From 9b7af12c8ec7c20bb073541fa0f6d2f4b2303790 Mon Sep 17 00:00:00 2001
From: Gideon Regehr <2023558@stud.hs-mannheim.de>
Date: Tue, 9 May 2023 11:47:12 +0200
Subject: [PATCH] Kleine Anpassungen

---
 Tets_Python/StartUpTest.py | 174 ++++++++++++++++++-------------------
 1 file changed, 86 insertions(+), 88 deletions(-)

diff --git a/Tets_Python/StartUpTest.py b/Tets_Python/StartUpTest.py
index e1b3958..6151e8a 100644
--- a/Tets_Python/StartUpTest.py
+++ b/Tets_Python/StartUpTest.py
@@ -1,88 +1,86 @@
-from math import fabs as fabs
-from math import sqrt as sqrt
-from scipy.special import erfc as erfc
-
-
-class StartUPTest:
-
-    @staticmethod
-    def monobit_test(binary_data: str):
-
-        length_of_bit_string = len(binary_data)
-
-        # Variable for S(n)
-        count = 0
-        # Iterate each bit in the string and compute for S(n)
-        for bit in binary_data:
-            if bit == 48:
-                # If bit is 0, then -1 from the S(n)
-                count -= 1
-            elif bit == 49:
-                # If bit is 1, then +1 to the S(n)
-                count += 1
-
-        # Compute the test statistic
-        sObs = count / sqrt(length_of_bit_string)
-
-        # Compute p-Value
-        p_value = erfc(fabs(sObs) / sqrt(2))
-
-        # return a p_value and randomness result
-        return (p_value, (p_value >= 0.01))
-
-    @staticmethod
-    def test5(binary_data: str):
-
-        ShiftFeld = [0] * 5000
-        MaxKorrFeld = [0] * 5000
-
-        # Fill BitFeldB with data
-
-        for tau in range(1, 5001):
-            Z_tau = 0
-            for i in range(5000):
-                Z_tau += binary_data[i] ^ binary_data[i + tau]
-            ShiftFeld[tau - 1] = Z_tau
-
-        #Debugging
-        #for i in range(5000):
-        #    print(ShiftFeld[i], end=' ')
-
-        # Find the index of the maximum deviation from 2500
-        max_deviation = 0
-        for tau in range(5000):
-            deviation = abs(ShiftFeld[tau] - 2500)
-            if deviation > max_deviation:
-                max_deviation = deviation
-
-        # Find all indices with the maximum deviation
-        j = 0
-        for tau in range(5000):
-            deviation = abs(ShiftFeld[tau] - 2500)
-            if deviation == max_deviation:
-                MaxKorrFeld[j] = tau
-                j += 1
-
-        print("Maximale Z_tau-Abweichung von 2500:", max_deviation)
-        print("Aufgetreten für Shifts:")
-        for k in range(j):
-            print("Shift:", MaxKorrFeld[k] + 1)
-
-        tau = MaxKorrFeld[0]
-        Z_tau = 0
-        for i in range(10000, 15000):
-            Z_tau += StartUPTest.charToInt(i, binary_data) ^ StartUPTest.charToInt(i + tau + 1, binary_data)
-        tau += 1
-
-        ok = Z_tau > 2326 and Z_tau < 2674
-        return (Z_tau, ok)
-
-    @staticmethod
-    def charToInt(index, binary_data: str):
-        value = 0
-        if binary_data[index] == 49:
-            value = 1
-        else:
-            value = 0
-        return value
-
+from math import fabs as fabs
+from math import sqrt as sqrt
+from scipy.special import erfc as erfc
+
+
+class StartUPTest:
+
+    @staticmethod
+    def monobit_test(binary_data: str):
+
+        length_of_bit_string = len(binary_data)
+
+        # Variable for S(n)
+        count = 0
+        # Iterate each bit in the string and compute for S(n)
+        for bit in binary_data:
+            if bit == 48:
+                # If bit is 0, then -1 from the S(n)
+                count -= 1
+            elif bit == 49:
+                # If bit is 1, then +1 to the S(n)
+                count += 1
+
+        # Compute the test statistic
+        sObs = count / sqrt(length_of_bit_string)
+
+        # Compute p-Value
+        p_value = erfc(fabs(sObs) / sqrt(2))
+
+        # return a p_value and randomness result
+        return p_value, (p_value >= 0.01)
+
+    @staticmethod
+    def autocorrelation_test(binary_data: str):
+
+        shift_feld = [0] * 5000
+        max_korr_feld = [0] * 5000
+
+        # Fill BitFeldB with data
+
+        for tau in range(1, 5001):
+            z_tau = 0
+            for i in range(5000):
+                z_tau += binary_data[i] ^ binary_data[i + tau]
+            shift_feld[tau - 1] = z_tau
+
+        # Debugging
+        # for i in range(5000):
+        #    print(shift_feld[i], end=' ')
+
+        # Find the index of the maximum deviation from 2500
+        max_deviation = 0
+        for tau in range(5000):
+            deviation = abs(shift_feld[tau] - 2500)
+            if deviation > max_deviation:
+                max_deviation = deviation
+
+        # Find all indices with the maximum deviation
+        j = 0
+        for tau in range(5000):
+            deviation = abs(shift_feld[tau] - 2500)
+            if deviation == max_deviation:
+                max_korr_feld[j] = tau
+                j += 1
+
+        print("Maximale z_tau-Abweichung von 2500:", max_deviation)
+        print("Aufgetreten für Shifts:")
+        for k in range(j):
+            print("Shift:", max_korr_feld[k] + 1)
+
+        tau = max_korr_feld[0]
+        z_tau = 0
+        for i in range(10000, 15000):
+            z_tau += StartUPTest.char_to_int(i, binary_data) ^ StartUPTest.char_to_int(i + tau + 1, binary_data)
+        tau += 1
+
+        ok = 2326 < z_tau < 2674
+        return z_tau, ok
+
+    @staticmethod
+    def char_to_int(index, binary_data: str):
+        if binary_data[index] == 49:
+            value = 1
+        else:
+            value = 0
+        return value