path: root/rotord/src/nodes_drawing.h

#ifndef ROTOR_NODES_DRAWING
#define ROTOR_NODES_DRAWING

#include "rotor.h"
#include <cairo.h>

namespace Rotor {
	class Draw_node: public Image_node {
		public:
			Draw_node(){
				create_image_input("image input","Image input");
				//no title or description as it isn't intended for the user
			};
			Draw_node(map<string,string> &settings):Draw_node() {
			};
			~Draw_node(){};
			Draw_node* clone(map<string,string> &_settings) { return new Draw_node(_settings);};
			virtual void vector_output(cairo_t * cr,const Frame_spec &frame){};
			Image *output(const Frame_spec &frame){
				Image *in=image_inputs[0]->get(frame);
				if (in){
					image=(*in);
			    }
			    else image.clear();
			    //convert to 32 bit - this can probably be optimised further
			    cv::Mat chans;
				cv::cvtColor(image.rgb, chans, CV_BGR2RGBA, 4);
			    cairo_surface_t * cs = cairo_image_surface_create_for_data (chans.data,
                                                         CAIRO_FORMAT_RGB24,
                                                         image.w,
                                                         image.h,
                                                         image.w*4);
			    cairo_t * cr = cairo_create (cs);
				//do any kind of vector drawing
			   	vector_output(cr,frame);
				//convert frame back to 24 bits
				cv::cvtColor(chans,image.rgb,CV_RGBA2BGR,3);
				cairo_destroy(cr);
				cairo_surface_destroy(cs);
				return &image;
			}
		private:
	};
	class Text: public Draw_node {
		public:
			Text(){
				title="Text";
				description="Draws text";
				create_attribute("text","Text to draw","Text","hello, world!");
			};
			Text(map<string,string> &settings):Text() {
				base_settings(settings);
			};
			~Text(){};
			Text* clone(map<string,string> &_settings) { return new Text(_settings);};
			void vector_output(cairo_t * cr,const Frame_spec &frame){
				cairo_text_extents_t te;
				cairo_set_source_rgb (cr, 1.0, 1.0, 1.0);
				cairo_select_font_face (cr, "Georgia",
				                  CAIRO_FONT_SLANT_NORMAL, CAIRO_FONT_WEIGHT_BOLD);
				cairo_set_font_size (cr, 250);
				cairo_text_extents(cr, attributes["text"]->value.c_str(), &te);
				cairo_move_to (cr,(frame.w-te.width)/2,(frame.h-te.height)/2);
				cairo_show_text (cr, attributes["text"]->value.c_str());
				cairo_fill(cr);
			}
		private:
	};
#define SHAPE_circle 1
#define SHAPE_square 2
#define SHAPE_triangle 3
	class Shape: public Draw_node {
		public:
			Shape(){
				title="Shape";
				description="Draws filled shapes";
				create_parameter("x","number","X coordinate","X",0.0f);
				create_parameter("y","number","Y coordinate","Y",0.0f);
				create_parameter("scale","number","Scale","Scale",1.0f);
				create_parameter("rotation","number","Rotation","Rotation",0.0f);
				create_attribute("colour","Colour to fill","Colour","FFFFFF");
				create_attribute("shape","Shape to draw","Shape","square",{"circle","square","triangle"});
			};
			Shape(map<string,string> &settings):Shape() {
				base_settings(settings);
				colour=Colour(attributes["colour"]->value);
			};
			~Shape(){};
			Shape* clone(map<string,string> &_settings) { return new Shape(_settings);};
			void vector_output(cairo_t * cr,const Frame_spec &frame){
				cairo_set_source_rgb(cr, colour.Rfloat(),colour.Gfloat(),colour.Bfloat());
				cairo_save(cr); //not really even necessary?
				cairo_translate(cr, frame.w/2, frame.h/2);
				cairo_translate(cr, parameters["x"]->value * frame.w, parameters["y"]->value * frame.h);
				cairo_scale(cr, parameters["scale"]->value , parameters["scale"]->value );
				cairo_rotate(cr,(parameters["rotation"]->value/180.0f)*M_PI);
				switch(attributes["shape"]->intVal) {
					case SHAPE_square:
						cairo_rectangle(cr,-frame.w/2,-frame.w/2,frame.w,frame.w);
                        break;
					case SHAPE_circle:
						cairo_arc(cr,0,0,frame.w/2,0.0, 2 * M_PI);
                        break;
                    case SHAPE_triangle:
                    	//subtracting PI/2 =(1.5*PI)/3 so the triangle is pointing up
						cairo_line_to(cr,0,-frame.w/2);
						cairo_line_to(cr,cos((0.5 * M_PI)/3)*frame.w/2,sin((0.5 * M_PI)/3)*frame.w/2);
						cairo_line_to(cr,cos((2.5 * M_PI)/3)*frame.w/2,sin((2.5 * M_PI)/3)*frame.w/2);
						cairo_close_path(cr);
                        break;
				}
				cairo_restore (cr); //not really even necessary?
				cairo_fill(cr);
			}
		private:
			Colour colour;
	};
	class Audio_viz: public Draw_node {
		public:
			Audio_viz(){}
			Audio_viz(map<string,string> &settings):Audio_viz() {
				base_settings(settings);
			};
			~Audio_viz(){};
			Audio_viz* clone(map<string,string> &_settings) { return new Audio_viz(_settings);};
			void vector_output(cairo_t * cr,const Frame_spec &frame){
				if (audioactive){
					if (!frame.audio){
						cerr<<"Audio_viz: audio not found"<<endl;
						audioactive=false;
					}
				}
				if (frame.audio){
					vector_audio_output(cr,frame);
					audioactive=true;
				}
			}
			virtual void vector_audio_output(cairo_t * cr,const Frame_spec &frame){};
		private:
			bool audioactive;
	};
	#define WAVES_line 1;
	#define WAVES_fill 2;
	#define WAVES_both 3;
	#define WAVES_mix 4;
	#define WAVES_left 5;
	#define WAVES_right 6;
	class Waves: public Audio_viz {
		public:
			Waves(){
				title="Waves";
				description="Draws audio waveforms";
				create_attribute("stroke","Colour of line stroke","Stroke","FFFFFF");
				create_attribute("fill","Colour of line fill","Fill","11AA11");
				create_attribute("mode","Drawing mode","Mode","line",{"line","fill","both"});
				create_attribute("channel","Channel to draw","Channel","left",{"left","right"});
				create_parameter("width","number","Line width","Width",1.0f,0.0f,25.0f);
				create_parameter("scale","number","Scale","Scale",1.0f);
				create_parameter("alpha","number","Alpha blend","Alpha",1.0f,0.0f,1.0f);
			}
			Waves(map<string,string> &settings):Waves() {
				base_settings(settings);
				stroke=Colour(attributes["stroke"]->value);
				fill=Colour(attributes["fill"]->value);
			};
			~Waves(){};
			Waves* clone(map<string,string> &_settings) { return new Waves(_settings);};
			void vector_audio_output(cairo_t * cr,const Frame_spec &frame){
				int channel=attributes["channel"]->intVal-1;
				if (attributes["mode"]->value=="fill"||attributes["mode"]->value=="both") {
					cairo_set_source_rgba(cr, fill.Rfloat(),fill.Gfloat(),fill.Bfloat(),parameters["alpha"]->value);
					cairo_save(cr);
					cairo_translate(cr, 0, frame.h/2);
					cairo_scale(cr,1.0f,parameters["scale"]->value);
					cairo_line_to(cr, 0, 0);
					for (int i=0;i<frame.w;i++){
						cairo_line_to(cr,i,(((int16_t)frame.audio->samples[i*frame.audio->channels]+channel)*frame.h)>>16);
					}
					cairo_line_to(cr, frame.w, 0);

					cairo_close_path(cr);
					cairo_restore (cr);
					cairo_fill(cr);
				}	
				if (attributes["mode"]->value=="line"||attributes["mode"]->value=="both") {
					cairo_set_source_rgba(cr, stroke.Rfloat(),stroke.Gfloat(),stroke.Bfloat(),parameters["alpha"]->value);
					cairo_save(cr);
					cairo_translate(cr, 0, frame.h/2);
					cairo_scale(cr,1.0f,parameters["scale"]->value);
					cairo_set_line_width (cr, parameters["width"]->value);
					cairo_line_to(cr, 0, 0);
					for (int i=0;i<frame.w;i++){
						cairo_line_to(cr,i,(((int16_t)frame.audio->samples[i*frame.audio->channels+channel])*frame.h)>>16);
					}
					cairo_line_to(cr, frame.w, 0);
					cairo_restore (cr);
					cairo_stroke(cr);
				}	
			}
		private:
			Colour stroke;
			Colour fill;
	};
}

#endif