[Solved] how to optimize repetitive addition

Question

what you can is

int j = 0,order[] = {0,7,3,4,6,1,5,2};
for(int i = 0;i <256; i +=2)
{
    int x =add(array1[i],array2[order[j%8]]);
    j++;
    int y =add(array1[i+1],array2[order[j%8]]);
    j++;
}

UPDATE
alternate solution can be (if you want without using i+=2)

int j = 0,order[] = {0,7,3,4,6,1,5,2};
for(int i = 0;i <256; i ++)
{
    int x =add(array1[i],array2[order[j%8]]);
    j++;
    i++; 
    if(i>=256) break;  //Improves it if you have non even condition
    int y =add(array1[i],array2[order[j%8]]);
    j++;
}

edit by sam
Now i want to compare this two values of x and y and selecting value based on comparision

     CurrentTre=256;
     if (x > y)
     {
     *array3[0]= x;
     *array4[CurrentTre +0] = 0;
     }
     else
     {
     *array3[i] = y;
     *array4[CurrentTre + 0] = 1;
     }
     ..........
     ..........
     if (x > y)
     {
     *array3[0]= x;
     *array4[CurrentTre +127] = 254;
     }
     else
     {
     *array3[i] = y;
     *array4[CurrentTre + 127] = 255;
     }
     /////////////
     my approach is this way

     if (x > y)
     {
     *array3[i]= x;
     *array4[int CurrentTre +i] = int number[i]<<1;
     }
     else
     {
     array3[i] = y;
     array4[int CurrentTre + i] = int number[i]<<1|1;
     }
} //end function main

I want to optimize the code my optimization is given below
please check whether am i doing right or not..?

uint32 even_number[255] ={0};
uint32 loop_index1=0;
uint32 loop_index2=0;

uint16 order[256]={0,7,3,4,6,1,5,2,4,3,7,0,1,6,2,5,7,0,4,3,2,5,1,6,3,4,0
,7,6,1,5,2,4,3,7,0,1,6,2,5,0,7,3,4,5,2,6,1,3,4,0,7,6,1,5,2,7,0,4,3,2,5
,1,6,5,2,6,1,0,7,3,4,1,6,2,5,4,3,7,0,2,5,1,6,7,0,4,3,6,1,5,2,3,4,0,7,1
,6,2,5,4,3,7,0,5,2,6,1,0,7,3,4,6,1,5,2,3,4,0,7,2,5,1,6,7,0,4,3,3,4,0,7
,6,1,5,2,7,0,4,3,2,5,1,6,4,3,7,0,1,6,2,5,0,7,3,4,5,2,6,1,7,0,4,3,2,5,1
,6,3,4,0,7,6,1,5,2,0,7,3,4,5,2,6,1,4,3,7,0,1,6,2,5,6,1,5,2,3,4,0,7,2,5
,1,6,7,0,4,3,1,6,2,5,4,3,7,0,5,2,6,1,0,7,3,4,2,5,1,6,7,0,4,3,6,1,5,2,3
,4,0,7,5,2,6,1,0,7,3,4,1,6,2,5,4,3,7,0}; //all 256 values



for(loop_index1;loop_index1<256;loop_index1++)
   {    
    m0= (CurrentState[loop_index1]+Branch[order[loop_index2]]);
loop_index2++;
loop_index1++;
if(loop_index1>=256) 
break;

m1= (CurrentState[loop_index1]+Branch[order[loop_index2]]);

loop_index2++;

if (mo > m1)
 {
 NextState[loop_index1]= m0;
 SurvivorState[CurrentTrellis + loop_index1] =
 even_number[loop_index1]<<1;
 }
else
{
 NextState[loop_index1] = StateMetric1;
 SurvivorState[CurrentTrellis + loop_index1] = 
  even_number[loop_index1<<1|1;
}
}

Accepted Answer

what you can is

int j = 0,order[] = {0,7,3,4,6,1,5,2};
for(int i = 0;i <256; i +=2)
{
    int x =add(array1[i],array2[order[j%8]]);
    j++;
    int y =add(array1[i+1],array2[order[j%8]]);
    j++;
}

UPDATE
alternate solution can be (if you want without using i+=2)

int j = 0,order[] = {0,7,3,4,6,1,5,2};
for(int i = 0;i <256; i ++)
{
    int x =add(array1[i],array2[order[j%8]]);
    j++;
    i++; 
    if(i>=256) break;  //Improves it if you have non even condition
    int y =add(array1[i],array2[order[j%8]]);
    j++;
}

edit by sam
Now i want to compare this two values of x and y and selecting value based on comparision

     CurrentTre=256;
     if (x > y)
     {
     *array3[0]= x;
     *array4[CurrentTre +0] = 0;
     }
     else
     {
     *array3[i] = y;
     *array4[CurrentTre + 0] = 1;
     }
     ..........
     ..........
     if (x > y)
     {
     *array3[0]= x;
     *array4[CurrentTre +127] = 254;
     }
     else
     {
     *array3[i] = y;
     *array4[CurrentTre + 127] = 255;
     }
     /////////////
     my approach is this way

     if (x > y)
     {
     *array3[i]= x;
     *array4[int CurrentTre +i] = int number[i]<<1;
     }
     else
     {
     array3[i] = y;
     array4[int CurrentTre + i] = int number[i]<<1|1;
     }
} //end function main

I want to optimize the code my optimization is given below
please check whether am i doing right or not..?

uint32 even_number[255] ={0};
uint32 loop_index1=0;
uint32 loop_index2=0;

uint16 order[256]={0,7,3,4,6,1,5,2,4,3,7,0,1,6,2,5,7,0,4,3,2,5,1,6,3,4,0
,7,6,1,5,2,4,3,7,0,1,6,2,5,0,7,3,4,5,2,6,1,3,4,0,7,6,1,5,2,7,0,4,3,2,5
,1,6,5,2,6,1,0,7,3,4,1,6,2,5,4,3,7,0,2,5,1,6,7,0,4,3,6,1,5,2,3,4,0,7,1
,6,2,5,4,3,7,0,5,2,6,1,0,7,3,4,6,1,5,2,3,4,0,7,2,5,1,6,7,0,4,3,3,4,0,7
,6,1,5,2,7,0,4,3,2,5,1,6,4,3,7,0,1,6,2,5,0,7,3,4,5,2,6,1,7,0,4,3,2,5,1
,6,3,4,0,7,6,1,5,2,0,7,3,4,5,2,6,1,4,3,7,0,1,6,2,5,6,1,5,2,3,4,0,7,2,5
,1,6,7,0,4,3,1,6,2,5,4,3,7,0,5,2,6,1,0,7,3,4,2,5,1,6,7,0,4,3,6,1,5,2,3
,4,0,7,5,2,6,1,0,7,3,4,1,6,2,5,4,3,7,0}; //all 256 values



for(loop_index1;loop_index1<256;loop_index1++)
   {    
    m0= (CurrentState[loop_index1]+Branch[order[loop_index2]]);
loop_index2++;
loop_index1++;
if(loop_index1>=256) 
break;

m1= (CurrentState[loop_index1]+Branch[order[loop_index2]]);

loop_index2++;

if (mo > m1)
 {
 NextState[loop_index1]= m0;
 SurvivorState[CurrentTrellis + loop_index1] =
 even_number[loop_index1]<<1;
 }
else
{
 NextState[loop_index1] = StateMetric1;
 SurvivorState[CurrentTrellis + loop_index1] = 
  even_number[loop_index1<<1|1;
}
}