1 files changed, 242 insertions, 0 deletions

diff --git a/rotord/src/image.h b/rotord/src/image.h
new file mode 100644
index 0000000..68aea09
--- /dev/null
+++ b/rotord/src/image.h
@@ -0,0 +1,242 @@
+#include <cv.h>
+
+namespace Rotor {
+	class pixeltables{
+		//handy pixel arithmetic lookup tables as nested arrays
+		//so - pixels.add[0x78][0x66]; will give the precalculated result of adding with saturation
+		// pixels.mono_weights[0][0x100]; will give the red component to convert to mono
+		public:
+			pixeltables(){
+				add=new uint8_t*[256];
+				multiply=new uint8_t*[256];
+				for (int i=0;i<256;i++){
+					add[i]=new uint8_t[256];
+					multiply[i]=new uint8_t[256];
+					for (int j=0;j<256;j++){
+						add[i][j]=(uint8_t)min(i+j,0xFF);
+						multiply[i][j]=(uint8_t)((((float)i)/255.0f)*(((float)j)/255.0f)*255.0f);
+					}
+				}
+				mono_weights=new uint8_t*[3];
+				float weights[3]={0.2989, 0.5870, 0.1140};
+				for (int i=0;i<3;i++) {
+					mono_weights[i]=new uint8_t[256];
+					for (int j=0;j<256;j++){
+						mono_weights[i][j]=(uint8_t)(((float)j)*weights[i]);
+					}
+				}
+			}
+			virtual ~pixeltables(){
+				for (int i=0;i<256;i++){
+					delete[] add[i];
+					delete[] multiply[i];
+				}
+				delete[] add;
+				delete[] multiply;
+				for (int i=0;i<3;i++) {
+					delete[] mono_weights[i];
+				}
+				delete[] mono_weights;
+			}
+			uint8_t **add;
+			uint8_t **multiply;
+			uint8_t **mono_weights;
+	};
+	static pixeltables pixels;
+	class cvImage{
+		public:
+			bool setup(int _w,int _h){ //set up with internal data
+				cv::Mat mat =cv::Mat(_w, _h, CV_8UC1);
+				//is this goint to save time or cost it in the long run?
+				//wrap cv::Mat or use it directly?
+				//its reference counted etc.. could save a lot of headaches
+
+				/*
+				if (w!=_w||h!=_h||!ownsRGBdata||!ownsAdata||!ownsZdata){
+					free();
+					w=_w;
+					h=_h;
+					RGBdata=new uint8_t[w*h*3];
+					Adata=new uint8_t[w*h];
+					Zdata=new uint16_t[w*h];
+					ownsRGBdata=ownsAdata=ownsZdata=true;
+					return true;
+				}
+				else return false;
+				*/
+				return false;
+			}
+			uint8_t *RGBdata;
+			uint8_t *Adata;
+			uint16_t *Zdata;
+			int h,w;
+			bool ownsRGBdata,ownsAdata,ownsZdata; //better done through auto_ptr?
+	};
+	class Image{
+		public:
+			Image(){
+				zero();
+			};
+			Image(int _w,int _h){
+				zero();
+				setup(_w,_h);
+			};
+			~Image() {
+				free();
+			};
+			void free(){
+				if (RGBdata&&ownsRGBdata) delete[] RGBdata;
+				if (Adata&&ownsAdata) delete[] Adata;
+				if (Zdata&&ownsZdata) delete[] Zdata;
+				zero();
+			}
+			void zero(){
+				RGBdata=nullptr;
+				Adata=nullptr;
+				Zdata=nullptr;
+				w=0;
+				h=0;
+				ownsRGBdata=ownsAdata=ownsZdata=false;
+			}
+			bool setup(int _w,int _h){ //set up with internal data
+				if (w!=_w||h!=_h||!ownsRGBdata||!ownsAdata||!ownsZdata){
+					free();
+					w=_w;
+					h=_h;
+					RGBdata=new uint8_t[w*h*3];
+					Adata=new uint8_t[w*h];
+					Zdata=new uint16_t[w*h];
+					ownsRGBdata=ownsAdata=ownsZdata=true;
+					return true;
+				}
+				else return false;
+			}
+			bool setup_fromRGB(int _w,int _h,uint8_t *pRGBdata){ //possibility of just resetting pointer?
+				if (w!=_w||h!=_h||ownsRGBdata||!ownsAdata||!ownsZdata){
+					free();
+					w=_w;
+					h=_h;
+					RGBdata=pRGBdata;
+					Adata=new uint8_t[w*h];
+					Zdata=new uint16_t[w*h];
+					ownsRGBdata=false;
+					ownsAdata=ownsZdata=true;
+					return true;
+				}
+				return false;
+			}
+			Image* clone(){
+				Image *t=new Image(w,h);
+				for (int i=0;i<w*h*3;i++) {
+					t->RGBdata[i]=RGBdata[i];
+				}
+				return t;
+			}
+			Image & operator+=(const Image &other) {
+				if (other.w!=w||other.h!=h) {
+					cerr<<"Rotor: cannot add images with different sizes! (wanted "<<w<<"x"<<h<<", got "<<other.w<<"x"<<other.h<<")"<<endl;
+				}
+				else {
+					for (int i=0;i<w*h*3;i++){
+						//calculate with tables
+						RGBdata[i]=pixels.add[RGBdata[i]][other.RGBdata[i]];
+					}
+				}
+				return *this;
+			}
+			Image & operator*=(const Image &other) {
+				if (other.w!=w||other.h!=h) {
+					cerr<<"Rotor: cannot multiply images with different sizes! (wanted "<<w<<"x"<<h<<", got "<<other.w<<"x"<<other.h<<")"<<endl;
+				}
+				else {
+					for (int i=0;i<w*h*3;i++){
+						//calculate with tables
+						uint8_t p1=RGBdata[i];
+						uint8_t p2=other.RGBdata[i];
+						RGBdata[i]=pixels.multiply[RGBdata[i]][other.RGBdata[i]];
+					}
+				}
+				return *this;
+			}
+			Image & add_wrap(const Image &other) {
+				if (other.w!=w||other.h!=h) {
+					cerr<<"Rotor: cannot add images with different sizes! (wanted "<<w<<"x"<<h<<", got "<<other.w<<"x"<<other.h<<")"<<endl;
+				}
+				else {
+					for (int i=0;i<w*h*3;i++){
+						//creates rainbow overload
+						RGBdata[i]=(unsigned char)(((int)other.RGBdata[i]+(int)RGBdata[i]));
+					}
+				}
+				return *this;
+			}
+			//scalar operations allocate a new image.
+			//maybe this could not be the case if the data is owned by this image?
+			//need to look into auto_ptr
+			Image & operator*=(const float &amount) {
+				uint8_t *LUT=new uint8_t[256];
+				for (int i=0;i<256;i++) {
+					LUT[i]=(uint8_t)min(0xFF,max(0,(int)(i*amount)));
+				}
+				for (int i=0;i<w*h*3;i++){
+					//calculate with table
+					RGBdata[i]=LUT[RGBdata[i]];
+				}
+				delete[] LUT;
+				return *this;
+			}
+			Image * operator*(const float &amount) {
+				Image *other=new Image(w,h);
+				uint8_t *LUT=new uint8_t[256];
+				for (int i=0;i<256;i++) {
+					LUT[i]=(uint8_t)min(0xFF,max(0,(int)(i*amount)));
+				}
+				for (int i=0;i<w*h*3;i++){
+					other->RGBdata[i]=LUT[RGBdata[i]];
+				}
+				delete[] LUT;
+				return other;
+			}
+			Image * operator+(const float &amount) {
+				Image *other=new Image(w,h);
+				uint8_t *LUT=new uint8_t[256];
+				for (int i=0;i<256;i++) {
+					LUT[i]=(uint8_t)min(0xFF,max(0,(int)(i+(amount*255.0f))));
+				}
+				for (int i=0;i<w*h*3;i++){
+					other->RGBdata[i]=LUT[RGBdata[i]];
+				}
+				delete[] LUT;
+				return other;
+			}
+			Image * operator-(const float &amount) {
+				Image *other=new Image(w,h);
+				uint8_t *LUT=new uint8_t[256];
+				for (int i=0;i<256;i++) {
+					LUT[i]=(uint8_t)min(0xFF,max(0,(int)(i-(amount*255.0f))));
+				}
+				for (int i=0;i<w*h*3;i++){
+					other->RGBdata[i]=LUT[RGBdata[i]];
+				}
+				delete[] LUT;
+				return other;
+			}
+			Image * operator/(const float &amount) {
+				Image *other=new Image(w,h);
+				uint8_t *LUT=new uint8_t[256];
+				for (int i=0;i<256;i++) {
+					LUT[i]=(uint8_t)min(0xFF,max(0,(int)(i/amount)));
+				}
+				for (int i=0;i<w*h*3;i++){
+					other->RGBdata[i]=LUT[RGBdata[i]];
+				}
+				delete[] LUT;
+				return other;
+			}
+			uint8_t *RGBdata;
+			uint8_t *Adata;
+			uint16_t *Zdata;
+			int h,w;
+			bool ownsRGBdata,ownsAdata,ownsZdata; //better done through auto_ptr?
+	};
+}
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