diff --git a/GPT_PROJET/codeur_gpt.html b/GPT_PROJET/codeur_gpt.html
index 6aa2ed1b0f628e3fa50997f3c7b3fc0183022acc..afb1ef8fb727a736ec5f7f0a7e4948f29b114cae 100644
--- a/GPT_PROJET/codeur_gpt.html
+++ b/GPT_PROJET/codeur_gpt.html
@@ -9,7 +9,7 @@
Quelle fonction voulez-vous que je crée ?
<br>
<textarea rows = "5" cols = "60" name = "description">
-A function to solve a quadratic equation
+Résolution d'une équation du second degré
</textarea><br>
Avec combien de tests ?
<input type="number" id="test_quantity" name="test_quantity" value="5" min="1" max="5">
@@ -19,32 +19,17 @@ A function to solve a quadratic equation
<h2>Programme en langage Python</h2>
<form action="">
<textarea name="program" id="program" cols="70" rows="20">
-def quadratic_equation(a, b, c):
- """
- Solves a quadratic equation of the form ax^2 + bx + c = 0
- Parameters
- ----------
- a : float
- Coefficient of x^2
- b : float
- Coefficient of x
- c : float
- Constant term
- Returns
- -------
- x1 : float
- First solution
- x2 : float
- Second solution
- """
- # Compute the discriminant
- discriminant = (b**2) - (4*a*c)
-
- # Compute the two solutions
- x1 = (-b + discriminant**0.5) / (2*a)
- x2 = (-b - discriminant**0.5) / (2*a)
-
- return x1, x2
+#Fonction qui calcule les solutions d'une équation du second degré
+def equation_second_degre(a,b,c):
+ delta = b**2 - 4*a*c
+ if delta < 0:
+ return None
+ elif delta == 0:
+ return -b/(2*a)
+ else:
+ x1 = (-b + delta**0.5)/(2*a)
+ x2 = (-b - delta**0.5)/(2*a)
+ return x1,x2
</textarea><br>
<input type="submit" value="Compile et teste !" />
@@ -55,26 +40,20 @@ def quadratic_equation(a, b, c):
<h2>Voici cinq tests unitaires</h2>
<form action="">
<textarea name="tests" id="tests" cols="70" rows="20">
-import unittest
-
-class TestQuadraticEquation(unittest.TestCase):
- def test_quadratic_equation_1(self):
- self.assertEqual(quadratic_equation(1, 0, -4), (2+0j, -2+0j))
-
- def test_quadratic_equation_2(self):
- self.assertEqual(quadratic_equation(2, -3, 1), (1+0j, 0.5+0j))
+#Test unitaire 1
+assert equation_second_degre(1,2,1) == (-1.0,)
- def test_quadratic_equation_3(self):
- self.assertEqual(quadratic_equation(1, -2, -3), (3+0j, -1+0j))
+#Test unitaire 2
+assert equation_second_degre(1,2,-3) == (1.0, -3.0)
- def test_quadratic_equation_4(self):
- self.assertEqual(quadratic_equation(1, -4, 4), (2+0j, 2+0j))
+#Test unitaire 3
+assert equation_second_degre(1,0,1) == None
- def test_quadratic_equation_5(self):
- self.assertEqual(quadratic_equation(2, -7, 3), (3+0j, 0.5+0j))
+#Test unitaire 4
+assert equation_second_degre(1,-4,4) == (2.0,)
-if __name__ == '__main__':
- unittest.main()
+#Test unitaire 5
+assert equation_second_degre(2,3,1) == (-0.5, -1.0)
</textarea><br>
<input type="submit" value="Teste à nouveau !" />
</form>
diff --git a/GPT_PROJET/mini_projet.md b/GPT_PROJET/mini_projet.md
index d76a4a1ee1b04465bed0082be65fedec7af94881..a6ab3ccc32afcf601f32962a8f6102c7fdb702d9 100644
--- a/GPT_PROJET/mini_projet.md
+++ b/GPT_PROJET/mini_projet.md
@@ -12,6 +12,8 @@ Langage de développement : au choix
Framework Web : au choix
Dépôt GIT : https://gitlab.univ-lorraine.fr
+Peut-être qe que pour le framework, une bonne idée serait d'utiliser Laravel en partant du modèle de projet GitLab : https://gitlab.com/gitlab-org/project-templates/laravel
+
## Langages cibles
**Groupe 1** : Python / Prolog