def test_uloops(self):
def pl():
ax = rg.plot()
for lp in loops:
lpps = [rg.vs[j][1]['p'] for j in lp]
lpps = pym.contract(lpps,2)
ax = dtl.plot_polygon(lpps,ax,lw = 3,col = 'b')
plt.show()
rg = pgr.wiregraph()
i1 = rg.av(p = vec3( 10,-5,0),l = 0)
i2 = rg.av(p = vec3( 10, 5,0),l = 0)
i3 = rg.av(p = vec3(-10, 5,0),l = 0)
i4 = rg.av(p = vec3(-10,-5,0),l = 0)
r1 = rg.ae(i1,i2)
r2 = rg.ae(i2,i3)
r3 = rg.ae(i3,i4)
r4 = rg.ae(i4,i1)
i5 = rg.av(p = vec3(2,-10,0),l = 0)
r5,r6 = rg.se(i1,i4,i5)
i6 = rg.av(p = vec3(-2,10,0),l = 0)
r7,r8 = rg.se(i2,i3,i6)
r9 = rg.ae(i5,i6)
loops = rg.uloops('ccw')
#pl()
self.assertEqual(len(loops),3)
i7,r10 = rg.mev(i1,{'p':vec3(12,-20,0),'l':0},{})
loops = rg.uloops('ccw')
#pl()
self.assertEqual(len(loops),3)
def test_orings(self):
wg = pgr.wiregraph()
i1 = wg.av()
i2 = wg.av()
i3 = wg.av()
i4 = wg.av()
r1 = wg.ae(i1,i2)
r2 = wg.ae(i1,i3)
r3 = wg.ae(i1,i4)
self.assertEqual(wg.orings[0],[1,2,3])
def test_avrvaerese(self):
wg = pgr.wiregraph()
i1 = wg.av(**{})
i2 = wg.av(**{})
i3 = wg.av(**{})
i4 = wg.av(**{})
r1 = wg.ae(i1,i2)
r2 = wg.ae(i2,i3)
r3 = wg.ae(i3,i4)
r4 = wg.ae(i4,i1)
r2 = wg.re(i2,i3)
i5 = wg.av(**{})
r5,r6 = wg.se(i1,i4,i5)
i1 = wg.rv(i1)
def test_loop(self):
def pl(il):
ilp = [rg.vs[j][1]['p'] for j in il]
ilp = pym.contract(ilp,2.0)
ax = rg.plot()
ax = dtl.plot_polygon(ilp,ax,col = 'b',lw = 4)
plt.show()
rg = pgr.wiregraph()
#import dilap.topology.planargraph as pgr
#rg = pgr.planargraph()
i1 = rg.av(p = vec3( 10,-5,0),l = 0)
i2 = rg.av(p = vec3( 10, 5,0),l = 0)
i3 = rg.av(p = vec3(-10, 5,0),l = 0)
i4 = rg.av(p = vec3(-10,-5,0),l = 0)
r1 = rg.ae(i1,i2)
r2 = rg.ae(i2,i3)
r3 = rg.ae(i3,i4)
r4 = rg.ae(i4,i1)
i5 = rg.av(p = vec3(2,-10,0),l = 0)
r5,r6 = rg.se(i1,i4,i5)
i6 = rg.av(p = vec3(-2,10,0),l = 0)
r7,r8 = rg.se(i2,i3,i6)
r9 = rg.ae(i5,i6)
il = rg.loop(i5,i6,'cw')
self.assertEqual(il,[i5,i6,i2,i1])
#pl(il)
il = rg.loop(i5,i6,'ccw')
self.assertEqual(il,[i5,i6,i3,i4])
#pl(il)
il = rg.loop(i5,i1,'cw')
self.assertEqual(il,[i5,i1,i2,i6,i3,i4])
#pl(il)
il = rg.loop(i5,i1,'ccw')
self.assertEqual(il,[i5,i1,i2,i6])
#pl(il)
il = rg.loop(i1,i5,'cw')
self.assertEqual(il,[i1,i5,i6,i2])
#pl(il)
i7,r10 = rg.mev(i1,{'p':vec3(12,-20,0),'l':0},{})
il = rg.loop(i5,i6,'cw')
self.assertEqual(il,[i5,i6,i2,i1])
#pl(il)
il = rg.loop(i5,i6,'ccw')
self.assertEqual(il,[i5,i6,i3,i4])
#pl(il)
il = rg.loop(i7,i1,'cw')
self.assertEqual(il,[i7,i1,i2,i6,i3,i4,i5,i1])
#pl(il)
il = rg.loop(i7,i1,'ccw')
self.assertEqual(il,[i7,i1,i5,i4,i3,i6,i2,i1])
#pl(il)
i8,r11 = rg.mev(i3,{'p':vec3(-5,0,0),'l':0},{})
il = rg.loop(i3,i4,'ccw')
self.assertEqual(il,[i3,i4,i5,i6,i3,i8])
#pl(il)
il = rg.loop(i3,i4,'cw')
self.assertEqual(il,[i3,i4,i5,i1,i7,i1,i2,i6])
def test_mev(self):
wg = pgr.wiregraph()
i1 = wg.av(**{})
i2,r1 = wg.mev(i1,{},{})
i3,r2 = wg.mev(i2,{},{})