Fri 29 Nov 2024 04:30:50 PM CET

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sbosse 2024-11-29 16:31:57 +01:00
parent ec1438edac
commit f650c1c9dc

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src/SimNDT/core/packing.py Normal file
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import math
from math import pi
import numpy as np
class Ellipse:
def __init__(self, x, y, a, b, theta):
self.x = x
self.y = y
self.a = a
self.b = b
self.theta = theta
self.rect = self.getRect()
def area(self):
return pi * self.a * self.b
def getRect(self):
t = np.linspace(0,2*pi,20, endpoint=True)
x = self.x + self.a * np.cos(t)
y = self.y + self.b * np.sin(t)
xmin = np.min(x)
xmax = np.max(x)
ymin = np.min(y)
ymax = np.max(y)
w = xmax-xmin
h = ymax-ymin
x0 = (xmax+xmin)/2
y0 = (ymax+ymin)/2
return Rect(x0,y0,w,h)
def intersect2(self, b):
return ( (np.abs(self.rect.x - b.rect.x) * 2.0 < (self.rect.w + b.rect.w) ) and
(np.abs(self.rect.y - b.rect.y) * 2.0 < (self.rect.h + b.rect.h)) )
def intersect(self, ellipse):
c = np.sqrt(self.a**2 - self.b**2)
cost = c * np.cos(self.theta)
sint = c * np.sin(self.theta)
d1 = (ellipse.x - self.x - cost)**2 + (ellipse.y - self.y - sint)**2
d1 = np.sqrt(d1)
d2 = (ellipse.x - self.x + cost)**2 + (ellipse.y - self.y + sint)**2
d2 = np.sqrt(d2)
d = np.sqrt( (self.x-ellipse.x)**2 + (self.y-ellipse.y)**2 )
if self.a >= 8*ellipse.a:
Mb = 0.15*self.a + ellipse.a
elif ellipse.a >= 8*self.a:
Mb = self.a + 0.15*ellipse.a
else:
Mb = self.a + ellipse.a
if (d1+d2 <= Mb) or (d <= Mb):
return True
return False
class Circle:
def __init__(self, x, y, r):
self.x = x
self.y = y
self.r = r
def __str__(self):
return '<{0},{1}:{2}>'.format(self.x, self.y, self.r)
def area(self):
return pi * self.r**2
def distance(self, x, y):
return math.sqrt((self.x - x)**2 + (self.y - y)**2)
def collide(self, x, y):
return (self.distance(x, y) <= self.r)
def intersect(self, circ):
if (self.distance(circ.x, circ.y) <= self.r + circ.r):
return True
else:
return False
def getRect(self):
return Rect(self.x - self.r, self.y - self.r, 2 * self.r, 2 * self.r)
class Rect:
def __init__(self, x, y, w, h):
self.x = x
self.y = y
self.w = w
self.h = h
def collide(self, x, y):
return ((self.x <= x <= self.x + self.w) and
(self.y <= y <= self.y + self.h))
def intersect(self, rect):
return ((self.x < rect.x + rect.w) and (rect.x < self.x + self.w) and
(self.y < rect.y + rect.h) and (rect.y < self.y + self.h))
def __str__(self):
return '<{0},{1};{2},{3}>'.format(self.x, self.y, self.w, self.h)
class Quadtree:
def __init__(self, depth, rect):
self.rect = rect
self.depth = depth
self.ne = None
self.se = None
self.sw = None
self.nw = None
self.objs = list()
if (depth > 1):
w = self.rect.w / 2
h = self.rect.h / 2
x = self.rect.x + w
y = self.rect.y
self.ne = Quadtree(depth-1, Rect(x, y, w, h))
w = self.rect.w / 2
h = self.rect.h / 2
x = self.rect.x + w
y = self.rect.y + h
self.se = Quadtree(depth-1, Rect(x, y, w, h))
w = self.rect.w / 2
h = self.rect.h / 2
x = self.rect.x
y = self.rect.y + h
self.sw = Quadtree(depth-1, Rect(x, y, w, h))
w = self.rect.w / 2
h = self.rect.h / 2
x = self.rect.x
y = self.rect.y
self.nw = Quadtree(depth-1, Rect(x, y, w, h))
def insert(self, obj):
if (not self.rect.intersect(obj.getRect())):
return
if (self.depth == 1):
self.objs.append(obj)
else:
self.ne.insert(obj)
self.se.insert(obj)
self.sw.insert(obj)
self.nw.insert(obj)
def query(self, obj):
inRange = list()
if (not self.rect.intersect(obj.getRect())):
return inRange
if (self.depth == 1):
for o in self.objs:
if (obj.intersect(o)):
inRange.append(o)
else:
inRange.extend(self.ne.query(obj))
inRange.extend(self.se.query(obj))
inRange.extend(self.sw.query(obj))
inRange.extend(self.nw.query(obj))
return inRange
def ellipseMatrix(x0, y0, a, b, theta, Image, Color, XX, YY):
a2 = a**2
b2 = b**2
cost = np.cos(theta)
sint = np.sin(theta)
Ellipse = ( ( ( (XX-x0)*cost+(YY-y0)*sint )**2 )/(a2) +
( ( (XX-x0)*sint-(YY-y0)*cost )**2 )/(b2) )
#Img = (Ellipse < 1.0)
#indx,indy = np.nonzero(Img == 1)
#Image[indx,indy] = Color
Image[Ellipse < 1.0] = Color
return Image
def circleMatrix(x0, y0, a, Image, Color, XX, YY):
a2 = a**2
Ellipse = (XX-x0)**2 + (YY-y0)**2
Image[Ellipse < a2] = Color
return Image
def ellipseDiscard(x0, y0, a, b, theta, XX, YY, coords, mask, value):
XXX = XX[::1,::1]
YYY = YY[::1,::1]
Ellipse = ( ( ( (XXX-x0)*np.cos(theta)+(YYY-y0)*np.sin(theta) )**2 )/(a**2) +
( ( (XXX-x0)*np.sin(theta)-(YYY-y0)*np.cos(theta) )**2 )/(b**2) )
Img = np.argwhere(Ellipse <= 1.0)
for ind in Img:
coords.discard((ind[0],ind[1]))
mask[ind[0],ind[1]] = value