Define the function print_trophic_class_summary(tli3_values) that accepts a list of trophic level index values and prints a summary outlining the number of lakes in each trophic classification, in order from highest trophic classification to lowest. See the examples for the required format. Notes: Your function must print the summary, not return it. In each state line, the initial number should be formatted with width 3. (Hint: :3 will be helpful) All possible states must be included in the output, even states with zero lakes. The following list will be helpful: ['Hypertrophic', 'Supertrophic', 'Eutrophic', 'Mesotrophic', 'Oligotrophic', 'Microtrophic', 'Ultra-microtrophic'] You must include and use one of your number_in_trophic_class functions (take your pick!), plus your trophic_class function. Basically, you can start with your answer to Question 5 or 6 and add your print_trophic_class_summary function definition after your previous definitions. For example: Test Result tli3_list_0 = [1.1, 2.1, 5.1] print_trophic_class_summary(tli3_list_0) Summary for the 3 lakes: 0 lakes were Hypertrophic 1 lakes were Supertrophic 0 lakes were Eutrophic 0 lakes were Mesotrophic 1 lakes were Oligotrophic 1 lakes were Microtrophic 0 lakes were Ultra-microtrophic tli3_list_1 = [4.1061, 2.54561, 4.16276, 2.33801, 6.71792, 5.54457, 6.49795, 2.1, 1.2, 1.4, 0.9, 3.8, 3.0] print_trophic_class_summary(tli3_list_1) Summary for the 13 lakes: 2 lakes were Hypertrophic 1 lakes were Supertrophic 2 lakes were Eutrophic 2 lakes were Mesotrophic 3 lakes were Oligotrophic 2 lakes were Microtrophic 1 lakes were Ultra-microtrophic
Define the function print_trophic_class_summary(tli3_values) that accepts a list of trophic level index values and prints a summary outlining the number of lakes in each trophic classification, in order from highest trophic classification to lowest. See the examples for the required format. Notes: Your function must print the summary, not return it. In each state line, the initial number should be formatted with width 3. (Hint: :3 will be helpful) All possible states must be included in the output, even states with zero lakes. The following list will be helpful: ['Hypertrophic', 'Supertrophic', 'Eutrophic', 'Mesotrophic', 'Oligotrophic', 'Microtrophic', 'Ultra-microtrophic'] You must include and use one of your number_in_trophic_class functions (take your pick!), plus your trophic_class function. Basically, you can start with your answer to Question 5 or 6 and add your print_trophic_class_summary function definition after your previous definitions. For example: Test Result tli3_list_0 = [1.1, 2.1, 5.1] print_trophic_class_summary(tli3_list_0) Summary for the 3 lakes: 0 lakes were Hypertrophic 1 lakes were Supertrophic 0 lakes were Eutrophic 0 lakes were Mesotrophic 1 lakes were Oligotrophic 1 lakes were Microtrophic 0 lakes were Ultra-microtrophic tli3_list_1 = [4.1061, 2.54561, 4.16276, 2.33801, 6.71792, 5.54457, 6.49795, 2.1, 1.2, 1.4, 0.9, 3.8, 3.0] print_trophic_class_summary(tli3_list_1) Summary for the 13 lakes: 2 lakes were Hypertrophic 1 lakes were Supertrophic 2 lakes were Eutrophic 2 lakes were Mesotrophic 3 lakes were Oligotrophic 2 lakes were Microtrophic 1 lakes were Ultra-microtrophic
Database System Concepts
7th Edition
ISBN:9780078022159
Author:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan
Publisher:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan
Chapter1: Introduction
Section: Chapter Questions
Problem 1PE
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Question
Define the function print_trophic_class_summary(tli3_values) that accepts a list of trophic level index values and prints a summary outlining the number of lakes in each trophic classification, in order from highest trophic classification to lowest. See the examples for the required format.
Notes:
- Your function must print the summary, not return it.
- In each state line, the initial number should be formatted with width 3. (Hint: :3 will be helpful)
- All possible states must be included in the output, even states with zero lakes. The following list will be helpful:
- ['Hypertrophic',
'Supertrophic',
'Eutrophic',
'Mesotrophic',
'Oligotrophic',
'Microtrophic',
'Ultra-microtrophic']
- ['Hypertrophic',
- You must include and use one of your number_in_trophic_class functions (take your pick!), plus your trophic_class function. Basically, you can start with your answer to Question 5 or 6 and add your print_trophic_class_summary function definition after your previous definitions.
For example:
Test | Result |
---|---|
tli3_list_0 = [1.1, 2.1, 5.1] print_trophic_class_summary(tli3_list_0) | Summary for the 3 lakes: 0 lakes were Hypertrophic 1 lakes were Supertrophic 0 lakes were Eutrophic 0 lakes were Mesotrophic 1 lakes were Oligotrophic 1 lakes were Microtrophic 0 lakes were Ultra-microtrophic |
tli3_list_1 = [4.1061, 2.54561, 4.16276, 2.33801, 6.71792, 5.54457, 6.49795, 2.1, 1.2, 1.4, 0.9, 3.8, 3.0] print_trophic_class_summary(tli3_list_1) | Summary for the 13 lakes: 2 lakes were Hypertrophic 1 lakes were Supertrophic 2 lakes were Eutrophic 2 lakes were Mesotrophic 3 lakes were Oligotrophic 2 lakes were Microtrophic 1 lakes were Ultra-microtrophic |
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