#!/usr/bin/env python
# -*- coding: utf-8 -*-
# GIMP Layer Effects
# Copyright (c) 2008 Jonathan Stipe
# JonStipe@prodigy.net
# ---------------------------------------------------------------------
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# You should have received a copy of the GNU General Public License
# along with this program. If not, see .
import gimp, gimpplugin, math, re
from gimpenums import *
pdb = gimp.pdb
import gtk, gimpui, gimpcolor, gobject
from gimpshelf import shelf
class layerfx_base(object):
mode_list = (NORMAL_MODE, DISSOLVE_MODE, MULTIPLY_MODE, DIVIDE_MODE, SCREEN_MODE, OVERLAY_MODE, DODGE_MODE, BURN_MODE, HARDLIGHT_MODE, SOFTLIGHT_MODE, GRAIN_EXTRACT_MODE, GRAIN_MERGE_MODE, DIFFERENCE_MODE, ADDITION_MODE, SUBTRACT_MODE, DARKEN_ONLY_MODE, LIGHTEN_ONLY_MODE, HUE_MODE, SATURATION_MODE, COLOR_MODE, VALUE_MODE)
previewLayer = None
hiddenLayer = None
def cond(self, b, t = 1, f = 0):
if b == True:
return t
else:
return f
def get_layer_pos(self, layer):
for i, v in enumerate(self.img.layers):
if layer == v:
return i
return -1
def add_under_layer(self, newlayer, oldlayer):
img = pdb.gimp_item_get_image(oldlayer)
if pdb.gimp_item_get_parent(oldlayer) == None:
pdb.gimp_image_insert_layer(img, newlayer, pdb.gimp_item_get_parent(oldlayer), pdb.gimp_image_get_item_position(img, oldlayer) + 1)
else:
self.img.add_layer(newlayer, self.get_layer_pos(oldlayer) + 1)
def add_over_layer(self, newlayer, oldlayer):
img = pdb.gimp_item_get_image(oldlayer)
if pdb.gimp_item_get_parent(oldlayer) == None:
pdb.gimp_image_insert_layer(img, newlayer, pdb.gimp_item_get_parent(oldlayer), pdb.gimp_image_get_item_position(img, oldlayer))
else:
self.img.add_layer(newlayer, self.get_layer_pos(oldlayer))
def group_layers(self, name, *layers):
img = pdb.gimp_item_get_image(layers[0])
lg = pdb.gimp_layer_group_new(img)
self.add_over_layer(lg, layers[0])
pdb.gimp_image_reorder_item(img, lg, pdb.gimp_item_get_parent(layers[0]), pdb.gimp_image_get_item_position(img, layers[0]))
pdb.gimp_item_set_name(lg, name)
for i, l in enumerate(layers):
pdb.gimp_image_reorder_item(img, l, lg, i)
def layer_exists(self, layer):
return layer != None and layer in self.img.layers
def set_hidden_layer(self, layer):
if self.hiddenLayer == None:
self.hiddenLayer = layer
elif type(self.hiddenLayer) == gimp.Layer and self.hiddenLayer != layer:
self.hiddenLayer = [self.hiddenLayer, layer]
elif type(self.hiddenLayer) == list and layer not in self.hiddenLayer:
self.hiddenLayer.append(layer)
layer.visible = 0
def unset_hidden_layer(self):
if self.hiddenLayer != None:
if type(self.hiddenLayer) == gimp.Layer and self.layer_exists(self.hiddenLayer):
self.hiddenLayer.visible = 1
elif type(self.hiddenLayer) == list:
for i in self.hiddenLayer:
if self.layer_exists(i):
i.visible = 1
self.hiddenLayer = None
def draw_blurshape(self, drawable, size, initgrowth, sel, invert):
k = initgrowth
currshade = 0
for i in range(size):
if k > 0:
pdb.gimp_selection_grow(drawable.image, k)
elif k < 0:
pdb.gimp_selection_shrink(drawable.image, abs(k))
if invert:
currshade = int(round((float(size - (i + 1)) / float(size)) * 255))
else:
currshade = int(round((float(i + 1) / float(size)) * 255))
gimp.set_foreground(currshade, currshade, currshade)
if pdb.gimp_selection_is_empty(drawable.image) == 0:
pdb.gimp_edit_fill(drawable, FOREGROUND_FILL)
pdb.gimp_selection_load(sel)
k -= 1
def apply_contour(self, drawable, channel, contour):
contourtypes = (0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1)
contours = ((0, 0, 127, 255, 255, 0),
(0, 255, 127, 0, 255, 255),
(0, 64, 94, 74, 150, 115, 179, 179, 191, 255),
(0, 0, 5, 125, 6, 125, 48, 148, 79, 179, 107, 217, 130, 255),
(0, 0, 33, 8, 64, 38, 97, 102, 128, 166, 158, 209, 191, 235, 222, 247, 255, 255),
(0, 0, 28, 71, 87, 166, 194, 240, 255, 255),
(0, 0, 33, 110, 64, 237, 97, 240, 128, 138, 158, 33, 191, 5, 222, 99, 255, 255),
(0, 0, 33, 74, 64, 219, 97, 186, 128, 0, 158, 176, 191, 201, 222, 3, 255, 255),
(3, 255, 54, 99, 97, 107, 179, 153, 252, 0),
(0, 5, 9, 13, 16, 19, 22, 25, 27, 29, 30, 32, 33, 34, 35, 36, 38, 39, 40, 41, 43, 44, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 55, 56, 56, 57, 57, 58, 58, 59, 59, 59, 60, 60, 60, 61, 61, 61, 61, 62, 62, 62, 62, 62, 63, 63, 63, 63, 63, 63, 64, 64, 64, 64, 64, 71, 75, 78, 81, 84, 86, 89, 91, 93, 95, 96, 98, 99, 101, 102, 103, 104, 105, 107, 107, 108, 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, 119, 120, 121, 121, 122, 123, 123, 123, 124, 124, 124, 125, 125, 125, 125, 125, 125, 125, 126, 126, 126, 126, 126, 126, 126, 125, 125, 125, 125, 125, 125, 125, 125, 130, 134, 137, 141, 145, 148, 151, 153, 156, 158, 160, 162, 163, 165, 166, 167, 168, 170, 171, 171, 172, 173, 174, 175, 176, 177, 178, 178, 179, 180, 181, 181, 182, 183, 183, 184, 184, 185, 185, 186, 186, 187, 187, 188, 188, 189, 189, 189, 189, 190, 190, 190, 190, 191, 191, 191, 191, 191, 191, 191, 191, 191, 191, 193, 194, 196, 197, 198, 200, 201, 203, 204, 205, 207, 208, 209, 211, 212, 213, 214, 215, 217, 218, 219, 220, 220, 221, 222, 222, 223, 223, 224, 224, 224, 224, 224, 223, 223, 222, 222, 221, 221, 220, 219, 218, 217, 216, 215, 214, 213, 212, 211, 210, 209, 208, 206, 205, 204, 203, 202, 200, 199, 198, 197, 196, 194, 194),
(0, 2, 4, 6, 8, 10, 12, 14, 16, 18, 20, 22, 24, 26, 28, 30, 32, 34, 36, 38, 40, 42, 44, 46, 48, 50, 52, 54, 56, 58, 60, 62, 64, 66, 68, 70, 72, 74, 76, 78, 80, 82, 84, 86, 88, 90, 92, 94, 96, 98, 100, 102, 104, 106, 108, 110, 112, 114, 116, 118, 120, 122, 124, 126, 127, 125, 123, 121, 119, 117, 115, 113, 111, 109, 107, 105, 103, 101, 99, 97, 95, 93, 91, 89, 87, 85, 83, 81, 79, 77, 75, 73, 71, 69, 67, 65, 63, 61, 59, 57, 55, 53, 51, 49, 47, 45, 43, 41, 39, 37, 35, 33, 31, 29, 27, 25, 23, 21, 19, 17, 15, 13, 11, 9, 7, 5, 3, 1, 1, 3, 5, 7, 9, 11, 13, 15, 17, 19, 21, 23, 25, 27, 29, 31, 33, 35, 37, 39, 41, 43, 45, 47, 49, 51, 53, 55, 57, 59, 61, 63, 65, 67, 69, 71, 73, 75, 77, 79, 81, 83, 85, 87, 89, 91, 93, 95, 97, 99, 101, 103, 105, 107, 109, 111, 113, 115, 117, 119, 121, 123, 125, 127, 128, 126, 124, 122, 120, 118, 116, 114, 112, 110, 108, 106, 104, 102, 100, 98, 96, 94, 92, 90, 88, 86, 84, 82, 80, 78, 76, 74, 72, 70, 68, 66, 64, 62, 60, 58, 56, 54, 52, 50, 48, 46, 44, 42, 40, 38, 36, 34, 32, 30, 28, 26, 24, 22, 20, 18, 16, 14, 12, 10, 8, 6, 4, 2))
if contourtypes[contour-1] == 0:
pdb.gimp_curves_spline(drawable, channel, len(contours[contour-1]), contours[contour-1])
else:
pdb.gimp_curves_explicit(drawable, channel, len(contours[contour-1]), contours[contour-1])
def apply_noise(self, drawable, srclayer, noise, uselayer):
noiselayer = gimp.Layer(drawable.image, "%s-noise" % (drawable.name), srclayer.width, srclayer.height, (RGBA_IMAGE, GRAYA_IMAGE)[drawable.image.base_type], 100.0, NORMAL_MODE)
blanklayer = gimp.Layer(drawable.image, "%s-blank" % (drawable.name), srclayer.width, srclayer.height, (RGBA_IMAGE, GRAYA_IMAGE)[drawable.image.base_type], 100.0, NORMAL_MODE)
self.add_over_layer(blanklayer, srclayer)
self.add_over_layer(noiselayer, blanklayer)
noiselayer.set_offsets(srclayer.offsets[0], srclayer.offsets[1])
blanklayer.set_offsets(srclayer.offsets[0], srclayer.offsets[1])
pdb.gimp_selection_none(drawable.image)
gimp.set_foreground(0, 0, 0)
pdb.gimp_edit_fill(noiselayer, FOREGROUND_FILL)
pdb.gimp_edit_fill(blanklayer, FOREGROUND_FILL)
gimp.set_foreground(255, 255, 255)
if uselayer:
srclayer.add_mask(srclayer.create_mask(ADD_WHITE_MASK))
pdb.gimp_selection_none(drawable.image)
pdb.gimp_edit_fill(blanklayer, FOREGROUND_FILL)
pdb.plug_in_hsv_noise(drawable.image, noiselayer, 1, 0, 0, 255)
else:
pdb.gimp_selection_load(srclayer.mask)
pdb.gimp_edit_fill(blanklayer, FOREGROUND_FILL)
pdb.gimp_selection_none(drawable.image)
pdb.plug_in_hsv_noise(drawable.image, noiselayer, 1, 0, 0, 255)
noiselayer.mode = OVERLAY_MODE
noiselayer.opacity = noise
noiselayer = pdb.gimp_image_merge_down(drawable.image, noiselayer, EXPAND_AS_NECESSARY)
blanklayer = noiselayer.create_mask(ADD_COPY_MASK)
noiselayer.add_mask(blanklayer)
pdb.gimp_selection_none(drawable.image)
gimp.set_foreground(0, 0, 0)
pdb.gimp_edit_fill(srclayer.mask, FOREGROUND_FILL)
pdb.gimp_channel_combine_masks(srclayer.mask, blanklayer, CHANNEL_OP_REPLACE, 0, 0)
drawable.image.remove_layer(noiselayer)
def removePreviews(self):
if self.layer_exists(self.previewLayer):
self.img.remove_layer(self.previewLayer)
self.previewLayer = None
self.unset_hidden_layer()
gimp.displays_flush()
if pdb.gimp_image_undo_is_enabled(self.img) == 0:
pdb.gimp_image_undo_thaw(self.img)
def make_label(self, text, show = True):
label = gtk.Label(text)
label.set_use_underline(True)
label.set_alignment(1.0, 0.5)
if show:
label.show()
return label
def make_combo_box(self, *vals):
list_vals = []
for i, v in enumerate(vals):
list_vals.append(v)
list_vals.append(i)
box = gimpui.IntComboBox(tuple(list_vals))
return box
def make_blend_mode_box(self):
return gimpui.IntComboBox((
"Normal", NORMAL_MODE,
"Dissoudre", DISSOLVE_MODE,
"Multiplier", MULTIPLY_MODE,
"Diviser", DIVIDE_MODE,
"Ecran", SCREEN_MODE,
"Superposer", OVERLAY_MODE,
"Eclaircir", DODGE_MODE,
"Assombrir", BURN_MODE,
"Lumiere dure", HARDLIGHT_MODE,
"Lumiere douce", SOFTLIGHT_MODE,
"Extraction de grain", GRAIN_EXTRACT_MODE,
"Fusion de grain", GRAIN_MERGE_MODE,
"Difference", DIFFERENCE_MODE,
"Addition", ADDITION_MODE,
"Soustrait", SUBTRACT_MODE,
"Assombrir seulement", DARKEN_ONLY_MODE,
"Eclaircir seulement", LIGHTEN_ONLY_MODE,
"Teinte", HUE_MODE,
"Saturation", SATURATION_MODE,
"Couleur", COLOR_MODE,
"Valeur", VALUE_MODE
))
def make_contour_box(self):
return self.make_combo_box(
"Lineaire",
"Cone",
"Cone inverse",
"Denivellement profond",
"Denivellement leger",
"Gaussien",
"Demi-Cercle",
"Rouleau",
"Double rouleau",
"Pente accidentee descendante",
"Palliers arrondis",
"Dents de scie 1"
)
def make_gradient_type_box(self):
return self.make_combo_box(
"Lineaire",
"Bi-lineaire",
"Radial",
"Carre",
"Conique (symetrique)",
"Conique (asymetrique)",
"Suivant la forme (angulaire)",
"Suivant la forme (spherique)",
"Suivant la forme (excroissances)",
"Spirale (sens horaire)",
"Spirale (sens anti-horaire)"
)
def make_gradient_repeat_box(self):
return self.make_combo_box("Non", "Dents de scie", "Onde triangulaire")
def make_interpolation_box(self):
return self.make_combo_box("Non", "Lineaire", "Cubique", "Sinc (Lanczos3)")
def make_spinner(self, init, min, max, step, page, digits, show = True):
controls = {
"adj": gtk.Adjustment(init, min, max, step, page),
"spinner": gtk.SpinButton()
}
controls["spinner"].set_adjustment(controls["adj"])
controls["spinner"].set_digits(digits)
if show:
controls["spinner"].show()
return controls
def make_slider_and_spinner(self, init, min, max, step, page, digits, show = True):
controls = {
"adj": gtk.Adjustment(init, min, max, step, page),
"slider": gtk.HScale(),
"spinner": gtk.SpinButton()
}
controls["slider"].set_adjustment(controls["adj"])
controls["slider"].set_draw_value(False)
controls["spinner"].set_adjustment(controls["adj"])
controls["spinner"].set_digits(digits)
if show:
controls["slider"].show()
controls["spinner"].show()
return controls
def show_error_msg(self, msg, e):
origMsgHandler = pdb.gimp_message_get_handler()
pdb.gimp_message_set_handler(ERROR_CONSOLE)
pdb.gimp_message("Error: %s" % (msg))
pdb.gimp_message_set_handler(origMsgHandler)
raise(e(msg))
def validatedata(self, img, drawable, *params):
if type(img) != gimp.Image:
self.show_error_msg("Argument 1 is not an image.", TypeError)
return False
elif not img.base_type in (RGB, GRAY):
self.show_error_msg("Argument 1 must be of type RGB or GRAY.", ValueError)
return False
elif type(drawable) != gimp.Layer:
self.show_error_msg("Argument 2 is not a layer.", TypeError)
return False
elif drawable not in img.layers:
self.show_error_msg("Layer is not part of image.", ValueError)
return False
else:
for i, v in enumerate(params):
if v[0] == "color":
if type(v[1]) != gimpcolor.RGB:
self.show_error_msg("Argument %s must be of type gimpcolor.RGB." % (i), TypeError)
return False
elif v[0] == "gradient":
if type(v[1]) != str:
self.show_error_msg("Argument %s must be of type string." % (i), TypeError)
return False
elif v[1] not in pdb.gimp_gradients_get_list("")[1]:
self.show_error_msg("Argument %s not found in gradient list." % (i), ValueError)
return False
elif v[0] == "color/gradient":
if type(v[1]) != gimpcolor.RGB and type(v[1]) != str:
self.show_error_msg("Argument %s must be of type gimpcolor.RGB or string." % (i), TypeError)
return False
elif type(v[1]) == str and v[1] not in pdb.gimp_gradients_get_list("")[1]:
self.show_error_msg("Argument %s not found in gradient list." % (i), ValueError)
return False
elif v[0] == "pattern":
if type(v[1]) != str:
self.show_error_msg("Argument %s must be of type string." % (i), TypeError)
return False
elif v[1] not in pdb.gimp_patterns_get_list("")[1]:
self.show_error_msg("Argument %s not found in pattern list." % (i), ValueError)
return False
elif v[0] == "color/gradientdata/patterndata":
if type(v[1]) != gimpcolor.RGB and type(v[1]) != list and type(v[1]) != tuple:
self.show_error_msg("Argument %s must be of type gimpcolor.RGB, list, or tuple." % (i), TypeError)
return False
elif type(v[1]) == list or type(v[1]) == tuple:
if len(v[1]) == 8:
if type(v[1][0]) != str:
self.show_error_msg("Argument %s[0] must be of type string." % (i), TypeError)
return False
elif v[1][0] not in pdb.gimp_gradients_get_list("")[1]:
self.show_error_msg("Argument %s[0] not found in gradient list." % (i), ValueError)
return False
elif type(v[1][1]) != int:
self.show_error_msg("Argument %s[1] must be of type int." % (i), TypeError)
return False
elif v[1][1] < 0 or v[1][1] > 11:
self.show_error_msg("Argument %s[1] is out of range (must be between 0 and 11)." % (i), ValueError)
return False
elif type(v[1][2]) != int:
self.show_error_msg("Argument %s[2] must be of type int." % (i), TypeError)
return False
elif v[1][2] < 0 or v[1][2] > 3:
self.show_error_msg("Argument %s[2] is out of range (must be between 0 and 3)." % (i), ValueError)
return False
elif type(v[1][3]) != int:
self.show_error_msg("Argument %s[3] must be of type int." % (i), TypeError)
return False
elif v[1][3] < 0 or v[1][3] > 1:
self.show_error_msg("Argument %s[3] is out of range (must be between 0 and 1)." % (i), ValueError)
return False
elif type(v[1][4]) != float:
self.show_error_msg("Argument %s[4] must be of type float." % (i), TypeError)
return False
elif v[1][4] < 0.0 or v[1][4] > img.width:
self.show_error_msg("Argument %s[4] is out of range (must be between 0 and %s)." % (i, img.width), ValueError)
return False
elif type(v[1][5]) != float:
self.show_error_msg("Argument %s[5] must be of type float." % (i), TypeError)
return False
elif v[1][5] < 0.0 or v[1][4] > img.height:
self.show_error_msg("Argument %s[5] is out of range (must be between 0 and %s)." % (i, img.height), ValueError)
return False
elif type(v[1][6]) != float:
self.show_error_msg("Argument %s[6] must be of type float." % (i), TypeError)
return False
elif v[1][6] < -180.0 or v[1][6] > 180.0:
self.show_error_msg("Argument %s[6] is out of range (must be between -180 and 180)." % (i), ValueError)
return False
elif type(v[1][7]) != float:
self.show_error_msg("Argument %s[7] must be of type float." % (i), TypeError)
return False
elif v[1][7] < 0.0 or v[1][7] > 262144.0:
self.show_error_msg("Argument %s[7] is out of range (must be between 0 and 262144)." % (i), ValueError)
return False
elif len(v[1]) == 3:
if type(v[1][0]) != str:
self.show_error_msg("Argument %s[0] must be of type string." % (i), TypeError)
return False
elif v[1][0] not in pdb.gimp_patterns_get_list("")[1]:
self.show_error_msg("Argument %s[0] not found in pattern list." % (i), ValueError)
return False
elif type(v[1][1]) != float:
self.show_error_msg("Argument %s[1] must be of type float." % (i), TypeError)
return False
elif v[1][1] < 1.0 or v[1][1] > 1000.0:
self.show_error_msg("Argument %s[1] is out of range (must be between 1 and 1000)." % (i), ValueError)
return False
elif type(v[1][2]) != int:
self.show_error_msg("Argument %s[2] must be of type int." % (i), TypeError)
return False
elif v[1][2] < 0 or v[1][2] > 3:
self.show_error_msg("Argument %s[2] is out of range (must be between 0 and 3)." % (i), ValueError)
return False
else:
self.show_error_msg("Argument %s must contain 8 values for a gradient fill, or 3 values for a pattern fill." % (i), ValueError)
return False
elif v[0] == "percent":
if type(v[1]) != float:
self.show_error_msg("Argument %s must be of type float." % (i), TypeError)
return False
elif v[1] < 0.0 or v[1] > 100.0:
self.show_error_msg("Argument %s is out of range (must be between 0 and 100)." % (i), ValueError)
return False
elif v[0] == "contour":
if type(v[1]) != int:
self.show_error_msg("Argument %s must be of type int." % (i), TypeError)
return False
elif v[1] < 0 or v[1] > 11:
self.show_error_msg("Argument %s is out of range (must be between 0 and 11)." % (i), ValueError)
return False
elif v[0] == "mode":
if type(v[1]) != int:
self.show_error_msg("Argument %s must be of type int." % (i), TypeError)
return False
elif v[1] not in self.mode_list:
self.show_error_msg("Illegal value for argument %s." % (i), ValueError)
return False
elif v[0] == "size":
if type(v[1]) != int:
self.show_error_msg("Argument %s must be of type int." % (i), TypeError)
return False
elif v[1] < 0 or v[1] > 250:
self.show_error_msg("Argument %s is out of range (must be between 0 and 250)." % (i), ValueError)
return False
elif v[0] == "angle":
if type(v[1]) != float:
self.show_error_msg("Argument %s must be of type float." % (i), TypeError)
return False
elif v[1] < -180.0 or v[1] > 180.0:
self.show_error_msg("Argument %s is out of range (must be between -180 and 180)." % (i), ValueError)
return False
elif v[0] == "boolean":
if type(v[1]) != int:
self.show_error_msg("Argument %s must be of type int." % (i), TypeError)
return False
elif v[1] < 0 or v[1] > 1:
self.show_error_msg("Argument %s is out of range (must be between 0 and 1)." % (i), ValueError)
return False
elif v[0] == "intrange":
if type(v[1]) != int:
self.show_error_msg("Argument %s must be of type int." % (i), TypeError)
return False
elif v[1] < v[2] or v[1] > v[3]:
self.show_error_msg("Argument %s is out of range (must be between %s and %s)." % (i, v[2], v[3]), ValueError)
return False
elif v[0] == "floatrange":
if type(v[1]) != float:
self.show_error_msg("Argument %s must be of type float." % (i), TypeError)
return False
elif v[1] < v[2] or v[1] > v[3]:
self.show_error_msg("Argument %s is out of range (must be between %s and %s)." % (i, v[2], v[3]), ValueError)
return False
return True
def stringToColor(self, string):
matchObj = re.match('RGB \((\d+(?:.\d+)?), (\d+(?:.\d+)?), (\d+(?:.\d+)?), (\d+(?:.\d+)?)\)', string)
if matchObj:
colorlist = matchObj.group(1, 2, 3, 4)
return gimpcolor.RGB(float(colorlist[0]), float(colorlist[1]), float(colorlist[2]), float(colorlist[3]))
else:
return False
def writeParasite(self, drawable, fxlayer, *controls):
dataList = []
for i in controls:
if i[0] == "color":
dataList.append(str(i[1].get_color()))
elif i[0] == "gradient":
dataList.append(i[1].get_gradient().encode("string_escape").replace("|", "\\x7c"))
elif i[0] == "pattern":
dataList.append(i[1].get_pattern().encode("string_escape").replace("|", "\\x7c"))
elif i[0] == "intadj":
dataList.append(str(int(round(i[1].get_value()))))
elif i[0] == "floatadj":
dataList.append(str(i[1].get_value()))
elif i[0] == "combobox":
dataList.append(str(i[1].get_active()))
elif i[0] == "modebox":
dataList.append(str(i[1].get_active()))
elif i[0] == "check":
if i[1].get_active():
dataList.append("1")
else:
dataList.append("0")
elif i[0] == "radio":
for j, v in enumerate(i[1]):
if v.get_active():
dataList.append(str(j))
break
data = "|".join(dataList)
fxlayer.attach_new_parasite(self.shelfkey, 0, data)
drawable.attach_new_parasite("%s-fxlayer" % (self.shelfkey), 0, fxlayer.name)
def writeParasiteRaw(self, drawable, fxlayer, *values):
dataList = []
for i in values:
if type(i) == str:
dataList.append(i.encode("string_escape").replace("|", "\\x7c"))
else:
dataList.append(str(i))
data = "|".join(dataList)
fxlayer.attach_new_parasite(self.shelfkey, 0, data)
drawable.attach_new_parasite("%s-fxlayer" % (self.shelfkey), 0, fxlayer.name)
def readParasite(self, img, drawable, keyname, *keysntypes):
fxlayername = "%s-fxlayer" % (keyname)
if fxlayername in pdb.gimp_drawable_parasite_list(drawable)[1]:
fxlayername = pdb.gimp_drawable_parasite_find(drawable, fxlayername).data
for i in img.layers:
if i.name == fxlayername:
if keyname in pdb.gimp_drawable_parasite_list(i)[1]:
datalist = pdb.gimp_drawable_parasite_find(i, keyname).data.split("|")
keys = []
vals = []
for j, v in enumerate(datalist):
keys.append(keysntypes[j][0])
if keysntypes[j][1] == "color":
vals.append(self.stringToColor(v))
elif keysntypes[j][1] == "int":
vals.append(int(v))
elif keysntypes[j][1] == "float":
vals.append(float(v))
elif keysntypes[j][1] == "string":
vals.append(v.decode("string_escape"))
keys.append("oldid")
vals.append(i)
data = dict(zip(keys, vals))
return data
else:
return False
else:
return False
def removeOldLayer(self):
if not hasattr(self, "parasitedata"):
self.parasitedata = self.readParasite(self.img, self.drawable)
if self.parasitedata:
self.img.remove_layer(self.parasitedata["oldid"])
def makeDialogButtons(self):
reset_button = gtk.Button("_Reset")
reset_button.connect("clicked", self.resetbutton)
reset_button.show()
if gtk.alternative_dialog_button_order():
ok_button = self.dialog.add_button(gtk.STOCK_OK, gtk.RESPONSE_OK)
cancel_button = self.dialog.add_button(gtk.STOCK_CANCEL, gtk.RESPONSE_CANCEL)
self.dialog.action_area.add(reset_button)
else:
self.dialog.action_area.add(reset_button)
cancel_button = self.dialog.add_button(gtk.STOCK_CANCEL, gtk.RESPONSE_CANCEL)
ok_button = self.dialog.add_button(gtk.STOCK_OK, gtk.RESPONSE_OK)
ok_button.connect("clicked", self.okbutton)
def getGradientMeasurements(self, drawoffsetx, drawoffsety, gradienttype, centerx, centery, angle, width):
ang = (angle * -1) * (math.pi / 180.0)
if gradienttype == 0:
offset = ((width / 2.0) * math.cos(ang), (width / 2.0) * math.sin(ang))
gradstart = (centerx - offset[0] - drawoffsetx, centery - offset[1] - drawoffsety)
gradend = (centerx + offset[0] - drawoffsetx, centery + offset[1] - drawoffsety)
elif gradienttype >= 1 and gradienttype <= 8:
offset = ((width / 2.0) * math.cos(ang), (width / 2.0) * math.sin(ang))
gradstart = (centerx - drawoffsetx, centery - drawoffsety)
gradend = (centerx + offset[0] - drawoffsetx, centery + offset[1] - drawoffsety)
else:
offset = (width * math.cos(ang), width * math.sin(ang))
gradstart = (centerx - drawoffsetx, centery - drawoffsety)
gradend = (centerx + offset[0] - drawoffsetx, centery + offset[1] - drawoffsety)
return { "ang": ang, "offset": offset, "start": gradstart, "end": gradend }
class layerfx_drop_shadow(layerfx_base):
shelfkey = "layerfx-drop-shadow"
def __init__(self, runmode, img, drawable, color, opacity, contour, noise, mode, spread, size, offsetangle, offsetdist, knockout, merge):
self.origMsgHandler = pdb.gimp_message_get_handler()
pdb.gimp_message_set_handler(ERROR_CONSOLE)
self.img = img
self.drawable = drawable
if runmode == RUN_INTERACTIVE:
self.showDialog()
elif runmode == RUN_NONINTERACTIVE:
if self.validatedata(img, drawable,
("color", color),
("percent", opacity),
("contour", contour),
("percent", noise),
("mode", mode),
("percent", spread),
("size", size),
("angle", offsetangle),
("floatrange", offsetdist, 0.0, 30000.0),
("boolean", knockout),
("boolean", merge)
):
self.removeOldLayer()
fxlayer = self.makeShadow(img, drawable, color, opacity, contour, noise, mode, spread, size, offsetangle, offsetdist, knockout, merge, 0)
if merge == 0:
self.writeParasiteRaw(drawable, fxlayer, color, opacity, contour, noise, mode, spread, size, offsetangle, offsetdist, knockout, merge)
shelf[self.shelfkey] = {
"color": color,
"opacity": opacity,
"contour": contour,
"noise": noise,
"mode": mode,
"spread": spread,
"size": size,
"offsetangle": offsetangle,
"offsetdist": offsetdist,
"knockout": knockout,
"merge": merge
}
elif runmode == RUN_WITH_LAST_VALS and shelf.has_key(self.shelfkey) == 1:
self.removeOldLayer()
fxlayer = self.makeShadow(
img,
drawable,
shelf[self.shelfkey]["color"],
shelf[self.shelfkey]["opacity"],
shelf[self.shelfkey]["contour"],
shelf[self.shelfkey]["noise"],
shelf[self.shelfkey]["mode"],
shelf[self.shelfkey]["spread"],
shelf[self.shelfkey]["size"],
shelf[self.shelfkey]["offsetangle"],
shelf[self.shelfkey]["offsetdist"],
shelf[self.shelfkey]["knockout"],
shelf[self.shelfkey]["merge"],
0
)
if shelf[self.shelfkey]["merge"] == 0:
self.writeParasiteRaw(drawable, fxlayer,
shelf[self.shelfkey]["color"],
shelf[self.shelfkey]["opacity"],
shelf[self.shelfkey]["contour"],
shelf[self.shelfkey]["noise"],
shelf[self.shelfkey]["mode"],
shelf[self.shelfkey]["spread"],
shelf[self.shelfkey]["size"],
shelf[self.shelfkey]["offsetangle"],
shelf[self.shelfkey]["offsetdist"],
shelf[self.shelfkey]["knockout"],
shelf[self.shelfkey]["merge"]
)
else:
pdb.gimp_message("unknown runmode")
pdb.gimp_message_set_handler(self.origMsgHandler)
def showDialog(self):
self.dialog = gimpui.Dialog("Ombre portee", "dropshadowdialog")
self.parasitedata = self.readParasite(self.img, self.drawable)
self.table = gtk.Table(9, 5, True)
self.table.set_homogeneous(True)
self.table.set_row_spacings(3)
self.table.set_col_spacings(3)
self.table.show()
self.color_label = self.make_label("_Couleur:")
self.table.attach(self.color_label, 0, 1, 0, 1)
self.color_button = gimpui.ColorButton("Shadow Color", 10, 10, gimpcolor.RGB(0, 0, 0, 255))
if self.parasitedata:
self.color_button.set_color(self.parasitedata["color"])
elif shelf.has_key(self.shelfkey) == 1:
self.color_button.set_color(shelf[self.shelfkey]["color"])
self.color_label.set_mnemonic_widget(self.color_button)
self.color_button.show()
self.table.attach(self.color_button, 1, 2, 0, 1)
self.color_button.connect("color-changed", self.preview)
self.mode_label = self.make_label("_Mode de fusion:")
self.table.attach(self.mode_label, 0, 1, 1, 2)
self.mode_box = self.make_blend_mode_box()
if self.parasitedata:
self.mode_box.set_active(self.parasitedata["mode"])
elif shelf.has_key(self.shelfkey) == 1:
self.mode_box.set_active(shelf[self.shelfkey]["mode"])
else:
self.mode_box.set_active(MULTIPLY_MODE)
self.mode_label.set_mnemonic_widget(self.mode_box)
self.mode_box.show()
self.table.attach(self.mode_box, 1, 5, 1, 2)
self.mode_box.connect("changed", self.preview)
self.opacity_label = self.make_label("_Opacite:")
self.table.attach(self.opacity_label, 0, 1, 2, 3)
self.opacity_slider = self.make_slider_and_spinner(75.0, 0.0, 100.0, 1.0, 10.0, 1)
if self.parasitedata:
self.opacity_slider["adj"].set_value(self.parasitedata["opacity"])
elif shelf.has_key(self.shelfkey) == 1:
self.opacity_slider["adj"].set_value(shelf[self.shelfkey]["opacity"])
self.opacity_label.set_mnemonic_widget(self.opacity_slider["spinner"])
self.table.attach(self.opacity_slider["slider"], 1, 4, 2, 3)
self.table.attach(self.opacity_slider["spinner"], 4, 5, 2, 3)
self.opacity_slider["adj"].connect("value-changed", self.preview)
self.angle_label = self.make_label("_Angle:")
self.table.attach(self.angle_label, 0, 1, 3, 4)
self.angle_slider = self.make_slider_and_spinner(120.0, -180.0, 180.0, 1.0, 10.0, 1)
if self.parasitedata:
self.angle_slider["adj"].set_value(self.parasitedata["offsetangle"])
elif shelf.has_key(self.shelfkey) == 1:
self.angle_slider["adj"].set_value(shelf[self.shelfkey]["offsetangle"])
self.angle_label.set_mnemonic_widget(self.angle_slider["spinner"])
self.table.attach(self.angle_slider["slider"], 1, 4, 3, 4)
self.table.attach(self.angle_slider["spinner"], 4, 5, 3, 4)
self.angle_slider["adj"].connect("value-changed", self.preview)
self.distance_label = self.make_label("_Distance:")
self.table.attach(self.distance_label, 0, 1, 4, 5)
self.distance_spinner = self.make_spinner(5.0, 0.0, 30000.0, 1.0, 10.0, 1)
if self.parasitedata:
self.distance_spinner["adj"].set_value(self.parasitedata["offsetdist"])
elif shelf.has_key(self.shelfkey) == 1:
self.distance_spinner["adj"].set_value(shelf[self.shelfkey]["offsetdist"])
self.distance_label.set_mnemonic_widget(self.distance_spinner["spinner"])
self.table.attach(self.distance_spinner["spinner"], 1, 2, 4, 5)
self.distance_spinner["adj"].connect("value-changed", self.preview)
self.spread_label = self.make_label("_Grossi:")
self.table.attach(self.spread_label, 0, 1, 5, 6)
self.spread_slider = self.make_slider_and_spinner(0.0, 0.0, 100.0, 1.0, 10.0, 1)
if self.parasitedata:
self.spread_slider["adj"].set_value(self.parasitedata["spread"])
elif shelf.has_key(self.shelfkey) == 1:
self.spread_slider["adj"].set_value(shelf[self.shelfkey]["spread"])
self.spread_label.set_mnemonic_widget(self.spread_slider["spinner"])
self.table.attach(self.spread_slider["slider"], 1, 4, 5, 6)
self.table.attach(self.spread_slider["spinner"], 4, 5, 5, 6)
self.spread_slider["adj"].connect("value-changed", self.preview)
self.size_label = self.make_label("T_aille:")
self.table.attach(self.size_label, 0, 1, 6, 7)
self.size_slider = self.make_slider_and_spinner(5, 0, 250, 1, 10, 0)
if self.parasitedata:
self.size_slider["adj"].set_value(self.parasitedata["size"])
elif shelf.has_key(self.shelfkey) == 1:
self.size_slider["adj"].set_value(shelf[self.shelfkey]["size"])
self.size_label.set_mnemonic_widget(self.size_slider["spinner"])
self.table.attach(self.size_slider["slider"], 1, 4, 6, 7)
self.table.attach(self.size_slider["spinner"], 4, 5, 6, 7)
self.size_slider["adj"].connect("value-changed", self.preview)
self.contour_label = self.make_label("Con_tour:")
self.table.attach(self.contour_label, 0, 1, 7, 8)
self.contour_box = self.make_contour_box()
if self.parasitedata:
self.contour_box.set_active(self.parasitedata["contour"])
elif shelf.has_key(self.shelfkey) == 1:
self.contour_box.set_active(shelf[self.shelfkey]["contour"])
else:
self.contour_box.set_active(0)
self.contour_label.set_mnemonic_widget(self.contour_box)
self.contour_box.show()
self.table.attach(self.contour_box, 1, 5, 7, 8)
self.contour_box.connect("changed", self.preview)
self.noise_label = self.make_label("_Bruit:")
self.table.attach(self.noise_label, 0, 1, 8, 9)
self.noise_slider = self.make_slider_and_spinner(0.0, 0.0, 100.0, 1.0, 10.0, 1)
if self.parasitedata:
self.noise_slider["adj"].set_value(self.parasitedata["noise"])
elif shelf.has_key(self.shelfkey) == 1:
self.noise_slider["adj"].set_value(shelf[self.shelfkey]["noise"])
self.noise_label.set_mnemonic_widget(self.noise_slider["spinner"])
self.table.attach(self.noise_slider["slider"], 1, 4, 8, 9)
self.table.attach(self.noise_slider["spinner"], 4, 5, 8, 9)
self.noise_slider["adj"].connect("value-changed", self.preview)
self.knockout_check = gtk.CheckButton("Ombre portee masquee par le calque")
if self.parasitedata:
if self.parasitedata["knockout"] == 1:
self.knockout_check.set_active(True)
elif shelf.has_key(self.shelfkey) == 1 and shelf[self.shelfkey]["knockout"] == 1:
self.knockout_check.set_active(True)
self.knockout_check.show()
self.knockout_check.connect("toggled", self.preview)
self.merge_check = gtk.CheckButton("_Fusionner avec le calque")
if self.parasitedata:
if self.parasitedata["merge"] == 1:
self.merge_check.set_active(True)
elif shelf.has_key(self.shelfkey) == 1 and shelf[self.shelfkey]["merge"] == 1:
self.merge_check.set_active(True)
self.merge_check.show()
self.merge_check.connect("toggled", self.preview)
self.preview_check = gtk.CheckButton("_Apercu")
self.preview_check.show()
self.preview_check.connect("toggled", self.preview)
self.dialog.vbox.hbox1 = gtk.HBox(False, 7)
self.dialog.vbox.hbox1.show()
self.dialog.vbox.pack_start(self.dialog.vbox.hbox1, True, True, 7)
self.dialog.vbox.hbox1.pack_start(self.table, True, True, 7)
self.dialog.vbox.hbox2 = gtk.HBox(False, 7)
self.dialog.vbox.hbox2.show()
self.dialog.vbox.add(self.dialog.vbox.hbox2)
self.dialog.vbox.hbox2.pack_start(self.knockout_check, True, True, 10)
self.dialog.vbox.hbox3 = gtk.HBox(False, 7)
self.dialog.vbox.hbox3.show()
self.dialog.vbox.add(self.dialog.vbox.hbox3)
self.dialog.vbox.hbox3.pack_start(self.merge_check, True, True, 10)
self.dialog.vbox.hbox4 = gtk.HBox(False, 7)
self.dialog.vbox.hbox4.show()
self.dialog.vbox.add(self.dialog.vbox.hbox4)
self.dialog.vbox.hbox4.pack_start(self.preview_check, True, True, 10)
self.makeDialogButtons()
self.dialog.show()
self.dialog.run()
self.removePreviews()
def okbutton(self, widget):
if self.layer_exists(self.previewLayer):
self.img.remove_layer(self.previewLayer)
self.previewLayer = None
if pdb.gimp_image_undo_is_enabled(self.img) == 0:
pdb.gimp_image_undo_thaw(self.img)
params = {
"color": self.color_button.get_color(),
"opacity": self.opacity_slider["adj"].get_value(),
"contour": self.contour_box.get_active(),
"noise": self.noise_slider["adj"].get_value(),
"mode": self.mode_box.get_active(),
"spread": self.spread_slider["adj"].get_value(),
"size": int(round(self.size_slider["adj"].get_value())),
"offsetangle": self.angle_slider["adj"].get_value(),
"offsetdist": self.distance_spinner["adj"].get_value(),
"knockout": self.cond(self.knockout_check.get_active()),
"merge": self.cond(self.merge_check.get_active())
}
self.removeOldLayer()
fxlayer = self.makeShadow(
self.img,
self.drawable,
params["color"],
params["opacity"],
params["contour"],
params["noise"],
params["mode"],
params["spread"],
params["size"],
params["offsetangle"],
params["offsetdist"],
params["knockout"],
params["merge"],
0
)
if params["merge"] == 0:
self.writeParasite(self.drawable, fxlayer,
("color", self.color_button),
("floatadj", self.opacity_slider["adj"]),
("combobox", self.contour_box),
("floatadj", self.noise_slider["adj"]),
("modebox", self.mode_box),
("floatadj", self.spread_slider["adj"]),
("intadj", self.size_slider["adj"]),
("floatadj", self.angle_slider["adj"]),
("floatadj", self.distance_spinner["adj"]),
("check", self.knockout_check),
("check", self.merge_check)
)
shelf[self.shelfkey] = params
def readParasite(self, img, drawable):
return layerfx_base.readParasite(self, img, drawable,
layerfx_drop_shadow.shelfkey,
("color", "color"),
("opacity", "float"),
("contour", "int"),
("noise", "float"),
("mode", "int"),
("spread", "float"),
("size", "int"),
("offsetangle", "float"),
("offsetdist", "float"),
("knockout", "int"),
("merge", "int")
)
def resetbutton(self, widget):
self.color_button.set_color(gimpcolor.RGB(0, 0, 0, 255))
self.mode_box.set_active(MULTIPLY_MODE)
self.opacity_slider["adj"].set_value(75.0)
self.angle_slider["adj"].set_value(120.0)
self.distance_spinner["adj"].set_value(5.0)
self.spread_slider["adj"].set_value(0.0)
self.size_slider["adj"].set_value(5)
self.contour_box.set_active(0)
self.noise_slider["adj"].set_value(0.0)
self.knockout_check.set_active(False)
self.merge_check.set_active(False)
def preview(self, widget):
if self.layer_exists(self.previewLayer):
self.img.remove_layer(self.previewLayer)
if self.preview_check.get_active():
if pdb.gimp_image_undo_is_enabled(self.img) == 1:
pdb.gimp_image_undo_freeze(self.img)
if self.parasitedata:
self.set_hidden_layer(self.parasitedata["oldid"])
self.previewLayer = self.makeShadow(
self.img,
self.drawable,
self.color_button.get_color(),
self.opacity_slider["adj"].get_value(),
self.contour_box.get_active(),
self.noise_slider["adj"].get_value(),
self.mode_box.get_active(),
self.spread_slider["adj"].get_value(),
int(round(self.size_slider["adj"].get_value())),
self.angle_slider["adj"].get_value(),
self.distance_spinner["adj"].get_value(),
self.cond(self.knockout_check.get_active()),
0,
1
)
else:
gimp.displays_flush()
def makeShadow(self, img, drawable, color, opacity, contour, noise, mode, spread, size, offsetangle, offsetdist, knockout, merge, preview):
pdb.gimp_image_undo_group_start(img)
origfgcolor = gimp.get_foreground()
origselection = pdb.gimp_selection_save(img)
growamt = int(math.ceil(size / 2.0))
steps = int(round(size - ((spread / 100.0) * size)))
lyrgrowamt = int(round(growamt * 1.2))
shadowlayer = gimp.Layer(img, "%s-dropshadow" % (drawable.name), drawable.width + (lyrgrowamt * 2), drawable.height + (lyrgrowamt * 2), (RGBA_IMAGE, GRAYA_IMAGE)[img.base_type], opacity, mode)
ang = ((offsetangle + 180) * -1) * (math.pi / 180.0)
offset = (int(round(offsetdist * math.cos(ang))), int(round(offsetdist * math.sin(ang))))
self.add_under_layer(shadowlayer, drawable)
if merge == 0 and preview == 0:
self.group_layers("%s-with-dropshadow" % (drawable.name), drawable, shadowlayer)
shadowlayer.set_offsets(drawable.offsets[0] + offset[0] - lyrgrowamt, drawable.offsets[1] + offset[1] - lyrgrowamt)
pdb.gimp_selection_none(img)
gimp.set_foreground(color)
pdb.gimp_edit_fill(shadowlayer, FOREGROUND_FILL)
shadowmask = shadowlayer.create_mask(ADD_BLACK_MASK)
shadowlayer.add_mask(shadowmask)
pdb.gimp_selection_layer_alpha(drawable)
if drawable.mask != None:
pdb.gimp_selection_combine(drawable.mask, CHANNEL_OP_INTERSECT)
pdb.gimp_selection_translate(img, offset[0], offset[1])
alphaSel = pdb.gimp_selection_save(img)
if (steps > 0):
self.draw_blurshape(shadowmask, steps, growamt, alphaSel, False)
else:
pdb.gimp_selection_grow(img, growamt)
gimp.set_foreground(255, 255, 255)
pdb.gimp_edit_fill(shadowmask, FOREGROUND_FILL)
pdb.gimp_selection_none(img)
if contour > 0:
self.apply_contour(shadowmask, HISTOGRAM_VALUE, contour)
pdb.gimp_selection_load(alphaSel)
pdb.gimp_selection_grow(img, growamt)
pdb.gimp_selection_invert(img)
gimp.set_foreground(0, 0, 0)
pdb.gimp_edit_fill(shadowmask, FOREGROUND_FILL)
pdb.gimp_selection_none(img)
if noise > 0:
self.apply_noise(drawable, shadowlayer, noise, False)
if knockout == 1:
gimp.set_foreground(0, 0, 0)
pdb.gimp_selection_layer_alpha(drawable)
pdb.gimp_edit_fill(shadowmask, FOREGROUND_FILL)
shadowlayer.remove_mask(MASK_APPLY)
pdb.gimp_selection_none(img)
if merge == 1:
origmask = drawable.mask
layername = drawable.name
if origmask != None:
drawable.remove_mask(MASK_APPLY)
shadowlayer = pdb.gimp_image_merge_down(img, drawable, EXPAND_AS_NECESSARY)
shadowlayer.name = layername
else:
pdb.gimp_image_set_active_layer(img, drawable)
gimp.set_foreground(origfgcolor)
pdb.gimp_selection_load(origselection)
img.remove_channel(alphaSel)
img.remove_channel(origselection)
gimp.displays_flush()
pdb.gimp_image_undo_group_end(img)
return shadowlayer
class layerfx_inner_shadow(layerfx_base):
shelfkey = "layerfx-inner-shadow"
def __init__(self, runmode, img, drawable, color, opacity, contour, noise, mode, source, choke, size, offsetangle, offsetdist, merge):
self.origMsgHandler = pdb.gimp_message_get_handler()
pdb.gimp_message_set_handler(ERROR_CONSOLE)
self.img = img
self.drawable = drawable
if runmode == RUN_INTERACTIVE:
self.showDialog()
elif runmode == RUN_NONINTERACTIVE:
if self.validatedata(img, drawable,
("color", color),
("percent", opacity),
("contour", contour),
("percent", noise),
("mode", mode),
("boolean", source),
("percent", choke),
("size", size),
("angle", offsetangle),
("floatrange", offsetdist, 0.0, 30000.0),
("boolean", merge)
):
self.removeOldLayer()
fxlayer = self.makeShadow(img, drawable, color, opacity, contour, noise, mode, source, choke, size, offsetangle, offsetdist, merge, 0)
if merge == 0:
self.writeParasiteRaw(drawable, fxlayer, color, opacity, contour, noise, mode, source, choke, size, offsetangle, offsetdist, merge)
shelf[self.shelfkey] = {
"color": color,
"opacity": opacity,
"contour": contour,
"noise": noise,
"mode": mode,
"source": source,
"choke": choke,
"size": size,
"offsetangle": offsetangle,
"offsetdist": offsetdist,
"merge": merge
}
elif runmode == RUN_WITH_LAST_VALS and shelf.has_key(self.shelfkey) == 1:
self.removeOldLayer()
fxlayer = self.makeShadow(
img,
drawable,
shelf[self.shelfkey]["color"],
shelf[self.shelfkey]["opacity"],
shelf[self.shelfkey]["contour"],
shelf[self.shelfkey]["noise"],
shelf[self.shelfkey]["mode"],
shelf[self.shelfkey]["source"],
shelf[self.shelfkey]["choke"],
shelf[self.shelfkey]["size"],
shelf[self.shelfkey]["offsetangle"],
shelf[self.shelfkey]["offsetdist"],
shelf[self.shelfkey]["merge"],
0
)
if shelf[self.shelfkey]["merge"] == 0:
self.writeParasiteRaw(drawable, fxlayer,
shelf[self.shelfkey]["color"],
shelf[self.shelfkey]["opacity"],
shelf[self.shelfkey]["contour"],
shelf[self.shelfkey]["noise"],
shelf[self.shelfkey]["mode"],
shelf[self.shelfkey]["source"],
shelf[self.shelfkey]["choke"],
shelf[self.shelfkey]["size"],
shelf[self.shelfkey]["offsetangle"],
shelf[self.shelfkey]["offsetdist"],
shelf[self.shelfkey]["merge"]
)
else:
pdb.gimp_message("unknown runmode")
pdb.gimp_message_set_handler(self.origMsgHandler)
def showDialog(self):
self.dialog = gimpui.Dialog("Ombre interne", "innershadowdialog")
self.parasitedata = self.readParasite(self.img, self.drawable)
self.table = gtk.Table(10, 5, True)
self.table.set_homogeneous(True)
self.table.set_row_spacings(3)
self.table.set_col_spacings(3)
self.table.show()
self.color_label = self.make_label("_Couleur:")
self.table.attach(self.color_label, 0, 1, 0, 1)
self.color_button = gimpui.ColorButton("Shadow Color", 10, 10, gimpcolor.RGB(0, 0, 0, 255))
if self.parasitedata:
self.color_button.set_color(self.parasitedata["color"])
elif shelf.has_key(self.shelfkey) == 1:
self.color_button.set_color(shelf[self.shelfkey]["color"])
self.color_label.set_mnemonic_widget(self.color_button)
self.color_button.show()
self.table.attach(self.color_button, 1, 2, 0, 1)
self.color_button.connect("color-changed", self.preview)
self.mode_label = self.make_label("_Mode de fusion:")
self.table.attach(self.mode_label, 0, 1, 1, 2)
self.mode_box = self.make_blend_mode_box()
if self.parasitedata:
self.mode_box.set_active(self.parasitedata["mode"])
elif shelf.has_key(self.shelfkey) == 1:
self.mode_box.set_active(shelf[self.shelfkey]["mode"])
else:
self.mode_box.set_active(MULTIPLY_MODE)
self.mode_label.set_mnemonic_widget(self.mode_box)
self.mode_box.show()
self.table.attach(self.mode_box, 1, 5, 1, 2)
self.mode_box.connect("changed", self.preview)
self.opacity_label = self.make_label("_Opacite:")
self.table.attach(self.opacity_label, 0, 1, 2, 3)
self.opacity_slider = self.make_slider_and_spinner(75.0, 0.0, 100.0, 1.0, 10.0, 1)
if self.parasitedata:
self.opacity_slider["adj"].set_value(self.parasitedata["opacity"])
elif shelf.has_key(self.shelfkey) == 1:
self.opacity_slider["adj"].set_value(shelf[self.shelfkey]["opacity"])
self.opacity_label.set_mnemonic_widget(self.opacity_slider["spinner"])
self.table.attach(self.opacity_slider["slider"], 1, 4, 2, 3)
self.table.attach(self.opacity_slider["spinner"], 4, 5, 2, 3)
self.opacity_slider["adj"].connect("value-changed", self.preview)
self.angle_label = self.make_label("_Angle:")
self.table.attach(self.angle_label, 0, 1, 3, 4)
self.angle_slider = self.make_slider_and_spinner(120.0, -180.0, 180.0, 1.0, 10.0, 1)
if self.parasitedata:
self.angle_slider["adj"].set_value(self.parasitedata["offsetangle"])
elif shelf.has_key(self.shelfkey) == 1:
self.angle_slider["adj"].set_value(shelf[self.shelfkey]["offsetangle"])
self.angle_label.set_mnemonic_widget(self.angle_slider["spinner"])
self.table.attach(self.angle_slider["slider"], 1, 4, 3, 4)
self.table.attach(self.angle_slider["spinner"], 4, 5, 3, 4)
self.angle_slider["adj"].connect("value-changed", self.preview)
self.distance_label = self.make_label("_Distance:")
self.table.attach(self.distance_label, 0, 1, 4, 5)
self.distance_spinner = self.make_spinner(5.0, 0.0, 30000.0, 1.0, 10.0, 1)
if self.parasitedata:
self.distance_spinner["adj"].set_value(self.parasitedata["offsetdist"])
elif shelf.has_key(self.shelfkey) == 1:
self.distance_spinner["adj"].set_value(shelf[self.shelfkey]["offsetdist"])
self.distance_label.set_mnemonic_widget(self.distance_spinner["spinner"])
self.table.attach(self.distance_spinner["spinner"], 1, 2, 4, 5)
self.distance_spinner["adj"].connect("value-changed", self.preview)
self.source_label = self.make_label("Source:")
self.table.attach(self.source_label, 0, 1, 5, 6)
self.source_center_radio = gtk.RadioButton(None, "Cent_re", True)
self.source_edge_radio = gtk.RadioButton(self.source_center_radio, "Contour", True)
if self.parasitedata:
if self.parasitedata["source"] == 0:
self.source_center_radio.set_active(True)
elif self.parasitedata["source"] == 1:
self.source_edge_radio.set_active(True)
elif shelf.has_key(self.shelfkey) == 1:
if shelf[self.shelfkey]["source"] == 0:
self.source_center_radio.set_active(True)
elif shelf[self.shelfkey]["source"] == 1:
self.source_edge_radio.set_active(True)
else:
self.source_edge_radio.set_active(True)
self.source_center_radio.show()
self.table.attach(self.source_center_radio, 1, 2, 5, 6)
self.source_edge_radio.show()
self.table.attach(self.source_edge_radio, 2, 3, 5, 6)
self.source_center_radio.connect("toggled", self.preview)
self.source_edge_radio.connect("toggled", self.preview)
self.choke_label = self.make_label("M_aigri:")
self.table.attach(self.choke_label, 0, 1, 6, 7)
self.choke_slider = self.make_slider_and_spinner(0.0, 0.0, 100.0, 1.0, 10.0, 1)
if self.parasitedata:
self.choke_slider["adj"].set_value(self.parasitedata["choke"])
elif shelf.has_key(self.shelfkey) == 1:
self.choke_slider["adj"].set_value(shelf[self.shelfkey]["choke"])
self.choke_label.set_mnemonic_widget(self.choke_slider["spinner"])
self.table.attach(self.choke_slider["slider"], 1, 4, 6, 7)
self.table.attach(self.choke_slider["spinner"], 4, 5, 6, 7)
self.choke_slider["adj"].connect("value-changed", self.preview)
self.size_label = self.make_label("T_aille:")
self.table.attach(self.size_label, 0, 1, 7, 8)
self.size_slider = self.make_slider_and_spinner(5, 0, 250, 1, 10, 0)
if self.parasitedata:
self.size_slider["adj"].set_value(self.parasitedata["size"])
elif shelf.has_key(self.shelfkey) == 1:
self.size_slider["adj"].set_value(shelf[self.shelfkey]["size"])
self.size_label.set_mnemonic_widget(self.size_slider["spinner"])
self.table.attach(self.size_slider["slider"], 1, 4, 7, 8)
self.table.attach(self.size_slider["spinner"], 4, 5, 7, 8)
self.size_slider["adj"].connect("value-changed", self.preview)
self.contour_label = self.make_label("Con_tour:")
self.table.attach(self.contour_label, 0, 1, 8, 9)
self.contour_box = self.make_contour_box()
if self.parasitedata:
self.contour_box.set_active(self.parasitedata["contour"])
elif shelf.has_key(self.shelfkey) == 1:
self.contour_box.set_active(shelf[self.shelfkey]["contour"])
else:
self.contour_box.set_active(0)
self.contour_label.set_mnemonic_widget(self.contour_box)
self.contour_box.show()
self.table.attach(self.contour_box, 1, 5, 8, 9)
self.contour_box.connect("changed", self.preview)
self.noise_label = self.make_label("_Bruit:")
self.table.attach(self.noise_label, 0, 1, 9, 10)
self.noise_slider = self.make_slider_and_spinner(0.0, 0.0, 100.0, 1.0, 10.0, 1)
if self.parasitedata:
self.noise_slider["adj"].set_value(self.parasitedata["noise"])
elif shelf.has_key(self.shelfkey) == 1:
self.noise_slider["adj"].set_value(shelf[self.shelfkey]["noise"])
self.noise_label.set_mnemonic_widget(self.noise_slider["spinner"])
self.table.attach(self.noise_slider["slider"], 1, 4, 9, 10)
self.table.attach(self.noise_slider["spinner"], 4, 5, 9, 10)
self.noise_slider["adj"].connect("value-changed", self.preview)
self.merge_check = gtk.CheckButton("_Fusionner avec le calque")
if self.parasitedata:
if self.parasitedata["merge"] == 1:
self.merge_check.set_active(True)
elif shelf.has_key(self.shelfkey) == 1 and shelf[self.shelfkey]["merge"] == 1:
self.merge_check.set_active(True)
self.merge_check.show()
self.merge_check.connect("toggled", self.preview)
self.preview_check = gtk.CheckButton("_Apercu")
self.preview_check.show()
self.preview_check.connect("toggled", self.preview)
self.dialog.vbox.hbox1 = gtk.HBox(False, 7)
self.dialog.vbox.hbox1.show()
self.dialog.vbox.pack_start(self.dialog.vbox.hbox1, True, True, 7)
self.dialog.vbox.hbox1.pack_start(self.table, True, True, 7)
self.dialog.vbox.hbox2 = gtk.HBox(False, 7)
self.dialog.vbox.hbox2.show()
self.dialog.vbox.add(self.dialog.vbox.hbox2)
self.dialog.vbox.hbox2.pack_start(self.merge_check, True, True, 10)
self.dialog.vbox.hbox3 = gtk.HBox(False, 7)
self.dialog.vbox.hbox3.show()
self.dialog.vbox.add(self.dialog.vbox.hbox3)
self.dialog.vbox.hbox3.pack_start(self.preview_check, True, True, 10)
self.makeDialogButtons()
self.dialog.show()
self.dialog.run()
self.removePreviews()
def okbutton(self, widget):
if self.layer_exists(self.previewLayer):
self.img.remove_layer(self.previewLayer)
self.previewLayer = None
self.unset_hidden_layer()
if pdb.gimp_image_undo_is_enabled(self.img) == 0:
pdb.gimp_image_undo_thaw(self.img)
if self.source_center_radio.get_active():
source = 0
elif self.source_edge_radio.get_active():
source = 1
params = {
"color": self.color_button.get_color(),
"opacity": self.opacity_slider["adj"].get_value(),
"contour": self.contour_box.get_active(),
"noise": self.noise_slider["adj"].get_value(),
"mode": self.mode_box.get_active(),
"source": source,
"choke": self.choke_slider["adj"].get_value(),
"size": int(round(self.size_slider["adj"].get_value())),
"offsetangle": self.angle_slider["adj"].get_value(),
"offsetdist": self.distance_spinner["adj"].get_value(),
"merge": self.cond(self.merge_check.get_active())
}
self.removeOldLayer()
fxlayer = self.makeShadow(
self.img,
self.drawable,
params["color"],
params["opacity"],
params["contour"],
params["noise"],
params["mode"],
params["source"],
params["choke"],
params["size"],
params["offsetangle"],
params["offsetdist"],
params["merge"],
0
)
if params["merge"] == 0:
self.writeParasite(self.drawable, fxlayer,
("color", self.color_button),
("floatadj", self.opacity_slider["adj"]),
("combobox", self.contour_box),
("floatadj", self.noise_slider["adj"]),
("modebox", self.mode_box),
("radio", (self.source_center_radio, self.source_edge_radio)),
("floatadj", self.choke_slider["adj"]),
("intadj", self.size_slider["adj"]),
("floatadj", self.angle_slider["adj"]),
("floatadj", self.distance_spinner["adj"]),
("check", self.merge_check),
)
shelf[self.shelfkey] = params
def resetbutton(self, widget):
self.color_button.set_color(gimpcolor.RGB(0, 0, 0, 255))
self.mode_box.set_active(MULTIPLY_MODE)
self.opacity_slider["adj"].set_value(75.0)
self.angle_slider["adj"].set_value(120.0)
self.distance_spinner["adj"].set_value(5.0)
self.source_edge_radio.set_active(True)
self.choke_slider["adj"].set_value(0.0)
self.size_slider["adj"].set_value(5)
self.contour_box.set_active(0)
self.noise_slider["adj"].set_value(0.0)
self.merge_check.set_active(False)
def readParasite(self, img, drawable):
return layerfx_base.readParasite(self, img, drawable,
layerfx_inner_shadow.shelfkey,
("color", "color"),
("opacity", "float"),
("contour", "int"),
("noise", "float"),
("mode", "int"),
("source", "int"),
("choke", "float"),
("size", "int"),
("offsetangle", "float"),
("offsetdist", "float"),
("merge", "int")
)
def preview(self, widget):
if self.layer_exists(self.previewLayer):
self.img.remove_layer(self.previewLayer)
if self.preview_check.get_active():
if pdb.gimp_image_undo_is_enabled(self.img) == 1:
pdb.gimp_image_undo_freeze(self.img)
self.unset_hidden_layer()
if self.parasitedata:
self.set_hidden_layer(self.parasitedata["oldid"])
if self.source_center_radio.get_active():
source = 0
elif self.source_edge_radio.get_active():
source = 1
if self.merge_check.get_active():
self.previewLayer = self.drawable.copy()
self.add_over_layer(self.previewLayer, self.drawable)
self.set_hidden_layer(self.drawable)
layer = self.previewLayer
merge = 1
else:
layer = self.drawable
merge = 0
self.previewLayer = self.makeShadow(
self.img,
layer,
self.color_button.get_color(),
self.opacity_slider["adj"].get_value(),
self.contour_box.get_active(),
self.noise_slider["adj"].get_value(),
self.mode_box.get_active(),
source,
self.choke_slider["adj"].get_value(),
int(round(self.size_slider["adj"].get_value())),
self.angle_slider["adj"].get_value(),
self.distance_spinner["adj"].get_value(),
merge,
1
)
else:
gimp.displays_flush()
def makeShadow(self, img, drawable, color, opacity, contour, noise, mode, source, choke, size, offsetangle, offsetdist, merge, preview):
pdb.gimp_image_undo_group_start(img)
origfgcolor = gimp.get_foreground()
origselection = pdb.gimp_selection_save(img)
growamt = int(math.ceil(size / 2.0))
chokeamt = (choke / 100.0) * size
steps = int(round(size - chokeamt))
shadowlayer = gimp.Layer(img, "%s-innershadow" % (drawable.name), drawable.width, drawable.height, (RGBA_IMAGE, GRAYA_IMAGE)[img.base_type], opacity, mode)
ang = ((offsetangle + 180) * -1) * (math.pi / 180.0)
offset = (int(round(offsetdist * math.cos(ang))), int(round(offsetdist * math.sin(ang))))
self.add_over_layer(shadowlayer, drawable)
if merge == 0 and preview == 0:
self.group_layers("%s-with-innershadow" % (drawable.name), shadowlayer, drawable)
shadowlayer.set_offsets(drawable.offsets[0], drawable.offsets[1])
pdb.gimp_selection_none(img)
gimp.set_foreground(color)
pdb.gimp_edit_fill(shadowlayer, FOREGROUND_FILL)
shadowmask = shadowlayer.create_mask(ADD_BLACK_MASK)
shadowlayer.add_mask(shadowmask)
pdb.gimp_selection_layer_alpha(drawable)
if drawable.mask != None:
pdb.gimp_selection_combine(drawable.mask, CHANNEL_OP_INTERSECT)
pdb.gimp_selection_translate(img, offset[0], offset[1])
alphaSel = pdb.gimp_selection_save(img)
if source == 1:
pdb.gimp_selection_none(img)
gimp.set_foreground(255, 255, 255)
pdb.gimp_edit_fill(shadowmask, FOREGROUND_FILL)
pdb.gimp_selection_load(alphaSel)
if steps > 0:
self.draw_blurshape(shadowmask, steps, growamt - chokeamt, alphaSel, True)
else:
pdb.gimp_selection_shrink(img, growamt)
gimp.set_foreground(0, 0, 0)
pdb.gimp_edit_fill(shadowmask, FOREGROUND_FILL)
else:
if steps > 0:
self.draw_blurshape(shadowmask, steps, growamt - chokeamt, alphaSel, False)
else:
pdb.gimp_selection_shrink(img, growamt)
gimp.set_foreground(255, 255, 255)
pdb.gimp_edit_fill(shadowmask, FOREGROUND_FILL)
pdb.gimp_selection_none(img)
if contour > 0:
self.apply_contour(shadowmask, HISTOGRAM_VALUE, contour)
if merge == 0:
pdb.gimp_selection_layer_alpha(drawable)
pdb.gimp_selection_invert(img)
gimp.set_foreground(0, 0, 0)
pdb.gimp_edit_fill(shadowmask, FOREGROUND_FILL)
if noise > 0:
self.apply_noise(drawable, shadowlayer, noise, False)
shadowlayer.remove_mask(MASK_APPLY)
if merge == 1:
if source == 1:
origmask = drawable.mask
layername = drawable.name
if origmask != None:
origmask = drawable.mask.copy()
drawable.remove_mask(MASK_DISCARD)
alphamask = drawable.create_mask(ADD_ALPHA_TRANSFER_MASK)
shadowlayer = pdb.gimp_image_merge_down(img, shadowlayer, EXPAND_AS_NECESSARY)
shadowlayer.name = layername
shadowlayer.add_mask(alphamask)
shadowlayer.remove_mask(MASK_APPLY)
if origmask != None:
shadowlayer.add_mask(origmask)
else:
origmask = drawable.mask
layername = drawable.name
if origmask != None:
origmask = drawable.mask.copy()
drawable.remove_mask(MASK_DISCARD)
shadowlayer = pdb.gimp_image_merge_down(img, shadowlayer, EXPAND_AS_NECESSARY)
shadowlayer.name = layername
if origmask != None:
shadowlayer.add_mask(origmask)
else:
pdb.gimp_image_set_active_layer(img, drawable)
gimp.set_foreground(origfgcolor)
pdb.gimp_selection_load(origselection)
img.remove_channel(alphaSel)
img.remove_channel(origselection)
gimp.displays_flush()
pdb.gimp_image_undo_group_end(img)
return shadowlayer
class layerfx_outer_glow(layerfx_base):
shelfkey = "layerfx-outer-glow"
def __init__(self, runmode, img, drawable, color, opacity, contour, noise, mode, spread, size, knockout, merge):
self.origMsgHandler = pdb.gimp_message_get_handler()
pdb.gimp_message_set_handler(ERROR_CONSOLE)
self.img = img
self.drawable = drawable
if runmode == RUN_INTERACTIVE:
self.showDialog()
elif runmode == RUN_NONINTERACTIVE:
if self.validatedata(img, drawable,
("color/gradient", color),
("percent", opacity),
("contour", contour),
("percent", noise),
("mode", mode),
("percent", spread),
("size", size),
("boolean", knockout),
("boolean", merge)
):
self.removeOldLayer()
fxlayer = self.makeGlow(img, drawable, color, opacity, contour, noise, mode, spread, size, knockout, merge, 0)
if merge == 0:
if type(color) == gimpcolor.RGB:
self.writeParasiteRaw(drawable, fxlayer, 0, color, "FG to BG (RGB)", opacity, contour, noise, mode, spread, size, knockout, merge)
else:
self.writeParasiteRaw(drawable, fxlayer, 1, gimpcolor.RGB(255, 255, 190, 255), color, opacity, contour, noise, mode, spread, size, knockout, merge)
if type(color) == gimpcolor.RGB:
shelf[self.shelfkey] = {
"filltype": 0,
"color": color,
"gradient": "FG to BG (RGB)",
"opacity": opacity,
"contour": contour,
"noise": noise,
"mode": mode,
"spread": spread,
"size": size,
"knockout": knockout,
"merge": merge
}
else:
shelf[self.shelfkey] = {
"filltype": 1,
"color": gimpcolor.RGB(255, 255, 190, 255),
"gradient": color,
"opacity": opacity,
"contour": contour,
"noise": noise,
"mode": mode,
"spread": spread,
"size": size,
"knockout": knockout,
"merge": merge
}
elif runmode == RUN_WITH_LAST_VALS and shelf.has_key(self.shelfkey) == 1:
self.removeOldLayer()
fxlayer = self.makeGlow(
img,
drawable,
self.cond(shelf[self.shelfkey]["filltype"] == 0, shelf[self.shelfkey]["color"], shelf[self.shelfkey]["gradient"]),
shelf[self.shelfkey]["opacity"],
shelf[self.shelfkey]["contour"],
shelf[self.shelfkey]["noise"],
shelf[self.shelfkey]["mode"],
shelf[self.shelfkey]["spread"],
shelf[self.shelfkey]["size"],
shelf[self.shelfkey]["knockout"],
shelf[self.shelfkey]["merge"]
)
if shelf[self.shelfkey]["merge"] == 0:
self.writeParasiteRaw(drawable, fxlayer,
shelf[self.shelfkey]["filltype"],
shelf[self.shelfkey]["color"],
shelf[self.shelfkey]["gradient"],
shelf[self.shelfkey]["opacity"],
shelf[self.shelfkey]["contour"],
shelf[self.shelfkey]["noise"],
shelf[self.shelfkey]["mode"],
shelf[self.shelfkey]["spread"],
shelf[self.shelfkey]["size"],
shelf[self.shelfkey]["knockout"],
shelf[self.shelfkey]["merge"]
)
else:
pdb.gimp_message("unknown runmode")
pdb.gimp_message_set_handler(self.origMsgHandler)
def showDialog(self):
self.dialog = gimpui.Dialog("Lueur externe", "outerglowdialog")
self.parasitedata = self.readParasite(self.img, self.drawable)
self.table = gtk.Table(7, 5, True)
self.table.set_homogeneous(True)
self.table.set_row_spacings(3)
self.table.set_col_spacings(3)
self.table.show()
self.color_label = self.make_label("Couleur:")
self.table.attach(self.color_label, 0, 1, 0, 1)
self.color_radio = gtk.RadioButton(None, None)
self.color_radio.set_alignment(1.0, 0.5)
self.gradient_radio = gtk.RadioButton(self.color_radio, None)
self.gradient_radio.set_alignment(1.0, 0.5)
if self.parasitedata:
if self.parasitedata["filltype"] == 1:
self.gradient_radio.set_active(True)
else:
self.color_radio.set_active(True)
elif shelf.has_key(self.shelfkey) == 1:
if shelf[self.shelfkey]["filltype"] == 1:
self.gradient_radio.set_active(True)
else:
self.color_radio.set_active(True)
else:
self.color_radio.set_active(True)
self.color_radio.show()
self.gradient_radio.show()
self.color_radio.connect("toggled", self.preview)
self.gradient_radio.connect("toggled", self.preview)
self.color_button = gimpui.ColorButton("Glow Color", 80, 0, gimpcolor.RGB(255, 255, 190, 255))
if self.parasitedata:
self.color_button.set_color(self.parasitedata["color"])
elif shelf.has_key(self.shelfkey) == 1:
self.color_button.set_color(shelf[self.shelfkey]["color"])
self.color_label.set_mnemonic_widget(self.color_button)
self.color_button.show()
self.color_button.connect("color-changed", self.preview)
self.gradient_button = gimpui.GradientSelector()
if self.parasitedata:
self.gradient_button.set_gradient(self.parasitedata["gradient"])
elif shelf.has_key(self.shelfkey) == 1:
self.gradient_button.set_gradient(shelf[self.shelfkey]["gradient"])
self.gradient_button.show()
self.gradient_button.connect("gradient-set", self.preview)
self.color_hbox = gtk.HBox(False, 3)
self.color_hbox.add(self.color_radio)
self.color_hbox.add(self.color_button)
self.color_hbox.show()
self.gradient_hbox = gtk.HBox(False, 3)
self.gradient_hbox.add(self.gradient_radio)
self.gradient_hbox.add(self.gradient_button)
self.gradient_hbox.show()
self.table.attach(self.color_hbox, 1, 3, 0, 1)
self.table.attach(self.gradient_hbox, 3, 5, 0, 1)
self.mode_label = self.make_label("_Mode de fusion:")
self.table.attach(self.mode_label, 0, 1, 1, 2)
self.mode_box = self.make_blend_mode_box()
if self.parasitedata:
self.mode_box.set_active(self.parasitedata["mode"])
elif shelf.has_key(self.shelfkey) == 1:
self.mode_box.set_active(shelf[self.shelfkey]["mode"])
else:
self.mode_box.set_active(SCREEN_MODE)
self.mode_label.set_mnemonic_widget(self.mode_box)
self.mode_box.show()
self.table.attach(self.mode_box, 1, 5, 1, 2)
self.mode_box.connect("changed", self.preview)
self.opacity_label = self.make_label("_Opacite:")
self.table.attach(self.opacity_label, 0, 1, 2, 3)
self.opacity_slider = self.make_slider_and_spinner(75.0, 0.0, 100.0, 1.0, 10.0, 1)
if self.parasitedata:
self.opacity_slider["adj"].set_value(self.parasitedata["opacity"])
elif shelf.has_key(self.shelfkey) == 1:
self.opacity_slider["adj"].set_value(shelf[self.shelfkey]["opacity"])
self.opacity_label.set_mnemonic_widget(self.opacity_slider["spinner"])
self.table.attach(self.opacity_slider["slider"], 1, 4, 2, 3)
self.table.attach(self.opacity_slider["spinner"], 4, 5, 2, 3)
self.opacity_slider["adj"].connect("value-changed", self.preview)
self.spread_label = self.make_label("_Grossi:")
self.table.attach(self.spread_label, 0, 1, 3, 4)
self.spread_slider = self.make_slider_and_spinner(0.0, 0.0, 100.0, 1.0, 10.0, 1)
if self.parasitedata:
self.spread_slider["adj"].set_value(self.parasitedata["spread"])
elif shelf.has_key(self.shelfkey) == 1:
self.spread_slider["adj"].set_value(shelf[self.shelfkey]["spread"])
self.spread_label.set_mnemonic_widget(self.spread_slider["spinner"])
self.table.attach(self.spread_slider["slider"], 1, 4, 3, 4)
self.table.attach(self.spread_slider["spinner"], 4, 5, 3, 4)
self.spread_slider["adj"].connect("value-changed", self.preview)
self.size_label = self.make_label("T_aille:")
self.table.attach(self.size_label, 0, 1, 4, 5)
self.size_slider = self.make_slider_and_spinner(5, 0, 250, 1, 10, 0)
if self.parasitedata:
self.size_slider["adj"].set_value(self.parasitedata["size"])
elif shelf.has_key(self.shelfkey) == 1:
self.size_slider["adj"].set_value(shelf[self.shelfkey]["size"])
self.size_label.set_mnemonic_widget(self.size_slider["spinner"])
self.table.attach(self.size_slider["slider"], 1, 4, 4, 5)
self.table.attach(self.size_slider["spinner"], 4, 5, 4, 5)
self.size_slider["adj"].connect("value-changed", self.preview)
self.contour_label = self.make_label("Con_tour:")
self.table.attach(self.contour_label, 0, 1, 5, 6)
self.contour_box = self.make_contour_box()
if self.parasitedata:
self.contour_box.set_active(self.parasitedata["contour"])
elif shelf.has_key(self.shelfkey) == 1:
self.contour_box.set_active(shelf[self.shelfkey]["contour"])
else:
self.contour_box.set_active(0)
self.contour_label.set_mnemonic_widget(self.contour_box)
self.contour_box.show()
self.table.attach(self.contour_box, 1, 5, 5, 6)
self.contour_box.connect("changed", self.preview)
self.noise_label = self.make_label("_Bruit:")
self.table.attach(self.noise_label, 0, 1, 6, 7)
self.noise_slider = self.make_slider_and_spinner(0.0, 0.0, 100.0, 1.0, 10.0, 1)
if self.parasitedata:
self.noise_slider["adj"].set_value(self.parasitedata["noise"])
elif shelf.has_key(self.shelfkey) == 1:
self.noise_slider["adj"].set_value(shelf[self.shelfkey]["noise"])
self.noise_label.set_mnemonic_widget(self.noise_slider["spinner"])
self.table.attach(self.noise_slider["slider"], 1, 4, 6, 7)
self.table.attach(self.noise_slider["spinner"], 4, 5, 6, 7)
self.noise_slider["adj"].connect("value-changed", self.preview)
self.knockout_check = gtk.CheckButton("Lueur externe masquee par le calque")
if self.parasitedata:
if self.parasitedata["knockout"] == 1:
self.knockout_check.set_active(True)
elif shelf.has_key(self.shelfkey) == 1 and shelf[self.shelfkey]["knockout"] == 1:
self.knockout_check.set_active(True)
self.knockout_check.show()
self.knockout_check.connect("toggled", self.preview)
self.merge_check = gtk.CheckButton("_Fusionner avec le calque")
if self.parasitedata:
if self.parasitedata["merge"] == 1:
self.merge_check.set_active(True)
elif shelf.has_key(self.shelfkey) == 1 and shelf[self.shelfkey]["merge"] == 1:
self.merge_check.set_active(True)
self.merge_check.show()
self.merge_check.connect("toggled", self.preview)
self.preview_check = gtk.CheckButton("_Apercu")
self.preview_check.show()
self.preview_check.connect("toggled", self.preview)
self.dialog.vbox.hbox1 = gtk.HBox(False, 7)
self.dialog.vbox.hbox1.show()
self.dialog.vbox.pack_start(self.dialog.vbox.hbox1, True, True, 7)
self.dialog.vbox.hbox1.pack_start(self.table, True, True, 7)
self.dialog.vbox.hbox2 = gtk.HBox(False, 7)
self.dialog.vbox.hbox2.show()
self.dialog.vbox.add(self.dialog.vbox.hbox2)
self.dialog.vbox.hbox2.pack_start(self.knockout_check, True, True, 10)
self.dialog.vbox.hbox3 = gtk.HBox(False, 7)
self.dialog.vbox.hbox3.show()
self.dialog.vbox.add(self.dialog.vbox.hbox3)
self.dialog.vbox.hbox3.pack_start(self.merge_check, True, True, 10)
self.dialog.vbox.hbox4 = gtk.HBox(False, 7)
self.dialog.vbox.hbox4.show()
self.dialog.vbox.add(self.dialog.vbox.hbox4)
self.dialog.vbox.hbox4.pack_start(self.preview_check, True, True, 10)
self.makeDialogButtons()
self.dialog.show()
self.dialog.run()
self.removePreviews()
def okbutton(self, widget):
if self.layer_exists(self.previewLayer):
self.img.remove_layer(self.previewLayer)
self.previewLayer = None
if pdb.gimp_image_undo_is_enabled(self.img) == 0:
pdb.gimp_image_undo_thaw(self.img)
if self.color_radio.get_active():
filltype = 0
elif self.gradient_radio.get_active():
filltype = 1
params = {
"filltype": filltype,
"color": self.color_button.get_color(),
"gradient": self.gradient_button.get_gradient(),
"opacity": self.opacity_slider["adj"].get_value(),
"contour": self.contour_box.get_active(),
"noise": self.noise_slider["adj"].get_value(),
"mode": self.mode_box.get_active(),
"spread": self.spread_slider["adj"].get_value(),
"size": int(round(self.size_slider["adj"].get_value())),
"knockout": self.cond(self.knockout_check.get_active()),
"merge": self.cond(self.merge_check.get_active())
}
self.removeOldLayer()
fxlayer = self.makeGlow(
self.img,
self.drawable,
self.cond(filltype == 0, params["color"], params["gradient"]),
params["opacity"],
params["contour"],
params["noise"],
params["mode"],
params["spread"],
params["size"],
params["knockout"],
params["merge"],
0
)
if params["merge"] == 0:
self.writeParasite(self.drawable, fxlayer,
("radio", (self.color_radio, self.gradient_radio)),
("color", self.color_button),
("gradient", self.gradient_button),
("floatadj", self.opacity_slider["adj"]),
("combobox", self.contour_box),
("floatadj", self.noise_slider["adj"]),
("modebox", self.mode_box),
("floatadj", self.spread_slider["adj"]),
("intadj", self.size_slider["adj"]),
("check", self.knockout_check),
("check", self.merge_check)
)
shelf[self.shelfkey] = params
def resetbutton(self, widget):
self.color_radio.set_active(True)
self.color_button.set_color(gimpcolor.RGB(255, 255, 190, 255))
self.gradient_button.set_gradient("FG to BG (RGB)")
self.mode_box.set_active(SCREEN_MODE)
self.opacity_slider["adj"].set_value(75.0)
self.spread_slider["adj"].set_value(0.0)
self.size_slider["adj"].set_value(5)
self.contour_box.set_active(0)
self.noise_slider["adj"].set_value(0.0)
self.knockout_check.set_active(False)
self.merge_check.set_active(False)
def readParasite(self, img, drawable):
return layerfx_base.readParasite(self, img, drawable,
layerfx_outer_glow.shelfkey,
("filltype", "int"),
("color", "color"),
("gradient", "string"),
("opacity", "float"),
("contour", "int"),
("noise", "float"),
("mode", "int"),
("spread", "float"),
("size", "int"),
("knockout", "int"),
("merge", "int")
)
def preview(self, widget, *extra):
if self.layer_exists(self.previewLayer):
self.img.remove_layer(self.previewLayer)
if self.preview_check.get_active():
if pdb.gimp_image_undo_is_enabled(self.img) == 1:
pdb.gimp_image_undo_freeze(self.img)
if self.parasitedata:
self.set_hidden_layer(self.parasitedata["oldid"])
if self.color_radio.get_active():
filltype = 0
elif self.gradient_radio.get_active():
filltype = 1
self.previewLayer = self.makeGlow(
self.img,
self.drawable,
self.cond(filltype == 0, self.color_button.get_color(), self.gradient_button.get_gradient()),
self.opacity_slider["adj"].get_value(),
self.contour_box.get_active(),
self.noise_slider["adj"].get_value(),
self.mode_box.get_active(),
self.spread_slider["adj"].get_value(),
int(round(self.size_slider["adj"].get_value())),
self.cond(self.knockout_check.get_active()),
0,
1
)
else:
gimp.displays_flush()
def makeGlow(self, img, drawable, color, opacity, contour, noise, mode, spread, size, knockout, merge, preview):
pdb.gimp_image_undo_group_start(img)
origfgcolor = gimp.get_foreground()
origgradient = pdb.gimp_context_get_gradient()
origselection = pdb.gimp_selection_save(img)
growamt = (spread / 100.0) * size
steps = int(round(size - growamt))
lyrgrowamt = int(round(size * 1.2))
glowlayer = gimp.Layer(img, "%s-outerglow" % (drawable.name), drawable.width + (lyrgrowamt * 2), drawable.height + (lyrgrowamt * 2), (RGBA_IMAGE, GRAYA_IMAGE)[img.base_type], opacity, mode)
self.add_under_layer(glowlayer, drawable)
if merge == 0 and preview == 0:
self.group_layers("%s-with-outerglow" % (drawable.name), drawable, glowlayer)
glowlayer.set_offsets(drawable.offsets[0] - lyrgrowamt, drawable.offsets[1] - lyrgrowamt)
pdb.gimp_selection_none(img)
if type(color) == gimpcolor.RGB:
gimp.set_foreground(color)
pdb.gimp_edit_fill(glowlayer, FOREGROUND_FILL)
glowmask = glowlayer.create_mask(ADD_BLACK_MASK)
glowlayer.add_mask(glowmask)
else:
gimp.set_foreground(0, 0, 0)
pdb.gimp_edit_fill(glowlayer, FOREGROUND_FILL)
glowmask = glowlayer
pdb.gimp_selection_layer_alpha(drawable)
if drawable.mask != None:
pdb.gimp_selection_combine(drawable.mask, CHANNEL_OP_INTERSECT)
alphaSel = pdb.gimp_selection_save(img)
if steps > 0:
self.draw_blurshape(glowmask, steps, size, alphaSel, False)
else:
pdb.gimp_selection_grow(img, growamt)
gimp.set_foreground(255, 255, 255)
pdb.gimp_edit_fill(glowmask, FOREGROUND_FILL)
pdb.gimp_selection_none(img)
if contour > 0:
self.apply_contour(glowmask, HISTOGRAM_VALUE, contour)
pdb.gimp_selection_load(alphaSel)
pdb.gimp_selection_grow(img, size)
pdb.gimp_selection_invert(img)
gimp.set_foreground(0, 0, 0)
pdb.gimp_edit_fill(glowmask, FOREGROUND_FILL)
pdb.gimp_selection_none(img)
if noise > 0:
self.apply_noise(drawable, glowlayer, noise, type(color) != gimpcolor.RGB)
if knockout == 1 and type(color) == gimpcolor.RGB:
gimp.set_foreground(0, 0, 0)
pdb.gimp_selection_load(alphaSel)
pdb.gimp_edit_fill(glowmask, FOREGROUND_FILL)
if type(color) != gimpcolor.RGB:
gimp.set_foreground(origfgcolor)
pdb.gimp_context_set_gradient(color)
pdb.gimp_selection_none(img)
pdb.gimp_invert(glowlayer)
pdb.plug_in_gradmap(img, glowlayer)
if glowlayer.mask != None:
glowlayer.remove_mask(MASK_APPLY)
glowlayer.add_mask(glowlayer.create_mask(ADD_BLACK_MASK))
pdb.gimp_selection_all(img)
gimp.set_foreground(255, 255, 255)
pdb.gimp_edit_fill(glowlayer.mask, FOREGROUND_FILL)
glowlayer.remove_mask(MASK_APPLY)
pdb.gimp_context_set_gradient(origgradient)
pdb.gimp_selection_load(alphaSel)
if knockout == 1:
pdb.gimp_edit_clear(glowlayer)
pdb.gimp_selection_grow(img, size)
pdb.gimp_selection_invert(img)
pdb.gimp_edit_clear(glowlayer)
else:
glowlayer.remove_mask(MASK_APPLY)
pdb.gimp_selection_none(img)
if merge == 1:
origmask = drawable.mask
layername = drawable.name
if origmask != None:
drawable.remove_mask(MASK_APPLY)
glowlayer = pdb.gimp_image_merge_down(img, drawable, EXPAND_AS_NECESSARY)
glowlayer.name = layername
else:
pdb.gimp_image_set_active_layer(img, drawable)
gimp.set_foreground(origfgcolor)
pdb.gimp_selection_load(origselection)
img.remove_channel(alphaSel)
img.remove_channel(origselection)
gimp.displays_flush()
pdb.gimp_image_undo_group_end(img)
return glowlayer
class layerfx_inner_glow(layerfx_base):
shelfkey = "layerfx-inner-glow"
def __init__(self, runmode, img, drawable, color, opacity, contour, noise, mode, source, choke, size, merge):
self.origMsgHandler = pdb.gimp_message_get_handler()
pdb.gimp_message_set_handler(ERROR_CONSOLE)
self.img = img
self.drawable = drawable
if runmode == RUN_INTERACTIVE:
self.showDialog()
elif runmode == RUN_NONINTERACTIVE:
if self.validatedata(img, drawable,
("color/gradient", color),
("percent", opacity),
("contour", contour),
("percent", noise),
("mode", mode),
("boolean", source),
("percent", choke),
("size", size),
("boolean", merge)
):
self.removeOldLayer()
fxlayer = self.makeGlow(img, drawable, color, opacity, contour, noise, mode, source, choke, size, merge, 0)
if merge == 0:
if type(color) == gimpcolor.RGB:
self.writeParasiteRaw(drawable, fxlayer, 0, color, "FG to BG (RGB)", opacity, contour, noise, mode, source, choke, size, merge)
else:
self.writeParasiteRaw(drawable, fxlayer, 1, gimpcolor.RGB(255, 255, 190, 255), color, opacity, contour, noise, mode, source, choke, size, merge)
if type(color) == gimpcolor.RGB:
shelf[self.shelfkey] = {
"filltype": 0,
"color": color,
"gradient": "FG to BG (RGB)",
"opacity": opacity,
"contour": contour,
"noise": noise,
"mode": mode,
"source": source,
"choke": choke,
"size": size,
"merge": merge
}
else:
shelf[self.shelfkey] = {
"filltype": 1,
"color": gimpcolor.RGB(255, 255, 190, 255),
"gradient": color,
"opacity": opacity,
"contour": contour,
"noise": noise,
"mode": mode,
"source": source,
"choke": choke,
"size": size,
"merge": merge
}
elif runmode == RUN_WITH_LAST_VALS and shelf.has_key(self.shelfkey) == 1:
self.removeOldLayer()
fxlayer = self.makeGlow(
img,
drawable,
self.cond(shelf[self.shelfkey]["filltype"] == 0, shelf[self.shelfkey]["color"], shelf[self.shelfkey]["gradient"]),
shelf[self.shelfkey]["opacity"],
shelf[self.shelfkey]["contour"],
shelf[self.shelfkey]["noise"],
shelf[self.shelfkey]["mode"],
shelf[self.shelfkey]["source"],
shelf[self.shelfkey]["choke"],
shelf[self.shelfkey]["size"],
shelf[self.shelfkey]["merge"],
0
)
if shelf[self.shelfkey]["merge"] == 0:
self.writeParasiteRaw(drawable, fxlayer,
shelf[self.shelfkey]["filltype"],
shelf[self.shelfkey]["color"],
shelf[self.shelfkey]["gradient"],
shelf[self.shelfkey]["opacity"],
shelf[self.shelfkey]["contour"],
shelf[self.shelfkey]["noise"],
shelf[self.shelfkey]["mode"],
shelf[self.shelfkey]["source"],
shelf[self.shelfkey]["choke"],
shelf[self.shelfkey]["size"],
shelf[self.shelfkey]["merge"]
)
else:
pdb.gimp_message("unknown runmode")
pdb.gimp_message_set_handler(self.origMsgHandler)
def showDialog(self):
self.dialog = gimpui.Dialog("Lueur interne", "innerglowdialog")
self.parasitedata = self.readParasite(self.img, self.drawable)
self.table = gtk.Table(8, 5, True)
self.table.set_homogeneous(True)
self.table.set_row_spacings(3)
self.table.set_col_spacings(3)
self.table.show()
self.color_label = self.make_label("Couleur:")
self.table.attach(self.color_label, 0, 1, 0, 1)
self.color_radio = gtk.RadioButton(None, None)
self.color_radio.set_alignment(1.0, 0.5)
self.gradient_radio = gtk.RadioButton(self.color_radio, None)
self.gradient_radio.set_alignment(1.0, 0.5)
if self.parasitedata:
if self.parasitedata["filltype"] == 1:
self.gradient_radio.set_active(True)
else:
self.color_radio.set_active(True)
elif shelf.has_key(self.shelfkey) == 1:
if shelf[self.shelfkey]["filltype"] == 1:
self.gradient_radio.set_active(True)
else:
self.color_radio.set_active(True)
else:
self.color_radio.set_active(True)
self.color_radio.show()
self.gradient_radio.show()
self.color_radio.connect("toggled", self.preview)
self.gradient_radio.connect("toggled", self.preview)
self.color_button = gimpui.ColorButton("Glow Color", 80, 0, gimpcolor.RGB(255, 255, 190, 255))
if self.parasitedata:
self.color_button.set_color(self.parasitedata["color"])
elif shelf.has_key(self.shelfkey) == 1:
self.color_button.set_color(shelf[self.shelfkey]["color"])
self.color_label.set_mnemonic_widget(self.color_button)
self.color_button.show()
self.color_button.connect("color-changed", self.preview)
self.gradient_button = gimpui.GradientSelector()
if self.parasitedata:
self.gradient_button.set_gradient(self.parasitedata["gradient"])
elif shelf.has_key(self.shelfkey) == 1:
self.gradient_button.set_gradient(shelf[self.shelfkey]["gradient"])
self.gradient_button.show()
self.gradient_button.connect("gradient-set", self.preview)
self.color_hbox = gtk.HBox(False, 3)
self.color_hbox.add(self.color_radio)
self.color_hbox.add(self.color_button)
self.color_hbox.show()
self.gradient_hbox = gtk.HBox(False, 3)
self.gradient_hbox.add(self.gradient_radio)
self.gradient_hbox.add(self.gradient_button)
self.gradient_hbox.show()
self.table.attach(self.color_hbox, 1, 3, 0, 1)
self.table.attach(self.gradient_hbox, 3, 5, 0, 1)
self.mode_label = self.make_label("_Mode de fusion:")
self.table.attach(self.mode_label, 0, 1, 1, 2)
self.mode_box = self.make_blend_mode_box()
if self.parasitedata:
self.mode_box.set_active(self.parasitedata["mode"])
elif shelf.has_key(self.shelfkey) == 1:
self.mode_box.set_active(shelf[self.shelfkey]["mode"])
else:
self.mode_box.set_active(SCREEN_MODE)
self.mode_label.set_mnemonic_widget(self.mode_box)
self.mode_box.show()
self.table.attach(self.mode_box, 1, 5, 1, 2)
self.mode_box.connect("changed", self.preview)
self.opacity_label = self.make_label("_Opacite:")
self.table.attach(self.opacity_label, 0, 1, 2, 3)
self.opacity_slider = self.make_slider_and_spinner(75.0, 0.0, 100.0, 1.0, 10.0, 1)
if self.parasitedata:
self.opacity_slider["adj"].set_value(self.parasitedata["opacity"])
elif shelf.has_key(self.shelfkey) == 1:
self.opacity_slider["adj"].set_value(shelf[self.shelfkey]["opacity"])
self.opacity_label.set_mnemonic_widget(self.opacity_slider["spinner"])
self.table.attach(self.opacity_slider["slider"], 1, 4, 2, 3)
self.table.attach(self.opacity_slider["spinner"], 4, 5, 2, 3)
self.opacity_slider["adj"].connect("value-changed", self.preview)
self.source_label = self.make_label("Source:")
self.table.attach(self.source_label, 0, 1, 3, 4)
self.source_center_radio = gtk.RadioButton(None, "Cent_re", True)
self.source_edge_radio = gtk.RadioButton(self.source_center_radio, "Contour", True)
if self.parasitedata:
if self.parasitedata["source"] == 0:
self.source_center_radio.set_active(True)
elif self.parasitedata["source"] == 1:
self.source_edge_radio.set_active(True)
elif shelf.has_key(self.shelfkey) == 1:
if shelf[self.shelfkey]["source"] == 0:
self.source_center_radio.set_active(True)
elif shelf[self.shelfkey]["source"] == 1:
self.source_edge_radio.set_active(True)
else:
self.source_edge_radio.set_active(True)
self.source_center_radio.show()
self.table.attach(self.source_center_radio, 1, 2, 3, 4)
self.source_edge_radio.show()
self.table.attach(self.source_edge_radio, 2, 3, 3, 4)
self.source_center_radio.connect("toggled", self.preview)
self.source_edge_radio.connect("toggled", self.preview)
self.choke_label = self.make_label("C_ontour:")
self.table.attach(self.choke_label, 0, 1, 4, 5)
self.choke_slider = self.make_slider_and_spinner(0.0, 0.0, 100.0, 1.0, 10.0, 1)
if self.parasitedata:
self.choke_slider["adj"].set_value(self.parasitedata["choke"])
elif shelf.has_key(self.shelfkey) == 1:
self.choke_slider["adj"].set_value(shelf[self.shelfkey]["choke"])
self.choke_label.set_mnemonic_widget(self.choke_slider["spinner"])
self.table.attach(self.choke_slider["slider"], 1, 4, 4, 5)
self.table.attach(self.choke_slider["spinner"], 4, 5, 4, 5)
self.choke_slider["adj"].connect("value-changed", self.preview)
self.size_label = self.make_label("T_aille:")
self.table.attach(self.size_label, 0, 1, 5, 6)
self.size_slider = self.make_slider_and_spinner(5, 0, 250, 1, 10, 0)
if self.parasitedata:
self.size_slider["adj"].set_value(self.parasitedata["size"])
elif shelf.has_key(self.shelfkey) == 1:
self.size_slider["adj"].set_value(shelf[self.shelfkey]["size"])
self.size_label.set_mnemonic_widget(self.size_slider["spinner"])
self.table.attach(self.size_slider["slider"], 1, 4, 5, 6)
self.table.attach(self.size_slider["spinner"], 4, 5, 5, 6)
self.size_slider["adj"].connect("value-changed", self.preview)
self.contour_label = self.make_label("Con_tour:")
self.table.attach(self.contour_label, 0, 1, 6, 7)
self.contour_box = self.make_contour_box()
if self.parasitedata:
self.contour_box.set_active(self.parasitedata["contour"])
elif shelf.has_key(self.shelfkey) == 1:
self.contour_box.set_active(shelf[self.shelfkey]["contour"])
else:
self.contour_box.set_active(0)
self.contour_label.set_mnemonic_widget(self.contour_box)
self.contour_box.show()
self.table.attach(self.contour_box, 1, 5, 6, 7)
self.contour_box.connect("changed", self.preview)
self.noise_label = self.make_label("Bruit:")
self.table.attach(self.noise_label, 0, 1, 7, 8)
self.noise_slider = self.make_slider_and_spinner(0.0, 0.0, 100.0, 1.0, 10.0, 1)
if self.parasitedata:
self.noise_slider["adj"].set_value(self.parasitedata["noise"])
elif shelf.has_key(self.shelfkey) == 1:
self.noise_slider["adj"].set_value(shelf[self.shelfkey]["noise"])
self.noise_label.set_mnemonic_widget(self.noise_slider["spinner"])
self.table.attach(self.noise_slider["slider"], 1, 4, 7, 8)
self.table.attach(self.noise_slider["spinner"], 4, 5, 7, 8)
self.noise_slider["adj"].connect("value-changed", self.preview)
self.merge_check = gtk.CheckButton("_Fusionner avec le calque")
if self.parasitedata:
if self.parasitedata["merge"] == 1:
self.merge_check.set_active(True)
elif shelf.has_key(self.shelfkey) == 1 and shelf[self.shelfkey]["merge"] == 1:
self.merge_check.set_active(True)
self.merge_check.show()
self.merge_check.connect("toggled", self.preview)
self.preview_check = gtk.CheckButton("_Apercu")
self.preview_check.show()
self.preview_check.connect("toggled", self.preview)
self.dialog.vbox.hbox1 = gtk.HBox(False, 7)
self.dialog.vbox.hbox1.show()
self.dialog.vbox.pack_start(self.dialog.vbox.hbox1, True, True, 7)
self.dialog.vbox.hbox1.pack_start(self.table, True, True, 7)
self.dialog.vbox.hbox2 = gtk.HBox(False, 7)
self.dialog.vbox.hbox2.show()
self.dialog.vbox.add(self.dialog.vbox.hbox2)
self.dialog.vbox.hbox2.pack_start(self.merge_check, True, True, 10)
self.dialog.vbox.hbox3 = gtk.HBox(False, 7)
self.dialog.vbox.hbox3.show()
self.dialog.vbox.add(self.dialog.vbox.hbox3)
self.dialog.vbox.hbox3.pack_start(self.preview_check, True, True, 10)
self.makeDialogButtons()
self.dialog.show()
self.dialog.run()
self.removePreviews()
def okbutton(self, widget):
if self.layer_exists(self.previewLayer):
self.img.remove_layer(self.previewLayer)
self.previewLayer = None
self.unset_hidden_layer()
if pdb.gimp_image_undo_is_enabled(self.img) == 0:
pdb.gimp_image_undo_thaw(self.img)
if self.color_radio.get_active():
filltype = 0
elif self.gradient_radio.get_active():
filltype = 1
if self.source_center_radio.get_active():
source = 0
elif self.source_edge_radio.get_active():
source = 1
params = {
"filltype": filltype,
"color": self.color_button.get_color(),
"gradient": self.gradient_button.get_gradient(),
"opacity": self.opacity_slider["adj"].get_value(),
"contour": self.contour_box.get_active(),
"noise": self.noise_slider["adj"].get_value(),
"mode": self.mode_box.get_active(),
"source": source,
"choke": self.choke_slider["adj"].get_value(),
"size": int(round(self.size_slider["adj"].get_value())),
"merge": self.cond(self.merge_check.get_active())
}
if self.parasitedata:
self.img.remove_layer(self.parasitedata["oldid"])
fxlayer = self.makeGlow(
self.img,
self.drawable,
self.cond(filltype == 0, params["color"], params["gradient"]),
params["opacity"],
params["contour"],
params["noise"],
params["mode"],
params["source"],
params["choke"],
params["size"],
params["merge"],
0
)
if params["merge"] == 0:
self.writeParasite(self.drawable, fxlayer,
("radio", (self.color_radio, self.gradient_radio)),
("color", self.color_button),
("gradient", self.gradient_button),
("floatadj", self.opacity_slider["adj"]),
("combobox", self.contour_box),
("floatadj", self.noise_slider["adj"]),
("modebox", self.mode_box),
("radio", (self.source_center_radio, self.source_edge_radio)),
("floatadj", self.choke_slider["adj"]),
("intadj", self.size_slider["adj"]),
("check", self.merge_check),
)
shelf[self.shelfkey] = params
def resetbutton(self, widget):
self.color_radio.set_active(True)
self.color_button.set_color(gimpcolor.RGB(255, 255, 190, 255))
self.gradient_button.set_gradient("FG to BG (RGB)")
self.mode_box.set_active(SCREEN_MODE)
self.opacity_slider["adj"].set_value(75.0)
self.source_edge_radio.set_active(True)
self.choke_slider["adj"].set_value(0.0)
self.size_slider["adj"].set_value(5)
self.contour_box.set_active(0)
self.noise_slider["adj"].set_value(0.0)
self.merge_check.set_active(False)
def readParasite(self, img, drawable):
return layerfx_base.readParasite(self, img, drawable,
layerfx_inner_glow.shelfkey,
("filltype", "int"),
("color", "color"),
("gradient", "string"),
("opacity", "float"),
("contour", "int"),
("noise", "float"),
("mode", "int"),
("source", "int"),
("choke", "float"),
("size", "int"),
("merge", "int")
)
def preview(self, widget, *extra):
if self.layer_exists(self.previewLayer):
self.img.remove_layer(self.previewLayer)
if self.preview_check.get_active():
self.unset_hidden_layer()
if pdb.gimp_image_undo_is_enabled(self.img) == 1:
pdb.gimp_image_undo_freeze(self.img)
if self.parasitedata:
self.set_hidden_layer(self.parasitedata["oldid"])
if self.color_radio.get_active():
filltype = 0
elif self.gradient_radio.get_active():
filltype = 1
if self.source_center_radio.get_active():
source = 0
elif self.source_edge_radio.get_active():
source = 1
if self.merge_check.get_active():
self.previewLayer = self.drawable.copy()
self.add_over_layer(self.previewLayer, self.drawable)
self.set_hidden_layer(self.drawable)
layer = self.previewLayer
merge = 1
else:
layer = self.drawable
merge = 0
self.previewLayer = self.makeGlow(
self.img,
layer,
self.cond(filltype == 0, self.color_button.get_color(), self.gradient_button.get_gradient()),
self.opacity_slider["adj"].get_value(),
self.contour_box.get_active(),
self.noise_slider["adj"].get_value(),
self.mode_box.get_active(),
source,
self.choke_slider["adj"].get_value(),
int(round(self.size_slider["adj"].get_value())),
merge,
1
)
else:
gimp.displays_flush()
def makeGlow(self, img, drawable, color, opacity, contour, noise, mode, source, choke, size, merge, preview):
pdb.gimp_image_undo_group_start(img)
origfgcolor = gimp.get_foreground()
origgradient = pdb.gimp_context_get_gradient()
origselection = pdb.gimp_selection_save(img)
chokeamt = (choke / 100.0) * size
steps = int(round(size - chokeamt))
glowlayer = gimp.Layer(img, "%s-innerglow" % (drawable.name), drawable.width, drawable.height, (RGBA_IMAGE, GRAYA_IMAGE)[img.base_type], opacity, mode)
self.add_over_layer(glowlayer, drawable)
if merge == 0 and preview == 0:
self.group_layers("%s-with-innerglow" % (drawable.name), glowlayer, drawable)
glowlayer.set_offsets(drawable.offsets[0], drawable.offsets[1])
pdb.gimp_selection_none(img)
if type(color) == gimpcolor.RGB:
gimp.set_foreground(color)
pdb.gimp_edit_fill(glowlayer, FOREGROUND_FILL)
glowmask = glowlayer.create_mask(ADD_BLACK_MASK)
glowlayer.add_mask(glowmask)
else:
if source == 0:
gimp.set_foreground(0, 0, 0)
else:
gimp.set_foreground(255, 255, 255)
pdb.gimp_edit_fill(glowlayer, FOREGROUND_FILL)
glowmask = glowlayer
pdb.gimp_selection_layer_alpha(drawable)
if drawable.mask != None:
pdb.gimp_selection_combine(drawable.mask, CHANNEL_OP_INTERSECT)
alphaSel = pdb.gimp_selection_save(img)
if source == 1:
pdb.gimp_selection_none(img)
gimp.set_foreground(255, 255, 255)
pdb.gimp_edit_fill(glowmask, FOREGROUND_FILL)
pdb.gimp_selection_load(alphaSel)
if steps > 0:
self.draw_blurshape(glowmask, steps, (chokeamt * -1) - 1, alphaSel, True)
else:
pdb.gimp_selection_shrink(img, chokeamt)
gimp.set_foreground(0, 0, 0)
pdb.gimp_edit_fill(glowmask, FOREGROUND_FILL)
else:
if steps > 0:
self.draw_blurshape(glowmask, steps, chokeamt * -1, alphaSel, False)
else:
pdb.gimp_selection_shrink(img, chokeamt)
gimp.set_foreground(255, 255, 255)
pdb.gimp_edit_fill(glowmask, FOREGROUND_FILL)
pdb.gimp_selection_none(img)
if contour > 0:
self.apply_contour(glowmask, HISTOGRAM_VALUE, contour)
if type(color) == gimpcolor.RGB and source == 1 and merge == 0:
pdb.gimp_selection_load(alphaSel)
pdb.gimp_selection_invert(img)
gimp.set_foreground(0, 0, 0)
pdb.gimp_edit_fill(glowmask, FOREGROUND_FILL)
if noise > 0:
self.apply_noise(drawable, glowlayer, noise, type(color) != gimpcolor.RGB)
if type(color) != gimpcolor.RGB:
gimp.set_foreground(origfgcolor)
pdb.gimp_context_set_gradient(color)
pdb.gimp_selection_none(img)
pdb.gimp_invert(glowlayer)
pdb.plug_in_gradmap(img, glowlayer)
pdb.gimp_context_set_gradient(origgradient)
pdb.gimp_selection_load(alphaSel)
if merge == 0:
pdb.gimp_selection_invert(img)
pdb.gimp_edit_clear(glowlayer)
pdb.gimp_selection_invert(img)
pdb.gimp_selection_shrink(img, size)
pdb.gimp_edit_clear(glowlayer)
if glowlayer.mask != None:
glowlayer.remove_mask(MASK_APPLY)
else:
glowlayer.remove_mask(MASK_APPLY)
if merge == 1:
origmask = drawable.mask
layername = drawable.name
if origmask != None:
origmask = drawable.mask.copy()
drawable.remove_mask(MASK_DISCARD)
if source == 1 or type(color) != gimpcolor.RGB:
alphamask = drawable.create_mask(ADD_ALPHA_TRANSFER_MASK)
glowlayer = pdb.gimp_image_merge_down(img, glowlayer, EXPAND_AS_NECESSARY)
glowlayer.name = layername
if source == 1 or type(color) != gimpcolor.RGB:
glowlayer.add_mask(alphamask)
glowlayer.remove_mask(MASK_APPLY)
if origmask != None:
glowlayer.add_mask(origmask)
else:
pdb.gimp_image_set_active_layer(img, drawable)
gimp.set_foreground(origfgcolor)
pdb.gimp_selection_load(origselection)
img.remove_channel(alphaSel)
img.remove_channel(origselection)
gimp.displays_flush()
pdb.gimp_image_undo_group_end(img)
return glowlayer
class layerfx_bevel_emboss(layerfx_base):
shelfkey = "layerfx-bevel-emboss"
def __init__(self, runmode, img, drawable, style, depth, direction, size, soften, angle, altitude, glosscontour, highlightcolor, highlightmode, highlightopacity, shadowcolor, shadowmode, shadowopacity, surfacecontour, use_texture, pattern, scale, tex_depth, invert, merge):
self.origMsgHandler = pdb.gimp_message_get_handler()
pdb.gimp_message_set_handler(ERROR_CONSOLE)
self.img = img
self.drawable = drawable
if runmode == RUN_INTERACTIVE:
self.showDialog()
elif runmode == RUN_NONINTERACTIVE:
if self.validatedata(img, drawable,
("intrange", style, 0, 3),
("intrange", depth, 1, 65),
("boolean", direction),
("size", size),
("intrange", soften, 0, 16),
("angle", angle),
("floatrange", altitude, 0.0, 90.0),
("contour", glosscontour),
("color", highlightcolor),
("mode", highlightmode),
("percent", highlightopacity),
("color", shadowcolor),
("mode", shadowmode),
("percent", shadowopacity),
("contour", surfacecontour),
("boolean", use_texture),
("pattern", pattern),
("floatrange", scale, 1.0, 1000.0),
("floatrange", tex_depth, -1000.0, 1000.0),
("boolean", invert),
("boolean", merge)
):
self.removeOldLayer()
fxlayer = self.makeBevel(img, drawable, style, depth, direction, size, soften, angle, altitude, glosscontour, highlightcolor, highlightmode, highlightopacity, shadowcolor, shadowmode, shadowopacity, surfacecontour, use_texture, pattern, scale, tex_depth, invert, merge, 0)
if merge == 0:
self.writeParasiteRaw(drawable, fxlayer, style, depth, direction, size, soften, angle, altitude, glosscontour, highlightcolor, highlightmode, highlightopacity, shadowcolor, shadowmode, shadowopacity, surfacecontour, use_texture, pattern, scale, tex_depth, invert, merge)
shelf[self.shelfkey] = {
"style": style,
"depth": depth,
"direction": direction,
"size": size,
"soften": soften,
"angle": angle,
"altitude": altitude,
"glosscontour": glosscontour,
"highlightcolor": highlightcolor,
"highlightmode": highlightmode,
"highlightopacity": highlightopacity,
"shadowcolor": shadowcolor,
"shadowmode": shadowmode,
"shadowopacity": shadowopacity,
"surfacecontour": surfacecontour,
"use_texture": use_texture,
"pattern": pattern,
"scale": scale,
"tex_depth": tex_depth,
"invert": invert,
"merge": merge
}
elif runmode == RUN_WITH_LAST_VALS and shelf.has_key(self.shelfkey) == 1:
self.removeOldLayer()
fxlayer = self.makeBevel(
img,
drawable,
shelf[self.shelfkey]["style"],
shelf[self.shelfkey]["depth"],
shelf[self.shelfkey]["direction"],
shelf[self.shelfkey]["size"],
shelf[self.shelfkey]["soften"],
shelf[self.shelfkey]["angle"],
shelf[self.shelfkey]["altitude"],
shelf[self.shelfkey]["glosscontour"],
shelf[self.shelfkey]["highlightcolor"],
shelf[self.shelfkey]["highlightmode"],
shelf[self.shelfkey]["highlightopacity"],
shelf[self.shelfkey]["shadowcolor"],
shelf[self.shelfkey]["shadowmode"],
shelf[self.shelfkey]["shadowopacity"],
shelf[self.shelfkey]["surfacecontour"],
shelf[self.shelfkey]["use_texture"],
shelf[self.shelfkey]["pattern"],
shelf[self.shelfkey]["scale"],
shelf[self.shelfkey]["tex_depth"],
shelf[self.shelfkey]["invert"],
shelf[self.shelfkey]["merge"],
0
)
if shelf[self.shelfkey]["merge"] == 0:
self.writeParasiteRaw(drawable, fxlayer,
shelf[self.shelfkey]["style"],
shelf[self.shelfkey]["depth"],
shelf[self.shelfkey]["direction"],
shelf[self.shelfkey]["size"],
shelf[self.shelfkey]["soften"],
shelf[self.shelfkey]["angle"],
shelf[self.shelfkey]["altitude"],
shelf[self.shelfkey]["glosscontour"],
shelf[self.shelfkey]["highlightcolor"],
shelf[self.shelfkey]["highlightmode"],
shelf[self.shelfkey]["highlightopacity"],
shelf[self.shelfkey]["shadowcolor"],
shelf[self.shelfkey]["shadowmode"],
shelf[self.shelfkey]["shadowopacity"],
shelf[self.shelfkey]["surfacecontour"],
shelf[self.shelfkey]["use_texture"],
shelf[self.shelfkey]["pattern"],
shelf[self.shelfkey]["scale"],
shelf[self.shelfkey]["tex_depth"],
shelf[self.shelfkey]["invert"],
shelf[self.shelfkey]["merge"]
)
else:
pdb.gimp_message("unknown runmode")
pdb.gimp_message_set_handler(self.origMsgHandler)
def showDialog(self):
self.dialog = gimpui.Dialog("Biseautage et Estampage", "bevelembossdialog")
self.parasitedata = self.readParasite(self.img, self.drawable)
self.structframe = gimpui.Frame("Structure")
self.structframe.show()
self.structtable = gtk.Table(6, 6, True)
self.structtable.set_homogeneous(True)
self.structtable.set_row_spacings(3)
self.structtable.set_col_spacings(3)
self.structtable.show()
self.structframe.add(self.structtable)
self.style_label = self.make_label("S_tyle:")
self.structtable.attach(self.style_label, 0, 2, 0, 1)
self.style_box = self.make_combo_box("Biseau Externe", "Biseau Interne", "Estampage", "Estampage Oreiller (biseau interne inverse)")
if self.parasitedata:
self.style_box.set_active(self.parasitedata["style"])
elif shelf.has_key(self.shelfkey) == 1:
self.style_box.set_active(shelf[self.shelfkey]["style"])
else:
self.style_box.set_active(0)
self.style_box.show()
self.style_label.set_mnemonic_widget(self.style_box)
self.structtable.attach(self.style_box, 2, 6, 0, 1)
self.style_box.connect("changed", self.preview)
self.depth_label = self.make_label("_Profondeur:")
self.structtable.attach(self.depth_label, 0, 2, 1, 2)
self.depth_slider = self.make_slider_and_spinner(3, 1, 65, 1, 10, 0)
if self.parasitedata:
self.depth_slider["adj"].set_value(self.parasitedata["depth"])
elif shelf.has_key(self.shelfkey) == 1:
self.depth_slider["adj"].set_value(shelf[self.shelfkey]["depth"])
self.depth_label.set_mnemonic_widget(self.depth_slider["spinner"])
self.structtable.attach(self.depth_slider["slider"], 2, 5, 1, 2)
self.structtable.attach(self.depth_slider["spinner"], 5, 6, 1, 2)
self.depth_slider["adj"].connect("value-changed", self.preview)
self.direction_label = self.make_label("Direction:")
self.structtable.attach(self.direction_label, 0, 2, 2, 3)
self.direction_up_radio = gtk.RadioButton(None, "Haut", True)
self.direction_down_radio = gtk.RadioButton(self.direction_up_radio, "Bas", True)
if self.parasitedata:
if self.parasitedata["direction"] == 0:
self.direction_up_radio.set_active(True)
elif self.parasitedata["direction"] == 1:
self.direction_down_radio.set_active(True)
elif shelf.has_key(self.shelfkey) == 1:
if shelf[self.shelfkey]["direction"] == 0:
self.direction_up_radio.set_active(True)
elif shelf[self.shelfkey]["direction"] == 1:
self.direction_down_radio.set_active(True)
else:
self.direction_up_radio.set_active(True)
self.direction_up_radio.show()
self.structtable.attach(self.direction_up_radio, 2, 3, 2, 3)
self.direction_down_radio.show()
self.structtable.attach(self.direction_down_radio, 3, 4, 2, 3)
self.direction_up_radio.connect("toggled", self.preview)
self.direction_down_radio.connect("toggled", self.preview)
self.size_label = self.make_label("T_aille:")
self.structtable.attach(self.size_label, 0, 2, 3, 4)
self.size_slider = self.make_slider_and_spinner(5, 0, 250, 1, 10, 0)
if self.parasitedata:
self.size_slider["adj"].set_value(self.parasitedata["size"])
elif shelf.has_key(self.shelfkey) == 1:
self.size_slider["adj"].set_value(shelf[self.shelfkey]["size"])
self.size_label.set_mnemonic_widget(self.size_slider["spinner"])
self.structtable.attach(self.size_slider["slider"], 2, 5, 3, 4)
self.structtable.attach(self.size_slider["spinner"], 5, 6, 3, 4)
self.size_slider["adj"].connect("value-changed", self.preview)
self.soften_label = self.make_label("F_lou:")
self.structtable.attach(self.soften_label, 0, 2, 4, 5)
self.soften_slider = self.make_slider_and_spinner(0, 0, 16, 1, 2, 0)
if self.parasitedata:
self.soften_slider["adj"].set_value(self.parasitedata["soften"])
elif shelf.has_key(self.shelfkey) == 1:
self.soften_slider["adj"].set_value(shelf[self.shelfkey]["soften"])
self.soften_label.set_mnemonic_widget(self.soften_slider["spinner"])
self.structtable.attach(self.soften_slider["slider"], 2, 5, 4, 5)
self.structtable.attach(self.soften_slider["spinner"], 5, 6, 4, 5)
self.soften_slider["adj"].connect("value-changed", self.preview)
self.surfacecontour_label = self.make_label("Contour de la Surface:")
self.structtable.attach(self.surfacecontour_label, 0, 2, 5, 6)
self.surfacecontour_box = self.make_contour_box()
if self.parasitedata:
self.surfacecontour_box.set_active(self.parasitedata["surfacecontour"])
elif shelf.has_key(self.shelfkey) == 1:
self.surfacecontour_box.set_active(shelf[self.shelfkey]["surfacecontour"])
else:
self.surfacecontour_box.set_active(0)
self.surfacecontour_label.set_mnemonic_widget(self.surfacecontour_box)
self.surfacecontour_box.show()
self.structtable.attach(self.surfacecontour_box, 2, 6, 5, 6)
self.surfacecontour_box.connect("changed", self.preview)
self.shadeframe = gimpui.Frame("Ombrage")
self.shadeframe.show()
self.shadetable = gtk.Table(7, 6, True)
self.shadetable.set_homogeneous(True)
self.shadetable.set_row_spacings(3)
self.shadetable.set_col_spacings(3)
self.shadetable.show()
self.shadeframe.add(self.shadetable)
self.angle_label = self.make_label("_Angle:")
self.shadetable.attach(self.angle_label, 0, 2, 0, 1)
self.angle_slider = self.make_slider_and_spinner(120.0, -180.0, 180.0, 1.0, 10.0, 1)
if self.parasitedata:
self.angle_slider["adj"].set_value(self.parasitedata["angle"])
elif shelf.has_key(self.shelfkey) == 1:
self.angle_slider["adj"].set_value(shelf[self.shelfkey]["angle"])
self.angle_label.set_mnemonic_widget(self.angle_slider["spinner"])
self.shadetable.attach(self.angle_slider["slider"], 2, 5, 0, 1)
self.shadetable.attach(self.angle_slider["spinner"], 5, 6, 0, 1)
self.angle_slider["adj"].connect("value-changed", self.preview)
self.altitude_label = self.make_label("_Elevation:")
self.shadetable.attach(self.altitude_label, 0, 2, 1, 2)
self.altitude_slider = self.make_slider_and_spinner(30.0, 0.0, 90.0, 1.0, 10.0, 1)
if self.parasitedata:
self.altitude_slider["adj"].set_value(self.parasitedata["altitude"])
elif shelf.has_key(self.shelfkey) == 1:
self.altitude_slider["adj"].set_value(shelf[self.shelfkey]["altitude"])
self.altitude_label.set_mnemonic_widget(self.altitude_slider["spinner"])
self.shadetable.attach(self.altitude_slider["slider"], 2, 5, 1, 2)
self.shadetable.attach(self.altitude_slider["spinner"], 5, 6, 1, 2)
self.altitude_slider["adj"].connect("value-changed", self.preview)
self.glosscontour_label = self.make_label("Contour Brillant:")
self.shadetable.attach(self.glosscontour_label, 0, 2, 2, 3)
self.glosscontour_box = self.make_contour_box()
if self.parasitedata:
self.glosscontour_box.set_active(self.parasitedata["glosscontour"])
elif shelf.has_key(self.shelfkey) == 1:
self.glosscontour_box.set_active(shelf[self.shelfkey]["glosscontour"])
else:
self.glosscontour_box.set_active(0)
self.glosscontour_label.set_mnemonic_widget(self.glosscontour_box)
self.glosscontour_box.show()
self.shadetable.attach(self.glosscontour_box, 2, 6, 2, 3)
self.glosscontour_box.connect("changed", self.preview)
self.highlightmode_label = self.make_label("Mode des tons clairs:")
self.shadetable.attach(self.highlightmode_label, 0, 2, 3, 4)
self.highlightmode_box = self.make_blend_mode_box()
if self.parasitedata:
self.highlightmode_box.set_active(self.parasitedata["highlightmode"])
elif shelf.has_key(self.shelfkey) == 1:
self.highlightmode_box.set_active(shelf[self.shelfkey]["highlightmode"])
else:
self.highlightmode_box.set_active(SCREEN_MODE)
self.highlightmode_label.set_mnemonic_widget(self.highlightmode_box)
self.highlightmode_box.show()
self.shadetable.attach(self.highlightmode_box, 2, 4, 3, 4)
self.highlightmode_box.connect("changed", self.preview)
self.highlightcolor_label = self.make_label("Couleur:")
self.shadetable.attach(self.highlightcolor_label, 4, 5, 3, 4)
self.highlightcolor_button = gimpui.ColorButton("Highlight Color", 10, 10, gimpcolor.RGB(255, 255, 255, 255))
if self.parasitedata:
self.highlightcolor_button.set_color(self.parasitedata["highlightcolor"])
elif shelf.has_key(self.shelfkey) == 1:
self.highlightcolor_button.set_color(shelf[self.shelfkey]["highlightcolor"])
self.highlightcolor_label.set_mnemonic_widget(self.highlightcolor_button)
self.highlightcolor_button.show()
self.shadetable.attach(self.highlightcolor_button, 5, 6, 3, 4)
self.highlightcolor_button.connect("color-changed", self.preview)
self.highlightopacity_label = self.make_label("Opacite des tons clairs:")
self.shadetable.attach(self.highlightopacity_label, 0, 2, 4, 5)
self.highlightopacity_slider = self.make_slider_and_spinner(75.0, 0.0, 100.0, 1.0, 10.0, 1)
if self.parasitedata:
self.highlightopacity_slider["adj"].set_value(self.parasitedata["highlightopacity"])
elif shelf.has_key(self.shelfkey) == 1:
self.highlightopacity_slider["adj"].set_value(shelf[self.shelfkey]["highlightopacity"])
self.highlightopacity_label.set_mnemonic_widget(self.highlightopacity_slider["spinner"])
self.shadetable.attach(self.highlightopacity_slider["slider"], 2, 5, 4, 5)
self.shadetable.attach(self.highlightopacity_slider["spinner"], 5, 6, 4, 5)
self.highlightopacity_slider["adj"].connect("value-changed", self.preview)
self.shadowmode_label = self.make_label("Mode des tons fonces:")
self.shadetable.attach(self.shadowmode_label, 0, 2, 5, 6)
self.shadowmode_box = self.make_blend_mode_box()
if self.parasitedata:
self.shadowmode_box.set_active(self.parasitedata["shadowmode"])
elif shelf.has_key(self.shelfkey) == 1:
self.shadowmode_box.set_active(shelf[self.shelfkey]["shadowmode"])
else:
self.shadowmode_box.set_active(MULTIPLY_MODE)
self.shadowmode_label.set_mnemonic_widget(self.shadowmode_box)
self.shadowmode_box.show()
self.shadetable.attach(self.shadowmode_box, 2, 4, 5, 6)
self.shadowmode_box.connect("changed", self.preview)
self.shadowcolor_label = self.make_label("Couleur:")
self.shadetable.attach(self.shadowcolor_label, 4, 5, 5, 6)
self.shadowcolor_button = gimpui.ColorButton("Shadow Color", 10, 10, gimpcolor.RGB(0, 0, 0, 255))
if self.parasitedata:
self.shadowcolor_button.set_color(self.parasitedata["shadowcolor"])
elif shelf.has_key(self.shelfkey) == 1:
self.shadowcolor_button.set_color(shelf[self.shelfkey]["shadowcolor"])
self.shadowcolor_label.set_mnemonic_widget(self.shadowcolor_button)
self.shadowcolor_button.show()
self.shadetable.attach(self.shadowcolor_button, 5, 6, 5, 6)
self.shadowcolor_button.connect("color-changed", self.preview)
self.shadowopacity_label = self.make_label("Opacite des tons fonces:")
self.shadetable.attach(self.shadowopacity_label, 0, 2, 6, 7)
self.shadowopacity_slider = self.make_slider_and_spinner(75.0, 0.0, 100.0, 1.0, 10.0, 1)
if self.parasitedata:
self.shadowopacity_slider["adj"].set_value(self.parasitedata["shadowopacity"])
elif shelf.has_key(self.shelfkey) == 1:
self.shadowopacity_slider["adj"].set_value(shelf[self.shelfkey]["shadowopacity"])
self.shadowopacity_label.set_mnemonic_widget(self.shadowopacity_slider["spinner"])
self.shadetable.attach(self.shadowopacity_slider["slider"], 2, 5, 6, 7)
self.shadetable.attach(self.shadowopacity_slider["spinner"], 5, 6, 6, 7)
self.shadowopacity_slider["adj"].connect("value-changed", self.preview)
self.textureframe = gimpui.Frame("Texture")
self.textureframe.show()
self.texturetable = gtk.Table(4, 6, True)
self.texturetable.set_homogeneous(True)
self.texturetable.set_row_spacings(3)
self.texturetable.set_col_spacings(3)
self.texturetable.show()
self.textureframe.add(self.texturetable)
self.use_texture_check = gtk.CheckButton("Utiliser Texture")
if self.parasitedata:
if self.parasitedata["use_texture"] == 1:
self.use_texture_check.set_active(True)
elif shelf.has_key(self.shelfkey) == 1 and shelf[self.shelfkey]["use_texture"] == 1:
self.use_texture_check.set_active(True)
self.use_texture_check.show()
self.texturetable.attach(self.use_texture_check, 1, 3, 0, 1)
self.use_texture_check.connect("toggled", self.preview)
self.pattern_label = self.make_label("_Motif:")
self.texturetable.attach(self.pattern_label, 0, 1, 1, 2)
self.pattern_hbox = gtk.HBox(False, 15)
self.pattern_hbox.show()
self.texturetable.attach(self.pattern_hbox, 1, 4, 1, 2)
self.pattern_button = gimpui.PatternSelector()
if self.parasitedata:
self.pattern_button.set_pattern(self.parasitedata["pattern"])
elif shelf.has_key(self.shelfkey) == 1:
self.pattern_button.set_pattern(shelf[self.shelfkey]["pattern"])
self.pattern_label.set_mnemonic_widget(self.pattern_button)
self.pattern_button.show()
self.pattern_hbox.add(self.pattern_button)
self.pattern_button.connect("pattern-set", self.preview)
self.invert_check = gtk.CheckButton("_Inverser")
if self.parasitedata:
if self.parasitedata["invert"] == 1:
self.invert_check.set_active(True)
elif shelf.has_key(self.shelfkey) == 1 and shelf[self.shelfkey]["invert"] == 1:
self.invert_check.set_active(True)
self.invert_check.show()
self.pattern_hbox.add(self.invert_check)
self.invert_check.connect("toggled", self.preview)
self.scale_label = self.make_label("Echelle:")
self.texturetable.attach(self.scale_label, 0, 1, 2, 3)
self.scale_slider = self.make_slider_and_spinner(100.0, 1.0, 1000.0, 1.0, 10.0, 1)
if self.parasitedata:
self.scale_slider["adj"].set_value(self.parasitedata["scale"])
elif shelf.has_key(self.shelfkey) == 1:
self.scale_slider["adj"].set_value(shelf[self.shelfkey]["scale"])
self.scale_label.set_mnemonic_widget(self.scale_slider["spinner"])
self.texturetable.attach(self.scale_slider["slider"], 1, 5, 2, 3)
self.texturetable.attach(self.scale_slider["spinner"], 5, 6, 2, 3)
self.scale_slider["adj"].connect("value-changed", self.preview)
self.tex_depth_label = self.make_label("Profondeur:")
self.texturetable.attach(self.tex_depth_label, 0, 1, 3, 4)
self.tex_depth_slider = self.make_slider_and_spinner(100.0, -1000.0, 1000.0, 1.0, 10.0, 1)
if self.parasitedata:
self.tex_depth_slider["adj"].set_value(self.parasitedata["tex_depth"])
elif shelf.has_key(self.shelfkey) == 1:
self.tex_depth_slider["adj"].set_value(shelf[self.shelfkey]["tex_depth"])
self.tex_depth_label.set_mnemonic_widget(self.tex_depth_slider["spinner"])
self.texturetable.attach(self.tex_depth_slider["slider"], 1, 5, 3, 4)
self.texturetable.attach(self.tex_depth_slider["spinner"], 5, 6, 3, 4)
self.tex_depth_slider["adj"].connect("value-changed", self.preview)
self.merge_check = gtk.CheckButton("_Fusionner avec le calque")
if self.parasitedata:
if self.parasitedata["merge"] == 1:
self.merge_check.set_active(True)
elif shelf.has_key(self.shelfkey) == 1 and shelf[self.shelfkey]["merge"] == 1:
self.merge_check.set_active(True)
self.merge_check.show()
self.merge_check.connect("toggled", self.preview)
self.preview_check = gtk.CheckButton("_Apercu")
self.preview_check.show()
self.preview_check.connect("toggled", self.preview)
self.dialog.vbox.hbox1 = gtk.HBox(False, 7)
self.dialog.vbox.hbox1.show()
self.dialog.vbox.pack_start(self.dialog.vbox.hbox1, True, True, 7)
self.dialog.vbox.hbox1.pack_start(self.structframe, True, True, 7)
self.dialog.vbox.hbox2 = gtk.HBox(False, 7)
self.dialog.vbox.hbox2.show()
self.dialog.vbox.add(self.dialog.vbox.hbox2)
self.dialog.vbox.hbox2.pack_start(self.shadeframe, True, True, 7)
self.dialog.vbox.hbox3 = gtk.HBox(False, 7)
self.dialog.vbox.hbox3.show()
self.dialog.vbox.add(self.dialog.vbox.hbox3)
self.dialog.vbox.hbox3.pack_start(self.textureframe, True, True, 7)
self.dialog.vbox.hbox4 = gtk.HBox(False, 7)
self.dialog.vbox.hbox4.show()
self.dialog.vbox.add(self.dialog.vbox.hbox4)
self.dialog.vbox.hbox4.pack_start(self.merge_check, True, True, 10)
self.dialog.vbox.hbox5 = gtk.HBox(False, 7)
self.dialog.vbox.hbox5.show()
self.dialog.vbox.add(self.dialog.vbox.hbox5)
self.dialog.vbox.hbox5.pack_start(self.preview_check, True, True, 10)
self.makeDialogButtons()
self.dialog.show()
self.dialog.run()
self.removePreviews()
def okbutton(self, widget):
if self.previewLayer != None:
if type(self.previewLayer) == tuple:
if self.layer_exists(self.previewLayer[0]):
self.img.remove_layer(self.previewLayer[0])
if self.layer_exists(self.previewLayer[1]):
self.img.remove_layer(self.previewLayer[1])
else:
if self.layer_exists(self.previewLayer):
self.img.remove_layer(self.previewLayer)
self.previewLayer = None
self.unset_hidden_layer()
if pdb.gimp_image_undo_is_enabled(self.img) == 0:
pdb.gimp_image_undo_thaw(self.img)
if self.direction_up_radio.get_active():
direction = 0
elif self.direction_down_radio.get_active():
direction = 1
params = {
"style": self.style_box.get_active(),
"depth": int(round(self.depth_slider["adj"].get_value())),
"direction": direction,
"size": int(round(self.size_slider["adj"].get_value())),
"soften": int(round(self.soften_slider["adj"].get_value())),
"angle": self.angle_slider["adj"].get_value(),
"altitude": self.altitude_slider["adj"].get_value(),
"glosscontour": self.glosscontour_box.get_active(),
"highlightcolor": self.highlightcolor_button.get_color(),
"highlightmode": self.highlightmode_box.get_active(),
"highlightopacity": self.highlightopacity_slider["adj"].get_value(),
"shadowcolor": self.shadowcolor_button.get_color(),
"shadowmode": self.shadowmode_box.get_active(),
"shadowopacity": self.shadowopacity_slider["adj"].get_value(),
"surfacecontour": self.surfacecontour_box.get_active(),
"use_texture": self.cond(self.use_texture_check.get_active()),
"pattern": self.pattern_button.get_pattern(),
"scale": self.scale_slider["adj"].get_value(),
"tex_depth": self.tex_depth_slider["adj"].get_value(),
"invert": self.cond(self.invert_check.get_active()),
"merge": self.cond(self.merge_check.get_active())
}
if self.parasitedata:
self.img.remove_layer(self.parasitedata["oldid"])
self.img.remove_layer(self.parasitedata["oldid2"])
fxlayer = self.makeBevel(
self.img,
self.drawable,
params["style"],
params["depth"],
params["direction"],
params["size"],
params["soften"],
params["angle"],
params["altitude"],
params["glosscontour"],
params["highlightcolor"],
params["highlightmode"],
params["highlightopacity"],
params["shadowcolor"],
params["shadowmode"],
params["shadowopacity"],
params["surfacecontour"],
params["use_texture"],
params["pattern"],
params["scale"],
params["tex_depth"],
params["invert"],
params["merge"],
0
)
if params["merge"] == 0:
self.writeParasite(self.drawable, fxlayer,
("combobox", self.style_box),
("intadj", self.depth_slider["adj"]),
("radio", (self.direction_up_radio, self.direction_down_radio)),
("intadj", self.size_slider["adj"]),
("intadj", self.soften_slider["adj"]),
("floatadj", self.angle_slider["adj"]),
("floatadj", self.altitude_slider["adj"]),
("combobox", self.glosscontour_box),
("color", self.highlightcolor_button),
("modebox", self.highlightmode_box),
("floatadj", self.highlightopacity_slider["adj"]),
("color", self.shadowcolor_button),
("modebox", self.shadowmode_box),
("floatadj", self.shadowopacity_slider["adj"]),
("combobox", self.surfacecontour_box),
("check", self.use_texture_check),
("pattern", self.pattern_button),
("floatadj", self.scale_slider["adj"]),
("floatadj", self.tex_depth_slider["adj"]),
("check", self.invert_check),
("check", self.merge_check)
)
shelf[self.shelfkey] = params
def resetbutton(self, widget):
self.style_box.set_active(0)
self.depth_slider["adj"].set_value(3)
self.direction_up_radio.set_active(True)
self.size_slider["adj"].set_value(5)
self.soften_slider["adj"].set_value(0)
self.surfacecontour_box.set_active(0)
self.angle_slider["adj"].set_value(120.0)
self.altitude_slider["adj"].set_value(30.0)
self.glosscontour_box.set_active(0)
self.highlightcolor_button.set_color(gimpcolor.RGB(255, 255, 255, 255))
self.highlightmode_box.set_active(SCREEN_MODE)
self.highlightopacity_slider["adj"].set_value(75.0)
self.shadowcolor_button.set_color(gimpcolor.RGB(0, 0, 0, 255))
self.shadowmode_box.set_active(MULTIPLY_MODE)
self.shadowopacity_slider["adj"].set_value(75.0)
self.use_texture_check.set_active(False)
self.pattern_button.set_pattern(pdb.gimp_context_get_pattern())
self.invert_check.set_active(False)
self.scale_slider["adj"].set_value(100.0)
self.tex_depth_slider["adj"].set_value(100.0)
self.merge_check.set_active(False)
def removeOldLayer(self):
if not hasattr(self, "parasitedata"):
self.parasitedata = self.readParasite(self.img, self.drawable)
if self.parasitedata:
self.img.remove_layer(self.parasitedata["oldid"])
self.img.remove_layer(self.parasitedata["oldid2"])
def preview(self, widget, *extra):
if self.previewLayer != None:
if type(self.previewLayer) == tuple:
for i in self.previewLayer:
if self.layer_exists(i):
self.img.remove_layer(i)
else:
if self.layer_exists(self.previewLayer):
self.img.remove_layer(self.previewLayer)
if self.preview_check.get_active():
self.unset_hidden_layer()
if pdb.gimp_image_undo_is_enabled(self.img) == 1:
pdb.gimp_image_undo_freeze(self.img)
if self.parasitedata:
self.set_hidden_layer(self.parasitedata["oldid"])
self.set_hidden_layer(self.parasitedata["oldid2"])
if self.direction_up_radio.get_active():
direction = 0
elif self.direction_down_radio.get_active():
direction = 1
if self.merge_check.get_active():
self.previewLayer = self.drawable.copy()
self.add_over_layer(self.previewLayer, self.drawable)
self.set_hidden_layer(self.drawable)
layer = self.previewLayer
merge = 1
else:
layer = self.drawable
merge = 0
self.previewLayer = self.makeBevel(
self.img,
layer,
self.style_box.get_active(),
int(round(self.depth_slider["adj"].get_value())),
direction,
int(round(self.size_slider["adj"].get_value())),
int(round(self.soften_slider["adj"].get_value())),
self.angle_slider["adj"].get_value(),
self.altitude_slider["adj"].get_value(),
self.glosscontour_box.get_active(),
self.highlightcolor_button.get_color(),
self.highlightmode_box.get_active(),
self.highlightopacity_slider["adj"].get_value(),
self.shadowcolor_button.get_color(),
self.shadowmode_box.get_active(),
self.shadowopacity_slider["adj"].get_value(),
self.surfacecontour_box.get_active(),
self.cond(self.use_texture_check.get_active()),
self.pattern_button.get_pattern(),
self.scale_slider["adj"].get_value(),
self.tex_depth_slider["adj"].get_value(),
self.cond(self.invert_check.get_active()),
merge,
1
)
else:
gimp.displays_flush()
def removePreviews(self):
if self.previewLayer != None:
if type(self.previewLayer) == tuple:
for i in self.previewLayer:
if self.layer_exists(i):
self.img.remove_layer(i)
else:
if self.layer_exists(self.previewLayer):
self.img.remove_layer(self.previewLayer)
self.previewLayer = None
self.unset_hidden_layer()
gimp.displays_flush()
def writeParasite(self, drawable, fxlayer, *controls):
layerfx_base.writeParasite(self, drawable, fxlayer[0], *controls)
drawable.attach_new_parasite("%s-fxlayer-s" % (self.shelfkey), 0, fxlayer[1].name)
def writeParasiteRaw(self, drawable, fxlayer, *values):
layerfx_base.writeParasiteRaw(self, drawable, fxlayer[0], *values)
drawable.attach_new_parasite("%s-fxlayer-s" % (self.shelfkey), 0, fxlayer[1].name)
def readParasite(self, img, drawable):
parasitedata = layerfx_base.readParasite(self, img, drawable,
layerfx_bevel_emboss.shelfkey,
("style", "int"),
("depth", "int"),
("direction", "int"),
("size", "int"),
("soften", "int"),
("angle", "float"),
("altitude", "float"),
("glosscontour", "int"),
("highlightcolor", "color"),
("highlightmode", "int"),
("highlightopacity", "float"),
("shadowcolor", "color"),
("shadowmode", "int"),
("shadowopacity", "float"),
("surfacecontour", "int"),
("use_texture", "int"),
("pattern", "string"),
("scale", "float"),
("tex_depth", "float"),
("invert", "int"),
("merge", "int")
)
if parasitedata:
fxlayername = "%s-fxlayer-s" % (self.shelfkey)
if fxlayername in pdb.gimp_drawable_parasite_list(drawable)[1]:
fxlayername = pdb.gimp_drawable_parasite_find(drawable, fxlayername).data
for i in img.layers:
if i.name == fxlayername:
parasitedata.update({"oldid2": i})
break
return parasitedata
def makeBevel(self, img, drawable, style, depth, direction, size, soften, angle, altitude, glosscontour, highlightcolor, highlightmode, highlightopacity, shadowcolor, shadowmode, shadowopacity, surfacecontour, use_texture, pattern, scale, tex_depth, invert, merge, preview):
pdb.gimp_image_undo_group_start(img)
origfgcolor = gimp.get_foreground()
origselection = pdb.gimp_selection_save(img)
imgtype = (RGBA_IMAGE, GRAYA_IMAGE)[img.base_type]
lyrgrowamt = int(round(size * 1.2))
if style == 0:
layersize = {
"width": drawable.width + (lyrgrowamt * 2),
"height": drawable.height + (lyrgrowamt * 2),
"offsetx": drawable.offsets[0] - lyrgrowamt,
"offsety": drawable.offsets[1] - lyrgrowamt
}
elif style == 1:
layersize = {
"width": drawable.width,
"height": drawable.height,
"offsetx": drawable.offsets[0],
"offsety": drawable.offsets[1]
}
elif style == 2 or style == 3:
layersize = {
"width": drawable.width + lyrgrowamt,
"height": drawable.height + lyrgrowamt,
"offsetx": drawable.offsets[0] - int(lyrgrowamt/2),
"offsety": drawable.offsets[1] - int(lyrgrowamt/2)
}
bumpmaplayer = gimp.Layer(img, "%s-bumpmap" % (drawable.name), layersize["width"], layersize["height"], imgtype, 100.0, NORMAL_MODE)
highlightlayer = gimp.Layer(img, "%s-highlight" % (drawable.name), layersize["width"], layersize["height"], imgtype, highlightopacity, highlightmode)
shadowlayer = gimp.Layer(img, "%s-shadow" % (drawable.name), layersize["width"], layersize["height"], imgtype, shadowopacity, shadowmode)
self.add_over_layer(bumpmaplayer, drawable)
self.add_over_layer(shadowlayer, bumpmaplayer)
self.add_over_layer(highlightlayer, shadowlayer)
bumpmaplayer.set_offsets(layersize["offsetx"], layersize["offsety"])
shadowlayer.set_offsets(layersize["offsetx"], layersize["offsety"])
highlightlayer.set_offsets(layersize["offsetx"], layersize["offsety"])
pdb.gimp_selection_none(img)
gimp.set_foreground(highlightcolor)
pdb.gimp_edit_fill(highlightlayer, FOREGROUND_FILL)
gimp.set_foreground(shadowcolor)
pdb.gimp_edit_fill(shadowlayer, FOREGROUND_FILL)
gimp.set_foreground(0, 0, 0)
pdb.gimp_edit_fill(bumpmaplayer, FOREGROUND_FILL)
highlightmask = highlightlayer.create_mask(ADD_BLACK_MASK)
shadowmask = shadowlayer.create_mask(ADD_BLACK_MASK)
highlightlayer.add_mask(highlightmask)
shadowlayer.add_mask(shadowmask)
pdb.gimp_selection_layer_alpha(drawable)
if drawable.mask != None:
pdb.gimp_selection_combine(drawable.mask, CHANNEL_OP_INTERSECT)
alphaSel = pdb.gimp_selection_save(img)
if style == 0:
self.draw_blurshape(bumpmaplayer, size, size, alphaSel, False)
elif style == 1:
self.draw_blurshape(bumpmaplayer, size, 0, alphaSel, False)
elif style == 2:
halfsizef = int(math.floor(size/2.0))
halfsizec = size - halfsizef
self.draw_blurshape(bumpmaplayer, size, int(math.ceil(size/2.0)), alphaSel, False)
elif style == 3:
halfsizef = int(math.floor(size/2.0))
halfsizec = size - halfsizef
pdb.gimp_selection_none(img)
gimp.set_foreground(255, 255, 255)
pdb.gimp_edit_fill(bumpmaplayer, FOREGROUND_FILL)
self.draw_blurshape(bumpmaplayer, halfsizec, halfsizec, alphaSel, True)
self.draw_blurshape(bumpmaplayer, halfsizef, 0, alphaSel, False)
pdb.gimp_selection_none(img)
if use_texture == 1:
texturelayer = gimp.Layer(img, "%s-texture" % (drawable.name), int(round(layersize["width"]/(scale/100.0))), int(round(layersize["height"]/(scale/100.0))), imgtype, 100.0, MULTIPLY_MODE)
self.add_over_layer(texturelayer, bumpmaplayer)
texturelayer.set_offsets(bumpmaplayer.offsets[0], bumpmaplayer.offsets[1])
origpattern = pdb.gimp_context_get_pattern()
pdb.gimp_context_set_pattern(pattern)
texturelayer.fill(PATTERN_FILL)
pdb.gimp_context_set_pattern(origpattern)
if img.base_type == RGB:
pdb.gimp_desaturate_full(texturelayer, DESATURATE_LUMINOSITY)
if tex_depth >= 0.0:
if tex_depth <= 100.0:
contrastadj = int(round((1-(tex_depth/100.0)) * -127))
else:
contrastadj = int(round(((tex_depth-100.0)/900.0) * 127))
else:
pdb.gimp_invert(texturelayer)
if tex_depth >= -100.0:
contrastadj = int(round((1-(abs(tex_depth)/100.0)) * -127))
else:
contrastadj = int(round(((abs(tex_depth)-100.0)/900.0) * 127))
pdb.gimp_brightness_contrast(texturelayer, 0, contrastadj)
if scale != 100.0:
pdb.gimp_drawable_transform_scale(texturelayer, bumpmaplayer.offsets[0], bumpmaplayer.offsets[1], bumpmaplayer.offsets[0] + layersize["width"], bumpmaplayer.offsets[1] + layersize["height"], TRANSFORM_FORWARD, INTERPOLATION_LANCZOS, 1, 3, TRANSFORM_RESIZE_ADJUST)
bumpmaplayer = pdb.gimp_image_merge_down(img, texturelayer, EXPAND_AS_NECESSARY)
gimp.set_foreground(127, 127, 127)
pdb.gimp_edit_fill(highlightmask, FOREGROUND_FILL)
if surfacecontour > 0:
self.apply_contour(bumpmaplayer, HISTOGRAM_VALUE, surfacecontour)
if angle < 0:
angle += 360.0
pdb.plug_in_bump_map(img, highlightmask, bumpmaplayer, angle, altitude, depth, 0, 0, 0, 0, 1, direction, 0)
if glosscontour > 0:
self.apply_contour(highlightmask, HISTOGRAM_VALUE, glosscontour)
if soften > 0:
pdb.plug_in_gauss_rle(img, highlightmask, soften, 1, 1)
if use_texture == 1 and invert > 0:
pdb.gimp_invert(highlightmask)
pdb.gimp_channel_combine_masks(shadowmask, highlightmask, CHANNEL_OP_REPLACE, 0, 0)
pdb.gimp_levels(highlightmask, HISTOGRAM_VALUE, 127, 255, 1.0, 0, 255)
pdb.gimp_levels(shadowmask, HISTOGRAM_VALUE, 0, 127, 1.0, 255, 0)
pdb.gimp_selection_load(alphaSel)
if style == 0:
pdb.gimp_selection_grow(img, size)
elif style == 2 or style == 3:
pdb.gimp_selection_grow(img, halfsizec)
pdb.gimp_selection_invert(img)
gimp.set_foreground(0, 0, 0)
pdb.gimp_edit_fill(shadowmask, FOREGROUND_FILL)
pdb.gimp_selection_none(img)
img.remove_layer(bumpmaplayer)
if merge == 0 and preview == 0:
self.group_layers("%s-with-bevel" % (drawable.name), highlightlayer, shadowlayer, drawable)
if merge == 1:
if style == 1:
origmask = drawable.mask
layername = drawable.name
if origmask != None:
origmask = drawable.mask.copy()
drawable.remove_mask(MASK_DISCARD)
alphamask = drawable.create_mask(ADD_ALPHA_TRANSFER_MASK)
shadowlayer = pdb.gimp_image_merge_down(img, shadowlayer, EXPAND_AS_NECESSARY)
highlightlayer = pdb.gimp_image_merge_down(img, highlightlayer, EXPAND_AS_NECESSARY)
highlightlayer.name = layername
highlightlayer.add_mask(alphamask)
highlightlayer.remove_mask(MASK_APPLY)
if origmask != None:
highlightlayer.add_mask(origmask)
else:
origmask = drawable.mask
layername = drawable.name
if origmask != None:
drawable.remove_mask(MASK_APPLY)
shadowlayer = pdb.gimp_image_merge_down(img, shadowlayer, EXPAND_AS_NECESSARY)
highlightlayer = pdb.gimp_image_merge_down(img, highlightlayer, EXPAND_AS_NECESSARY)
highlightlayer.name = layername
else:
highlightlayer.remove_mask(MASK_APPLY)
shadowlayer.remove_mask(MASK_APPLY)
pdb.gimp_image_set_active_layer(img, drawable)
gimp.set_foreground(origfgcolor)
pdb.gimp_selection_load(origselection)
img.remove_channel(alphaSel)
img.remove_channel(origselection)
gimp.displays_flush()
pdb.gimp_image_undo_group_end(img)
if merge == 0:
return (highlightlayer, shadowlayer)
else:
return highlightlayer
class layerfx_satin(layerfx_base):
shelfkey = "layerfx-satin"
def __init__(self, runmode, img, drawable, color, opacity, mode, offsetangle, offsetdist, size, contour, invert, merge):
self.origMsgHandler = pdb.gimp_message_get_handler()
pdb.gimp_message_set_handler(ERROR_CONSOLE)
self.img = img
self.drawable = drawable
if runmode == RUN_INTERACTIVE:
self.showDialog()
elif runmode == RUN_NONINTERACTIVE:
if self.validatedata(img, drawable,
("color", color),
("percent", opacity),
("mode", mode),
("angle", offsetangle),
("floatrange", offsetdist, 0.0, 30000.0),
("size", size),
("contour", contour),
("boolean", invert),
("boolean", merge)
):
self.removeOldLayer()
fxlayer = self.makeSatin(img, drawable, color, opacity, mode, offsetangle, offsetdist, size, contour, invert, merge, 0)
if merge == 0:
self.writeParasiteRaw(drawable, fxlayer, color, opacity, mode, offsetangle, offsetdist, size, contour, invert, merge)
shelf[self.shelfkey] = {
"color": color,
"opacity": opacity,
"mode": mode,
"offsetangle": offsetangle,
"offsetdist": offsetdist,
"size": size,
"contour": contour,
"invert": invert,
"merge": merge
}
elif runmode == RUN_WITH_LAST_VALS and shelf.has_key(self.shelfkey) == 1:
self.removeOldLayer()
fxlayer = self.makeSatin(
img,
drawable,
shelf[self.shelfkey]["color"],
shelf[self.shelfkey]["opacity"],
shelf[self.shelfkey]["mode"],
shelf[self.shelfkey]["offsetangle"],
shelf[self.shelfkey]["offsetdist"],
shelf[self.shelfkey]["size"],
shelf[self.shelfkey]["contour"],
shelf[self.shelfkey]["invert"],
shelf[self.shelfkey]["merge"],
0
)
if shelf[self.shelfkey]["merge"] == 0:
self.writeParasiteRaw(drawable, fxlayer,
shelf[self.shelfkey]["color"],
shelf[self.shelfkey]["opacity"],
shelf[self.shelfkey]["mode"],
shelf[self.shelfkey]["offsetangle"],
shelf[self.shelfkey]["offsetdist"],
shelf[self.shelfkey]["size"],
shelf[self.shelfkey]["contour"],
shelf[self.shelfkey]["invert"],
shelf[self.shelfkey]["merge"]
)
else:
pdb.gimp_message("unknown runmode")
pdb.gimp_message_set_handler(self.origMsgHandler)
def showDialog(self):
self.dialog = gimpui.Dialog("Satin", "satindialog")
self.parasitedata = self.readParasite(self.img, self.drawable)
self.table = gtk.Table(7, 5, True)
self.table.set_homogeneous(True)
self.table.set_row_spacings(3)
self.table.set_col_spacings(3)
self.table.show()
self.color_label = self.make_label("_Couleur:")
self.table.attach(self.color_label, 0, 1, 0, 1)
self.color_button = gimpui.ColorButton("Satin Color", 10, 10, gimpcolor.RGB(0, 0, 0, 255))
if self.parasitedata:
self.color_button.set_color(self.parasitedata["color"])
elif shelf.has_key(self.shelfkey) == 1:
self.color_button.set_color(shelf[self.shelfkey]["color"])
self.color_label.set_mnemonic_widget(self.color_button)
self.color_button.show()
self.table.attach(self.color_button, 1, 2, 0, 1)
self.color_button.connect("color-changed", self.preview)
self.mode_label = self.make_label("_Mode de fusion:")
self.table.attach(self.mode_label, 0, 1, 1, 2)
self.mode_box = self.make_blend_mode_box()
if self.parasitedata:
self.mode_box.set_active(self.parasitedata["mode"])
elif shelf.has_key(self.shelfkey) == 1:
self.mode_box.set_active(shelf[self.shelfkey]["mode"])
else:
self.mode_box.set_active(MULTIPLY_MODE)
self.mode_label.set_mnemonic_widget(self.mode_box)
self.mode_box.show()
self.table.attach(self.mode_box, 1, 5, 1, 2)
self.mode_box.connect("changed", self.preview)
self.opacity_label = self.make_label("_Opacite:")
self.table.attach(self.opacity_label, 0, 1, 2, 3)
self.opacity_slider = self.make_slider_and_spinner(75.0, 0.0, 100.0, 1.0, 10.0, 1)
if self.parasitedata:
self.opacity_slider["adj"].set_value(self.parasitedata["opacity"])
elif shelf.has_key(self.shelfkey) == 1:
self.opacity_slider["adj"].set_value(shelf[self.shelfkey]["opacity"])
self.opacity_label.set_mnemonic_widget(self.opacity_slider["spinner"])
self.table.attach(self.opacity_slider["slider"], 1, 4, 2, 3)
self.table.attach(self.opacity_slider["spinner"], 4, 5, 2, 3)
self.opacity_slider["adj"].connect("value-changed", self.preview)
self.angle_label = self.make_label("_Angle:")
self.table.attach(self.angle_label, 0, 1, 3, 4)
self.angle_slider = self.make_slider_and_spinner(19.0, -180.0, 180.0, 1.0, 10.0, 1)
if self.parasitedata:
self.angle_slider["adj"].set_value(self.parasitedata["offsetangle"])
elif shelf.has_key(self.shelfkey) == 1:
self.angle_slider["adj"].set_value(shelf[self.shelfkey]["offsetangle"])
self.angle_label.set_mnemonic_widget(self.angle_slider["spinner"])
self.table.attach(self.angle_slider["slider"], 1, 4, 3, 4)
self.table.attach(self.angle_slider["spinner"], 4, 5, 3, 4)
self.angle_slider["adj"].connect("value-changed", self.preview)
self.distance_label = self.make_label("_Distance:")
self.table.attach(self.distance_label, 0, 1, 4, 5)
self.distance_spinner = self.make_spinner(11.0, 0.0, 30000.0, 1.0, 10.0, 1)
if self.parasitedata:
self.distance_spinner["adj"].set_value(self.parasitedata["offsetdist"])
elif shelf.has_key(self.shelfkey) == 1:
self.distance_spinner["adj"].set_value(shelf[self.shelfkey]["offsetdist"])
self.distance_label.set_mnemonic_widget(self.distance_spinner["spinner"])
self.table.attach(self.distance_spinner["spinner"], 1, 2, 4, 5)
self.distance_spinner["adj"].connect("value-changed", self.preview)
self.size_label = self.make_label("T_aille:")
self.table.attach(self.size_label, 0, 1, 5, 6)
self.size_slider = self.make_slider_and_spinner(14, 0, 250, 1, 10, 0)
if self.parasitedata:
self.size_slider["adj"].set_value(self.parasitedata["size"])
elif shelf.has_key(self.shelfkey) == 1:
self.size_slider["adj"].set_value(shelf[self.shelfkey]["size"])
self.size_label.set_mnemonic_widget(self.size_slider["spinner"])
self.table.attach(self.size_slider["slider"], 1, 4, 5, 6)
self.table.attach(self.size_slider["spinner"], 4, 5, 5, 6)
self.size_slider["adj"].connect("value-changed", self.preview)
self.contour_label = self.make_label("Con_tour:")
self.table.attach(self.contour_label, 0, 1, 6, 7)
self.contour_box = self.make_contour_box()
if self.parasitedata:
self.contour_box.set_active(self.parasitedata["contour"])
elif shelf.has_key(self.shelfkey) == 1:
self.contour_box.set_active(shelf[self.shelfkey]["contour"])
else:
self.contour_box.set_active(5)
self.contour_label.set_mnemonic_widget(self.contour_box)
self.contour_box.show()
self.table.attach(self.contour_box, 1, 5, 6, 7)
self.contour_box.connect("changed", self.preview)
self.invert_check = gtk.CheckButton("Inverser")
if self.parasitedata:
if self.parasitedata["invert"] == 0:
self.invert_check.set_active(False)
else:
self.invert_check.set_active(True)
elif shelf.has_key(self.shelfkey) == 1 and shelf[self.shelfkey]["invert"] == 0:
self.invert_check.set_active(False)
else:
self.invert_check.set_active(True)
self.invert_check.show()
self.invert_check.connect("toggled", self.preview)
self.merge_check = gtk.CheckButton("_Fusionner avec le calque")
if self.parasitedata:
if self.parasitedata["merge"] == 1:
self.merge_check.set_active(True)
elif shelf.has_key(self.shelfkey) == 1 and shelf[self.shelfkey]["merge"] == 1:
self.merge_check.set_active(True)
self.merge_check.show()
self.merge_check.connect("toggled", self.preview)
self.preview_check = gtk.CheckButton("_Apercu")
self.preview_check.show()
self.preview_check.connect("toggled", self.preview)
self.dialog.vbox.hbox1 = gtk.HBox(False, 7)
self.dialog.vbox.hbox1.show()
self.dialog.vbox.pack_start(self.dialog.vbox.hbox1, True, True, 7)
self.dialog.vbox.hbox1.pack_start(self.table, True, True, 7)
self.dialog.vbox.hbox2 = gtk.HBox(False, 7)
self.dialog.vbox.hbox2.show()
self.dialog.vbox.add(self.dialog.vbox.hbox2)
self.dialog.vbox.hbox2.pack_start(self.invert_check, True, True, 10)
self.dialog.vbox.hbox3 = gtk.HBox(False, 7)
self.dialog.vbox.hbox3.show()
self.dialog.vbox.add(self.dialog.vbox.hbox3)
self.dialog.vbox.hbox3.pack_start(self.merge_check, True, True, 10)
self.dialog.vbox.hbox4 = gtk.HBox(False, 7)
self.dialog.vbox.hbox4.show()
self.dialog.vbox.add(self.dialog.vbox.hbox4)
self.dialog.vbox.hbox4.pack_start(self.preview_check, True, True, 10)
self.makeDialogButtons()
self.dialog.show()
self.dialog.run()
self.removePreviews()
def okbutton(self, widget):
if self.layer_exists(self.previewLayer):
self.img.remove_layer(self.previewLayer)
self.previewLayer = None
self.unset_hidden_layer()
if pdb.gimp_image_undo_is_enabled(self.img) == 0:
pdb.gimp_image_undo_thaw(self.img)
params = {
"color": self.color_button.get_color(),
"opacity": self.opacity_slider["adj"].get_value(),
"mode": self.mode_box.get_active(),
"offsetangle": self.angle_slider["adj"].get_value(),
"offsetdist": self.distance_spinner["adj"].get_value(),
"size": int(round(self.size_slider["adj"].get_value())),
"contour": self.contour_box.get_active(),
"invert": self.cond(self.invert_check.get_active()),
"merge": self.cond(self.merge_check.get_active())
}
if self.parasitedata:
self.img.remove_layer(self.parasitedata["oldid"])
fxlayer = self.makeSatin(
self.img,
self.drawable,
params["color"],
params["opacity"],
params["mode"],
params["offsetangle"],
params["offsetdist"],
params["size"],
params["contour"],
params["invert"],
params["merge"],
0
)
if params["merge"] == 0:
self.writeParasite(self.drawable, fxlayer,
("color", self.color_button),
("floatadj", self.opacity_slider["adj"]),
("modebox", self.mode_box),
("floatadj", self.angle_slider["adj"]),
("floatadj", self.distance_spinner["adj"]),
("intadj", self.size_slider["adj"]),
("combobox", self.contour_box),
("check", self.invert_check),
("check", self.merge_check)
)
shelf[self.shelfkey] = params
def resetbutton(self, widget):
self.color_button.set_color(gimpcolor.RGB(0, 0, 0, 255))
self.mode_box.set_active(MULTIPLY_MODE)
self.opacity_slider["adj"].set_value(75.0)
self.angle_slider["adj"].set_value(19.0)
self.distance_spinner["adj"].set_value(11.0)
self.size_slider["adj"].set_value(14)
self.contour_box.set_active(5)
self.invert_check.set_active(True)
self.merge_check.set_active(False)
def readParasite(self, img, drawable):
return layerfx_base.readParasite(self, img, drawable,
layerfx_satin.shelfkey,
("color", "color"),
("opacity", "float"),
("mode", "int"),
("offsetangle", "float"),
("offsetdist", "float"),
("size", "int"),
("contour", "int"),
("invert", "int"),
("merge", "int")
)
def preview(self, widget):
if self.layer_exists(self.previewLayer):
self.img.remove_layer(self.previewLayer)
if self.preview_check.get_active():
self.unset_hidden_layer()
if pdb.gimp_image_undo_is_enabled(self.img) == 1:
pdb.gimp_image_undo_freeze(self.img)
if self.parasitedata:
self.set_hidden_layer(self.parasitedata["oldid"])
if self.merge_check.get_active():
self.previewLayer = self.drawable.copy()
self.add_over_layer(self.previewLayer, self.drawable)
self.set_hidden_layer(self.drawable)
layer = self.previewLayer
merge = 1
else:
layer = self.drawable
merge = 0
self.previewLayer = self.makeSatin(
self.img,
layer,
self.color_button.get_color(),
self.opacity_slider["adj"].get_value(),
self.mode_box.get_active(),
self.angle_slider["adj"].get_value(),
self.distance_spinner["adj"].get_value(),
int(round(self.size_slider["adj"].get_value())),
self.contour_box.get_active(),
self.cond(self.invert_check.get_active()),
merge,
1
)
else:
gimp.displays_flush()
def makeSatin(self, img, drawable, color, opacity, mode, offsetangle, offsetdist, size, contour, invert, merge, preview):
pdb.gimp_image_undo_group_start(img)
origfgcolor = gimp.get_foreground()
origselection = pdb.gimp_selection_save(img)
growamt = int(math.ceil(size / 2.0))
lyrgrowamt = int(round(growamt * 1.2))
satinlayer = gimp.Layer(img, "%s-satin" % (drawable.name), drawable.width + (lyrgrowamt * 2), drawable.height + (lyrgrowamt * 2), (RGBA_IMAGE, GRAYA_IMAGE)[img.base_type], 100, NORMAL_MODE)
ang = ((offsetangle + 180) * -1) * (math.pi / 180.0)
offset = (int(round(offsetdist * math.cos(ang))), int(round(offsetdist * math.sin(ang))))
self.add_over_layer(satinlayer, drawable)
satinlayer.set_offsets(drawable.offsets[0] - lyrgrowamt, drawable.offsets[1] - lyrgrowamt)
pdb.gimp_selection_none(img)
gimp.set_foreground(0, 0, 0)
pdb.gimp_edit_fill(satinlayer, FOREGROUND_FILL)
pdb.gimp_selection_layer_alpha(drawable)
if drawable.mask != None:
pdb.gimp_selection_combine(drawable.mask, CHANNEL_OP_INTERSECT)
alphaSel = pdb.gimp_selection_save(img)
self.draw_blurshape(satinlayer, size, growamt, alphaSel, False)
pdb.plug_in_autocrop_layer(img, satinlayer)
satinmask = satinlayer.copy(0)
self.add_over_layer(satinmask, satinlayer)
satinlayer.translate(offset[0], offset[1])
satinmask.translate(offset[0] * -1, offset[1] * -1)
dx = max(satinlayer.offsets[0], satinmask.offsets[0]) - min(satinlayer.offsets[0], satinmask.offsets[0])
dy = max(satinlayer.offsets[1], satinmask.offsets[1]) - min(satinlayer.offsets[1], satinmask.offsets[1])
blacklayer = gimp.Layer(img, "%s-satinblank" % (drawable.name), satinlayer.width + dx, satinlayer.height + dy, (RGBA_IMAGE, GRAYA_IMAGE)[img.base_type], 100, NORMAL_MODE)
self.add_under_layer(blacklayer, satinlayer)
blacklayer.set_offsets(min(satinlayer.offsets[0], satinmask.offsets[0]), min(satinlayer.offsets[1], satinmask.offsets[1]))
pdb.gimp_selection_none(img)
gimp.set_foreground(0, 0, 0)
pdb.gimp_edit_fill(blacklayer, FOREGROUND_FILL)
satinmask.mode = DIFFERENCE_MODE
satinlayer = pdb.gimp_image_merge_down(img, satinlayer, EXPAND_AS_NECESSARY)
satinlayer = pdb.gimp_image_merge_down(img, satinmask, EXPAND_AS_NECESSARY)
satinlayer.name = "%s-satin" % (drawable.name)
if merge == 0 and preview == 0:
self.group_layers("%s-with-satin" % (drawable.name), satinlayer, drawable)
if contour > 0:
self.apply_contour(satinlayer, HISTOGRAM_VALUE, contour)
pdb.gimp_selection_load(alphaSel)
pdb.gimp_selection_grow(img, size)
pdb.gimp_selection_invert(img)
gimp.set_foreground(0, 0, 0)
pdb.gimp_edit_fill(satinlayer, FOREGROUND_FILL)
pdb.gimp_selection_none(img)
if invert == 1:
pdb.gimp_invert(satinlayer)
satinmask = satinlayer.create_mask(ADD_COPY_MASK)
satinlayer.add_mask(satinmask)
pdb.gimp_selection_none(img)
gimp.set_foreground(color)
pdb.gimp_edit_fill(satinlayer, FOREGROUND_FILL)
satinlayer.opacity = opacity
pdb.gimp_layer_set_mode(satinlayer, mode)
satinlayer.resize(drawable.width, drawable.height, satinlayer.offsets[0] - drawable.offsets[0], satinlayer.offsets[1] - drawable.offsets[1])
if merge == 1:
origmask = drawable.mask
layername = drawable.name
if origmask != None:
origmask = drawable.mask.copy()
drawable.remove_mask(MASK_DISCARD)
alphamask = drawable.create_mask(ADD_ALPHA_TRANSFER_MASK)
satinlayer = pdb.gimp_image_merge_down(img, satinlayer, EXPAND_AS_NECESSARY)
satinlayer.name = layername
satinlayer.add_mask(alphamask)
satinlayer.remove_mask(MASK_APPLY)
if origmask != None:
satinlayer.add_mask(origmask)
else:
pdb.gimp_selection_load(alphaSel)
pdb.gimp_selection_invert(img)
gimp.set_foreground(0, 0, 0)
pdb.gimp_edit_fill(satinmask, FOREGROUND_FILL)
satinlayer.remove_mask(MASK_APPLY)
pdb.gimp_image_set_active_layer(img, drawable)
gimp.set_foreground(origfgcolor)
pdb.gimp_selection_load(origselection)
img.remove_channel(alphaSel)
img.remove_channel(origselection)
gimp.displays_flush()
pdb.gimp_image_undo_group_end(img)
return satinlayer
class layerfx_stroke(layerfx_base):
shelfkey = "layerfx-stroke"
def __init__(self, runmode, img, drawable, fill, opacity, mode, size, position, merge):
self.origMsgHandler = pdb.gimp_message_get_handler()
pdb.gimp_message_set_handler(ERROR_CONSOLE)
self.img = img
self.drawable = drawable
if runmode == RUN_INTERACTIVE:
self.showDialog()
elif runmode == RUN_NONINTERACTIVE:
if self.validatedata(img, drawable,
("color/gradientdata/patterndata", fill),
("percent", opacity),
("mode", mode),
("size", size),
("percent", position),
("boolean", merge)
):
self.removeOldLayer()
fxlayer = self.makeStroke(img, drawable, fill, opacity, mode, size, position, merge, 0)
if type(fill) == gimpcolor.RGB:
params = {
"filltype": 0,
"color": fill,
"gradient": "FG to BG (RGB)",
"gradienttype": 0,
"repeat": 0,
"reverse": False,
"centerx": 0.0,
"centery": 0.0,
"angle": 90.0,
"width": 0.0,
"pattern": pdb.gimp_context_get_pattern(),
"scale": 100.0,
"interpolation_type": 0
}
elif (type(fill) == tuple or type(fill) == list) and len(fill) == 8:
params = {
"filltype": 1,
"color": gimpcolor.RGB(255, 0, 0, 255),
"gradient": fill[0],
"gradienttype": fill[1],
"repeat": fill[2],
"reverse": fill[3],
"centerx": fill[4],
"centery": fill[5],
"angle": fill[6],
"width": fill[7],
"pattern": pdb.gimp_context_get_pattern(),
"scale": 100.0,
"interpolation_type": 0
}
elif (type(fill) == tuple or type(fill) == list) and len(fill) == 3:
params = {
"filltype": 2,
"color": gimpcolor.RGB(255, 0, 0, 255),
"gradient": "FG to BG (RGB)",
"gradienttype": 0,
"repeat": 0,
"reverse": False,
"centerx": 0.0,
"centery": 0.0,
"angle": 90.0,
"width": 0.0,
"pattern": fill[0],
"scale": fill[1],
"interpolation_type": fill[2]
}
params.update({
"opacity": opacity,
"mode": mode,
"size": size,
"position": position,
"merge": merge
})
if merge == 0:
self.writeParasiteRaw(drawable, fxlayer,
params["filltype"],
params["color"],
params["gradient"],
params["gradienttype"],
params["repeat"],
params["reverse"],
params["centerx"],
params["centery"],
params["angle"],
params["width"],
params["pattern"],
params["scale"],
params["interpolation_type"],
opacity,
mode,
size,
position,
merge
)
shelf[self.shelfkey] = params
elif runmode == RUN_WITH_LAST_VALS and shelf.has_key(self.shelfkey) == 1:
self.removeOldLayer()
if shelf[self.shelfkey]["filltype"] == 0:
fill = shelf[self.shelfkey]["color"]
elif shelf[self.shelfkey]["filltype"] == 1:
fill = (
shelf[self.shelfkey]["gradient"],
shelf[self.shelfkey]["gradienttype"],
shelf[self.shelfkey]["repeat"],
shelf[self.shelfkey]["reverse"],
shelf[self.shelfkey]["centerx"],
shelf[self.shelfkey]["centery"],
shelf[self.shelfkey]["angle"],
shelf[self.shelfkey]["width"]
)
elif shelf[self.shelfkey]["filltype"] == 2:
fill = (
shelf[self.shelfkey]["pattern"],
shelf[self.shelfkey]["scale"],
shelf[self.shelfkey]["interpolation_type"]
)
fxlayer = self.makeStroke(
img,
drawable,
fill,
shelf[self.shelfkey]["opacity"],
shelf[self.shelfkey]["mode"],
shelf[self.shelfkey]["size"],
shelf[self.shelfkey]["position"],
shelf[self.shelfkey]["merge"],
0
)
if shelf[self.shelfkey]["merge"] == 0:
self.writeParasiteRaw(drawable, fxlayer,
shelf[self.shelfkey]["filltype"],
shelf[self.shelfkey]["color"],
shelf[self.shelfkey]["gradient"],
shelf[self.shelfkey]["gradienttype"],
shelf[self.shelfkey]["repeat"],
shelf[self.shelfkey]["reverse"],
shelf[self.shelfkey]["centerx"],
shelf[self.shelfkey]["centery"],
shelf[self.shelfkey]["angle"],
shelf[self.shelfkey]["width"],
shelf[self.shelfkey]["pattern"],
shelf[self.shelfkey]["scale"],
shelf[self.shelfkey]["interpolation_type"],
shelf[self.shelfkey]["opacity"],
shelf[self.shelfkey]["mode"],
shelf[self.shelfkey]["size"],
shelf[self.shelfkey]["position"],
shelf[self.shelfkey]["merge"]
)
else:
pdb.gimp_message("unknown runmode")
pdb.gimp_message_set_handler(self.origMsgHandler)
def showDialog(self):
self.dialog = gimpui.Dialog("Contour", "strokedialog")
self.parasitedata = self.readParasite(self.img, self.drawable)
self.table = gtk.Table(5, 5, True)
self.table.set_homogeneous(True)
self.table.set_row_spacings(3)
self.table.set_col_spacings(3)
self.table.show()
self.size_label = self.make_label("T_aille:")
self.table.attach(self.size_label, 0, 1, 0, 1)
self.size_slider = self.make_slider_and_spinner(3, 1, 250, 1, 10, 0)
if self.parasitedata:
self.size_slider["adj"].set_value(self.parasitedata["size"])
elif shelf.has_key(self.shelfkey) == 1:
self.size_slider["adj"].set_value(shelf[self.shelfkey]["size"])
self.size_label.set_mnemonic_widget(self.size_slider["spinner"])
self.table.attach(self.size_slider["slider"], 1, 4, 0, 1)
self.table.attach(self.size_slider["spinner"], 4, 5, 0, 1)
self.size_slider["adj"].connect("value-changed", self.preview)
self.position_label = self.make_label("Position:")
self.table.attach(self.position_label, 0, 1, 1, 2)
self.position_slider = self.make_slider_and_spinner(50.0, 0.0, 100.0, 1, 10, 1)
if self.parasitedata:
self.position_slider["adj"].set_value(self.parasitedata["position"])
elif shelf.has_key(self.shelfkey) == 1:
self.position_slider["adj"].set_value(shelf[self.shelfkey]["position"])
self.position_label.set_mnemonic_widget(self.position_slider["spinner"])
self.table.attach(self.position_slider["slider"], 1, 4, 1, 2)
self.table.attach(self.position_slider["spinner"], 4, 5, 1, 2)
self.position_slider["adj"].connect("value-changed", self.preview)
self.position_label2 = gtk.Label("0 = interieur, 100 = exterieur")
self.position_label2.set_alignment(0.5, 0.5)
self.position_label2.show()
self.table.attach(self.position_label2, 1, 5, 2, 3)
self.mode_label = self.make_label("_Mode de fusion:")
self.table.attach(self.mode_label, 0, 1, 3, 4)
self.mode_box = self.make_blend_mode_box()
if self.parasitedata:
self.mode_box.set_active(self.parasitedata["mode"])
elif shelf.has_key(self.shelfkey) == 1:
self.mode_box.set_active(shelf[self.shelfkey]["mode"])
else:
self.mode_box.set_active(NORMAL_MODE)
self.mode_label.set_mnemonic_widget(self.mode_box)
self.mode_box.show()
self.table.attach(self.mode_box, 1, 5, 3, 4)
self.mode_box.connect("changed", self.preview)
self.opacity_label = self.make_label("_Opacite:")
self.table.attach(self.opacity_label, 0, 1, 4, 5)
self.opacity_slider = self.make_slider_and_spinner(75.0, 0.0, 100.0, 1.0, 10.0, 1)
if self.parasitedata:
self.opacity_slider["adj"].set_value(self.parasitedata["opacity"])
elif shelf.has_key(self.shelfkey) == 1:
self.opacity_slider["adj"].set_value(shelf[self.shelfkey]["opacity"])
else:
self.opacity_slider["adj"].set_value(100.0)
self.opacity_label.set_mnemonic_widget(self.opacity_slider["spinner"])
self.table.attach(self.opacity_slider["slider"], 1, 4, 4, 5)
self.table.attach(self.opacity_slider["spinner"], 4, 5, 4, 5)
self.opacity_slider["adj"].connect("value-changed", self.preview)
self.fill_type_frame = gimpui.Frame("Remplissage")
self.fill_type_frame.show()
self.fill_type_vbox = gtk.VBox(False, 7)
self.fill_type_vbox.show()
self.fill_type_frame.add(self.fill_type_vbox)
self.fill_type_radio_hbox = gtk.HBox(False, 7)
self.fill_type_color_radio = gtk.RadioButton(None, "Couleur", True)
self.fill_type_gradient_radio = gtk.RadioButton(self.fill_type_color_radio, "Degrade", True)
self.fill_type_pattern_radio = gtk.RadioButton(self.fill_type_color_radio, "Motif", True)
self.fill_type_color_radio.show()
self.fill_type_gradient_radio.show()
self.fill_type_pattern_radio.show()
self.fill_type_radio_hbox.pack_start(self.fill_type_color_radio, True, True, 0)
self.fill_type_radio_hbox.pack_start(self.fill_type_gradient_radio, True, True, 0)
self.fill_type_radio_hbox.pack_start(self.fill_type_pattern_radio, True, True, 0)
self.fill_type_radio_hbox.show()
self.fill_type_vbox.pack_start(self.fill_type_radio_hbox, True, True, 7)
self.fill_type_color_radio.connect("toggled", self.switch_fill_panes)
self.fill_type_gradient_radio.connect("toggled", self.switch_fill_panes)
self.fill_type_pattern_radio.connect("toggled", self.switch_fill_panes)
self.fill_type_hbox = gtk.HBox(False, 0)
self.fill_type_table = gtk.Table(6, 4, True)
self.fill_type_table.set_homogeneous(True)
self.fill_type_table.set_row_spacings(3)
self.fill_type_table.set_col_spacings(3)
self.fill_type_table.show()
self.color_label = self.make_label("_Couleur:")
self.fill_type_table.attach(self.color_label, 0, 1, 0, 1)
self.color_button = gimpui.ColorButton("Stroke Color", 10, 10, gimpcolor.RGB(255, 0, 0, 255))
if self.parasitedata:
self.color_button.set_color(self.parasitedata["color"])
elif shelf.has_key(self.shelfkey) == 1:
self.color_button.set_color(shelf[self.shelfkey]["color"])
self.color_label.set_mnemonic_widget(self.color_button)
self.fill_type_table.attach(self.color_button, 1, 2, 0, 1)
self.color_button.show()
self.color_button.connect("color-changed", self.preview)
self.gradient_label = self.make_label("_Degrade:", False)
self.fill_type_table.attach(self.gradient_label, 0, 1, 0, 1)
self.gradient_button = gimpui.GradientSelector()
if self.parasitedata:
self.gradient_button.set_gradient(self.parasitedata["gradient"])
elif shelf.has_key(self.shelfkey) == 1:
self.gradient_button.set_gradient(shelf[self.shelfkey]["gradient"])
self.gradient_label.set_mnemonic_widget(self.gradient_button)
self.fill_type_table.attach(self.gradient_button, 1, 2, 0, 1)
self.gradient_button.connect("gradient-set", self.preview)
self.gradient_type_label = self.make_label("Type:", False)
self.fill_type_table.attach(self.gradient_type_label, 0, 1, 1, 2)
self.gradient_type_box = self.make_gradient_type_box()
if self.parasitedata:
self.gradient_type_box.set_active(self.parasitedata["gradienttype"])
elif shelf.has_key(self.shelfkey) == 1:
self.gradient_type_box.set_active(shelf[self.shelfkey]["gradienttype"])
else:
self.gradient_type_box.set_active(0)
self.gradient_type_label.set_mnemonic_widget(self.gradient_type_box)
self.fill_type_table.attach(self.gradient_type_box, 1, 4, 1, 2)
self.gradient_type_box.connect("changed", self.preview)
self.gradient_repeat_label = self.make_label("Repeter:", False)
self.fill_type_table.attach(self.gradient_repeat_label, 0, 1, 2, 3)
self.gradient_repeat_box = self.make_gradient_repeat_box()
if self.parasitedata:
self.gradient_repeat_box.set_active(self.parasitedata["repeat"])
elif shelf.has_key(self.shelfkey) == 1:
self.gradient_repeat_box.set_active(shelf[self.shelfkey]["repeat"])
else:
self.gradient_repeat_box.set_active(0)
self.gradient_repeat_label.set_mnemonic_widget(self.gradient_repeat_box)
self.fill_type_table.attach(self.gradient_repeat_box, 1, 4, 2, 3)
self.gradient_repeat_box.connect("changed", self.preview)
self.gradient_reverse_check = gtk.CheckButton("_Inverser")
if self.parasitedata:
if self.parasitedata["reverse"] == 1:
self.gradient_reverse_check.set_active(True)
elif shelf.has_key(self.shelfkey) == 1 and shelf[self.shelfkey]["reverse"] == 1:
self.gradient_reverse_check.set_active(True)
self.fill_type_table.attach(self.gradient_reverse_check, 2, 3, 0, 1)
self.gradient_reverse_check.connect("toggled", self.preview)
self.gradient_center_label = self.make_label("_Centre:", False)
self.fill_type_table.attach(self.gradient_center_label, 0, 1, 3, 4)
self.gradient_centerx_spinner = self.make_spinner(0.0, 0.0, self.img.width, 1.0, 10.0, 1, False)
if self.parasitedata:
self.gradient_centerx_spinner["adj"].set_value(self.parasitedata["centerx"])
elif shelf.has_key(self.shelfkey) == 1:
self.gradient_centerx_spinner["adj"].set_value(shelf[self.shelfkey]["centerx"])
self.gradient_center_label.set_mnemonic_widget(self.gradient_centerx_spinner["spinner"])
self.fill_type_table.attach(self.gradient_centerx_spinner["spinner"], 1, 2, 3, 4)
self.gradient_centerx_spinner["adj"].connect("value-changed", self.preview)
self.gradient_centery_spinner = self.make_spinner(0.0, 0.0, self.img.height, 1.0, 10.0, 1, False)
if self.parasitedata:
self.gradient_centery_spinner["adj"].set_value(self.parasitedata["centery"])
elif shelf.has_key(self.shelfkey) == 1:
self.gradient_centery_spinner["adj"].set_value(shelf[self.shelfkey]["centery"])
self.fill_type_table.attach(self.gradient_centery_spinner["spinner"], 2, 3, 3, 4)
self.gradient_centery_spinner["adj"].connect("value-changed", self.preview)
self.gradient_angle_label = self.make_label("_Angle:", False)
self.fill_type_table.attach(self.gradient_angle_label, 0, 1, 4, 5)
self.gradient_angle_slider = self.make_slider_and_spinner(90.0, -180.0, 180.0, 1.0, 10.0, 1, False)
if self.parasitedata:
self.gradient_angle_slider["adj"].set_value(self.parasitedata["angle"])
elif shelf.has_key(self.shelfkey) == 1:
self.gradient_angle_slider["adj"].set_value(shelf[self.shelfkey]["angle"])
self.gradient_angle_label.set_mnemonic_widget(self.gradient_angle_slider["spinner"])
self.fill_type_table.attach(self.gradient_angle_slider["slider"], 1, 3, 4, 5)
self.fill_type_table.attach(self.gradient_angle_slider["spinner"], 3, 4, 4, 5)
self.gradient_angle_slider["adj"].connect("value-changed", self.preview)
self.gradient_width_label = self.make_label("_Echelle:", False)
self.fill_type_table.attach(self.gradient_width_label, 0, 1, 5, 6)
self.gradient_width_spinner = self.make_spinner(0.0, 0.0, 262144.0, 1.0, 10.0, 1, False)
if self.parasitedata:
self.gradient_width_spinner["adj"].set_value(self.parasitedata["width"])
elif shelf.has_key(self.shelfkey) == 1:
self.gradient_width_spinner["adj"].set_value(shelf[self.shelfkey]["width"])
self.gradient_width_label.set_mnemonic_widget(self.gradient_width_spinner["spinner"])
self.fill_type_table.attach(self.gradient_width_spinner["spinner"], 1, 2, 5, 6)
self.gradient_width_spinner["adj"].connect("value-changed", self.preview)
self.pattern_label = self.make_label("_Motif:", False)
self.fill_type_table.attach(self.pattern_label, 0, 1, 0, 1)
self.pattern_button = gimpui.PatternSelector()
if self.parasitedata:
self.pattern_button.set_pattern(self.parasitedata["pattern"])
elif shelf.has_key(self.shelfkey) == 1:
self.pattern_button.set_pattern(shelf[self.shelfkey]["pattern"])
self.pattern_label.set_mnemonic_widget(self.pattern_button)
self.fill_type_table.attach(self.pattern_button, 1, 3, 0, 1)
self.pattern_button.connect("pattern-set", self.preview)
self.pattern_scale_label = self.make_label("Echelle:", False)
self.fill_type_table.attach(self.pattern_scale_label, 0, 1, 1, 2)
self.pattern_scale_slider = self.make_slider_and_spinner(100.0, 1.0, 1000.0, 1.0, 10.0, 1, False)
if self.parasitedata:
self.pattern_scale_slider["adj"].set_value(self.parasitedata["scale"])
elif shelf.has_key(self.shelfkey) == 1:
self.pattern_scale_slider["adj"].set_value(shelf[self.shelfkey]["scale"])
self.pattern_scale_label.set_mnemonic_widget(self.pattern_scale_slider["spinner"])
self.fill_type_table.attach(self.pattern_scale_slider["slider"], 1, 3, 1, 2)
self.fill_type_table.attach(self.pattern_scale_slider["spinner"], 3, 4, 1, 2)
self.pattern_scale_slider["adj"].connect("value-changed", self.preview)
self.pattern_interpolation_type_label = self.make_label("Interpolation:", False)
self.fill_type_table.attach(self.pattern_interpolation_type_label, 0, 1, 2, 3)
self.pattern_interpolation_type_box = self.make_interpolation_box()
if self.parasitedata:
self.pattern_interpolation_type_box.set_active(self.parasitedata["interpolation_type"])
elif shelf.has_key(self.shelfkey) == 1:
self.pattern_interpolation_type_box.set_active(shelf[self.shelfkey]["interpolation_type"])
else:
self.pattern_interpolation_type_box.set_active(0)
self.pattern_interpolation_type_label.set_mnemonic_widget(self.pattern_interpolation_type_box)
self.fill_type_table.attach(self.pattern_interpolation_type_box, 1, 4, 2, 3)
self.pattern_interpolation_type_box.connect("changed", self.preview)
self.fill_type_hbox.pack_start(self.fill_type_table, True, True, 0)
self.fill_type_vbox.pack_start(self.fill_type_hbox, True, True, 0)
self.fill_type_hbox.show()
if self.parasitedata:
if self.parasitedata["filltype"] == 0:
self.fill_type_color_radio.set_active(True)
elif self.parasitedata["filltype"] == 1:
self.fill_type_gradient_radio.set_active(True)
elif self.parasitedata["filltype"] == 2:
self.fill_type_pattern_radio.set_active(True)
elif shelf.has_key(self.shelfkey) == 1:
if shelf[self.shelfkey]["filltype"] == 0:
self.fill_type_color_radio.set_active(True)
elif shelf[self.shelfkey]["filltype"] == 1:
self.fill_type_gradient_radio.set_active(True)
elif shelf[self.shelfkey]["filltype"] == 2:
self.fill_type_pattern_radio.set_active(True)
else:
self.fill_type_color_radio.set_active(True)
self.merge_check = gtk.CheckButton("_Fusionner avec le calque")
if self.parasitedata:
if self.parasitedata["merge"] == 1:
self.merge_check.set_active(True)
elif shelf.has_key(self.shelfkey) == 1 and shelf[self.shelfkey]["merge"] == 1:
self.merge_check.set_active(True)
self.merge_check.show()
self.merge_check.connect("toggled", self.preview)
self.preview_check = gtk.CheckButton("_Apercu")
self.preview_check.show()
self.preview_check.connect("toggled", self.preview)
self.dialog.vbox.hbox1 = gtk.HBox(False, 7)
self.dialog.vbox.hbox1.show()
self.dialog.vbox.pack_start(self.dialog.vbox.hbox1, True, True, 7)
self.dialog.vbox.hbox1.pack_start(self.table, True, True, 7)
self.dialog.vbox.hbox2 = gtk.HBox(False, 7)
self.dialog.vbox.hbox2.show()
self.dialog.vbox.add(self.dialog.vbox.hbox2)
self.dialog.vbox.hbox2.pack_start(self.fill_type_frame, True, True, 7)
self.dialog.vbox.hbox3 = gtk.HBox(False, 7)
self.dialog.vbox.hbox3.show()
self.dialog.vbox.add(self.dialog.vbox.hbox3)
self.dialog.vbox.hbox3.pack_start(self.merge_check, True, True, 10)
self.dialog.vbox.hbox4 = gtk.HBox(False, 7)
self.dialog.vbox.hbox4.show()
self.dialog.vbox.add(self.dialog.vbox.hbox4)
self.dialog.vbox.hbox4.pack_start(self.preview_check, True, True, 10)
self.makeDialogButtons()
self.dialog.show()
self.dialog.run()
self.removePreviews()
def okbutton(self, widget):
if self.layer_exists(self.previewLayer):
self.img.remove_layer(self.previewLayer)
self.previewLayer = None
self.unset_hidden_layer()
if pdb.gimp_image_undo_is_enabled(self.img) == 0:
pdb.gimp_image_undo_thaw(self.img)
if self.fill_type_color_radio.get_active():
fill_type = 0
elif self.fill_type_gradient_radio.get_active():
fill_type = 1
elif self.fill_type_pattern_radio.get_active():
fill_type = 2
params = {
"filltype": fill_type,
"color": self.color_button.get_color(),
"gradient": self.gradient_button.get_gradient(),
"gradienttype": self.gradient_type_box.get_active(),
"repeat": self.gradient_repeat_box.get_active(),
"reverse": self.cond(self.gradient_reverse_check.get_active()),
"centerx": self.gradient_centerx_spinner["adj"].get_value(),
"centery": self.gradient_centery_spinner["adj"].get_value(),
"angle": self.gradient_angle_slider["adj"].get_value(),
"width": self.gradient_width_spinner["adj"].get_value(),
"pattern": self.pattern_button.get_pattern(),
"scale": self.pattern_scale_slider["adj"].get_value(),
"interpolation_type": self.pattern_interpolation_type_box.get_active(),
"opacity": self.opacity_slider["adj"].get_value(),
"mode": self.mode_box.get_active(),
"size": int(round(self.size_slider["adj"].get_value())),
"position": self.position_slider["adj"].get_value(),
"merge": self.cond(self.merge_check.get_active())
}
if self.parasitedata:
self.img.remove_layer(self.parasitedata["oldid"])
if params["filltype"] == 0:
fill = params["color"]
elif params["filltype"] == 1:
fill = (
params["gradient"],
params["gradienttype"],
params["repeat"],
params["reverse"],
params["centerx"],
params["centery"],
params["angle"],
params["width"]
)
elif params["filltype"] == 2:
fill = (
params["pattern"],
params["scale"],
params["interpolation_type"]
)
fxlayer = self.makeStroke(
self.img,
self.drawable,
fill,
params["opacity"],
params["mode"],
params["size"],
params["position"],
params["merge"],
0
)
if params["merge"] == 0:
self.writeParasite(self.drawable, fxlayer,
("radio", (self.fill_type_color_radio, self.fill_type_gradient_radio, self.fill_type_pattern_radio)),
("color", self.color_button),
("gradient", self.gradient_button),
("combobox", self.gradient_type_box),
("combobox", self.gradient_repeat_box),
("check", self.gradient_reverse_check),
("floatadj", self.gradient_centerx_spinner["adj"]),
("floatadj", self.gradient_centery_spinner["adj"]),
("floatadj", self.gradient_angle_slider["adj"]),
("floatadj", self.gradient_width_spinner["adj"]),
("pattern", self.pattern_button),
("floatadj", self.pattern_scale_slider["adj"]),
("combobox", self.pattern_interpolation_type_box),
("floatadj", self.opacity_slider["adj"]),
("modebox", self.mode_box),
("intadj", self.size_slider["adj"]),
("floatadj", self.position_slider["adj"]),
("check", self.merge_check)
)
shelf[self.shelfkey] = params
def resetbutton(self, widget):
self.fill_type_color_radio.set_active(True)
self.color_button.set_color(gimpcolor.RGB(255, 0, 0, 255))
self.gradient_button.set_gradient("FG to BG (RGB)")
self.gradient_type_box.set_active(0)
self.gradient_repeat_box.set_active(0)
self.gradient_reverse_check.set_active(False)
self.gradient_centerx_spinner["adj"].set_value(0.0)
self.gradient_centery_spinner["adj"].set_value(0.0)
self.gradient_angle_slider["adj"].set_value(90.0)
self.gradient_width_spinner["adj"].set_value(0.0)
self.pattern_button.set_pattern(pdb.gimp_context_get_pattern())
self.pattern_scale_slider["adj"].set_value(100.0)
self.pattern_interpolation_type_box.set_active(0)
self.size_slider["adj"].set_value(3)
self.position_slider["adj"].set_value(50.0)
self.mode_box.set_active(NORMAL_MODE)
self.opacity_slider["adj"].set_value(100.0)
self.merge_check.set_active(False)
def readParasite(self, img, drawable):
return layerfx_base.readParasite(self, img, drawable,
layerfx_stroke.shelfkey,
("filltype", "int"),
("color", "color"),
("gradient", "string"),
("gradienttype", "int"),
("repeat", "int"),
("reverse", "int"),
("centerx", "float"),
("centery", "float"),
("angle", "float"),
("width", "float"),
("pattern", "string"),
("scale", "float"),
("interpolation_type", "int"),
("opacity", "float"),
("mode", "int"),
("size", "int"),
("position", "float"),
("merge", "int")
)
def preview(self, widget, *extra):
if self.layer_exists(self.previewLayer):
self.img.remove_layer(self.previewLayer)
if self.preview_check.get_active():
self.unset_hidden_layer()
if pdb.gimp_image_undo_is_enabled(self.img) == 1:
pdb.gimp_image_undo_freeze(self.img)
if self.parasitedata:
self.set_hidden_layer(self.parasitedata["oldid"])
if self.merge_check.get_active():
self.previewLayer = self.drawable.copy()
self.add_over_layer(self.previewLayer, self.drawable)
self.set_hidden_layer(self.drawable)
layer = self.previewLayer
merge = 1
else:
layer = self.drawable
merge = 0
if self.fill_type_color_radio.get_active():
fill = self.color_button.get_color()
elif self.fill_type_gradient_radio.get_active():
fill = (
self.gradient_button.get_gradient(),
self.gradient_type_box.get_active(),
self.gradient_repeat_box.get_active(),
self.cond(self.gradient_reverse_check.get_active()),
self.gradient_centerx_spinner["adj"].get_value(),
self.gradient_centery_spinner["adj"].get_value(),
self.gradient_angle_slider["adj"].get_value(),
self.gradient_width_spinner["adj"].get_value()
)
elif self.fill_type_pattern_radio.get_active():
fill = (
self.pattern_button.get_pattern(),
self.pattern_scale_slider["adj"].get_value(),
self.pattern_interpolation_type_box.get_active()
)
self.previewLayer = self.makeStroke(
self.img,
layer,
fill,
self.opacity_slider["adj"].get_value(),
self.mode_box.get_active(),
int(round(self.size_slider["adj"].get_value())),
self.position_slider["adj"].get_value(),
merge,
1
)
else:
gimp.displays_flush()
def switch_fill_panes(self, widget, *extra):
color_widgets = (self.color_label, self.color_button)
gradient_widgets = (
self.gradient_label,
self.gradient_button,
self.gradient_type_label,
self.gradient_type_box,
self.gradient_repeat_label,
self.gradient_repeat_box,
self.gradient_reverse_check,
self.gradient_center_label,
self.gradient_centerx_spinner["spinner"],
self.gradient_centery_spinner["spinner"],
self.gradient_angle_label,
self.gradient_angle_slider["slider"],
self.gradient_angle_slider["spinner"],
self.gradient_width_label,
self.gradient_width_spinner["spinner"]
)
pattern_widgets = (
self.pattern_label,
self.pattern_button,
self.pattern_scale_label,
self.pattern_scale_slider["slider"],
self.pattern_scale_slider["spinner"],
self.pattern_interpolation_type_label,
self.pattern_interpolation_type_box
)
if widget.get_active():
if widget == self.fill_type_color_radio:
for i in gradient_widgets:
i.hide()
for i in pattern_widgets:
i.hide()
for i in color_widgets:
i.show()
elif widget == self.fill_type_gradient_radio:
for i in color_widgets:
i.hide()
for i in pattern_widgets:
i.hide()
for i in gradient_widgets:
i.show()
elif widget == self.fill_type_pattern_radio:
for i in color_widgets:
i.hide()
for i in gradient_widgets:
i.hide()
for i in pattern_widgets:
i.show()
if hasattr(self, "preview_check"):
self.preview(widget, *extra)
def makeStroke(self, img, drawable, fill, opacity, mode, size, position, merge, preview):
pdb.gimp_image_undo_group_start(img)
origselection = pdb.gimp_selection_save(img)
if position == 0:
strokelayer = gimp.Layer(img, "%s-stroke" % (drawable.name), drawable.width, drawable.height, (RGBA_IMAGE, GRAYA_IMAGE)[img.base_type], opacity, mode)
self.add_over_layer(strokelayer, drawable)
if merge == 0 and preview == 0:
self.group_layers("%s-with-stroke" % (drawable.name), strokelayer, drawable)
strokelayer.set_offsets(drawable.offsets[0], drawable.offsets[1])
elif position == 100:
growamt = int(round(size * 1.2))
strokelayer = gimp.Layer(img, "%s-stroke" % (drawable.name), drawable.width + (growamt * 2), drawable.height + (growamt * 2), (RGBA_IMAGE, GRAYA_IMAGE)[img.base_type], opacity, mode)
self.add_under_layer(strokelayer, drawable)
if merge == 0 and preview == 0:
self.group_layers("%s-with-stroke" % (drawable.name), drawable, strokelayer)
strokelayer.set_offsets(drawable.offsets[0] - growamt, drawable.offsets[1] - growamt)
else:
outerwidth = int(round((position / 100.0) * size))
innerwidth = size - outerwidth
growamt = int(round(outerwidth * 1.2))
strokelayer = gimp.Layer(img, "%s-stroke" % (drawable.name), drawable.width + (growamt * 2), drawable.height + (growamt * 2), (RGBA_IMAGE, GRAYA_IMAGE)[img.base_type], opacity, mode)
self.add_over_layer(strokelayer, drawable)
if merge == 0 and preview == 0:
self.group_layers("%s-with-stroke" % (drawable.name), strokelayer, drawable)
strokelayer.set_offsets(drawable.offsets[0] - growamt, drawable.offsets[1] - growamt)
pdb.gimp_selection_none(img)
pdb.gimp_edit_clear(strokelayer)
pdb.gimp_selection_layer_alpha(drawable)
if drawable.mask != None:
pdb.gimp_selection_combine(drawable.mask, CHANNEL_OP_INTERSECT)
alphaSel = pdb.gimp_selection_save(img)
if position == 0:
pdb.gimp_selection_shrink(img, size)
elif position != 100:
pdb.gimp_selection_shrink(img, innerwidth)
innerSel = pdb.gimp_selection_save(img)
if position == 0:
if merge == 1:
origmask = drawable.mask
layername = drawable.name
if origmask != None:
origmask = drawable.mask.copy()
drawable.remove_mask(MASK_DISCARD)
alphamask = drawable.create_mask(ADD_ALPHA_TRANSFER_MASK)
pdb.gimp_selection_none(img)
pdb.gimp_threshold(alphaSel, 1, 255)
pdb.gimp_selection_load(alphaSel)
pdb.gimp_selection_combine(innerSel, CHANNEL_OP_SUBTRACT)
elif position == 100:
pdb.gimp_selection_none(img)
pdb.gimp_threshold(innerSel, 255, 255)
pdb.gimp_selection_load(alphaSel)
pdb.gimp_selection_grow(img, size)
pdb.gimp_selection_combine(innerSel, CHANNEL_OP_SUBTRACT)
else:
pdb.gimp_selection_load(alphaSel)
pdb.gimp_selection_grow(img, outerwidth)
pdb.gimp_selection_combine(innerSel, CHANNEL_OP_SUBTRACT)
if type(fill) == gimpcolor.RGB:
origfgcolor = gimp.get_foreground()
gimp.set_foreground(fill)
pdb.gimp_edit_fill(strokelayer, FOREGROUND_FILL)
gimp.set_foreground(origfgcolor)
elif (type(fill) == tuple or type(fill) == list) and len(fill) == 8:
origgradient = pdb.gimp_context_get_gradient()
measures = self.getGradientMeasurements(drawable.offsets[0], drawable.offsets[1], fill[1], fill[4], fill[5], fill[6], fill[7])
pdb.gimp_context_set_gradient(fill[0])
pdb.gimp_edit_blend(strokelayer, CUSTOM_MODE, NORMAL_MODE, fill[1], 100.0, 1.0, fill[2], fill[3], False, 1, 0.0, False, measures["start"][0], measures["start"][1], measures["end"][0], measures["end"][1])
pdb.gimp_context_set_gradient(origgradient)
elif (type(fill) == tuple or type(fill) == list) and len(fill) == 3:
img.remove_channel(innerSel)
innerSel = pdb.gimp_selection_save(img)
pdb.gimp_selection_none(img)
origpattern = pdb.gimp_context_get_pattern()
if fill[1] == 100.0:
layerwidth = drawable.width
layerheight = drawable.height
else:
layerwidth = int(round(drawable.width/(fill[1]/100.0)))
layerheight = int(round(drawable.height/(fill[1]/100.0)))
pdb.gimp_layer_resize(strokelayer, layerwidth, layerheight, 0, 0)
pdb.gimp_context_set_pattern(fill[0])
pdb.gimp_edit_fill(strokelayer, PATTERN_FILL)
pdb.gimp_context_set_pattern(origpattern)
if fill[1] != 100.0:
pdb.gimp_drawable_transform_scale(strokelayer, drawable.offsets[0], drawable.offsets[1], drawable.offsets[0] + drawable.width, drawable.offsets[1] + drawable.height, TRANSFORM_FORWARD, fill[2], 1, 3, TRANSFORM_RESIZE_ADJUST)
pdb.gimp_selection_load(innerSel)
pdb.gimp_selection_invert(img)
pdb.gimp_edit_clear(strokelayer)
if merge == 1:
if position == 0:
strokelayer = pdb.gimp_image_merge_down(img, strokelayer, EXPAND_AS_NECESSARY)
strokelayer.name = layername
strokelayer.add_mask(alphamask)
strokelayer.remove_mask(MASK_APPLY)
if origmask != None:
strokelayer.add_mask(origmask)
elif position == 100:
origmask = drawable.mask
layername = drawable.name
if origmask != None:
drawable.remove_mask(MASK_APPLY)
strokelayer = pdb.gimp_image_merge_down(img, drawable, EXPAND_AS_NECESSARY)
strokelayer.name = layername
else:
origmask = drawable.mask
layername = drawable.name
if origmask != None:
drawable.remove_mask(MASK_APPLY)
strokelayer = pdb.gimp_image_merge_down(img, strokelayer, EXPAND_AS_NECESSARY)
strokelayer.name = layername
else:
pdb.gimp_image_set_active_layer(img, drawable)
pdb.gimp_selection_load(origselection)
img.remove_channel(alphaSel)
img.remove_channel(innerSel)
img.remove_channel(origselection)
gimp.displays_flush()
pdb.gimp_image_undo_group_end(img)
return strokelayer
class layerfx_color_overlay(layerfx_base):
shelfkey = "layerfx-color-overlay"
def __init__(self, runmode, img, drawable, color, opacity, mode, merge):
self.origMsgHandler = pdb.gimp_message_get_handler()
pdb.gimp_message_set_handler(ERROR_CONSOLE)
self.img = img
self.drawable = drawable
if runmode == RUN_INTERACTIVE:
self.showDialog()
elif runmode == RUN_NONINTERACTIVE:
if self.validatedata(img, drawable,
("color", color),
("percent", opacity),
("mode", mode),
("boolean", merge)
):
self.removeOldLayer()
fxlayer = self.makeOverlay(img, drawable, color, opacity, mode, merge, 0)
if merge == 0:
self.writeParasiteRaw(drawable, fxlayer, color, opacity, mode, merge)
shelf[self.shelfkey] = {
"color": color,
"opacity": opacity,
"mode": mode,
"merge": merge
}
elif runmode == RUN_WITH_LAST_VALS and shelf.has_key(self.shelfkey) == 1:
self.removeOldLayer()
fxlayer = self.makeOverlay(
img,
drawable,
shelf[self.shelfkey]["color"],
shelf[self.shelfkey]["opacity"],
shelf[self.shelfkey]["mode"],
shelf[self.shelfkey]["merge"],
0
)
if shelf[self.shelfkey]["merge"] == 0:
self.writeParasiteRaw(drawable, fxlayer,
shelf[self.shelfkey]["color"],
shelf[self.shelfkey]["opacity"],
shelf[self.shelfkey]["mode"],
shelf[self.shelfkey]["merge"]
)
else:
pdb.gimp_message("unknown runmode")
pdb.gimp_message_set_handler(self.origMsgHandler)
def showDialog(self):
self.dialog = gimpui.Dialog("Incrustation couleur", "coloroverlaydialog")
self.parasitedata = self.readParasite(self.img, self.drawable)
self.table = gtk.Table(3, 5, True)
self.table.set_homogeneous(True)
self.table.set_row_spacings(3)
self.table.set_col_spacings(3)
self.table.show()
self.color_label = self.make_label("_Couleur:")
self.table.attach(self.color_label, 0, 1, 0, 1)
self.color_button = gimpui.ColorButton("Overlay Color", 10, 10, gimpcolor.RGB(255, 255, 255, 255))
if self.parasitedata:
self.color_button.set_color(self.parasitedata["color"])
elif shelf.has_key(self.shelfkey) == 1:
self.color_button.set_color(shelf[self.shelfkey]["color"])
self.color_label.set_mnemonic_widget(self.color_button)
self.color_button.show()
self.table.attach(self.color_button, 1, 2, 0, 1)
self.color_button.connect("color-changed", self.preview)
self.mode_label = self.make_label("_Mode de fusion:")
self.table.attach(self.mode_label, 0, 1, 1, 2)
self.mode_box = self.make_blend_mode_box()
if self.parasitedata:
self.mode_box.set_active(self.parasitedata["mode"])
elif shelf.has_key(self.shelfkey) == 1:
self.mode_box.set_active(shelf[self.shelfkey]["mode"])
else:
self.mode_box.set_active(NORMAL_MODE)
self.mode_label.set_mnemonic_widget(self.mode_box)
self.mode_box.show()
self.table.attach(self.mode_box, 1, 5, 1, 2)
self.mode_box.connect("changed", self.preview)
self.opacity_label = self.make_label("_Opacite:")
self.table.attach(self.opacity_label, 0, 1, 2, 3)
self.opacity_slider = self.make_slider_and_spinner(75.0, 0.0, 100.0, 1.0, 10.0, 1)
if self.parasitedata:
self.opacity_slider["adj"].set_value(self.parasitedata["opacity"])
elif shelf.has_key(self.shelfkey) == 1:
self.opacity_slider["adj"].set_value(shelf[self.shelfkey]["opacity"])
else:
self.opacity_slider["adj"].set_value(100.0)
self.opacity_label.set_mnemonic_widget(self.opacity_slider["spinner"])
self.table.attach(self.opacity_slider["slider"], 1, 4, 2, 3)
self.table.attach(self.opacity_slider["spinner"], 4, 5, 2, 3)
self.opacity_slider["adj"].connect("value-changed", self.preview)
self.merge_check = gtk.CheckButton("_Fusionner avec le calque")
if self.parasitedata:
if self.parasitedata["merge"] == 1:
self.merge_check.set_active(True)
elif shelf.has_key(self.shelfkey) == 1 and shelf[self.shelfkey]["merge"] == 1:
self.merge_check.set_active(True)
self.merge_check.show()
self.merge_check.connect("toggled", self.preview)
self.preview_check = gtk.CheckButton("_Apercu")
self.preview_check.show()
self.preview_check.connect("toggled", self.preview)
self.dialog.vbox.hbox1 = gtk.HBox(False, 7)
self.dialog.vbox.hbox1.show()
self.dialog.vbox.pack_start(self.dialog.vbox.hbox1, True, True, 7)
self.dialog.vbox.hbox1.pack_start(self.table, True, True, 7)
self.dialog.vbox.hbox2 = gtk.HBox(False, 7)
self.dialog.vbox.hbox2.show()
self.dialog.vbox.add(self.dialog.vbox.hbox2)
self.dialog.vbox.hbox2.pack_start(self.merge_check, True, True, 10)
self.dialog.vbox.hbox3 = gtk.HBox(False, 7)
self.dialog.vbox.hbox3.show()
self.dialog.vbox.add(self.dialog.vbox.hbox3)
self.dialog.vbox.hbox3.pack_start(self.preview_check, True, True, 10)
self.makeDialogButtons()
self.dialog.show()
self.dialog.run()
self.removePreviews()
def okbutton(self, widget):
if self.layer_exists(self.previewLayer):
self.img.remove_layer(self.previewLayer)
self.previewLayer = None
self.unset_hidden_layer()
if pdb.gimp_image_undo_is_enabled(self.img) == 0:
pdb.gimp_image_undo_thaw(self.img)
params = {
"color": self.color_button.get_color(),
"opacity": self.opacity_slider["adj"].get_value(),
"mode": self.mode_box.get_active(),
"merge": self.cond(self.merge_check.get_active())
}
if self.parasitedata:
self.img.remove_layer(self.parasitedata["oldid"])
fxlayer = self.makeOverlay(
self.img,
self.drawable,
params["color"],
params["opacity"],
params["mode"],
params["merge"],
0
)
if params["merge"] == 0:
self.writeParasite(self.drawable, fxlayer,
("color", self.color_button),
("floatadj", self.opacity_slider["adj"]),
("modebox", self.mode_box),
("check", self.merge_check)
)
shelf[self.shelfkey] = params
def resetbutton(self, widget):
self.color_button.set_color(gimpcolor.RGB(255, 255, 255, 255))
self.mode_box.set_active(NORMAL_MODE)
self.opacity_slider["adj"].set_value(100.0)
self.merge_check.set_active(False)
def readParasite(self, img, drawable):
return layerfx_base.readParasite(self, img, drawable,
layerfx_color_overlay.shelfkey,
("color", "color"),
("opacity", "float"),
("mode", "int"),
("merge", "int")
)
def preview(self, widget):
if self.layer_exists(self.previewLayer):
self.img.remove_layer(self.previewLayer)
if self.preview_check.get_active():
self.unset_hidden_layer()
if pdb.gimp_image_undo_is_enabled(self.img) == 1:
pdb.gimp_image_undo_freeze(self.img)
if self.parasitedata:
self.set_hidden_layer(self.parasitedata["oldid"])
if self.merge_check.get_active():
self.previewLayer = self.drawable.copy()
self.add_over_layer(self.previewLayer, self.drawable)
self.set_hidden_layer(self.drawable)
layer = self.previewLayer
merge = 1
else:
layer = self.drawable
merge = 0
self.previewLayer = self.makeOverlay(
self.img,
layer,
self.color_button.get_color(),
self.opacity_slider["adj"].get_value(),
self.mode_box.get_active(),
merge,
1
)
else:
gimp.displays_flush()
def makeOverlay(self, img, drawable, color, opacity, mode, merge, preview):
pdb.gimp_image_undo_group_start(img)
origfgcolor = gimp.get_foreground()
origselection = pdb.gimp_selection_save(img)
colorlayer = gimp.Layer(img, "%s-color" % (drawable.name), drawable.width, drawable.height, (RGBA_IMAGE, GRAYA_IMAGE)[img.base_type], opacity, mode)
self.add_over_layer(colorlayer, drawable)
if merge == 0 and preview == 0:
self.group_layers("%s-with-color" % (drawable.name), colorlayer, drawable)
colorlayer.set_offsets(drawable.offsets[0], drawable.offsets[1])
pdb.gimp_selection_none(img)
gimp.set_foreground(color)
pdb.gimp_edit_fill(colorlayer, FOREGROUND_FILL)
if merge == 1:
origmask = drawable.mask
layername = drawable.name
if origmask != None:
origmask = drawable.mask.copy()
drawable.remove_mask(MASK_DISCARD)
alphamask = drawable.create_mask(ADD_ALPHA_TRANSFER_MASK)
colorlayer = pdb.gimp_image_merge_down(img, colorlayer, EXPAND_AS_NECESSARY)
colorlayer.name = layername
colorlayer.add_mask(alphamask)
colorlayer.remove_mask(MASK_APPLY)
if origmask != None:
colorlayer.add_mask(origmask)
else:
pdb.gimp_selection_layer_alpha(drawable)
if drawable.mask != None:
pdb.gimp_selection_combine(drawable.mask, CHANNEL_OP_INTERSECT)
alphamask = colorlayer.create_mask(ADD_SELECTION_MASK)
colorlayer.add_mask(alphamask)
colorlayer.remove_mask(MASK_APPLY)
pdb.gimp_image_set_active_layer(img, drawable)
gimp.set_foreground(origfgcolor)
pdb.gimp_selection_load(origselection)
img.remove_channel(origselection)
gimp.displays_flush()
pdb.gimp_image_undo_group_end(img)
return colorlayer
class layerfx_gradient_overlay(layerfx_base):
shelfkey = "layerfx-gradient-overlay"
def __init__(self, runmode, img, drawable, gradient, gradienttype, repeat, reverse, opacity, mode, centerx, centery, angle, width, merge):
self.origMsgHandler = pdb.gimp_message_get_handler()
pdb.gimp_message_set_handler(ERROR_CONSOLE)
self.img = img
self.drawable = drawable
if runmode == RUN_INTERACTIVE:
self.showDialog()
elif runmode == RUN_NONINTERACTIVE:
if self.validatedata(img, drawable,
("gradient", gradient),
("intrange", gradienttype, 0, 10),
("intrange", repeat, 0, 2),
("boolean", reverse),
("percent", opacity),
("mode", mode),
("floatrange", centerx, 0.0, img.width),
("floatrange", centery, 0.0, img.height),
("angle", angle),
("floatrange", width, 0.0, 262144.0),
("boolean", merge)
):
self.removeOldLayer()
fxlayer = self.makeOverlay(img, drawable, gradient, gradienttype, repeat, reverse, opacity, mode, centerx, centery, angle, width, merge, 0)
if merge == 0:
self.writeParasiteRaw(drawable, fxlayer, gradient, gradienttype, repeat, reverse, opacity, mode, centerx, centery, angle, width, merge)
shelf[self.shelfkey] = {
"gradient": gradient,
"gradienttype": gradienttype,
"repeat": repeat,
"reverse": reverse,
"opacity": opacity,
"mode": mode,
"centerx": centerx,
"centery": centery,
"angle": angle,
"width": width,
"merge": merge
}
elif runmode == RUN_WITH_LAST_VALS and shelf.has_key(self.shelfkey) == 1:
self.removeOldLayer()
fxlayer = self.makeOverlay(
img,
drawable,
shelf[self.shelfkey]["gradient"],
shelf[self.shelfkey]["gradienttype"],
shelf[self.shelfkey]["repeat"],
shelf[self.shelfkey]["reverse"],
shelf[self.shelfkey]["opacity"],
shelf[self.shelfkey]["mode"],
shelf[self.shelfkey]["centerx"],
shelf[self.shelfkey]["centery"],
shelf[self.shelfkey]["angle"],
shelf[self.shelfkey]["width"],
shelf[self.shelfkey]["merge"],
0
)
if shelf[self.shelfkey]["merge"] == 0:
self.writeParasiteRaw(drawable, fxlayer,
shelf[self.shelfkey]["gradient"],
shelf[self.shelfkey]["gradienttype"],
shelf[self.shelfkey]["repeat"],
shelf[self.shelfkey]["reverse"],
shelf[self.shelfkey]["opacity"],
shelf[self.shelfkey]["mode"],
shelf[self.shelfkey]["centerx"],
shelf[self.shelfkey]["centery"],
shelf[self.shelfkey]["angle"],
shelf[self.shelfkey]["width"],
shelf[self.shelfkey]["merge"]
)
else:
pdb.gimp_message("unknown runmode")
pdb.gimp_message_set_handler(self.origMsgHandler)
def showDialog(self):
self.dialog = gimpui.Dialog("Incrustation Degrade", "gradientoverlaydialog")
self.parasitedata = self.readParasite(self.img, self.drawable)
self.table = gtk.Table(8, 4, True)
self.table.set_homogeneous(True)
self.table.set_row_spacings(3)
self.table.set_col_spacings(3)
self.table.show()
self.gradient_label = self.make_label("_Degrade:")
self.table.attach(self.gradient_label, 0, 1, 0, 1)
self.gradient_button = gimpui.GradientSelector()
if self.parasitedata:
self.gradient_button.set_gradient(self.parasitedata["gradient"])
elif shelf.has_key(self.shelfkey) == 1:
self.gradient_button.set_gradient(shelf[self.shelfkey]["gradient"])
self.gradient_label.set_mnemonic_widget(self.gradient_button)
self.gradient_button.show()
self.table.attach(self.gradient_button, 1, 2, 0, 1)
self.gradient_button.connect("gradient-set", self.preview)
self.gradienttype_label = self.make_label("Type:")
self.table.attach(self.gradienttype_label, 0, 1, 1, 2)
self.gradienttype_box = self.make_gradient_type_box()
if self.parasitedata:
self.gradienttype_box.set_active(self.parasitedata["gradienttype"])
elif shelf.has_key(self.shelfkey) == 1:
self.gradienttype_box.set_active(shelf[self.shelfkey]["gradienttype"])
else:
self.gradienttype_box.set_active(0)
self.gradienttype_box.show()
self.gradienttype_label.set_mnemonic_widget(self.gradienttype_box)
self.table.attach(self.gradienttype_box, 1, 4, 1, 2)
self.gradienttype_box.connect("changed", self.preview)
self.repeat_label = self.make_label("Repeter:")
self.table.attach(self.repeat_label, 0, 1, 2, 3)
self.repeat_box = self.make_gradient_repeat_box()
if self.parasitedata:
self.repeat_box.set_active(self.parasitedata["repeat"])
elif shelf.has_key(self.shelfkey) == 1:
self.repeat_box.set_active(shelf[self.shelfkey]["repeat"])
else:
self.repeat_box.set_active(0)
self.repeat_box.show()
self.repeat_label.set_mnemonic_widget(self.repeat_box)
self.table.attach(self.repeat_box, 1, 4, 2, 3)
self.repeat_box.connect("changed", self.preview)
self.reverse_check = gtk.CheckButton("_Inverser")
if self.parasitedata:
if self.parasitedata["reverse"] == 1:
self.reverse_check.set_active(True)
elif shelf.has_key(self.shelfkey) == 1 and shelf[self.shelfkey]["reverse"] == 1:
self.reverse_check.set_active(True)
self.reverse_check.show()
self.table.attach(self.reverse_check, 2, 3, 0, 1)
self.reverse_check.connect("toggled", self.preview)
self.mode_label = self.make_label("_Mode de fusion:")
self.table.attach(self.mode_label, 0, 1, 3, 4)
self.mode_box = self.make_blend_mode_box()
if self.parasitedata:
self.mode_box.set_active(self.parasitedata["mode"])
elif shelf.has_key(self.shelfkey) == 1:
self.mode_box.set_active(shelf[self.shelfkey]["mode"])
else:
self.mode_box.set_active(NORMAL_MODE)
self.mode_label.set_mnemonic_widget(self.mode_box)
self.mode_box.show()
self.table.attach(self.mode_box, 1, 4, 3, 4)
self.mode_box.connect("changed", self.preview)
self.opacity_label = self.make_label("_Opacite:")
self.table.attach(self.opacity_label, 0, 1, 4, 5)
self.opacity_slider = self.make_slider_and_spinner(100.0, 0.0, 100.0, 1.0, 10.0, 1)
if self.parasitedata:
self.opacity_slider["adj"].set_value(self.parasitedata["opacity"])
elif shelf.has_key(self.shelfkey) == 1:
self.opacity_slider["adj"].set_value(shelf[self.shelfkey]["opacity"])
self.opacity_label.set_mnemonic_widget(self.opacity_slider["spinner"])
self.table.attach(self.opacity_slider["slider"], 1, 3, 4, 5)
self.table.attach(self.opacity_slider["spinner"], 3, 4, 4, 5)
self.opacity_slider["adj"].connect("value-changed", self.preview)
self.center_label = self.make_label("_Centre:")
self.table.attach(self.center_label, 0, 1, 5, 6)
self.centerx_spinner = self.make_spinner(0.0, 0.0, self.img.width, 1.0, 10.0, 1)
if self.parasitedata:
self.centerx_spinner["adj"].set_value(self.parasitedata["centerx"])
elif shelf.has_key(self.shelfkey) == 1:
self.centerx_spinner["adj"].set_value(shelf[self.shelfkey]["centerx"])
self.center_label.set_mnemonic_widget(self.centerx_spinner["spinner"])
self.table.attach(self.centerx_spinner["spinner"], 1, 2, 5, 6)
self.centerx_spinner["adj"].connect("value-changed", self.preview)
self.centery_spinner = self.make_spinner(0.0, 0.0, self.img.height, 1.0, 10.0, 1)
if self.parasitedata:
self.centery_spinner["adj"].set_value(self.parasitedata["centery"])
elif shelf.has_key(self.shelfkey) == 1:
self.centery_spinner["adj"].set_value(shelf[self.shelfkey]["centery"])
self.table.attach(self.centery_spinner["spinner"], 2, 3, 5, 6)
self.centery_spinner["adj"].connect("value-changed", self.preview)
self.angle_label = self.make_label(" Angle:")
self.table.attach(self.angle_label, 0, 1, 6, 7)
self.angle_slider = self.make_slider_and_spinner(90.0, -180.0, 180.0, 1.0, 10.0, 1)
if self.parasitedata:
self.angle_slider["adj"].set_value(self.parasitedata["angle"])
elif shelf.has_key(self.shelfkey) == 1:
self.angle_slider["adj"].set_value(shelf[self.shelfkey]["angle"])
self.angle_label.set_mnemonic_widget(self.angle_slider["spinner"])
self.table.attach(self.angle_slider["slider"], 1, 3, 6, 7)
self.table.attach(self.angle_slider["spinner"], 3, 4, 6, 7)
self.angle_slider["adj"].connect("value-changed", self.preview)
self.width_label = self.make_label("_Echelle:")
self.table.attach(self.width_label, 0, 1, 7, 8)
self.width_spinner = self.make_spinner(0.0, 0.0, 262144.0, 1.0, 10.0, 1)
if self.parasitedata:
self.width_spinner["adj"].set_value(self.parasitedata["width"])
elif shelf.has_key(self.shelfkey) == 1:
self.width_spinner["adj"].set_value(shelf[self.shelfkey]["width"])
self.width_label.set_mnemonic_widget(self.width_spinner["spinner"])
self.table.attach(self.width_spinner["spinner"], 1, 2, 7, 8)
self.width_spinner["adj"].connect("value-changed", self.preview)
self.merge_check = gtk.CheckButton("_Fusionner avec le calque")
if self.parasitedata:
if self.parasitedata["merge"] == 1:
self.merge_check.set_active(True)
elif shelf.has_key(self.shelfkey) == 1 and shelf[self.shelfkey]["merge"] == 1:
self.merge_check.set_active(True)
self.merge_check.show()
self.merge_check.connect("toggled", self.preview)
self.preview_check = gtk.CheckButton("_Apercu")
self.preview_check.show()
self.preview_check.connect("toggled", self.preview)
self.dialog.vbox.hbox1 = gtk.HBox(False, 7)
self.dialog.vbox.hbox1.show()
self.dialog.vbox.pack_start(self.dialog.vbox.hbox1, True, True, 7)
self.dialog.vbox.hbox1.pack_start(self.table, True, True, 7)
self.dialog.vbox.hbox2 = gtk.HBox(False, 7)
self.dialog.vbox.hbox2.show()
self.dialog.vbox.add(self.dialog.vbox.hbox2)
self.dialog.vbox.hbox2.pack_start(self.merge_check, True, True, 10)
self.dialog.vbox.hbox3 = gtk.HBox(False, 7)
self.dialog.vbox.hbox3.show()
self.dialog.vbox.add(self.dialog.vbox.hbox3)
self.dialog.vbox.hbox3.pack_start(self.preview_check, True, True, 10)
self.makeDialogButtons()
self.dialog.show()
self.dialog.run()
self.removePreviews()
def okbutton(self, widget):
if self.layer_exists(self.previewLayer):
self.img.remove_layer(self.previewLayer)
self.previewLayer = None
self.unset_hidden_layer()
if pdb.gimp_image_undo_is_enabled(self.img) == 0:
pdb.gimp_image_undo_thaw(self.img)
params = {
"gradient": self.gradient_button.get_gradient(),
"gradienttype": self.gradienttype_box.get_active(),
"repeat": self.repeat_box.get_active(),
"reverse": self.cond(self.reverse_check.get_active()),
"opacity": self.opacity_slider["adj"].get_value(),
"mode": self.mode_box.get_active(),
"centerx": self.centerx_spinner["adj"].get_value(),
"centery": self.centery_spinner["adj"].get_value(),
"angle": self.angle_slider["adj"].get_value(),
"width": self.width_spinner["adj"].get_value(),
"merge": self.cond(self.merge_check.get_active())
}
if self.parasitedata:
self.img.remove_layer(self.parasitedata["oldid"])
fxlayer = self.makeOverlay(
self.img,
self.drawable,
params["gradient"],
params["gradienttype"],
params["repeat"],
params["reverse"],
params["opacity"],
params["mode"],
params["centerx"],
params["centery"],
params["angle"],
params["width"],
params["merge"],
0
)
if params["merge"] == 0:
self.writeParasite(self.drawable, fxlayer,
("gradient", self.gradient_button),
("combobox", self.gradienttype_box),
("combobox", self.repeat_box),
("check", self.reverse_check),
("floatadj", self.opacity_slider["adj"]),
("modebox", self.mode_box),
("floatadj", self.centerx_spinner["adj"]),
("floatadj", self.centery_spinner["adj"]),
("floatadj", self.angle_slider["adj"]),
("floatadj", self.width_spinner["adj"]),
("check", self.merge_check)
)
shelf[self.shelfkey] = params
def resetbutton(self, widget):
self.gradient_button.set_gradient("FG to BG (RGB)")
self.gradienttype_box.set_active(0)
self.repeat_box.set_active(0)
self.reverse_check.set_active(False)
self.mode_box.set_active(NORMAL_MODE)
self.opacity_slider["adj"].set_value(100.0)
self.centerx_spinner["adj"].set_value(0.0)
self.centery_spinner["adj"].set_value(0.0)
self.angle_slider["adj"].set_value(90.0)
self.width_spinner["adj"].set_value(0.0)
self.merge_check.set_active(False)
def readParasite(self, img, drawable):
return layerfx_base.readParasite(self, img, drawable,
layerfx_gradient_overlay.shelfkey,
("gradient", "string"),
("gradienttype", "int"),
("repeat", "int"),
("reverse", "int"),
("opacity", "float"),
("mode", "int"),
("centerx", "float"),
("centery", "float"),
("angle", "float"),
("width", "float"),
("merge", "int")
)
def preview(self, widget, *extra):
if self.layer_exists(self.previewLayer):
self.img.remove_layer(self.previewLayer)
if self.preview_check.get_active():
self.unset_hidden_layer()
if pdb.gimp_image_undo_is_enabled(self.img) == 1:
pdb.gimp_image_undo_freeze(self.img)
if self.parasitedata:
self.set_hidden_layer(self.parasitedata["oldid"])
if self.merge_check.get_active():
self.previewLayer = self.drawable.copy()
self.add_over_layer(self.previewLayer, self.drawable)
self.set_hidden_layer(self.drawable)
layer = self.previewLayer
merge = 1
else:
layer = self.drawable
merge = 0
self.previewLayer = self.makeOverlay(
self.img,
layer,
self.gradient_button.get_gradient(),
self.gradienttype_box.get_active(),
self.repeat_box.get_active(),
self.cond(self.reverse_check.get_active()),
self.opacity_slider["adj"].get_value(),
self.mode_box.get_active(),
self.centerx_spinner["adj"].get_value(),
self.centery_spinner["adj"].get_value(),
self.angle_slider["adj"].get_value(),
self.width_spinner["adj"].get_value(),
merge,
1
)
else:
gimp.displays_flush()
def makeOverlay(self, img, drawable, gradient, gradienttype, repeat, reverse, opacity, mode, centerx, centery, angle, width, merge, preview):
pdb.gimp_image_undo_group_start(img)
origgradient = pdb.gimp_context_get_gradient()
origselection = pdb.gimp_selection_save(img)
gradientlayer = gimp.Layer(img, "%s-gradient" % (drawable.name), drawable.width, drawable.height, (RGBA_IMAGE, GRAYA_IMAGE)[img.base_type], opacity, mode)
self.add_over_layer(gradientlayer, drawable)
if merge == 0 and preview == 0:
self.group_layers("%s-with-gradient" % (drawable.name), gradientlayer, drawable)
gradientlayer.set_offsets(drawable.offsets[0], drawable.offsets[1])
measures = self.getGradientMeasurements(drawable.offsets[0], drawable.offsets[1], gradienttype, centerx, centery, angle, width)
pdb.gimp_selection_none(img)
pdb.gimp_edit_clear(gradientlayer)
pdb.gimp_context_set_gradient(gradient)
if gradienttype >= 6 and gradienttype <= 8:
pdb.gimp_selection_layer_alpha(drawable)
pdb.gimp_edit_blend(gradientlayer, CUSTOM_MODE, NORMAL_MODE, gradienttype, 100.0, 1.0, repeat, reverse, False, 1, 0.0, False, measures["start"][0], measures["start"][1], measures["end"][0], measures["end"][1])
pdb.gimp_selection_none(img)
if merge == 1:
origmask = drawable.mask
layername = drawable.name
if origmask != None:
origmask = drawable.mask.copy()
drawable.remove_mask(MASK_DISCARD)
alphamask = drawable.create_mask(ADD_ALPHA_TRANSFER_MASK)
gradientlayer = pdb.gimp_image_merge_down(img, gradientlayer, EXPAND_AS_NECESSARY)
gradientlayer.name = layername
gradientlayer.add_mask(alphamask)
gradientlayer.remove_mask(MASK_APPLY)
if origmask != None:
gradientlayer.add_mask(origmask)
else:
pdb.gimp_selection_layer_alpha(drawable)
if drawable.mask != None:
pdb.gimp_selection_combine(drawable.mask, CHANNEL_OP_INTERSECT)
alphamask = gradientlayer.create_mask(ADD_SELECTION_MASK)
gradientlayer.add_mask(alphamask)
gradientlayer.remove_mask(MASK_APPLY)
pdb.gimp_image_set_active_layer(img, drawable)
pdb.gimp_context_set_gradient(origgradient)
pdb.gimp_selection_load(origselection)
img.remove_channel(origselection)
gimp.displays_flush()
pdb.gimp_image_undo_group_end(img)
return gradientlayer
class layerfx_pattern_overlay(layerfx_base):
shelfkey = "layerfx-pattern-overlay"
def __init__(self, runmode, img, drawable, pattern, opacity, mode, scale, interpolation_type, merge):
self.origMsgHandler = pdb.gimp_message_get_handler()
pdb.gimp_message_set_handler(ERROR_CONSOLE)
self.img = img
self.drawable = drawable
if runmode == RUN_INTERACTIVE:
self.showDialog()
elif runmode == RUN_NONINTERACTIVE:
if self.validatedata(img, drawable,
("pattern", pattern),
("percent", opacity),
("mode", mode),
("floatrange", scale, 1.0, 1000.0),
("intrange", interpolation_type, 0, 3),
("boolean", merge)
):
self.removeOldLayer()
fxlayer = self.makeOverlay(img, drawable, pattern, opacity, mode, scale, interpolation_type, merge, 0)
if merge == 0:
self.writeParasiteRaw(drawable, fxlayer, pattern, opacity, mode, scale, interpolation_type, merge)
shelf[self.shelfkey] = {
"pattern": pattern,
"opacity": opacity,
"mode": mode,
"scale": scale,
"interpolation_type": interpolation_type,
"merge": merge
}
elif runmode == RUN_WITH_LAST_VALS and shelf.has_key(self.shelfkey) == 1:
self.removeOldLayer()
fxlayer = self.makeOverlay(
img,
drawable,
shelf[self.shelfkey]["pattern"],
shelf[self.shelfkey]["opacity"],
shelf[self.shelfkey]["mode"],
shelf[self.shelfkey]["scale"],
shelf[self.shelfkey]["interpolation_type"],
shelf[self.shelfkey]["merge"],
0
)
if shelf[self.shelfkey]["merge"] == 0:
self.writeParasiteRaw(drawable, fxlayer,
shelf[self.shelfkey]["pattern"],
shelf[self.shelfkey]["opacity"],
shelf[self.shelfkey]["mode"],
shelf[self.shelfkey]["scale"],
shelf[self.shelfkey]["interpolation_type"],
shelf[self.shelfkey]["merge"]
)
else:
pdb.gimp_message("unknown runmode")
pdb.gimp_message_set_handler(self.origMsgHandler)
def showDialog(self):
self.dialog = gimpui.Dialog("Incrustation motif", "patternoverlaydialog")
self.parasitedata = self.readParasite(self.img, self.drawable)
self.table = gtk.Table(5, 6, True)
self.table.set_homogeneous(True)
self.table.set_row_spacings(3)
self.table.set_col_spacings(3)
self.table.show()
self.pattern_label = self.make_label("_Motif:")
self.table.attach(self.pattern_label, 0, 2, 0, 1)
self.pattern_button = gimpui.PatternSelector()
if self.parasitedata:
self.pattern_button.set_pattern(self.parasitedata["pattern"])
elif shelf.has_key(self.shelfkey) == 1:
self.pattern_button.set_pattern(shelf[self.shelfkey]["pattern"])
self.pattern_label.set_mnemonic_widget(self.pattern_button)
self.pattern_button.show()
self.table.attach(self.pattern_button, 2, 4, 0, 1)
self.pattern_button.connect("pattern-set", self.preview)
self.mode_label = self.make_label("_Mode de fusion:")
self.table.attach(self.mode_label, 0, 2, 1, 2)
self.mode_box = self.make_blend_mode_box()
if self.parasitedata:
self.mode_box.set_active(self.parasitedata["mode"])
elif shelf.has_key(self.shelfkey) == 1:
self.mode_box.set_active(shelf[self.shelfkey]["mode"])
else:
self.mode_box.set_active(NORMAL_MODE)
self.mode_label.set_mnemonic_widget(self.mode_box)
self.mode_box.show()
self.table.attach(self.mode_box, 2, 6, 1, 2)
self.mode_box.connect("changed", self.preview)
self.opacity_label = self.make_label("_Opacite:")
self.table.attach(self.opacity_label, 0, 2, 2, 3)
self.opacity_slider = self.make_slider_and_spinner(100.0, 0.0, 100.0, 1.0, 10.0, 1)
if self.parasitedata:
self.opacity_slider["adj"].set_value(self.parasitedata["opacity"])
elif shelf.has_key(self.shelfkey) == 1:
self.opacity_slider["adj"].set_value(shelf[self.shelfkey]["opacity"])
self.opacity_label.set_mnemonic_widget(self.opacity_slider["spinner"])
self.table.attach(self.opacity_slider["slider"], 2, 5, 2, 3)
self.table.attach(self.opacity_slider["spinner"], 5, 6, 2, 3)
self.opacity_slider["adj"].connect("value-changed", self.preview)
self.scale_label = self.make_label("Echelle:")
self.table.attach(self.scale_label, 0, 2, 3, 4)
self.scale_slider = self.make_slider_and_spinner(100.0, 1.0, 1000.0, 1.0, 10.0, 1)
if self.parasitedata:
self.scale_slider["adj"].set_value(self.parasitedata["scale"])
elif shelf.has_key(self.shelfkey) == 1:
self.scale_slider["adj"].set_value(shelf[self.shelfkey]["scale"])
self.scale_label.set_mnemonic_widget(self.scale_slider["spinner"])
self.table.attach(self.scale_slider["slider"], 2, 5, 3, 4)
self.table.attach(self.scale_slider["spinner"], 5, 6, 3, 4)
self.scale_slider["adj"].connect("value-changed", self.preview)
self.interpolation_type_label = self.make_label("Interpolation:")
self.table.attach(self.interpolation_type_label, 0, 2, 4, 5)
self.interpolation_type_box = self.make_interpolation_box()
if self.parasitedata:
self.interpolation_type_box.set_active(self.parasitedata["interpolation_type"])
elif shelf.has_key(self.shelfkey) == 1:
self.interpolation_type_box.set_active(shelf[self.shelfkey]["interpolation_type"])
else:
self.interpolation_type_box.set_active(0)
self.interpolation_type_box.show()
self.interpolation_type_label.set_mnemonic_widget(self.interpolation_type_box)
self.table.attach(self.interpolation_type_box, 2, 6, 4, 5)
self.interpolation_type_box.connect("changed", self.preview)
self.merge_check = gtk.CheckButton("_Fusionner avec le calque")
if self.parasitedata:
if self.parasitedata["merge"] == 1:
self.merge_check.set_active(True)
elif shelf.has_key(self.shelfkey) == 1 and shelf[self.shelfkey]["merge"] == 1:
self.merge_check.set_active(True)
self.merge_check.show()
self.merge_check.connect("toggled", self.preview)
self.preview_check = gtk.CheckButton("_Apercu")
self.preview_check.show()
self.preview_check.connect("toggled", self.preview)
self.dialog.vbox.hbox1 = gtk.HBox(False, 7)
self.dialog.vbox.hbox1.show()
self.dialog.vbox.pack_start(self.dialog.vbox.hbox1, True, True, 7)
self.dialog.vbox.hbox1.pack_start(self.table, True, True, 7)
self.dialog.vbox.hbox2 = gtk.HBox(False, 7)
self.dialog.vbox.hbox2.show()
self.dialog.vbox.add(self.dialog.vbox.hbox2)
self.dialog.vbox.hbox2.pack_start(self.merge_check, True, True, 10)
self.dialog.vbox.hbox3 = gtk.HBox(False, 7)
self.dialog.vbox.hbox3.show()
self.dialog.vbox.add(self.dialog.vbox.hbox3)
self.dialog.vbox.hbox3.pack_start(self.preview_check, True, True, 10)
self.makeDialogButtons()
self.dialog.show()
self.dialog.run()
self.removePreviews()
def okbutton(self, widget):
if self.layer_exists(self.previewLayer):
self.img.remove_layer(self.previewLayer)
self.previewLayer = None
self.unset_hidden_layer()
if pdb.gimp_image_undo_is_enabled(self.img) == 0:
pdb.gimp_image_undo_thaw(self.img)
params = {
"pattern": self.pattern_button.get_pattern(),
"opacity": self.opacity_slider["adj"].get_value(),
"mode": self.mode_box.get_active(),
"scale": self.scale_slider["adj"].get_value(),
"interpolation_type": self.interpolation_type_box.get_active(),
"merge": self.cond(self.merge_check.get_active())
}
if self.parasitedata:
self.img.remove_layer(self.parasitedata["oldid"])
fxlayer = self.makeOverlay(
self.img,
self.drawable,
params["pattern"],
params["opacity"],
params["mode"],
params["scale"],
params["interpolation_type"],
params["merge"],
0
)
if params["merge"] == 0:
self.writeParasite(self.drawable, fxlayer,
("pattern", self.pattern_button),
("floatadj", self.opacity_slider["adj"]),
("modebox", self.mode_box),
("floatadj", self.scale_slider["adj"]),
("combobox", self.interpolation_type_box),
("check", self.merge_check)
)
shelf[self.shelfkey] = params
def resetbutton(self, widget):
self.pattern_button.set_pattern(pdb.gimp_context_get_pattern())
self.mode_box.set_active(NORMAL_MODE)
self.opacity_slider["adj"].set_value(100.0)
self.scale_slider["adj"].set_value(100.0)
self.interpolation_type_box.set_active(0)
self.merge_check.set_active(False)
def readParasite(self, img, drawable):
return layerfx_base.readParasite(self, img, drawable,
layerfx_pattern_overlay.shelfkey,
("pattern", "string"),
("opacity", "float"),
("mode", "int"),
("scale", "float"),
("interpolation_type", "int"),
("merge", "int")
)
def preview(self, widget, *extra):
if self.layer_exists(self.previewLayer):
self.img.remove_layer(self.previewLayer)
if self.preview_check.get_active():
self.unset_hidden_layer()
if pdb.gimp_image_undo_is_enabled(self.img) == 1:
pdb.gimp_image_undo_freeze(self.img)
if self.parasitedata:
self.set_hidden_layer(self.parasitedata["oldid"])
if self.merge_check.get_active():
self.previewLayer = self.drawable.copy()
self.add_over_layer(self.previewLayer, self.drawable)
self.unset_hidden_layer()
layer = self.previewLayer
merge = 1
else:
layer = self.drawable
merge = 0
self.previewLayer = self.makeOverlay(
self.img,
layer,
self.pattern_button.get_pattern(),
self.opacity_slider["adj"].get_value(),
self.mode_box.get_active(),
self.scale_slider["adj"].get_value(),
self.interpolation_type_box.get_active(),
merge,
1
)
else:
gimp.displays_flush()
def makeOverlay(self, img, drawable, pattern, opacity, mode, scale, interpolation_type, merge, preview):
pdb.gimp_image_undo_group_start(img)
origpattern = pdb.gimp_context_get_pattern()
origselection = pdb.gimp_selection_save(img)
if scale == 100.0:
layerwidth = drawable.width
layerheight = drawable.height
else:
layerwidth = int(round(drawable.width/(scale/100.0)))
layerheight = int(round(drawable.height/(scale/100.0)))
patternlayer = gimp.Layer(img, "%s-pattern" % (drawable.name), layerwidth, layerheight, (RGBA_IMAGE, GRAYA_IMAGE)[img.base_type], opacity, mode)
self.add_over_layer(patternlayer, drawable)
if merge == 0 and preview == 0:
self.group_layers("%s-with-pattern" % (drawable.name), patternlayer, drawable)
patternlayer.set_offsets(drawable.offsets[0], drawable.offsets[1])
pdb.gimp_selection_none(img)
pdb.gimp_context_set_pattern(pattern)
patternlayer.fill(PATTERN_FILL)
if scale != 100.0:
pdb.gimp_drawable_transform_scale(patternlayer, drawable.offsets[0], drawable.offsets[1], drawable.offsets[0] + drawable.width, drawable.offsets[1] + drawable.height, TRANSFORM_FORWARD, interpolation_type, 1, 3, TRANSFORM_RESIZE_ADJUST)
if merge == 1:
origmask = drawable.mask
layername = drawable.name
if origmask != None:
origmask = drawable.mask.copy()
drawable.remove_mask(MASK_DISCARD)
alphamask = drawable.create_mask(ADD_ALPHA_TRANSFER_MASK)
patternlayer = pdb.gimp_image_merge_down(img, patternlayer, EXPAND_AS_NECESSARY)
patternlayer.name = layername
patternlayer.add_mask(alphamask)
patternlayer.remove_mask(MASK_APPLY)
if origmask != None:
patternlayer.add_mask(origmask)
else:
pdb.gimp_selection_layer_alpha(drawable)
if drawable.mask != None:
pdb.gimp_selection_combine(drawable.mask, CHANNEL_OP_INTERSECT)
alphamask = patternlayer.create_mask(ADD_SELECTION_MASK)
patternlayer.add_mask(alphamask)
patternlayer.remove_mask(MASK_APPLY)
pdb.gimp_image_set_active_layer(img, drawable)
pdb.gimp_context_set_pattern(origpattern)
pdb.gimp_selection_load(origselection)
img.remove_channel(origselection)
gimp.displays_flush()
pdb.gimp_image_undo_group_end(img)
return patternlayer
class layerfx_reapply_effects(layerfx_drop_shadow, layerfx_inner_shadow, layerfx_outer_glow, layerfx_inner_glow, layerfx_bevel_emboss, layerfx_satin, layerfx_stroke, layerfx_color_overlay, layerfx_gradient_overlay, layerfx_pattern_overlay):
def __init__(self, runmode, img, drawable):
self.origMsgHandler = pdb.gimp_message_get_handler()
pdb.gimp_message_set_handler(ERROR_CONSOLE)
self.img = img
self.drawable = drawable
if runmode == RUN_INTERACTIVE or runmode == RUN_WITH_LAST_VALS:
self.reapplyEffects(img, drawable)
elif runmode == RUN_NONINTERACTIVE:
if self.validatedata(img, drawable):
self.reapplyEffects(img, drawable)
else:
pdb.gimp_message("unknown runmode")
pdb.gimp_message_set_handler(self.origMsgHandler)
def reapplyEffects(self, img, drawable):
pdb.gimp_image_undo_group_start(img)
self.parasitedata = {
"drop-shadow": layerfx_drop_shadow.readParasite(self, img, drawable),
"inner-shadow": layerfx_inner_shadow.readParasite(self, img, drawable),
"outer-glow": layerfx_outer_glow.readParasite(self, img, drawable),
"inner-glow": layerfx_inner_glow.readParasite(self, img, drawable),
"bevel-emboss": layerfx_bevel_emboss.readParasite(self, img, drawable),
"satin": layerfx_satin.readParasite(self, img, drawable),
"stroke": layerfx_stroke.readParasite(self, img, drawable),
"color-overlay": layerfx_color_overlay.readParasite(self, img, drawable),
"gradient-overlay": layerfx_gradient_overlay.readParasite(self, img, drawable),
"pattern-overlay": layerfx_pattern_overlay.readParasite(self, img, drawable)
}
active_effects = []
for k, v in self.parasitedata.iteritems():
if v:
active_effects.append(k)
active_effects.sort(cmp=lambda a, b: self.get_layer_pos(self.parasitedata[a]["oldid"]) - self.get_layer_pos(self.parasitedata[b]["oldid"]))
fx_detected = False
for j in active_effects:
if j == "drop-shadow":
fx_detected = True
layerfx_drop_shadow(
RUN_NONINTERACTIVE,
img,
drawable,
self.parasitedata["drop-shadow"]["color"],
self.parasitedata["drop-shadow"]["opacity"],
self.parasitedata["drop-shadow"]["contour"],
self.parasitedata["drop-shadow"]["noise"],
self.parasitedata["drop-shadow"]["mode"],
self.parasitedata["drop-shadow"]["spread"],
self.parasitedata["drop-shadow"]["size"],
self.parasitedata["drop-shadow"]["offsetangle"],
self.parasitedata["drop-shadow"]["offsetdist"],
self.parasitedata["drop-shadow"]["knockout"],
self.parasitedata["drop-shadow"]["merge"]
)
elif j == "inner-shadow":
fx_detected = True
layerfx_inner_shadow(
RUN_NONINTERACTIVE,
img,
drawable,
self.parasitedata["inner-shadow"]["color"],
self.parasitedata["inner-shadow"]["opacity"],
self.parasitedata["inner-shadow"]["contour"],
self.parasitedata["inner-shadow"]["noise"],
self.parasitedata["inner-shadow"]["mode"],
self.parasitedata["inner-shadow"]["source"],
self.parasitedata["inner-shadow"]["choke"],
self.parasitedata["inner-shadow"]["size"],
self.parasitedata["inner-shadow"]["offsetangle"],
self.parasitedata["inner-shadow"]["offsetdist"],
self.parasitedata["inner-shadow"]["merge"]
)
elif j == "outer-glow":
fx_detected = True
if self.parasitedata["outer-glow"]["filltype"] == 0:
fill = self.parasitedata["outer-glow"]["color"]
elif self.parasitedata["outer-glow"]["filltype"] == 1:
fill = self.parasitedata["outer-glow"]["gradient"]
layerfx_outer_glow(
RUN_NONINTERACTIVE,
img,
drawable,
fill,
self.parasitedata["outer-glow"]["opacity"],
self.parasitedata["outer-glow"]["contour"],
self.parasitedata["outer-glow"]["noise"],
self.parasitedata["outer-glow"]["mode"],
self.parasitedata["outer-glow"]["spread"],
self.parasitedata["outer-glow"]["size"],
self.parasitedata["outer-glow"]["knockout"],
self.parasitedata["outer-glow"]["merge"]
)
elif j == "inner-glow":
fx_detected = True
if self.parasitedata["inner-glow"]["filltype"] == 0:
fill = self.parasitedata["inner-glow"]["color"]
elif self.parasitedata["inner-glow"]["filltype"] == 1:
fill = self.parasitedata["inner-glow"]["gradient"]
layerfx_inner_glow(
RUN_NONINTERACTIVE,
img,
drawable,
fill,
self.parasitedata["inner-glow"]["opacity"],
self.parasitedata["inner-glow"]["contour"],
self.parasitedata["inner-glow"]["noise"],
self.parasitedata["inner-glow"]["mode"],
self.parasitedata["inner-glow"]["source"],
self.parasitedata["inner-glow"]["choke"],
self.parasitedata["inner-glow"]["size"],
self.parasitedata["inner-glow"]["merge"]
)
elif j == "bevel-emboss":
fx_detected = True
layerfx_bevel_emboss(
RUN_NONINTERACTIVE,
img,
drawable,
self.parasitedata["bevel-emboss"]["style"],
self.parasitedata["bevel-emboss"]["depth"],
self.parasitedata["bevel-emboss"]["direction"],
self.parasitedata["bevel-emboss"]["size"],
self.parasitedata["bevel-emboss"]["soften"],
self.parasitedata["bevel-emboss"]["angle"],
self.parasitedata["bevel-emboss"]["altitude"],
self.parasitedata["bevel-emboss"]["glosscontour"],
self.parasitedata["bevel-emboss"]["highlightcolor"],
self.parasitedata["bevel-emboss"]["highlightmode"],
self.parasitedata["bevel-emboss"]["highlightopacity"],
self.parasitedata["bevel-emboss"]["shadowcolor"],
self.parasitedata["bevel-emboss"]["shadowmode"],
self.parasitedata["bevel-emboss"]["shadowopacity"],
self.parasitedata["bevel-emboss"]["surfacecontour"],
self.parasitedata["bevel-emboss"]["use_texture"],
self.parasitedata["bevel-emboss"]["pattern"],
self.parasitedata["bevel-emboss"]["scale"],
self.parasitedata["bevel-emboss"]["tex_depth"],
self.parasitedata["bevel-emboss"]["invert"],
self.parasitedata["bevel-emboss"]["merge"]
)
elif j == "satin":
fx_detected = True
layerfx_satin(
RUN_NONINTERACTIVE,
img,
drawable,
self.parasitedata["satin"]["color"],
self.parasitedata["satin"]["opacity"],
self.parasitedata["satin"]["mode"],
self.parasitedata["satin"]["offsetangle"],
self.parasitedata["satin"]["offsetdist"],
self.parasitedata["satin"]["size"],
self.parasitedata["satin"]["contour"],
self.parasitedata["satin"]["invert"],
self.parasitedata["satin"]["merge"]
)
elif j == "stroke":
fx_detected = True
if self.parasitedata["stroke"]["filltype"] == 0:
fill = self.parasitedata["stroke"]["color"]
elif self.parasitedata["stroke"]["filltype"] == 1:
fill = (
self.parasitedata["stroke"]["gradient"],
self.parasitedata["stroke"]["gradienttype"],
self.parasitedata["stroke"]["repeat"],
self.parasitedata["stroke"]["reverse"],
self.parasitedata["stroke"]["centerx"],
self.parasitedata["stroke"]["centery"],
self.parasitedata["stroke"]["angle"],
self.parasitedata["stroke"]["width"]
)
elif self.parasitedata["stroke"]["filltype"] == 2:
fill = (
self.parasitedata["stroke"]["pattern"],
self.parasitedata["stroke"]["scale"],
self.parasitedata["stroke"]["interpolation_type"]
)
layerfx_stroke(
RUN_NONINTERACTIVE,
img,
drawable,
fill,
self.parasitedata["stroke"]["opacity"],
self.parasitedata["stroke"]["mode"],
self.parasitedata["stroke"]["size"],
self.parasitedata["stroke"]["position"],
self.parasitedata["stroke"]["merge"]
)
elif j == "color-overlay":
fx_detected = True
layerfx_color_overlay(
RUN_NONINTERACTIVE,
img,
drawable,
self.parasitedata["color-overlay"]["color"],
self.parasitedata["color-overlay"]["opacity"],
self.parasitedata["color-overlay"]["mode"],
self.parasitedata["color-overlay"]["merge"]
)
elif j == "gradient-overlay":
fx_detected = True
layerfx_gradient_overlay(
RUN_NONINTERACTIVE,
img,
drawable,
self.parasitedata["gradient-overlay"]["gradient"],
self.parasitedata["gradient-overlay"]["gradienttype"],
self.parasitedata["gradient-overlay"]["repeat"],
self.parasitedata["gradient-overlay"]["reverse"],
self.parasitedata["gradient-overlay"]["opacity"],
self.parasitedata["gradient-overlay"]["mode"],
self.parasitedata["gradient-overlay"]["centerx"],
self.parasitedata["gradient-overlay"]["centery"],
self.parasitedata["gradient-overlay"]["angle"],
self.parasitedata["gradient-overlay"]["width"],
self.parasitedata["gradient-overlay"]["merge"]
)
elif j == "pattern-overlay":
fx_detected = True
layerfx_pattern_overlay(
RUN_NONINTERACTIVE,
img,
drawable,
self.parasitedata["pattern-overlay"]["pattern"],
self.parasitedata["pattern-overlay"]["opacity"],
self.parasitedata["pattern-overlay"]["mode"],
self.parasitedata["pattern-overlay"]["scale"],
self.parasitedata["pattern-overlay"]["interpolation_type"],
self.parasitedata["pattern-overlay"]["merge"]
)
if fx_detected == False:
self.show_error_msg("No effects found on this layer.", ValueError)
gimp.displays_flush()
pdb.gimp_image_undo_group_end(img)
class layerfxplugin(gimpplugin.plugin):
def start(self):
gimp.main(self.init, self.quit, self.query, self._run)
def init(self):
pass
def quit(self):
pass
def query(self):
authorname = "Jonathan Stipe"
copyrightname = "Jonathan Stipe"
imgmenupath = "/Filters/Styles de calque (Python)/"
layersmenupath = "/_Styles de calque (Python)/"
date = "July 2008"
modevals = "{ NORMAL-MODE (0), DISSOLVE-MODE (1), MULTIPLY-MODE (3), SCREEN-MODE (4), OVERLAY-MODE (5), DIFFERENCE-MODE (6), ADDITION-MODE (7), SUBTRACT-MODE (8), DARKEN-ONLY-MODE (9), LIGHTEN-ONLY-MODE (10), HUE-MODE (11), SATURATION-MODE (12), COLOR-MODE (13), VALUE-MODE (14), DIVIDE-MODE (15), DODGE-MODE (16), BURN-MODE (17), HARDLIGHT-MODE (18), SOFTLIGHT-MODE (19), GRAIN-EXTRACT-MODE (20), GRAIN-MERGE-MODE (21), COLOR-ERASE-MODE (22), ERASE-MODE (23), REPLACE-MODE (24), ANTI-ERASE-MODE (25) }"
drop_shadow_description = "Ajouter une ombre portee a un calque."
drop_shadow_help = "Ajouter une ombre portee a un calque."
drop_shadow_params = (
(PDB_INT32, "run_mode", "Run mode"),
(PDB_IMAGE, "image", "Input image"),
(PDB_DRAWABLE, "drawable", "Input drawable"),
(PDB_COLOR, "color", "The shadow's color"),
(PDB_FLOAT, "opacity", "The shadow's opacity (0 <= opacity <= 100)"),
(PDB_INT32, "contour", "A contour used to modify the shadow's intensity curve (0 <= contour <= 11)"),
(PDB_FLOAT, "noise", "The amount of noise applied to the shadow (0 <= noise <= 100)"),
(PDB_INT32, "mode", "The shadow layer's combination mode %s" % (modevals)),
(PDB_FLOAT, "spread", "Spread (0 <= spread <= 100)"),
(PDB_INT32, "size", "The size of the shadow's blur (0 <= size <= 250)"),
(PDB_FLOAT, "offset_angle", "The angle the shadow is cast in (-180 <= offset_angle <= 180)"),
(PDB_FLOAT, "offset_distance", "The distance between the layer and the shadow (0 <= offset_distance <= 30000)"),
(PDB_INT32, "knockout", "Layer knocks out Drop Shadow (TRUE or FALSE)"),
(PDB_INT32, "merge", "Merge with layer (TRUE or FALSE)")
)
gimp.install_procedure(
"python_layerfx_drop_shadow",
drop_shadow_description,
drop_shadow_help,
authorname,
copyrightname,
date,
"%s_Ombre Portee..." % (imgmenupath),
"RGBA, GRAYA",
PLUGIN,
drop_shadow_params,
[]
)
gimp.install_procedure(
"python_layer_fx_drop_shadow",
drop_shadow_description,
drop_shadow_help,
authorname,
copyrightname,
date,
"%s_Ombre portee..." % (layersmenupath),
"RGBA, GRAYA",
PLUGIN,
drop_shadow_params,
[]
)
inner_shadow_description = "Ajouter une ombre interne a un calque"
inner_shadow_help = "Ajouter une ombre interne a un calque"
inner_shadow_params = (
(PDB_INT32, "run_mode", "Run mode"),
(PDB_IMAGE, "image", "Input image"),
(PDB_DRAWABLE, "drawable", "Input drawable"),
(PDB_COLOR, "color", "The shadow's color"),
(PDB_FLOAT, "opacity", "The shadow's opacity (0 <= opacity <= 100)"),
(PDB_INT32, "contour", "A contour used to modify the shadow's intensity curve (0 <= contour <= 11)"),
(PDB_FLOAT, "noise", "The amount of noise applied to the shadow (0 <= noise <= 100)"),
(PDB_INT32, "mode", "The shadow layer's combination mode %s" % (modevals)),
(PDB_INT32, "source", "Source (0 = Centre, 1 = Contour)"),
(PDB_FLOAT, "choke", "Choke (0 <= choke <= 100)"),
(PDB_INT32, "size", "The size of the shadow's blur (0 <= size <= 250)"),
(PDB_FLOAT, "offset_angle", "The angle the shadow is cast in (-180 <= offset_angle <= 180)"),
(PDB_FLOAT, "offset_distance", "The distance between the layer and the shadow (0 <= offset_distance <= 30000)"),
(PDB_INT32, "merge", "Merge with layer (TRUE or FALSE)")
)
gimp.install_procedure(
"python_layerfx_inner_shadow",
inner_shadow_description,
inner_shadow_help,
authorname,
copyrightname,
date,
"%sO_mbre Interne..." % (imgmenupath),
"RGB*, GRAY*",
PLUGIN,
inner_shadow_params,
[]
)
gimp.install_procedure(
"python_layer_fx_inner_shadow",
inner_shadow_description,
inner_shadow_help,
authorname,
copyrightname,
date,
"%s_mbre Interne..." % (layersmenupath),
"RGB*, GRAY*",
PLUGIN,
inner_shadow_params,
[]
)
outer_glow_description = "Creer une lueur externe autour d'un calque."
outer_glow_help = "Creer une lueur externe autour d'un calque."
outer_glow_params = (
(PDB_INT32, "run_mode", "Run mode"),
(PDB_IMAGE, "image", "Input image"),
(PDB_DRAWABLE, "drawable", "Input drawable"),
(PDB_COLOR, "color", "The glow's color. You can also use a gradient name here."),
(PDB_FLOAT, "opacity", "The glow's opacity (0 <= opacity <= 100)"),
(PDB_INT32, "contour", "A contour used to modify the glow's intensity curve (0 <= contour <= 11)"),
(PDB_FLOAT, "noise", "The amount of noise applied to the glow (0 <= noise <= 100)"),
(PDB_INT32, "mode", "The glow layer's combination mode %s" % (modevals)),
(PDB_FLOAT, "spread", "Spread (0 <= spread <= 100)"),
(PDB_INT32, "size", "The size of the glow's blur (0 <= size <= 250)"),
(PDB_INT32, "knockout", "Layer knocks out Outer Glow (TRUE or FALSE)"),
(PDB_INT32, "merge", "Merge with layer (TRUE or FALSE)")
)
gimp.install_procedure(
"python_layerfx_outer_glow",
outer_glow_description,
outer_glow_help,
authorname,
copyrightname,
date,
"%s_Lueur Externe..." % (imgmenupath),
"RGBA, GRAYA",
PLUGIN,
outer_glow_params,
[]
)
gimp.install_procedure(
"python_layer_fx_outer_glow",
outer_glow_description,
outer_glow_help,
authorname,
copyrightname,
date,
"%s_Lueur Externe..." % (layersmenupath),
"RGBA, GRAYA",
PLUGIN,
outer_glow_params,
[]
)
inner_glow_description = "Ajouter un effet de lueur interne sur un calque."
inner_glow_help = "Ajouter un effet de lueur interne sur un calque."
inner_glow_params = (
(PDB_INT32, "run_mode", "Run mode"),
(PDB_IMAGE, "image", "Input image"),
(PDB_DRAWABLE, "drawable", "Input drawable"),
(PDB_COLOR, "color", "The glow's color. You can also use a gradient name here."),
(PDB_FLOAT, "opacity", "The glow's opacity (0 <= opacity <= 100)"),
(PDB_INT32, "contour", "A contour used to modify the glow's intensity curve (0 <= contour <= 11)"),
(PDB_FLOAT, "noise", "The amount of noise applied to the glow (0 <= noise <= 100)"),
(PDB_INT32, "mode", "The glow layer's combination mode %s" % (modevals)),
(PDB_INT32, "source", "Source (0 = Centre, 1 = Contour)"),
(PDB_FLOAT, "choke", "Choke (0 <= choke <= 100)"),
(PDB_INT32, "size", "The size of the glow's blur (0 <= size <= 250)"),
(PDB_INT32, "merge", "Merge with layer (TRUE or FALSE)")
)
gimp.install_procedure(
"python_layerfx_inner_glow",
inner_glow_description,
inner_glow_help,
authorname,
copyrightname,
date,
"%s_Lueur Interne..." % (imgmenupath),
"RGB*, GRAY*",
PLUGIN,
inner_glow_params,
[]
)
gimp.install_procedure(
"python_layer_fx_inner_glow",
inner_glow_description,
inner_glow_help,
authorname,
copyrightname,
date,
"%s_Lueur Interne..." % (layersmenupath),
"RGB*, GRAY*",
PLUGIN,
inner_glow_params,
[]
)
bevel_emboss_description = "Creer des effets de biseautage et d'estampage sur un calque."
bevel_emboss_help = "Creer des effets de biseautage et d'estampage sur un calque."
bevel_emboss_params = (
(PDB_INT32, "run_mode", "Run mode"),
(PDB_IMAGE, "image", "Input image"),
(PDB_DRAWABLE, "drawable", "Input drawable"),
(PDB_INT32, "style", "Beveling Style (0 = Outer Bevel, 1 = Inner Bevel, 2 = Emboss, 3 = Pillow Emboss)"),
(PDB_INT32, "depth", "Depth (1 <= depth <= 65)"),
(PDB_INT32, "direction", "Direction (0 = Up, 1 = Down)"),
(PDB_INT32, "size", "The size of the bevel (0 <= size <= 250)"),
(PDB_INT32, "soften", "Soften (0 <= soften <= 16)"),
(PDB_FLOAT, "angle", "Angle of the light source (-180 <= angle <= 180)"),
(PDB_FLOAT, "altitude", "Altitude of the light source (0 <= altitude <= 90)"),
(PDB_INT32, "gloss_contour", "A contour used to modify the gloss's intensity curve (0 <= gloss_contour <= 11)"),
(PDB_COLOR, "highlight_color", "The highlight color"),
(PDB_INT32, "highlight_mode", "The highlight layer's combination mode %s" % (modevals)),
(PDB_FLOAT, "highlight_opacity", "The highlight's opacity (0 <= highlight_opacity <= 100)"),
(PDB_COLOR, "shadow_color", "The shadow color"),
(PDB_INT32, "shadow_mode", "The shadow layer's combination mode %s" % (modevals)),
(PDB_FLOAT, "shadow_opacity", "The shadow's opacity (0 <= shadow_opacity <= 100)"),
(PDB_INT32, "surface_contour", "A contour used to modify the surface shape (0 <= gloss_contour <= 11)"),
(PDB_INT32, "use_texture", "Apply a texture to the surface (TRUE or FALSE)"),
(PDB_STRING, "pattern", "The texture pattern"),
(PDB_FLOAT, "scale", "The texture scale (1 <= scale <= 1000)"),
(PDB_FLOAT, "tex_depth", "The texture depth (-1000 <= tex_depth <= 1000)"),
(PDB_INT32, "invert", "Invert (TRUE or FALSE)"),
(PDB_INT32, "merge", "Merge with layer (TRUE or FALSE)")
)
gimp.install_procedure(
"python_layerfx_bevel_emboss",
bevel_emboss_description,
bevel_emboss_help,
authorname,
copyrightname,
date,
"%s_Biseautage et Estampage..." % (imgmenupath),
"RGBA, GRAYA",
PLUGIN,
bevel_emboss_params,
[]
)
gimp.install_procedure(
"python_layer_fx_bevel_emboss",
bevel_emboss_description,
bevel_emboss_help,
authorname,
copyrightname,
date,
"%s_Biseautage et Estampage..." % (layersmenupath),
"RGBA, GRAYA",
PLUGIN,
bevel_emboss_params,
[]
)
satin_description = "Creer un effet satine sur un calque."
satin_help = "Creer un effet satine sur un calque."
satin_params = (
(PDB_INT32, "run_mode", "Run mode"),
(PDB_IMAGE, "image", "Input image"),
(PDB_DRAWABLE, "drawable", "Input drawable"),
(PDB_COLOR, "color", "The shadow color"),
(PDB_FLOAT, "opacity", "The shadow opacity (0 <= opacity <= 100)"),
(PDB_INT32, "mode", "The shadow layer's combination mode %s" % (modevals)),
(PDB_FLOAT, "offset_angle", "The angle the shadow is cast in (-180 <= offset_angle <= 180)"),
(PDB_FLOAT, "offset_distance", "The offset distance (0 <= offset_distance <= 30000)"),
(PDB_INT32, "size", "The size of the satin's blur (0 <= size <= 250)"),
(PDB_INT32, "contour", "A contour used to modify the shadow's intensity curve (0 <= contour <= 11)"),
(PDB_INT32, "invert", "Invert (TRUE or FALSE)"),
(PDB_INT32, "merge", "Merge with layer (TRUE or FALSE)")
)
gimp.install_procedure(
"python_layerfx_satin",
satin_description,
satin_help,
authorname,
copyrightname,
date,
"%s_Satin..." % (imgmenupath),
"RGBA, GRAYA",
PLUGIN,
satin_params,
[]
)
gimp.install_procedure(
"python_layer_fx_satin",
satin_description,
satin_help,
authorname,
copyrightname,
date,
"%s_Satin..." % (layersmenupath),
"RGBA, GRAYA",
PLUGIN,
satin_params,
[]
)
stroke_description = "Appliquer un contour autour d'un calque."
stroke_help = "Appliquer un contour autour d'un calque."
stroke_params = (
(PDB_INT32, "run_mode", "Run mode"),
(PDB_IMAGE, "image", "Input image"),
(PDB_DRAWABLE, "drawable", "Input drawable"),
(PDB_COLOR, "color", "The stroke color. This can also be a list or tuple to use gradients or patterns. For a gradient stroke, use a list or tuple of the form (gradient_name, gradient_type, repeat, reverse, center_x, center_y, angle, width). For a patterned stroke, use the form (pattern_name, scale, interpolation_type)."),
(PDB_FLOAT, "opacity", "The stroke opacity (0 <= opacity <= 100)"),
(PDB_INT32, "mode", "The stroke layer's combination mode %s" % (modevals)),
(PDB_INT32, "size", "The stroke's width (1 <= size <= 250)"),
(PDB_FLOAT, "position", "The stroke's position; 0 = inside the layer borders, 100 = outside the layer border (0 <= position <= 100)"),
(PDB_INT32, "merge", "Merge with layer (TRUE or FALSE)")
)
gimp.install_procedure(
"python_layerfx_stroke",
stroke_description,
stroke_help,
authorname,
copyrightname,
date,
"%sC_ontour..." % (imgmenupath),
"RGBA, GRAYA",
PLUGIN,
stroke_params,
[]
)
gimp.install_procedure(
"python_layer_fx_stroke",
stroke_description,
stroke_help,
authorname,
copyrightname,
date,
"%sS_troke..." % (layersmenupath),
"RGBA, GRAYA",
PLUGIN,
stroke_params,
[]
)
color_overlay_description = "Incruster une couleur sur un calque."
color_overlay_help = "Incruster une couleur sur un calque."
color_overlay_params = (
(PDB_INT32, "run_mode", "Run mode"),
(PDB_IMAGE, "image", "Input image"),
(PDB_DRAWABLE, "drawable", "Input drawable"),
(PDB_COLOR, "color", "The color to overlay"),
(PDB_FLOAT, "opacity", "The overlay opacity (0 <= opacity <= 100)"),
(PDB_INT32, "mode", "The overlay layer's combination mode %s" % (modevals)),
(PDB_INT32, "merge", "Merge with layer (TRUE or FALSE)")
)
gimp.install_procedure(
"python_layerfx_color_overlay",
color_overlay_description,
color_overlay_help,
authorname,
copyrightname,
date,
"%s_Incrustation Couleur..." % (imgmenupath),
"RGB*, GRAY*",
PLUGIN,
color_overlay_params,
[]
)
gimp.install_procedure(
"python_layer_fx_color_overlay",
color_overlay_description,
color_overlay_help,
authorname,
copyrightname,
date,
"%s_Incrustation Couleur..." % (layersmenupath),
"RGB*, GRAY*",
PLUGIN,
color_overlay_params,
[]
)
gradient_overlay_description = "Incruster un degrade sur un calque."
gradient_overlay_help = "Overlays a gradient over a layer."
gradient_overlay_params = (
(PDB_INT32, "run_mode", "Run mode"),
(PDB_IMAGE, "image", "Input image"),
(PDB_DRAWABLE, "drawable", "Input drawable"),
(PDB_STRING, "gradient", "The gradient to overlay"),
(PDB_INT32, "gradient_type", "The type of gradient { GRADIENT-LINEAR (0), GRADIENT-BILINEAR (1), GRADIENT-RADIAL (2), GRADIENT-SQUARE (3), GRADIENT-CONICAL-SYMMETRIC (4), GRADIENT-CONICAL-ASYMMETRIC (5), GRADIENT-SHAPEBURST-ANGULAR (6), GRADIENT-SHAPEBURST-SPHERICAL (7), GRADIENT-SHAPEBURST-DIMPLED (8), GRADIENT-SPIRAL-CLOCKWISE (9), GRADIENT-SPIRAL-ANTICLOCKWISE (10) }"),
(PDB_INT32, "repeat", "Repeat mode { REPEAT-NONE (0), REPEAT-SAWTOOTH (1), REPEAT-TRIANGULAR (2) }"),
(PDB_INT32, "reverse", "Use the reverse gradient (TRUE or FALSE)"),
(PDB_FLOAT, "opacity", "The overlay opacity (0 <= opacity <= 100)"),
(PDB_INT32, "mode", "The overlay layer's combination mode %s" % (modevals)),
(PDB_FLOAT, "center_x", "X coordinate of center"),
(PDB_FLOAT, "center_y", "Y coordinate of center"),
(PDB_FLOAT, "angle", "Gradient angle (-180 <= angle <= 180)"),
(PDB_FLOAT, "width", "Gradient width (0 <= width <= 262144"),
(PDB_INT32, "merge", "Merge with layer (TRUE or FALSE)")
)
gimp.install_procedure(
"python_layerfx_gradient_overlay",
gradient_overlay_description,
gradient_overlay_help,
authorname,
copyrightname,
date,
"%s_Incrustation Degrade..." % (imgmenupath),
"RGB*, GRAY*",
PLUGIN,
gradient_overlay_params,
[]
)
gimp.install_procedure(
"python_layer_fx_gradient_overlay",
gradient_overlay_description,
gradient_overlay_help,
authorname,
copyrightname,
date,
"%s_Incrustation Degrade..." % (layersmenupath),
"RGB*, GRAY*",
PLUGIN,
gradient_overlay_params,
[]
)
pattern_overlay_description = "Incruster un motif sur un calque."
pattern_overlay_help = "Incruster un motif sur un calque."
pattern_overlay_params = (
(PDB_INT32, "run_mode", "Run mode"),
(PDB_IMAGE, "image", "Input image"),
(PDB_DRAWABLE, "drawable", "Input drawable"),
(PDB_STRING, "pattern", "The pattern to overlay"),
(PDB_FLOAT, "opacity", "The overlay opacity (0 <= opacity <= 100)"),
(PDB_INT32, "mode", "The overlay layer's combination mode %s" % (modevals)),
(PDB_FLOAT, "scale", "Amount to scale the pattern (1 <= scale <= 1000)"),
(PDB_INT32, "interpolation", "Type of interpolation { INTERPOLATION-NONE (0), INTERPOLATION-LINEAR (1), INTERPOLATION-CUBIC (2), INTERPOLATION-LANCZOS (3) }"),
(PDB_INT32, "merge", "Merge with layer (TRUE or FALSE)")
)
gimp.install_procedure(
"python_layerfx_pattern_overlay",
pattern_overlay_description,
pattern_overlay_help,
authorname,
copyrightname,
date,
"%s_Incrustation Motif..." % (imgmenupath),
"RGB*, GRAY*",
PLUGIN,
pattern_overlay_params,
[]
)
gimp.install_procedure(
"python_layer_fx_pattern_overlay",
pattern_overlay_description,
pattern_overlay_help,
authorname,
copyrightname,
date,
"%s_Incrustation Motif..." % (layersmenupath),
"RGB*, GRAY*",
PLUGIN,
pattern_overlay_params,
[]
)
reapply_effects_description = "Re-appliquer tous les effets precedemment appliques a un calque."
reapply_effects_help = "Re-appliquer tous les effets precedemment appliques a un calque. NOTE: Ne fonctionne pas pour les effets qui ont ete appliques avec l'option \"Fusionner avec le calque\" active."
reapply_effects_params = (
(PDB_INT32, "run_mode", "Run mode"),
(PDB_IMAGE, "image", "Input image"),
(PDB_DRAWABLE, "drawable", "Input drawable")
)
gimp.install_procedure(
"python_layerfx_reapply_effects",
reapply_effects_description,
reapply_effects_help,
authorname,
copyrightname,
date,
"%s_Re-appliquer l'effet" % (imgmenupath),
"RGB*, GRAY*",
PLUGIN,
reapply_effects_params,
[]
)
gimp.install_procedure(
"python_layer_fx_reapply_effects",
reapply_effects_description,
reapply_effects_help,
authorname,
copyrightname,
date,
"%s_Reapply Effects" % (layersmenupath),
"RGB*, GRAY*",
PLUGIN,
reapply_effects_params,
[]
)
def python_layerfx_drop_shadow(
self,
runmode,
img,
drawable,
color = gimpcolor.RGB(0, 0, 0, 255),
opacity = 75.0,
contour = 0,
noise = 0.0,
mode = MULTIPLY_MODE,
spread = 0.0,
size = 5,
offsetangle = 120.0,
offsetdist = 5.0,
knockout = 0,
merge = 0
):
layerfx_drop_shadow(runmode, img, drawable, color, opacity, contour, noise, mode, spread, size, offsetangle, offsetdist, knockout, merge)
def python_layer_fx_drop_shadow(
self,
runmode,
img,
drawable,
color = gimpcolor.RGB(0, 0, 0, 255),
opacity = 75.0,
contour = 0,
noise = 0.0,
mode = MULTIPLY_MODE,
spread = 0.0,
size = 5,
offsetangle = 120.0,
offsetdist = 5.0,
knockout = 0,
merge = 0
):
layerfx_drop_shadow(runmode, img, drawable, color, opacity, contour, noise, mode, spread, size, offsetangle, offsetdist, knockout, merge)
def python_layerfx_inner_shadow(
self,
runmode,
img,
drawable,
color = gimpcolor.RGB(0, 0, 0, 255),
opacity = 75.0,
contour = 0,
noise = 0.0,
mode = MULTIPLY_MODE,
source = 1,
choke = 0.0,
size = 5,
offsetangle = 120.0,
offsetdist = 5.0,
merge = 0
):
layerfx_inner_shadow(runmode, img, drawable, color, opacity, contour, noise, mode, source, choke, size, offsetangle, offsetdist, merge)
def python_layer_fx_inner_shadow(
self,
runmode,
img,
drawable,
color = gimpcolor.RGB(0, 0, 0, 255),
opacity = 75.0,
contour = 0,
noise = 0.0,
mode = MULTIPLY_MODE,
source = 1,
choke = 0.0,
size = 5,
offsetangle = 120.0,
offsetdist = 5.0,
merge = 0
):
layerfx_inner_shadow(runmode, img, drawable, color, opacity, contour, noise, mode, source, choke, size, offsetangle, offsetdist, merge)
def python_layerfx_outer_glow(
self,
runmode,
img,
drawable,
color = gimpcolor.RGB(255, 255, 190, 255),
opacity = 75.0,
contour = 0,
noise = 0.0,
mode = SCREEN_MODE,
spread = 0.0,
size = 5,
knockout = 0,
merge = 0
):
layerfx_outer_glow(runmode, img, drawable, color, opacity, contour, noise, mode, spread, size, knockout, merge)
def python_layer_fx_outer_glow(
self,
runmode,
img,
drawable,
color = gimpcolor.RGB(255, 255, 190, 255),
opacity = 75.0,
contour = 0,
noise = 0.0,
mode = SCREEN_MODE,
spread = 0.0,
size = 5,
knockout = 0,
merge = 0
):
layerfx_outer_glow(runmode, img, drawable, color, opacity, contour, noise, mode, spread, size, knockout, merge)
def python_layerfx_inner_glow(
self,
runmode,
img,
drawable,
color = gimpcolor.RGB(255, 255, 190, 255),
opacity = 75.0,
contour = 0,
noise = 0.0,
mode = SCREEN_MODE,
source = 1,
choke = 0.0,
size = 5,
merge = 0
):
layerfx_inner_glow(runmode, img, drawable, color, opacity, contour, noise, mode, source, choke, size, merge)
def python_layer_fx_inner_glow(
self,
runmode,
img,
drawable,
color = gimpcolor.RGB(255, 255, 190, 255),
opacity = 75.0,
contour = 0,
noise = 0.0,
mode = SCREEN_MODE,
source = 1,
choke = 0.0,
size = 5,
merge = 0
):
layerfx_inner_glow(runmode, img, drawable, color, opacity, contour, noise, mode, source, choke, size, merge)
def python_layerfx_bevel_emboss(
self,
runmode,
img,
drawable,
style = 0,
depth = 3,
direction = 0,
size = 5,
soften = 0,
angle = 120.0,
altitude = 30.0,
glosscontour = 0,
highlightcolor = gimpcolor.RGB(255, 255, 255, 255),
highlightmode = SCREEN_MODE,
highlightopacity = 75.0,
shadowcolor = gimpcolor.RGB(0, 0, 0, 255),
shadowmode = MULTIPLY_MODE,
shadowopacity = 75.0,
surfacecontour = 0,
use_texture = 0,
pattern = "",
scale = 100.0,
tex_depth = 100.0,
invert = 0,
merge = 0
):
layerfx_bevel_emboss(runmode, img, drawable, style, depth, direction, size, soften, angle, altitude, glosscontour, highlightcolor, highlightmode, highlightopacity, shadowcolor, shadowmode, shadowopacity, surfacecontour, use_texture, pattern, scale, tex_depth, invert, merge)
def python_layer_fx_bevel_emboss(
self,
runmode,
img,
drawable,
style = 0,
depth = 3,
direction = 0,
size = 5,
soften = 0,
angle = 120.0,
altitude = 30.0,
glosscontour = 0,
highlightcolor = gimpcolor.RGB(255, 255, 255, 255),
highlightmode = SCREEN_MODE,
highlightopacity = 75.0,
shadowcolor = gimpcolor.RGB(0, 0, 0, 255),
shadowmode = MULTIPLY_MODE,
shadowopacity = 75.0,
surfacecontour = 0,
use_texture = 0,
pattern = "",
scale = 100.0,
tex_depth = 100.0,
invert = 0,
merge = 0
):
layerfx_bevel_emboss(runmode, img, drawable, style, depth, direction, size, soften, angle, altitude, glosscontour, highlightcolor, highlightmode, highlightopacity, shadowcolor, shadowmode, shadowopacity, surfacecontour, use_texture, pattern, scale, tex_depth, invert, merge)
def python_layerfx_satin(
self,
runmode,
img,
drawable,
color = gimpcolor.RGB(0, 0, 0, 255),
opacity = 75.0,
mode = MULTIPLY_MODE,
offsetangle = 19.0,
offsetdist = 11.0,
size = 14,
contour = 5,
invert = 1,
merge = 0
):
layerfx_satin(runmode, img, drawable, color, opacity, mode, offsetangle, offsetdist, size, contour, invert, merge)
def python_layer_fx_satin(
self,
runmode,
img,
drawable,
color = gimpcolor.RGB(0, 0, 0, 255),
opacity = 75.0,
mode = MULTIPLY_MODE,
offsetangle = 19.0,
offsetdist = 11.0,
size = 14,
contour = 5,
invert = 1,
merge = 0
):
layerfx_satin(runmode, img, drawable, color, opacity, mode, offsetangle, offsetdist, size, contour, invert, merge)
def python_layerfx_stroke(
self,
runmode,
img,
drawable,
color = gimpcolor.RGB(255, 0, 0, 255),
opacity = 100.0,
mode = NORMAL_MODE,
size = 3,
position = 50.0,
merge = 0
):
layerfx_stroke(runmode, img, drawable, color, opacity, mode, size, position, merge)
def python_layer_fx_stroke(
self,
runmode,
img,
drawable,
color = gimpcolor.RGB(255, 0, 0, 255),
opacity = 100.0,
mode = NORMAL_MODE,
size = 3,
position = 50.0,
merge = 0
):
layerfx_stroke(runmode, img, drawable, color, opacity, mode, size, position, merge)
def python_layerfx_color_overlay(
self,
runmode,
img,
drawable,
color = gimpcolor.RGB(255, 255, 255, 255),
opacity = 100.0,
mode = NORMAL_MODE,
merge = 0
):
layerfx_color_overlay(runmode, img, drawable, color, opacity, mode, merge)
def python_layer_fx_color_overlay(
self,
runmode,
img,
drawable,
color = gimpcolor.RGB(255, 255, 255, 255),
opacity = 100.0,
mode = NORMAL_MODE,
merge = 0
):
layerfx_color_overlay(runmode, img, drawable, color, opacity, mode, merge)
def python_layerfx_gradient_overlay(
self,
runmode,
img,
drawable,
gradient = "FG to BG (RGB)",
gradienttype = GRADIENT_LINEAR,
repeat = REPEAT_NONE,
reverse = 0,
opacity = 100.0,
mode = NORMAL_MODE,
centerx = 0.0,
centery = 0.0,
angle = 90.0,
width = 10.0,
merge = 0
):
layerfx_gradient_overlay(runmode, img, drawable, gradient, gradienttype, repeat, reverse, opacity, mode, centerx, centery, angle, width, merge)
def python_layer_fx_gradient_overlay(
self,
runmode,
img,
drawable,
gradient = "FG to BG (RGB)",
gradienttype = GRADIENT_LINEAR,
repeat = REPEAT_NONE,
reverse = 0,
opacity = 100.0,
mode = NORMAL_MODE,
centerx = 0.0,
centery = 0.0,
angle = 90.0,
width = 10.0,
merge = 0
):
layerfx_gradient_overlay(runmode, img, drawable, gradient, gradienttype, repeat, reverse, opacity, mode, centerx, centery, angle, width, merge)
def python_layerfx_pattern_overlay(
self,
runmode,
img,
drawable,
pattern = "",
opacity = 100.0,
mode = NORMAL_MODE,
scale = 100.0,
interpolation_type = INTERPOLATION_NONE,
merge = 0
):
layerfx_pattern_overlay(runmode, img, drawable, pattern, opacity, mode, scale, interpolation_type, merge)
def python_layer_fx_pattern_overlay(
self,
runmode,
img,
drawable,
pattern = "",
opacity = 100.0,
mode = NORMAL_MODE,
scale = 100.0,
interpolation_type = INTERPOLATION_NONE,
merge = 0
):
layerfx_pattern_overlay(runmode, img, drawable, pattern, opacity, mode, scale, interpolation_type, merge)
def python_layerfx_reapply_effects(
self,
runmode,
img,
drawable
):
layerfx_reapply_effects(runmode, img, drawable)
def python_layer_fx_reapply_effects(
self,
runmode,
img,
drawable
):
layerfx_reapply_effects(runmode, img, drawable)
if __name__ == "__main__":
layerfxplugin().start()