Lib/lib-stdwin/rect.py - platform/external/python/cpython3 - Gitiles

 # Module 'rect'.
 #
 # Operations on rectangles.
 # There is some normalization: all results return the object 'empty'
 # if their result would contain no points.


 # Exception.
 #
 error = 'rect.error'


 # The empty rectangle.
 #
 empty = (0, 0), (0, 0)


 # Check if a rectangle is empty.
 #
 def is_empty(r):
 	(left, top), (right, bottom) = r
 	return left >= right or top >= bottom


 # Compute the intersection or two or more rectangles.
 # This works with a list or tuple argument.
 #
 def intersect(list):
 	if not list: raise error, 'intersect called with empty list'
 	if is_empty(list[0]): return empty
 	(left, top), (right, bottom) = list[0]
 	for rect in list[1:]:
 		if is_empty(rect):
 			return empty
 		(l, t), (r, b) = rect
 		if left < l: left = l
 		if top < t: top = t
 		if right > r: right = r
 		if bottom > b: bottom = b
 		if is_empty(((left, top), (right, bottom))):
 			return empty
 	return (left, top), (right, bottom)


 # Compute the smallest rectangle containing all given rectangles.
 # This works with a list or tuple argument.
 #
 def union(list):
 	(left, top), (right, bottom) = list[0]
 	for (l, t), (r, b) in list[1:]:
 		if not is_empty(((l, t), (r, b))):
 			if l < left: left = l
 			if t < top: top = t
 			if r > right: right = r
 			if b > bottom: bottom = b
 	res = (left, top), (right, bottom)
 	if is_empty(res):
 		return empty
 	return res


 # Check if a point is in a rectangle.
 #
 def pointinrect((h, v), ((left, top), (right, bottom))):
 	return left <= h < right and top <= v < bottom


 # Return a rectangle that is dh, dv inside another
 #
 def inset(((left, top), (right, bottom)), (dh, dv)):
 	left = left + dh
 	top = top + dv
 	right = right - dh
 	bottom = bottom - dv
 	r = (left, top), (right, bottom)
 	if is_empty(r):
 		return empty
 	else:
 		return r


 # Conversions between rectangles and 'geometry tuples',
 # given as origin (h, v) and dimensions (width, height).
 #
 def rect2geom((left, top), (right, bottom)):
 	return (left, top), (right-left, bottom-top)

 def geom2rect((h, v), (width, height)):
 	return (h, v), (h+width, v+height)
	# Module 'rect'.
	#
	# Operations on rectangles.
	# There is some normalization: all results return the object 'empty'
	# if their result would contain no points.


	# Exception.
	#
	error = 'rect.error'


	# The empty rectangle.
	#
	empty = (0, 0), (0, 0)


	# Check if a rectangle is empty.
	#
	def is_empty(r):
	(left, top), (right, bottom) = r
	return left >= right or top >= bottom


	# Compute the intersection or two or more rectangles.
	# This works with a list or tuple argument.
	#
	def intersect(list):
	if not list: raise error, 'intersect called with empty list'
	if is_empty(list[0]): return empty
	(left, top), (right, bottom) = list[0]
	for rect in list[1:]:
	if is_empty(rect):
	return empty
	(l, t), (r, b) = rect
	if left < l: left = l
	if top < t: top = t
	if right > r: right = r
	if bottom > b: bottom = b
	if is_empty(((left, top), (right, bottom))):
	return empty
	return (left, top), (right, bottom)


	# Compute the smallest rectangle containing all given rectangles.
	# This works with a list or tuple argument.
	#
	def union(list):
	(left, top), (right, bottom) = list[0]
	for (l, t), (r, b) in list[1:]:
	if not is_empty(((l, t), (r, b))):
	if l < left: left = l
	if t < top: top = t
	if r > right: right = r
	if b > bottom: bottom = b
	res = (left, top), (right, bottom)
	if is_empty(res):
	return empty
	return res


	# Check if a point is in a rectangle.
	#
	def pointinrect((h, v), ((left, top), (right, bottom))):
	return left <= h < right and top <= v < bottom


	# Return a rectangle that is dh, dv inside another
	#
	def inset(((left, top), (right, bottom)), (dh, dv)):
	left = left + dh
	top = top + dv
	right = right - dh
	bottom = bottom - dv
	r = (left, top), (right, bottom)
	if is_empty(r):
	return empty
	else:
	return r


	# Conversions between rectangles and 'geometry tuples',
	# given as origin (h, v) and dimensions (width, height).
	#
	def rect2geom((left, top), (right, bottom)):
	return (left, top), (right-left, bottom-top)

	def geom2rect((h, v), (width, height)):
	return (h, v), (h+width, v+height)