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lab_scatter
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Again, following along with the live coding video was helpful. I did have some issue with the superturtle, it causes an error when testing the lab.

This commit is contained in:
R Marshall Hall 2023-08-18 10:51:12 -04:00
parent d975649087
commit 6ad74aa751
2 changed files with 33 additions and 7 deletions
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15
scatterplot.py
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@ -4,7 +4,6 @@
# Uses lots of helper functions in other modules to draw a scatter plot. # Uses lots of helper functions in other modules to draw a scatter plot.
from turtle import * from turtle import *
from superturtle.movement import no_delay
import constants import constants
from generate_data import generate_data from generate_data import generate_data
from ticks import get_tick_values from ticks import get_tick_values
@ -35,6 +34,20 @@ def draw_scatterplot(data, size=5, color="black"):
def draw_axes(data): def draw_axes(data):
"Draws the scatter plot's axes." "Draws the scatter plot's axes."
draw_x_axis()
x_values = get_x_values(data)
xmin, xmax = bounds(x_values)
ticks = get_tick_values(xmin, xmax)
for tick in ticks:
screen_x_position = scale(tick, xmin, xmax, 0, constants. PLOT_WIDTH)
draw_x_tick(screen_x_position, tick)
draw_y_axis
y_values = get_y_values(data)
ymin, ymax = bounds(y_values)
ticks = get_tick_values(ymin, ymax)
for tick in ticks:
screen_y_position = scale(tick, ymin, ymax, 0, constants. PLOT_HEIGHT)
draw_y_tick(screen_y_position, tick)
def draw_points(data, color, size): def draw_points(data, color, size):
"Draws the scatter plot's points." "Draws the scatter plot's points."

25
transform.py
View File

@ -26,30 +26,43 @@ def minimum(data):
def bounds(data): def bounds(data):
"Returns a list of the smallest and largest numbers in data" "Returns a list of the smallest and largest numbers in data"
raise NotImplementedError return [minimum(data), maximum(data)]
def clamp(value, low, high): def clamp(value, low, high):
"""Clamps a value to a range from low to high. """Clamps a value to a range from low to high.
Returns value if it is between low and 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. If value is lower than low, returns low. If value is higher than high, returns high.
""" """
raise NotImplementedError if value < low:
return value
elif value > high:
return high
else:
return value
def ratio(value, start, end): def ratio(value, start, end):
"""Returns a number from 0.0 to 1.0, representing how far along value is from start to 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 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. value will not be lower than 0.0.
""" """
raise NotImplementedError unclamped_ratio = (value - start) / (end - start)
return clamp(unclamped_ratio, 0, 1)
def scale(value, domain_min, domain_max, range_min, range_max): def scale(value, domain_min, domain_max, range_min, range_max):
"Given a value within a domain, returns the scaled equivalent within range." "Given a value within a domain, returns the scaled equivalent within range."
raise NotImplementedError r = ratio(value, domain_min, domain_max)
return range_min + r * (range_max - range_min)
def get_x_values(points): def get_x_values(points):
"Returns the first value for each point in points." "Returns the first value for each point in points."
raise NotImplementedError x_values = []
for x, y in points:
x_values.append(x)
return x_values
def get_y_values(points): def get_y_values(points):
"Returns the second value for each point in points." "Returns the second value for each point in points."
raise NotImplementedError y_values = []
for x, y in points:
y_values.append(y)
return y_values