Beispiel #1
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def _control():
    shape = [SMALL_Y, SMALL_X, 1]

    control = generators.multires(shape=shape, freq=FREQ, octaves=OCTAVES, refract_range=.5)

    erode_kwargs = {
        "alpha": .025,
        "density": 40,
        "iterations": 20,
        "inverse": True,
    }

    iterations = 5
    for i in range(iterations):
        control = effects.erode(control, shape, **erode_kwargs)
        control = effects.convolve(constants.ValueMask.conv2d_blur, control, shape)

    post_shape = [LARGE_Y, LARGE_X, 1]
    control = effects.resample(control, post_shape)

    iterations = 2
    for i in range(iterations):
        control = effects.erode(control, post_shape, **erode_kwargs)
        control = effects.convolve(constants.ValueMask.conv2d_blur, control, post_shape)

    control = effects.convolve(constants.ValueMask.conv2d_sharpen, control, post_shape)
    control = effects.normalize(control)

    with tf.Session().as_default():
        save(control, CONTROL_FILENAME)
Beispiel #2
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def clouds(input_filename):
    tensor = tf.image.convert_image_dtype(load(input_filename), tf.float32)

    pre_shape = [SMALL_Y, SMALL_X, 1]
    post_shape = [LARGE_Y, LARGE_X, 1]

    control_kwargs = {
        "freq": FREQ * 2,
        "lattice_drift": 1,
        "octaves": OCTAVES,
        "ridges": True,
        "shape": pre_shape,
        "warp_freq": 3,
        "warp_range": .25,
        "warp_octaves": 2,
    }

    control = generators.multires(**control_kwargs)

    layer_0 = tf.ones(pre_shape)
    layer_1 = tf.zeros(pre_shape)

    combined = effects.blend_layers(control, pre_shape, 1.0, layer_0, layer_1)

    shadow = effects.offset(combined, pre_shape, random.randint(-15, 15),
                            random.randint(-15, 15))
    shadow = tf.minimum(shadow * 2.5, 1.0)
    shadow = effects.convolve(effects.ConvKernel.blur, shadow, pre_shape)
    shadow = effects.convolve(effects.ConvKernel.blur, shadow, pre_shape)
    shadow = effects.convolve(effects.ConvKernel.blur, shadow, pre_shape)

    shadow = effects.resample(shadow, post_shape)
    combined = effects.resample(combined, post_shape)

    tensor = effects.blend(tensor, tf.zeros(post_shape), shadow * .5)
    tensor = effects.blend(tensor, tf.ones(post_shape), combined)

    post_shape = [LARGE_Y, LARGE_X, 3]

    tensor = effects.shadow(tensor, post_shape, alpha=.25)

    tensor = effects.bloom(tensor, post_shape, .333)
    tensor = recipes.dither(tensor, post_shape, .075)

    combined = tf.image.adjust_contrast(combined, 1.125)

    with tf.Session().as_default():
        save(tensor, FINAL_FILENAME)
Beispiel #3
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def clouds(tensor, shape, time=0.0, speed=1.0):
    """Top-down cloud cover effect"""

    pre_shape = [int(shape[0] * .25) or 1, int(shape[1] * .25) or 1, 1]

    control_kwargs = {
        "freq": random.randint(2, 4),
        "lattice_drift": 1,
        "octaves": 8,
        "ridges": True,
        "speed": speed,
        "shape": pre_shape,
        "time": time,
        "warp_freq": 3,
        "warp_range": .125,
        "warp_octaves": 2,
        "distrib": ValueDistribution.simplex,
    }

    control = multires(**control_kwargs)

    layer_0 = tf.ones(pre_shape)
    layer_1 = tf.zeros(pre_shape)

    combined = effects.blend_layers(control, pre_shape, 1.0, layer_0, layer_1)

    shadow = effects.offset(combined, pre_shape, random.randint(-15, 15),
                            random.randint(-15, 15))
    shadow = tf.minimum(shadow * 2.5, 1.0)

    for _ in range(3):
        shadow = effects.convolve(ValueMask.conv2d_blur, shadow, pre_shape)

    post_shape = [shape[0], shape[1], 1]

    shadow = effects.resample(shadow, post_shape)
    combined = effects.resample(combined, post_shape)

    tensor = effects.blend(tensor, tf.zeros(shape), shadow * .75)
    tensor = effects.blend(tensor, tf.ones(shape), combined)

    tensor = effects.shadow(tensor, shape, alpha=.5)

    return tensor
Beispiel #4
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def basic(ctx, width, height, input_dir, name, control_filename,
          retro_upscale):
    shape = [height, width,
             3]  # Any shape you want, as long as it's [1024, 1024, 3]

    filenames = []

    for root, _, files in os.walk(input_dir):
        for filename in files:
            if filename.endswith(('.png', '.jpg')):
                filenames.append(os.path.join(root, filename))

    collage_count = min(random.randint(4, 6), len(filenames))
    collage_images = []

    for i in range(collage_count + 1):
        index = random.randint(0, len(filenames) - 1)

        input_filename = os.path.join(input_dir, filenames[index])

        collage_input = tf.image.convert_image_dtype(util.load(input_filename,
                                                               channels=3),
                                                     dtype=tf.float32)

        input_shape = effects.shape_from_file(input_filename)

        if retro_upscale:
            input_shape = [
                input_shape[0] * 2, input_shape[1] * 2, input_shape[2]
            ]

            collage_input = effects.resample(collage_input,
                                             input_shape,
                                             spline_order=0)

        collage_input = effects.square_crop_and_resize(collage_input,
                                                       input_shape, 1024)

        collage_images.append(collage_input)

    base = generators.basic(freq=random.randint(2, 5),
                            shape=shape,
                            lattice_drift=random.randint(0, 1),
                            hue_range=random.random())

    if control_filename:
        control = tf.image.convert_image_dtype(util.load(control_filename,
                                                         channels=1),
                                               dtype=tf.float32)

        control = effects.square_crop_and_resize(
            control, effects.shape_from_file(control_filename), 1024)

        control = effects.value_map(control, shape, keep_dims=True)

    else:
        control = effects.value_map(collage_images.pop(),
                                    shape,
                                    keep_dims=True)

    control = effects.convolve(effects.ValueMask.conv2d_blur, control,
                               [height, width, 1])

    with tf.Session().as_default():
        # sort collage images by brightness
        collage_images = [
            j[1] for j in sorted([(tf.reduce_sum(i).eval(), i)
                                  for i in collage_images])
        ]

        tensor = effects.blend_layers(control, shape,
                                      random.random() * .5, *collage_images)

        tensor = effects.blend(tensor, base, .125 + random.random() * .125)

        tensor = effects.bloom(tensor,
                               shape,
                               alpha=.25 + random.random() * .125)
        tensor = effects.shadow(tensor,
                                shape,
                                alpha=.25 + random.random() * .125,
                                reference=control)

        tensor = tf.image.adjust_brightness(tensor, .05)
        tensor = tf.image.adjust_contrast(tensor, 1.25)

        save(tensor, name)

    print('mashup')
Beispiel #5
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def frame(ctx, input_dir, frame, seed, name):
    generators.set_seed(seed)

    shape = [512, 512, 3]

    dirnames = [
        d for d in os.listdir(input_dir)
        if os.path.isdir(os.path.join(input_dir, d))
    ]

    if not dirnames:
        click.echo("Couldn't determine directory names inside of input dir " +
                   input_dir)
        sys.exit(1)

    collage_count = min(random.randint(4, 6), len(dirnames))
    collage_images = []

    for i in range(collage_count + 1):
        index = random.randint(0, len(dirnames) - 1)

        dirname = dirnames[index]

        filenames = [
            f for f in sorted(
                os.listdir(os.path.join(input_dir, dirnames[index])))
            if f.endswith('.png')
        ]

        if not filenames:
            continue

        input_filename = os.path.join(input_dir, dirnames[index],
                                      filenames[frame])

        collage_images.append(
            tf.image.convert_image_dtype(util.load(input_filename, channels=3),
                                         dtype=tf.float32))

    base = generators.basic(freq=random.randint(2, 4),
                            shape=shape,
                            hue_range=random.random(),
                            time=frame / 30.0,
                            speed=0.125,
                            distrib="simplex")

    control = effects.value_map(collage_images.pop(), shape, keep_dims=True)

    control = effects.convolve(effects.ValueMask.conv2d_blur, control,
                               [512, 512, 1])

    with tf.Session().as_default():
        tensor = effects.blend_layers(control, shape,
                                      random.random() * .5, *collage_images)

        tensor = effects.blend(tensor, base, .125 + random.random() * .125)

        tensor = effects.bloom(tensor,
                               shape,
                               alpha=.25 + random.random() * .125)
        tensor = effects.shadow(tensor,
                                shape,
                                alpha=.25 + random.random() * .125,
                                reference=control)

        tensor = tf.image.adjust_brightness(tensor, .05)
        tensor = tf.image.adjust_contrast(tensor, 1.25)

        util.save(tensor, name)