Lines Matching defs:csp_at_t

291 		 				x1,y1 = csp_at_t(sp1,sp2,t)
312 		 				x1,y1 = csp_at_t(sp1,sp2,t)
366 #				draw_pointer( list(csp_at_t(subpath[dist[2]-1],subpath[dist[2]],dist[3]))
367 #					+list(csp_at_t(csp[dist[4]][dist[5]-1],csp[dist[4]][dist[5]],dist[6])),"red","line", comment = math.sqrt(dist[0]))
391 			p1 = csp_at_t(sp1,sp2,t)
428 				#draw_pointer(csp_at_t(sp1,sp2,t1))
474 #	draw_pointer( list(csp_at_t(csp1[dist[1]][dist[2]-1],csp1[dist[1]][dist[2]],dist[3]))
475 #				+ list(csp_at_t(csp2[dist[4]][dist[5]-1],csp2[dist[4]][dist[5]],dist[6])), "#507","line")
751 def csp_at_t(sp1,sp2,t):
768 	return csp_at_t(sp1,sp2,t)
1002 			p = csp_at_t(sp1,sp2,t) 
1367 	return csp_at_t([bez[0],bez[0],bez[1]],[bez[2],bez[3],bez[3]],t)
1992 		start = (P(csp_at_t(sp1_l,sp2_l,1.)) + r*P(csp_normalized_normal(sp1_l,sp2_l,1.))).to_list()
1993 		end   = (P(csp_at_t(sp1,sp2,0.)) + r*P(csp_normalized_normal(sp1,sp2,0.))).to_list()
2027 				csp_seg_to_point_distance(sp1_r,sp2_r, (P(csp_at_t(sp1,sp2,.25)) + P(csp_normalized_normal(sp1,sp2,.25))*r).to_list())[0], 
2028 				csp_seg_to_point_distance(sp1_r,sp2_r, (P(csp_at_t(sp1,sp2,.50)) + P(csp_normalized_normal(sp1,sp2,.50))*r).to_list())[0],
2029 				csp_seg_to_point_distance(sp1_r,sp2_r, (P(csp_at_t(sp1,sp2,.75)) + P(csp_normalized_normal(sp1,sp2,.75))*r).to_list())[0],
2033 			#print_(csp_seg_to_point_distance(sp1_r,sp2_r, (P(csp_at_t(sp1,sp2,.25)) + P(csp_normalized_normal(sp1,sp2,.25))*r).to_list())[0], tolerance)
2123 		#	draw_pointer(csp_at_t(subpath_offset[k-1], subpath_offset[k], t))
2171 								#draw_pointer(csp_at_t(subpath[i-1],subpath[i],t[0]),"#f00")
2229 			draw_pointer( csp_at_t(s2[-2],s2[-1],1.)+
2230 				(P(csp_at_t(s2[-2],s2[-1],1.))+ P(csp_normalized_normal(s2[-2],s2[-1],1.))*10).to_list(),"Green", "line"  )
2231 			draw_pointer( csp_at_t(s1[0],s1[1],0.)+
2232 				(P(csp_at_t(s1[0],s1[1],0.))+ P(csp_normalized_slope(s1[0],s1[1],0.))*10).to_list(),"Red", "line"  )
2268 				draw_pointer(csp_at_t(csp[dist[1]][dist[2]-1],csp[dist[1]][dist[2]],dist[3])+s[int(len(s)/2)][1],"blue", "line", comment = [math.sqrt(dist[0]),i,j,sp]  )
5029 						b[k] = csp_at_t(rotated_path[i][j-1],rotated_path[i][j],t)[k%2]
5106 									p = tuple(csp_at_t(sp1,sp2,t))
6710 							draw_pointer( list(csp_at_t(csp1[dist[1]][dist[2]-1],csp1[dist[1]][dist[2]],dist[3]))
6711 										+list(csp_at_t(csp2[dist[4]][dist[5]-1],csp2[dist[4]][dist[5]],dist[6])),"red","line", comment = math.sqrt(dist[0]))