extends Reference const Commons = preload("res://addons/mat_maker_gd/nodes/common/commons.gd") #note: data : PoolRealArray -> pos, r, g, b, a, pos, r, g, b, a .... static func radial_gradient_type_1(uv : Vector2, repeat : float, data : PoolRealArray) -> Color: return gradient_type_1(Commons.fractf(repeat * 1.41421356237* (Commons.fractv2(uv) - Vector2(0.5, 0.5)).length()), data) static func radial_gradient_type_2(uv : Vector2, repeat : float, data : PoolRealArray) -> Color: return gradient_type_2(Commons.fractf(repeat * 1.41421356237* (Commons.fractv2(uv) - Vector2(0.5, 0.5)).length()), data) static func radial_gradient_type_3(uv : Vector2, repeat : float, data : PoolRealArray) -> Color: return gradient_type_3(Commons.fractf(repeat * 1.41421356237* (Commons.fractv2(uv) - Vector2(0.5, 0.5)).length()), data) static func radial_gradient_type_4(uv : Vector2, repeat : float, data : PoolRealArray) -> Color: return gradient_type_4(Commons.fractf(repeat * 1.41421356237* (Commons.fractv2(uv) - Vector2(0.5, 0.5)).length()), data) static func normal_gradient_type_1(uv : Vector2, repeat : float, rotate : float, data : PoolRealArray) -> Color: var rr : float = 0.5+(cos(rotate*0.01745329251)*(uv.x-0.5)+sin(rotate*0.01745329251)*(uv.y-0.5))/(cos(abs(Commons.modf(rotate, 90.0)-45.0)*0.01745329251)*1.41421356237); return gradient_type_1(Commons.fractf(rr * repeat), data) static func normal_gradient_type_2(uv : Vector2, repeat : float, rotate : float, data : PoolRealArray) -> Color: var rr : float = 0.5+(cos(rotate*0.01745329251)*(uv.x-0.5)+sin(rotate*0.01745329251)*(uv.y-0.5))/(cos(abs(Commons.modf(rotate, 90.0)-45.0)*0.01745329251)*1.41421356237); return gradient_type_2(Commons.fractf(rr * repeat), data) static func normal_gradient_type_3(uv : Vector2, repeat : float, rotate : float, data : PoolRealArray) -> Color: var rr : float = 0.5+(cos(rotate*0.01745329251)*(uv.x-0.5)+sin(rotate*0.01745329251)*(uv.y-0.5))/(cos(abs(Commons.modf(rotate, 90.0)-45.0)*0.01745329251)*1.41421356237); return gradient_type_3(Commons.fractf(rr * repeat), data) static func normal_gradient_type_4(uv : Vector2, repeat : float, rotate : float, data : PoolRealArray) -> Color: var rr : float = 0.5+(cos(rotate*0.01745329251)*(uv.x-0.5)+sin(rotate*0.01745329251)*(uv.y-0.5))/(cos(abs(Commons.modf(rotate, 90.0)-45.0)*0.01745329251)*1.41421356237); return gradient_type_4(Commons.fractf(rr * repeat), data) static func circular_gradient_type_1(uv : Vector2, repeat : float, data : PoolRealArray) -> Color: return gradient_type_1(Commons.fractf(repeat * 0.15915494309 * atan((uv.x - 0.5) / uv.y - 0.5)), data) static func circular_gradient_type_2(uv : Vector2, repeat : float, data : PoolRealArray) -> Color: return gradient_type_2(Commons.fractf(repeat * 0.15915494309 * atan((uv.x - 0.5) / uv.y - 0.5)), data) static func circular_gradient_type_3(uv : Vector2, repeat : float, data : PoolRealArray) -> Color: return gradient_type_3(Commons.fractf(repeat * 0.15915494309 * atan((uv.x - 0.5) / uv.y - 0.5)), data) static func circular_gradient_type_4(uv : Vector2, repeat : float, data : PoolRealArray) -> Color: return gradient_type_4(Commons.fractf(repeat * 0.15915494309 * atan((uv.x - 0.5) / uv.y - 0.5)), data) static func gradient_type_1(x : float, data : PoolRealArray) -> Color: if data.size() % 5 != 0 || data.size() == 0: return Color() for i in range(0, data.size() - 5, 5): if x < 0.5 * (data[i] + data[i + 5]): return Color(data[i + 1], data[i + 2], data[i + 3], data[i + 4]) var ds = data.size() - 5 return Color(data[ds + 1], data[ds + 2], data[ds + 3], data[ds + 4]) static func gradient_type_2(x : float, data : PoolRealArray) -> Color: if data.size() % 5 != 0 || data.size() == 0: return Color() for i in range(0, data.size() - 5, 5): if x < data[i]: if i == 0: return Color(data[i + 1], data[i + 2], data[i + 3], data[i + 4]) var cprev : Color = Color(data[i - 4], data[i - 3], data[i - 2], data[i - 1]) var ccurr : Color = Color(data[i + 1], data[i + 2], data[i + 3], data[i + 4]) return lerp(cprev, ccurr, (x - data[i - 5]) / (data[i] - data[i - 5])); var ds = data.size() - 5 return Color(data[ds + 1], data[ds + 2], data[ds + 3], data[ds + 4]) static func gradient_type_3(x : float, data : PoolRealArray) -> Color: if data.size() % 5 != 0 || data.size() == 0: return Color() for i in range(0, data.size() - 5, 5): if x < data[i]: if i == 0: return Color(data[i + 1], data[i + 2], data[i + 3], data[i + 4]) var cprev : Color = Color(data[i - 4], data[i - 3], data[i - 2], data[i - 1]) var ccurr : Color = Color(data[i + 1], data[i + 2], data[i + 3], data[i + 4]) return lerp(cprev, ccurr, 0.5 - 0.5 * cos(3.14159265359 * ((x - data[i - 5]) / (data[i] - data[i - 5])))) var ds = data.size() - 5 return Color(data[ds + 1], data[ds + 2], data[ds + 3], data[ds + 4]) #todo, logic is not yet finished static func gradient_type_4(x : float, data : PoolRealArray) -> Color: if data.size() % 5 != 0 || data.size() == 0: return Color() for i in range(0, data.size() - 5, 5): if x < data[i]: if i == 0: return Color(data[i + 1], data[i + 2], data[i + 3], data[i + 4]) var cprev : Color = Color(data[i - 4], data[i - 3], data[i - 2], data[i - 1]) var ccurr : Color = Color(data[i + 1], data[i + 2], data[i + 3], data[i + 4]) return lerp(cprev, ccurr, 0.5 - 0.5 * cos(3.14159265359 * ((x - data[i - 5]) / (data[i] - data[i - 5])))) var ds = data.size() - 5 return Color(data[ds + 1], data[ds + 2], data[ds + 3], data[ds + 4]) # if (x < gradient_0_pos): # return Color(gradient_0_r,gradient_0_g,gradient_0_b,gradient_0_a); # elif (x < gradient_1_pos): # return lerp(lerp(Color(gradient_1_r,gradient_1_g,gradient_1_b,gradient_1_a), Color(gradient_2_r,gradient_2_g,gradient_2_b,gradient_2_a), (x-gradient_1_pos)/(gradient_2_pos-gradient_1_pos)), lerp(Color(gradient_0_r,gradient_0_g,gradient_0_b,gradient_0_a), Color(gradient_1_r,gradient_1_g,gradient_1_b,gradient_1_a), (x-gradient_0_pos)/(gradient_1_pos-gradient_0_pos)), 1.0-0.5*(x-gradient_0_pos)/(gradient_1_pos-gradient_0_pos)); # elif (x < gradient_2_pos): # return lerp(lerp(Color(gradient_0_r,gradient_0_g,gradient_0_b,gradient_0_a), Color(gradient_1_r,gradient_1_g,gradient_1_b,gradient_1_a), (x-gradient_0_pos)/(gradient_1_pos-gradient_0_pos)), lerp(Color(gradient_1_r,gradient_1_g,gradient_1_b,gradient_1_a), Color(gradient_2_r,gradient_2_g,gradient_2_b,gradient_2_a), (x-gradient_1_pos)/(gradient_2_pos-gradient_1_pos)), 0.5+0.5*(x-gradient_1_pos)/(gradient_2_pos-gradient_1_pos)); # # return Color(gradient_2_r,gradient_2_g,gradient_2_b,gradient_2_a); var p_o95415_repeat = 1.000000000; var p_o95415_gradient_0_pos = 0.000000000; var p_o95415_gradient_0_r = 0.000000000; var p_o95415_gradient_0_g = 0.000000000; var p_o95415_gradient_0_b = 0.000000000; var p_o95415_gradient_0_a = 1.000000000; var p_o95415_gradient_1_pos = 0.490909091; var p_o95415_gradient_1_r = 1.000000000; var p_o95415_gradient_1_g = 0.000000000; var p_o95415_gradient_1_b = 0.000000000; var p_o95415_gradient_1_a = 1.000000000; var p_o95415_gradient_2_pos = 1.000000000; var p_o95415_gradient_2_r = 1.000000000; var p_o95415_gradient_2_g = 1.000000000; var p_o95415_gradient_2_b = 1.000000000; var p_o95415_gradient_2_a = 1.000000000; func gradient_type_1_orig(x : float) -> Color: if (x < 0.5*(p_o95415_gradient_0_pos+p_o95415_gradient_1_pos)): return Color(p_o95415_gradient_0_r,p_o95415_gradient_0_g,p_o95415_gradient_0_b,p_o95415_gradient_0_a); elif (x < 0.5*(p_o95415_gradient_1_pos+p_o95415_gradient_2_pos)): return Color(p_o95415_gradient_1_r,p_o95415_gradient_1_g,p_o95415_gradient_1_b,p_o95415_gradient_1_a); return Color(p_o95415_gradient_2_r,p_o95415_gradient_2_g,p_o95415_gradient_2_b,p_o95415_gradient_2_a); func gradient_type_2_orig(x : float) -> Color: if (x < p_o95415_gradient_0_pos): return Color(p_o95415_gradient_0_r,p_o95415_gradient_0_g,p_o95415_gradient_0_b,p_o95415_gradient_0_a); elif (x < p_o95415_gradient_1_pos): return lerp(Color(p_o95415_gradient_0_r,p_o95415_gradient_0_g,p_o95415_gradient_0_b,p_o95415_gradient_0_a), Color(p_o95415_gradient_1_r,p_o95415_gradient_1_g,p_o95415_gradient_1_b,p_o95415_gradient_1_a), ((x-p_o95415_gradient_0_pos)/(p_o95415_gradient_1_pos-p_o95415_gradient_0_pos))); elif (x < p_o95415_gradient_2_pos): return lerp(Color(p_o95415_gradient_1_r,p_o95415_gradient_1_g,p_o95415_gradient_1_b,p_o95415_gradient_1_a), Color(p_o95415_gradient_2_r,p_o95415_gradient_2_g,p_o95415_gradient_2_b,p_o95415_gradient_2_a), ((x-p_o95415_gradient_1_pos)/(p_o95415_gradient_2_pos-p_o95415_gradient_1_pos))); return Color(p_o95415_gradient_2_r,p_o95415_gradient_2_g,p_o95415_gradient_2_b,p_o95415_gradient_2_a); func gradient_type_3_orig(x : float) -> Color: if (x < p_o95415_gradient_0_pos): return Color(p_o95415_gradient_0_r,p_o95415_gradient_0_g,p_o95415_gradient_0_b,p_o95415_gradient_0_a); elif (x < p_o95415_gradient_1_pos): return lerp(Color(p_o95415_gradient_0_r,p_o95415_gradient_0_g,p_o95415_gradient_0_b,p_o95415_gradient_0_a), Color(p_o95415_gradient_1_r,p_o95415_gradient_1_g,p_o95415_gradient_1_b,p_o95415_gradient_1_a), 0.5-0.5*cos(3.14159265359*(x-p_o95415_gradient_0_pos)/(p_o95415_gradient_1_pos-p_o95415_gradient_0_pos))); if (x < p_o95415_gradient_2_pos): return lerp(Color(p_o95415_gradient_1_r,p_o95415_gradient_1_g,p_o95415_gradient_1_b,p_o95415_gradient_1_a), Color(p_o95415_gradient_2_r,p_o95415_gradient_2_g,p_o95415_gradient_2_b,p_o95415_gradient_2_a), 0.5-0.5*cos(3.14159265359*(x-p_o95415_gradient_1_pos)/(p_o95415_gradient_2_pos-p_o95415_gradient_1_pos))); return Color(p_o95415_gradient_2_r,p_o95415_gradient_2_g,p_o95415_gradient_2_b,p_o95415_gradient_2_a); func gradient_type_4_orig(x : float) -> Color: if (x < p_o95415_gradient_0_pos): return Color(p_o95415_gradient_0_r,p_o95415_gradient_0_g,p_o95415_gradient_0_b,p_o95415_gradient_0_a); elif (x < p_o95415_gradient_1_pos): return lerp(lerp(Color(p_o95415_gradient_1_r,p_o95415_gradient_1_g,p_o95415_gradient_1_b,p_o95415_gradient_1_a), Color(p_o95415_gradient_2_r,p_o95415_gradient_2_g,p_o95415_gradient_2_b,p_o95415_gradient_2_a), (x-p_o95415_gradient_1_pos)/(p_o95415_gradient_2_pos-p_o95415_gradient_1_pos)), lerp(Color(p_o95415_gradient_0_r,p_o95415_gradient_0_g,p_o95415_gradient_0_b,p_o95415_gradient_0_a), Color(p_o95415_gradient_1_r,p_o95415_gradient_1_g,p_o95415_gradient_1_b,p_o95415_gradient_1_a), (x-p_o95415_gradient_0_pos)/(p_o95415_gradient_1_pos-p_o95415_gradient_0_pos)), 1.0-0.5*(x-p_o95415_gradient_0_pos)/(p_o95415_gradient_1_pos-p_o95415_gradient_0_pos)); elif (x < p_o95415_gradient_2_pos): return lerp(lerp(Color(p_o95415_gradient_0_r,p_o95415_gradient_0_g,p_o95415_gradient_0_b,p_o95415_gradient_0_a), Color(p_o95415_gradient_1_r,p_o95415_gradient_1_g,p_o95415_gradient_1_b,p_o95415_gradient_1_a), (x-p_o95415_gradient_0_pos)/(p_o95415_gradient_1_pos-p_o95415_gradient_0_pos)), lerp(Color(p_o95415_gradient_1_r,p_o95415_gradient_1_g,p_o95415_gradient_1_b,p_o95415_gradient_1_a), Color(p_o95415_gradient_2_r,p_o95415_gradient_2_g,p_o95415_gradient_2_b,p_o95415_gradient_2_a), (x-p_o95415_gradient_1_pos)/(p_o95415_gradient_2_pos-p_o95415_gradient_1_pos)), 0.5+0.5*(x-p_o95415_gradient_1_pos)/(p_o95415_gradient_2_pos-p_o95415_gradient_1_pos)); return Color(p_o95415_gradient_2_r,p_o95415_gradient_2_g,p_o95415_gradient_2_b,p_o95415_gradient_2_a);