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-rw-r--r--universe/data_structures_and_algorithms/rectangular-love.py246
1 files changed, 246 insertions, 0 deletions
diff --git a/universe/data_structures_and_algorithms/rectangular-love.py b/universe/data_structures_and_algorithms/rectangular-love.py
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+++ b/universe/data_structures_and_algorithms/rectangular-love.py
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+import unittest
+
+
+################################################################################
+# Solution
+################################################################################
+# bottom :: Rectangle -> Int
+def bottom(x):
+    return x.get('bottom_y')
+
+
+# top :: Rectangle -> Int
+def top(x):
+    return bottom(x) + x.get('height')
+
+
+# left :: Rectangle -> Int
+def left(x):
+    return x.get('left_x')
+
+
+# right :: Rectangle -> Int
+def right(x):
+    return left(x) + x.get('width')
+
+
+# sort_highest :: Rectangle -> Rectangle -> (Rectangle, Rectangle)
+def sort_highest(x, y):
+    if top(x) >= top(y):
+        return x, y
+    else:
+        return y, x
+
+
+# sort_leftmost :: Rectangle -> Rectangle -> (Rectangle, Rectangle)
+def sort_leftmost(x, y):
+    if left(x) <= left(y):
+        return x, y
+    else:
+        return y, x
+
+
+# rectify :: Int -> Int -> Int -> Int -> Rectify
+def rectify(top=None, bottom=None, left=None, right=None):
+    assert top >= bottom
+    assert left <= right
+    return {
+        'left_x': left,
+        'bottom_y': bottom,
+        'width': right - left,
+        'height': top - bottom,
+    }
+
+
+# empty_rect :: Rectangle
+def empty_rect():
+    return {
+        'left_x': None,
+        'bottom_y': None,
+        'width': None,
+        'height': None,
+    }
+
+
+# find_rectangular_overlap :: Rectangle -> Rectangle -> Maybe(Rectangle)
+def find_rectangular_overlap(x, y):
+    ha, hb = sort_highest(x, y)
+    la, lb = sort_leftmost(x, y)
+
+    if bottom(hb) <= top(hb) <= bottom(ha) <= top(ha):
+        return empty_rect()
+
+    if left(la) <= right(la) <= left(lb) <= right(lb):
+        return empty_rect()
+
+    # We should have an intersection here.
+    verts = [bottom(ha), top(ha), bottom(hb), top(hb)]
+    verts.sort()
+    horzs = [left(la), right(la), left(lb), right(lb)]
+    horzs.sort()
+    return rectify(top=verts[2],
+                   bottom=verts[1],
+                   left=horzs[1],
+                   right=horzs[2])
+
+
+################################################################################
+# Tests
+################################################################################
+class Test(unittest.TestCase):
+    def test_overlap_along_both_axes(self):
+        rect1 = {
+            'left_x': 1,
+            'bottom_y': 1,
+            'width': 6,
+            'height': 3,
+        }
+        rect2 = {
+            'left_x': 5,
+            'bottom_y': 2,
+            'width': 3,
+            'height': 6,
+        }
+        expected = {
+            'left_x': 5,
+            'bottom_y': 2,
+            'width': 2,
+            'height': 2,
+        }
+        actual = find_rectangular_overlap(rect1, rect2)
+        self.assertEqual(actual, expected)
+
+    def test_one_rectangle_inside_another(self):
+        rect1 = {
+            'left_x': 1,
+            'bottom_y': 1,
+            'width': 6,
+            'height': 6,
+        }
+        rect2 = {
+            'left_x': 3,
+            'bottom_y': 3,
+            'width': 2,
+            'height': 2,
+        }
+        expected = {
+            'left_x': 3,
+            'bottom_y': 3,
+            'width': 2,
+            'height': 2,
+        }
+        actual = find_rectangular_overlap(rect1, rect2)
+        self.assertEqual(actual, expected)
+
+    def test_both_rectangles_the_same(self):
+        rect1 = {
+            'left_x': 2,
+            'bottom_y': 2,
+            'width': 4,
+            'height': 4,
+        }
+        rect2 = {
+            'left_x': 2,
+            'bottom_y': 2,
+            'width': 4,
+            'height': 4,
+        }
+        expected = {
+            'left_x': 2,
+            'bottom_y': 2,
+            'width': 4,
+            'height': 4,
+        }
+        actual = find_rectangular_overlap(rect1, rect2)
+        self.assertEqual(actual, expected)
+
+    def test_touch_on_horizontal_edge(self):
+        rect1 = {
+            'left_x': 1,
+            'bottom_y': 2,
+            'width': 3,
+            'height': 4,
+        }
+        rect2 = {
+            'left_x': 2,
+            'bottom_y': 6,
+            'width': 2,
+            'height': 2,
+        }
+        expected = {
+            'left_x': None,
+            'bottom_y': None,
+            'width': None,
+            'height': None,
+        }
+        actual = find_rectangular_overlap(rect1, rect2)
+        self.assertEqual(actual, expected)
+
+    def test_touch_on_vertical_edge(self):
+        rect1 = {
+            'left_x': 1,
+            'bottom_y': 2,
+            'width': 3,
+            'height': 4,
+        }
+        rect2 = {
+            'left_x': 4,
+            'bottom_y': 3,
+            'width': 2,
+            'height': 2,
+        }
+        expected = {
+            'left_x': None,
+            'bottom_y': None,
+            'width': None,
+            'height': None,
+        }
+        actual = find_rectangular_overlap(rect1, rect2)
+        self.assertEqual(actual, expected)
+
+    def test_touch_at_a_corner(self):
+        rect1 = {
+            'left_x': 1,
+            'bottom_y': 1,
+            'width': 2,
+            'height': 2,
+        }
+        rect2 = {
+            'left_x': 3,
+            'bottom_y': 3,
+            'width': 2,
+            'height': 2,
+        }
+        expected = {
+            'left_x': None,
+            'bottom_y': None,
+            'width': None,
+            'height': None,
+        }
+        actual = find_rectangular_overlap(rect1, rect2)
+        self.assertEqual(actual, expected)
+
+    def test_no_overlap(self):
+        rect1 = {
+            'left_x': 1,
+            'bottom_y': 1,
+            'width': 2,
+            'height': 2,
+        }
+        rect2 = {
+            'left_x': 4,
+            'bottom_y': 6,
+            'width': 3,
+            'height': 6,
+        }
+        expected = {
+            'left_x': None,
+            'bottom_y': None,
+            'width': None,
+            'height': None,
+        }
+        actual = find_rectangular_overlap(rect1, rect2)
+        self.assertEqual(actual, expected)
+
+
+unittest.main(verbosity=2)