Table of Contents
Variables
No need for types. i.e.,
All variables are created with double precision unless specified and they are matrices.
After these statements, the variables are 1×1 matrices with double precision
Array, Matrix
- a vector x = [1 2 5 1]
x =
1 2 5 1
- a matrix x = [1 2 3; 5 1 4; 3 2 -1]
x =
1 2 3
5 1 4
3 2 -1
transpose y = x’
y =
1
2
5
1
Long Array, Matrix
t =1:10
t =
1 2 3 4 5 6 7 8 9 10
k = 2:-0.5:-1
k =
2 1.5 1 0.5 0 -0.5 -1
B = [1:4; 5:8]
B =
1 2 3 4
5 6 7 8
Generating Vectors from functions
- zeros(M,N) :: MxN matrix of zeros
x = zeros(1,3)
x = 0 0 0
- ones(M,N) :: MxN matrix of ones
x = ones(1,3)
x = 1 1 1
- rand(M,N) MxN matrix of uniformly distributed random numbers on (0,1)
x = rand(1,3)
x = [0.9501 0.2311 0.6068]
Matrix Index
The matrix indices begin from 1 (not 0 (as in C))
The matrix indices must be positive integer
Given:
A(-2), A(0)
Error: ??? Subscript indices must either be real positive integers or logicals.
A(4,2)
Error: ??? Index exceeds matrix dimensions.
Concatenation of Matrices
x = [1 2], y = [4 5], z=[ 0 0]
A = [ x y]
1 2 4 5
B = [x ; y]
1 2
4 5
C = [x y ;z]
Error:
??? Error using ==> vertcat CAT arguments dimensions are not consistent.
Operators (arithmetic)
+ addition
– subtraction
* multiplication
division
^ power
‘ complex conjugate transpose
Matrices Operations
Operators (Element by Element)
.* element-by-element multiplication
./ element-by-element division
.^ element-by-element power
The use of “.” – “Element” Operation
K= x^2
Erorr:
??? Error using ==> mpower Matrix must be square.
B=x*y
Erorr:
??? Error using ==> mtimes Inner matrix dimensions must agree.
Basic Task: Plot the function sin(x) between 0≤x≤4π
Create an x-array of 100 samples between 0 and 4π.
Calculate sin(.) of the x-array
Plot the y-array
Plot the function e-x/3sin(x) between 0≤x≤4π
Create an x-array of 100 samples between 0 and 4π.
Calculate sin(.) of the x-array
Calculate e-x/3 of the x-array
Multiply the arrays y and y1
Plot the function e-x/3sin(x) between 0≤x≤4π
Multiply the arrays y and y1 correctly
Plot the y2-array
Display Facilities
- plot(.)
- stem(.)
- title(.)
- xlabel(.)
- ylabel(.)
Operators (relational, logical)
== Equal to
~= Not equal to
< Strictly smaller
Strictly greater
<= Smaller than or equal to
= Greater than equal to
& And operator
| Or operator
Flow Control
if
for
while
break
….
Control Structures
- If Statement Syntax
if (Condition_1)
Matlab Commands
elseif (Condition_2)
Matlab Commands
elseif (Condition_3)
Matlab Commands
else
Matlab Commands
end
Some Dummy Examples
if ((a>3) & (b==5))
Some Matlab Commands;
end
if (a<3)
Some Matlab Commands;
elseif (b~=5)
Some Matlab Commands;
end
if (a<3)
Some Matlab Commands;
else
Some Matlab Commands;
end
- For loop syntax
for i=Index_Array
Matlab Commands
end
Some Dummy Examples
for i=1:100
Some Matlab Commands;
end
for j=1:3:200
Some Matlab Commands;
end
for m=13:-0.2:-21
Some Matlab Commands;
end
for k=[0.1 0.3 -13 12 7 -9.3]
Some Matlab Commands;
end
- While Loop Syntax
while (condition)
Matlab Commands
end
Dummy Example
while ((a>3) & (b==5))
Some Matlab Commands;
end
Use of M-File
- Extension “.m”
- A text file containing script or function or program to run
Writing User Defined Function
- Functions are m-files which can be executed by specifying some inputs and supply some desired outputs.
- The code telling the Matlab that an m-file is actually a function is
- You should write this command at the beginning of the m-file and you should save the m-file with a file name same as the function name
- Examples
- Write a function : out=squarer (A, ind)
- Which takes the square of the input matrix if the input indicator is equal to 1
- And takes the element by element square of the input matrix if the input indicator is equal to 2
- Another function which takes an input array and returns the sum and product of its elements as outputs
- The function sumprod(.) can be called from command window or an m-file as
Notes:
- “%” is the neglect sign for Matlab (equaivalent of “//” in C). Anything after it on the same line is neglected by Matlab compiler.
- Sometimes slowing down the execution is done deliberately for observation purposes. You can use the command “pause” for this purpose
Useful Commands
The two commands used most by Matlab users are
