603036a315
pandoc changed the name of their top-level section node
172 lines
5.4 KiB
XML
172 lines
5.4 KiB
XML
<?xml version="1.0" encoding="utf-8" ?>
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<!DOCTYPE article 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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<refentry id="Examples.md">
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<para>
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<refmeta> <refentrytitle>Examples</refentrytitle> <manvolnum>3</manvolnum> <refmiscinfo>libvips</refmiscinfo> </refmeta>
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</para>
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<para>
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<refnamediv> <refname>libvips examples</refname> <refpurpose>A few example Python programs using libvips</refpurpose> </refnamediv>
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</para>
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<para>
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This page shows a few libvips examples using Python. They will work with small syntax changes in any language with a libvips binding.
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</para>
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<para>
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The libvips test suite is written in Python and exercises every operation in the API. It’s also a useful source of examples.
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</para>
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<refsect3 xml:id="average-a-region-of-interest-box-on-an-image">
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<title>Average a region of interest box on an image</title>
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<programlisting language="python">
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#!/usr/bin/env python
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import sys
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import pyvips
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left = 10
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top = 10
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width = 64
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height = 64
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image = pyvips.Image.new_from_file(sys.argv[1])
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roi = image.crop(left, top, width, height)
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print 'average:', roi.avg()
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</programlisting>
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</refsect3>
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<refsect3 xml:id="libvips-and-numpy">
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<title>libvips and numpy</title>
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<para>
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You can use <literal>pyvips.Image.new_from_memory()</literal> to make a vips image from an area of memory. The memory array needs to be laid out band-interleaved, as a set of scanlines, with no padding between lines.
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</para>
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<programlisting language="python">
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#!/usr/bin/env python
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import sys
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import time
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import pyvips
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from PIL import Image
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import numpy as np
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if len(sys.argv) != 3:
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print('usage: {0} input-filename output-filename'.format(sys.argv[0]))
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sys.exit(-1)
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# map vips formats to np dtypes
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format_to_dtype = {
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'uchar': np.uint8,
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'char': np.int8,
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'ushort': np.uint16,
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'short': np.int16,
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'uint': np.uint32,
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'int': np.int32,
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'float': np.float32,
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'double': np.float64,
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'complex': np.complex64,
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'dpcomplex': np.complex128,
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}
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# map np dtypes to vips
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dtype_to_format = {
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'uint8': 'uchar',
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'int8': 'char',
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'uint16': 'ushort',
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'int16': 'short',
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'uint32': 'uint',
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'int32': 'int',
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'float32': 'float',
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'float64': 'double',
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'complex64': 'complex',
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'complex128': 'dpcomplex',
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}
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# load with PIL
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start_pillow = time.time()
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pillow_img = np.asarray(Image.open(sys.argv[1]))
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print('Pillow Time:', time.time()-start_pillow)
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print('original shape', pillow_img.shape)
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# load with vips to a memory array
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start_vips = time.time()
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img = pyvips.Image.new_from_file(sys.argv[1], access='sequential')
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mem_img = img.write_to_memory()
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# then make a numpy array from that buffer object
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np_3d = np.ndarray(buffer=mem_img,
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dtype=format_to_dtype[img.format],
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shape=[img.height, img.width, img.bands])
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print('Vips Time:', time.time()-start_vips)
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print('final shape', np_3d.shape)
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# verify we have the same result
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print('Sum of the Differences:', np.sum(np_3d-pillow_img))
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# make a vips image from the numpy array
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height, width, bands = np_3d.shape
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linear = np_3d.reshape(width * height * bands)
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vi = pyvips.Image.new_from_memory(linear.data, width, height, bands,
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dtype_to_format[str(np_3d.dtype)])
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# and write back to disc for checking
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vi.write_to_file(sys.argv[2])
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</programlisting>
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</refsect3>
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<refsect3 xml:id="build-huge-image-mosaic">
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<title>Build huge image mosaic</title>
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<para>
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This makes a 100,000 x 100,000 black image, then inserts all the images you pass on the command-line into it at random positions. libvips is able to run this program in sequential mode: it’ll open all the input images at the same time, and stream pixels from them as it needs them to generate the output.
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</para>
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<para>
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To test it, first make a large 1-bit image. This command will take the green channel and write as a 1-bit fax image. <literal>wtc.jpg</literal> is a test 10,000 x 10,000 jpeg:
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</para>
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<programlisting>
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$ vips extract_band wtc.jpg x.tif[squash,compression=ccittfax4,strip] 1
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</programlisting>
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<para>
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Now make 1,000 copies of that image in a subdirectory:
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</para>
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<programlisting>
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$ mkdir test
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$ for i in {1..1000}; do cp x.tif test/$i.tif; done
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</programlisting>
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<para>
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And run this Python program on them:
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</para>
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<programlisting>
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$ time ./try255.py x.tif[squash,compression=ccittfax4,strip,bigtif] test/*
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real 1m59.924s
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user 4m5.388s
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sys 0m8.936s
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</programlisting>
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<para>
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It completes in just under two minutes on this laptop, and needs about 7gb of RAM to run. It would need about the same amount of memory for a full-colour RGB image, I was just keen to keep disc usage down.
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</para>
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<para>
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If you wanted to handle transparency, or if you wanted mixed CMYK and RGB images, you’d need to do some more work to convert them all into the same colourspace before inserting them.
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</para>
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<programlisting language="python">
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#!/usr/bin/env python
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import sys
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import random
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import pyvips
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# this makes a 8-bit, mono image of 100,000 x 100,000 pixels, each pixel zero
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im = pyvips.Image.black(100000, 100000)
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for filename in sys.argv[2:]:
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tile = pyvips.Image.new_from_file(filename, access='sequential')
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im = im.insert(tile,
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random.randint(0, im.width - tile.width),
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random.randint(0, im.height - tile.height))
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im.write_to_file(sys.argv[1])
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</programlisting>
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</refsect3>
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</refentry>
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