def to_ipe( *args, **kargs ): #from math import * #al, th = drawgl.gl.alpha * pi / 180, drawgl.gl.theta * pi / 180 #als = ( al, -al, al + pi / 2, al - pi / 2 ) #ths = ( th, -th, th + pi / 2, th - pi / 2 ) #for ai, al in enumerate( als ): # for ti, th in enumerate( ths ): # drawipe.setup( al, th, drawgl.gl.dist ) # drawipe.clear() # drawipe.group() # drawipe( v1, style = 'line' ) # drawipe( v2, style = 'line' ) # drawipe( v3, style = 'line' ) # drawipe.save( '/tmp/out_%s_%s.ipe' % ( ai, ti ) ) #for i in xrange( 1,9 ): # getattr( drawipe, 'setup_drawgl' + str( i ) )( drawgl ) # drawipe.clear() # drawipe.group() # drawipe( vo ) # drawipe.save( '/tmp/out%s.ipe' % i ) drawipe.setup_drawgl( drawgl ) drawipe.clear() drawipe.group() drawipe( vo ) drawipe.save( '/tmp/out.ipe' )
def to_ipe( *args ): drawipe.group() ## make new group drawipe( vo3 ) vn = edg.norm() pln = vn.to_plane( vn * dr * n ) drawipe.setup_plane( pln, 10 ) for p in pln.touch( vo3.has( ds1 ) ): drawipe( p, color=(0,1,0) ) for p in pln.touch( vo3.has( ds2 ) ): drawipe( p, r=0.04, color=(1,0,0) )
def to_ipe(*args): drawipe.group() ## make new group drawipe(vo3) vn = edg.norm() pln = vn.to_plane(vn * dr * n) drawipe.setup_plane(pln, 10) for p in pln.touch(vo3.has(ds1)): drawipe(p, color=(0, 1, 0)) for p in pln.touch(vo3.has(ds2)): drawipe(p, r=0.04, color=(1, 0, 0))
def to_ipe2(*args): global va v = va.norm() p = v.to_plane(va) drawipe.group() ## make new group drawipe(vo_h) drawipe.setup_plane(p, 10) for x in vo_h.has(ds1_h): drawipe(x, r=0.04, color=(1, 0, 0)) for x in vo_h.has(ds2_h): drawipe(x, color=(0, 1, 0))
def to_ipe(*args): global vc, pos, delta v = vc.norm() * delta * pos p = vc.to_plane(v) drawipe.group() ## make new group drawipe(vo_h) drawipe.setup_plane(p, 10) for x in p.touch(ds1_h): drawipe(x, r=0.04, color=(1, 0, 0)) for x in p.touch(ds2_h): drawipe(x, color=(0, 1, 0))
def to_ipe2( *args ): global va v = va.norm() p = v.to_plane( va ) drawipe.group() ## make new group drawipe( vo_h ) drawipe.setup_plane( p, 10 ) for x in vo_h.has( ds1_h ): drawipe( x, r=0.04, color=(1,0,0) ) for x in vo_h.has( ds2_h ): drawipe( x, color=(0,1,0) )
def to_ipe( *args ): global vc, pos, delta v = vc.norm() * delta * pos p = vc.to_plane( v ) drawipe.group() ## make new group drawipe( vo_h ) drawipe.setup_plane( p, 10 ) for x in p.touch( ds1_h ): drawipe( x, r=0.04, color=(1,0,0) ) for x in p.touch( ds2_h ): drawipe( x, color=(0,1,0) )
from vec import * from mat import * from zell import * from voron import * from reper import * import zell2reper ## drawing import vec_gl import voron_gl from draw_gl import drawgl from draw_ipe import drawipe r = Zell(-1, -0, -1, -1, -2, -1).to_reper() print r vo = Voron(*r) drawgl(vo) drawgl.start() drawipe.setup(0, 0.2, 30) for x in xrange(5 + 1): r = Zell(-1, -0, -1, -1, -2 + 0.4 * x, -1).to_reper() print r vo = Voron(*r) drawipe.group() ## add each dirichlet cell to new group drawipe(vo) drawipe.save('/tmp/Q2_to_K3.ipe')
from zell import * from voron import * from reper import * import zell2reper ## drawing import vec_gl import voron_gl from draw_gl import drawgl from draw_ipe import drawipe r = Zell( -1, -0, -1, -1, -2, -1 ).to_reper() print r vo = Voron( *r ) drawgl( vo ) drawgl.start() drawipe.setup( 0, 0.2, 30 ) for x in xrange( 5 + 1 ): r = Zell( -1, -0, -1, -1, -2 + 0.4 * x, -1 ).to_reper() print r vo = Voron( *r ) drawipe.group() ## add each dirichlet cell to new group drawipe( vo ) drawipe.save( '/tmp/Q2_to_K3.ipe' )