, using the default
JPEG quality setting. */
gdImageJpeg(im, jpegout, -1);
/* Close the files. */
fclose(pngout);
fclose(jpegout);
/* Destroy the image in memory. */
gdImageDestroy(im);
}
When executed, this program creates an image, allocates
two colors (the first color allocated becomes the background
color), draws a diagonal line (note that 0, 0 is the upper
left corner), writes the image to PNG and JPEG files, and
destroys the image.
The above example program should
give you an idea of how the package works.
gd provides many additional functions, which are listed
in the following reference chapters, complete with code
snippets demonstrating each. There is also an
alphabetical index.
Webpng is a simple utility program to manipulate PNGs from the
command line. It is written for Unix and similar command-line
systems, but should be easily adapted for other environments.
Webpng allows you to set transparency and interlacing and
output interesting information about the PNG in question.
webpng.c is provided in the distribution. Unix users can
simply type "make webpng" to compile the program. Type
"webpng" with no arguments to see the available options.
gdImage (TYPE)
-
The data structure in which gd stores images.
gdImageCreate, gdImageCreateTrueColor
and the various image file-loading functions return
a pointer to this type, and the other functions expect to receive
a pointer to this type as their first argument. It is reasonably safe to
examine any of the members of this structure. It is also reasonably
safe to modify individual pixels within the
pixels
or tpixels arrays. If the trueColor flag
is set, the tpixels array is valid; otherwise the
pixels array is valid.
The colorsTotal , red , green ,
blue , alpha and open arrays
manage the palette. They are valid only when the trueColor
flag is not set.
The transparent value contains the palette index of the first
transparent color as read-only information for backwards compatibility;
gd 2.0 stores this information in the alpha array so that
variable transparency can be supported for each palette entry. However,
for truecolor images, transparent represents a single
RGB color which is always 100% transparent, and this
feature is generally supported by browsers which do not support
full alpha channels.
typedef struct {
/* Palette-based image pixels */
unsigned char ** pixels;
int sx;
int sy;
/* These are valid in palette images only. See also
/* 'alpha', which appears later in the structure to
preserve binary backwards compatibility */
int colorsTotal;
int red[gdMaxColors];
int green[gdMaxColors];
int blue[gdMaxColors];
int open[gdMaxColors];
/* For backwards compatibility, this is set to the
first palette entry with 100% transparency,
and is also set and reset by the
gdImageColorTransparent function. Newer
applications can allocate palette entries
with any desired level of transparency; however,
bear in mind that many viewers, notably
many web browsers, fail to implement
full alpha channel for PNG and provide
support for full opacity or transparency only. */
int transparent;
int *polyInts;
int polyAllocated;
struct gdImageStruct *brush;
struct gdImageStruct *tile;
int brushColorMap[gdMaxColors];
int tileColorMap[gdMaxColors];
int styleLength;
int stylePos;
int *style;
int interlace;
/* New in 2.0: alpha channel for palettes. Note that only
Macintosh Internet Explorer and (possibly) Netscape 6
really support multiple levels of transparency in
palettes, to my knowledge, as of 2/15/01. Most
common browsers will display 100% opaque and
100% transparent correctly, and do something
unpredictable and/or undesirable for levels
in between. TBB */
int alpha[gdMaxColors];
/* Truecolor flag and pixels. New 2.0 fields appear here at the
end to minimize breakage of existing object code. */
int trueColor;
int ** tpixels;
/* Should alpha channel be copied, or applied, each time a
pixel is drawn? This applies to truecolor images only.
No attempt is made to alpha-blend in palette images,
even if semitransparent palette entries exist.
To do that, build your image as a truecolor image,
then quantize down to 8 bits. */
int alphaBlendingFlag;
/* Should the alpha channel of the image be saved? This affects
PNG at the moment; other future formats may also
have that capability. JPEG doesn't. */
int saveAlphaFlag;
} gdImage;
The order of the structure members may appear confusing, but was chosen
deliberately to increase backwards compatibility with existing gd 1.x-based
binary code that references particular structure members.
- gdImagePtr (TYPE)
-
A pointer to an image structure. gdImageCreate
returns this type, and the other functions expect it as the first
argument.
- gdFont (TYPE)
-
A font structure. Used to declare the characteristics of a font.
Plese see the files gdfontl.c and gdfontl.h for an example of the
proper declaration of this structure. You can provide your
own font data by providing such a structure and the associated
pixel array. You can determine the width and height of a single
character in a font by examining the w and h members of the
structure. If you will not be creating your own fonts, you will
not need to concern yourself with the rest of the components of this
structure.
typedef struct {
/* # of characters in font */
int nchars;
/* First character is numbered... (usually 32 = space) */
int offset;
/* Character width and height */
int w;
int h;
/* Font data; array of characters, one row after another.
Easily included in code, also easily loaded from
data files. */
char *data;
} gdFont;
- gdFontPtr (TYPE)
-
A pointer to a font structure. Text-output functions expect these
as their second argument, following the
gdImagePtr argument. Two such pointers are declared in the
provided include files gdfonts.h and gdfontl.h.
- gdPoint (TYPE)
-
Represents a point in the coordinate space of the image; used
by gdImagePolygon and
gdImageFilledPolygon.
typedef struct {
int x, y;
} gdPoint, *gdPointPtr;
- gdPointPtr (TYPE)
-
A pointer to a gdPoint structure; passed
as an argument to gdImagePolygon
and gdImageFilledPolygon.
gdSource (TYPE)
typedef struct {
int (*source) (void *context, char *buffer, int len);
void *context;
} gdSource, *gdSourcePtr;
Represents a source from which a PNG can be read.
Programmers who do not wish to read PNGs from a file can provide
their own alternate input mechanism, using the
gdImageCreateFromPngSource function.
See the documentation of that function for an example of the
proper use of this type.
gdSink (TYPE)
typedef struct {
int (*sink) (void *context, char *buffer, int len);
void *context;
} gdSink, *gdSinkPtr;
Represents a "sink" (destination) to which a PNG can be written.
Programmers who do not wish to write PNGs to a file can provide
their own alternate output mechanism, using the
gdImagePngToSink function.
See the documentation of that function for an example of the
proper use of this type.
- gdImageCreate(sx, sy)
(FUNCTION)
-
gdImageCreate is called to create palette-based images, with no
more than 256 colors. Invoke gdImageCreate
with the x and y dimensions of the desired image. gdImageCreate
returns a gdImagePtr to the new image, or
NULL if unable to
allocate the image. The image must eventually be destroyed
using gdImageDestroy().
... inside a function ...
gdImagePtr im;
im = gdImageCreate(64, 64);
/* ... Use the image ... */
gdImageDestroy(im);
- gdImageCreateTrueColor(sx, sy)
(FUNCTION)
-
gdImageCreateTrueColor is called to create truecolor images, with
an essentially unlimited number of colors. Invoke gdImageCreateTrueColor
with the x and y dimensions of the desired image. gdImageCreateTrueColor
returns a gdImagePtr to the new image, or
NULL if unable to
allocate the image. The image must eventually be destroyed
using gdImageDestroy().
Truecolor images are always filled with black at creation time.
... inside a function ...
gdImagePtr im;
im = gdImageCreateTrueColor(64, 64);
/* ... Use the image ... */
gdImageDestroy(im);
- gdImageCreateFromJpeg(FILE *in)
(FUNCTION)
gdImageCreateFromJpegCtx(FILE *in)
(FUNCTION)
- gdImageCreateFromJpeg(FILE *in)
(FUNCTION)
gdImageCreateFromJpegCtx(FILE *in)
(FUNCTION)
-
gdImageCreateFromJpeg is called to load images from JPEG format files.
Invoke gdImageCreateFromJpeg with an already opened pointer to a file
containing the desired image.
gdImageCreateFromJpeg
returns a gdImagePtr to the new
truecolor image, or NULL
if unable to load the image (most often because the file is corrupt or
does not contain a JPEG image). gdImageCreateFromJpeg does not
close the file. You can inspect the sx and sy members of the
image to determine its size. The image must eventually be destroyed
using gdImageDestroy(). The
returned image is always a truecolor image.
gdImagePtr im;
... inside a function ...
FILE *in;
in = fopen("myjpeg.jpg", "rb");
im = gdImageCreateFromJpeg(in);
fclose(in);
/* ... Use the image ... */
gdImageDestroy(im);
- gdImageCreateFromPng(FILE *in)
(FUNCTION)
gdImageCreateFromPngCtx(gdIOCtx *in)
(FUNCTION)
-
gdImageCreateFromPng is called to load images from PNG format files.
Invoke gdImageCreateFromPng with an already opened pointer to a file
containing the desired image.
gdImageCreateFromPng
returns a gdImagePtr to the new image, or NULL
if unable to load the image (most often because the file is corrupt or
does not contain a PNG image). gdImageCreateFromPng does not
close the file. You can inspect the sx and sy members of the
image to determine its size. The image must eventually be destroyed
using gdImageDestroy().
If the PNG image being loaded is a truecolor image, the resulting
gdImagePtr will refer to a truecolor image. If the PNG image
being loaded is a palette or grayscale image, the resulting
gdImagePtr will refer to a palette image. gd retains only 8 bits
of resolution for each of the red, green and blue channels, and
only 7 bits of resolution for the alpha channel. The former
restriction affects only a handful of very rare 48-bit color
and 16-bit grayscale PNG images. The second restriction affects
all semitransparent PNG images, but the difference is essentially
invisible to the eye. 7 bits of alpha channel resolution is,
in practice, quite a lot.
gdImagePtr im;
... inside a function ...
FILE *in;
in = fopen("mypng.png", "rb");
im = gdImageCreateFromPng(in);
fclose(in);
/* ... Use the image ... */
gdImageDestroy(im);
- gdImageCreateFromPngSource(gdSourcePtr in)
(FUNCTION)
-
gdImageCreateFromPngSource is called to load a PNG from
a data source other than a file. Usage is very similar to
the gdImageCreateFromPng function,
except that the programmer provides a custom data source.
The programmer must write an input function which accepts
a context pointer, a buffer, and a number of bytes to be
read as arguments. This function must read the number of
bytes requested, unless the end of the file has been reached,
in which case the function should return zero, or an error
has occurred, in which case the function should return
-1 . The programmer then creates a
gdSource structure and sets
the source pointer to the input function and
the context pointer to any value which is useful to the
programmer.
The example below
implements gdImageCreateFromPng
by creating a custom data source and invoking gdImageCreateFromPngSource.
static int freadWrapper(void *context, char *buf, int len);
gdImagePtr gdImageCreateFromPng(FILE *in)
{
gdSource s;
s.source = freadWrapper;
s.context = in;
return gdImageCreateFromPngSource(&s);
}
static int freadWrapper(void *context, char *buf, int len)
{
int got = fread(buf, 1, len, (FILE *) context);
return got;
}
- gdImageCreateFromGd(FILE *in)
(FUNCTION)
gdImageCreateFromGdCtx(gdIOCtx *in)
(FUNCTION)
-
gdImageCreateFromGd is called to load images from gd format files.
Invoke gdImageCreateFromGd
with an already opened pointer to a file containing the desired image
in the gd file format, which is specific to
gd and intended for very fast loading. (It is not intended for
compression; for compression, use PNG or JPEG.)
gdImageCreateFromGd
returns a gdImagePtr to the new image, or NULL
if unable to load the image (most often because the file is corrupt or
does not contain a gd format image). gdImageCreateFromGd does not
close the file. You can inspect the sx and sy members of the
image to determine its size. The image must eventually be destroyed
using gdImageDestroy().
... inside a function ...
gdImagePtr im;
FILE *in;
in = fopen("mygd.gd", "rb");
im = gdImageCreateFromGd(in);
fclose(in);
/* ... Use the image ... */
gdImageDestroy(im);
- gdImageCreateFromGd2(FILE *in)
(FUNCTION)
gdImageCreateFromGd2Ctx(gdIOCtx *in)
(FUNCTION)
-
gdImageCreateFromGd2 is called to load images from gd2 format files.
Invoke gdImageCreateFromGd2
with an already opened pointer to a file containing the desired image
in the gd2 file format, which is specific to
gd2 and intended for fast loading of parts of large images.
(It is a compressed format, but generally not as good as maximum
compression of the entire image would be.)
gdImageCreateFromGd
returns a gdImagePtr to the new image, or NULL
if unable to load the image (most often because the file is corrupt or
does not contain a gd format image). gdImageCreateFromGd2 does not
close the file. You can inspect the sx and sy members of the
image to determine its size. The image must eventually be destroyed
using gdImageDestroy().
... inside a function ...
gdImagePtr im;
FILE *in;
in = fopen("mygd.gd2", "rb");
im = gdImageCreateFromGd2(in);
fclose(in);
/* ... Use the image ... */
gdImageDestroy(im);
- gdImageCreateFromGd2Part(FILE *in, int srcX, int srcY, int w, int h)
(FUNCTION)
gdImageCreateFromGd2PartCtx(gdIOCtx *in)
(FUNCTION)
-
gdImageCreateFromGd2Part is called to load parts of images from gd2 format files.
Invoked in the same way as gdImageCreateFromGd2,
but with extra parameters
indicating the source (x, y) and width/height of the desired image.
gdImageCreateFromGd2Part returns a gdImagePtr to the
new image, or NULL if unable to load the image.
The image must eventually be destroyed using gdImageDestroy().
- gdImageCreateFromXbm(FILE *in)
(FUNCTION)
-
gdImageCreateFromXbm is called to load images from X bitmap format
files. Invoke gdImageCreateFromXbm
with an already opened pointer to a file containing the desired image.
gdImageCreateFromXbm
returns a gdImagePtr to the new image, or NULL
if unable to load the image (most often because the file is corrupt or
does not contain an X bitmap format image). gdImageCreateFromXbm does
not close the file. You can inspect the sx and sy members of the
image to determine its size. The image must eventually be destroyed
using gdImageDestroy().
... inside a function ...
gdImagePtr im;
FILE *in;
in = fopen("myxbm.xbm", "rb");
im = gdImageCreateFromXbm(in);
fclose(in);
/* ... Use the image ... */
gdImageDestroy(im);
- gdImageCreateFromXpm(char *filename)
(FUNCTION)
-
gdImageCreateFromXbm is called to load images from XPM X Window System
color bitmap format files. This function is available only if HAVE_XPM
is selected in the Makefile and the Xpm library is linked with the
application. Unlike most gd file functions, the Xpm functions require
filenames, not file pointers.
gdImageCreateFromXpm
returns a gdImagePtr to the new image, or NULL
if unable to load the image (most often because the file is corrupt or
does not contain an XPM bitmap format image). You can inspect the sx and sy members of the
image to determine its size. The image must eventually be destroyed
using gdImageDestroy().
... inside a function ...
gdImagePtr im;
FILE *in;
in = fopen("myxpm.xpm", "rb");
im = gdImageCreateFromXpm(in);
fclose(in);
/* ... Use the image ... */
gdImageDestroy(im);
- gdImageDestroy(gdImagePtr im) (FUNCTION)
- gdImageDestroy is used to free the memory associated with
an image. It is important to invoke gdImageDestroy before
exiting your program or assigning a new image to
a gdImagePtr variable.
... inside a function ...
gdImagePtr im;
im = gdImageCreate(10, 10);
/* ... Use the image ... */
/* Now destroy it */
gdImageDestroy(im);
-
void gdImageJpeg(gdImagePtr im, FILE *out, int quality)
(FUNCTION)
void gdImageJpegCtx(gdImagePtr im, gdIOCtx *out, int quality)
(FUNCTION)
-
gdImageJpeg outputs the specified image to the specified
file in JPEG format. The file must be open for writing. Under MSDOS
and all versions of Windows, it is important to use "wb" as opposed
to simply "w" as the mode when opening the file, and under Unix there
is no penalty for doing so. gdImageJpeg does not
close the file; your code must do so.
If quality is negative, the default IJG JPEG quality value (which
should yield a good general quality / size tradeoff for most
situations) is used. Otherwise, for practical purposes, quality
should be a value in the range 0-95, higher quality values usually
implying both higher quality and larger image sizes.
If you have set image interlacing using
gdImageInterlace, this function will
interpret that to mean you wish to output a progressive JPEG. Some
programs (e.g., Web browsers) can display progressive JPEGs
incrementally; this can be useful when browsing over a relatively slow
communications link, for example. Progressive JPEGs can also be
slightly smaller than sequential (non-progressive) JPEGs.
... inside a function ...
gdImagePtr im;
int black, white;
FILE *out;
/* Create the image */
im = gdImageCreate(100, 100);
/* Allocate background */
white = gdImageColorAllocate(im, 255, 255, 255);
/* Allocate drawing color */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Draw rectangle */
gdImageRectangle(im, 0, 0, 99, 99, black);
/* Open output file in binary mode */
out = fopen("rect.jpg", "wb");
/* Write JPEG using default quality */
gdImageJpeg(im, out, -1);
/* Close file */
fclose(out);
/* Destroy image */
gdImageDestroy(im);
-
void* gdImageJpegPtr(gdImagePtr im, int *size)
(FUNCTION)
- Identical to gdImageJpeg except that it returns a pointer to a memory
area with the JPEG data. This memory must be freed by the caller when it is
no longer needed. The caller must invoke gdFree(), not free(),
unless the caller is absolutely certain that the same implementations of
malloc, free, etc. are used both at library build time and at application
build time. The 'size' parameter receives the total size of the block
of memory.
-
void gdImagePng(gdImagePtr im, FILE *out)
(FUNCTION)
-
gdImagePng outputs the specified image to the specified
file in PNG format. The file must be open for writing. Under MSDOS
and all versions of Windows, it is important to use "wb" as opposed
to simply "w" as the mode when opening the file, and under Unix there
is no penalty for doing so. gdImagePng does not
close the file; your code must do so.
... inside a function ...
gdImagePtr im;
int black, white;
FILE *out;
/* Create the image */
im = gdImageCreate(100, 100);
/* Allocate background */
white = gdImageColorAllocate(im, 255, 255, 255);
/* Allocate drawing color */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Draw rectangle */
gdImageRectangle(im, 0, 0, 99, 99, black);
/* Open output file in binary mode */
out = fopen("rect.png", "wb");
/* Write PNG */
gdImagePng(im, out);
/* Close file */
fclose(out);
/* Destroy image */
gdImageDestroy(im);
-
void* gdImagePngPtr(gdImagePtr im, int *size)
(FUNCTION)
- Identical to gdImagePng except that it returns a pointer to a memory
area with the PNG data. This memory must be freed by the caller when it is
no longer needed. The caller must invoke gdFree(), not free(),
unless the caller is absolutely certain that the same implementations of
malloc, free, etc. are used both at library build time and at application
build time. The 'size' parameter receives the total size of the block
of memory.
- gdImagePngToSink(gdImagePtr im, gdSinkPtr out)
(FUNCTION)
-
gdImagePngToSink is called to write a PNG to
a data "sink" (destination) other than a file. Usage is very similar to
the gdImagePng function,
except that the programmer provides a custom data sink.
The programmer must write an output function which accepts
a context pointer, a buffer, and a number of bytes to be
written as arguments. This function must write the number of
bytes requested and return that number, unless an error
has occurred, in which case the function should return
-1 . The programmer then creates a
gdSink structure and sets
the sink pointer to the output function and
the context pointer to any value which is useful to the
programmer.
The example below
implements gdImagePng
by creating a custom data source and invoking gdImagePngFromSink.
static int stdioSink(void *context, char *buffer, int len)
{
return fwrite(buffer, 1, len, (FILE *) context);
}
void gdImagePng(gdImagePtr im, FILE *out)
{
gdSink mySink;
mySink.context = (void *) out;
mySink.sink = stdioSink;
gdImagePngToSink(im, &mySink);
}
-
void gdImageWBMP(gdImagePtr im, int fg, FILE *out)
gdImageWBMPCtx(gdIOCtx *out)
(FUNCTION)(FUNCTION)
-
gdImageWBMP outputs the specified image to the specified
file in WBMP format. The file must be open for writing. Under MSDOS
and all versions of Windows, it is important to use "wb" as opposed
to simply "w" as the mode when opening the file, and under Unix there
is no penalty for doing so. gdImageWBMP does not
close the file; your code must do so.
WBMP file support is black and white only. The color index
specified by the fg argument is the "foreground," and only pixels
of this color will be set in the WBMP file. All other pixels
will be considered "background."
... inside a function ...
gdImagePtr im;
int black, white;
FILE *out;
/* Create the image */
im = gdImageCreate(100, 100);
/* Allocate background */
white = gdImageColorAllocate(im, 255, 255, 255);
/* Allocate drawing color */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Draw rectangle */
gdImageRectangle(im, 0, 0, 99, 99, black);
/* Open output file in binary mode */
out = fopen("rect.wbmp", "wb");
/* Write WBMP, with black as foreground */
gdImageWBMP(im, black, out);
/* Close file */
fclose(out);
/* Destroy image */
gdImageDestroy(im);
-
void* gdImageWBMPPtr(gdImagePtr im, int *size)
(FUNCTION)
- Identical to gdImageWBMP except that it returns a pointer to a memory
area with the WBMP data. This memory must be freed by the caller when it is
no longer needed. The caller must invoke gdFree(), not free(),
unless the caller is absolutely certain that the same implementations of
malloc, free, etc. are used both at library build time and at application
build time. The 'size' parameter receives the total size of the block
of memory.
-
void gdImageGd(gdImagePtr im, FILE *out)
(FUNCTION)
-
gdImageGd outputs the specified image to the specified
file in the gd image format. The file must
be open for writing. Under MSDOS and all versions of Windows, it is
important to use "wb" as
opposed to simply "w" as the mode when opening the file, and under
Unix there is no penalty for doing so. gdImagePng does not
close the file; your code must do so.
The gd image format is intended for fast reads and writes of
images your program will need frequently to build other
images. It is not a compressed format, and is not intended
for general use.
... inside a function ...
gdImagePtr im;
int black, white;
FILE *out;
/* Create the image */
im = gdImageCreate(100, 100);
/* Allocate background */
white = gdImageColorAllocate(im, 255, 255, 255);
/* Allocate drawing color */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Draw rectangle */
gdImageRectangle(im, 0, 0, 99, 99, black);
/* Open output file in binary mode */
out = fopen("rect.gd", "wb");
/* Write gd format file */
gdImageGd(im, out);
/* Close file */
fclose(out);
/* Destroy image */
gdImageDestroy(im);
-
void* gdImageGdPtr(gdImagePtr im, int *size)
(FUNCTION)
- Identical to gdImageGd except that it returns a pointer to a memory
area with the GD data. This memory must be freed by the caller when it is
no longer needed. The caller must invoke gdFree(), not free(),
unless the caller is absolutely certain that the same implementations of
malloc, free, etc. are used both at library build time and at application
build time. The 'size' parameter receives the total size of the block
of memory.
-
void gdImageGd2(gdImagePtr im, FILE *out, int chunkSize, int fmt)
(FUNCTION)
-
gdImageGd2 outputs the specified image to the specified
file in the gd2 image format. The file must
be open for writing. Under MSDOS and all versions of Windows, it is
important to use "wb" as
opposed to simply "w" as the mode when opening the file, and under
Unix there is no penalty for doing so. gdImageGd2 does not
close the file; your code must do so.
The gd2 image format is intended for fast reads and writes of
parts of images.
It is a compressed format, and well suited to retrieving smll sections of
much larger images.
The third and fourth parameters are the 'chunk size' and format resposectively.
The file is stored as a series of compressed subimages, and the
Chunk Size determines the sub-image size - a value of
zero causes the GD library to use the default.
It is also possible to store GD2 files in an uncompressed format, in which case the
fourth parameter should be GD2_FMT_RAW.
... inside a function ...
gdImagePtr im;
int black, white;
FILE *out;
/* Create the image */
im = gdImageCreate(100, 100);
/* Allocate background */
white = gdImageColorAllocate(im, 255, 255, 255);
/* Allocate drawing color */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Draw rectangle */
gdImageRectangle(im, 0, 0, 99, 99, black);
/* Open output file in binary mode */
out = fopen("rect.gd", "wb");
/* Write gd2 format file */
gdImageGd2(im, out, 0, GD2_FMT_COMPRESSED);
/* Close file */
fclose(out);
/* Destroy image */
gdImageDestroy(im);
-
void* gdImageGd2Ptr(gdImagePtr im, int chunkSize, int fmt, int *size)
(FUNCTION)
- Identical to gdImageGd2 except that it returns a pointer to a memory
area with the GD2 data. This memory must be freed by the caller when it is
no longer needed. The caller must invoke gdFree(), not free(),
unless the caller is absolutely certain that the same implementations of
malloc, free, etc. are used both at library build time and at application
build time. The 'size' parameter receives the total size of the block
of memory.
- void gdImageSetPixel(gdImagePtr im, int x, int y, int color) (FUNCTION)
- gdImageSetPixel sets a pixel to a particular color index. Always use
this function or one of the other drawing functions to access pixels;
do not access the pixels of the gdImage structure
directly.
... inside a function ...
gdImagePtr im;
int black;
int white;
im = gdImageCreate(100, 100);
/* Background color (first allocated) */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Allocate the color white (red, green and blue all maximum). */
white = gdImageColorAllocate(im, 255, 255, 255);
/* Set a pixel near the center. */
gdImageSetPixel(im, 50, 50, white);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
- void gdImageLine(gdImagePtr im, int x1, int y1, int x2, int y2, int color)
(FUNCTION)
-
gdImageLine is used to draw a line between two endpoints (x1,y1 and x2, y2).
The line is drawn using the color index specified. Note that the color
index can be an actual color returned by
gdImageColorAllocate or one of gdStyled,
gdBrushed or
gdStyledBrushed.
... inside a function ...
gdImagePtr im;
int black;
int white;
im = gdImageCreate(100, 100);
/* Background color (first allocated) */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Allocate the color white (red, green and blue all maximum). */
white = gdImageColorAllocate(im, 255, 255, 255);
/* Draw a line from the upper left corner to the lower right corner. */
gdImageLine(im, 0, 0, 99, 99, white);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
- void gdImageDashedLine(gdImagePtr im, int x1, int y1, int x2, int y2, int color)
(FUNCTION)
-
gdImageDashedLine is provided solely for backwards compatibility
with gd 1.0. New programs should draw dashed lines using
the normal gdImageLine function and the
new gdImageSetStyle function.
gdImageDashedLine is used to draw a dashed line between two endpoints
(x1,y1 and x2, y2).
The line is drawn using the color index specified. The portions of the line
that are not drawn are left transparent so the background is visible.
... inside a function ...
gdImagePtr im;
int black;
int white;
im = gdImageCreate(100, 100);
/* Background color (first allocated) */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Allocate the color white (red, green and blue all maximum). */
white = gdImageColorAllocate(im, 255, 255, 255);
/* Draw a dashed line from the upper left corner to the lower right corner. */
gdImageDashedLine(im, 0, 0, 99, 99);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
- void gdImagePolygon(gdImagePtr im, gdPointPtr points, int pointsTotal, int color)
(FUNCTION)
-
gdImagePolygon is used to draw a polygon with the verticies
(at least 3) specified, using the color index specified.
See also gdImageFilledPolygon.
... inside a function ...
gdImagePtr im;
int black;
int white;
/* Points of polygon */
gdPoint points[3];
im = gdImageCreate(100, 100);
/* Background color (first allocated) */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Allocate the color white (red, green and blue all maximum). */
white = gdImageColorAllocate(im, 255, 255, 255);
/* Draw a triangle. */
points[0].x = 50;
points[0].y = 0;
points[1].x = 99;
points[1].y = 99;
points[2].x = 0;
points[2].y = 99;
gdImagePolygon(im, points, 3, white);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
- void gdImageRectangle(gdImagePtr im, int x1, int y1, int x2, int y2, int color)
(FUNCTION)
-
gdImageRectangle is used to draw a rectangle with the two corners
(upper left first, then lower right) specified, using the
color index specified.
... inside a function ...
gdImagePtr im;
int black;
int white;
im = gdImageCreate(100, 100);
/* Background color (first allocated) */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Allocate the color white (red, green and blue all maximum). */
white = gdImageColorAllocate(im, 255, 255, 255);
/* Draw a rectangle occupying the central area. */
gdImageRectangle(im, 25, 25, 74, 74, white);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
- void gdImageFilledPolygon(gdImagePtr im, gdPointPtr points, int pointsTotal, int color)
(FUNCTION)
-
gdImageFilledPolygon is used to fill a polygon with the verticies
(at least 3) specified, using the color index specified.
See also gdImagePolygon.
... inside a function ...
gdImagePtr im;
int black;
int white;
int red;
/* Points of polygon */
gdPoint points[3];
im = gdImageCreate(100, 100);
/* Background color (first allocated) */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Allocate the color white (red, green and blue all maximum). */
white = gdImageColorAllocate(im, 255, 255, 255);
/* Allocate the color red. */
red = gdImageColorAllocate(im, 255, 0, 0);
/* Draw a triangle. */
points[0].x = 50;
points[0].y = 0;
points[1].x = 99;
points[1].y = 99;
points[2].x = 0;
points[2].y = 99;
/* Paint it in white */
gdImageFilledPolygon(im, points, 3, white);
/* Outline it in red; must be done second */
gdImagePolygon(im, points, 3, red);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
- void gdImageFilledRectangle(gdImagePtr im, int x1, int y1, int x2, int y2, int color)
(FUNCTION)
-
gdImageFilledRectangle is used to draw a solid rectangle with the two corners
(upper left first, then lower right) specified, using the
color index specified.
... inside a function ...
gdImagePtr im;
int black;
int white;
im = gdImageCreate(100, 100);
/* Background color (first allocated) */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Allocate the color white (red, green and blue all maximum). */
white = int gdImageColorAllocate(im, 255, 255, 255);
/* Draw a filled rectangle occupying the central area. */
gdImageFilledRectangle(im, 25, 25, 74, 74, white);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
- void gdImageArc(gdImagePtr im, int cx, int cy, int w, int h, int s, int e, int color)
(FUNCTION)
-
gdImageArc is used to draw a partial ellipse centered at the given point,
with the specified width and height in pixels. The arc begins at
the position in degrees specified by
s and ends at
the position specified by e . The arc is drawn in
the color specified by the last argument. A circle can be drawn
by beginning from 0 degrees and ending at 360 degrees, with
width and height being equal. e must be greater than s. Values greater
than 360 are interpreted modulo 360.
... inside a function ...
gdImagePtr im;
int black;
int white;
im = gdImageCreate(100, 50);
/* Background color (first allocated) */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Allocate the color white (red, green and blue all maximum). */
white = gdImageColorAllocate(im, 255, 255, 255);
/* Inscribe an ellipse in the image. */
gdImageArc(im, 50, 25, 98, 48, 0, 360, white);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
- void gdImageFilledArc(gdImagePtr im, int cx, int cy, int w, int h, int s, int e, int color, int style)
(FUNCTION)
-
gdImageFilledArc is used to draw a partial ellipse centered at the given point,
with the specified width and height in pixels. The arc begins at
the position in degrees specified by
s and ends at
the position specified by e . The arc is filled in
the color specified by the second to last argument. A circle can be drawn
by beginning from 0 degrees and ending at 360 degrees, with
width and height being equal. e must be greater than s. Values greater
than 360 are interpreted modulo 360. The last argument is a bitwise
OR of the following possibilities:
- gdArc
- gdChord
- gdPie (synonym for gdChord)
- gdNoFill
- gdEdged
gdArc and gdChord are mutually exclusive;
gdChord just connects the starting and ending
angles with a straight line, while gdArc produces
a rounded edge. gdPie is a synonym for gdArc.
gdNoFill indicates that the arc or chord should be
outlined, not filled. gdEdged, used together with
gdNoFill, indicates that the beginning and ending
angles should be connected to the center; this is
a good way to outline (rather than fill) a
'pie slice'.
... inside a function ...
gdImagePtr im;
int black;
int white;
im = gdImageCreate(100, 50);
/* Background color (first allocated) */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Allocate the color white (red, green and blue all maximum). */
white = gdImageColorAllocate(im, 255, 255, 255);
/* Inscribe a filled pie slice in the image. */
gdImageFilledArc(im, 50, 25, 98, 48, 0, 45, white, gdArc);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
- void gdImageFilledEllipse(gdImagePtr im, int cx, int cy, int w, int h, int s, int e, int color)
(FUNCTION)
-
gdImageFilledEllipse is used to draw an ellipse centered at the given point,
with the specified width and height in pixels. The ellipse is filled in
the color specified by the last argument. A circle can be drawn
by beginning from 0 degrees and ending at 360 degrees, with
width and height being equal. e must be greater than s. Values greater
than 360 are interpreted modulo 360.
... inside a function ...
gdImagePtr im;
int black;
int white;
im = gdImageCreate(100, 50);
/* Background color (first allocated) */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Allocate the color white (red, green and blue all maximum). */
white = gdImageColorAllocate(im, 255, 255, 255);
/* Inscribe a filled ellipse in the image. */
gdImageFilledEllipse(im, 50, 25, 98, 48, white);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
- void gdImageFillToBorder(gdImagePtr im, int x, int y, int border, int color)
(FUNCTION)
-
gdImageFillToBorder floods a portion of the image with the specified
color , beginning at the specified point and stopping at
the specified border color. For a way of flooding an
area defined by the color of the starting point, see
gdImageFill.
The border color cannot be a special color
such as gdTiled; it must be a proper
solid color. The fill color can be, however.
Note that gdImageFillToBorder is recursive. It is not the most
naive implementation possible, and the implementation is
expected to improve, but there will always be degenerate
cases in which the stack can become very deep. This can be
a problem in MSDOS and MS Windows 3.1 environments. (Of course,
in a Unix or Windows 95/98/NT environment with a proper stack, this is
not a problem at all.)
... inside a function ...
gdImagePtr im;
int black;
int white;
int red;
im = gdImageCreate(100, 50);
/* Background color (first allocated) */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Allocate the color white (red, green and blue all maximum). */
white = gdImageColorAllocate(im, 255, 255, 255);
/* Allocate the color red. */
red = gdImageColorAllocate(im, 255, 0, 0);
/* Inscribe an ellipse in the image. */
gdImageArc(im, 50, 25, 98, 48, 0, 360, white);
/* Flood-fill the ellipse. Fill color is red, border color is
white (ellipse). */
gdImageFillToBorder(im, 50, 50, white, red);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
- void gdImageFill(gdImagePtr im, int x, int y, int color)
(FUNCTION)
-
gdImageFill floods a portion of the image with the specified
color , beginning at the specified point and flooding the
surrounding region of the same color as the starting point.
For a way of flooding a region defined by a specific border
color rather than by its interior color, see
gdImageFillToBorder.
The fill color can be gdTiled, resulting
in a tile fill using another image as the tile. However,
the tile image cannot be transparent. If the image you wish
to fill with has a transparent color index, call
gdImageTransparent on the
tile image and set the transparent color index to -1
to turn off its transparency.
Note that gdImageFill is recursive. It is not the most
naive implementation possible, and the implementation is
expected to improve, but there will always be degenerate
cases in which the stack can become very deep. This can be
a problem in MSDOS and MS Windows environments. (Of course,
in a Unix or Windows 95/98/NT environment with a proper stack, this is
not a problem at all.)
... inside a function ...
gdImagePtr im;
int black;
int white;
int red;
im = gdImageCreate(100, 50);
/* Background color (first allocated) */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Allocate the color white (red, green and blue all maximum). */
white = gdImageColorAllocate(im, 255, 255, 255);
/* Allocate the color red. */
red = gdImageColorAllocate(im, 255, 0, 0);
/* Inscribe an ellipse in the image. */
gdImageArc(im, 50, 25, 98, 48, 0, 360, white);
/* Flood-fill the ellipse. Fill color is red, and will replace the
black interior of the ellipse. */
gdImageFill(im, 50, 50, red);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
- void gdImageSetBrush(gdImagePtr im, gdImagePtr brush)
(FUNCTION)
-
A "brush" is an image used to draw wide, shaped strokes in another image. Just
as a paintbrush is not a single point, a brush image need not be
a single pixel. Any gd image can be used as a brush, and by
setting the transparent color index of the brush image with
gdImageColorTransparent,
a brush of any shape can be created. All line-drawing functions,
such as gdImageLine and
gdImagePolygon, will use the
current brush if the special "color"
gdBrushed or gdStyledBrushed
is used when calling them.
gdImageSetBrush is used to specify the brush to be used in a
particular image. You can set any image to be the brush.
If the brush image does not have the same color map as the
first image, any colors missing from the first image
will be allocated. If not enough colors can be allocated,
the closest colors already available will be used. This
allows arbitrary PNGs to be used as brush images. It also
means, however, that you should not set a brush unless you
will actually use it; if you set a rapid succession of
different brush images, you can quickly fill your color map,
and the results will not be optimal.
You need not take any special action when you are finished
with a brush. As for any other image, if you will not
be using the brush image for any further purpose,
you should call gdImageDestroy.
You must not use the color gdBrushed
if the current brush has been destroyed; you can of
course set a new brush to replace it.
... inside a function ...
gdImagePtr im, brush;
FILE *in;
int black;
im = gdImageCreate(100, 100);
/* Open the brush PNG. For best results, portions of the
brush that should be transparent (ie, not part of the
brush shape) should have the transparent color index. */
in = fopen("star.png", "rb");
brush = gdImageCreateFromPng(in);
/* Background color (first allocated) */
black = gdImageColorAllocate(im, 0, 0, 0);
gdImageSetBrush(im, brush);
/* Draw a line from the upper left corner to the lower right corner
using the brush. */
gdImageLine(im, 0, 0, 99, 99, gdBrushed);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
/* Destroy the brush image */
gdImageDestroy(brush);
- void gdImageSetTile(gdImagePtr im, gdImagePtr tile)
(FUNCTION)
-
A "tile" is an image used to fill an area with a repeated pattern.
Any gd image can be used as a tile, and by
setting the transparent color index of the tile image with
gdImageColorTransparent,
a tile that allows certain parts of the underlying area to shine
through can be created. All region-filling functions,
such as gdImageFill and
gdImageFilledPolygon, will use the
current tile if the special "color"
gdTiled is used when calling them.
gdImageSetTile is used to specify the tile to be used in a
particular image. You can set any image to be the tile.
If the tile image does not have the same color map as the
first image, any colors missing from the first image
will be allocated. If not enough colors can be allocated,
the closest colors already available will be used. This
allows arbitrary PNGs to be used as tile images. It also
means, however, that you should not set a tile unless you
will actually use it; if you set a rapid succession of
different tile images, you can quickly fill your color map,
and the results will not be optimal.
You need not take any special action when you are finished
with a tile. As for any other image, if you will not
be using the tile image for any further purpose,
you should call gdImageDestroy.
You must not use the color gdTiled
if the current tile has been destroyed; you can of
course set a new tile to replace it.
... inside a function ...
gdImagePtr im, tile;
FILE *in;
int black;
im = gdImageCreate(100, 100);
/* Open the tile PNG. For best results, portions of the
tile that should be transparent (ie, allowing the
background to shine through) should have the transparent
color index. */
in = fopen("star.png", "rb");
tile = gdImageCreateFromPng(in);
/* Background color (first allocated) */
black = gdImageColorAllocate(im, 0, 0, 0);
gdImageSetTile(im, tile);
/* Fill an area using the tile. */
gdImageFilledRectangle(im, 25, 25, 75, 75, gdTiled);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
/* Destroy the tile image */
gdImageDestroy(tile);
- void gdImageSetStyle(gdImagePtr im, int *style, int styleLength)
(FUNCTION)
-
It is often desirable to draw dashed lines, dotted lines, and other
variations on a broken line. gdImageSetStyle can be used to set
any desired series of colors, including a special color that
leaves the background intact, to be repeated during the drawing
of a line.
To use gdImageSetStyle, create an array of integers and assign
them the desired series of color values to be repeated.
You can assign the special color value
gdTransparent to indicate that the existing color should
be left unchanged for that particular pixel (allowing a dashed
line to be attractively drawn over an existing image).
Then, to draw a line using the style, use the normal
gdImageLine function with the
special color value gdStyled.
As of version 1.1.1, the style
array is copied when you set the style, so you need not
be concerned with keeping the array around indefinitely.
This should not break existing code that assumes styles
are not copied.
You can also combine styles and brushes to draw the brush
image at intervals instead of in a continuous stroke.
When creating a style for use with a brush, the
style values are interpreted differently: zero (0) indicates
pixels at which the brush should not be drawn, while one (1)
indicates pixels at which the brush should be drawn.
To draw a styled, brushed line, you must use the
special color value
gdStyledBrushed. For an example of this feature
in use, see gddemo.c (provided in the distribution).
gdImagePtr im;
int styleDotted[2], styleDashed[6];
FILE *in;
int black;
int red;
im = gdImageCreate(100, 100);
/* Background color (first allocated) */
black = gdImageColorAllocate(im, 0, 0, 0);
red = gdImageColorAllocate(im, 255, 0, 0);
/* Set up dotted style. Leave every other pixel alone. */
styleDotted[0] = red;
styleDotted[1] = gdTransparent;
/* Set up dashed style. Three on, three off. */
styleDashed[0] = red;
styleDashed[1] = red;
styleDashed[2] = red;
styleDashed[3] = gdTransparent;
styleDashed[4] = gdTransparent;
styleDashed[5] = gdTransparent;
/* Set dotted style. Note that we have to specify how many pixels are
in the style! */
gdImageSetStyle(im, styleDotted, 2);
/* Draw a line from the upper left corner to the lower right corner. */
gdImageLine(im, 0, 0, 99, 99, gdStyled);
/* Now the dashed line. */
gdImageSetStyle(im, styleDashed, 6);
gdImageLine(im, 0, 99, 0, 99, gdStyled);
/* ... Do something with the image, such as saving it to a file ... */
/* Destroy it */
gdImageDestroy(im);
- void gdImageAlphaBlending(gdImagePtr im, int blending)
(FUNCTION)
-
The gdImageAlphaBlending
function allows for two different modes of drawing on truecolor
images. In blending mode, the alpha channel component of the color
supplied to all drawing functions, such as
gdImageSetPixel, determines how much of
the underlying color should be allowed to shine through. As a result,
gd automatically blends the existing color at that point with the
drawing color, and stores the result in the image. The resulting pixel
is opaque. In non-blending mode, the drawing color is copied literally
with its alpha channel information, replacing the destination pixel.
Blending mode is not available when drawing on palette images.
gdImagePtr im;
int red, blue;
im = gdImageCreateTrueColor(100, 100);
/* Background color */
red = gdTrueColor(255, 0, 0);
gdImageFilledRectangle(im, 0, 0, 100, 100, red);
/* Drawing color. Full transparency would be an alpha channel value
of 127 (gd has a 7 bit alpha chnanel). 0 is opaque,
127 is transparent. So cut gdAlphaTransparent in half to get
50% blending. */
blue = gdTrueColorAlpha(0, 0, 255, gdAlphaTransparent / 2);
/* Draw with blending. Result will be 50% red, 50% blue: yellow
(emitted light, remember, not reflected light. What you learned
in Kindergarten is wrong here). */
gdImageAlphaBlending(im, 1);
gdImageFilledRectangle(im, 0, 0, 25, 25, blue);
/* Draw without blending. Result will be 50% blue, 50%
the background color of the image viewer or web browser
used; results in browsers that don't support
semi-transparent pixels are unpredictable! */
gdImageAlphaBlending(im, 0);
gdImageFilledRectangle(im, 75, 75, 25, 25, blue);
/* Write the image to disk, etc. */
-
int gdImageAlpha(gdImagePtr im, int color)
(MACRO)
-
gdImageAlpha is a macro which returns the alpha channel component of
the specified color index. Alpha channel values vary between
0 (gdAlphaOpaque), which does not blend at all with the background,
through 127 (gdAlphaTransparent), which allows the background to
shine through 100%. Use this macro rather than accessing the
structure members directly.
int gdImageBlue(gdImagePtr im, int color)
(MACRO)
-
gdImageBlue is a macro which returns the blue component of
the specified color index. Use this macro rather than accessing the
structure members directly.
- int gdImageGetPixel(gdImagePtr im, int x, int y)
(FUNCTION)
-
gdImageGetPixel() retrieves the color index of a particular
pixel. Always use this function to query pixels;
do not access the pixels of the gdImage structure
directly.
... inside a function ...
FILE *in;
gdImagePtr im;
int c;
in = fopen("mypng.png", "rb");
im = gdImageCreateFromPng(in);
fclose(in);
c = gdImageGetPixel(im, gdImageSX(im) / 2, gdImageSY(im) / 2);
printf("The value of the center pixel is %d; RGB values are %d,%d,%d\n",
c, im->red[c], im->green[c], im->blue[c]);
gdImageDestroy(im);
-
int gdImageBoundsSafe(gdImagePtr im, int x, int y)
(FUNCTION)
-
gdImageBoundsSafe returns true (1) if the specified point is within the bounds
of the image, false (0) if not. This function is intended primarily for
use by those who wish to add functions to gd. All of the gd drawing
functions already clip safely to the edges of the image.
... inside a function ...
gdImagePtr im;
int black;
int white;
im = gdImageCreate(100, 100);
if (gdImageBoundsSafe(im, 50, 50)) {
printf("50, 50 is within the image bounds\n");
} else {
printf("50, 50 is outside the image bounds\n");
}
gdImageDestroy(im);
-
int gdImageGreen(gdImagePtr im, int color)
(MACRO)
-
gdImageGreen is a macro which returns the green component of
the specified color index. Use this macro rather than accessing the
structure members directly.
-
int gdImageRed(gdImagePtr im, int color)
(MACRO)
-
gdImageRed is a macro which returns the red component of
the specified color index. Use this macro rather than accessing the
structure members directly.
-
int gdImageSX(gdImagePtr im)
(MACRO)
-
gdImageSX is a macro which returns the width of the image
in pixels. Use this macro rather than accessing the
structure members directly.
-
int gdImageSY(gdImagePtr im)
(MACRO)
-
gdImageSY is a macro which returns the height of the image
in pixels. Use this macro rather than accessing the
structure members directly.
-
void gdImageChar(gdImagePtr im, gdFontPtr font, int x, int y,
int c, int color)
(FUNCTION)
-
gdImageChar is used to draw single characters on the image.
(To draw multiple characters, use
gdImageString or
gdImageString16.
See also gdImageStringFT for a high quality
solution.)
The second argument is a pointer to a font definition structure; five fonts are
provided with gd, gdFontTiny, gdFontSmall, gdFontMediumBold,
gdFontLarge, and gdFontGiant. You must
include the files "gdfontt.h", "gdfonts.h", "gdfontmb.h",
"gdfontl.h" and "gdfontg.h" respectively
and (if you are not using a library-based approach) link with the
corresponding .c files to use the provided fonts.
The character specified by the fifth
argument is drawn from left to right in the specified
color. (See gdImageCharUp for a way
of drawing vertical text.) Pixels not
set by a particular character retain their previous color.
#include "gd.h"
#include "gdfontl.h"
... inside a function ...
gdImagePtr im;
int black;
int white;
im = gdImageCreate(100, 100);
/* Background color (first allocated) */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Allocate the color white (red, green and blue all maximum). */
white = gdImageColorAllocate(im, 255, 255, 255);
/* Draw a character. */
gdImageChar(im, gdFontLarge, 0, 0, 'Q', white);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
-
void gdImageCharUp(gdImagePtr im, gdFontPtr font, int x, int y,
int c, int color)
(FUNCTION)
-
gdImageCharUp is used to draw single characters on the image,
rotated 90 degrees.
(To draw multiple characters, use
gdImageStringUp or
gdImageStringUp16.) The second argument is a
pointer to a font definition structure; five fonts are
provided with gd, gdFontTiny, gdFontSmall, gdFontMediumBold,
gdFontLarge, and gdFontGiant. You must
include the files "gdfontt.h", "gdfonts.h", "gdfontmb.h",
"gdfontl.h" and "gdfontg.h" respectively
and (if you are not using a library-based approach) link with the
corresponding .c files to use the provided fonts. The character specified by
the fifth argument is drawn
from bottom to top, rotated at a 90-degree angle, in the specified
color. (See gdImageChar for a way
of drawing horizontal text.) Pixels not
set by a particular character retain their previous color.
#include "gd.h"
#include "gdfontl.h"
... inside a function ...
gdImagePtr im;
int black;
int white;
im = gdImageCreate(100, 100);
/* Background color (first allocated) */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Allocate the color white (red, green and blue all maximum). */
white = gdImageColorAllocate(im, 255, 255, 255);
/* Draw a character upwards so it rests against the top of the image. */
gdImageCharUp(im, gdFontLarge,
0, gdFontLarge->h, 'Q', white);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
-
void gdImageString(gdImagePtr im, gdFontPtr font, int x, int y,
unsigned char *s, int color)
(FUNCTION)
-
gdImageString is used to draw multiple characters on the image.
(To draw single characters, use
gdImageChar.) The second argument is a
pointer to a font definition structure; five fonts are
provided with gd, gdFontTiny, gdFontSmall, gdFontMediumBold,
gdFontLarge, and gdFontGiant. You must
include the files "gdfontt.h", "gdfonts.h", "gdfontmb.h",
"gdfontl.h" and "gdfontg.h" respectively
and (if you are not using a library-based approach) link with the
corresponding .c files to use the provided fonts.
The null-terminated C string specified
by the fifth argument is drawn from left to right in the specified
color. (See gdImageStringUp for a way
of drawing vertical text.
See also gdImageStringFT for a high
quality solution.)
Pixels not set by a particular character retain their previous color.
#include "gd.h"
#include "gdfontl.h"
#include <string.h>
... inside a function ...
gdImagePtr im;
int black;
int white;
/* String to draw. */
char *s = "Hello.";
im = gdImageCreate(100, 100);
/* Background color (first allocated) */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Allocate the color white (red, green and blue all maximum). */
white = gdImageColorAllocate(im, 255, 255, 255);
/* Draw a centered string. */
gdImageString(im, gdFontLarge,
im->w / 2 - (strlen(s) * gdFontLarge->w / 2),
im->h / 2 - gdFontLarge->h / 2,
s, white);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
-
void gdImageString16(gdImagePtr im, gdFontPtr font, int x, int y,
unsigned short *s, int color)
(FUNCTION)
-
gdImageString is used to draw multiple 16-bit characters on the image.
(To draw single characters, use
gdImageChar.) The second argument is a
pointer to a font definition structure; five fonts are
provided with gd, gdFontTiny, gdFontSmall, gdFontMediumBold,
gdFontLarge, and gdFontGiant. You must
include the files "gdfontt.h", "gdfonts.h", "gdfontmb.h",
"gdfontl.h" and "gdfontg.h" respectively
and (if you are not using a library-based approach) link with the
corresponding .c files to use the provided fonts.
The null-terminated string of characters represented as 16-bit unsigned
short integers specified by the fifth argument is drawn from left to right
in the specified
color. (See gdImageStringUp16 for a way
of drawing vertical text.) Pixels not
set by a particular character retain their previous color.
This function was added in gd1.3 to provide a means of rendering
fonts with more than 256 characters for those who have them. A
more frequently used routine is gdImageString.
-
void gdImageStringUp(gdImagePtr im, gdFontPtr font, int x, int y,
unsigned char *s, int color)
(FUNCTION)
-
gdImageStringUp is used to draw multiple characters on the image,
rotated 90 degrees.
(To draw single characters, use
gdImageCharUp.) The second argument is a
pointer to a font definition structure; five fonts are
provided with gd, gdFontTiny, gdFontSmall, gdFontMediumBold,
gdFontLarge, and gdFontGiant. You must
include the files "gdfontt.h", "gdfonts.h", "gdfontmb.h",
"gdfontl.h" and "gdfontg.h" respectively
and (if you are not using a library-based approach) link with the
corresponding .c files to use the provided fonts.The null-terminated C string specified
by the fifth argument is drawn from bottom to top (rotated
90 degrees) in the specified color. (See
gdImageString for a way
of drawing horizontal text.) Pixels not
set by a particular character retain their previous color.
#include "gd.h"
#include "gdfontl.h"
#include <string.h>
... inside a function ...
gdImagePtr im;
int black;
int white;
/* String to draw. */
char *s = "Hello.";
im = gdImageCreate(100, 100);
/* Background color (first allocated) */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Allocate the color white (red, green and blue all maximum). */
white = gdImageColorAllocate(im, 255, 255, 255);
/* Draw a centered string going upwards. Axes are reversed,
and Y axis is decreasing as the string is drawn. */
gdImageStringUp(im, gdFontLarge,
im->w / 2 - gdFontLarge->h / 2,
im->h / 2 + (strlen(s) * gdFontLarge->w / 2),
s, white);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
-
void gdImageStringUp16(gdImagePtr im, gdFontPtr font, int x, int y,
unsigned short *s, int color)
(FUNCTION)
-
gdImageString is used to draw multiple 16-bit characters vertically on
the image. (To draw single characters, use
gdImageChar.) The second argument is a
pointer to a font definition structure; five fonts are
provided with gd, gdFontTiny, gdFontSmall, gdFontMediumBold,
gdFontLarge, and gdFontGiant. You must
include the files "gdfontt.h", "gdfonts.h", "gdfontmb.h",
"gdfontl.h" and "gdfontg.h" respectively
and (if you are not using a library-based approach) link with the
corresponding .c files to use the provided fonts.
The null-terminated string of characters represented as 16-bit unsigned
short integers specified by the fifth argument is drawn from bottom to top
in the specified color.
(See gdImageStringUp16 for a way
of drawing horizontal text.) Pixels not
set by a particular character retain their previous color.
This function was added in gd1.3 to provide a means of rendering
fonts with more than 256 characters for those who have them. A
more frequently used routine is gdImageStringUp.
-
char *gdImageStringFT(gdImagePtr im, int *brect,
int fg, char *fontname, double ptsize, double angle,
int x, int y, char *string)
(FUNCTION)
-
RECOMMENDED. New in 1.8.4. gdImageStringFT draws text using the
FreeType 2.x library.
gdImageStringFT draws a string of anti-aliased characters on the image using
the FreeType
library to render user-supplied TrueType fonts. We do not provide
TrueType fonts (.ttf and .ttc files). Obtaining them is entirely up to
you. The string is anti-aliased, meaning that there should be
fewer "jaggies" visible. The fontname is the full pathname to a TrueType
font file, or a font face name if the GDFONTPATH environment variable
or FreeType's DEFAULT_FONTPATH variable have been set intelligently.
The string may be arbitrarily scaled (ptsize) and rotated (angle in radians).
The user-supplied int brect[8] array is filled on return from gdImageStringFT
with the 8 elements representing the 4 corner coordinates of the
bounding rectangle.
0 |
lower left corner, X position |
lower left corner, Y position |
lower right corner, X position |
3 |
lower right corner, Y position |
4 |
upper right corner, X position |
5 |
upper right corner, Y position |
6 |
upper left corner, X position |
7 |
upper left corner, Y position |
The points are relative to the text regardless of the angle, so "upper left"
means in the top left-hand corner seeing the text horizontally.
Use a NULL gdImagePtr to get the bounding rectangle without rendering.
This is a relatively cheap operation if followed by a rendering of the same
string, because of the caching of the partial rendering during bounding
rectangle calculation.
The string is rendered in the color indicated by the gf color index.
Use the negative of the desired color index to
disable anti-aliasing.
The string may contain UTF-8 sequences like: "À"
gdImageStringFT will return a null char* on success, or an error
string on failure.
#include "gd.h"
#include <string.h>
... inside a function ...
gdImagePtr im;
int black;
int white;
int brect[8];
int x, y;
char *err;
char *s = "Hello."; /* String to draw. */
double sz = 40.;
char *f = "/usr/local/share/ttf/Times.ttf"; /* User supplied font */
/* obtain brect so that we can size the image */
err = gdImageStringFT(NULL,&brect[0],0,f,sz,0.,0,0,s);
if (err) {fprintf(stderr,err); return 1;}
/* create an image big enough for the string plus a little whitespace */
x = brect[2]-brect[6] + 6;
y = brect[3]-brect[7] + 6;
im = gdImageCreate(x,y);
/* Background color (first allocated) */
white = gdImageColorResolve(im, 255, 255, 255);
black = gdImageColorResolve(im, 0, 0, 0);
/* render the string, offset origin to center string*/
/* note that we use top-left coordinate for adjustment
* since gd origin is in top-left with y increasing downwards. */
x = 3 - brect[6];
y = 3 - brect[7];
err = gdImageStringFT(im,&brect[0],black,f,sz,0.0,x,y,s);
if (err) {fprintf(stderr,err); return 1;}
/* Write img to stdout */
gdImagePng(im, stdout);
/* Destroy it */
gdImageDestroy(im);
-
char *gdImageStringTTF(gdImagePtr im, int *brect,
int fg, char *fontname, double ptsize, double angle,
int x, int y, char *string)
(FUNCTION)
-
DEPRECATED. THis function simply invokes
gdImageStringFT for backwards
compatibility with old code that was written with FreeType 1.x.
/DL>
-
int gdImageColorAllocate(gdImagePtr im, int r, int g, int b)
(FUNCTION)
-
gdImageColorAllocate finds the first available color index in
the image specified, sets its RGB values to those requested
(255 is the maximum for each),
and returns the index of the new color table entry, or an RGBA
value in the case of a truecolor image; in either case you can
then use the returned value as a parameter to drawing functions. When
creating a new palette-based image, the first time you invoke this function,
you are setting the background color for that image.
In the event that all gdMaxColors colors
(256) have already been allocated, gdImageColorAllocate will
return -1 to indicate failure. (This is not uncommon when
working with existing PNG files that already use 256 colors.)
Note that gdImageColorAllocate
does not check for existing colors that match your request;
see gdImageColorExact,
gdImageColorClosest and
gdImageColorClosestHWB
for ways to locate existing colors that approximate the
color desired in situations where a new color is not available.
Also see gdImageColorResolve,
new in gd-1.6.2.
... inside a function ...
gdImagePtr im;
int black;
int red;
im = gdImageCreate(100, 100);
/* Background color (first allocated) */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Allocate the color red. */
red = gdImageColorAllocate(im, 255, 0, 0);
/* Draw a dashed line from the upper left corner to the lower right corner. */
gdImageDashedLine(im, 0, 0, 99, 99, red);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
-
int gdImageColorAllocateAlpha(gdImagePtr im, int r, int g, int b, int a)
(FUNCTION)
-
gdImageColorAllocateAlpha finds the first available color index in
the image specified, sets its RGBA values to those requested
(255 is the maximum for red, green and blue, and 127 represents
full transparency for alpha),
and returns the index of the new color table entry, or an RGBA
value in the case of a truecolor image; in either case you can
then use the returned value as a parameter to drawing functions. When
creating a new palette-based image, the first time you invoke this function,
you are setting the background color for that image.
In the event that all gdMaxColors colors
(256) have already been allocated, gdImageColorAllocate will
return -1 to indicate failure. (This is not uncommon when
working with existing palette-based PNG files that already use 256 colors.)
Note that gdImageColorAllocateAlpha
does not check for existing colors that match your request;
see gdImageColorExactAlpha and
gdImageColorClosestAlpha
for ways to locate existing colors that approximate the
color desired in situations where a new color is not available.
Also see gdImageColorResolveAlpha.
... inside a function ...
gdImagePtr im;
int black;
int red;
im = gdImageCreate(100, 100);
/* Background color (first allocated) */
black = gdImageColorAllocate(im, 0, 0, 0);
/* Allocate the color red, 50% transparent. */
red = gdImageColorAllocateAlpha(im, 255, 0, 0, 64);
/* Draw a dashed line from the upper left corner to the lower right corner. */
gdImageDashedLine(im, 0, 0, 99, 99, red);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
-
int gdImageColorClosest(gdImagePtr im, int r, int g, int b)
(FUNCTION)
-
gdImageColorClosest searches the colors which have been
defined thus far in the image specified and returns the
index of the color with RGB values closest to those of the
request. (Closeness is determined by Euclidian distance,
which is used to determine the distance in three-dimensional color
space between colors.)
If no colors have yet been allocated in the image,
gdImageColorClosest returns -1.
When applied to a truecolor image, this function always
succeeds in returning the desired color.
This function is most useful as a backup method for choosing
a drawing color when an image already contains
gdMaxColors (256) colors and
no more can be allocated. (This is not uncommon when
working with existing PNG files that already use many colors.)
See gdImageColorExact
for a method of locating exact matches only.
... inside a function ...
gdImagePtr im;
FILE *in;
int red;
/* Let's suppose that photo.png is a scanned photograph with
many colors. */
in = fopen("photo.png", "rb");
im = gdImageCreateFromPng(in);
fclose(in);
/* Try to allocate red directly */
red = gdImageColorAllocate(im, 255, 0, 0);
/* If we fail to allocate red... */
if (red == (-1)) {
/* Find the closest color instead. */
red = gdImageColorClosest(im, 255, 0, 0);
}
/* Draw a dashed line from the upper left corner to the lower right corner */
gdImageDashedLine(im, 0, 0, 99, 99, red);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
-
int gdImageColorClosestAlpha(gdImagePtr im, int r, int g, int b, int a)
(FUNCTION)
-
gdImageColorClosest searches the colors which have been
defined thus far in the image specified and returns the
index of the color with RGBA values closest to those of the
request. (Closeness is determined by Euclidian distance,
which is used to determine the distance in four-dimensional color/alpha
space between colors.)
If no colors have yet been allocated in the image,
gdImageColorClosestAlpha returns -1.
When applied to a truecolor image, this function always
succeeds in returning the desired color.
This function is most useful as a backup method for choosing
a drawing color when a palette-based image already contains
gdMaxColors (256) colors and
no more can be allocated. (This is not uncommon when
working with existing palette-based PNG files that already use many colors.)
See gdImageColorExactAlpha
for a method of locating exact matches only.
... inside a function ...
gdImagePtr im;
FILE *in;
int red;
/* Let's suppose that photo.png is a scanned photograph with
many colors. */
in = fopen("photo.png", "rb");
im = gdImageCreateFromPng(in);
fclose(in);
/* Try to allocate red, 50% transparent, directly */
red = gdImageColorAllocateAlpha(im, 255, 0, 0, 64);
/* If we fail to allocate red... */
if (red == (-1)) {
/* Find the closest color instead. */
red = gdImageColorClosestAlpha(im, 255, 0, 0, 64);
}
/* Draw a dashed line from the upper left corner to the lower right corner */
gdImageDashedLine(im, 0, 0, 99, 99, red);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
-
int gdImageColorClosestHWB(gdImagePtr im, int r, int g, int b)
(FUNCTION)
-
gdImageColorClosestHWB searches the colors which have been
defined thus far in the image specified and returns the
index of the color with hue, whiteness and blackness closest to the
requested color. This scheme is typically superior to the
Euclidian distance scheme used by
gdImageColorClosest.
If no colors have yet been allocated in the image,
gdImageColorClosestHWB returns -1.
When applied to a truecolor image, this function always
succeeds in returning the desired color.
This function is most useful as a backup method for choosing
a drawing color when an image already contains
gdMaxColors (256) colors and
no more can be allocated. (This is not uncommon when
working with existing PNG files that already use many colors.)
See gdImageColorExact
for a method of locating exact matches only.
... inside a function ...
gdImagePtr im;
FILE *in;
int red;
/* Let's suppose that photo.png is a scanned photograph with
many colors. */
in = fopen("photo.png", "rb");
im = gdImageCreateFromPng(in);
fclose(in);
/* Try to allocate red directly */
red = gdImageColorAllocate(im, 255, 0, 0);
/* If we fail to allocate red... */
if (red == (-1)) {
/* Find the closest color instead. */
red = gdImageColorClosestHWB(im, 255, 0, 0);
}
/* Draw a dashed line from the upper left corner to the lower right corner */
gdImageDashedLine(im, 0, 0, 99, 99, red);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
-
int gdImageColorExact(gdImagePtr im, int r, int g, int b)
(FUNCTION)
-
gdImageColorExact searches the colors which have been
defined thus far in the image specified and returns the
index of the first color with RGB values which exactly
match those of the request. If no allocated color matches the
request precisely, gdImageColorExact returns -1.
See gdImageColorClosest
for a way to find the color closest to the color requested.
When applied to a truecolor image, this function always
succeeds in returning the desired color.
... inside a function ...
gdImagePtr im;
int red;
in = fopen("photo.png", "rb");
im = gdImageCreateFromPng(in);
fclose(in);
/* The image may already contain red; if it does, we'll save a slot
in the color table by using that color. */
/* Try to allocate red directly */
red = gdImageColorExact(im, 255, 0, 0);
/* If red isn't already present... */
if (red == (-1)) {
/* Second best: try to allocate it directly. */
red = gdImageColorAllocate(im, 255, 0, 0);
/* Out of colors, so find the closest color instead. */
red = gdImageColorClosest(im, 255, 0, 0);
}
/* Draw a dashed line from the upper left corner to the lower right corner */
gdImageDashedLine(im, 0, 0, 99, 99, red);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
-
int gdImageColorResolve(gdImagePtr im, int r, int g, int b)
(FUNCTION)
-
gdImageColorResolve searches the colors which have been
defined thus far in the image specified and returns the
index of the first color with RGB values which exactly
match those of the request. If no allocated color matches the
request precisely, then gdImageColorResolve tries to allocate the
exact color. If there is no space left in the color table then
gdImageColorResolve returns the closest color (as in gdImageColorClosest).
This function always returns an index of a color.
When applied to a truecolor image, this function always
succeeds in returning the desired color.
... inside a function ...
gdImagePtr im;
int red;
in = fopen("photo.png", "rb");
im = gdImageCreateFromPng(in);
fclose(in);
/* The image may already contain red; if it does, we'll save a slot
in the color table by using that color. */
/* Get index of red, or color closest to red */
red = gdImageColorResolve(im, 255, 0, 0);
/* Draw a dashed line from the upper left corner to the lower right corner */
gdImageDashedLine(im, 0, 0, 99, 99, red);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
-
int gdImageColorResolveAlpha(gdImagePtr im, int r, int g, int b, int a)
(FUNCTION)
-
gdImageColorResolveAlpha searches the colors which have been
defined thus far in the image specified and returns the
index of the first color with RGBA values which exactly
match those of the request. If no allocated color matches the
request precisely, then gdImageColorResolveAlpha tries to allocate the
exact color. If there is no space left in the color table then
gdImageColorResolveAlpha returns the closest color (as in gdImageColorClosestAlpha).
This function always returns an index of a color.
When applied to a truecolor image, this function always
succeeds in returning the desired color.
... inside a function ...
gdImagePtr im;
int red;
in = fopen("photo.png", "rb");
im = gdImageCreateFromPng(in);
fclose(in);
/* The image may already contain red; if it does, we'll save a slot
in the color table by using that color. */
/* Get index of red, 50% transparent, or the next best thing */
red = gdImageColorResolveAlpha(im, 255, 0, 0, 64);
/* Draw a dashed line from the upper left corner to the lower right corner */
gdImageDashedLine(im, 0, 0, 99, 99, red);
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
-
int gdImageColorsTotal(gdImagePtr im)
(MACRO)
-
gdImageColorsTotal is a macro which returns the number of
colors currently allocated in a palette image. For truecolor
images, the result of this call is undefined and should not
be used.
-
int gdImageColorRed(gdImagePtr im, int c)
(MACRO)
-
gdImageColorRed is a macro which returns the red portion
of the specified color in the image. This macro works
for both palette and truecolor images.
-
int gdImageColorGreen(gdImagePtr im, int c)
(MACRO)
-
gdImageColorGreen is a macro which returns the green portion
of the specified color in the image. This macro works
for both palette and truecolor images.
-
int gdImageColorBlue(gdImagePtr im, int c)
(MACRO)
-
gdImageColorBlue is a macro which returns the green portion
of the specified color in the image. This macro works
for both palette and truecolor images.
-
int gdImageGetInterlaced(gdImagePtr im)
(MACRO)
-
gdImageGetInterlaced is a macro which returns true (1)
if the image is interlaced, false (0) if not.
Use this macro to obtain this information; do not
access the structure directly.
See gdImageInterlace for
a means of interlacing images.
-
int gdImageGetTransparent(gdImagePtr im)
(MACRO)
-
gdImageGetTransparent is a macro which returns the
current transparent color index in the image.
If there is no transparent color, gdImageGetTransparent
returns -1. Use this macro to obtain this information; do not
access the structure directly.
-
void gdImageColorDeallocate(gdImagePtr im, int color)
(FUNCTION)
-
gdImageColorDeallocate marks the specified color as being
available for reuse. It does not attempt to determine whether
the color index is still in use in the image. After a call
to this function, the next call to
gdImageColorAllocate
for the same image will set new RGB values for that
color index, changing the color of any pixels which
have that index as a result. If multiple calls to
gdImageColorDeallocate are made consecutively, the lowest-numbered
index among them will be reused by the next
gdImageColorAllocate call.
... inside a function ...
gdImagePtr im;
int red, blue;
in = fopen("photo.png", "rb");
im = gdImageCreateFromPng(in);
fclose(in);
/* Look for red in the color table. */
red = gdImageColorExact(im, 255, 0, 0);
/* If red is present... */
if (red != (-1)) {
/* Deallocate it. */
gdImageColorDeallocate(im, red);
/* Allocate blue, reusing slot in table.
Existing red pixels will change color. */
blue = gdImageColorAllocate(im, 0, 0, 255);
}
/* ... Do something with the image, such as saving it to a file... */
/* Destroy it */
gdImageDestroy(im);
-
void gdImageColorTransparent(gdImagePtr im, int color)
(FUNCTION)
-
gdImageColorTransparent sets the transparent color index
for the specified image to the specified index. To indicate
that there should be no transparent color, invoke
gdImageColorTransparent with a color index of -1. Note that
JPEG images do not support transparency, so this setting has no effect
when writing JPEG images.
The color index used should be an index
allocated by gdImageColorAllocate,
whether explicitly invoked by your code or implicitly
invoked by loading an image.
In order to ensure that your image has a reasonable appearance
when viewed by users who do not have transparent background
capabilities (or when you are writing a JPEG-format file, which does
not support transparency), be sure to give reasonable RGB values to the
color you allocate for use as a transparent color,
even though it will be transparent on systems
that support PNG transparency.
... inside a function ...
gdImagePtr im;
int black;
FILE *in, *out;
in = fopen("photo.png", "rb");
im = gdImageCreateFromPng(in);
fclose(in);
/* Look for black in the color table and make it transparent. */
black = gdImageColorExact(im, 0, 0, 0);
/* If black is present... */
if (black != (-1)) {
/* Make it transparent */
gdImageColorTransparent(im, black);
}
/* Save the newly-transparent image back to the file */
out = fopen("photo.png", "wb");
gdImagePng(im, out);
fclose(out);
/* Destroy it */
gdImageDestroy(im);
-
void gdImageTrueColor(int red, int green, int blue)
(MACRO)
-
gdImageTrueColor returns an RGBA color value for use when
drawing on a truecolor image. Red, green, and blue are all
in the range between 0 (off) and 255 (maximum). This macro should
not be used with palette-based images. If you need to write
code which is compatible with both palette-based and
truecolor images, use gdImageColorResolve.
-
void gdImageTrueColorAlpha(int red, int green, int blue, int alpha)
(MACRO)
-
gdImageTrueColorAlpha returns an RGBA color value for use when
drawing on a truecolor image with alpha channel transparency. Red,
green, and blue are all
in the range between 0 (off) and 255 (maximum). Alpha is in the
range between 0 (opaque) and 127 (fully transparent). This macro should
not be used with palette-based images. If you need to write
code which is compatible with both palette-based and
truecolor images, use gdImageColorResolveAlpha.
- void gdImageCopy(gdImagePtr dst, gdImagePtr src, int dstX, int dstY, int srcX, int srcY, int w, int h)
(FUNCTION)
-
gdImageCopy is used to copy a rectangular portion of one image to
another image. (For a way of stretching or shrinking the image
in the process, see
gdImageCopyResized.)
The dst argument is the destination image to which the
region will be copied. The src argument is the source
image from which the region is copied. The dstX
and dstY arguments specify the point in the destination
image to which the region will be copied. The srcX
and srcY arguments specify the upper left corner
of the region in the source image. The w
and h arguments specify the width and height
of the region.
When you copy a region from one location in an image to another
location in the same image, gdImageCopy will perform as expected
unless the regions overlap, in which case the result is
unpredictable.
Important note on copying between images: since
different images do
not necessarily have the same color tables, pixels are not simply set to the
same color index values to copy them. gdImageCopy will attempt
to find an identical RGB value in the destination image for
each pixel in the copied portion of the source image by
invoking gdImageColorExact. If
such a value is not found, gdImageCopy will attempt to
allocate colors as needed using
gdImageColorAllocate. If both of these methods fail,
gdImageCopy will invoke
gdImageColorClosest to find the color in the destination
image which most closely approximates the color of the
pixel being copied.
... Inside a function ...
gdImagePtr im_in;
gdImagePtr im_out;
int x, y;
FILE *in;
FILE *out;
/* Load a small png to tile the larger one with */
in = fopen("small.png", "rb");
im_in = gdImageCreateFromPng(in);
fclose(in);
/* Make the output image four times as large on both axes */
im_out = gdImageCreate(im_in->sx * 4, im_in->sy * 4);
/* Now tile the larger image using the smaller one */
for (y = 0; (y < 4); y++) {
for (x = 0; (x < 4); x++) {
gdImageCopy(im_out, im_in,
x * im_in->sx, y * im_in->sy,
0, 0,
im_in->sx, im_in->sy);
}
}
out = fopen("tiled.png", "wb");
gdImagePng(im_out, out);
fclose(out);
gdImageDestroy(im_in);
gdImageDestroy(im_out);
- void gdImageCopyResized(gdImagePtr dst, gdImagePtr src, int dstX, int dstY, int srcX, int srcY, int destW, int destH, int srcW, int srcH)
(FUNCTION)
-
gdImageCopyResized is used to copy a rectangular portion of one image to
another image. The X and Y dimensions of the original region and the
destination region can vary, resulting in stretching or shrinking of
the region as appropriate. (For a simpler version of this function
which does not deal with resizing, see
gdImageCopy.)
The dst argument is the destination image to which the
region will be copied. The src argument is the source
image from which the region is copied. The dstX
and dstY arguments specify the point in the destination
image to which the region will be copied. The srcX
and srcY arguments specify the upper left corner
of the region in the source image. The dstW
and dstH arguments specify the width and height
of the destination region. The srcW
and srcH arguments specify the width and height
of the source region and can differ from the destination size,
allowing a region to be scaled during the copying process.
When you copy a region from one location in an image to another
location in the same image, gdImageCopy will perform as expected
unless the regions overlap, in which case the result is
unpredictable. If this presents a problem, create a scratch image
in which to keep intermediate results.
Important note on copying between images: since images
do not necessarily have the same color tables, pixels are not simply set
to the same color index values to copy them. gdImageCopy will attempt
to find an identical RGB value in the destination image for
each pixel in the copied portion of the source image by
invoking gdImageColorExact. If
such a value is not found, gdImageCopy will attempt to
allocate colors as needed using
gdImageColorAllocate. If both of these methods fail,
gdImageCopy will invoke
gdImageColorClosest to find the color in the destination
image which most closely approximates the color of the
pixel being copied.
... Inside a function ...
gdImagePtr im_in;
gdImagePtr im_out;
int x, y;
FILE *in;
FILE *out;
/* Load a small png to expand in the larger one */
in = fopen("small.png", "rb");
im_in = gdImageCreateFromPng(in);
fclose(in);
/* Make the output image four times as large on both axes */
im_out = gdImageCreate(im_in->sx * 4, im_in->sy * 4);
/* Now copy the smaller image, but four times larger */
gdImageCopyResized(im_out, im_in, 0, 0, 0, 0,
im_out->sx, im_out->sy,
im_in->sx, im_in->sy);
out = fopen("large.png", "wb");
gdImagePng(im_out, out);
fclose(out);
gdImageDestroy(im_in);
gdImageDestroy(im_out);
- void gdImageCopyResampled(gdImagePtr dst, gdImagePtr src, int dstX, int dstY, int srcX, int srcY, int destW, int destH, int srcW, int srcH)
(FUNCTION)
-
gdImageCopyResampled is used to copy a rectangular portion of one image to
another image, smoothly interpolating pixel values so that, in particular,
reducing the size of an image still retains a great deal of clarity. The
X and Y dimensions of the original region and the
destination region can vary, resulting in stretching or shrinking of
the region as appropriate. (For a simpler version of this function
which does not deal with resizing, see
gdImageCopy. For a version which does not interpolate pixel values,
see gdImageCopyResized.
Pixel values are only interpolated if the destination image is a
truecolor image. Otherwise,
gdImageCopyResized is
automatically invoked.
The dst argument is the destination image to which the
region will be copied. The src argument is the source
image from which the region is copied. The dstX
and dstY arguments specify the point in the destination
image to which the region will be copied. The srcX
and srcY arguments specify the upper left corner
of the region in the source image. The dstW
and dstH arguments specify the width and height
of the destination region. The srcW
and srcH arguments specify the width and height
of the source region and can differ from the destination size,
allowing a region to be scaled during the copying process.
When you copy a region from one location in an image to another
location in the same image, gdImageCopy will perform as expected
unless the regions overlap, in which case the result is
unpredictable. If this presents a problem, create a scratch image
in which to keep intermediate results.
Important note on copying between images: since images
do not necessarily have the same color tables, pixels are not simply set
to the same color index values to copy them. If the destination image
is a palette image, gd will use the
gdImageColorResolve function to
determine the best color available.
... Inside a function ...
gdImagePtr im_in;
gdImagePtr im_out;
int x, y;
FILE *in;
FILE *out;
/* Load a large png to shrink in the smaller one */
in = fopen("large.png", "rb");
im_in = gdImageCreateFromPng(in);
fclose(in);
/* Make the output image four times as small on both axes. Use
a true color image so that we can interpolate colors. */
im_out = gdImageCreateTrueColor(im_in->sx / 4, im_in->sy / 4);
/* Now copy the large image, but four times smaller */
gdImageCopyResampled(im_out, im_in, 0, 0, 0, 0,
im_out->sx, im_out->sy,
im_in->sx, im_in->sy);
out = fopen("large.png", "wb");
gdImagePng(im_out, out);
fclose(out);
gdImageDestroy(im_in);
gdImageDestroy(im_out);
- void gdImageCopyMerge(gdImagePtr dst, gdImagePtr src, int dstX, int dstY, int srcX, int srcY, int w, int h, int pct)
(FUNCTION)
-
gdImageCopyMerge is almost identical to gdImageCopy, except that
it 'merges' the two images by an amount specified in the last parameter. If the last
parameter is 100, then it will function identically to gdImageCopy - the source image replaces
the pixels in the destination.
If, however, the pct parameter is less than 100, then the two images are merged.
With pct = 0, no action is taken.
This feature is most useful to 'highlight' sections of an image by merging a solid color with
pct = 50:
... Inside a function ...
gdImageCopyMerge(im_out, im_in, 100, 200, 0, 0, 30, 50, 50);
- void gdImageCopyMergeGray(gdImagePtr dst, gdImagePtr src, int dstX, int dstY, int srcX, int srcY, int
w, int h, int pct)
(FUNCTION)
-
gdImageCopyMergeGray is almost identical to gdImageCopyMerge,
except that when merging images it preserves the hue of the source by converting the destination
pixels to grey scale before the copy operation.
... Inside a function ...
gdImageCopyMergeGray(im_out, im_in, 100, 200, 0, 0, 30, 50, 50);
- void gdImagePaletteCopy(gdImagePtr dst, gdImagePtr src)
(FUNCTION)
-
Copies a palette from one image to another, attempting to match the colors in the target image
to the colors
in the source palette.
- int gdImageCompare(gdImagePtr im1, gdImagePtr im2)
(FUNCTION)
-
gdImageCompare returns a bitmap indicating if the two images are different. The members of the
bitmap are defined in gd.h, but the most important is GD_CMP_IMAGE, which indicated that the images
will actually appear different when displayed. Other, less important, differences relate to pallette
entries. Any difference in the transparent colour is assumed to make images display differently,
even if the transparent colour is not used.
... Inside a function ...
cmpMask = gdImageCompare(im1, im2);
- gdImageInterlace(gdImagePtr im, int interlace) (FUNCTION)
-
gdImageInterlace is used to determine whether an image should be stored
in a linear fashion, in which lines will appear on the display from
first to last, or in an interlaced fashion, in which the image
will "fade in" over several passes. By default, images are not
interlaced. (When writing JPEG images, interlacing implies generating
progressive JPEG files, which are represented as a series of scans of
increasing quality. Noninterlaced gd images result in regular
[sequential] JPEG data streams.)
A nonzero value for the interlace argument turns on interlace;
a zero value turns it off. Note that interlace has no effect
on other functions, and has no meaning unless you save the
image in PNG or JPEG format; the gd and xbm formats do not support
interlace.
When a PNG is loaded with
gdImageCreateFromPng or a JPEG is
loaded with
gdImageCreateFromJpeg, interlace
will be set according to the setting in the PNG or JPEG file.
Note that many PNG and JPEG viewers and web browsers do not
support interlace or the incremental display of progressive
JPEGs. However, the interlaced PNG or progressive JPEG should still
display; it will simply appear all at once, just as other images do.
gdImagePtr im;
FILE *out;
/* ... Create or load the image... */
/* Now turn on interlace */
gdImageInterlace(im, 1);
/* And open an output file */
out = fopen("test.png", "wb");
/* And save the image -- could also use gdImageJpeg */
gdImagePng(im, out);
fclose(out);
gdImageDestroy(im);
- gdFree(void *ptr) (FUNCTION)
-
gdFree provides a reliable way to free memory allocated by functions
such as gdImagePngPtr which return
blocks of memory. Use of this function guarantees that the
version of
free() that is ultimately called will
be intended for use with the version of malloc() that
originally allocated the block.
- gdBrushed (CONSTANT)
-
Used in place of a color when invoking a line-drawing
function such as gdImageLine
or gdImageRectangle.
When gdBrushed is used as the color, the brush
image set with gdImageSetBrush
is drawn in place of each pixel of the line (the brush is
usually larger than one pixel, creating the effect
of a wide paintbrush). See also
gdStyledBrushed for a way
to draw broken lines with a series of distinct copies of an image.
gdMaxColors (CONSTANT)
-
The constant 256. This is the maximum number of colors in a PNG file
according to the PNG standard, and is also the maximum number of
colors in a gd image.
- gdStyled (CONSTANT)
-
Used in place of a color when invoking a line-drawing
function such as gdImageLine
or gdImageRectangle.
When gdStyled is used as the color, the colors of the pixels are
drawn successively from the style that has been
set with gdImageSetStyle.
If the color of a pixel is equal to
gdTransparent, that pixel
is not altered. (This mechanism is completely unrelated
to the "transparent color" of the image itself; see
gdImageColorTransparent
gdImageColorTransparent for that mechanism.) See also
gdStyledBrushed.
- gdStyledBrushed (CONSTANT)
-
Used in place of a color when invoking a line-drawing
function such as gdImageLine
or gdImageRectangle.
When gdStyledBrushed is used as the color, the brush
image set with gdImageSetBrush
is drawn at each pixel of the line, providing that the
style set with gdImageSetStyle
contains a nonzero value (OR gdTransparent, which
does not equal zero but is supported for consistency)
for the current pixel. (Pixels are drawn successively from the style as the
line is drawn, returning to the beginning when the
available pixels in the style are exhausted.) Note that
this differs from the behavior of gdStyled,
in which the values in the style are used as actual
pixel colors, except for gdTransparent.
- gdDashSize (CONSTANT)
-
The length of a dash in a dashed line. Defined to be 4 for
backwards compatibility with programs that use
gdImageDashedLine. New
programs should use
gdImageSetStyle and call the standard
gdImageLine function
with the special "color"
gdStyled or gdStyledBrushed.
- gdTiled (CONSTANT)
-
Used in place of a normal color in
gdImageFilledRectangle,
gdImageFilledPolygon,
gdImageFill, and
gdImageFillToBorder. gdTiled selects a pixel from the
tile image set with gdImageSetTile
in such a way as to ensure that the filled area will be
tiled with copies of the tile image. See the discussions of
gdImageFill and
gdImageFillToBorder for special
restrictions regarding those functions.
- gdTransparent (CONSTANT)
-
Used in place of a normal color in a style to be set with
gdImageSetStyle.
gdTransparent is not the transparent
color index of the image; for that functionality please
see gdImageColorTransparent.
About the additional .gd image file format
In addition to reading and writing the PNG and JPEG formats and reading the
X Bitmap format, gd has the capability to read and write its
own ".gd" format. This format is not intended for
general purpose use and should never be used to distribute
images. It is not a compressed format. Its purpose is solely to
allow very fast loading of images your program needs often in
order to build other images for output. If you are experiencing
performance problems when loading large, fixed PNG images your
program needs to produce its output images, you may wish
to examine the functions
gdImageCreateFromGd and gdImageGd,
which read and write .gd format images.
The program "pngtogd.c" is provided as a simple way of converting
.png files to .gd format. I emphasize again that you will not
need to use this format unless you have a need for high-speed loading
of a few frequently-used images in your program.
About the .gd2 image file format
In addition to reading and writing the PNG format and reading the
X Bitmap format, gd has the capability to read and write its
own ".gd2" format. This format is not intended for
general purpose use and should never be used to distribute
images. It is a compressed format allowing pseudo-random access
to large image files. Its purpose is solely to
allow very fast loading of parts of images
If you are experiencing
performance problems when loading large, fixed PNG or JPEG images your
program needs to produce its output images, you may wish
to examine the functions
gdImageCreateFromGd2,
gdImageCreateFromGd2Part and gdImageGd2,
which read and write .gd2 format images.
The program "pngtogd2.c" is provided as a simple way of converting
.png files to .gd2 format.
About the gdIOCtx structure
Version 1.5 of GD added a new style of I/O based on an IOCtx
structure (the most up-to-date version can be found in gd_io.h):
typedef struct gdIOCtx {
int (*getC)(struct gdIOCtx*);
int (*getBuf)(struct gdIOCtx*, void*, int);
void (*putC)(struct gdIOCtx*, int);
int (*putBuf)(struct gdIOCtx*, const void*, int);
int (*seek)(struct gdIOCtx*, const int);
long (*tell)(struct gdIOCtx*);
void (*free)(struct gdIOCtx*);
} gdIOCtx;
Most functions that accepted files in previous versions now also have a
counterpart that accepts an I/O context. These functions have a 'Ctx'
suffix.
The Ctx routines use the function pointers in the I/O context pointed to
by gdIOCtx to perform all I/O. Examples of how to implement an I/O context
can be found in io_file.c (which provides a wrapper for file routines), and
io_dp.c (which implements in-memory storage).
It is not necessary to implement all functions in an I/O context if you know
that it will only be used in limited cirsumstances. At the time of writing
(Version 1.6.1, July 1999), the known requirements are:
All | | Must have 'free', |
Anything that reads from the context | | Must have 'getC' and 'getBuf', |
Anything that writes to the context | | Must have 'putC' and 'putBuf'. |
If gdCreateFromGd2Part is called | | Must also have 'seek' and 'tell'. |
If gdImageGd2 is called | | Must also have 'seek' and 'tell'. |
Please tell us you're using gd!
When you contact us and let us know you are using gd,
you help us justify the time spent in maintaining and improving
it. So please let us know. If the results are publicly
visible on the web, a URL is a wonderful thing to receive, but
if it's not a publicly visible project, a simple note is just
as welcome.
If you have problems
If you have any difficulties with gd, feel free to contact
the author, Thomas Boutell.
Problems relating to the gd2 format should be addressed to
Philip Warner.
Be sure to read this manual carefully first.
gdBrushed |
gdDashSize |
gdFont |
gdFontPtr |
gdFree |
gdImage |
gdImageAlphaBlending |
gdImageArc |
gdImageBlue |
gdImageBoundsSafe |
gdImageChar |
gdImageCharUp |
gdImageColorAllocate |
gdImageColorAllocateAlpha |
gdImageColorClosest |
gdImageColorClosestAlpha |
gdImageColorDeallocate |
gdImageColorExact |
gdImageColorExactAlpha |
gdImageColorResolve |
gdImageColorResolveAlpha |
gdImageColorTransparent |
gdImageCopy |
gdImageCopyMerge |
gdImageMergeGray |
gdImageCopyResized |
gdImageCopyResampled |
gdImageCreate |
gdImageCreatePalette |
gdImageCreateTrueColor |
gdImageCreateFromGd |
gdImageCreateFromGd2 |
gdImageCreateFromGd2Part |
gdImageCreateFromJpeg |
gdImageCreateFromPng |
gdImageCreateFromPngSource |
gdImageCreateFromXbm |
gdImageCreateFromXpm |
gdImageDashedLine |
gdImageDestroy |
gdImageFill |
gdImageFilledArc |
gdImageFilledEllipse |
gdImageFillToBorder |
gdImageFilledRectangle |
gdImageGd |
gdImageGd2 |
gdImageGetInterlaced |
gdImageGetPixel |
gdImageGetTransparent |
gdImageGreen |
gdImageInterlace |
gdImageJpeg |
gdImageLine |
gdImageFilledPolygon |
gdImagePaletteCopy |
gdImagePng |
gdImagePngToSink |
gdImagePolygon |
gdImagePtr |
gdImageWBMP |
gdImageRectangle |
gdImageRed |
gdImageSetBrush |
gdImageSetPixel |
gdImageSetStyle |
gdImageSetTile |
gdImageString |
gdImageString16 |
gdImageStringFT |
gdImageStringTTF |
gdImageStringUp |
gdImageStringUp16 |
gdImageWBMP |
gdMaxColors |
gdPoint |
gdStyled |
gdStyledBrushed |
gdTiled |
gdTransparent
Boutell.Com, Inc.
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