pandemonium_engine/modules/material_maker/nodes/transform/tiler.h

#ifndef TILER_H
#define TILER_H


class Tiler : public MMNode {
 GDCLASS(Tiler, MMNode);

 public:

 Ref<Resource> get_input();
 void set_input(const Ref<Resource> &val);

 Ref<Resource> get_in_mask();
 void set_in_mask(const Ref<Resource> &val);

 Ref<Resource> get_output();
 void set_output(const Ref<Resource> &val);

 Ref<Resource> get_instance_map();
 void set_instance_map(const Ref<Resource> &val);

 Vector2 get_tile();
 void set_tile(const Vector2 &val);

 float get_overlap() const;
 void set_overlap(const float val);

 int get_select_inputs() const;
 void set_select_inputs(const int val);

 Vector2 get_scale();
 void set_scale(const Vector2 &val);

 float get_fixed_offset() const;
 void set_fixed_offset(const float val);

 float get_rnd_offset() const;
 void set_rnd_offset(const float val);

 float get_rnd_rotate() const;
 void set_rnd_rotate(const float val);

 float get_rnd_scale() const;
 void set_rnd_scale(const float val);

 float get_rnd_value() const;
 void set_rnd_value(const float val);

 bool get_variations() const;
 void set_variations(const bool val);

 void _init_properties();
 void _register_methods(const Variant &mm_graph_node);
 void _render(const Variant &material);
 Color _get_value_for(const Vector2 &uv, const int pseed);
 Vector2 get_tile();
 void set_tile(const Vector2 &val);
 float get_overlap();
 void set_overlap(const float val);
 int get_select_inputs();
 void set_select_inputs(const int val);
 Vector2 get_scale();
 void set_scale(const Vector2 &val);
 float get_fixed_offset();
 void set_fixed_offset(const float val);
 float get_rnd_offset();
 void set_rnd_offset(const float val);
 float get_rnd_rotate();
 void set_rnd_rotate(const float val);
 float get_rnd_scale();
 void set_rnd_scale(const float val);
 float get_rnd_value();
 void set_rnd_value(const float val);
 bool get_variations();
 void set_variations(const bool val);
 Color tiler_calc(const Vector2 &uv, const Vector2 &tile, const int overlap, const Vector2 &_seed);

 Tiler();
 ~Tiler();

 protected:
 static void _bind_methods();

 //tool
 //export(Resource) 
 Ref<Resource> input;
 //export(Resource) 
 Ref<Resource> in_mask;
 //export(Resource) 
 Ref<Resource> output;
 //export(Resource) 
 Ref<Resource> instance_map;
 //export(Vector2) 
 Vector2 tile = Vector2(4, 4);
 //export(float) 
 float overlap = 1;
 //export(int, "1,4,16") 
 int select_inputs = 0;
 //export(Vector2) 
 Vector2 scale = Vector2(0.5, 0.5);
 //export(float) 
 float fixed_offset = 0;
 //export(float) 
 float rnd_offset = 0.25;
 //export(float) 
 float rnd_rotate = 45;
 //export(float) 
 float rnd_scale = 0.2;
 //export(float) 
 float rnd_value = 2;
 //export(bool) 
 bool variations = false;
 //mm_graph_node.add_slot_bool("get_variations", "set_variations", "Variations")
 //tile
 //overlap
 //select_inputs
 //scale
 //fixed_offset
 //rnd_offset
 //rnd_rotate
 //rnd_scale
 //rnd_value
 //variations
 //----------------------
 //tiler.mmg
 //Tiles several occurences of an input image while adding randomness.
 //instance
 //vec4 tiler_$(name)(vec2 uv, vec2 tile, int overlap, vec2 _seed) {
 //	float c = 0.0;
 //	vec3 rc = vec3(0.0);
 //	vec3 rc1;
 //	for (int dx = -overlap; dx <= overlap; ++dx) {
 //		for (int dy = -overlap; dy <= overlap; ++dy) {
 //			vec2 pos = fract((floor(uv*tile)+vec2(float(dx), float(dy))+vec2(0.5))/tile-vec2(0.5));
 //			vec2 seed = rand2(pos+_seed);
 //			rc1 = rand3(seed);
 //			pos = fract(pos+vec2($fixed_offset/tile.x, 0.0)*floor(mod(pos.y*tile.y, 2.0))+$offset*seed/tile);
 //			float mask = $mask(fract(pos+vec2(0.5)));
 //
 //			if (mask > 0.01) {
 //				vec2 pv = fract(uv - pos)-vec2(0.5);
 //				seed = rand2(seed);
 //					float angle = (seed.x * 2.0 - 1.0) * $rotate * 0.01745329251;
 //				float ca = cos(angle);
 //				float sa = sin(angle);
 //				pv = vec2(ca*pv.x+sa*pv.y, -sa*pv.x+ca*pv.y);
 //				pv *= (seed.y-0.5)*2.0*$scale+1.0;
 //				pv /= vec2($scale_x, $scale_y);
 //				pv += vec2(0.5);
 //				seed = rand2(seed);
 //				vec2 clamped_pv = clamp(pv, vec2(0.0), vec2(1.0));
 //				if (pv.x != clamped_pv.x || pv.y != clamped_pv.y) {
 //					continue;
 //				}
 //
 //				$select_inputs
 //
 //				float c1 = $in.variation(pv, $variations ? seed.x : 0.0)*mask*(1.0-$value*seed.x);
 //				c = max(c, c1);
 //				rc = mix(rc, rc1, step(c, c1));
 //			}
 //		}
 //	}
 //
 //	return vec4(rc, c);
 //}
 //select_inputs enum
 //1,  " "
 //4, "pv = clamp(0.5*(pv+floor(rand2(seed)*2.0)), vec2(0.0), vec2(1.0));"
 //16, "pv = clamp(0.25*(pv+floor(rand2(seed)*4.0)), vec2(0.0), vec2(1.0));"
};


#endif
Comverted the remaining nodes. 2022-06-16 15:29:08 +02:00			`#ifndef TILER_H`
			`#define TILER_H`


			`class Tiler : public MMNode {`
			`GDCLASS(Tiler, MMNode);`

			`public:`

			`Ref<Resource> get_input();`
			`void set_input(const Ref<Resource> &val);`

			`Ref<Resource> get_in_mask();`
			`void set_in_mask(const Ref<Resource> &val);`

			`Ref<Resource> get_output();`
			`void set_output(const Ref<Resource> &val);`

			`Ref<Resource> get_instance_map();`
			`void set_instance_map(const Ref<Resource> &val);`

			`Vector2 get_tile();`
			`void set_tile(const Vector2 &val);`

			`float get_overlap() const;`
			`void set_overlap(const float val);`

			`int get_select_inputs() const;`
			`void set_select_inputs(const int val);`

			`Vector2 get_scale();`
			`void set_scale(const Vector2 &val);`

			`float get_fixed_offset() const;`
			`void set_fixed_offset(const float val);`

			`float get_rnd_offset() const;`
			`void set_rnd_offset(const float val);`

			`float get_rnd_rotate() const;`
			`void set_rnd_rotate(const float val);`

			`float get_rnd_scale() const;`
			`void set_rnd_scale(const float val);`

			`float get_rnd_value() const;`
			`void set_rnd_value(const float val);`

			`bool get_variations() const;`
			`void set_variations(const bool val);`

			`void _init_properties();`
			`void _register_methods(const Variant &mm_graph_node);`
			`void _render(const Variant &material);`
			`Color _get_value_for(const Vector2 &uv, const int pseed);`
			`Vector2 get_tile();`
			`void set_tile(const Vector2 &val);`
			`float get_overlap();`
			`void set_overlap(const float val);`
			`int get_select_inputs();`
			`void set_select_inputs(const int val);`
			`Vector2 get_scale();`
			`void set_scale(const Vector2 &val);`
			`float get_fixed_offset();`
			`void set_fixed_offset(const float val);`
			`float get_rnd_offset();`
			`void set_rnd_offset(const float val);`
			`float get_rnd_rotate();`
			`void set_rnd_rotate(const float val);`
			`float get_rnd_scale();`
			`void set_rnd_scale(const float val);`
			`float get_rnd_value();`
			`void set_rnd_value(const float val);`
			`bool get_variations();`
			`void set_variations(const bool val);`
			`Color tiler_calc(const Vector2 &uv, const Vector2 &tile, const int overlap, const Vector2 &_seed);`

			`Tiler();`
			`~Tiler();`

			`protected:`
			`static void _bind_methods();`

			`//tool`
			`//export(Resource)`
			`Ref<Resource> input;`
			`//export(Resource)`
			`Ref<Resource> in_mask;`
			`//export(Resource)`
			`Ref<Resource> output;`
			`//export(Resource)`
			`Ref<Resource> instance_map;`
			`//export(Vector2)`
			`Vector2 tile = Vector2(4, 4);`
			`//export(float)`
			`float overlap = 1;`
			`//export(int, "1,4,16")`
			`int select_inputs = 0;`
			`//export(Vector2)`
			`Vector2 scale = Vector2(0.5, 0.5);`
			`//export(float)`
			`float fixed_offset = 0;`
			`//export(float)`
			`float rnd_offset = 0.25;`
			`//export(float)`
			`float rnd_rotate = 45;`
			`//export(float)`
			`float rnd_scale = 0.2;`
			`//export(float)`
			`float rnd_value = 2;`
			`//export(bool)`
			`bool variations = false;`
			`//mm_graph_node.add_slot_bool("get_variations", "set_variations", "Variations")`
			`//tile`
			`//overlap`
			`//select_inputs`
			`//scale`
			`//fixed_offset`
			`//rnd_offset`
			`//rnd_rotate`
			`//rnd_scale`
			`//rnd_value`
			`//variations`
			`//----------------------`
			`//tiler.mmg`
			`//Tiles several occurences of an input image while adding randomness.`
			`//instance`
			`//vec4 tiler_$(name)(vec2 uv, vec2 tile, int overlap, vec2 _seed) {`
			`// float c = 0.0;`
			`// vec3 rc = vec3(0.0);`
			`// vec3 rc1;`
			`// for (int dx = -overlap; dx <= overlap; ++dx) {`
			`// for (int dy = -overlap; dy <= overlap; ++dy) {`
			`// vec2 pos = fract((floor(uv*tile)+vec2(float(dx), float(dy))+vec2(0.5))/tile-vec2(0.5));`
			`// vec2 seed = rand2(pos+_seed);`
			`// rc1 = rand3(seed);`
			`// pos = fract(pos+vec2($fixed_offset/tile.x, 0.0)floor(mod(pos.ytile.y, 2.0))+$offset*seed/tile);`
			`// float mask = $mask(fract(pos+vec2(0.5)));`
			`//`
			`// if (mask > 0.01) {`
			`// vec2 pv = fract(uv - pos)-vec2(0.5);`
			`// seed = rand2(seed);`
			`// float angle = (seed.x * 2.0 - 1.0) * $rotate * 0.01745329251;`
			`// float ca = cos(angle);`
			`// float sa = sin(angle);`
			`// pv = vec2(capv.x+sapv.y, -sapv.x+capv.y);`
			`// pv = (seed.y-0.5)2.0*$scale+1.0;`
			`// pv /= vec2($scale_x, $scale_y);`
			`// pv += vec2(0.5);`
			`// seed = rand2(seed);`
			`// vec2 clamped_pv = clamp(pv, vec2(0.0), vec2(1.0));`
			`// if (pv.x != clamped_pv.x \|\| pv.y != clamped_pv.y) {`
			`// continue;`
			`// }`
			`//`
			`// $select_inputs`
			`//`
			`// float c1 = $in.variation(pv, $variations ? seed.x : 0.0)mask(1.0-$value*seed.x);`
			`// c = max(c, c1);`
			`// rc = mix(rc, rc1, step(c, c1));`
			`// }`
			`// }`
			`// }`
			`//`
			`// return vec4(rc, c);`
			`//}`
			`//select_inputs enum`
			`//1, " "`
			`//4, "pv = clamp(0.5(pv+floor(rand2(seed)2.0)), vec2(0.0), vec2(1.0));"`
			`//16, "pv = clamp(0.25(pv+floor(rand2(seed)4.0)), vec2(0.0), vec2(1.0));"`
			`};`


			`#endif`