4e96db4216
looks like gtk-doc only supports C highlighting looking at the sources ... still, get the language= tags to match what source-highlight expects
355 lines
11 KiB
XML
355 lines
11 KiB
XML
<?xml version="1.0"?>
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<!DOCTYPE refentry PUBLIC "-//OASIS//DTD DocBook XML V4.5//EN"
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"http://www.oasis-open.org/docbook/xml/4.5/docbookx.dtd" [
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]>
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<!-- vim: set ts=2 sw=2 expandtab: -->
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<refentry id="using-from-cpp">
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<refmeta>
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<refentrytitle>VIPS from C++</refentrytitle>
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<manvolnum>3</manvolnum>
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<refmiscinfo>VIPS Library</refmiscinfo>
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</refmeta>
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<refnamediv>
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<refname>Using VIPS</refname>
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<refpurpose>How to use the VIPS library from C++</refpurpose>
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</refnamediv>
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<refsect3 id="using-cpp">
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<title>Introduction</title>
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<para>
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VIPS comes with a convenient C++ API. It is a very thin wrapper over the
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C API and adds automatic reference counting, exceptions, operator
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overloads, and automatic constant expansion. You can drop down to the C
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API at any point, so all the C API docs also work for C++.
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</para>
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<programlisting language="cpp">
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/* compile with:
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* g++ -g -Wall try.cc `pkg-config vips-cpp --cflags --libs`
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*/
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#include <vips/vips8>
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using namespace vips;
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int
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main( int argc, char **argv )
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{
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GOptionContext *context;
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GOptionGroup *main_group;
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GError *error = NULL;
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if( VIPS_INIT( argv[0] ) )
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vips_error_exit( NULL );
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context = g_option_context_new( "" );
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main_group = g_option_group_new( NULL, NULL, NULL, NULL, NULL );
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g_option_context_set_main_group( context, main_group );
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g_option_context_add_group( context, vips_get_option_group() );
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if( !g_option_context_parse( context, &argc, &argv, &error ) ) {
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if( error ) {
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fprintf( stderr, "%s\n", error->message );
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g_error_free( error );
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}
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vips_error_exit( NULL );
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}
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VImage in = VImage::new_from_file( argv[1],
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VImage::option()->
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set( "access", VIPS_ACCESS_SEQUENTIAL_UNBUFFERED ) );
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double avg = in.avg();
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printf( "avg = %g\n", avg );
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printf( "width = %d\n", in.width() );
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VImage in = VImage::new_from_file( argv[1],
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VImage::option()->
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set( "access", VIPS_ACCESS_SEQUENTIAL_UNBUFFERED ) );
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VImage out = in.embed( 10, 10, 1000, 1000,
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VImage::option()->
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set( "extend", "background" )->
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set( "background", 128 ) );
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out.write_to_file( argv[2] );
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vips_shutdown();
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return( 0 );
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}
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</programlisting>
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<para>
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Everything before <code>VImage in = VImage::..</code> is exactly
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as the C API. This boilerplate gives the example a set of standard
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command-line flags.
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</para>
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<para>
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This line is the C++ equivalent of vips_image_new_from_file(). It works
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in the same way, the differences being:
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<itemizedlist>
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<listitem>
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<para>
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<code>VImage</code> lifetime is managed automatically, like a smart
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pointer. You don't need to call g_object_unref().
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</para>
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</listitem>
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<listitem>
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<para>
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Instead of using varargs and a %NULL-terminated option list, this
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function takes an optional <code>VOption</code> pointer. This
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gives a list of name / value pairs for optional arguments to the
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function.
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</para>
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<para>
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In this case we request unbuffered IO for the image, meaning, we
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expect to do a single top-to-bottom scan of the image and do not
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need it to be decompressed entirely. You can use the C enum name,
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as is done in this case, or use a string and have the string
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looked up. See below.
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</para>
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<para>
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The function will delete the <code>VOption</code> pointer for
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us when it's finished with it.
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</para>
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</listitem>
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<listitem>
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<para>
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Instead of returning %NULL on error, this constructor will
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raise a <code>VError</code> exception.
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</para>
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</listitem>
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</itemizedlist>
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There are a series of similar constructors which parallel the other
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constructors in the C API, see VImage::new_from_memory(),
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VImage::new_from_buffer(), and VImage::new_matrix(). There's also
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VImage::new_memory() and VImage::new_temp_file(), which when written to
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with VImage::write() will create whole images on memory or on disc.
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</para>
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<para>
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The next line finds the average pixel value, it's the equivalent of the
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vips_avg() function. The differences from the C API are:
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<itemizedlist>
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<listitem>
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<para>
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VImage::avg() is a member function: the <code>this</code>
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parameter is the first (the only, in this case) input image.
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</para>
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<para>
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The function returns the first output parameter, in this case the
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average pixel value. Other return values are via pointer arguments,
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as in the C API.
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</para>
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<para>
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Like VImage::new_from_file(), function raises the
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<code>VError</code> exception on error.
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</para>
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<para>
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Like VImage::new_from_file(), extra arguments are passed
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via an optional <code>VOption</code> parameter. There are none
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in this case, so the function brackets can be left empty.
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</para>
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</listitem>
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</itemizedlist>
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All other operations follow the same pattern, for example the C API call
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vips_add():
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<programlisting language="cpp">
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int vips_add( VipsImage *left, VipsImage *right, VipsImage **out, ... );
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</programlisting>
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appears in C++ as:
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<programlisting language="cpp">
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VImage VImage::add( VImage right, VOption *options = 0 );
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</programlisting>
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</para>
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<para>
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The next line uses VImage::width() to get the image width in pixels.
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There are similar functions paralleling vips_image_get_format() and
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friends. Use VImage::set() to set metadata fields, VImage::get_int() and
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c. to fetch metadata.
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</para>
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<para>
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Next we reload the image. The VImage::avg() will have scanned the image
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and reached the end of the file, we need to scan again for the next
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operation. If we'd selected random access mode (the default) in the
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original VImage::new_from_file(), we would not need to reload.
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</para>
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<para>
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The next line runs vips_embed() with two optional parameters. The first
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sets the value to an enum (here we use a string to set the value, it'll
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be looked up in the list of possible enum values, or you can use the
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symbols from the C API), the
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second sets the value to an <code>int</code>. The
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<code>"background"</code>
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parameter is actually a #VipsArrayDouble: if you pass an
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<code>int</code> instead, it will be automatically converted to a
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one-element array for you. You can pass a
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<code>std::vector<double></code> too: the utility function
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VImage::to_vectorv() is a convenient way to make one.
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</para>
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<para>
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Finally, VImage::write_to_file() will write the new image to the
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filesystem. You can add a #VOption as a final parameter and set options
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for the writer if you wish. Again, the operation will throw a #VError
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exception on error. The other writers from the C API are also present:
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you can write to a memory array, to a formatted image in memory, or to
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another image.
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</para>
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</refsect3>
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<refsect3 id="cpp-expansion">
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<title>Automatic constant expansion</title>
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<para>
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The C++ API will automatically turn constants into images in some cases.
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For example, you can join two images together bandwise (the
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bandwise join of two RGB images would be a six-band image) with:
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<programlisting language="cpp">
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VImage rgb = ...;
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VImage six_band = rgb.bandjoin( rgb );
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</programlisting>
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You can also bandjoin a constant, for example:
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<programlisting language="cpp">
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VImage rgb_with_alpha = rgb.bandjoin( 255 );
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</programlisting>
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Will add an extra band to an image, with every element in the new band
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having the value 255. This is quite a general feature. You can use a
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constant in most places where you can use an image and it will be
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converted. For example:
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<programlisting language="cpp">
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VImage a = (a < 128).ifthenelse( 128, a );
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</programlisting>
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Will set every band element of <code>a</code> less than 128 to 128.
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</para>
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<para>
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The C++ API includes the usual range of arithmetic operator overloads.
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You can mix constants, vectors and images freely.
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</para>
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<para>
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The API overloads <code>[]</code> to be vips_extract_band(). You can
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write:
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<programlisting language="cpp">
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VImage xyz = VImage::xyz( 256, 256 ) - VImage::to_vectorv( 2, 128.0, 128.0 );
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VImage mask = (xyz[0].pow( 2 ) + xyz[1].pow( 2 )).pow( 0.5 ) < 100;
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</programlisting>
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to make a circular mask, for example.
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</para>
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<para>
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The API overloads <code>()</code> to be vips_getpoint(). You can
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write:
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<programlisting language="cpp">
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VImage xyz = VImage::xyz( 256, 256 ) - VImage::to_vectorv( 2, 128.0, 128.0 );
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// this will have the value [0, 0]
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std::vector<double> point = xyz(128, 128);
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</programlisting>
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</para>
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</refsect3>
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<refsect3 id="cpp-enum">
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<title>Enum expansion</title>
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<para>
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VIPS operations which implement several functions with a controlling
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enum, such as vips_math(), are expanded to a set of member functions
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named after the enum. For example, the C function:
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<programlisting language="cpp">
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int vips_math( VipsImage *in, VipsImage **out, VipsOperationMath math, ... );
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</programlisting>
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where #VipsOperationMath has the member #VIPS_OPERATION_MATH_SIN, has a
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C convenience function vips_sin():
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<programlisting language="cpp">
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int vips_sin( VipsImage *in, VipsImage **out, ... );
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</programlisting>
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and a C++ member function VImage::sin():
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<programlisting language="cpp">
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VImage VImage::sin( VOption *options = 0 );
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</programlisting>
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</para>
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</refsect3>
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<refsect3 id="cpp-extend">
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<title>Extending the C++ interface</title>
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<para>
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The C++ interface comes in two parts. First, <code>VImage8.h</code>
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defines a simple layer over #GObject for automatic reference counting,
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then a generic way to call any vips8 operation with VImage::call(),
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then a few convenience functions, then a set of overloads.
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</para>
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<para>
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The member function for each operation, for example VImage::add(), is
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generated by a small Python program called <code>gen-operators.py</code>,
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and its companion, <code>gen-operators-h.py</code> to generate the
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headers. If you write a new VIPS operator, you'll need to rerun these
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programs to make the new member function.
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</para>
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<para>
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You can write the wrapper yourself, of course, they are very simple.
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The one for VImage::add() looks like this:
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<programlisting language="cpp">
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VImage VImage::add(VImage right, VOption *options)
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throw VError
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{
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VImage out;
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call("add" ,
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(options ? options : VImage::option()) ->
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set("out", &out) ->
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set("left", *this) ->
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set("right", right));
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return out;
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}
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</programlisting>
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Where VImage::call() is the generic call-a-vips8-operation function.
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</para>
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</refsect3>
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</refentry>
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