(New page: Peachanok Lertkajornkitti Lecture Fri 9Mar Lecture 17 /*Stats on the exam 1 mean: 7.10/14 Q1: 2.49/5 (Outcome 1,FILE, passed if >= 2.5) Q2: 3.10/6 (OUtcome 2,STRUCT, passed if >= 2.5) ...)
 
 
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[[Category:ECE264]] [[Category:Programming]] [[Category:C]] [[Category:lecture notes]]
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=Lecture 17, [[ECE264]], Spring 2012, Prof. Lu=
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----
 
Peachanok Lertkajornkitti
 
Peachanok Lertkajornkitti
 
Lecture Fri 9Mar
 
Lecture Fri 9Mar
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}
 
}
 
}
 
}
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************************************************************************
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Huayi Guo section-1 Professor Niklas 0309
 +
 +
/*
 +
  Lecture309
 +
 
 +
  ex5
 +
  implementing sorting
 +
 
 +
    Insertion sorting
 +
    Bubble sorting
 +
    Selection sorting
 +
    Merge sorting
 +
    Quick sorting
 +
   
 +
linear search: takes N times
 +
bineary search: takes log(N) times
 +
*/
 +
 +
IniArray *INtArray_load(char *file)
 +
{
 +
   
 +
 +
  const int BUFEER =80;
 +
  char buffer[BUFFER_LENGTH];
 +
  int lineN =0 ;
 +
  while(fgets(buffer, BUFFER, f) != NULL){
 +
    lineN++;
 +
  }
 +
 
 +
  rewind(f);
 +
  //creat the structure here;
 +
 
 +
  lineN =0 ;
 +
  while(fgets(buffer, BUFFER, f) != NULL){
 +
    array->data[lineN++] = strtol(buffer,NULL 10);
 +
  }
 +
 
 +
  fclose(f);
 +
 
 +
  return array;
 +
}
 +
 +
 +
 +
 +
===============================
 +
Kevin Tan(0023987592), section#2  notes 03/08
 +
 +
 +
selection sorting -> ordering values ( 9 6 3 1 7 8 4 5 0)
 +
 +
first step: put smallest at beginning
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 +
for (i=0;i<(len-1);i++)
 +
{
 +
  k=i;
 +
  for(j=i+1;j<len;j++)
 +
  {
 +
    if(arr[k]>arr[j])
 +
    {
 +
      k=j;
 +
    }
 +
  }
 +
  if(k!=i)
 +
  {
 +
    swap(&arr[i],&arr[k])
 +
  }
 +
}
 +
 +
void swap(int *a,int *b)
 +
{
 +
  int c=*a;
 +
  *a=*b;
 +
  *b=c;
 +
}
 +
----
 +
[[2012_Spring_ECE_264_Lu|Back to ECE264, Spring 2012, Prof. Lu]]

Latest revision as of 04:25, 11 July 2012


Lecture 17, ECE264, Spring 2012, Prof. Lu


Peachanok Lertkajornkitti Lecture Fri 9Mar Lecture 17

/*Stats on the exam 1 mean: 7.10/14

Q1: 2.49/5 (Outcome 1,FILE, passed if >= 2.5)

Q2: 3.10/6 (OUtcome 2,STRUCT, passed if >= 2.5)

Q3: 1.35/3

Next exam test OUTCOME 3 THIRD EXAM test OUTCOME 1&2 (Make up exam)

SORTING -Insertion sort -Bubble sort -Selection sort

-Merge sort -Quick sort

SELECTION SORT -find min value -swap with first position -repeats until end of array (advance position every time)

i.e 42| 19 73 32 4

4 19 73 32 42 (Swap 4 and 42)

4 19 73 32 42 (Looking at values to the right of 19, 19 is the smallest)

4 19 32 73 42 (Looking at the values to the right of 73, 32 is the smallest, swap 32 with 73)

4 19 32 42 73 (Looking at the values to the right of 73, 42 is the smallest, swap)

  • /

//EXERCISE 5

  1. include<stdio.h>
  2. include<stdlib.h>

typedef struct{ int length; int *data; }IntArray

IntArray *IntArray_create //incomplete but similar to Maze_create

IntArray IntArray_destroy //remember to destroy every time you create

IntArray *IntArray_load(char *file) { FILE *f = fopen(argv[1],"r"); if(f == NULL) { return NULL; }

const int BUFFER_LENGTH = 80; char buffer[BUFFER_LENGTH); int lineNumber = 0; while(fgets(buffer,BUFFER_LENGTH,f) != NULL){ array->data[lineNumber++] = strtol(buffer,NULL,10);

//or fscanf(f, "%d", array->data[lineNumber++]; }

fclose(f); return array; }

int main(int argc, char *argv[]) { if(argc != 2){ return EXIT_FAILURE; }

intArray *array = IntArray_load(argv[1]); if(array == NULL){ return EXIT_FAILURE;

//Sort IntArray_sort(array);


}

int IntArray_findMin(IntArray *array,int offset) { int i; int min = array->data[offset]; int minIndex; for (i = offset;1<array->length;i++){ if(array->data[i] < min) { min = array->data[i]; minIndex = i; } } return minIndex; }

void IntArray_swap(IntArray *array, int a,int b) { int tmp = array->data[a]; array->data[a] = array->data[b]; array->data[b] = tmp; } //SORTING void IntArray_sort(IntArray *array) { int i; for(i=0;i<array->length - 1; i++){ int minIndex = IntArray_findMin(array,i); IntArray_swap(array,i,minIndex); } }

Huayi Guo section-1 Professor Niklas 0309

/*

 Lecture309
 
 ex5
 implementing sorting
  
   Insertion sorting
   Bubble sorting
   Selection sorting
   Merge sorting
   Quick sorting
   

linear search: takes N times bineary search: takes log(N) times

  • /
IniArray *INtArray_load(char *file)
{
   

  const int BUFEER =80;
  char buffer[BUFFER_LENGTH];
  int lineN =0 ;
  while(fgets(buffer, BUFFER, f) != NULL){
    lineN++;
  }
  
  rewind(f);
  //creat the structure here;
  
  lineN =0 ;
  while(fgets(buffer, BUFFER, f) != NULL){
    array->data[lineN++] = strtol(buffer,NULL 10);
  }
  
  fclose(f);
  
  return array;
}



===================

Kevin Tan(0023987592), section#2 notes 03/08


selection sorting -> ordering values ( 9 6 3 1 7 8 4 5 0)

first step: put smallest at beginning

for (i=0;i<(len-1);i++) {

 k=i;
 for(j=i+1;j<len;j++)
 {
   if(arr[k]>arr[j])
   {
     k=j;
   }
 }
 if(k!=i)
 {
   swap(&arr[i],&arr[k])
 }

}

void swap(int *a,int *b) {

 int c=*a;
 *a=*b;
 *b=c;

}


Back to ECE264, Spring 2012, Prof. Lu

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Ph.D. 2007, working on developing cool imaging technologies for digital cameras, camera phones, and video surveillance cameras.

Buyue Zhang