generated from mwc/lab_scatter
Checkpoint 2
Writingthe code for this wasn't terribly difficult once I figured out what i needed to do. I didn't quite understand the purpose of each function in the context of the overall program, which made the scale function difficult to write at first. When I did get stuck I used the already existing code as well as the examples in the lab to help me figure out what I needed to write.
This commit is contained in:
Thomas Naber
parent
8e57a173bb
commit
f6cfe7235a
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@ -342,13 +342,13 @@ files = [
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[[package]]
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name = "sphinx"
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version = "7.1.1"
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version = "7.1.2"
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description = "Python documentation generator"
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optional = false
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python-versions = ">=3.8"
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files = [
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{file = "sphinx-7.1.1-py3-none-any.whl", hash = "sha256:4e6c5ea477afa0fb90815210fd1312012e1d7542589ab251ac9b53b7c0751bce"},
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{file = "sphinx-7.1.1.tar.gz", hash = "sha256:59b8e391f0768a96cd233e8300fe7f0a8dc2f64f83dc2a54336a9a84f428ff4e"},
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{file = "sphinx-7.1.2-py3-none-any.whl", hash = "sha256:d170a81825b2fcacb6dfd5a0d7f578a053e45d3f2b153fecc948c37344eb4cbe"},
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{file = "sphinx-7.1.2.tar.gz", hash = "sha256:780f4d32f1d7d1126576e0e5ecc19dc32ab76cd24e950228dcf7b1f6d3d9e22f"},
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]
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[package.dependencies]
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@ -21,14 +21,14 @@ test(minimum, [[0, 1, 2, 3]], 0)
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test(minimum, [[-10, -20, -30]], -30)
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test(bounds, [[0, 1, 2, 3]], [0, 3])
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test(bounds, [[-10, -20, -30]], [-30, -10])
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test(clamp, [[10, 0, 100]], 10)
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test(clamp, [[-10, 0, 100]], 0)
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test(clamp, [[104, 0, 100]], 100)
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test(ratio, [[5, 0, 10]], 0.5)
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test(ratio, [[167, 100, 200]], 0.67)
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test(ratio, [[8, 10, 0]], 0.2)
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test(ratio, [[4, 10, 20]], 0.0)
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test(scale, [[4, 0, 10, 0, 100]], 40)
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test(scale, [[180, 120, 240, 0, 100]], 50)
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test(clamp, [10, 0, 100], 10)
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test(clamp, [-10, 0, 100], 0)
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test(clamp, [104, 0, 100], 100)
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test(ratio, [5, 0, 10], 0.5)
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test(ratio, [167, 100, 200], 0.67)
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test(ratio, [8, 10, 0], 0.2)
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test(ratio, [4, 10, 20], 0.0)
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test(scale, [4, 0, 10, 0, 100], 40)
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test(scale, [180, 120, 240, 0, 100], 50)
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test(get_x_values, [[[0, 5], [1, 5], [2, 5]]], [0, 1, 2])
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test(get_y_values, [[[0, 5], [1, 5], [2, 5]]], [5, 5, 5])
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51
transform.py
51
transform.py
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@ -6,38 +6,67 @@
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def maximum(data):
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"Returns the largest number in data"
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raise NotImplementedError
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highest = None
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for number in data:
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if highest is None:
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highest = number
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if number > highest:
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highest = number
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return highest
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def minimum(data):
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"Returns the smallest number in data"
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raise NotImplementedError
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lowest = None
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for number in data:
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if lowest is None:
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lowest = number
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if number < lowest:
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lowest = number
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return lowest
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def bounds(data):
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"Returns a list of the smallest and largest numbers in data"
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raise NotImplementedError
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min = minimum(data)
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max = maximum(data)
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bounds = [min, max]
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return bounds
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def clamp(value, low, high):
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"""Clamps a value to a range from low to high.
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Returns value if it is between low and high.
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If value is lower than low, returns low. If value is higher than high, returns high.
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"""
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raise NotImplementedError
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if value < low:
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return low
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elif value > high:
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return high
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else:
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return value
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def ratio(value, start, end):
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"""Returns a number from 0.0 to 1.0, representing how far along value is from start to end.
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The return value is clamped to [0, 1], so even if value is lower than start, the return
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value will not be lower than 0.0.
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"""Returns a number from 0.0 to 1.0, representing how far along value is
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from start to end.The return value is clamped to [0, 1], so even if value
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is lower than start, the return value will not be lower than 0.0.
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"""
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raise NotImplementedError
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number = ((value - start)/(end - start))
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number = clamp(number, 0.0, 1.0)
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return number
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def scale(value, domain_min, domain_max, range_min, range_max):
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"Given a value within a domain, returns the scaled equivalent within range."
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raise NotImplementedError
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r = ratio(value, domain_min, domain_max)
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return range_min + r*(range_max - range_min)
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def get_x_values(points):
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"Returns the first value for each point in points."
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raise NotImplementedError
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x_list = []
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for data in points:
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x_list.append(data[0])
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return x_list
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def get_y_values(points):
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"Returns the second value for each point in points."
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raise NotImplementedError
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y_list = []
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for data in points:
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y_list.append(data[1])
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return y_list
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