godot_experiments/shaders/outline.gdshader

shader_type canvas_item;

uniform vec4 color : source_color = vec4(1.0);
uniform float width : hint_range(0, 10) = 1.0;
uniform int pattern : hint_range(0, 2) = 0; // diamond, circle, square
uniform bool inside = false;
uniform bool add_margins = true; // only useful when inside is false
uniform vec2 number_of_images = vec2(1.0); // number of horizontal and vertical images in the sprite sheet

varying flat vec4 modulate;

void vertex() {
	modulate = COLOR;
	
	if (add_margins) {
		if ((UV.x <= 0.0 || UV.x >= 1.0) && (UV.y <= 0.0 || UV.y >= 1.0)) {
			VERTEX += (UV * 2.0 - 1.0) * width;
		} else {
			VERTEX += sign(VERTEX) * width; // replace sign(VERTEX) by (sign(VERTEX) * 2.0 - 1.0) if your AnimatedSprite2D isn't Centered
		}
	}
}

bool hasContraryNeighbour(vec2 uv, vec2 texture_pixel_size, vec2 image_top_left, vec2 image_bottom_right, sampler2D texture) {
	for (float i = -ceil(width); i <= ceil(width); i++) {
		float x = abs(i) > width ? width * sign(i) : i;
		float offset;
		
		if (pattern == 0) {
			offset = width - abs(x);
		} else if (pattern == 1) {
			offset = floor(sqrt(pow(width + 0.5, 2) - x * x));
		} else if (pattern == 2) {
			offset = width;
		}
		
		for (float j = -ceil(offset); j <= ceil(offset); j++) {
			float y = abs(j) > offset ? offset * sign(j) : j;
			vec2 xy = uv + texture_pixel_size * vec2(x, y);
			
			if ((xy != clamp(xy, image_top_left, image_bottom_right) || texture(texture, xy).a <= 0.0) == inside) {
				return true;
			}
		}
	}
	
	return false;
}

void fragment() {
	vec2 uv = UV;
	vec2 image_top_left = floor(uv * number_of_images) / number_of_images;
	vec2 image_bottom_right = image_top_left + vec2(1.0) / number_of_images;
	
	if (add_margins) {
		vec2 texture_pixel_size = vec2(1.0) / (vec2(1.0) / TEXTURE_PIXEL_SIZE + vec2(width * 2.0) * number_of_images);
		
		uv = (uv - texture_pixel_size * width - image_top_left) * TEXTURE_PIXEL_SIZE / texture_pixel_size + image_top_left;
		
		if (uv != clamp(uv, image_top_left, image_bottom_right)) {
			COLOR.a = 0.0;
		} else {
			COLOR = texture(TEXTURE, uv) * modulate;
		}
	} else {
		COLOR = texture(TEXTURE, uv) * modulate;
	}
	
	if ((COLOR.a > 0.0) == inside && hasContraryNeighbour(uv, TEXTURE_PIXEL_SIZE, image_top_left, image_bottom_right, TEXTURE)) {
		COLOR.rgb = inside ? mix(COLOR.rgb, color.rgb * modulate.rgb, color.a * modulate.a) : color.rgb * modulate.rgb;
		COLOR.a += (1.0 - COLOR.a) * color.a * modulate.a;
	}
}
1,测试多种方式实现车站钥匙交互；2，添加三维场景及按钮测试通过按钮打开钥匙交互窗口 2024-04-10 11:47:13 +08:00			`shader_type canvas_item;`

			`uniform vec4 color : source_color = vec4(1.0);`
			`uniform float width : hint_range(0, 10) = 1.0;`
			`uniform int pattern : hint_range(0, 2) = 0; // diamond, circle, square`
			`uniform bool inside = false;`
			`uniform bool add_margins = true; // only useful when inside is false`
			`uniform vec2 number_of_images = vec2(1.0); // number of horizontal and vertical images in the sprite sheet`

			`varying flat vec4 modulate;`

			`void vertex() {`
			`modulate = COLOR;`

			`if (add_margins) {`
			`if ((UV.x <= 0.0 \|\| UV.x >= 1.0) && (UV.y <= 0.0 \|\| UV.y >= 1.0)) {`
			`VERTEX += (UV * 2.0 - 1.0) * width;`
			`} else {`
			`VERTEX += sign(VERTEX) * width; // replace sign(VERTEX) by (sign(VERTEX) * 2.0 - 1.0) if your AnimatedSprite2D isn't Centered`
			`}`
			`}`
			`}`

			`bool hasContraryNeighbour(vec2 uv, vec2 texture_pixel_size, vec2 image_top_left, vec2 image_bottom_right, sampler2D texture) {`
			`for (float i = -ceil(width); i <= ceil(width); i++) {`
			`float x = abs(i) > width ? width * sign(i) : i;`
			`float offset;`

			`if (pattern == 0) {`
			`offset = width - abs(x);`
			`} else if (pattern == 1) {`
			`offset = floor(sqrt(pow(width + 0.5, 2) - x * x));`
			`} else if (pattern == 2) {`
			`offset = width;`
			`}`

			`for (float j = -ceil(offset); j <= ceil(offset); j++) {`
			`float y = abs(j) > offset ? offset * sign(j) : j;`
			`vec2 xy = uv + texture_pixel_size * vec2(x, y);`

			`if ((xy != clamp(xy, image_top_left, image_bottom_right) \|\| texture(texture, xy).a <= 0.0) == inside) {`
			`return true;`
			`}`
			`}`
			`}`

			`return false;`
			`}`

			`void fragment() {`
			`vec2 uv = UV;`
			`vec2 image_top_left = floor(uv * number_of_images) / number_of_images;`
			`vec2 image_bottom_right = image_top_left + vec2(1.0) / number_of_images;`

			`if (add_margins) {`
			`vec2 texture_pixel_size = vec2(1.0) / (vec2(1.0) / TEXTURE_PIXEL_SIZE + vec2(width * 2.0) * number_of_images);`

			`uv = (uv - texture_pixel_size * width - image_top_left) * TEXTURE_PIXEL_SIZE / texture_pixel_size + image_top_left;`

			`if (uv != clamp(uv, image_top_left, image_bottom_right)) {`
			`COLOR.a = 0.0;`
			`} else {`
			`COLOR = texture(TEXTURE, uv) * modulate;`
			`}`
			`} else {`
			`COLOR = texture(TEXTURE, uv) * modulate;`
			`}`

			`if ((COLOR.a > 0.0) == inside && hasContraryNeighbour(uv, TEXTURE_PIXEL_SIZE, image_top_left, image_bottom_right, TEXTURE)) {`
			`COLOR.rgb = inside ? mix(COLOR.rgb, color.rgb * modulate.rgb, color.a * modulate.a) : color.rgb * modulate.rgb;`
			`COLOR.a += (1.0 - COLOR.a) * color.a * modulate.a;`
			`}`
			`}`