broken_seals/game/addons/mat_maker_gd/nodes/simple/TextureRectShape.gd

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GDScript3
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tool
extends TextureRect
var image : Image
var tex : ImageTexture
export(Vector2) var bmin : Vector2 = Vector2(0.1, 0.1)
export(Vector2) var bmax : Vector2 = Vector2(1, 1)
export(bool) var refresh setget reff,reffg
var p_o3704_albedo_color_r : float = 1.000000000;
var p_o3704_albedo_color_g : float = 1.000000000;
var p_o3704_albedo_color_b : float = 1.000000000;
var p_o3704_albedo_color_a : float = 1.000000000;
var p_o3704_metallic : float = 1.000000000;
var p_o3704_roughness : float = 1.000000000;
var p_o3704_emission_energy : float = 1.000000000;
var p_o3704_normal : float = 1.000000000;
var p_o3704_ao : float = 1.000000000;
var p_o3704_depth_scale : float = 0.500000000;
var p_o3704_sss : float = 0.000000000;
var p_o69054_sides : float = 6.000000000;
var p_o69054_radius : float = 0.845361000;
var p_o69054_edge : float = 0.051546000;
func gen() -> void:
if !image:
image = Image.new()
image.create(300, 300, false, Image.FORMAT_RGBA8)
if !tex:
tex = ImageTexture.new()
# var bmin : Vector2 = Vector2(0.1, 0.1)
# var bmax : Vector2 = Vector2(1, 1)
image.lock()
var w : float = image.get_width()
var h : float = image.get_width()
var pseed : float = randf() + randi()
for x in range(image.get_width()):
for y in range(image.get_height()):
var v : Vector2 = Vector2(x / w, y / h)
# var c : float = shape_circle(v, p_o69054_sides, p_o69054_radius * 1.0, p_o69054_edge * 1.0)
# var c : float = shape_polygon(v, p_o69054_sides, p_o69054_radius * 1.0, p_o69054_edge * 1.0)
# var c : float = shape_star(v, p_o69054_sides, p_o69054_radius * 1.0, p_o69054_edge * 1.0)
# var c : float = shape_curved_star(v, p_o69054_sides, p_o69054_radius * 1.0, p_o69054_edge * 1.0)
var c : float = shape_rays(v, p_o69054_sides, p_o69054_radius * 1.0, p_o69054_edge * 1.0)
image.set_pixel(x, y, Color(c, c, c, 1))
image.unlock()
tex.create_from_image(image)
texture = tex
func shape_circle(uv : Vector2, sides : float, size : float, edge : float) -> float:
uv.x = 2.0 * uv.x - 1.0
uv.y = 2.0 * uv.y - 1.0
edge = max(edge, 1.0e-8)
var distance : float = uv.length()
return clamp((1.0 - distance / size) / edge, 0.0, 1.0)
func shape_polygon(uv : Vector2, sides : float, size : float, edge : float) -> float:
uv.x = 2.0 * uv.x - 1.0
uv.y = 2.0 * uv.y - 1.0
edge = max(edge, 1.0e-8)
#simple no branch for division by zero
uv.x += 0.0000001
var angle : float = atan(uv.y / uv.x) + 3.14159265359
var slice : float = 6.28318530718 / sides
return clamp((size - cos(floor(0.5 + angle / slice) * slice - angle) * uv.length()) / (edge * size), 0.0, 1.0)
func shape_star(uv : Vector2, sides : float, size : float, edge : float) -> float:
uv.x = 2.0 * uv.x - 1.0
uv.y = 2.0 * uv.y - 1.0
edge = max(edge, 1.0e-8);
#simple no branch for division by zero
uv.x += 0.0000001
var angle : float = atan(uv.y / uv.x)
var slice : float = 6.28318530718 / sides
return clamp((size - cos(floor(1.5 + angle / slice - 2.0 * step(0.5 * slice, modf(angle, slice))) * slice - angle) * uv.length()) / (edge * size), 0.0, 1.0);
func shape_curved_star(uv : Vector2, sides : float, size : float, edge : float) -> float:
uv.x = 2.0 * uv.x - 1.0
uv.y = 2.0 * uv.y - 1.0
edge = max(edge, 1.0e-8);
#simple no branch for division by zero
uv.x += 0.0000001
var angle : float = 2.0*(atan(uv.y / uv.x) + 3.14159265359)
var slice : float = 6.28318530718 / sides
return clamp((size - cos(floor(0.5 + 0.5 * angle / slice) * 2.0 * slice - angle) * uv.length())/(edge * size), 0.0, 1.0);
func shape_rays(uv : Vector2, sides : float, size : float, edge : float) -> float:
uv.x = 2.0 * uv.x - 1.0
uv.y = 2.0 * uv.y - 1.0
edge = 0.5 * max(edge, 1.0e-8) * size
#simple no branch for division by zero
uv.x += 0.0000001
var slice : float = 6.28318530718 / sides
var angle : float = modf(atan(uv.y / uv.x) + 3.14159265359, slice) / slice
return clamp(min((size - angle) / edge, angle / edge), 0.0, 1.0);
func modf(x : float, y : float) -> float:
return x - y * floor(x / y)
func fract(v : Vector2) -> Vector2:
v.x = v.x - floor(v.x)
v.y = v.y - floor(v.y)
return v
func fractf(f : float) -> float:
return f - floor(f)
func rand(x : Vector2) -> float:
return fractf(cos(x.dot(Vector2(13.9898, 8.141))) * 43758.5453);
func step(edge : float, x : float) -> float:
if x < edge:
return 0.0
else:
return 1.0
#common -----
#float rand(vec2 x) {
# return fract(cos(dot(x, vec2(13.9898, 8.141))) * 43758.5453);
#}
#
#vec2 rand2(vec2 x) {
# return fract(cos(vec2(dot(x, vec2(13.9898, 8.141)),
# dot(x, vec2(3.4562, 17.398)))) * 43758.5453);
#}
#
#vec3 rand3(vec2 x) {
# return fract(cos(vec3(dot(x, vec2(13.9898, 8.141)),
# dot(x, vec2(3.4562, 17.398)),
# dot(x, vec2(13.254, 5.867)))) * 43758.5453);
#}
#
#vec3 rgb2hsv(vec3 c) {
# vec4 K = vec4(0.0, -1.0 / 3.0, 2.0 / 3.0, -1.0);
# vec4 p = c.g < c.b ? vec4(c.bg, K.wz) : vec4(c.gb, K.xy);
# vec4 q = c.r < p.x ? vec4(p.xyw, c.r) : vec4(c.r, p.yzx);
#
# float d = q.x - min(q.w, q.y);
# float e = 1.0e-10;
# return vec3(abs(q.z + (q.w - q.y) / (6.0 * d + e)), d / (q.x + e), q.x);
#}
#
#vec3 hsv2rgb(vec3 c) {
# vec4 K = vec4(1.0, 2.0 / 3.0, 1.0 / 3.0, 3.0);
# vec3 p = abs(fract(c.xxx + K.xyz) * 6.0 - K.www);
# return c.z * mix(K.xxx, clamp(p - K.xxx, 0.0, 1.0), c.y);
#}
#end common
func reffg():
return false
func reff(bb):
if bb:
gen()