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8310dd9304b276731347918bce2ad2fd0e0f6673
lab_scatter/transform.py
ilmabura 8310dd9304 checkpooint 3: completed scatterplot 
I think i am used to bottom-up problem solving. I like doing problems by first utilizing the knowledge I
already have and expanding it. Top-down thinking, like we did in checkpoint 1 may sometimes make it difficult to
proceed once you get stuck in a step. For bottom up, you can move onto a different part which you already know.
2025-10-06 22:49:27 -04:00

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# transform.py
# ------------
# By MWC Contributors
# The functions in this module transform data.
# None of them are finished; this is your job!
def maximum(data):
"Returns the largest number in data"
max= None
for n in data:
if max is None:
max = n
if n > max:
max = n
return max
def minimum(data):
"Returns the smallest number in data"
min= None
for n in data:
if min is None:
min = n
if n < min:
min = n
return min
def bounds(data):
"Returns a list of the smallest and largest numbers in data"
bounds=[]
bounds.append(minimum(data))
bounds.append(maximum(data))
return bounds
def clamp(value, low, high):
"""Clamps a value to a range from low to high.
Returns value if it is between low and high.
If value is lower than low, returns low. If value is higher than high, returns high.
"""
val= None
if value > low and value < high:
val= value
if value <= low:
val = low
if value >= high:
val= high
return val
def ratio(value, start, end):
"""Returns a number from 0.0 to 1.0, representing how far along value is from start to end.
The return value is clamped to [0, 1], so even if value is lower than start, the return
value will not be lower than 0.0.
"""
ratio= (value-start)/(end-start)
return clamp(ratio, 0, 1)
def scale(value, domain_min, domain_max, range_min, range_max):
"Given a value within a domain, returns the scaled equivalent within range."
r= ratio(value,domain_min, domain_max)
scale= range_min+r*(range_max-range_min)
return scale
def get_x_values(points):
"Returns the first value for each point in points."
xs=[]
for point in points:
xs.append(point[0])
return xs
def get_y_values(points):
"Returns the second value for each point in points."
ys=[]
for point in points:
ys.append(point[1])
return ys
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