scr.clear() scr.draw_text("There should be three lines on the screen: \ \nred oblique on the left, green horizontal in the centre, and blue vertical on the right", pos=(DISPSIZE[0]/2, DISPSIZE[1]/4)) scr.draw_line(colour=(255,0,0), spos=(DISPSIZE[0]*0.20,DISPSIZE[1]*0.45), epos=(DISPSIZE[0]*0.30,DISPSIZE[1]*0.55), pw=5) scr.draw_line(colour=(0,255,0), spos=(DISPSIZE[0]*0.45,DISPSIZE[1]/2), epos=(DISPSIZE[0]*0.55,DISPSIZE[1]/2), pw=5) scr.draw_line(colour=(0,0,255), spos=(DISPSIZE[0]*0.75,DISPSIZE[1]*0.45), epos=(DISPSIZE[0]*0.75,DISPSIZE[1]*0.55), pw=5) disp.fill(scr) disp.show() kb.get_key() #scr.draw_polygon() scr.clear() scr.draw_text("There should be two polygons on the screen: \ \nred filled triangle on the left, and green unfilled hexagon on the right", pos=(DISPSIZE[0]/2, DISPSIZE[1]/4)) pl = [(DISPSIZE[0]*0.25, DISPSIZE[1]*0.45), (DISPSIZE[0]*0.2, DISPSIZE[1]*0.55), (DISPSIZE[0]*0.3, DISPSIZE[1]*0.55)] scr.draw_polygon(pl, colour=(255,0,0), pw=5, fill=True) # topleft, topright, centreright, bottomright, bottomleft, centreleft pl = [(DISPSIZE[0]*0.70, DISPSIZE[1]*0.40), (DISPSIZE[0]*0.80, DISPSIZE[1]*0.40), (DISPSIZE[0]*0.85, DISPSIZE[1]*0.5), (DISPSIZE[0]*0.80, DISPSIZE[1]*0.60), (DISPSIZE[0]*0.70, DISPSIZE[1]*0.60), (DISPSIZE[0]*0.65, DISPSIZE[1]*0.5)] scr.draw_polygon(pl, colour=(0,255,0), pw=5, fill=False) disp.fill(scr) disp.show() kb.get_key() #scr.draw_fixation() scr.clear() scr.draw_text("There should be three fixation targets on the screen: \ \nred cross on the left, green X in the centre, and blue dot on the right", pos=(DISPSIZE[0]/2, DISPSIZE[1]/4)) scr.draw_fixation(fixtype='cross', colour=(255,0,0), pos=(DISPSIZE[0]*0.25,DISPSIZE[1]/2), pw=3, diameter=15) scr.draw_fixation(fixtype='x', colour=(0,255,0), pos=(DISPSIZE[0]/2,DISPSIZE[1]/2), pw=3, diameter=15) scr.draw_fixation(fixtype='dot', colour=(0,0,255), pos=(DISPSIZE[0]*0.75,DISPSIZE[1]/2), pw=3, diameter=15) disp.fill(scr)
fontsize=30) exscreen.draw_text("Other", pos=(cx - (side / 2) - ((yax * (1 - margin)) / 4), cy), center=True, fontsize=30) for j in range(p1): a = [xcor, ycor] b = [xcor + t_side, ycor] c = [xcor + t_side, ycor + t_side] d = [xcor, ycor + t_side] pointsown = [a, c, d] pointsother = [a, b, c] exscreen.draw_polygon(pointsown, colour=owncol, pw=1, fill=False) exscreen.draw_polygon(pointsother, colour=othercol, pw=1, fill=False) c = 0 for k in range(2): c = 1 + k d = 2 - k A = (xcor + (d * tloc), ycor + (c * tloc)) exscreen.draw_text(text=str(exvec[count]), pos=A, center=True, fontsize=30) count += 1 xcor += t_side ycor += t_side