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dupeguru/hscommon/geometry.py

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2013-06-23 01:32:23 +00:00
# Created By: Virgil Dupras
# Created On: 2011-08-05
2014-02-01 21:18:00 +00:00
# Copyright 2014 Hardcoded Software (http://www.hardcoded.net)
2013-06-23 01:32:23 +00:00
#
# This software is licensed under the "BSD" License as described in the "LICENSE" file,
# which should be included with this package. The terms are also available at
# http://www.hardcoded.net/licenses/bsd_license
from sys import maxsize as INF
from math import sqrt
VERY_SMALL = 0.0000001
class Point:
def __init__(self, x, y):
self.x = x
self.y = y
def __repr__(self):
return '<Point {:2.2f}, {:2.2f}>'.format(*self)
def __iter__(self):
yield self.x
yield self.y
def distance_to(self, other):
return Line(self, other).length()
class Line:
def __init__(self, p1, p2):
self.p1 = p1
self.p2 = p2
def __repr__(self):
return '<Line {}, {}>'.format(*self)
def __iter__(self):
yield self.p1
yield self.p2
def dx(self):
return self.p2.x - self.p1.x
def dy(self):
return self.p2.y - self.p1.y
def length(self):
return sqrt(self.dx() ** 2 + self.dy() ** 2)
def slope(self):
if self.dx() == 0:
return INF if self.dy() > 0 else -INF
else:
return self.dy() / self.dx()
def intersection_point(self, other):
# with help from http://paulbourke.net/geometry/lineline2d/
if abs(self.slope() - other.slope()) < VERY_SMALL:
# parallel. Even if coincident, we return nothing
return None
A, B = self
C, D = other
denom = (D.y-C.y) * (B.x-A.x) - (D.x-C.x) * (B.y-A.y)
if denom == 0:
return None
numera = (D.x-C.x) * (A.y-C.y) - (D.y-C.y) * (A.x-C.x)
numerb = (B.x-A.x) * (A.y-C.y) - (B.y-A.y) * (A.x-C.x)
mua = numera / denom;
mub = numerb / denom;
if (0 <= mua <= 1) and (0 <= mub <= 1):
x = A.x + mua * (B.x - A.x)
y = A.y + mua * (B.y - A.y)
return Point(x, y)
else:
return None
class Rect:
def __init__(self, x, y, w, h):
self.x = x
self.y = y
self.w = w
self.h = h
def __iter__(self):
yield self.x
yield self.y
yield self.w
yield self.h
def __repr__(self):
return '<Rect {:2.2f}, {:2.2f}, {:2.2f}, {:2.2f}>'.format(*self)
@classmethod
def from_center(cls, center, width, height):
x = center.x - width / 2
y = center.y - height / 2
return cls(x, y, width, height)
@classmethod
def from_corners(cls, pt1, pt2):
x1, y1 = pt1
x2, y2 = pt2
return cls(min(x1, x2), min(y1, y2), abs(x1-x2), abs(y1-y2))
def center(self):
return Point(self.x + self.w/2, self.y + self.h/2)
def contains_point(self, point):
x, y = point
(x1, y1), (x2, y2) = self.corners()
return (x1 <= x <= x2) and (y1 <= y <= y2)
def contains_rect(self, rect):
pt1, pt2 = rect.corners()
return self.contains_point(pt1) and self.contains_point(pt2)
def corners(self):
return Point(self.x, self.y), Point(self.x+self.w, self.y+self.h)
def intersects(self, other):
r1pt1, r1pt2 = self.corners()
r2pt1, r2pt2 = other.corners()
if r1pt1.x < r2pt1.x:
xinter = r1pt2.x >= r2pt1.x
else:
xinter = r2pt2.x >= r1pt1.x
if not xinter:
return False
if r1pt1.y < r2pt1.y:
yinter = r1pt2.y >= r2pt1.y
else:
yinter = r2pt2.y >= r1pt1.y
return yinter
def lines(self):
pt1, pt4 = self.corners()
pt2 = Point(pt4.x, pt1.y)
pt3 = Point(pt1.x, pt4.y)
l1 = Line(pt1, pt2)
l2 = Line(pt2, pt4)
l3 = Line(pt3, pt4)
l4 = Line(pt1, pt3)
return l1, l2, l3, l4
def scaled_rect(self, dx, dy):
"""Returns a rect that has the same borders at self, but grown/shrunk by dx/dy on each side.
"""
x, y, w, h = self
x -= dx
y -= dy
w += dx * 2
h += dy * 2
return Rect(x, y, w, h)
def united(self, other):
"""Returns the bounding rectangle of this rectangle and `other`.
"""
# ul=upper left lr=lower right
ulcorner1, lrcorner1 = self.corners()
ulcorner2, lrcorner2 = other.corners()
corner1 = Point(min(ulcorner1.x, ulcorner2.x), min(ulcorner1.y, ulcorner2.y))
corner2 = Point(max(lrcorner1.x, lrcorner2.x), max(lrcorner1.y, lrcorner2.y))
return Rect.from_corners(corner1, corner2)
#--- Properties
@property
def top(self):
return self.y
@top.setter
def top(self, value):
self.y = value
@property
def bottom(self):
return self.y + self.h
@bottom.setter
def bottom(self, value):
self.y = value - self.h
@property
def left(self):
return self.x
@left.setter
def left(self, value):
self.x = value
@property
def right(self):
return self.x + self.w
@right.setter
def right(self, value):
self.x = value - self.w
@property
def width(self):
return self.w
@width.setter
def width(self, value):
self.w = value
@property
def height(self):
return self.h
@height.setter
def height(self, value):
self.h = value