Basics of Character Double Dimension Array
===============================================

In this section, you are going to learn

.. panels::
	:container: container pb-4
	:column: col-lg-12 p-2
	:card: shadow

	What are the basic properties of a character double dimension array ?

.. panels::
        :container: container pb-4
        :column: col-lg-12 p-2
        :card: shadow

        What are the different expressions of double dimension array ?

.. panels::
        :container: container pb-4
        :column: col-lg-12 p-2
        :card: shadow

        What are synonymous expresions of double dimension array ?

.. panels::
        :container: container pb-4
        :column: col-lg-12 p-2
        :card: shadow

        How to find sizeof() of expressions of double dimension array ?


.. panels::
	:container: container pb-4
	:column: col-lg-12 p-2
	:card: shadow

	Topics in this section,

		* :ref:`Character Double Dimension Array : Syntax <array_n_ptrs_char_dd_array_ex_0_0>`
		* :ref:`Character Double Dimension Array : FAQs <array_n_ptrs_char_dd_array_ex_0_1>`

		* :ref:`Character Double Dimension Array : Basic Examples <array_n_ptrs_char_dd_array_ex_0_2>`

			* :ref:`Character Double Dimension Array : Basic Example 1 <array_n_ptrs_char_dd_array_ex_0_3>`
			* :ref:`Character Double Dimension Array : Basic Example 2 <array_n_ptrs_char_dd_array_ex_0_4>`

		* :ref:`Character Double Dimension Array : Basic Properties <array_n_ptrs_char_dd_array_ex_1>`

		* :ref:`Character Double Dimension Array : Basic Expressions <array_n_ptrs_char_dd_array_ex_2>`
		* :ref:`Character Double Dimension Array : Synonym Expressions <array_n_ptrs_char_dd_array_ex_3>`
		* :ref:`Character Double Dimension Array : typeof(expression) <array_n_ptrs_char_dd_array_ex_4>`
		* :ref:`Character Double Dimension Array : sizeof(expression) <array_n_ptrs_char_dd_array_ex_5>`
		* :ref:`Character Double Dimension Array : fun(expression) <array_n_ptrs_char_dd_array_ex_6>`
		* :ref:`Character Double Dimension Array : All Examples of Function Calls <array_n_ptrs_char_dd_array_ex_7>`

.. _array_n_ptrs_char_dd_array_ex_0_0:

.. tab-set::

        .. tab-item:: Character Double Dimension Array : Syntax

                .. panels::
                        :container: container pb-4
                        :column: col-lg-12 p-2
                        :card: shadow

                        char array_name[Row][Column];

.. _array_n_ptrs_char_dd_array_ex_0_1:

.. tab-set::

        .. tab-item:: Character Double Dimension Array : FAQs

		Consider a character double dimension array

		.. code-block:: c

			char a[3][4];

		.. panels::
			:container: container pb-4
			:column: col-lg-12 p-2
			:card: shadow

			Let us answer few basic questions in this array

		.. panels::
			:container: container pb-4
			:column: col-lg-12 p-2
			:card: shadow

			How many characters can be stored in this array ?

			.. dropdown:: See Answer

				Number of Characters = Rows * Columns = 3 * 4 = 12

		.. panels::
			:container: container pb-4
			:column: col-lg-12 p-2
			:card: shadow

			How many bytes are there in this array ?

			.. dropdown:: See Answer

				Number of Bytes = Rows * Columns = 3 * 4 = 12

		.. panels::
			:container: container pb-4
			:column: col-lg-12 p-2
			:card: shadow

			What is the sizeof the array ?

			.. dropdown:: See Answer

				sizeof(a) = Number of Bytes = Rows * Columns = 3 * 4 = 12

		.. panels::
			:container: container pb-4
			:column: col-lg-12 p-2
			:card: shadow

			How many single dimension arrays are present in this double dimension array ?

			.. dropdown:: See Answer

				There are 3 Single dimension arrays. Size of each single dimension array is 4 Bytes

		.. panels::
			:container: container pb-4
			:column: col-lg-12 p-2
			:card: shadow

			What are the names of single dimension arrays in this double dimension array ?

			.. dropdown:: See Answer

				a[0]

				a[1]

				a[2]

		.. panels::
			:container: container pb-4
			:column: col-lg-12 p-2
			:card: shadow

			How do you represent the first character ?

			.. dropdown:: See Answer

				a[0][0]

		.. panels::
			:container: container pb-4
			:column: col-lg-12 p-2
			:card: shadow

			How do you represent the last character ?

			.. dropdown:: See Answer

				a[2][3]

		.. panels::
			:container: container pb-4
			:column: col-lg-12 p-2
			:card: shadow

			How do you initialise the array at the time of declaration ?

			.. dropdown:: See Answer

				.. code-block:: c

					char a[3][4] = { "lap", "top", "123" };

				OR

				.. code-block:: c

					char a[3][4] = {
						{'l', 'a', 'p', '\0' },
						{'t', 'o', 'p', '\0' },
						{'1', '2', '3', '\0' },
					};

.. _array_n_ptrs_char_dd_array_ex_0_2:

.. tab-set::

        .. tab-item:: Character Double Dimension Array : Basic Examples

		.. panels::
			:container: container pb-4
			:column: col-lg-12 p-2
			:card: shadow

			Let us now explore basic examples of double dimension array !

.. _array_n_ptrs_char_dd_array_ex_0_3:

.. tab-set::

        .. tab-item:: Character Double Dimension Array : Basic Example 1

		* Step 1 : Define a Double Dimension Array

		.. code-block:: c

		        char a[3][4] = { "lap", "top", "123" };

		* Step 2 : Access and Print individual characters

		.. code-block:: c

		        for (int i = 0; i < 3; i++) {
		                for (int j = 0; j < 4 - 1 ; j++) {
		                        printf("%c", a[i][j]);
               			}
		                printf("\n");
		        }

		* Step 3 : Access and Print individual strings

		.. code-block:: c

		        for (int i = 0; i < 3; i++) {
		                printf("%s", a[i]);
		                printf("\n");
		        }

		* Step 4 : See the full program below

		.. code-block:: c

			#include <stdio.h>

			int main(void)
			{
			        char a[3][4] = { "lap", "top", "123" };

			        // print individual characters
			        printf("--------- Access and Print Characters ----------\n");
			        for (int i = 0; i < 3; i++) {
			                for (int j = 0; j < 4 - 1 ; j++) {
			                        printf("%c", a[i][j]);
                			}
			                printf("\n");
			        }

			        // print individual strings
			        printf("--------- Access and Print Strings ----------\n");
			        for (int i = 0; i < 3; i++) {
			                printf("%s", a[i]);
			                printf("\n");
			        }

			        return 0;
			}

		* Step 5 : Output is as below

		.. code-block:: c

			--------- Access and Print Characters ----------
			lap
			top
			123
			--------- Access and Print Strings ----------
			lap
			top
			123

.. _array_n_ptrs_char_dd_array_ex_0_4:

.. tab-set::

        .. tab-item:: Character Double Dimension Array : Basic Example 2

		* Step 1 : Define a Double Dimension Array

		.. code-block:: c

			char a[3][4] = { 
				{'l', 'a', 'p', '\0'},
				{'t', 'o', 'p', '\0'},
				{'1', '2', '3', '\0'},
			};

		* Step 2 : Access and Print individual characters

		.. code-block:: c

		        for (int i = 0; i < 3; i++) {
		                for (int j = 0; j < 4 - 1 ; j++) {
		                        printf("%c", a[i][j]);
               			}
		                printf("\n");
		        }

		* Step 3 : Access and Print individual strings

		.. code-block:: c

		        for (int i = 0; i < 3; i++) {
		                printf("%s", a[i]);
		                printf("\n");
		        }

		* Step 4 : See the full program below

		.. code-block:: c

			#include <stdio.h>

			int main(void)
			{
				char a[3][4] = { 
					{'l', 'a', 'p', '\0'},
					{'t', 'o', 'p', '\0'},
					{'1', '2', '3', '\0'},
				};

			        // print individual characters
			        printf("--------- Access and Print Characters ----------\n");
			        for (int i = 0; i < 3; i++) {
			                for (int j = 0; j < 4 - 1 ; j++) {
			                        printf("%c", a[i][j]);
                			}
			                printf("\n");
			        }

			        // print individual strings
			        printf("--------- Access and Print Strings ----------\n");
			        for (int i = 0; i < 3; i++) {
			                printf("%s", a[i]);
			                printf("\n");
			        }

			        return 0;
			}

		* Step 5 : Output is as below

		.. code-block:: c

			--------- Access and Print Characters ----------
			lap
			top
			123
			--------- Access and Print Strings ----------
			lap
			top
			123

.. _array_n_ptrs_char_dd_array_ex_1:

.. tab-set::

        .. tab-item:: Character Double Dimension Array : Basic Properties

		.. panels::
			:container: container pb-4
			:column: col-lg-12 p-2
			:card: shadow

			Let us now explore double dimension array in depth !

		Below are the properties

			* Expressions
			* Synonyms
			* typeof(expression)
			* sizeof(expression)
			* fun(expression)

.. _array_n_ptrs_char_dd_array_ex_2:

.. tab-set::

        .. tab-item:: Character Double Dimension Array : Basic Expressions

		.. panels::
			:container: container pb-4
			:column: col-lg-12 p-2
			:card: shadow

			Know what are the possible expressions and how to properly call them !

		=================== ======================================================
		Expression	    Description
		=================== ======================================================
		a[0][0]		    * ``a[0][0]`` is a character
		a[1][0]		    * ``a[1][0]`` is a character
		a[2][0]		    * ``a[2][0]`` is a character
		&a[0][0]	    * ``&a[0][0]`` is address of a character
		&a[1][0]	    * ``&a[1][0]`` is address of a character
		&a[2][0]	    * ``&a[2][0]`` is address of a character
		\*\*a		    * \*\*a is character. Same as a[0][0]
		\*(\*(a + 1) + 0)   * \*(\*(a + 1) + 0) is a character. Same as a[1][0]
		\*(\*(a + 2) + 0)   * \*(\*(a + 2) + 0) is a character. Same as a[2][0]
		a[0]		    * ``a[0]`` is a single dimension array
		a[1]		    * ``a[1]`` is a single dimension array
		a[2]		    * ``a[2]`` is a single dimension array
		&a[0]		    * ``&a[0]`` is address of a single dimension array
		&a[1]		    * ``&a[1]`` is address of a single dimension array
		&a[2]		    * ``&a[2]`` is address of a single dimension array
		\*a		    * ``*a`` is a single dimension array
		\*(a + 1)	    * ``*(a + 1)`` is a single dimension array
		\*(a + 2)	    * ``*(a + 2)`` is a single dimension array
		a 		    * ``a`` is address of a single dimension array
		a + 1 		    * ``a + 1`` is address of a single dimension array
		a + 2		    * ``a + 2`` is address of a single dimension array
		&a		    * ``&a`` is the address of double dimension array
		=================== ======================================================

.. _array_n_ptrs_char_dd_array_ex_3:

.. tab-set::

        .. tab-item:: Character Double Dimension Array : Synonym Expressions

		.. panels::
			:container: container pb-4
			:column: col-lg-12 p-2
			:card: shadow

			Synonyms : Which can be used interchangeably !

		.. panels::
			:container: container pb-4
			:column: col-lg-12 p-2
			:card: shadow

			Programmatically few expressions are one and the same ! Let us learn them

		=================== ========================================
		Expression	    Synonyms
		=================== ========================================
		a[0][0]		    \*\*a

		a[1][0]		     \*(\*(a + 1) + 0)

		a[2][0]		     \*(\*(a + 2) + 0)

		&a[0][0]	    a[0]

		&a[1][0]	    a[1]

		&a[2][0]	    a[2]

		\*\*a		    a[0][0]

		\*(\*(a + 1) + 0)   a[1][0]

		\*(\*(a + 2) + 0)   a[2][0]

		a[0]		    \*a

				    &a[0][0]


		a[1]		    \*(a + 1)

				    &a[1][0]

		a[2]		    \*(a + 2)

				    &a[2][0]

		&a[0]		    a + 0

				    a

		&a[1]		    a + 1

		&a[2]		    a + 2

		\*a		    a[0]

				    &a[0][0]

		\*(a + 1)	    a[1]

				    &a[1][0]

		\*(a + 2)	    a[2]

				    &a[2][0]

		a 		    &a[0]

		a + 1 		    &a[1]

		a + 2		    &a[2]

		&a		    &a
		=================== ========================================

.. _array_n_ptrs_char_dd_array_ex_4:

.. tab-set::

        .. tab-item:: Character Double Dimension Array : typeof(expression)

		.. panels::
			:container: container pb-4
			:column: col-lg-12 p-2
			:card: shadow

			Finding the type of an expression is easy. See below

		=================== ============== =========================================================
		Expression          Type           Description
		=================== ============== =========================================================
		a[0][0]		    char 	   * ``a[0][0]`` is a character
		a[1][0]		    char           * ``a[1][0]`` is a character
		a[2][0]		    char           * ``a[2][0]`` is a character
		&a[0][0]	    char *         * ``&a[0][0]`` is address of a character
		&a[1][0]	    char *         * ``&a[1][0]`` is address of a character
		&a[2][0]	    char *         * ``&a[2][0]`` is address of a character
		\*\*a		    char           * ``**a`` is character. Same as a[0][0]
		\*(\*(a + 1) + 0)   char           * ``*(*(a + 1) + 0)`` is a character. Same as ``a[1][0]``
		\*(\*(a + 2) + 0)   char           * ``*(*(a + 2) + 0)`` is a character. Same as ``a[2][0]``

		a[0]		    char *         * ``a[0]`` is a single dimension character array
						   * Hence type is ``char *``

		a[1]		    char *         * ``a[1]`` is a single dimension character array
						   * Hence type is ``char *``

		a[2]		    char *         * ``a[2]`` is a single dimension character array
						   * Hence type is ``char *``

		&a[0]		    char *	   * ``a[0]`` is a single dimension character array
						   * Hence ``typeof(&a[0])`` is ``char (* )[4]``

		&a[1]		    char *	   * ``a[1]`` is a single dimension character array
						   * Hence ``typeof(&a[1])`` is ``char (* )[4]``

		&a[2]		    char *	   * ``a[2]`` is a single dimension character array
						   * Hence ``typeof(&a[2])`` is ``char (* )[4]``

		\*a		    char           * ``*a`` is a single dimension character array
						   * Hence type is ``char *``

		\*(a + 1)	    char           * ``*(a + 1)`` is a single dimension character array
						   * Hence type is ``char *``

		\*(a + 2)	    char           * ``*(a + 2)`` is a single dimension character array
						   * Hence type is ``char *``

		a 		    char *	   * ``a`` is equal to ``&a[0]``
						   * Hence ``typeof(a)`` is ``char (* )[4]``

		a + 1 		    char *	   * ``a + 1`` is equal to ``&a[1]``
						   * Hence ``typeof(a + 1)`` is ``char (* )[4]``

		a + 2 		    char *	   * ``a + 2`` is equal to ``&a[2]``
						   * Hence ``typeof(a + 2)`` is ``char (* )[4]``

		&a		    char (*)[3][4] * ``&a`` is address of complete array
		=================== ============== =========================================================

.. _array_n_ptrs_char_dd_array_ex_5:

.. tab-set::

        .. tab-item:: Character Double Dimension Array : sizeof(expression)

		========================== ========= ===============================
		sizeof(expression)  	   size      Description
		========================== ========= ===============================
		sizeof(a[0][0])		   1         a[0][0] is a character
		sizeof(a[1][0])		   1         a[1][0] is a character
		sizeof(a[2][0])		   1         a[2][0] is a character
		sizeof(&a[0][0])	   8         &a[0][0] is address / pointer
		sizeof(&a[1][0])	   8         &a[1][0] is address / pointer
		sizeof(&a[2][0])	   8         &a[2][0] is address / pointer
		sizeof(\*\*a)		   1         \*\*a is a character
		sizeof(\*(\*(a + 1) + 0))  1         \*(\*(a + 1) + 0) is a character
		sizeof(\*(\*(a + 2) + 0))  1         \*(\*(a + 2) + 0) is a character
		sizeof(a[0])               4         a[0] is a single dimension array
		sizeof(a[1])               4         a[1] is a single dimension array
		sizeof(a[2])               4         a[2] is a single dimension array
		sizeof(&a[0])              8         &a[0] is address / pointer
		sizeof(&a[1])              8         &a[1] is address / pointer
		sizeof(&a[2])              8         &a[2] is address / pointer
		sizeof(\*a)                4         \*a  is a single dimension array
		sizeof(\*(a + 1))	   4         \*(a + 1) is a single dimension array
		sizeof(\*(a + 2))	   4         \*(a + 2) is a single dimension array
		sizeof(a)                  12        a is a double dimension array
		sizeof(a + 1)              8         a + 1 is address / pointer
		sizeof(a + 2)              8	     a + 2 is address / pointer
		sizeof(&a)                 8	     &a is address / pointer
		========================== ========= ===============================

		* See the full program below

		.. code-block:: c

			#include <stdio.h>

			int main(void)
			{
			        char a[3][4] = { "lap", "top", "123" };

			        printf("sizeof(a[0][0])         = %d\n", (int) sizeof(a[0][0]) );
			        printf("sizeof(a[1][0])         = %d\n", (int) sizeof(a[1][0]) );
			        printf("sizeof(a[2][0])         = %d\n", (int) sizeof(a[2][0]) );
			        printf("sizeof(&a[0][0])        = %d\n", (int) sizeof(&a[0][0]) );
			        printf("sizeof(&a[1][0])        = %d\n", (int) sizeof(&a[1][1]) );
			        printf("sizeof(&a[2][0])        = %d\n", (int) sizeof(&a[2][0]) );
			        printf("sizeof(**a)             = %d\n", (int) sizeof(**a));
			        printf("sizeof(*(*(a + 1) + 0)) = %d\n", (int) sizeof(*(*(a + 1) + 0)) );
			        printf("sizeof(*(*(a + 2) + 0)) = %d\n", (int) sizeof(*(*(a + 2) + 0)) );
			        printf("sizeof(a[0])            = %d\n", (int) sizeof(a[0]) );
			        printf("sizeof(a[1])            = %d\n", (int) sizeof(a[1]) );
			        printf("sizeof(a[2])            = %d\n", (int) sizeof(a[2]) );
			        printf("sizeof(&a[0])           = %d\n", (int) sizeof(&a[0]) );
			        printf("sizeof(&a[1])           = %d\n", (int) sizeof(&a[1]) );
			        printf("sizeof(&a[2])           = %d\n", (int) sizeof(&a[2]) );
			        printf("sizeof(*a)              = %d\n", (int) sizeof(*a) );
			        printf("sizeof(*(a + 1))        = %d\n", (int) sizeof(*(a + 1)) );
			        printf("sizeof(*(a + 2))        = %d\n", (int) sizeof(*(a + 2)) );
			        printf("sizeof(a)               = %d\n", (int) sizeof(a) );
			        printf("sizeof(a + 1)           = %d\n", (int) sizeof(a + 1) );
			        printf("sizeof(a + 2)           = %d\n", (int) sizeof(a + 2) );
			        printf("sizeof(&a)              = %d\n", (int) sizeof(&a) );

			        return 0;
			}

		* Output is as below on 64 bit OS

		.. code-block:: c

			sizeof(a[0][0])		= 1
			sizeof(a[1][0])		= 1
			sizeof(a[2][0])		= 1
			sizeof(&a[0][0])	= 8
			sizeof(&a[1][0])	= 8
			sizeof(&a[2][0])	= 8
			sizeof(**a)		= 1
			sizeof(*(*(a + 1) + 0))	= 1
			sizeof(*(*(a + 2) + 0))	= 1
			sizeof(a[0])            = 4
			sizeof(a[1])            = 4
			sizeof(a[2])            = 4
			sizeof(&a[0])           = 8
			sizeof(&a[1])           = 8
			sizeof(&a[2])           = 8
			sizeof(*a)              = 4
			sizeof(*(a + 1))	= 4
			sizeof(*(a + 2))	= 4
			sizeof(a)               = 12
			sizeof(a + 1)           = 8
			sizeof(a + 2)           = 8
			sizeof(&a)              = 8

.. _array_n_ptrs_char_dd_array_ex_6:

.. tab-set::

        .. tab-item:: Character Double Dimension Array : fun(expression)

		.. panels::
			:container: container pb-4
			:column: col-lg-12 p-2
			:card: shadow

			If ``fun(x)`` is the function call, then ``fun(typeof(x))`` is the prototype / definition

		========================== =============================== ==========================================================================
		Function Call              Function Definition             Observations
		========================== =============================== ==========================================================================
		fun(a[0][0])		   void fun(char x) {}		   * Call by Value
		fun(a[1][0])               void fun(char x) {}             * Call by Value
		fun(a[2][0])               void fun(char x) {}             * Call by Value
		fun(&a[0][0])              void fun(char \*p) { }          * Call by Reference
		fun(&a[1][0])              void fun(char \*p) { }          * Call by Reference
		fun(&a[2][0])              void fun(char \*p) { }          * Call by Reference
		fun(\*\*a)                 void fun(char x) {}             * Call by Value
		fun(\*(\*(a + 1) + 0))     void fun(char x) {}             * Call by Value
		fun(\*(\*(a + 2) + 0))     void fun(char x) {}             * Call by Value
		fun(a[0])                  void fun(char \*p) { }          * Call by Reference
		fun(a[1])                  void fun(char \*p) { }          * Call by Reference
		fun(a[2])                  void fun(char \*p) { }          * Call by Reference
		fun(&a[0])         	   void fun(char (\*p)[4]) { }     * Call by Reference
		fun(&a[1])         	   void fun(char (\*p)[4]) { }     * Call by Reference
		fun(&a[2])         	   void fun(char (\*p)[4]) { }     * Call by Reference
		fun(\*a)                   void fun(char \*p) { }          * Call by Reference
		fun(\*(a + 1))             void fun(char \*p) { }          * Call by Reference
		fun(\*(a + 2))             void fun(char \*p) { }          * Call by Reference
		fun(a)                     void fun(char (\*p)[4]) { }     * Call by Reference
		fun(a + 1)                 void fun(char (\*p)[4]) { }     * Call by Reference
		fun(a + 2)                 void fun(char (\*p)[4]) { }     * Call by Reference
		fun(&a)                    void fun(char (\*p)[3][4]) { }  * Call by Reference
		========================== =============================== ==========================================================================


.. _array_n_ptrs_char_dd_array_ex_7:

.. tab-set::

        .. tab-item:: Character Double Dimension Array : All Examples of Function Calls

                .. panels::
                        :container: container pb-4
                        :column: col-lg-12 p-2
                        :card: shadow

                        Read more about function calls and conventions of :doc:`../../funcs_n_ptrs/funcs_n_chars/char_dd_array` 


.. card:: See Also

        * Other topics of character and functions

                * :doc:`./char_sd_array`
                * :doc:`./char_dd_array`
                * :doc:`./char_td_array`

        * Current Module

                * :doc:`../array_n_ptrs`

        * Previous Module

                * :doc:`../../basic_ptr/basic_ptr`

        * Next Module

                * :doc:`../../malloc_ptr/malloc_ptr`

        * Other Modules

                * :doc:`../../variable_and_ptr/variable_and_ptr`
                * :doc:`../../array_n_ptrs/array_n_ptrs`
                * :doc:`../../malloc_ptr/malloc_ptr`
                * :doc:`../../typecasting_n_ptr/typecasting_n_ptr`
                * :doc:`../../const_ptr/const_ptr`
                * :doc:`../../void_ptr/void_ptr`
                * :doc:`../../array_of_ptr/array_of_ptr`
                * :doc:`../../ptr_to_array/ptr_to_array`
                * :doc:`../../function_ptr/function_ptr`
                * :doc:`../../memcpy_ptr/memcpy_ptr`
                * :doc:`../../pre_incr_ptr/pre_incr_ptr`
                * :doc:`../../post_incr_ptr/post_incr_ptr`
                * :doc:`../../pre_decr_ptr/pre_decr_ptr`
                * :doc:`../../post_decr_ptr/post_decr_ptr`