Computer notes - data structures
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Class No 1
Data Structures
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Data Structures
Prepares the students for (and is a prerequisite for) the more advanced material students will encounter in later courses.
Cover well-known data structures such as dynamic arrays, linked lists, stacks, queues, tree and graphs.
Implement data structures in C++
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Data Structures
Prepares the students for (and is a prerequisite for) the more advanced material students will encounter in later courses.
Cover well-known data structures such as dynamic arrays, linked lists, stacks, queues, tree and graphs.
Implement data structures in C++
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![Page 4: Computer notes - data structures](https://reader033.fdocuments.in/reader033/viewer/2022061216/54b3c78a4a7959767f8b458b/html5/thumbnails/4.jpg)
Data Structures
Prepares the students for (and is a prerequisite for) the more advanced material students will encounter in later courses.
Cover well-known data structures such as dynamic arrays, linked lists, stacks, queues, tree and graphs.
Implement data structures in C++
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![Page 5: Computer notes - data structures](https://reader033.fdocuments.in/reader033/viewer/2022061216/54b3c78a4a7959767f8b458b/html5/thumbnails/5.jpg)
Need for Data Structures
Data structures organize data more efficient programs.
More powerful computers more complex applications.
More complex applications demand more calculations.
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Need for Data Structures
Data structures organize data more efficient programs.
More powerful computers more complex applications.
More complex applications demand more calculations.
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![Page 7: Computer notes - data structures](https://reader033.fdocuments.in/reader033/viewer/2022061216/54b3c78a4a7959767f8b458b/html5/thumbnails/7.jpg)
Need for Data Structures
Data structures organize data more efficient programs.
More powerful computers more complex applications.
More complex applications demand more calculations.
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![Page 8: Computer notes - data structures](https://reader033.fdocuments.in/reader033/viewer/2022061216/54b3c78a4a7959767f8b458b/html5/thumbnails/8.jpg)
Organizing Data
Any organization for a collection of records that can be searched, processed in any order, or modified.
The choice of data structure and algorithm can make the difference between a program running in a few seconds or many days.
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Organizing Data
Any organization for a collection of records that can be searched, processed in any order, or modified.
The choice of data structure and algorithm can make the difference between a program running in a few seconds or many days.
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Efficiency
A solution is said to be efficient if it solves the problem within its resource constraints.– Space– Time
The cost of a solution is the amount of resources that the solution consumes.
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Efficiency
A solution is said to be efficient if it solves the problem within its resource constraints. Space Time
The cost of a solution is the amount of resources that the solution consumes.
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Selecting a Data Structure
Select a data structure as follows:1. Analyze the problem to determine the res
ource constraints a solution must meet.2. Determine the basic operations that must
be supported. Quantify the resource constraints for each operation.
3. Select the data structure that best meets these requirements.
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Selecting a Data Structure
Select a data structure as follows:1. Analyze the problem to determine the res
ource constraints a solution must meet.2. Determine the basic operations that must
be supported. Quantify the resource constraints for each operation.
3. Select the data structure that best meets these requirements.
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![Page 14: Computer notes - data structures](https://reader033.fdocuments.in/reader033/viewer/2022061216/54b3c78a4a7959767f8b458b/html5/thumbnails/14.jpg)
Selecting a Data Structure
Select a data structure as follows:1. Analyze the problem to determine the res
ource constraints a solution must meet.2. Determine the basic operations that must
be supported. Quantify the resource constraints for each operation.
3. Select the data structure that best meets these requirements.
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![Page 15: Computer notes - data structures](https://reader033.fdocuments.in/reader033/viewer/2022061216/54b3c78a4a7959767f8b458b/html5/thumbnails/15.jpg)
Some Questions to Ask
• Are all data inserted into the data structure at the beginning, or are insertions interspersed with other operations?
• Can data be deleted?
• Are all data processed in some well-defined order, or is random access allowed?
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Some Questions to Ask
• Are all data inserted into the data structure at the beginning, or are insertions interspersed with other operations?
• Can data be deleted?
• Are all data processed in some well-defined order, or is random access allowed?
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Some Questions to Ask
• Are all data inserted into the data structure at the beginning, or are insertions interspersed with other operations?
• Can data be deleted?
• Are all data processed in some well-defined order, or is random access allowed?
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![Page 18: Computer notes - data structures](https://reader033.fdocuments.in/reader033/viewer/2022061216/54b3c78a4a7959767f8b458b/html5/thumbnails/18.jpg)
Data Structure Philosophy
Each data structure has costs and benefits.
Rarely is one data structure better than another in all situations.
A data structure requires:– space for each data item it stores,– time to perform each basic operation,– programming effort.
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Data Structure Philosophy
Each data structure has costs and benefits.
Rarely is one data structure better than another in all situations.
A data structure requires:– space for each data item it stores,– time to perform each basic operation,– programming effort.
http://ecomputernotes.com
![Page 20: Computer notes - data structures](https://reader033.fdocuments.in/reader033/viewer/2022061216/54b3c78a4a7959767f8b458b/html5/thumbnails/20.jpg)
Data Structure Philosophy
Each data structure has costs and benefits.
Rarely is one data structure better than another in all situations.
A data structure requires:– space for each data item it stores,– time to perform each basic operation,– programming effort.
http://ecomputernotes.com
![Page 21: Computer notes - data structures](https://reader033.fdocuments.in/reader033/viewer/2022061216/54b3c78a4a7959767f8b458b/html5/thumbnails/21.jpg)
Goals of this Course1. Reinforce the concept that costs and benefits e
xist for every data structure.
2. Learn the commonly used data structures.– These form a programmer's basic data structure “too
lkit.”
3. Understand how to measure the cost of a data structure or program.– These techniques also allow you to judge the merits
of new data structures that you or others might invent.
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Goals of this Course1. Reinforce the concept that costs and benefits e
xist for every data structure.
2. Learn the commonly used data structures.– These form a programmer's basic data structure “too
lkit”.
3. Understand how to measure the cost of a data structure or program.– These techniques also allow you to judge the merits
of new data structures that you or others might invent.
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![Page 23: Computer notes - data structures](https://reader033.fdocuments.in/reader033/viewer/2022061216/54b3c78a4a7959767f8b458b/html5/thumbnails/23.jpg)
Goals of this Course1. Reinforce the concept that costs and benefits e
xist for every data structure.
2. Learn the commonly used data structures.– These form a programmer's basic data structure “too
lkit”.
3. Understand how to measure the cost of a data structure or program.– These techniques also allow you to judge the merits
of new data structures that you or others might invent.
http://ecomputernotes.com
![Page 24: Computer notes - data structures](https://reader033.fdocuments.in/reader033/viewer/2022061216/54b3c78a4a7959767f8b458b/html5/thumbnails/24.jpg)
Arrays
Elementary data structure that exists as built-in in most programming languages.
main( int argc, char** argv ){int x[6];int j;for(j=0; j < 6; j++)x[j] = 2*j;}
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Arrays
Array declaration: int x[6]; An array is collection of cells of the same type. The collection has the name ‘x’. The cells are numbered with consecutive integ
ers. To access a cell, use the array name and an in
dex: x[0], x[1], x[2], x[3], x[4], x[5]
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Array Layout
x[1]
x[2]
x[3]
x[4]
x[5]
x[0]
Array cells are contiguous in computer memory
The memory can be thought of as an array
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What is Array Name?
‘x’ is an array name but there is no variable x. ‘x’ is not an lvalue.
For example, if we have the code
int a, b;
then we can write
b = 2;a = b;a = 5;
But we cannot write
2 = a;http://ecomputernotes.com
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What is Array Name?
‘x’ is an array name but there is no variable x. ‘x’ is not an lvalue.
For example, if we have the code
int a, b;
then we can write
b = 2;a = b;a = 5;
But we cannot write
2 = a;http://ecomputernotes.com
![Page 29: Computer notes - data structures](https://reader033.fdocuments.in/reader033/viewer/2022061216/54b3c78a4a7959767f8b458b/html5/thumbnails/29.jpg)
What is Array Name?
‘x’ is an array name but there is no variable x. ‘x’ is not an lvalue.
For example, if we have the code
int a, b;
then we can write
b = 2;a = b;a = 5;
But we cannot write
2 = a;http://ecomputernotes.com
![Page 30: Computer notes - data structures](https://reader033.fdocuments.in/reader033/viewer/2022061216/54b3c78a4a7959767f8b458b/html5/thumbnails/30.jpg)
Array Name
‘x’ is not an lvalue
int x[6];int n;
x[0] = 5;x[1] = 2;
x = 3; // not allowedx = a + b; // not allowedx = &n; // not allowed
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Array Name
‘x’ is not an lvalue
int x[6];int n;
x[0] = 5;x[1] = 2;
x = 3; // not allowedx = a + b; // not allowedx = &n; // not allowed
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Dynamic Arrays
You would like to use an array data structure but you do not know the size of the array at compile time.
You find out when the program executes that you need an integer array of size n=20.
Allocate an array using the new operator:
int* y = new int[20]; // or int* y = new int[n]y[0] = 10;y[1] = 15; // use is the same
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Dynamic Arrays
You would like to use an array data structure but you do not know the size of the array at compile time.
You find out when the program executes that you need an integer array of size n=20.
Allocate an array using the new operator:
int* y = new int[20]; // or int* y = new int[n]y[0] = 10;y[1] = 15; // use is the same
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Dynamic Arrays
You would like to use an array data structure but you do not know the size of the array at compile time.
You find out when the program executes that you need an integer array of size n=20.
Allocate an array using the new operator:
int* y = new int[20]; // or int* y = new int[n]y[0] = 10;y[1] = 15; // use is the same
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Dynamic Arrays
‘y’ is a lvalue; it is a pointer that holds the address of 20 consecutive cells in memory.
It can be assigned a value. The new operator returns as address that is stored in y.
We can write:
y = &x[0];y = x; // x can appear on the right
// y gets the address of the// first cell of the x array
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Dynamic Arrays
‘y’ is a lvalue; it is a pointer that holds the address of 20 consecutive cells in memory.
It can be assigned a value. The new operator returns as address that is stored in y.
We can write:
y = &x[0];y = x; // x can appear on the right
// y gets the address of the// first cell of the x array
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Dynamic Arrays
‘y’ is a lvalue; it is a pointer that holds the address of 20 consecutive cells in memory.
It can be assigned a value. The new operator returns as address that is stored in y.
We can write:
y = &x[0];y = x; // x can appear on the right
// y gets the address of the// first cell of the x array
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Dynamic Arrays
We must free the memory we got using the new operator once we are done with the y array.
delete[ ] y;
We would not do this to the x array because we did not use new to create it.
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The LIST Data Structure
The List is among the most generic of data structures.
Real life:
a. shopping list, b. groceries list, c. list of people to invite to dinnerd. List of presents to get
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Lists
A list is collection of items that are all of the same type (grocery items, integers, names)
The items, or elements of the list, are stored in some particular order
It is possible to insert new elements into various positions in the list and remove any element of the list
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Lists
A list is collection of items that are all of the same type (grocery items, integers, names)
The items, or elements of the list, are stored in some particular order
It is possible to insert new elements into various positions in the list and remove any element of the list
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![Page 42: Computer notes - data structures](https://reader033.fdocuments.in/reader033/viewer/2022061216/54b3c78a4a7959767f8b458b/html5/thumbnails/42.jpg)
Lists
A list is collection of items that are all of the same type (grocery items, integers, names)
The items, or elements of the list, are stored in some particular order
It is possible to insert new elements into various positions in the list and remove any element of the list
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![Page 43: Computer notes - data structures](https://reader033.fdocuments.in/reader033/viewer/2022061216/54b3c78a4a7959767f8b458b/html5/thumbnails/43.jpg)
Lists
List is a set of elements in a linear order. For example, data values a1, a2, a3, a4 can be arranged in a list:
(a3, a1, a2, a4)
In this list, a3, is the first element, a1 is the second element, and so on
The order is important here; this is not just a random collection of elements, it is an ordered collection
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Lists
List is a set of elements in a linear order. For example, data values a1, a2, a3, a4 can be arranged in a list:
(a3, a1, a2, a4)
In this list, a3, is the first element, a1 is the second element, and so on
The order is important here; this is not just a random collection of elements, it is an ordered collection
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List Operations
Useful operations• createList(): create a new list (presumably empty)• copy(): set one list to be a copy of another• clear(); clear a list (remove all elments)• insert(X, ?): Insert element X at a particular position
in the list• remove(?): Remove element at some position in
the list• get(?): Get element at a given position• update(X, ?): replace the element at a given position
with X• find(X): determine if the element X is in the list• length(): return the length of the list.
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List Operations
We need to decide what is meant by “particular position”; we have used “?” for this.
There are two possibilities:
1. Use the actual index of element: insert after element 3, get element number 6. This approach is taken by arrays
2. Use a “current” marker or pointer to refer to a particular position in the list.
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List Operations
We need to decide what is meant by “particular position”; we have used “?” for this.
There are two possibilities:
1. Use the actual index of element: insert after element 3, get element number 6. This approach is taken by arrays
2. Use a “current” marker or pointer to refer to a particular position in the list.
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![Page 48: Computer notes - data structures](https://reader033.fdocuments.in/reader033/viewer/2022061216/54b3c78a4a7959767f8b458b/html5/thumbnails/48.jpg)
List Operations
If we use the “current” marker, the following four methods would be useful:
start(): moves to “current” pointer to the very first element.
tail(): moves to “current” pointer to the very last element.
next(): move the current position forward one element
back(): move the current position backward one element
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