extends Node enum GradientDirection {TOP, BOTTOM, LEFT, RIGHT} func scale3X(sprite : Image, tol : float = 50) -> Image: var scaled := Image.new() scaled.create(sprite.get_width()*3, sprite.get_height()*3, false, Image.FORMAT_RGBA8) scaled.lock() sprite.lock() var a : Color var b : Color var c : Color var d : Color var e : Color var f : Color var g : Color var h : Color var i : Color for x in range(1,sprite.get_width()-1): for y in range(1,sprite.get_height()-1): var xs : float = 3*x var ys : float = 3*y a = sprite.get_pixel(x-1,y-1) b = sprite.get_pixel(x,y-1) c = sprite.get_pixel(x+1,y-1) d = sprite.get_pixel(x-1,y) e = sprite.get_pixel(x,y) f = sprite.get_pixel(x+1,y) g = sprite.get_pixel(x-1,y+1) h = sprite.get_pixel(x,y+1) i = sprite.get_pixel(x+1,y+1) var db : bool = similarColors(d, b, tol) var dh : bool = similarColors(d, h, tol) var bf : bool = similarColors(f, b, tol) var ec : bool = similarColors(e, c, tol) var ea : bool = similarColors(e, a, tol) var fh : bool = similarColors(f, h, tol) var eg : bool = similarColors(e, g, tol) var ei : bool = similarColors(e, i, tol) scaled.set_pixel(xs-1, ys-1, d if (db and !dh and !bf) else e ) scaled.set_pixel(xs, ys-1, b if (db and !dh and !bf and !ec) or (bf and !db and !fh and !ea) else e) scaled.set_pixel(xs+1, ys-1, f if (bf and !db and !fh) else e) scaled.set_pixel(xs-1, ys, d if (dh and !fh and !db and !ea) or (db and !dh and !bf and !eg) else e) scaled.set_pixel(xs, ys, e); scaled.set_pixel(xs+1, ys, f if (bf and !db and !fh and !ei) or (fh and !bf and !dh and !ec) else e) scaled.set_pixel(xs-1, ys+1, d if (dh and !fh and !db) else e) scaled.set_pixel(xs, ys+1, h if (fh and !bf and !dh and !eg) or (dh and !fh and !db and !ei) else e) scaled.set_pixel(xs+1, ys+1, f if (fh and !bf and !dh) else e) scaled.unlock() sprite.unlock() return scaled func rotxel(sprite : Image, angle : float, pivot : Vector2) -> void: # If angle is simple, then nn rotation is the best if angle == 0 || angle == PI/2 || angle == PI || angle == 2*PI: nn_rotate(sprite, angle, pivot) return var aux : Image = Image.new() aux.copy_from(sprite) var ox : int var oy : int var p : Color aux.lock() sprite.lock() for x in sprite.get_size().x: for y in sprite.get_size().y: var dx = 3*(x - pivot.x) var dy = 3*(y - pivot.y) var found_pixel : bool = false for k in range(9): var i = -1 + k % 3 # warning-ignore:integer_division var j = -1 + int(k / 3) var dir = atan2(dy + j, dx + i) var mag = sqrt(pow(dx + i, 2) + pow(dy + j, 2)) dir -= angle ox = round(pivot.x*3 + 1 + mag*cos(dir)) oy = round(pivot.y*3 + 1 + mag*sin(dir)) if (sprite.get_width() % 2 != 0): ox += 1 oy += 1 if (ox >= 0 && ox < sprite.get_width()*3 && oy >= 0 && oy < sprite.get_height()*3): found_pixel = true break if !found_pixel: sprite.set_pixel(x, y, Color(0,0,0,0)) continue var fil : int = oy % 3 var col : int = ox % 3 var index : int = col + 3*fil ox = round((ox - 1)/3.0); oy = round((oy - 1)/3.0); var a : Color var b : Color var c : Color var d : Color var e : Color var f : Color var g : Color var h : Color var i : Color if (ox == 0 || ox == sprite.get_width() - 1 || oy == 0 || oy == sprite.get_height() - 1): p = aux.get_pixel(ox, oy) else: a = aux.get_pixel(ox-1,oy-1); b = aux.get_pixel(ox,oy-1); c = aux.get_pixel(ox+1,oy-1); d = aux.get_pixel(ox-1,oy); e = aux.get_pixel(ox,oy); f = aux.get_pixel(ox+1,oy); g = aux.get_pixel(ox-1,oy+1); h = aux.get_pixel(ox,oy+1); i = aux.get_pixel(ox+1,oy+1); match(index): 0: p = d if (similarColors(d,b) && !similarColors(d,h) && !similarColors(b,f)) else e; 1: p = b if ((similarColors(d,b) && !similarColors(d,h) && !similarColors(b,f) && !similarColors(e,c)) || (similarColors(b,f) && !similarColors(d,b) && !similarColors(f,h) && !similarColors(e,a))) else e; 2: p = f if (similarColors(b,f) && !similarColors(d,b) && !similarColors(f,h)) else e; 3: p = d if ((similarColors(d,h) && !similarColors(f,h) && !similarColors(d,b) && !similarColors(e,a)) || (similarColors(d,b) && !similarColors(d,h) && !similarColors(b,f) && !similarColors(e,g))) else e; 4: p = e 5: p = f if((similarColors(b,f) && !similarColors(d,b) && !similarColors(f,h) && !similarColors(e,i)) || (similarColors(f,h) && !similarColors(b,f) && !similarColors(d,h) && !similarColors(e,c))) else e; 6: p = d if (similarColors(d,h) && !similarColors(f,h) && !similarColors(d,b)) else e; 7: p = h if ((similarColors(f,h) && !similarColors(f,b) && !similarColors(d,h) && !similarColors(e,g)) || (similarColors(d,h) && !similarColors(f,h) && !similarColors(d,b) && !similarColors(e,i))) else e; 8: p = f if (similarColors(f,h) && !similarColors(f,b) && !similarColors(d,h)) else e; sprite.set_pixel(x, y, p) sprite.unlock() aux.unlock() func fake_rotsprite(sprite : Image, angle : float, pivot : Vector2) -> void: var selected_sprite := Image.new() selected_sprite.copy_from(sprite) selected_sprite.copy_from(scale3X(selected_sprite)) nn_rotate(selected_sprite, angle, pivot * 3) # warning-ignore:integer_division # warning-ignore:integer_division selected_sprite.resize(selected_sprite.get_width() / 3, selected_sprite.get_height() / 3, 0) sprite.blit_rect(selected_sprite, Rect2(Vector2.ZERO, selected_sprite.get_size()), Vector2.ZERO) func nn_rotate(sprite : Image, angle : float, pivot : Vector2) -> void: var aux : Image = Image.new() aux.copy_from(sprite) sprite.lock() aux.lock() var ox: int var oy: int for x in range(sprite.get_width()): for y in range(sprite.get_height()): ox = (x - pivot.x)*cos(angle) + (y - pivot.y)*sin(angle) + pivot.x oy = -(x - pivot.x)*sin(angle) + (y - pivot.y)*cos(angle) + pivot.y if ox >= 0 && ox < sprite.get_width() && oy >= 0 && oy < sprite.get_height(): sprite.set_pixel(x, y, aux.get_pixel(ox, oy)) else: sprite.set_pixel(x, y, Color(0,0,0,0)) sprite.unlock() aux.unlock() func similarColors(c1 : Color, c2 : Color, tol : float = 100) -> bool: var dist = colorDistance(c1, c2) return dist <= tol func colorDistance(c1 : Color, c2 : Color) -> float: return sqrt(pow((c1.r - c2.r)*255, 2) + pow((c1.g - c2.g)*255, 2) + pow((c1.b - c2.b)*255, 2) + pow((c1.a - c2.a)*255, 2)) # Image effects func scale_image(width : int, height : int, interpolation : int) -> void: general_do_scale(width, height) for f in Global.current_project.frames: for i in range(f.cels.size() - 1, -1, -1): var sprite := Image.new() sprite.copy_from(f.cels[i].image) # Different method for scale3x if interpolation == 5: var times : Vector2 = Vector2(ceil(width/(3.0*sprite.get_width())),ceil(height/(3.0*sprite.get_height()))) for _j in range(max(times.x,times.y)): sprite.copy_from(scale3X(sprite)) sprite.resize(width, height, 0) else: sprite.resize(width, height, interpolation) Global.current_project.undo_redo.add_do_property(f.cels[i].image, "data", sprite.data) Global.current_project.undo_redo.add_undo_property(f.cels[i].image, "data", f.cels[i].image.data) general_undo_scale() func centralize() -> void: Global.canvas.selection.transform_content_confirm() # Find used rect of the current frame (across all of the layers) var used_rect := Rect2() for cel in Global.current_project.frames[Global.current_project.current_frame].cels: var cel_rect : Rect2 = cel.image.get_used_rect() if not cel_rect.has_no_area(): used_rect = cel_rect if used_rect.has_no_area() else used_rect.merge(cel_rect) if used_rect.has_no_area(): return var offset : Vector2 = (0.5 * (Global.current_project.size - used_rect.size)).floor() general_do_centralize() for c in Global.current_project.frames[Global.current_project.current_frame].cels: var sprite := Image.new() sprite.create(Global.current_project.size.x, Global.current_project.size.y, false, Image.FORMAT_RGBA8) sprite.blend_rect(c.image, used_rect, offset) Global.current_project.undo_redo.add_do_property(c.image, "data", sprite.data) Global.current_project.undo_redo.add_undo_property(c.image, "data", c.image.data) general_undo_centralize() func crop_image() -> void: Global.canvas.selection.transform_content_confirm() var used_rect := Rect2() for f in Global.current_project.frames: for cel in f.cels: cel.image.unlock() var cel_used_rect : Rect2 = cel.image.get_used_rect() cel.image.lock() if cel_used_rect == Rect2(0, 0, 0, 0): # If the cel has no content continue if used_rect == Rect2(0, 0, 0, 0): # If we still haven't found the first cel with content used_rect = cel_used_rect else: used_rect = used_rect.merge(cel_used_rect) # If no layer has any content, just return if used_rect == Rect2(0, 0, 0, 0): return var width := used_rect.size.x var height := used_rect.size.y general_do_scale(width, height) # Loop through all the cels to crop them for f in Global.current_project.frames: for cel in f.cels: var sprite : Image = cel.image.get_rect(used_rect) Global.current_project.undo_redo.add_do_property(cel.image, "data", sprite.data) Global.current_project.undo_redo.add_undo_property(cel.image, "data", cel.image.data) general_undo_scale() func resize_canvas(width : int, height : int, offset_x : int, offset_y : int) -> void: general_do_scale(width, height) for f in Global.current_project.frames: for c in f.cels: var sprite := Image.new() sprite.create(width, height, false, Image.FORMAT_RGBA8) sprite.blend_rect(c.image, Rect2(Vector2.ZERO, Global.current_project.size), Vector2(offset_x, offset_y)) Global.current_project.undo_redo.add_do_property(c.image, "data", sprite.data) Global.current_project.undo_redo.add_undo_property(c.image, "data", c.image.data) general_undo_scale() func general_do_scale(width : int, height : int) -> void: var project := Global.current_project var size := Vector2(width, height).floor() var x_ratio = project.size.x / width var y_ratio = project.size.y / height var bitmap : BitMap bitmap = project.resize_bitmap(project.selection_bitmap, size) var new_x_symmetry_point = project.x_symmetry_point / x_ratio var new_y_symmetry_point = project.y_symmetry_point / y_ratio var new_x_symmetry_axis_points = project.x_symmetry_axis.points var new_y_symmetry_axis_points = project.y_symmetry_axis.points new_x_symmetry_axis_points[0].y /= y_ratio new_x_symmetry_axis_points[1].y /= y_ratio new_y_symmetry_axis_points[0].x /= x_ratio new_y_symmetry_axis_points[1].x /= x_ratio project.undos += 1 project.undo_redo.create_action("Scale") project.undo_redo.add_do_property(project, "size", size) project.undo_redo.add_do_property(project, "selection_bitmap", bitmap) project.undo_redo.add_do_property(project, "x_symmetry_point", new_x_symmetry_point) project.undo_redo.add_do_property(project, "y_symmetry_point", new_y_symmetry_point) project.undo_redo.add_do_property(project.x_symmetry_axis, "points", new_x_symmetry_axis_points) project.undo_redo.add_do_property(project.y_symmetry_axis, "points", new_y_symmetry_axis_points) func general_undo_scale() -> void: var project := Global.current_project project.undo_redo.add_undo_property(project, "size", project.size) project.undo_redo.add_undo_property(project, "selection_bitmap", project.selection_bitmap) project.undo_redo.add_undo_property(project, "x_symmetry_point", project.x_symmetry_point) project.undo_redo.add_undo_property(project, "y_symmetry_point", project.y_symmetry_point) project.undo_redo.add_undo_property(project.x_symmetry_axis, "points", project.x_symmetry_axis.points) project.undo_redo.add_undo_property(project.y_symmetry_axis, "points", project.y_symmetry_axis.points) project.undo_redo.add_undo_method(Global, "undo") project.undo_redo.add_do_method(Global, "redo") project.undo_redo.commit_action() func general_do_centralize() -> void: var project := Global.current_project project.undos += 1 project.undo_redo.create_action("Centralize") func general_undo_centralize() -> void: var project := Global.current_project project.undo_redo.add_undo_method(Global, "undo") project.undo_redo.add_do_method(Global, "redo") project.undo_redo.commit_action() # TO BE REMOVED # func invert_image_colors(image : Image, affect_selection : bool, project : Project, red := true, green := true, blue := true, alpha := false) -> void: # image.lock() # for x in project.size.x: # for y in project.size.y: # var pos := Vector2(x, y) # if affect_selection and !project.can_pixel_get_drawn(pos): # continue # var px_color := image.get_pixelv(pos) # # Manually invert each color channel # if red: # px_color.r = 1.0 - px_color.r # if green: # px_color.g = 1.0 - px_color.g # if blue: # px_color.b = 1.0 - px_color.b # if alpha: # px_color.a = 1.0 - px_color.a # image.set_pixelv(pos, px_color) # TO BE REMOVED # func desaturate_image(image : Image, affect_selection : bool, project : Project, red := true, green := true, blue := true, alpha := false) -> void: # image.lock() # for x in project.size.x: # for y in project.size.y: # var pos := Vector2(x, y) # if affect_selection and !project.can_pixel_get_drawn(pos): # continue # var px_color := image.get_pixelv(pos) # var gray = px_color.v # if red: # px_color.r = gray # if green: # px_color.g = gray # if blue: # px_color.b = gray # if alpha: # px_color.a = gray # image.set_pixelv(pos, px_color) func generate_outline(image : Image, affect_selection : bool, project : Project, outline_color : Color, thickness : int, diagonal : bool, inside_image : bool) -> void: if image.is_invisible(): return var new_image := Image.new() new_image.copy_from(image) new_image.lock() image.lock() for x in project.size.x: for y in project.size.y: var pos := Vector2(x, y) var current_pixel := image.get_pixelv(pos) if affect_selection and !project.can_pixel_get_drawn(pos): continue if current_pixel.a == 0: continue for i in range(1, thickness + 1): if inside_image: var outline_pos : Vector2 = pos + Vector2.LEFT # Left if outline_pos.x < 0 || image.get_pixelv(outline_pos).a == 0: var new_pos : Vector2 = pos + Vector2.RIGHT * (i - 1) if new_pos.x < Global.current_project.size.x: var new_pixel = image.get_pixelv(new_pos) if new_pixel.a > 0: new_image.set_pixelv(new_pos, outline_color) outline_pos = pos + Vector2.RIGHT # Right if outline_pos.x >= Global.current_project.size.x || image.get_pixelv(outline_pos).a == 0: var new_pos : Vector2 = pos + Vector2.LEFT * (i - 1) if new_pos.x >= 0: var new_pixel = image.get_pixelv(new_pos) if new_pixel.a > 0: new_image.set_pixelv(new_pos, outline_color) outline_pos = pos + Vector2.UP # Up if outline_pos.y < 0 || image.get_pixelv(outline_pos).a == 0: var new_pos : Vector2 = pos + Vector2.DOWN * (i - 1) if new_pos.y < Global.current_project.size.y: var new_pixel = image.get_pixelv(new_pos) if new_pixel.a > 0: new_image.set_pixelv(new_pos, outline_color) outline_pos = pos + Vector2.DOWN # Down if outline_pos.y >= Global.current_project.size.y || image.get_pixelv(outline_pos).a == 0: var new_pos : Vector2 = pos + Vector2.UP * (i - 1) if new_pos.y >= 0: var new_pixel = image.get_pixelv(new_pos) if new_pixel.a > 0: new_image.set_pixelv(new_pos, outline_color) if diagonal: outline_pos = pos + (Vector2.LEFT + Vector2.UP) # Top left if (outline_pos.x < 0 && outline_pos.y < 0) || image.get_pixelv(outline_pos).a == 0: var new_pos : Vector2 = pos + (Vector2.RIGHT + Vector2.DOWN) * (i - 1) if new_pos.x < Global.current_project.size.x && new_pos.y < Global.current_project.size.y: var new_pixel = image.get_pixelv(new_pos) if new_pixel.a > 0: new_image.set_pixelv(new_pos, outline_color) outline_pos = pos + (Vector2.LEFT + Vector2.DOWN) # Bottom left if (outline_pos.x < 0 && outline_pos.y >= Global.current_project.size.y) || image.get_pixelv(outline_pos).a == 0: var new_pos : Vector2 = pos + (Vector2.RIGHT + Vector2.UP) * (i - 1) if new_pos.x < Global.current_project.size.x && new_pos.y >= 0: var new_pixel = image.get_pixelv(new_pos) if new_pixel.a > 0: new_image.set_pixelv(new_pos, outline_color) outline_pos = pos + (Vector2.RIGHT + Vector2.UP) # Top right if (outline_pos.x >= Global.current_project.size.x && outline_pos.y < 0) || image.get_pixelv(outline_pos).a == 0: var new_pos : Vector2 = pos + (Vector2.LEFT + Vector2.DOWN) * (i - 1) if new_pos.x >= 0 && new_pos.y < Global.current_project.size.y: var new_pixel = image.get_pixelv(new_pos) if new_pixel.a > 0: new_image.set_pixelv(new_pos, outline_color) outline_pos = pos + (Vector2.RIGHT + Vector2.DOWN) # Bottom right if (outline_pos.x >= Global.current_project.size.x && outline_pos.y >= Global.current_project.size.y) || image.get_pixelv(outline_pos).a == 0: var new_pos : Vector2 = pos + (Vector2.LEFT + Vector2.UP) * (i - 1) if new_pos.x >= 0 && new_pos.y >= 0: var new_pixel = image.get_pixelv(new_pos) if new_pixel.a > 0: new_image.set_pixelv(new_pos, outline_color) else: var new_pos : Vector2 = pos + Vector2.LEFT * i # Left if new_pos.x >= 0: var new_pixel = image.get_pixelv(new_pos) if new_pixel.a == 0: new_image.set_pixelv(new_pos, outline_color) new_pos = pos + Vector2.RIGHT * i # Right if new_pos.x < Global.current_project.size.x: var new_pixel = image.get_pixelv(new_pos) if new_pixel.a == 0: new_image.set_pixelv(new_pos, outline_color) new_pos = pos + Vector2.UP * i # Up if new_pos.y >= 0: var new_pixel = image.get_pixelv(new_pos) if new_pixel.a == 0: new_image.set_pixelv(new_pos, outline_color) new_pos = pos + Vector2.DOWN * i # Down if new_pos.y < Global.current_project.size.y: var new_pixel = image.get_pixelv(new_pos) if new_pixel.a == 0: new_image.set_pixelv(new_pos, outline_color) if diagonal: new_pos = pos + (Vector2.LEFT + Vector2.UP) * i # Top left if new_pos.x >= 0 && new_pos.y >= 0: var new_pixel = image.get_pixelv(new_pos) if new_pixel.a == 0: new_image.set_pixelv(new_pos, outline_color) new_pos = pos + (Vector2.LEFT + Vector2.DOWN) * i # Bottom left if new_pos.x >= 0 && new_pos.y < Global.current_project.size.y: var new_pixel = image.get_pixelv(new_pos) if new_pixel.a == 0: new_image.set_pixelv(new_pos, outline_color) new_pos = pos + (Vector2.RIGHT + Vector2.UP) * i # Top right if new_pos.x < Global.current_project.size.x && new_pos.y >= 0: var new_pixel = image.get_pixelv(new_pos) if new_pixel.a == 0: new_image.set_pixelv(new_pos, outline_color) new_pos = pos + (Vector2.RIGHT + Vector2.DOWN) * i # Bottom right if new_pos.x < Global.current_project.size.x && new_pos.y < Global.current_project.size.y: var new_pixel = image.get_pixelv(new_pos) if new_pixel.a == 0: new_image.set_pixelv(new_pos, outline_color) image.unlock() new_image.unlock() image.copy_from(new_image) # TO BE REMOVED # func adjust_hsv(img: Image, delta_h : float, delta_s : float, delta_v : float, affect_selection : bool, project : Project) -> void: # img.lock() # for x in project.size.x: # for y in project.size.y: # var pos := Vector2(x, y) # if affect_selection and !project.can_pixel_get_drawn(pos): # continue # var c : Color = img.get_pixelv(pos) # # Hue # var hue = range_lerp(c.h,0,1,-180,180) # hue = hue + delta_h # while(hue >= 180): # hue -= 360 # while(hue < -180): # hue += 360 # # Saturation # var sat = c.s # if delta_s > 0: # sat = range_lerp(delta_s,0,100,c.s,1) # elif delta_s < 0: # sat = range_lerp(delta_s,-100,0,0,c.s) # # Value # var val = c.v # if delta_v > 0: # val = range_lerp(delta_v,0,100,c.v,1) # elif delta_v < 0: # val = range_lerp(delta_v,-100,0,0,c.v) # c.h = range_lerp(hue,-180,180,0,1) # c.s = sat # c.v = val # img.set_pixelv(pos, c) func generate_gradient(image : Image, colors : Array, steps : int, direction : int, affect_selection : bool, project : Project) -> void: if colors.size() < 2: return var t = 1.0 / (steps - 1) for i in range(1, steps - 1): var color : Color color = colors[-1].linear_interpolate(colors[0], t * i) colors.insert(1, color) image.unlock() if direction == GradientDirection.BOTTOM or direction == GradientDirection.RIGHT: colors.invert() var draw_rectangle := Rect2() var selection := affect_selection and project.has_selection if selection: draw_rectangle = project.get_selection_rectangle() else: draw_rectangle = Rect2(Vector2.ZERO, project.size) var size := draw_rectangle.size image.lock() var gradient_size if direction == GradientDirection.TOP or direction == GradientDirection.BOTTOM: gradient_size = size.y / steps for i in steps: for xx in size.x: var start = i * gradient_size var end = (i + 1) * gradient_size for yy in range(start, end): var pos : Vector2 = Vector2(xx, yy) + draw_rectangle.position if selection and !project.selection_bitmap.get_bit(pos): continue image.set_pixelv(pos, colors[i]) else: gradient_size = size.x / steps for i in steps: for yy in size.y: var start = i * gradient_size var end = (i + 1) * gradient_size for xx in range(start, end): var pos : Vector2 = Vector2(xx, yy) + draw_rectangle.position if selection and !project.selection_bitmap.get_bit(pos): continue image.set_pixelv(pos, colors[i])