def experiment(width,height,lw,A): import cairo_objects from bson import SON import math objects = [cairo_objects.square(area = A , lw = lw), cairo_objects.disc(area = A, lw = lw), cairo_objects.polygon(3,area = A,lw=lw), cairo_objects.polygon(6,area = A, lw = lw), ] patterns = [cairo_objects.solid_surface(1,0,0), cairo_objects.solid_surface(1,1,0), cairo_objects.solid_surface(0,0,1), cairo_objects.linear_surface(0,0,1,1,[(.35,0,1,0,1),(.65,1,0,0,1)]), cairo_objects.radial_surface(.5,.5,0,.5,.5,2*math.sqrt(A/math.pi),[(.65,1,0,0,1),(.35,0,0,1,1)]) ] return SON([ ('num_images',100000), ('generator' , 'cairo'), ('width' , width), ('height' , height), ('objects' , objects), ('patterns' , patterns), ('action_lists', [['stroke'],['stroke_preserve','fill']]), ('tx' , SON([('$gt' , -.25) , ('$lt' , .251)])), ('ty' , SON([('$gt' , -.25) , ('$lt' , .251)])), ('sx' , SON([('$gt' , .5) , ('$lt' , 2.01)])), ('sy' , SON([('$gt' , .5) , ('$lt' , 2.01)])), ('rxy' , SON([('$gt' , 0) , ('$lt' , 2*math.pi)])) ])
def experiment(width,height,lw,A): import cairo_objects from bson import SON import math objects = [cairo_objects.square(area = A , lw = lw), ] patterns = [cairo_objects.solid_surface(1,0,0), ] return SON([ ('num_images',50000), ('generator' , 'cairo'), ('width' , width), ('height' , height), ('objects' , objects), ('patterns' , patterns), ('tx' , SON([('$gt' , -.25) , ('$lt' , .251)])), ('ty' , SON([('$gt' , -.25) , ('$lt' , .251)])), ('sx' , SON([('$gt' , .5) , ('$lt' , 2.01) , ('delta',.5)])), ('sy' , SON([('$gt' , .5) , ('$lt' , 2.01) , ('delta',.5)])), ('rxy' , SON([('$gt' , 0) , ('$lt' , 2*math.pi)])) ])
def experiment(width, height, lw, A): import cairo_objects from bson import SON import math objects = [ cairo_objects.square(area=A, lw=lw), cairo_objects.disc(area=A, lw=lw), cairo_objects.polygon(3, area=A, lw=lw), cairo_objects.polygon(6, area=A, lw=lw), ] patterns = [ cairo_objects.solid_surface(1, 0, 0), cairo_objects.solid_surface(1, 1, 0), cairo_objects.solid_surface(0, 0, 1), cairo_objects.linear_surface(0, 0, 1, 1, [(0.35, 0, 1, 0, 1), (0.65, 1, 0, 0, 1)]), cairo_objects.radial_surface( 0.5, 0.5, 0, 0.5, 0.5, 2 * math.sqrt(A / math.pi), [(0.65, 1, 0, 0, 1), (0.35, 0, 0, 1, 1)] ), ] return SON( [ ("num_images", 100000), ("generator", "cairo"), ("width", width), ("height", height), ("objects", objects), ("patterns", patterns), ("action_lists", [["stroke"], ["stroke_preserve", "fill"]]), ("tx", SON([("$gt", -0.25), ("$lt", 0.251)])), ("ty", SON([("$gt", -0.25), ("$lt", 0.251)])), ("sx", SON([("$gt", 0.5), ("$lt", 2.01)])), ("sy", SON([("$gt", 0.5), ("$lt", 2.01)])), ("rxy", SON([("$gt", 0), ("$lt", 2 * math.pi)])), ] )