def main(args):
from render.render import Render
from dddUtils.ioOBJ import load_2d as load
#from modules.show import show
from modules.show import show_closed
data = load(args.fn)
size = args.size
one = 1.0 / size
vertices = data['vertices']
lines = data['lines']
render = Render(size, BACK, FRONT)
render.ctx.set_source_rgba(*FRONT)
render.ctx.set_line_width(args.width * one)
out = ''.join(args.fn.split('.')[:-1]) + '.png'
show_closed(render, vertices[lines[0], :], out, fill=args.closed)
#for vv in vertices:
#render.circle(vv[0], vv[1], one, fill=True)
render.write_to_png(out)
return
def main(args):
from render.render import Render
from dddUtils.ioOBJ import load_2d as load
#from modules.show import show
from modules.show import show_closed
data = load(args.fn)
size = args.size
one = 1.0/size
vertices = data['vertices']
lines = data['lines']
render = Render(size, BACK, FRONT)
render.ctx.set_source_rgba(*FRONT)
render.ctx.set_line_width(args.width*one)
out = ''.join(args.fn.split('.')[:-1])+'.png'
show_closed(render, vertices[lines[0],:], out, fill=args.closed)
#for vv in vertices:
#render.circle(vv[0], vv[1], one, fill=True)
render.write_to_png(out)
return
def main():
from time import time
from itertools import count
from render.render import Render
from modules.helpers import print_stats
from modules.show import show
from modules.show import show_closed
from differentialLine import DifferentialLine
DF = DifferentialLine(NMAX, FARL*2, NEARL, FARL, PROCS)
render = Render(SIZE, BACK, FRONT)
render.ctx.set_source_rgba(*FRONT)
render.ctx.set_line_width(LINEWIDTH)
angles = sorted(random(NINIT)*TWOPI)
DF.init_circle_segment(MID,MID,RAD, angles)
t_start = time()
for i in count():
DF.optimize_position(STP)
spawn_curl(DF,NEARL)
if i % STAT_ITT == 0:
print_stats(i,time()-t_start,DF)
if i % EXPORT_ITT == 0:
fn = './res/oryx_bb_{:010d}.png'.format(i)
num = DF.np_get_edges_coordinates(np_edges)
show(render,np_edges[:num,:],fn)
fn = './res/oryx_bb_closed_{:010d}.png'.format(i)
num = DF.np_get_sorted_vert_coordinates(np_verts)
show_closed(render,np_verts[:num,:],fn)
def main(args):
from dddUtils.ddd import get_mid_2d as get_mid
from render.render import Render
from dddUtils.ioOBJ import load
from modules.show import show_closed
from numpy import array
data = load(args.fn)
size = args.size
if args.fill:
fill = True
else:
fill = False
one = 1.0/size
vertices = data['vertices']
print(vertices)
if args.scale:
vertices -= get_mid(vertices)
vertices *= args.scale
vertices += array([[0.5,0.5]])
render = Render(size, BACK, FRONT)
render.ctx.set_source_rgba(*FRONT)
render.ctx.set_line_width(args.width*one)
out = ''.join(args.fn.split('.')[:-1])+'.png'
show_closed(render, vertices, out, fill=fill)
#render.ctx.set_source_rgba(*[1,0,0,1])
#for vv in vertices:
#render.circle(vv[0], vv[1], one*4, fill=False)
render.write_to_png(out)
return
def main():
from time import time
from itertools import count
from render.render import Render
from modules.helpers import print_stats
from modules.show import show
from modules.show import show_closed
from differentialLine import DifferentialLine
DF = DifferentialLine(NMAX, FARL*2, NEARL, FARL, PROCS)
render = Render(SIZE, BACK, FRONT)
render.ctx.set_source_rgba(*FRONT)
render.ctx.set_line_width(LINEWIDTH)
angles = sorted(random(NINIT))
DF.init_circle_segment(MID,MID,RAD, angles)
for i in count():
t_start = time()
steps(DF,STEPS_ITT)
t_stop = time()
print_stats(i*STEPS_ITT,t_stop-t_start,DF)
fn = './res/oryx_bb_{:010d}.png'.format(i*STEPS_ITT)
edges_coordinates = DF.get_edges_coordinates()
show(render,edges_coordinates,fn)
fn = './res/oryx_bb_closed_{:010d}.png'.format(i*STEPS_ITT)
sorted_vert_coordinates = DF.get_sorted_vert_coordinates()
show_closed(render,sorted_vert_coordinates,fn)
def main():
from time import time
from itertools import count
from render.render import Render
from modules.helpers import print_stats
from modules.show import show
from modules.show import show_closed
from differentialLine import DifferentialLine
DF = DifferentialLine(NMAX, FARL * 2, NEARL, FARL, PROCS)
render = Render(SIZE, BACK, FRONT)
render.ctx.set_source_rgba(*FRONT)
render.ctx.set_line_width(LINEWIDTH)
angles = sorted(random(NINIT))
DF.init_circle_segment(MID, MID, RAD, angles)
for i in count():
t_start = time()
steps(DF, STEPS_ITT)
t_stop = time()
print_stats(i * STEPS_ITT, t_stop - t_start, DF)
fn = './res/oryx_bb_{:010d}.png'.format(i * STEPS_ITT)
edges_coordinates = DF.get_edges_coordinates()
show(render, edges_coordinates, fn)
fn = './res/oryx_bb_closed_{:010d}.png'.format(i * STEPS_ITT)
sorted_vert_coordinates = DF.get_sorted_vert_coordinates()
show_closed(render, sorted_vert_coordinates, fn)
