Merge pull request #299 from strikeraryu/master

Added complex quadratic generator
2025-11-28 06:25:23 +01:00 · 2020-10-21 21:43:17 -04:00
parent ab00d7eb01 866d31bb9e
commit b73c3ee15f
2 changed files with 74 additions and 0 deletions
--- a/mathgenerator/funcs/init.py
+++ b/mathgenerator/funcs/init.py
@@ -104,3 +104,4 @@ from .perimeter_of_polygons import *
 from .power_of_powers import *
 from .quotient_of_power_same_base import *
 from .quotient_of_power_same_power import *
+from .complex_quadratic import *
--- a/mathgenerator/funcs/complex_quadratic.py
+++ b/mathgenerator/funcs/complex_quadratic.py
@@ -0,0 +1,73 @@
+from .__init__ import *
+
+
+def complexQuadraticFunc(prob_type=0, max_range=10):
+    if prob_type < 0 or prob_type > 1:
+        print("prob_type not supported")
+        print("prob_type = 0 for real roots problems ")
+        print("prob_tpye = 1 for imaginary roots problems")
+        return None
+    if prob_type == 0:
+        d = -1
+        while d < 0:
+            a = random.randrange(1, max_range)
+            b = random.randrange(1, max_range)
+            c = random.randrange(1, max_range)
+
+            d = (b**2 - 4*a*c)
+    else:
+        d = 0
+        while d >= 0:
+            a = random.randrange(1, max_range)
+            b = random.randrange(1, max_range)
+            c = random.randrange(1, max_range)
+
+            d = (b**2 - 4*a*c)
+
+    eq = ''
+
+    if a == 1:
+        eq += 'x^2 + '
+    else:
+        eq += str(a) + 'x^2 + '
+
+    if b == 1:
+        eq += 'x + '
+    else:
+        eq += str(b) + 'x + '
+
+    eq += str(c) + ' = 0'
+
+    problem = f'Find the roots of given Quadratic Equation ' + eq
+
+    if d < 0:
+        roots = ''
+        sqrt_d = (-d)**0.5
+
+        if sqrt_d - int(sqrt_d) == 0:
+            sqrt_d = int(sqrt_d)
+            solution = f'(({-b} + {sqrt_d}i)/2*{a}, ({-b} - {sqrt_d}i)/2*{a})'
+        else:
+            solution = f'(({-b} + sqrt({-d})i)/2*{a}, ({-b} - sqrt({-d})i)/2*{a})'
+
+        return problem, solution
+
+    else:
+        s_root1 = round((-b + (d)**0.5)/(2*a), 3)
+        s_root2 = round((-b - (d)**0.5)/(2*a), 3)
+
+        sqrt_d = (d)**0.5
+
+        if sqrt_d - int(sqrt_d) == 0:
+            sqrt_d = int(sqrt_d)
+            g_sol = f'(({-b} + {sqrt_d})/2*{a}, ({-b} - {sqrt_d})/2*{a})'
+        else:
+            g_sol = f'(({-b} + sqrt({d}))/2*{a}, ({-b} - sqrt({d}))/2*{a})'
+
+        solution = f'simplified solution : ({s_root1, s_root2}), generalized solution : ' + g_sol
+
+        return problem, solution
+
+
+complex_quadratic = Generator("complex Quadratic Equation", 91, "Find the roots of given Quadratic Equation ",
+                              "simplified solution : (x1, x2), generalized solution : ((-b + sqrt(d))/2a, (-b - sqrt(d))/2a) or ((-b + sqrt(d)i)/2a, (-b - sqrt(d)i)/2a)", complexQuadraticFunc)