$B72GO$G$N:n6H(B
public class MinchoRenderer extends Renderer{ // $B=DK@$NI}(B double width; // $B=DK@$KBP$9$k2#K@$NHfN((B double ratio; // $B$R$i$,$J$NI}(B double hiraWidth; // $B=DK@$N;OE@$N>~$j(B double tateSerif; // $B=DK@$H2#K@$N8rE@$N>~$j(B double tateYokoSerif; // $B2#@~$N;_$a$N=D@~$KBP$9$kHf(B double yokoSerif; public static MinchoRenderer hosoMincho= new MinchoRenderer(8.0,0.2,0.35,1.8,1.8,2.4); public static MinchoRenderer chuuMincho= new MinchoRenderer(12.0,0.4,0.6,1.5,1.4,1.8); public MinchoRenderer(double w,double r,double hw, double ts,double tys, double ys){ width=w; ratio=r; hiraWidth=hw; tateSerif=ts; tateYokoSerif=tys; yokoSerif=ys; } static Outline[] tenSample={ new Outline(new Bezier(new Point(80,171),new Point(119,214), new Point(104,256),new Point(136,255))), new Outline(new Bezier(new Point(80,171),new Point(155,204), new Point(173,251),new Point(136,255))) }; // $BE@$NIA2h(B public Outline[] ten(Point[] points,ElementAnnotation[] annotations){ // temSample$B$r(B p0,p1$B$K(Bfit$B$9$k(B double len=points[0].distance(points[1]); double w=width; if(3*w<len) w=w/20.0; else w=len/60.0; return fitSample(tenSample,points[0],points[1],w); } // $B=DK@$NIA2h(B public Outline[] tate(Point[] points,ElementAnnotation[] annotations){ return line2(points[0],points[1],width); } // $B2#K@$NIA2h(B public Outline[] yoko(Point[] points,ElementAnnotation[] annotations){ return line2(points[0],points[1],width*ratio); } // $B1&>e(B public Outline[] migiue(Point[] points,ElementAnnotation[] annotations){ return curve2(points[0],points[1],points[2], 0.6,0.6, width,0.7*width,0.3*width,0.0); } // $B:8J'$$(B public Outline[] hidari(Point[] points,ElementAnnotation[] annotations){ Point p0=points[0],p1=points[1],p2=points[2]; double w=Math.min(width,0.35*p0.distance(p2)); double len01=p0.distance(p1),len12=p1.distance(p2); double ratio=len01/(len01+len12); double theta=p1.minus(p0).theta(p2.minus(p1)); double s=Math.min(1.0,theta*0.7); double w1=(1-s)*ratio*w+s*w; double r0=Math.max(0.66666,1.0+0.5*(1.0-1.0/ratio)); return curve2(points[0],points[1],points[2], 0.6,0.6, width,0.7*width,0.3*width,0.0); } // $B=DK@:8J'$$(B // $BK\J*$O0c$&(B public Outline[] tatehidari(Point[] points,ElementAnnotation[] annotations){ Point p0=points[0],p1=points[1],p2=points[2],p3=points[3]; double w=Math.min(width,0.35*p0.distance(p3)); double len12=p1.distance(p2),len23=p2.distance(p3); double ratio=len12/(len12+len23); double theta=p2.minus(p1).theta(p3.minus(p2)); double s=Math.min(1.0,theta*0.7); double w1=(1-s)*ratio*w+s*w; double r0=Math.max(0.66666,1.0+0.5*(1.0-1.0/ratio)); Outline[] o0=line2(points[0],points[1],width); Outline[] o1=curve2(points[1],points[2],points[3], 0.6,0.6, width,width,0.3*width,0.0); o0[0]=o0[0].append(o1[0]); o0[1]=o0[1].append(o1[1]); return o0; } // $B1&J'$$(B public Outline[] migi(Point[] points,ElementAnnotation[] annotations){ return curve2(points[0],points[1],points[2], 0.6,0.6, 0.5*width,0.68*width,1.03*width,1.2*width); } // $B$3$6$H(B public Outline[] kozato(Point[] points, ElementAnnotation[] annotations){ } // public Outline[] tatehane(Point[] points, ElementAnnotation[] annotations){ } // public Outline[] tsukurihane(Point[] points, ElementAnnotation[] annotations){ } // public Outline[] sanzui(Point[] points, ElementAnnotation[] annotations){ } // public Outline[] kokoro(Point[] points, ElementAnnotation[] annotations){ } public Outline[] tasuki(Point[] points, ElementAnnotation[] annotations){ } public Outline[] magaritate(Point[] points, ElementAnnotation[] annotations){ } public Outline[] kagi(Point[] points, ElementAnnotation[] annotations){ } public Outline[] shin_nyuu(Point[] points, ElementAnnotation[] annotations){ } public Outline[] hira_long(Point[] points, ElementAnnotation[] annotations){ } public Outline[] hira_circle(Point[] points, ElementAnnotation[] annotations){ } }
ktanaka Powered by ViewCVS 1.0-dev |
ViewCVS and CVS Help |