def caches(inImg, inNameLayerFleche, inNameLayerFond):
    path_cadenas = GRAPH_PATH + "images/cadenas.png"
    imagecadenas = pdb.gimp_file_load(path_cadenas, path_cadenas)
    layercadenas = pdb.gimp_image_get_active_layer(imagecadenas)

    pdb.gimp_selection_all(imagecadenas)
    pdb.gimp_edit_copy(layercadenas)
    pdb.gimp_image_delete(imagecadenas)

    layerfond = pdb.gimp_image_get_layer_by_name(inImg, inNameLayerFond)
    layerfleche = pdb.gimp_image_get_layer_by_name(inImg, inNameLayerFleche)
    _, alayers = pdb.gimp_image_get_layers(inImg)

    for layercurrent in alayers:
        pdb.gimp_selection_none(inImg)
        layercurrent = gimp.Item.from_id(layercurrent)
        pdb.script_fu_add_bevel(inImg, layercurrent, 5, 0, 0)

        pdb.gimp_item_set_visible(layercurrent, False)
        layername = pdb.gimp_item_get_name(layercurrent)
        if not (layername == inNameLayerFleche
                or layername == inNameLayerFond):
            cree_background(layercurrent, layerfond, inImg)

    cache = pdb.gimp_image_merge_visible_layers(inImg, CLIP_TO_IMAGE)
    pdb.script_fu_add_bevel(inImg, cache, 5, 0, 0)
    pdb.gimp_item_set_name(cache, "cache.png")

    pdb.gimp_image_lower_item_to_bottom(inImg, layerfleche)
    pdb.gimp_image_lower_item_to_bottom(inImg, cache)
    pdb.gimp_image_lower_item_to_bottom(inImg, layerfond)
Exemple #2
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def pythonSaveToClean(image):

    # Prep
    pdb.gimp_image_undo_group_start(image)
    pdb.gimp_context_push()

    # Code
    filename_old = pdb.gimp_image_get_filename(image)
    filename = filename_old.replace("_CLEAN", "")
    # drawable = pdb.gimp_image_get_active_drawable(image)
    path = os.path.dirname(filename)
    path += "_CLEAN"
    name = os.path.basename(filename)
    out_file = os.path.join(path, name)

    # Create CLEAN folder
    if not os.path.exists(path):
        os.makedirs(path)

    # Merge visible layers in new image and export in CLEAN folder
    new_image = pdb.gimp_image_duplicate(image)
    layer = pdb.gimp_image_merge_visible_layers(new_image, CLIP_TO_IMAGE)
    pdb.gimp_file_save(new_image, layer, out_file, out_file)
    pdb.gimp_image_delete(new_image)
    pdb.gimp_image_clean_all(image)

    # Finish
    pdb.gimp_context_pop()
    pdb.gimp_image_undo_group_end(image)
    pdb.gimp_displays_flush()
def pythonSaveToEditJpeg(image):

    # Prep
    pdb.gimp_image_undo_group_start(image)
    pdb.gimp_context_push()

    # Code
    # drawable = pdb.gimp_image_get_active_drawable(image)
    filename = pdb.gimp_image_get_filename(image)
    temp = filename.replace("_CLEAN", "")
    temp2 = temp.replace("_EDIT", "")
    filename = temp2.replace("_XCF", "")
    path = os.path.dirname(filename)
    path += "_EDIT"
    name = os.path.basename(filename)
    out_file = os.path.join(path, name)
    out_file = os.path.splitext(out_file)[0] + '.jpg'

    # Create _EDIT folder
    if not os.path.exists(path):
        os.makedirs(path)

    # Merge visible layers in new image and export in JPEG
    new_image = pdb.gimp_image_duplicate(image)
    layer = pdb.gimp_image_merge_visible_layers(new_image, CLIP_TO_IMAGE)
    pdb.gimp_file_save(new_image, layer, out_file, out_file)
    pdb.gimp_image_delete(new_image)
    pdb.gimp_image_clean_all(image)

    # Finish
    pdb.gimp_context_pop()
    pdb.gimp_image_undo_group_end(image)
    pdb.gimp_displays_flush()
Exemple #4
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def effet_texte(inColor, inImg):
    layer = pdb.gimp_image_get_active_layer(inImg)
    
    pdb.gimp_context_set_sample_transparent(True)
    pdb.gimp_image_select_contiguous_color(inImg, CHANNEL_OP_REPLACE, layer, 1, 1)
    pdb.gimp_selection_invert(inImg)

    _, x, _, x2, y2  = pdb.gimp_selection_bounds(inImg)
    xmiddle = x + (x2 - x) // 2
    y = y2 - 1
        
    keep = True
    while keep:
        if y < 0:
            print("Error in effet_texte for img {} : y < 0 !".format(inImg))
            return
        if (not _is_transparent(inImg, layer, xmiddle, y)) and  _is_black(inImg, layer, xmiddle, y):
            keep = False
            pdb.gimp_context_set_sample_transparent(False)
            pdb.gimp_image_select_contiguous_color(inImg, CHANNEL_OP_REPLACE, layer, xmiddle, y)
            pdb.gimp_edit_clear(layer)
                
        y -= 1

    _, x1, y1, x2, y2  = pdb.gimp_selection_bounds(inImg)
    newlayer = pdb.gimp_layer_copy(layer, True)

    pdb.gimp_image_select_rectangle(inImg, CHANNEL_OP_REPLACE, x1, y1, x2-x1, y2-y1)
    pdb.gimp_context_set_sample_transparent(True)
    pdb.gimp_image_select_contiguous_color(inImg, CHANNEL_OP_SUBTRACT, layer, x1, y1)
    pdb.gimp_edit_clear(layer)
    
    pdb.gimp_selection_invert(inImg)
    pdb.gimp_image_insert_layer(inImg, newlayer, None, 0)
    pdb.gimp_edit_clear(newlayer)
    
    pdb.script_fu_layerfx_outer_glow(inImg, newlayer, inColor, 75, 0, 0, 0, 0, 5, 0, 1)
    pdb.gimp_image_merge_visible_layers(inImg, CLIP_TO_IMAGE)
    
    pdb.gimp_selection_none(inImg)
    pdb.gimp_displays_flush()
Exemple #5
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def merge_layer(img, layer_1, layer_2):
    """ merge layers """
    # keep current state
    layer_state = []
    for layer in img.layers:
        if layer != layer_1 and layer != layer_2:
            layer_state.append((layer, layer.visible))

    # set layer_1 and layer_2 visible
    for layer in img.layers:
        layer.visible = False
    layer_1.visible = True
    layer_2.visible = True

    # merge
    new_layer = pdb.gimp_image_merge_visible_layers(img, 0)

    # set old state
    for layer in layer_state:
        layer[0].visible = layer[1]

    return new_layer
def createTechIcons(timg, tdrawable,file,folder, outFolder,scaleTo):
  for fileName in os.listdir(folder):
    # backGroundImage=pdb.gimp_file_load(file, file)
    # backGroundLayer=backGroundImage.layers[0]
    if fileName[-4:]!=".dds":
      continue
    outFile=outFolder+"/"+"tech_"+fileName
    image=pdb.gimp_file_load(folder+"/"+fileName, folder+"/"+fileName)
    pdb.gimp_image_scale(image,scaleTo,scaleTo)
    pdb.gimp_image_resize(image,52,52,-1,-1)
    for layer in image.layers:
      pdb.gimp_layer_resize_to_image_size(layer)
    # layer_group = pdb.gimp_layer_group_new(image)
    layer_group=pdb.gimp_item_get_parent(image.layers[0])
    layer=pdb.gimp_file_load_layer(image, file)
    pdb.gimp_image_insert_layer(image,layer,layer_group,1)#(image, layer, parent, position)
    for layer in image.layers:
      pdb.gimp_item_set_visible(layer,True)
    layer = pdb.gimp_image_merge_visible_layers(image, 0)
    pdb.gimp_image_set_active_layer(image, layer)
    drawable = pdb.gimp_image_get_active_layer(image)
    # with open("E:/out.txt",'w') as outTxt:
    #   outTxt.write(outFile)
    pdb.file_dds_save(image, drawable, outFile,outFile,0,0,0,0,0,0,0)
Exemple #7
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from gimpfu import pdb

filename = "hall_of_fame_large.xcf"
image = pdb.gimp_file_load(filename, filename)
pdb.gimp_image_scale(image, 1280, 800)
outfilename = "hall_of_fame.png"
layer = pdb.gimp_image_merge_visible_layers(image, 1)
pdb.gimp_file_save(image, layer, outfilename, outfilename)
Exemple #8
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def make_captcha(sx, sy, font_height, letter_spacing, left_margin, angle_range,
                 fonts, answer):
    """Generate a captcha consisting of the letters in answer.

    :rtype: :class:`gimp.Image`
    :returns: The CAPTCHA as a gimp-python image object.
    """
    img = gimp.Image(sx, sy, RGB_IMAGE)
    img.disable_undo()

    light_noise_layer = gimp.Layer(img, 'light noise', sx, sy, RGB_IMAGE, 100,
                                   NORMAL_MODE)
    img.add_layer(light_noise_layer, 0)

    gpdb.gimp_selection_none(img)
    gpdb.gimp_drawable_fill(light_noise_layer, WHITE_FILL)

    # plug_in_randomize_hurl at 1% 1 time is vastly superior to
    # scatter_rgb here, but has a bug where it creates an artifact at
    # the top of the image when invoked in a scripting context like
    # this.
    #
    # Future experiment: dial down the amount of noise generated by
    # scatter, then run it through levels to darken it, then
    # blur. This should be equivalent to hurl + blur.
    #gpdb.plug_in_randomize_hurl(img, light_noise_layer, 1, 1, 0, 0)
    gpdb.plug_in_scatter_hsv(img, light_noise_layer, 1, 25, 200, 180)
    gpdb.plug_in_gauss_iir(img, light_noise_layer, 1, 1, 1)
    gpdb.gimp_desaturate(light_noise_layer)

    # Next make pure black layer which we will copy repeatedly as a
    # place to cut out letters.
    blackLayer = gimp.Layer(img, 'black', sx, sy, RGB_IMAGE, 100, NORMAL_MODE)
    img.add_layer(blackLayer, 0)
    blackLayer.add_alpha()
    gpdb.gimp_layer_add_alpha(blackLayer)
    gpdb.gimp_drawable_fill(blackLayer, WHITE_FILL)
    gpdb.gimp_invert(blackLayer)

    # Loop through each letter, making it a separate black layer.
    right = left_margin
    last_substrate = None
    for letter in answer:
        font = random.choice(FONTS)
        substrate = blackLayer.copy()
        img.add_layer(substrate, 0)
        new_right = cookie_cutter_letter(img, substrate, right, font, letter)
        # look out for really narrow letters
        if new_right - right < 20:
            new_right += 5
        right = new_right
    img.remove_layer(blackLayer)

    # Hide the light noise layer, then collapse all the remaining
    # layers (all letters) into a single layer.
    light_noise_layer.visible = False
    textLayer = gpdb.gimp_image_merge_visible_layers(img, CLIP_TO_IMAGE)
    light_noise_layer.visible = True

    # Create a layer of dark noise which will display the letters.
    dark_noise_layer = gimp.Layer(img, 'dark noise', sx, sy, RGB_IMAGE, 100,
                                  MULTIPLY_MODE)
    img.add_layer(dark_noise_layer, 1)
    gpdb.gimp_drawable_fill(dark_noise_layer, WHITE_FILL)
    gpdb.plug_in_randomize_hurl(img, dark_noise_layer, 25, 1, 0, 0)
    gpdb.gimp_desaturate(dark_noise_layer)

    # These next operations are ordered carefully. Changing the order
    # dramatically affects how the output looks.

    # Here's where we do the cutout operation.
    gpdb.gimp_selection_layer_alpha(textLayer)
    gpdb.gimp_selection_invert(img)
    gpdb.gimp_edit_clear(dark_noise_layer)
    gpdb.gimp_selection_none(img)

    # After the cutout, blur the dark noise layer and then darken it:
    gpdb.plug_in_gauss_iir(img, dark_noise_layer, 1, 1, 1)
    gpdb.gimp_levels(dark_noise_layer, HISTOGRAM_VALUE, 127, 255, 0.25, 0, 255)
    textLayer.visible = False

    # If you start gimp without --no-interface with an X server, this
    # line will let you see the image looks like at this point in the
    # script, layers and all. It should be fine to move this line to
    # any problematic part of the script for debugging.
    #
    # gimp.Display(gpdb.gimp_image_duplicate(img))

    final = img.flatten()
    gpdb.gimp_image_clean_all(img)
    img.enable_undo()
    return img, final
def cutter_single_image(
        image, drawable,
        limit, sl_thresh, sz_thresh,
        bg_manual, bg_color, bg_corner, bg_x, bg_y,
        padding, deskew, sq_crop, autoclose,
        save_same, save_dir, save_ftype, save_dpi, jpg_qual, save_suffix
    ):
    img_width = pdb.gimp_image_width(image)
    img_height = pdb.gimp_image_height(image)
    img_fullpath = pdb.gimp_image_get_filename(image)
    img_filename = os.path.basename(img_fullpath)
    img_name = '.'.join(img_filename.split('.')[:-1])
    img_ext = save_ftype or img_filename.split('.')[-1].lower()
    new_filename_tpl = ''.join([
        img_name, '-', save_suffix, '-',
        '%0', str(len(str(int(limit + 1)))), 'd',
        '.', img_ext
    ])
    new_fullpath_tpl = os.path.join(
        os.path.dirname(img_fullpath) if save_same else save_dir,
        new_filename_tpl
    )

    # gimp.message(new_fullpath_tpl)

    # function code goes here...
    gimp.context_push()
    pdb.gimp_image_undo_disable(image)

    # If the background wasn't manually defined, pick the colour from one of the four corners
    # (using radius 5 average)
    if not bg_manual:
        if bg_corner in (1, 3):
            bg_x = img_width - bg_x
        if bg_corner in (2, 3):
            bg_y = img_height - bg_y

        bg_color = pdb.gimp_image_pick_color(image, drawable, bg_x, bg_y, True, True, 5)

    pdb.gimp_context_set_defaults()
    pdb.gimp_context_set_antialias(True)
    pdb.gimp_context_set_sample_transparent(True)
    pdb.gimp_context_set_sample_threshold_int(sl_thresh)
    pdb.gimp_context_set_feather(True)
    fr = min(img_width, img_height) / 100.0     # NOTE why???
    pdb.gimp_context_set_feather_radius(fr, fr)
    pdb.gimp_context_set_background(bg_color)

    pdb.gimp_image_select_color(image, gimpfu.CHANNEL_OP_REPLACE, drawable, bg_color)

    # convert inverted copy of the background selection to a path
    pdb.gimp_selection_sharpen(image)
    pdb.gimp_selection_invert(image)

    # _, before = pdb.gimp_image_get_vectors(image)
    pdb.plug_in_sel2path(image, drawable)
    # _, after = pdb.gimp_image_get_vectors(image)
    # newpath_id = list(set(after) - set(before))[0]
    # newpath = gimp.Vectors.from_id(newpath_id)

    # looks like newly created vector is always active, so this should be sufficent
    newpath = pdb.gimp_image_get_active_vectors(image)

    pdb.gimp_context_set_feather(False)

    _, strokes = pdb.gimp_vectors_get_strokes(newpath)
    extracted = 0
    for stroke_id in strokes:
        stroke_points = pdb.gimp_vectors_stroke_get_points(newpath, stroke_id)
        # skip not closed paths
        if not stroke_points[3]:
            continue

        temp_vector = pdb.gimp_vectors_new(image, '-temp-')
        pdb.gimp_image_insert_vectors(image, temp_vector, None, -1)

        pdb.gimp_vectors_stroke_new_from_points(temp_vector, *stroke_points)
        pdb.gimp_image_select_item(image, gimpfu.CHANNEL_OP_REPLACE, temp_vector)
        pdb.gimp_image_remove_vectors(image, temp_vector)

        # check for minimum size
        bounds = pdb.gimp_selection_bounds(image)
        sizex = bounds[3] - bounds[1]
        sizey = bounds[4] - bounds[2]

        if (min(sizex, sizey) < sz_thresh or
                sizex >= img_width or
                sizey >= img_height):
            continue

        buffname = "dsibuff"
        if deskew and pdb.gimp_procedural_db_proc_exists('gimp_deskew_plugin'):
            pdb.gimp_progress_set_text('Running deskew plugin...')
            pdb.gimp_image_select_rectangle(
                image, gimpfu.CHANNEL_OP_REPLACE,
                bounds[1], bounds[2], sizex, sizey
            )
            buffname = pdb.gimp_edit_named_copy(drawable, buffname)
            temp_image = pdb.gimp_edit_named_paste_as_new(buffname)
            temp_layer = pdb.gimp_image_get_active_layer(temp_image)
            pdb.gimp_image_undo_disable(temp_image)

            pdb.gimp_layer_flatten(temp_layer)

            # RUN_NONINTERACTIVE causes 'calling error' exception
            pdb.gimp_deskew_plugin(temp_image, temp_layer, 0, 0, 0, 0, True,
                                   run_mode=gimpfu.RUN_INTERACTIVE)

            pdb.gimp_image_resize_to_layers(temp_image)
            pdb.gimp_layer_flatten(temp_layer)

            pdb.gimp_image_select_contiguous_color(
                temp_image, gimpfu.CHANNEL_OP_REPLACE, temp_layer, 0, 0
            )
            pdb.gimp_selection_invert(temp_image)
            bounds = pdb.gimp_selection_bounds(temp_image)
            sizex = bounds[3] - bounds[1]
            sizey = bounds[4] - bounds[2]
            pdb.gimp_selection_none(temp_image)
            pdb.gimp_image_crop(temp_image, sizex, sizey, bounds[1], bounds[2])

            if (sq_crop and sizex != sizey
                    and pdb.gimp_procedural_db_proc_exists('script_fu_addborder')):
                if sizex > sizey:
                    dx = 0
                    dy = (sizex - sizey) * 0.5
                else:
                    dx = (sizey - sizex) * 0.5
                    dy = 0

                pdb.script_fu_addborder(temp_image, temp_layer, dx, dy, bg_color, 0)
                pdb.gimp_image_raise_item_to_top(temp_image, temp_layer)
                pdb.gimp_image_merge_visible_layers(temp_image, gimpfu.EXPAND_AS_NECESSARY)
                temp_layer = pdb.gimp_image_get_active_layer(temp_image)
        else:
            temp_image = image
            pdb.gimp_image_undo_disable(temp_image)
            temp_layer = pdb.gimp_image_get_active_layer(temp_image)

            if sq_crop:
                c_x = 0.5 * (bounds[1] + bounds[3])
                c_y = 0.5 * (bounds[2] + bounds[4])
                hl = padding + max(sizex, sizey) * 0.5
                sel_x = c_x - hl
                sel_y = c_y - hl
                sel_w = sel_h = 2 * hl
            else:
                sel_x = bounds[1]
                sel_y = bounds[2]
                sel_w = sizex
                sel_h = sizey

            pdb.gimp_image_select_rectangle(
                temp_image, gimpfu.CHANNEL_OP_REPLACE,
                sel_x, sel_y, sel_w, sel_h
            )
            buffname = pdb.gimp_edit_named_copy(drawable, buffname)
            temp_image = pdb.gimp_edit_named_paste_as_new(buffname)
            temp_layer = pdb.gimp_image_get_active_layer(temp_image)

        if padding and pdb.gimp_procedural_db_proc_exists('script_fu_addborder'):
            pdb.script_fu_addborder(temp_image, temp_layer, padding, padding, bg_color, 0)
            pdb.gimp_image_merge_visible_layers(temp_image, gimpfu.EXPAND_AS_NECESSARY)
            temp_layer = pdb.gimp_image_get_active_layer(temp_image)

        pdb.gimp_image_undo_enable(temp_image)
        temp_display = pdb.gimp_display_new(temp_image)

        extracted += 1

        filename = new_fullpath_tpl % (extracted, )
        pdb.gimp_image_set_resolution(temp_image, save_dpi, save_dpi)
        if img_ext == 'jpg':
            pdb.file_jpeg_save(
                temp_image, temp_layer, filename, filename,
                jpg_qual, 0.1, 1, 1, '', 2, 0, 0, 1
            )
        else:
            pdb.gimp_file_save(temp_image, temp_layer, filename, filename)

        if autoclose:
            pdb.gimp_display_delete(temp_display)

        if extracted >= limit:
            break

    pdb.gimp_progress_set_text('Extracted %d images' % (extracted, ))

    pdb.gimp_image_remove_vectors(image, newpath)
    pdb.gimp_selection_none(image)

    pdb.gimp_image_undo_enable(image)
    pdb.gimp_progress_end()
    pdb.gimp_displays_flush()
    gimp.context_pop()

    return extracted
Exemple #10
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def make_captcha(sx, sy, font_height, letter_spacing, left_margin,
                 angle_range, fonts, answer):
    """Generate a captcha consisting of the letters in answer.

    :rtype: :class:`gimp.Image`
    :returns: The CAPTCHA as a gimp-python image object.
    """
    img = gimp.Image(sx, sy, RGB_IMAGE)
    img.disable_undo()

    light_noise_layer = gimp.Layer(img, 'light noise', sx, sy,
                                   RGB_IMAGE, 100, NORMAL_MODE)
    img.add_layer(light_noise_layer, 0)

    gpdb.gimp_selection_none(img)
    gpdb.gimp_drawable_fill(light_noise_layer, WHITE_FILL)

    # plug_in_randomize_hurl at 1% 1 time is vastly superior to
    # scatter_rgb here, but has a bug where it creates an artifact at
    # the top of the image when invoked in a scripting context like
    # this.
    #
    # Future experiment: dial down the amount of noise generated by
    # scatter, then run it through levels to darken it, then
    # blur. This should be equivalent to hurl + blur.
    #gpdb.plug_in_randomize_hurl(img, light_noise_layer, 1, 1, 0, 0)
    gpdb.plug_in_scatter_hsv(img, light_noise_layer, 1, 25, 200, 180)
    gpdb.plug_in_gauss_iir(img, light_noise_layer, 1, 1, 1)
    gpdb.gimp_desaturate(light_noise_layer)

    # Next make pure black layer which we will copy repeatedly as a
    # place to cut out letters.
    blackLayer = gimp.Layer(img, 'black', sx, sy, RGB_IMAGE, 100, NORMAL_MODE)
    img.add_layer(blackLayer, 0)
    blackLayer.add_alpha()
    gpdb.gimp_layer_add_alpha(blackLayer)
    gpdb.gimp_drawable_fill(blackLayer, WHITE_FILL)
    gpdb.gimp_invert(blackLayer)

    # Loop through each letter, making it a separate black layer.
    right = left_margin
    last_substrate = None
    for letter in answer:
        font = random.choice(FONTS)
        substrate = blackLayer.copy()
        img.add_layer(substrate, 0)
        new_right = cookie_cutter_letter(img, substrate, right, font, letter)
        # look out for really narrow letters
        if new_right - right < 20:
            new_right += 5
        right = new_right
    img.remove_layer(blackLayer)

    # Hide the light noise layer, then collapse all the remaining
    # layers (all letters) into a single layer.
    light_noise_layer.visible = False
    textLayer = gpdb.gimp_image_merge_visible_layers(img, CLIP_TO_IMAGE)
    light_noise_layer.visible = True

    # Create a layer of dark noise which will display the letters.
    dark_noise_layer = gimp.Layer(img, 'dark noise', sx, sy,
                                  RGB_IMAGE, 100, MULTIPLY_MODE)
    img.add_layer(dark_noise_layer, 1)
    gpdb.gimp_drawable_fill(dark_noise_layer, WHITE_FILL)
    gpdb.plug_in_randomize_hurl(img, dark_noise_layer, 25, 1, 0, 0)
    gpdb.gimp_desaturate(dark_noise_layer)

    # These next operations are ordered carefully. Changing the order
    # dramatically affects how the output looks.

    # Here's where we do the cutout operation.
    gpdb.gimp_selection_layer_alpha(textLayer)
    gpdb.gimp_selection_invert(img)
    gpdb.gimp_edit_clear(dark_noise_layer)
    gpdb.gimp_selection_none(img)

    # After the cutout, blur the dark noise layer and then darken it:
    gpdb.plug_in_gauss_iir(img, dark_noise_layer, 1, 1, 1)
    gpdb.gimp_levels(dark_noise_layer, HISTOGRAM_VALUE, 127, 255, 0.25, 0, 255)
    textLayer.visible = False

    # If you start gimp without --no-interface with an X server, this
    # line will let you see the image looks like at this point in the
    # script, layers and all. It should be fine to move this line to
    # any problematic part of the script for debugging.
    #
    # gimp.Display(gpdb.gimp_image_duplicate(img))

    final = img.flatten()
    gpdb.gimp_image_clean_all(img)
    img.enable_undo()
    return img, final
Exemple #11
0
def layerToDDS(timg, tdrawable, file, argumentFile, outFolder, byName,
               scaleBool, scaleTo):  #, argumentFile,hmm,blub):
    # num_layers, layer_ids = pdb.gimp_image_get_layers(image)
    # with open("E:/out.txt",'w') as outTxt:
    # outTxt.write(str(os.getcwd()))
    outFolder = os.path.dirname(file) + "/" + outFolder
    if not os.path.exists(outFolder):
        os.makedirs(outFolder)
    if argumentFile.lower() == "all":
        image = pdb.gimp_file_load(file, file)
        fileContent = []
        for layer in image.layers:
            layername = pdb.gimp_item_get_name(layer)
            fileContent.append(layername + " " + layername)
            byName = True
    else:
        with open(argumentFile, 'r') as argfile:
            fileContent = [line for line in argfile]
    for l in fileContent:
        image = pdb.gimp_file_load(file, file)
        if scaleBool:
            if scaleTo:
                pdb.gimp_image_resize(image, 52, 52, -26, -26)
            else:
                pdb.gimp_image_scale(image, 52, 52)
        line = shlex.split(l)
        outFile = outFolder + "/" + line[0]
        if outFile[-4:] != ".dds":
            outFile += ".dds"
        for layer in image.layers:
            #   layer = pdb.gimp_image_get_layer_by_name(image, id)
            pdb.gimp_item_set_visible(layer, False)
        layers = []
        for i, word in enumerate(line[1:]):
            if byName:
                if word[:4] == "MOVE":
                    word2 = word[5:]
                    layer = pdb.gimp_image_get_layer_by_name(image, word2)
                    # pdb.gimp_item_set_visible(layer,True)
                    pdb.gimp_layer_scale(layer, 40, 40, False)
                    pdb.gimp_image_set_active_layer(image, layer)
                    drawable = pdb.gimp_image_get_active_layer(image)
                    if word[4] == "L":
                        pdb.script_fu_move_layer_to(image, drawable, -2.5, 5)
                    elif word[4] == "R":
                        pdb.script_fu_move_layer_to(image, drawable, 17.5, 5)
                    line[1 + i] = line[1 + i][5:]
                    # pdb.gimp_item_set_visible(layer,False)

        for word in line[1:]:
            #outTxt.write(word+"\n")
            #layers.append(pdb.gimp_layer_copy(image.layers[int(word)],False))
            #pdb.gimp_image_insert_layer(image, layer,image.layers[int(word)], 0)
            try:
                if byName:
                    pdb.gimp_item_set_visible(
                        pdb.gimp_image_get_layer_by_name(image, word), True)
                else:
                    pdb.gimp_item_set_visible(image.layers[int(word)], True)
            except:
                pdb.gimp_message("Error parsing line " + " ".join(line) +
                                 ". Probably a missing/invalid item")
                raise
        if scaleBool and scaleTo:
            for word in line[2:]:
                if byName:
                    layer = pdb.gimp_image_get_layer_by_name(image, word)
                else:
                    layer = image.layers[int(word)]
                pdb.gimp_layer_scale(layer, scaleTo, scaleTo, False)
                pdb.gimp_layer_resize(layer, 52, 52, -1, -1)

        # for layer in layers:
        #   outTxt.write("{!s}".format(layer))
        #   pdb.gimp_item_set_visible(layer, True)
        #pdb.gimp_item_set_visible(image.layers[3], True)
        #pdb.gimp_item_set_visible(image.layers[5], True)
        layer = pdb.gimp_image_merge_visible_layers(image, 0)
        pdb.gimp_image_set_active_layer(image, layer)
        drawable = pdb.gimp_image_get_active_layer(image)
        for layerIt in image.layers:
            if layerIt != layer or not scaleTo:
                pdb.gimp_layer_resize_to_image_size(layerIt)
        try:
            pdb.file_dds_save(image, drawable, outFile, outFile, 0, 0, 0, 0, 0,
                              0, 0)
        except:
            pdb.file_dds_save(image, drawable, outFile, outFile, 0, 0, 0, 0, 0,
                              0, 0, 0, 0, 0, 0, 0, 0)