Put DNa functions in DNA namespace

inc/values/Dna.hpp

@@ -53,8 +53,11 @@ struct Dna
   uint8_t colorSet;
   Branch branches[MAX_DEPTH];
 };
-void newDna(Dna *dna, uint128 *state);
+namespace DNA
-void makeChild(Dna *p1, Dna *p2, Dna *c, uint128 *state);
+{
-void clone(Dna *p1, Dna *c, uint128 *state);
+  void newDna(Dna *dna, uint128 *state);
-void mutate(Dna *dna, uint32_t num, uint128 *state);
+  void makeChild(Dna *p1, Dna *p2, Dna *c, uint128 *state);
+  void clone(Dna *p1, Dna *c, uint128 *state);
+  void mutate(Dna *dna, uint32_t num, uint128 *state);
+}
 #endif /* DNA_H */

inc/values/mrand.hpp

@@ -5,9 +5,7 @@ struct uint128;
 namespace mrand
 {
   void setSeed(unsigned long long seed);
-  // int getValue(int min, int max);
   float getFloat(uint128 *state);
-  // float getFloat();
   int getValue(int min, int max, uint128 *state);
   uint32_t getInt();
 }

src/values/Dna.cpp

@@ -6,18 +6,21 @@
 
 #include <raymath.h>
 
-void newDna(Dna *dna, uint128 *state)
+namespace DNA
 {
+
+  void newDna(Dna *dna, uint128 *state)
+  {
     uint8_t *array = (uint8_t *)dna;
     for (size_t i = 0; i < sizeof(Dna); i++)
     {
       array[i] = mrand::getValue(0, 255, state);
     }
     return;
-}
+  }
 
-void makeChild(Dna *p1, Dna *p2, Dna *c, uint128 *state)
+  void makeChild(Dna *p1, Dna *p2, Dna *c, uint128 *state)
-{
+  {
     uint8_t *p1a = (uint8_t *)p1;
     uint8_t *p2a = (uint8_t *)p2;
     uint8_t *ca = (uint8_t *)c;
@@ -33,10 +36,10 @@ void makeChild(Dna *p1, Dna *p2, Dna *c, uint128 *state)
         ca[i] = p2a[i];
       }
     }
-}
+  }
 
-void clone(Dna *p1, Dna *c, uint128 *state)
+  void clone(Dna *p1, Dna *c, uint128 *state)
-{
+  {
     uint8_t *p1a = (uint8_t *)p1;
 
     uint8_t *ca = (uint8_t *)c;
@@ -52,13 +55,14 @@ void clone(Dna *p1, Dna *c, uint128 *state)
         ca[i] = mrand::getValue(0, 255, state);
       }
     }
-}
+  }
-void mutate(Dna *dna, uint32_t num, uint128 *state)
+  void mutate(Dna *dna, uint32_t num, uint128 *state)
-{
+  {
     uint8_t *array = (uint8_t *)dna;
     for (size_t i = 0; i < num; i++)
     {
       int pos = mrand::getValue(0, sizeof(Dna), state);
       array[pos] = mrand::getValue(0, 255, state);
     }
+  }
 }

src/values/DnaManager.cpp

@@ -11,7 +11,7 @@ void DnaManager::init()
   vector.resize(NUM_PER_GEN);
   for (std::size_t i = 0; i < NUM_PER_GEN; i++)
   {
-    newDna(&vector[i], &randSeed);
+    DNA::newDna(&vector[i], &randSeed);
     queued.push_back(&vector[i]);
   }
 }
@@ -75,7 +75,7 @@ void DnaManager::newGen()
   {
     for (std::size_t i = 0; i < NUM_PER_GEN; i++)
     {
-      newDna(&vector[i], &randSeed);
+      DNA::newDna(&vector[i], &randSeed);
       queued.push_back(&vector[i]);
     }
     disliked.clear();
@@ -93,7 +93,7 @@ void DnaManager::newGen()
 
     for (auto &&i : disliked)
     {
-      clone(front, i, &randSeed);
+      DNA::clone(front, i, &randSeed);
       queued.push_back(i);
     }
 
@@ -115,7 +115,7 @@ void DnaManager::newGen()
 
       Dna *p1p = liked[p1];
       Dna *p2p = liked[p2];
-      makeChild(p1p, p2p, i, &randSeed);
+      DNA::makeChild(p1p, p2p, i, &randSeed);
       queued.push_back(i);
     }
   }
@@ -124,7 +124,7 @@ void DnaManager::newGen()
   {
     for (auto &&i : queued)
     {
-      mutate(i, NUM_OF_MUT, &randSeed);
+      DNA::mutate(i, NUM_OF_MUT, &randSeed);
     }
     return;
   }