Data is the integral part of core applications or programs.
Program is a set of instructions performing operations on data to get some results.
Arrangement of collection of data items so that they can be utilised efficiently. i.e. Operation on data can be done efficiently.
Where is the data arranged and when?
The data is arranged inside the memory during the execution of a program.
Program as well as data needs to be brought under memory for it's execution.
Data Structure organises how data is stored into Main Memory so that program can access it.
When progrm runs, it needs data, so data-structure is kind of running program.
Without Data Structures, we can't develop application.
DataBases : When data is large in size, and is relational, stored in tables. Data stored in table in HardDisk is known as DataBase.
Data Mining Algorithms : Algorithms for analysing data stored in Data Warehouses.
Data Warehouse : Huge size data which is inactive for now & can be utilised whenever required.
Big Data : Storing and utilising large size data generated on daily basis.
Main Memory is devided into three sections and used by programs.
Program from Hard Disk must be brought to main memory in code section.
Stack Frame : Block of memory which belong to a particular function is called it's Stack Frame (Also known as Activation Record)
Static Memory Allocation : Size of memory to be assigned gets decided at compile time. Memory is allocated when program start executing. Bytes of memory required gets decided at compile time.
Heap : Unorganized memory, treated as resource. Program can't directly access heap memory. Heap memory is accessed via pointers. Memory for pointer is allocated in Stack. Heap memory must be explicitly requested & explicitly released.
Memory Leak : If we don't release a memory, then the memory will still belong to our program and can't be used again causing loss of memory. This loss of memory is termed as Memory Leak.
We should release the Heap memory if we don't need it.
Physical Data Structures
These data structure decides/defines how the memory is organized or how the memory is allocated.
e.g. : Array, Linkedlist
Logical Data Structures
While physical data structures are meant for holding/storing the data. Discipline like insertion/deletion are defined via Logical Data Structures.
e.g. : Stack, Queues, Trees, Graphs, Hash Table
Stack, Queue -> Linear
Tree, Graph -> Non-Linear
Hash Table -> Tabular
Logical Data Structures are implemented using Physical Data Structures.
Data Type defines :
- Representation of Data
- Operation on Data
Considering Integer, one bit is reserved for the sign & the remaining bits are used to store the numbers. Arithmetic as well as relational opertions are allowed on Integer Data.