libvips/test/test-suite/test_foreign.py
John Cupitt d831ad34d5 add ppm load/save to a connection
plus some more tests
2020-06-27 15:23:18 +01:00

1082 lines
40 KiB
Python

# vim: set fileencoding=utf-8 :
import filecmp
import sys
import os
import shutil
import tempfile
import pytest
import pyvips
from helpers import \
JPEG_FILE, SRGB_FILE, MATLAB_FILE, PNG_FILE, TIF_FILE, OME_FILE, \
ANALYZE_FILE, GIF_FILE, WEBP_FILE, EXR_FILE, FITS_FILE, OPENSLIDE_FILE, \
PDF_FILE, SVG_FILE, SVGZ_FILE, SVG_GZ_FILE, GIF_ANIM_FILE, DICOM_FILE, \
BMP_FILE, NIFTI_FILE, ICO_FILE, HEIC_FILE, TRUNCATED_FILE, \
GIF_ANIM_EXPECTED_PNG_FILE, GIF_ANIM_DISPOSE_BACKGROUND_FILE, \
GIF_ANIM_DISPOSE_BACKGROUND_EXPECTED_PNG_FILE, \
GIF_ANIM_DISPOSE_PREVIOUS_FILE, \
GIF_ANIM_DISPOSE_PREVIOUS_EXPECTED_PNG_FILE, \
temp_filename, assert_almost_equal_objects, have, skip_if_no, \
TIF1_FILE, TIF2_FILE, TIF4_FILE
class TestForeign:
tempdir = None
@classmethod
def setup_class(cls):
cls.tempdir = tempfile.mkdtemp()
cls.colour = pyvips.Image.jpegload(JPEG_FILE)
cls.mono = cls.colour.extract_band(1).copy()
# we remove the ICC profile: the RGB one will no longer be appropriate
cls.mono.remove("icc-profile-data")
cls.rad = cls.colour.float2rad().copy()
cls.rad.remove("icc-profile-data")
cls.cmyk = cls.colour.bandjoin(cls.mono)
cls.cmyk = cls.cmyk.copy(interpretation=pyvips.Interpretation.CMYK)
cls.cmyk.remove("icc-profile-data")
im = pyvips.Image.new_from_file(GIF_FILE)
cls.onebit = im > 128
@classmethod
def teardown_class(cls):
shutil.rmtree(cls.tempdir, ignore_errors=True)
cls.colour = None
cls.mono = None
cls.rad = None
cls.cmyk = None
cls.onebit = None
# we have test files for formats which have a clear standard
def file_loader(self, loader, test_file, validate):
im = pyvips.Operation.call(loader, test_file)
validate(im)
im = pyvips.Image.new_from_file(test_file)
validate(im)
def buffer_loader(self, loader, test_file, validate):
with open(test_file, 'rb') as f:
buf = f.read()
im = pyvips.Operation.call(loader, buf)
validate(im)
im = pyvips.Image.new_from_buffer(buf, "")
validate(im)
def save_load(self, format, im):
x = pyvips.Image.new_temp_file(format)
im.write(x)
assert im.width == x.width
assert im.height == x.height
assert im.bands == x.bands
max_diff = (im - x).abs().max()
assert max_diff == 0
def save_load_file(self, format, options, im, thresh):
# yuk!
# but we can't set format parameters for pyvips.Image.new_temp_file()
filename = temp_filename(self.tempdir, format)
im.write_to_file(filename + options)
x = pyvips.Image.new_from_file(filename)
assert im.width == x.width
assert im.height == x.height
assert im.bands == x.bands
max_diff = (im - x).abs().max()
assert max_diff <= thresh
x = None
def save_load_buffer(self, saver, loader, im, max_diff=0, **kwargs):
buf = pyvips.Operation.call(saver, im, **kwargs)
x = pyvips.Operation.call(loader, buf)
assert im.width == x.width
assert im.height == x.height
assert im.bands == x.bands
assert (im - x).abs().max() <= max_diff
def save_buffer_tempfile(self, saver, suf, im, max_diff=0):
filename = temp_filename(self.tempdir, suf)
buf = pyvips.Operation.call(saver, im)
f = open(filename, 'wb')
f.write(buf)
f.close()
x = pyvips.Image.new_from_file(filename)
assert im.width == x.width
assert im.height == x.height
assert im.bands == x.bands
assert (im - x).abs().max() <= max_diff
def test_vips(self):
self.save_load_file(".v", "", self.colour, 0)
# check we can save and restore metadata
filename = temp_filename(self.tempdir, ".v")
self.colour.write_to_file(filename)
x = pyvips.Image.new_from_file(filename)
before_exif = self.colour.get("exif-data")
after_exif = x.get("exif-data")
assert len(before_exif) == len(after_exif)
for i in range(len(before_exif)):
assert before_exif[i] == after_exif[i]
x = None
@skip_if_no("jpegload")
def test_jpeg(self):
def jpeg_valid(im):
a = im(10, 10)
# different versions of libjpeg decode have slightly different
# rounding
assert_almost_equal_objects(a, [141, 127, 90], threshold=3)
profile = im.get("icc-profile-data")
assert len(profile) == 564
assert im.width == 290
assert im.height == 442
assert im.bands == 3
self.file_loader("jpegload", JPEG_FILE, jpeg_valid)
self.save_load("%s.jpg", self.mono)
self.save_load("%s.jpg", self.colour)
self.buffer_loader("jpegload_buffer", JPEG_FILE, jpeg_valid)
self.save_load_buffer("jpegsave_buffer", "jpegload_buffer",
self.colour, 80)
# see if we have exif parsing: our test image has this field
x = pyvips.Image.new_from_file(JPEG_FILE)
if x.get_typeof("exif-ifd0-Orientation") != 0:
# we need a copy of the image to set the new metadata on
# otherwise we get caching problems
# can set, save and load new orientation
x = pyvips.Image.new_from_file(JPEG_FILE)
x = x.copy()
x.set("orientation", 2)
filename = temp_filename(self.tempdir, '.jpg')
x.write_to_file(filename)
x = pyvips.Image.new_from_file(filename)
y = x.get("orientation")
assert y == 2
# can remove orientation, save, load again, orientation
# has reset
x = x.copy()
x.remove("orientation")
filename = temp_filename(self.tempdir, '.jpg')
x.write_to_file(filename)
x = pyvips.Image.new_from_file(filename)
y = x.get("orientation")
assert y == 1
# autorotate load works
x = pyvips.Image.new_from_file(JPEG_FILE)
x = x.copy()
x.set("orientation", 6)
filename = temp_filename(self.tempdir, '.jpg')
x.write_to_file(filename)
x1 = pyvips.Image.new_from_file(filename)
x2 = pyvips.Image.new_from_file(filename, autorotate=True)
assert x1.width == x2.height
assert x1.height == x2.width
# sets incorrect orientation, save, load again, orientation
# has reset to 1
x = x.copy()
x.set("orientation", 256)
filename = temp_filename(self.tempdir, '.jpg')
x.write_to_file(filename)
x = pyvips.Image.new_from_file(filename)
y = x.get("orientation")
assert y == 1
# can set, save and reload ASCII string fields
x = pyvips.Image.new_from_file(JPEG_FILE)
x = x.copy()
x.set_type(pyvips.GValue.gstr_type,
"exif-ifd0-ImageDescription", "hello world")
filename = temp_filename(self.tempdir, '.jpg')
x.write_to_file(filename)
x = pyvips.Image.new_from_file(filename)
y = x.get("exif-ifd0-ImageDescription")
# can't use == since the string will have an extra " (xx, yy, zz)"
# format area at the end
assert y.startswith("hello world")
# can set, save and reload UTF16 string fields ... pyvips is
# utf8, but it will be coded as utf16 and back for the XP* fields
x = pyvips.Image.new_from_file(JPEG_FILE)
x = x.copy()
x.set_type(pyvips.GValue.gstr_type, "exif-ifd0-XPComment", u"йцук")
filename = temp_filename(self.tempdir, '.jpg')
x.write_to_file(filename)
x = pyvips.Image.new_from_file(filename)
y = x.get("exif-ifd0-XPComment")
# can't use == since the string will have an extra " (xx, yy, zz)"
# format area at the end
assert y.startswith(u"йцук")
# can set/save/load UserComment, a tag which has the
# encoding in the first 8 bytes ... though libexif only supports
# ASCII for this
x = pyvips.Image.new_from_file(JPEG_FILE)
x = x.copy()
x.set_type(pyvips.GValue.gstr_type,
"exif-ifd2-UserComment", "hello world")
filename = temp_filename(self.tempdir, '.jpg')
x.write_to_file(filename)
x = pyvips.Image.new_from_file(filename)
y = x.get("exif-ifd2-UserComment")
# can't use == since the string will have an extra " (xx, yy, zz)"
# format area at the end
assert y.startswith("hello world")
@skip_if_no("jpegload")
def test_jpegsave(self):
im = pyvips.Image.new_from_file(JPEG_FILE)
q10 = im.jpegsave_buffer(Q=10)
q10_subsample_auto = im.jpegsave_buffer(Q=10, subsample_mode="auto")
q10_subsample_on = im.jpegsave_buffer(Q=10, subsample_mode="on")
q10_subsample_off = im.jpegsave_buffer(Q=10, subsample_mode="off")
q90 = im.jpegsave_buffer(Q=90)
q90_subsample_auto = im.jpegsave_buffer(Q=90, subsample_mode="auto")
q90_subsample_on = im.jpegsave_buffer(Q=90, subsample_mode="on")
q90_subsample_off = im.jpegsave_buffer(Q=90, subsample_mode="off")
# higher Q should mean a bigger buffer
assert len(q90) > len(q10)
assert len(q10_subsample_auto) == len(q10)
assert len(q10_subsample_on) == len(q10_subsample_auto)
assert len(q10_subsample_off) > len(q10)
assert len(q90_subsample_auto) == len(q90)
assert len(q90_subsample_on) < len(q90)
assert len(q90_subsample_off) == len(q90_subsample_auto)
@skip_if_no("jpegload")
def test_truncated(self):
# This should open (there's enough there for the header)
im = pyvips.Image.new_from_file(TRUNCATED_FILE)
# but this should fail with a warning, and knock TRUNCATED_FILE out of
# the cache
x = im.avg()
# now we should open again, but it won't come from cache, it'll reload
im = pyvips.Image.new_from_file(TRUNCATED_FILE)
# and this should fail with a warning once more
x = im.avg()
@skip_if_no("pngload")
def test_png(self):
def png_valid(im):
a = im(10, 10)
assert_almost_equal_objects(a, [38671.0, 33914.0, 26762.0])
assert im.width == 290
assert im.height == 442
assert im.bands == 3
self.file_loader("pngload", PNG_FILE, png_valid)
self.buffer_loader("pngload_buffer", PNG_FILE, png_valid)
self.save_load_buffer("pngsave_buffer", "pngload_buffer", self.colour)
self.save_load("%s.png", self.mono)
self.save_load("%s.png", self.colour)
self.save_load_file(".png", "[interlace]", self.colour, 0)
self.save_load_file(".png", "[interlace]", self.mono, 0)
# size of a regular mono PNG
len_mono = len(self.mono.write_to_buffer(".png"))
# 4-bit should be smaller
len_mono4 = len(self.mono.write_to_buffer(".png", bitdepth=4))
assert( len_mono4 < len_mono )
len_mono2 = len(self.mono.write_to_buffer(".png", bitdepth=2))
assert( len_mono2 < len_mono4 )
len_mono1 = len(self.mono.write_to_buffer(".png", bitdepth=1))
assert( len_mono1 < len_mono2 )
# we can't test palette save since we can't be sure libimagequant is
# available and there's no easy test for its presence
@skip_if_no("tiffload")
def test_tiff(self):
def tiff_valid(im):
a = im(10, 10)
assert_almost_equal_objects(a, [38671.0, 33914.0, 26762.0])
assert im.width == 290
assert im.height == 442
assert im.bands == 3
self.file_loader("tiffload", TIF_FILE, tiff_valid)
self.buffer_loader("tiffload_buffer", TIF_FILE, tiff_valid)
def tiff1_valid(im):
a = im(127, 0)
assert_almost_equal_objects(a, [0.0])
a = im(128, 0)
assert_almost_equal_objects(a, [255.0])
assert im.width == 256
assert im.height == 4
assert im.bands == 1
self.file_loader("tiffload", TIF1_FILE, tiff1_valid)
def tiff2_valid(im):
a = im(127, 0)
assert_almost_equal_objects(a, [85.0])
a = im(128, 0)
assert_almost_equal_objects(a, [170.0])
assert im.width == 256
assert im.height == 4
assert im.bands == 1
self.file_loader("tiffload", TIF2_FILE, tiff2_valid)
def tiff4_valid(im):
a = im(127, 0)
assert_almost_equal_objects(a, [119.0])
a = im(128, 0)
assert_almost_equal_objects(a, [136.0])
assert im.width == 256
assert im.height == 4
assert im.bands == 1
self.file_loader("tiffload", TIF4_FILE, tiff4_valid)
if pyvips.at_least_libvips(8, 5):
self.save_load_buffer("tiffsave_buffer",
"tiffload_buffer",
self.colour)
self.save_load("%s.tif", self.mono)
self.save_load("%s.tif", self.colour)
self.save_load("%s.tif", self.cmyk)
self.save_load("%s.tif", self.onebit)
self.save_load_file(".tif", "[bitdepth=1]", self.onebit, 0)
self.save_load_file(".tif", "[miniswhite]", self.onebit, 0)
self.save_load_file(".tif", "[bitdepth=1,miniswhite]", self.onebit, 0)
self.save_load_file(".tif",
"[profile={0}]".format(SRGB_FILE),
self.colour, 0)
self.save_load_file(".tif", "[tile]", self.colour, 0)
self.save_load_file(".tif", "[tile,pyramid]", self.colour, 0)
self.save_load_file(".tif", "[tile,pyramid,subifd]", self.colour, 0)
self.save_load_file(".tif",
"[tile,pyramid,compression=jpeg]", self.colour, 80)
self.save_load_file(".tif",
"[tile,pyramid,subifd,compression=jpeg]",
self.colour, 80)
self.save_load_file(".tif", "[bigtiff]", self.colour, 0)
self.save_load_file(".tif", "[compression=jpeg]", self.colour, 80)
self.save_load_file(".tif",
"[tile,tile-width=256]", self.colour, 10)
im = pyvips.Image.new_from_file(TIF2_FILE)
self.save_load_file(".tif", "[bitdepth=2]", im, 0)
im = pyvips.Image.new_from_file(TIF4_FILE)
self.save_load_file(".tif", "[bitdepth=4]", im, 0)
filename = temp_filename(self.tempdir, '.tif')
x = pyvips.Image.new_from_file(TIF_FILE)
x = x.copy()
x.set("orientation", 2)
x.write_to_file(filename)
x = pyvips.Image.new_from_file(filename)
y = x.get("orientation")
assert y == 2
filename = temp_filename(self.tempdir, '.tif')
x = pyvips.Image.new_from_file(TIF_FILE)
x = x.copy()
x.set("orientation", 2)
x.write_to_file(filename)
x = pyvips.Image.new_from_file(filename)
y = x.get("orientation")
assert y == 2
x = x.copy()
x.remove("orientation")
filename = temp_filename(self.tempdir, '.tif')
x.write_to_file(filename)
x = pyvips.Image.new_from_file(filename)
y = x.get("orientation")
assert y == 1
filename = temp_filename(self.tempdir, '.tif')
x = pyvips.Image.new_from_file(TIF_FILE)
x = x.copy()
x.set("orientation", 6)
x.write_to_file(filename)
x1 = pyvips.Image.new_from_file(filename)
x2 = pyvips.Image.new_from_file(filename, autorotate=True)
assert x1.width == x2.height
assert x1.height == x2.width
filename = temp_filename(self.tempdir, '.tif')
x = pyvips.Image.new_from_file(TIF_FILE)
x = x.copy()
x.write_to_file(filename, xres=100, yres=200, resunit="cm")
x1 = pyvips.Image.new_from_file(filename)
assert x1.get("resolution-unit") == "cm"
assert x1.xres == 100
assert x1.yres == 200
filename = temp_filename(self.tempdir, '.tif')
x = pyvips.Image.new_from_file(TIF_FILE)
x = x.copy()
x.write_to_file(filename, xres=100, yres=200, resunit="inch")
x1 = pyvips.Image.new_from_file(filename)
assert x1.get("resolution-unit") == "in"
assert x1.xres == 100
assert x1.yres == 200
# OME support in 8.5
x = pyvips.Image.new_from_file(OME_FILE)
assert x.width == 439
assert x.height == 167
page_height = x.height
x = pyvips.Image.new_from_file(OME_FILE, n=-1)
assert x.width == 439
assert x.height == page_height * 15
x = pyvips.Image.new_from_file(OME_FILE, page=1, n=-1)
assert x.width == 439
assert x.height == page_height * 14
x = pyvips.Image.new_from_file(OME_FILE, page=1, n=2)
assert x.width == 439
assert x.height == page_height * 2
x = pyvips.Image.new_from_file(OME_FILE, n=-1)
assert x(0, 166)[0] == 96
assert x(0, 167)[0] == 0
assert x(0, 168)[0] == 1
filename = temp_filename(self.tempdir, '.tif')
x.write_to_file(filename)
x = pyvips.Image.new_from_file(filename, n=-1)
assert x.width == 439
assert x.height == page_height * 15
assert x(0, 166)[0] == 96
assert x(0, 167)[0] == 0
assert x(0, 168)[0] == 1
# pyr save to buffer added in 8.6
x = pyvips.Image.new_from_file(TIF_FILE)
buf = x.tiffsave_buffer(tile=True, pyramid=True)
filename = temp_filename(self.tempdir, '.tif')
x.tiffsave(filename, tile=True, pyramid=True)
with open(filename, 'rb') as f:
buf2 = f.read()
assert len(buf) == len(buf2)
a = pyvips.Image.new_from_buffer(buf, "", page=2)
b = pyvips.Image.new_from_buffer(buf2, "", page=2)
assert a.width == b.width
assert a.height == b.height
assert a.avg() == b.avg()
x = pyvips.Image.new_from_file(TIF_FILE)
buf = x.tiffsave_buffer(tile=True, pyramid=True, region_shrink="mean")
buf = x.tiffsave_buffer(tile=True, pyramid=True, region_shrink="mode")
buf = x.tiffsave_buffer(tile=True, pyramid=True, region_shrink="median")
buf = x.tiffsave_buffer(tile=True, pyramid=True, region_shrink="max")
buf = x.tiffsave_buffer(tile=True, pyramid=True, region_shrink="min")
buf = x.tiffsave_buffer(tile=True, pyramid=True,
region_shrink="nearest")
@skip_if_no("magickload")
def test_magickload(self):
def bmp_valid(im):
a = im(100, 100)
assert_almost_equal_objects(a, [227, 216, 201])
assert im.width == 1419
assert im.height == 1001
self.file_loader("magickload", BMP_FILE, bmp_valid)
self.buffer_loader("magickload_buffer", BMP_FILE, bmp_valid)
# we should have rgb or rgba for svg files ... different versions of
# IM handle this differently. GM even gives 1 band.
im = pyvips.Image.magickload(SVG_FILE)
assert im.bands == 3 or im.bands == 4 or im.bands == 1
# density should change size of generated svg
im = pyvips.Image.magickload(SVG_FILE, density='100')
width = im.width
height = im.height
im = pyvips.Image.magickload(SVG_FILE, density='200')
# This seems to fail on travis, no idea why, some problem in their IM
# perhaps
# assert im.width == width * 2
# assert im.height == height * 2
im = pyvips.Image.magickload(GIF_ANIM_FILE)
width = im.width
height = im.height
im = pyvips.Image.magickload(GIF_ANIM_FILE, n=-1)
assert im.width == width
assert im.height == height * 5
# page/n let you pick a range of pages
# 'n' param added in 8.5
if pyvips.at_least_libvips(8, 5):
im = pyvips.Image.magickload(GIF_ANIM_FILE)
width = im.width
height = im.height
im = pyvips.Image.magickload(GIF_ANIM_FILE, page=1, n=2)
assert im.width == width
assert im.height == height * 2
page_height = im.get("page-height")
assert page_height == height
# should work for dicom
im = pyvips.Image.magickload(DICOM_FILE)
assert im.width == 128
assert im.height == 128
# some IMs are 3 bands, some are 1, can't really test
# assert im.bands == 1
# libvips has its own sniffer for ICO, test that
with open(ICO_FILE, 'rb') as f:
buf = f.read()
im = pyvips.Image.new_from_buffer(buf, "")
assert im.width == 16
assert im.height == 16
# added in 8.7
@skip_if_no("magicksave")
def test_magicksave(self):
# save to a file and load again ... we can't use save_load_file since
# we want to make sure we use magickload/save
# don't use BMP - GraphicsMagick always adds an alpha
# don't use TIF - IM7 will save as 16-bit
filename = temp_filename(self.tempdir, ".jpg")
self.colour.magicksave(filename)
x = pyvips.Image.magickload(filename)
assert self.colour.width == x.width
assert self.colour.height == x.height
assert self.colour.bands == x.bands
max_diff = (self.colour - x).abs().max()
assert max_diff < 60
self.save_load_buffer("magicksave_buffer", "magickload_buffer",
self.colour, 60, format="JPG")
# try an animation
if have("gifload"):
x1 = pyvips.Image.new_from_file(GIF_ANIM_FILE, n=-1)
w1 = x1.magicksave_buffer(format="GIF")
x2 = pyvips.Image.new_from_buffer(w1, "", n=-1)
assert x1.get("delay") == x2.get("delay")
assert x1.get("page-height") == x2.get("page-height")
# magicks vary in how they handle this ... just pray we are close
assert abs(x1.get("gif-loop") - x2.get("gif-loop")) < 5
@skip_if_no("webpload")
def test_webp(self):
def webp_valid(im):
a = im(10, 10)
# different webp versions use different rounding systems leading
# to small variations
assert_almost_equal_objects(a, [71, 166, 236], threshold=2)
assert im.width == 550
assert im.height == 368
assert im.bands == 3
self.file_loader("webpload", WEBP_FILE, webp_valid)
self.buffer_loader("webpload_buffer", WEBP_FILE, webp_valid)
self.save_load_buffer("webpsave_buffer", "webpload_buffer",
self.colour, 60)
self.save_load("%s.webp", self.colour)
# test lossless mode
im = pyvips.Image.new_from_file(WEBP_FILE)
buf = im.webpsave_buffer(lossless=True)
im2 = pyvips.Image.new_from_buffer(buf, "")
assert abs(im.avg() - im2.avg()) < 1
# higher Q should mean a bigger buffer
b1 = im.webpsave_buffer(Q=10)
b2 = im.webpsave_buffer(Q=90)
assert len(b2) > len(b1)
# try saving an image with an ICC profile and reading it back ... if we
# can do it, our webp supports metadata load/save
buf = self.colour.webpsave_buffer()
im = pyvips.Image.new_from_buffer(buf, "")
if im.get_typeof("icc-profile-data") != 0:
# verify that the profile comes back unharmed
p1 = self.colour.get("icc-profile-data")
p2 = im.get("icc-profile-data")
assert p1 == p2
# add tests for exif, xmp, ipct
# the exif test will need us to be able to walk the header,
# we can't just check exif-data
# we can test that exif changes change the output of webpsave
# first make sure we have exif support
z = pyvips.Image.new_from_file(JPEG_FILE)
if z.get_typeof("exif-ifd0-Orientation") != 0:
x = self.colour.copy()
x.set("orientation", 6)
buf = x.webpsave_buffer()
y = pyvips.Image.new_from_buffer(buf, "")
assert y.get("orientation") == 6
# try converting an animated gif to webp ... can't do back to gif
# again without IM support
if have("gifload"):
x1 = pyvips.Image.new_from_file(GIF_ANIM_FILE, n=-1)
w1 = x1.webpsave_buffer(Q=10)
x2 = pyvips.Image.new_from_buffer(w1, "", n=-1)
assert x1.width == x2.width
assert x1.height == x2.height
assert x1.get("delay") == x2.get("delay")
assert x1.get("page-height") == x2.get("page-height")
assert x1.get("gif-loop") == x2.get("gif-loop")
@skip_if_no("analyzeload")
def test_analyzeload(self):
def analyze_valid(im):
a = im(10, 10)
assert pytest.approx(a[0]) == 3335
assert im.width == 128
assert im.height == 8064
assert im.bands == 1
self.file_loader("analyzeload", ANALYZE_FILE, analyze_valid)
@skip_if_no("matload")
def test_matload(self):
def matlab_valid(im):
a = im(10, 10)
assert_almost_equal_objects(a, [38671.0, 33914.0, 26762.0])
assert im.width == 290
assert im.height == 442
assert im.bands == 3
self.file_loader("matload", MATLAB_FILE, matlab_valid)
@skip_if_no("openexrload")
def test_openexrload(self):
def exr_valid(im):
a = im(10, 10)
assert_almost_equal_objects(a, [0.124512, 0.159668, 0.040375,
255.0],
threshold=0.00001)
assert im.width == 610
assert im.height == 406
assert im.bands == 4
self.file_loader("openexrload", EXR_FILE, exr_valid)
@skip_if_no("fitsload")
def test_fitsload(self):
def fits_valid(im):
a = im(10, 10)
assert_almost_equal_objects(a, [-0.165013, -0.148553, 1.09122,
-0.942242], threshold=0.00001)
assert im.width == 200
assert im.height == 200
assert im.bands == 4
self.file_loader("fitsload", FITS_FILE, fits_valid)
self.save_load("%s.fits", self.mono)
@skip_if_no("niftiload")
def test_niftiload(self):
def nifti_valid(im):
a = im(30, 26)
assert_almost_equal_objects(a, [131])
assert im.width == 91
assert im.height == 9919
assert im.bands == 1
self.file_loader("niftiload", NIFTI_FILE, nifti_valid)
self.save_load("%s.nii.gz", self.mono)
@skip_if_no("openslideload")
def test_openslideload(self):
def openslide_valid(im):
a = im(10, 10)
assert_almost_equal_objects(a, [244, 250, 243, 255])
assert im.width == 2220
assert im.height == 2967
assert im.bands == 4
self.file_loader("openslideload", OPENSLIDE_FILE, openslide_valid)
@skip_if_no("pdfload")
def test_pdfload(self):
def pdf_valid(im):
a = im(10, 10)
assert_almost_equal_objects(a, [35, 31, 32, 255])
assert im.width == 1134
assert im.height == 680
assert im.bands == 4
self.file_loader("pdfload", PDF_FILE, pdf_valid)
self.buffer_loader("pdfload_buffer", PDF_FILE, pdf_valid)
im = pyvips.Image.new_from_file(PDF_FILE)
x = pyvips.Image.new_from_file(PDF_FILE, scale=2)
assert abs(im.width * 2 - x.width) < 2
assert abs(im.height * 2 - x.height) < 2
im = pyvips.Image.new_from_file(PDF_FILE)
x = pyvips.Image.new_from_file(PDF_FILE, dpi=144)
assert abs(im.width * 2 - x.width) < 2
assert abs(im.height * 2 - x.height) < 2
@skip_if_no("gifload")
def test_gifload(self):
def gif_valid(im):
a = im(10, 10)
assert_almost_equal_objects(a, [33])
assert im.width == 159
assert im.height == 203
assert im.bands == 1
self.file_loader("gifload", GIF_FILE, gif_valid)
self.buffer_loader("gifload_buffer", GIF_FILE, gif_valid)
# 'n' param added in 8.5
if pyvips.at_least_libvips(8, 5):
x1 = pyvips.Image.new_from_file(GIF_ANIM_FILE)
x2 = pyvips.Image.new_from_file(GIF_ANIM_FILE, n=2)
assert x2.height == 2 * x1.height
page_height = x2.get("page-height")
assert page_height == x1.height
x2 = pyvips.Image.new_from_file(GIF_ANIM_FILE, n=-1)
assert x2.height == 5 * x1.height
# our test gif has delay 0 for the first frame set in error
assert x2.get("delay") == [0, 50, 50, 50, 50]
x2 = pyvips.Image.new_from_file(GIF_ANIM_FILE, page=1, n=-1)
assert x2.height == 4 * x1.height
animation = pyvips.Image.new_from_file(GIF_ANIM_FILE, n=-1)
filename = temp_filename(self.tempdir, '.png')
animation.write_to_file(filename)
# Uncomment to see output file
# animation.write_to_file('cogs.png')
assert filecmp.cmp(GIF_ANIM_EXPECTED_PNG_FILE, filename, shallow=False)
@skip_if_no("gifload")
def test_gifload_animation_dispose_background(self):
animation = pyvips.Image.new_from_file(GIF_ANIM_DISPOSE_BACKGROUND_FILE, n=-1)
filename = temp_filename(self.tempdir, '.png')
animation.write_to_file(filename)
# Uncomment to see output file
# animation.write_to_file('dispose-background.png')
assert filecmp.cmp(GIF_ANIM_DISPOSE_BACKGROUND_EXPECTED_PNG_FILE, filename, shallow=False)
@skip_if_no("gifload")
def test_gifload_animation_dispose_previous(self):
animation = pyvips.Image.new_from_file(GIF_ANIM_DISPOSE_PREVIOUS_FILE, n=-1)
filename = temp_filename(self.tempdir, '.png')
animation.write_to_file(filename)
# Uncomment to see output file
# animation.write_to_file('dispose-previous.png')
assert filecmp.cmp(GIF_ANIM_DISPOSE_PREVIOUS_EXPECTED_PNG_FILE, filename, shallow=False)
@skip_if_no("svgload")
def test_svgload(self):
def svg_valid(im):
a = im(10, 10)
assert_almost_equal_objects(a, [0, 0, 0, 0])
assert im.width == 736
assert im.height == 552
assert im.bands == 4
self.file_loader("svgload", SVG_FILE, svg_valid)
self.buffer_loader("svgload_buffer", SVG_FILE, svg_valid)
self.file_loader("svgload", SVGZ_FILE, svg_valid)
self.buffer_loader("svgload_buffer", SVGZ_FILE, svg_valid)
self.file_loader("svgload", SVG_GZ_FILE, svg_valid)
im = pyvips.Image.new_from_file(SVG_FILE)
x = pyvips.Image.new_from_file(SVG_FILE, scale=2)
assert abs(im.width * 2 - x.width) < 2
assert abs(im.height * 2 - x.height) < 2
im = pyvips.Image.new_from_file(SVG_FILE)
x = pyvips.Image.new_from_file(SVG_FILE, dpi=144)
assert abs(im.width * 2 - x.width) < 2
assert abs(im.height * 2 - x.height) < 2
def test_csv(self):
self.save_load("%s.csv", self.mono)
def test_matrix(self):
self.save_load("%s.mat", self.mono)
@skip_if_no("ppmload")
def test_ppm(self):
self.save_load("%s.ppm", self.mono)
self.save_load("%s.ppm", self.colour)
@skip_if_no("radload")
def test_rad(self):
self.save_load("%s.hdr", self.colour)
self.save_buffer_tempfile("radsave_buffer", ".hdr",
self.rad, max_diff=0)
@skip_if_no("dzsave")
def test_dzsave(self):
# dzsave is hard to test, there are so many options
# test each option separately and hope they all function together
# correctly
# default deepzoom layout ... we must use png here, since we want to
# test the overlap for equality
filename = temp_filename(self.tempdir, '')
self.colour.dzsave(filename, suffix=".png")
# test horizontal overlap ... expect 256 step, overlap 1
x = pyvips.Image.new_from_file(filename + "_files/9/0_0.png")
assert x.width == 255
y = pyvips.Image.new_from_file(filename + "_files/9/1_0.png")
assert y.width == 37
# the right two columns of x should equal the left two columns of y
left = x.crop(x.width - 2, 0, 2, x.height)
right = y.crop(0, 0, 2, y.height)
assert (left - right).abs().max() == 0
# test vertical overlap
assert x.height == 255
y = pyvips.Image.new_from_file(filename + "_files/9/0_1.png")
assert y.height == 189
# the bottom two rows of x should equal the top two rows of y
top = x.crop(0, x.height - 2, x.width, 2)
bottom = y.crop(0, 0, y.width, 2)
assert (top - bottom).abs().max() == 0
# there should be a bottom layer
x = pyvips.Image.new_from_file(filename + "_files/0/0_0.png")
assert x.width == 1
assert x.height == 1
# 9 should be the final layer
assert not os.path.isdir(filename + "_files/10")
# default google layout
filename = temp_filename(self.tempdir, '')
self.colour.dzsave(filename, layout="google")
# test bottom-right tile ... default is 256x256 tiles, overlap 0
x = pyvips.Image.new_from_file(filename + "/1/1/1.jpg")
assert x.width == 256
assert x.height == 256
assert not os.path.exists(filename + "/1/1/2.jpg")
assert not os.path.exists(filename + "/2")
x = pyvips.Image.new_from_file(filename + "/blank.png")
assert x.width == 256
assert x.height == 256
# google layout with overlap ... verify that we clip correctly
# overlap 1, 510x510 pixels, 256 pixel tiles, should be exactly 2x2
# tiles, though in fact the bottom and right edges will be white
filename = temp_filename(self.tempdir, '')
self.colour \
.replicate(2, 2) \
.crop(0, 0, 510, 510) \
.dzsave(filename, layout="google", overlap=1, depth="one")
x = pyvips.Image.new_from_file(filename + "/0/1/1.jpg")
assert x.width == 256
assert x.height == 256
assert not os.path.exists(filename + "/0/2/2.jpg")
# with 511x511, it'll fit exactly into 2x2 -- we we actually generate
# 3x3, since we output the overlaps
filename = temp_filename(self.tempdir, '')
self.colour \
.replicate(2, 2) \
.crop(0, 0, 511, 511) \
.dzsave(filename, layout="google", overlap=1, depth="one")
x = pyvips.Image.new_from_file(filename + "/0/2/2.jpg")
assert x.width == 256
assert x.height == 256
assert not os.path.exists(filename + "/0/3/3.jpg")
# default zoomify layout
filename = temp_filename(self.tempdir, '')
self.colour.dzsave(filename, layout="zoomify")
# 256x256 tiles, no overlap
assert os.path.exists(filename + "/ImageProperties.xml")
x = pyvips.Image.new_from_file(filename + "/TileGroup0/1-0-0.jpg")
assert x.width == 256
assert x.height == 256
# test zip output
filename = temp_filename(self.tempdir, '.zip')
self.colour.dzsave(filename)
assert os.path.exists(filename)
assert not os.path.exists(filename + "_files")
assert not os.path.exists(filename + ".dzi")
# test compressed zip output
filename2 = temp_filename(self.tempdir, '.zip')
self.colour.dzsave(filename2, compression=-1)
assert os.path.exists(filename2)
assert os.path.getsize(filename2) < os.path.getsize(filename)
# test suffix
filename = temp_filename(self.tempdir, '')
self.colour.dzsave(filename, suffix=".png")
x = pyvips.Image.new_from_file(filename + "_files/9/0_0.png")
assert x.width == 255
# test overlap
filename = temp_filename(self.tempdir, '')
self.colour.dzsave(filename, overlap=200)
y = pyvips.Image.new_from_file(filename + "_files/9/1_1.jpeg")
assert y.width == 236
# test tile-size
filename = temp_filename(self.tempdir, '')
self.colour.dzsave(filename, tile_size=512)
y = pyvips.Image.new_from_file(filename + "_files/9/0_0.jpeg")
assert y.width == 290
assert y.height == 442
# test save to memory buffer
filename = temp_filename(self.tempdir, '.zip')
base = os.path.basename(filename)
root, ext = os.path.splitext(base)
self.colour.dzsave(filename)
with open(filename, 'rb') as f:
buf1 = f.read()
buf2 = self.colour.dzsave_buffer(basename=root)
assert len(buf1) == len(buf2)
# we can't test the bytes are exactly equal -- the timestamps will
# be different
# added in 8.7
buf = self.colour.dzsave_buffer(region_shrink="mean")
buf = self.colour.dzsave_buffer(region_shrink="mode")
buf = self.colour.dzsave_buffer(region_shrink="median")
@skip_if_no("heifload")
def test_heifload(self):
def heif_valid(im):
a = im(10, 10)
# different versions of HEIC decode have slightly different
# rounding
assert_almost_equal_objects(a, [197.0, 181.0, 158.0], threshold=2)
assert im.width == 3024
assert im.height == 4032
assert im.bands == 3
self.file_loader("heifload", HEIC_FILE, heif_valid)
self.buffer_loader("heifload_buffer", HEIC_FILE, heif_valid)
@skip_if_no("heifsave")
def test_heifsave(self):
self.save_load_buffer("heifsave_buffer", "heifload_buffer",
self.colour, 80)
self.save_load("%s.heic", self.colour)
# test lossless mode
im = pyvips.Image.new_from_file(HEIC_FILE)
buf = im.heifsave_buffer(lossless=True)
im2 = pyvips.Image.new_from_buffer(buf, "")
# not in fact quite lossless
assert abs(im.avg() - im2.avg()) < 3
# higher Q should mean a bigger buffer
b1 = im.heifsave_buffer(Q=10)
b2 = im.heifsave_buffer(Q=90)
assert len(b2) > len(b1)
# try saving an image with an ICC profile and reading it back
# not all libheif have profile support, so put it in an if
buf = self.colour.heifsave_buffer()
im = pyvips.Image.new_from_buffer(buf, "")
p1 = self.colour.get("icc-profile-data")
if im.get_typeof("icc-profile-data") != 0:
p2 = im.get("icc-profile-data")
assert p1 == p2
# add tests for exif, xmp, ipct
# the exif test will need us to be able to walk the header,
# we can't just check exif-data
# libheif 1.1 (on ubuntu 18.04, current LTS) does not support exif
# write, so this test is commented out
# test that exif changes change the output of heifsave
# first make sure we have exif support
#z = pyvips.Image.new_from_file(JPEG_FILE)
#if z.get_typeof("exif-ifd0-Orientation") != 0:
# x = self.colour.copy()
# x.set("exif-ifd0-Make", "banana")
# buf = x.heifsave_buffer()
# y = pyvips.Image.new_from_buffer(buf, "")
# assert y.get("exif-ifd0-Make").split(" ")[0] == "banana"
if __name__ == '__main__':
pytest.main()