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package main
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import (
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"github.com/01-edu/z01"
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solutions "../../solutions" // This line is not necessary when testing an exercise with a program
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)
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func main() {
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// Declaration of the node that is going to take the group of arguments that are going to
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// inputed during each iteration of a Challenge between the student and the staff solution.
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// (note: a node is not always necessary but in this case it makes the writing of the test easier)
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type node struct {
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first int
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}
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// Declaration of an empty array of type node{}
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// note that in this case this is the easiest type of table to declare
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// but a table can be of any other relevant type, (for example []string{}, []int{} if it
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// were a single string tested or a single int)
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table := []node{}
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// Initial filling of that array with the values I see in the examples of the subject
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table = append(table,
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node{50},
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node{13},
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node{10},
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node{0},
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node{1},
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node{2},
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)
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// If we were to leave the table as it is, a student could just do a program with 4 ifs and get
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// "around" the goal of the exercise. We are now going to add 15 random tests using the z01 testing library
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for i := 0; i < 15; i++ {
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value := node{
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first: z01.RandIntBetween(0, 1000),
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//this z01.RandIntBetween function allows the randomization of
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//the int for each value in a desired range.
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//Note that they are many others of those functions for other types of data
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//Do not hesitate to have a look at all of them https://github.com/01-edu/z01
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}
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//Once the random node created, this iteration is added to the earlier declared table
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//along with the 4 specific examples taken from the examples of the readme.
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table = append(table, value)
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}
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//The table with 4 specific exercises and 15 randoms is now ready to be "challenged"
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//Because the exercise asks for a function we are now using the Challenge function (this function would
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// be the ChallengeMainExam function)
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for _, arg := range table {
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z01.Challenge("Priorprime", Priorprime, solutions.Priorprime, arg.first)
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}
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// the z01.Challenge function is here applied to each argument of the table. It musts contains:
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// 1) first, the t argument from the T structure imported from the package "testing"
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//
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// 2) second, the function from the student, in this case Nauuo
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//(this disapears in the ChallengeMainExam function)
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// 3) third, the function from the staff, in this case solutions.Nauuo
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//(this disapears as well in the ChallengeMainExam function)
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// 4) all the arguments to be tested, in this case it is the plus, minus and rand from each structure,
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// notice that they are accessed with arg. (the arg notation comes from the way it was name in the
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// range loop over the table)
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// Now that this is done. re-read the quickReadme (the test your test recap) and apply all the commands
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// and intructions. We strongly advise to check that your error messages matches your subject.
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// and that you ask a colleague to double check.
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//FINAL STEP:
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// When both are satisfied with the coherence between the subject and its tests. The code can be commited
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// and redeployed by the team-01.
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// We then advised the staff team to test the new exercise invidually with their current build of the exam
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}
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