How to use the pyvips.Image.new_from_file function in pyvips

To help you get started, we’ve selected a few pyvips examples, based on popular ways it is used in public projects.

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libvips / pyvips / tests / test_gvalue.py View on Github

def test_array_image(self):
        image = pyvips.Image.new_from_file(JPEG_FILE)
        r, g, b = image.bandsplit()
        gv = pyvips.GValue()
        gv.set_type(pyvips.GValue.array_image_type)
        gv.set([r, g, b])
        value = gv.get()
        assert value, [r, g == b]

libvips / pyvips / tests / test_foreign.py View on Github

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

libvips / libvips / test / test-suite / test_resample.py View on Github

def test_rotate(self):
        if have("rotate"):
            im = pyvips.Image.new_from_file(JPEG_FILE)
            im2 = im.rotate(90)
            im3 = im.affine([0, -1, 1, 0])
            # rounding in calculating the affine transform from the angle stops
            # this being exactly true
            assert (im2 - im3).abs().max() &lt; 50

libvips / pyvips / tests / test_streams.py View on Github

def test_stream(self):
        streami = pyvips.Streami.new_from_file(JPEG_FILE)
        image = pyvips.Image.new_from_stream(streami, '', access='sequential')
        filename = temp_filename(self.tempdir, '.png')
        streamo = pyvips.Streamo.new_to_file(filename)
        image.write_to_stream(streamo, '.png')

        image = pyvips.Image.new_from_file(JPEG_FILE, access='sequential')
        image2 = pyvips.Image.new_from_file(filename, access='sequential')

        assert (image - image2).abs().max() &lt; 10

libvips / libvips / test / test-suite / test_foreign.py View on Github

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()) &lt; 3

        # higher Q should mean a bigger buffer
        b1 = im.heifsave_buffer(Q=10)
        b2 = im.heifsave_buffer(Q=90)
        assert len(b2) &gt; 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:

libvips / pyvips / tests / test_histogram.py View on Github

def test_hist_entropy(self):
        im = pyvips.Image.new_from_file(JPEG_FILE).extract_band(1)

        ent = im.hist_find().hist_entropy()

        self.assertAlmostEqual(ent, 4.37, places=2)

libvips / pyvips / tests / test_foreign.py View on Github

# test compressed zip output
        filename2 = temp_filename(self.tempdir, '.zip')
        self.colour.dzsave(filename2, compression=-1)
        # before 8.5.8, you needed a gc on pypy to flush small zip output to
        # disc
        if not pyvips.base.at_least_libvips(8, 6):
            gc.collect()
        assert os.path.exists(filename2)
        assert os.path.getsize(filename2) &lt; 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/10/0_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/10/1_1.jpeg")
        assert y.width == 654

        # test tile-size
        filename = temp_filename(self.tempdir, '')
        self.colour.dzsave(filename, tile_size=512)

        y = pyvips.Image.new_from_file(filename + "_files/10/0_0.jpeg")
        assert y.width == 513
        assert y.height == 513

libvips / pyvips / tests / test_foreign.py View on Github

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,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)

        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.remove("orientation")

        filename = temp_filename(self.tempdir, '.tif')
        x.write_to_file(filename)
        x = pyvips.Image.new_from_file(filename)

ecometrica / gdal2mbtiles / gdal2mbtiles / vips.py View on Github

def from_gdal_dataset(cls, dataset, band):
        """
        Creates a new 1-band pyvips.Image from `dataset` at `band`

        dataset: GDAL Dataset
        band: Number of the band, starting from 1
        """
        with LibVips.disable_warnings():
            filename = dataset.GetFileList()[0]
            image1 = Image.new_from_file(filename)

            # Extract the band
            image2 = image1.extract_band((band - 1), n=1)

            # Cast to the right datatype, if necessary
            datatype = dataset.GetRasterBand(band).NumPyDataType
            if VImageAdapter(image2).NumPyType() == datatype:
                return image2
            types = dict((v, k) for k, v in cls.NUMPY_TYPES.items())
            image3 = Image.new_from_memory(image2.write_to_memory(),
                                           width=image2.width,
                                           height=image2.height,
                                           bands=1, format=types[datatype])
            image3._buf = image2
            return image3

libvips / pyvips / examples / cod.py View on Github

"""
    # xy image, vertical scaled to 360 degrees
    xy = pyvips.Image.xyz(image.width, image.height)
    xy *= [1, 360.0 / image.height]

    index = xy.rect()

    # scale to image rect
    scale = min(image.width, image.height) / float(image.width)
    index *= scale / 2.0
    index += [image.width / 2.0, image.height / 2.0]

    return image.mapim(index)


a = pyvips.Image.new_from_file(sys.argv[1])
a = to_polar(a)
a = to_rectangular(a)
a.write_to_file(sys.argv[2])

How to use the pyvips.Image.new_from_file function in pyvips

To help you get started, we’ve selected a few pyvips examples, based on popular ways it is used in public projects.

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