Exemple #1
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def repo_gif(repo, outfile, max_width=1920, max_height=1200, skip_empty=True):
    commits = deque([repo.head.commit])
    while commits[0].parents:
        commits.appendleft(commits[0].parents[0])

    file_images = {}
    for commit in commits:
        for f in commit.tree.traverse(
                lambda i, d: i.type == 'blob' and
                is_text(i.data_stream.read(1024))
        ):
            file_images.setdefault(
                f.path, FileHistoryImages(f.path, skip_empty)
            ).add_commit_data(
                commit.hexsha, f
            )

    images = list(file_images.values())
    arranged = aspackt.arrangement(images)

    width = arranged.width
    height = arranged.height

    with open(outfile, 'wb') as fp:
        gifmaker.makedelta(
            fp,
            frames(commits, width, height, images, arranged)
        )
Exemple #2
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def make_gif(iter):
    import glob
    from PIL import Image, ImageChops
    import numpy
    from PIL.GifImagePlugin import getheader, getdata
    import gifmaker
    sequence = []
    # fileList = glob.glob('../hko_fast/1900it6850outputn_*')
    fileList = []
    path = '../hko_lstm_baseline_nopeep/'
    
    
    for i in range(15):
        name = path + 'trainImg/it' + str(iter) + 'outputn_' + str(i + 1) + '.png'
        fileList.append(name)
    print(fileList)

    for file in fileList:
        print(file)
        im = Image.open(file)
        img = numpy.asarray(im)
        print(img)
        sequence.append(im)
    name = path + str(iter) + "out.gif"
    fp = open(name, "wb")
    print('save as '+ name)
    gifmaker.makedelta(fp, sequence)
    fp.close()
Exemple #3
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def _output_movie(movie, filename):

    import Tkinter, gifmaker, os, sys
    from PIL import ImageTk

    frames = len(movie)

    if filename:
        #for Nr in range(frames):
        #    fn = filename + str(Nr) + ".jpg"
        #    movie[Nr].save(fn)
        #return

        for Nr in range(0, frames):
            movie[Nr] = movie[Nr].convert("P")
        if '.' in filename:
            (name, suffix) = os.path.splitext(filename)
            if suffix != '.gif':
                print "File format not supported. Defaulting to gif."
                filename = filename[:filename.index('.')] + ".gif"
        else:
            filename += ".gif"

        slash = '/'
        script = sys.argv[0]
        totalpath = os.path.abspath(script)
        userpath = os.path.dirname(totalpath) + slash + filename
        fp = open(userpath, "wb")

        gifmaker.makedelta(fp, movie)
        fp.close()
        print "Created", userpath

    else:
        root = Tkinter.Tk()

        # Close window procedure.

        stop = [0]

        def callback():
            stop[0] = 1

        root.protocol("WM_DELETE_WINDOW", callback)

        # Animate picture.

        canvas = Tkinter.Canvas(width=movie[0].size[0],
                                height=movie[0].size[1])

        while not stop[0]:
            for x in range(frames):
                if stop[0]: break
                backdrop = ImageTk.PhotoImage(movie[x])
                canvas.create_image(0, 0, image=backdrop, anchor=Tkinter.NW)
                canvas.pack()
                root.update()
                root.after(int(100))

        root.destroy()
Exemple #4
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def make_gif(time, iter):
    import glob
    from PIL import Image, ImageChops
    import numpy
    from PIL.GifImagePlugin import getheader, getdata
    import gifmaker
    sequence = []
    # fileList = glob.glob('../hko_fast/1900it6850outputn_*')
    fileList = []

    # iter = 24000


    for i in range(15):
        name = '../hko_lstm_baseline/' + str(time) + 'it' + str(iter) + 'outputn_' + str(i + 1) + '.png'
        fileList.append(name)
    print(fileList)

    for file in fileList:
        print(file)
        im = Image.open(file)
        img = numpy.asarray(im)
        print(img)
        sequence.append(im)
    fp = open(str(iter) + "out.gif", "wb")
    gifmaker.makedelta(fp, sequence)
    fp.close()
Exemple #5
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def makeGif(inputdir, outfile, skip = 10, colorMode = "P", reverse=False):
	files = os.listdir(inputdir)
	files.sort(reverse=reverse)
	count = 0
	seq = []
	for fname in files:
		if skip > 1 and count % skip != 0:
			count+= 1
			continue
		im = Image.open(inputdir+'/'+fname)
		im = im.convert(colorMode) # P or L
		seq.append(im)
		count+= 1

	fp = open(outfile, "wb")
	gifmaker.makedelta(fp, seq)
	fp.close()
Exemple #6
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    def _save(self, saveas="CAMFRPICTURE"):
        import tkFileDialog, tkMessageBox, os, gifmaker, Image, ImagePalette

        index = self.indexFlag.get()

        if (saveas == "CAMFRPICTURE"):
            ifile = "myplot.jpg"
            ftypes = [("picture", ".jpg"), ("picture", ".bmp"),
                      ("picture", ".png")]
            ttle = "save plot"
        elif (saveas == "CAMFRRAWDATA"):
            ifile = "myplot.xls"
            ftypes = [("numeric tabbed", ".xls")]
            ttle = "save data"
        elif (saveas == "CAMFRGIFMOVIE"):
            ifile = "mymovie.gif"
            ftypes = [("movie", ".gif")]
            ttle = "save movie as gif"
        elif (saveas == "CAMFRFRAMESMOVIE"):
            ifile = "mymovie.jpg"
            ftypes = [("moviefiles", ".jpg"), ("moviefiles", ".bmp"),
                      ("moviefiles", ".png")]
            ttle = "save movie as jpg files"

        #  Get file name.
        name = tkFileDialog.asksaveasfilename(filetypes=ftypes,
                                              initialfile=ifile,
                                              title=ttle)

        (root, ext) = os.path.splitext(name)

        # Save options.
        if (saveas == "CAMFRPICTURE"):
            if not (ext in camfr_PIL.formats):
                ext = '.jpg'
            name = root + ext
            if not index: self.pic_f.save(name)
            else:
                camfr_PIL._overlay_pictures(self.pic_f, self.pic_n,
                                            1).save(name)
            print "file saved as ", name

        elif (saveas == "CAMFRRAWDATA"):
            if not (ext in ['.xls', '.XLS']):
                ext = '.xls'
            name = root + ext
            self._saveMatrix(name, self.mat_f)
            print "file saved as", name

        elif (saveas == "CAMFRGIFMOVIE"):
            if not (ext in ['.gif', '.GIF']):
                ext = '.gif'
            name = root + ext

            # copy from playbutton
            self._movieNewPlay()

            movie2 = range(0, len(self.movie))
            for Nr in range(0, len(self.movie)):
                if not index: movie2[Nr] = self.movie[Nr].convert("P")
                else:
                    movie2[Nr] = camfr_PIL._overlay_pictures(
                        self.movie[Nr], self.pic_n, 1).convert("P")
            fp = open(name, "wb")
            gifmaker.makedelta(fp, movie2)
            fp.close()
            print "file saved as", name

        elif (saveas == "CAMFRFRAMESMOVIE"):
            if not (ext in camfr_PIL.formats):
                ext = '.jpg'

            # this wil make a movie if nessecary
            self._movieNewPlay()

            for Nr in range(0, len(self.movie)):
                nameNR = root + "_%i" % Nr + ext
                if not index: self.movie[Nr].save(nameNR)
                else:
                    camfr_PIL._overlay_pictures(self.movie[Nr], self.pic_n,
                                                1).save(nameNR)

            print "file saved as %i " % len(
                self.movie), root, "_Nr", ext, " frames"

        else:
            tkMessageBox.showwarning(title="fail",
                                     message="no file/data is saved")
Exemple #7
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def main():
    model = 0

    if model == 0:
        filename = "data/knight.json"
        rotation_count = 0
    elif model == 1:
        filename = "data/new_knight_baseclean_sym.json"
        rotation_count = 3
    elif model == 2:
        filename = "data/DNA.json"
        rotation_count = 2

    triangles = loadFile(filename)
    print "The model has %d triangles." % len(triangles)

    for i in range(rotation_count):
        # We need the model to be around Z. If it's around Y, transform the initial
        # geometry so that the rest of the program doesn't have to concern itself with it.
        triangles = [triangle.rotatex90() for triangle in triangles]

    # Single image.
    if True:
        img, _ = render(triangles, 1024, 1024, 0, None)
        # add_base(img)
        before = time.time()
        img.save("out.png")
        after = time.time()
        print "%dms" % ((after - before)*1000)
        sys.exit(0)

    # Animated GIF.
    if False:
        images = [render(triangles, IMAGE_SIZE, IMAGE_SIZE, angle)[0] for angle in angles(ANGLE_COUNT)]

        fp = open("out.gif", "wb")
        gifmaker.makedelta(fp, images)
        fp.close()

    # Single SVG.
    if False:
        image, _ = render(triangles, IMAGE_SIZE*RENDER_SCALE, IMAGE_SIZE*RENDER_SCALE, 0)
        paths = get_outlines(image)
        paths = [simplify_vertices(vertices, 1) for vertices in paths]
        generate_file("out", paths)

    # All SVGs.
    if True:
        bbox3d = BoundingBox3D()
        for triangle in triangles:
            bbox3d.addTriangle(triangle)

        center = bbox3d.center()

        # Move center to origin.
        triangles = [triangle - center for triangle in triangles]

        # Find scaling factor.
        size = bbox3d.size()
        max_size = max(size.x, size.y)
        scale = MODEL_DIAMETER / max_size * DPI

        # Light vector (to light).
        light = Vector3(-1, 1, 1).normalized()

        all_paths = []

        # We write out the theta's in a deep link format.  Once we have better file naming
        # we could provide a better name than "fromlink" which is only to distinguish it from
        # Default.
        thetas_file = open("thetas.txt", "w")
        thetas_file.write("lathser://sequence/add?name=fromlink")

        index = 0
        for pass_number, shade_percent in enumerate(PASS_SHADES):
            print "------------------ Making pass %d (%d%%)" % (pass_number, shade_percent)

            for is_last, angle in identify_last(half_list(angles(ANGLE_COUNT))):
                # We append these into a deep link that can be fed into the app.
                thetas_file.write("&%g" % angle)
                if GENERATE_LIT_VERSION:
                    image, _ = render(triangles, IMAGE_SIZE*RENDER_SCALE, IMAGE_SIZE*RENDER_SCALE, angle, light)
                    image.save("out%02d-lit.png" % index)
                image, transform = render(triangles, IMAGE_SIZE*RENDER_SCALE, IMAGE_SIZE*RENDER_SCALE, angle, None)
                image.save("out%02d-render.png" % index)
                add_base(image)

                # Add the shade (for spiraling). The "transform" converts from
                # model units to raster coordinates. "scale" converts from
                # model units to dots. DPI converts from inches to dots.
                shade_width = int(ROD_DIAMETER*shade_percent/100.0*transform.scale/scale*DPI)
                shade_center_x = int(transform.offx)
                add_shade(image, shade_width, shade_center_x)
                image.save("out%02d-shade.png" % index)

                # Expand to take into account the kerf.
                kerf_radius = KERF_RADIUS_IN*transform.scale/scale*DPI
                if shade_percent != 0:
                    # Rough cut, add some spacing so we don't char the wood.
                    kerf_radius += ROUGH_EXTRA_IN*transform.scale/scale*DPI
                image = add_kerf(image, kerf_radius)

                # Cut off the sides when we're shading.
                if shade_percent > 0:
                    clear_top(image, 2, RASTER_WHITE)

                image.save("out%02d-kerf.png" % index)

                paths = get_outlines(image)
                paths = [simplify_vertices(vertices, 1) for vertices in paths]
                paths = [transform_vertices(vertices, transform, scale) for vertices in paths]
                all_paths.extend(paths)
                all_paths.extend(make_heat_sensor())
                all_paths.extend(make_time_waster(is_last))
                index += 1
                print

        generate_file("out", all_paths)

        thetas_file.close()
def make_movie(runid=None, num_movie=None, tz=1, ty=0, tx=0):
    """ make_montage(runid=None, num_movie=None, tz=1,ty=0,tx=0):
This function looks in the current directory, assembles all the tif files
prefixed by the runid provided (top.runid by default), and arranges them
in a gif animation.  <Needs More Work (to change fps, etc)>
    """
    if runid is None:
        runid = arraytostr(top.runid)

    if tz:
        # ---- Reading z pictures ----
        # -- Looking for biggest number of picture file name --
        max_num = '00'
        for file in os.listdir(os.curdir):
            fname = file.split('.')
            try:
                if len(fname) == 3:
                    if (fname[0] == runid) and (fname[2]
                                                == 'tif') and (fname[1][0]
                                                               == 'z'):
                        if (fname[1][1:] > max_num):
                            max_num = fname[1][1:]
            except IndexError:
                continue

        print "maxnum: ", max_num

        # -- Making movie file name --
        m_num = '00'
        if num_movie == None:
            for mfile in os.listdir(os.curdir):
                mfname = mfile.split('.')

                try:
                    if len(mfname) == 4:
                        if (mfname[0] == runid) and (mfname[3]
                                                     == 'gif') and (mfname[2]
                                                                    == 'm'):
                            if (mfname[1][1:] > m_num):
                                m_num = mfname[1][1:]
                except IndexError:
                    continue
        m_num = ` (int(m_num) + 1) `

        #       else:
        #               m_num = `num_movie`

        if len(m_num) < 2: m_num = '0' + m_num

        filename = runid + '.' + 'z' + m_num + '.' + 'm' + ".gif"

        # -- Opening needed files in the directory and saving them in frames --
        max_num = ` (int(max_num) + 1) `
        sequence = []

        for file in os.listdir(os.curdir):
            fname = file.split('.')
            try:
                if len(fname) == 3:
                    if (fname[0] == runid) and (fname[2]
                                                == 'tif') and (fname[1][0]
                                                               == 'z'):
                        if (fname[1][1:] < max_num) and (fname[1][1:] > '0'):
                            try:
                                im = Image.open(file)
                                sequence.append(im)
                            except IOError:
                                print "!!Wrong input output"

            except IndexError:
                continue

        #write GIF animation
        with open(filename, "wb") as fp:
            gifmaker.makedelta(fp, sequence)

    if ty:
        # ---- Reading y pictures ----
        # -- Looking for biggest number of picture file name --
        max_num = '00'
        for file in os.listdir(os.curdir):
            fname = file.split('.')
            try:
                if len(fname) == 3:
                    if (fname[0] == runid) and (fname[2]
                                                == 'tif') and (fname[1][0]
                                                               == 'y'):
                        if (fname[1][1:] > max_num):
                            max_num = fname[1][1:]
            except IndexError:
                continue

        print "maxnum: ", max_num

        # -- Making movie file name --
        m_num = '00'
        if num_movie == None:
            for mfile in os.listdir(os.curdir):
                mfname = mfile.split('.')

                try:
                    if len(mfname) == 4:
                        if (mfname[0] == runid) and (mfname[3]
                                                     == 'gif') and (mfname[2]
                                                                    == 'm'):
                            if (mfname[1][1:] > m_num):
                                m_num = mfname[1][1:]
                except IndexError:
                    continue
        m_num = ` (int(m_num) + 1) `

        #               else:
        #                       m_num = `num_movie`

        if len(m_num) < 2: m_num = '0' + m_num

        filename = runid + '.' + 'y' + m_num + '.' + 'm' + ".gif"

        # -- Opening needed files in the directory and saving them in frames --
        max_num = ` (int(max_num) + 1) `
        sequence = []

        for file in os.listdir(os.curdir):
            fname = file.split('.')
            try:
                if len(fname) == 3:
                    if (fname[0] == runid) and (fname[2]
                                                == 'tif') and (fname[1][0]
                                                               == 'y'):
                        if (fname[1][1:] < max_num) and (fname[1][1:] > '0'):
                            try:
                                im = Image.open(file)
                                sequence.append(im)
                            except IOError:
                                print "!!Wrong input output"

            except IndexError:
                continue

        #write GIF animation
        with open(filename, "wb") as fp:
            gifmaker.makedelta(fp, sequence)

    if tx:
        # ---- Reading x pictures ----
        # -- Looking for biggest number of picture file name --
        max_num = '00'
        for file in os.listdir(os.curdir):
            fname = file.split('.')
            try:
                if len(fname) == 3:
                    if (fname[0] == runid) and (fname[2]
                                                == 'tif') and (fname[1][0]
                                                               == 'x'):
                        if (fname[1][1:] > max_num):
                            max_num = fname[1][1:]
            except IndexError:
                continue

        print "maxnum: ", max_num

        # -- Making movie file name --
        m_num = '00'
        if num_movie == None:
            for mfile in os.listdir(os.curdir):
                mfname = mfile.split('.')

                try:
                    if len(mfname) == 4:
                        if (mfname[0] == runid) and (mfname[3]
                                                     == 'gif') and (mfname[2]
                                                                    == 'm'):
                            if (mfname[1][1:] > m_num):
                                m_num = mfname[1][1:]
                except IndexError:
                    continue
        m_num = ` (int(m_num) + 1) `

        #       else:
        #               m_num = `num_movie`

        if len(m_num) < 2: m_num = '0' + m_num

        filename = runid + '.' + 'x' + m_num + '.' + 'm' + ".gif"

        # -- Opening needed files in the directory and saving them in frames --
        max_num = ` (int(max_num) + 1) `
        sequence = []

        for file in os.listdir(os.curdir):
            fname = file.split('.')
            try:
                if len(fname) == 3:
                    if (fname[0] == runid) and (fname[2]
                                                == 'tif') and (fname[1][0]
                                                               == 'x'):
                        if (fname[1][1:] < max_num) and (fname[1][1:] > '0'):
                            try:
                                im = Image.open(file)
                                sequence.append(im)
                            except IOError:
                                print "!!Wrong input output"

            except IndexError:
                continue

        #write GIF animation
        with open(filename, "wb") as fp:
            gifmaker.makedelta(fp, sequence)
Exemple #9
0
    from the source distribution of PIL.
"""

from PIL import Image
from locale import format_string

import glob
import gifmaker

if __name__ == "__main__":

    seq = []  # sequence of converted images
    num = -1  # counter of converted images minus 1
    idir = "./pngs/"  # input file directory
    odir = "./gifs/"  # output file directory

    # Assemble sequence of converted images
    for ifile in glob.glob(idir + "*.png"):
        im = Image.open(ifile, "r")
        imc = im.convert('P')
        seq.append(imc)
        print "Loaded %s and converted from %s to %s" % \
              (ifile, im.mode, imc.mode)
        num += 1

    # Create compressed animated GIF file
    ofile = odir + "frames_0000_" + format_string("%04d", num) + ".gif"
    fp = open(ofile, "wb")
    gifmaker.makedelta(fp, seq)
    fp.close()
Exemple #10
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    def to_animation(self, start_kwargs, end_kwargs, steps=10, delay=0.1, log_base=1.1):
        start_time = time()
        from gevent.threading import Lock
        from gifmaker import makedelta
        from io import BytesIO
        from PIL import Image
        kwargs = start_kwargs.copy()
        z_start = start_kwargs['zoom_factor']
        z_end = end_kwargs['zoom_factor']
        min_exp = 0
        max_exp = 100
        while log_base**(log_base*max_exp) > min(z_end, self.max_zoom):
            max_exp -= 1
        while log_base**(log_base*min_exp) < z_start:
            min_exp += 1
        min_exp -= 1  # we overshot
        zooms = np.logspace(log_base*min_exp, log_base*max_exp, steps, base=log_base, dtype=np.float64)

        # xcenters = np.linspace(start_kwargs['xcenter'], end_kwargs['xcenter'], steps, dtype=np.double)
        # ycenters = np.linspace(start_kwargs['ycenter'], end_kwargs['ycenter'], steps, dtype=np.double)
        x_min = min(start_kwargs['xcenter'], end_kwargs['xcenter'])
        x_max = max(start_kwargs['xcenter'], end_kwargs['xcenter'])
        if start_kwargs['xcenter'] > end_kwargs['xcenter']:
            x_dir = -1
        else:
            x_dir = 1
        xcenters = self.gen_exponential_space(x_min, x_max, steps, log_base)[::x_dir]

        y_min = min(start_kwargs['ycenter'], end_kwargs['ycenter'])
        y_max = max(start_kwargs['ycenter'], end_kwargs['ycenter'])
        if start_kwargs['ycenter'] > end_kwargs['ycenter']:
            y_dir = -1
        else:
            y_dir = 1
        ycenters = self.gen_exponential_space(y_min, y_max, steps, log_base)[::y_dir]

        # print('X', x_min, x_max, x_dir)
        # print(xcenters[0], xcenters[-1], '\n')
        # print('Y', y_min, y_max, y_dir)
        # print(ycenters[0], ycenters[-1], '\n')
        # print('Z', zooms[0], zooms[-1])
        img_cnt = 0
        threads = []
        breakout_lock = Lock()
        def loop_breakout(count, x, y, z, **kw):
            kw['xcenter'] = x
            kw['ycenter'] = y
            kw['zoom_factor'] = z # start['zoom_factor']*(z**log_base)
            # print(x, y, z)
            with breakout_lock:
                raw_png = self.to_png(mode='.gif', **kw)
            img = Image.open(raw_png).convert(mode='L')
            # img.save('ani.%03d.gif' % (count,))
            # raw_png.seek(0)
            return count, img
        for img_cnt, (x, y, z) in enumerate(zip(xcenters, ycenters, zooms)):
            thread = mock_thread(loop_breakout(img_cnt, x, y, z, **kwargs.copy()))
            # thread = gevent.spawn(loop_breakout, img_cnt, x, y, z, **kwargs.copy())
            threads.append(thread)
        if not isinstance(threads[0], mock_thread):
            gevent.joinall(threads)
        buf = BytesIO()
        gifs = tuple(gif for _, gif in sorted(t.value for t in threads))
        try:
            makedelta(buf, gifs)
        except:
            import traceback
            traceback.print_exc()
        buf.seek(0)
        print('took', time() - start_time, 'to animate')
        return buf