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| R2011b Documentation → MATLAB | |
Learn more about MATLAB |
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| Contents | Index |
• Desktop Tools and Development Environment
• Interactive Data Exploration
How MATLAB Recognizes Command Syntax
How to Use the Different Classes
Display Format for Numeric Values
Functions that Return a Logical Result
Using Logical Arrays in Conditional Statements
Using Logical Arrays in Indexing
Converting from Numeric to String
Converting from String to Numeric
Access Data in a Structure Array
Generate Field Names from Variables
Access Data in Nested Structures
Access Multiple Elements of a Nonscalar Struct Array
Ways to Organize Data in Structure Arrays
Memory Requirements for a Structure Array
Pass Contents of Cell Arrays to Functions
Preallocate Memory for a Cell Array
Multilevel Indexing to Access Parts of Cells
Calling a Function By Means of Its Handle
Preserving Data from the Workspace
Applications of Function Handles
Saving and Loading Function Handles
Advanced Operations on Function Handles
Functions That Operate on Function Handles
Examining the Contents of the Map
Reading and Writing Using a Key Index
Modifying Keys and Values in the Map
Mapping to Different Value Types
Combining Integer and Noninteger Data
Combining Cell Arrays with Non-Cell Arrays
Working with Serial Date Numbers
Calling Regular Expression Functions from MATLAB
Parsing Strings with Regular Expressions
Other Benefits of Using Regular Expressions
Function, Mode Options, Operator, Return Value Summaries
Generating a Comma-Separated List
Assigning Output from a Comma-Separated List
Assigning to a Comma-Separated List
How to Use the Comma-Separated Lists
Fast Fourier Transform Example
Providing Help for Your Program
Cleaning Up When the Function Completes
Determining Which Function Gets Called
Resolving Difficulties In Calling Functions
Passing Arguments in Structures or Cell Arrays
Working with the Example Function
Validating Data Passed to a Function
Calling a Function that Uses the Input Parser
Substituting Default Values for Arguments Not Passed
Interpreting Arguments Passed as Structures
Other Features of the Input Parser
Summary of inputParser Methods and Properties
Outputs from Anonymous Functions
Variables Used in the Expression
Examples of Anonymous Functions
Variable Scope in Nested Functions
Using Function Handles with Nested Functions
Restrictions on Assigning to Variables
Accessing Help for a Subfunction
Accessing Help for a Private Function
Getting Comfortable with Objects
What Are Objects and Why Use Them?
Objects In the MATLAB Language
Other Kinds of Objects Used by MATLAB
Using General-Purpose Data Structures
Classes Describe How to Create Objects
Events are Notices Broadcast to Listening Objects
Class of Objects Returned by Methods
Editing Objects with the Variable Editor
Information About Class Members
Getting Help for MATLAB Objects
Testing for Handle or Value Class
Difference Between clear and delete
Getting an Exception at the Command Line
Getting an Exception in Your Program Code
Properties of the MException Class
Methods of the MException Class
Suggestions on How to Handle an Exception
Output from Control Statements
Setting the Value of Timer Object Properties
Starting a Timer at a Specified Time
Blocking the MATLAB Command Line
Specifying the Value of Callback Function Properties
Executing a Timer Callback Function Multiple Times
Handling Callback Function Queuing Conflicts
Testing the Validity of a Timer Object
Finding Invisible Timer Objects
Using Appropriate Logical Operators
Overloading Built-In Functions
Functions Are Generally Faster Than Scripts
Load and Save Are Faster Than File I/O Functions
Avoid Large Background Processes
Using Appropriate Data Storage
How to Avoid Fragmenting Memory
Using the 3GB Switch on Windows Systems
Freeing Up System Resources on Windows Systems
Help Summary for Your Program Files (Contents.m)
Learning to Add Help from Examples
Summary of Creating and Installing HTML Help Files
Creating Function Reference Pages
Creating Function and Block Category Listings
Making Your HTML Help Files Searchable
Summary of Workflow for Providing HTML Help Files
Entities Missing or Out of Order in info.xml
Invalid Constructs in info.xml File
Outdated info.xml File for a MathWorks Product
Completing Commands Using the Tab Key
Suppressing Output to the Screen
Help on Functions from the Help Browser
Help on Functions from the Command Window
Help for Subfunctions and Private Functions
Help for Methods and Overloaded Functions
Using the Find and Replace Utility
Commenting Out a Block of Code
Creating Functions from Command History
Using Lowercase for Function Names
Getting a Function's Name and Path
What Files Does a Function Use?
Dependent Functions, Built-Ins, Classes
Passing Arguments in a Structure
Passing Arguments in a Cell Array
Selecting the Right Data Structures
Functions with One Calling Function
A Quick Way to Examine Variables
Setting Breakpoints from the Command Line
Finding Line Numbers to Set Breakpoints
Stopping Execution on an Error or Warning
Locating an Error from the Error Message
Making Sure Variable Names Are Valid
Do Not Use Function Names for Variables
Checking for Reserved Keywords
Avoid Using i and j for Variables
Avoid Overwriting Variables in Scripts
Protecting Persistent Variables
Comparing Methods of Concatenation
Store Arrays of Strings in a Cell Array
Converting Between Strings and Cell Arrays
Search and Replace Using Regular Expressions
Assigning to a Series of Variables
Short-Circuit Logical Operators
Changing the Counter Variable within a for Loop
Adding a Folder to the Search Path
Handles to Functions Not on the Path
Making Toolbox File Changes Visible to MATLAB
Making Nontoolbox File Changes Visible to MATLAB
Change Notification on Windows
Multiple Conditions in a case Statement
Catching Errors with try-catch
Forcing an Early Return from a Function
Loading Data into the Workspace
Viewing Variables in a MAT-File
Save and Load on Startup or Quit
Passing Filenames as Arguments
Passing Filenames to ASCII Files
Determining Filenames at Run-Time
Reading Files with Different Formats
Interactive Input into Your Program
Constructing Paths and Filenames
Finding the MATLAB Root Folder
Temporary Directories and Filenames
MATLAB Programmer Without Object-Oriented Programming Experience
MATLAB Programmer with Object-Oriented Programming Experience
Approaches to Writing MATLAB Programs
When Should You Start Creating Object-Oriented Programs
Learning Object-Oriented Programming
Implementing the BankAccount Class
Implementing the AccountManager Class
Performing a Task with an Object
Defining the TensileData Class
Creating an Instance and Assigning Data
Restricting Properties to Specific Values
Simplifying the Interface with a Constructor
Displaying TensileData Objects
A Method to Plot Stress vs. Strain
Important Concepts Demonstrated
Why a Handle Class for Doubly Linked Lists?
Grouping Classes with Package Folders
More Information on Class Folders
How to Initialize Property Values
Assigning Property Values from Within the Constructor
Initializing Properties to Unique Values
Referencing Object Properties Using Variables
More Detailed Information On Methods
Defining Class-Related Functions
Overloading Functions and Operators
Simpler Syntax for true/false Attributes
Warnings Caused by Variable/Property Name Conflicts
Exception to Variable/Property Name Rule
Using Switch/Case Statements with Objects
New Features Introduced with Version 7.6
Common Object-Oriented Techniques
How MATLAB Evaluates Expressions
Access to Functions Defined in Private Folders
Class Precedence and MATLAB Path
Referencing Package Members Within Packages
Referencing Package Members from Outside the Package
Behavior of MATLAB Built-In Classes
Behavior of User-Defined Classes
Finding Handle Object Properties
Specifying Property Attributes
Set and Get Methods for Dependent Properties
Set and Get Method Execution and Property Events
Access Methods and Subscripted Reference and Assignment
Performing Additional Steps with Property Access Methods
Responding to Dynamic-Property Events
Defining Property Access Methods for Dynamic Properties
Dynamic Properties and ConstructOnLoad
Determining Which Method Is Invoked
Invoking Superclass Methods in Subclass Methods
Examples of Class Constructors
Initializing the Object Within a Constructor
Errors During Class Construction
Basic Structure of Constructor Methods
Rules for Naming to Avoid Conflicts
Object Scope and Anonymous Functions
Example - Class Method as a Slider Callback
Initializing Arrays of Value Objects
Initial Value of Object Properties
Initializing Arrays of Handle Objects
Referencing Property Values in Object Arrays
Object Arrays with Dynamic Properties
Converting to the Dominant Class
Implementing Converter Methods
Defining Listener Callback Functions
Example Property Event and Listener Classes
Aborting Set When Value Does Not Change
Access Fully Commented Example Code
Techniques Demonstrated in This Example
Methods Inherited from Handle Class
Using the fcneval and fcnview Classes
Implementing the UpdateGraph Event and Listener
Implementing the PostSet Property Event and Listener
Enabling and Disabling the Listeners
Implementation and Interface Inheritance
Referencing Superclasses from Subclasses
Constructor Arguments and Object Initialization
Call Only Direct Superclass from Constructor
Sequence of Constructor Calls in a Class Hierarchy
Using a Subclass to Create an Alias for an Existing Class
Modifying Superclass Properties
Private Local Property Takes Precedence in Method
Defining Handle-Compatible Classes
Subclassing Handle-Compatible Classes
Methods for Handle Compatible Classes
Handle Compatible Classes and Heterogeneous Arrays
Behavior of Built-In Functions with Subclass Objects
Example - A Class to Manage uint8 Data
Example - Adding Properties to a Built-In Subclass
Example - A Class to Represent Hardware
Interfaces and Abstract Classes
Example - Interface for Classes Implementing Graphs
When to Modify Object Saving and Loading
Processing Objects During Load
Avoiding Property Initialization Order Dependency
When to Use Transient Properties
Calling Constructor When Loading
Defining Methods in Enumeration Classes
Defining Properties in Enumeration Classes
Restrictions Applied to Enumeration Classes
Techniques for Defining Enumerations
Why Derive Enumeration Class from Built-In Classes
Superclass Constructor Returns Underlying Value
Selecting Handle- or Value-Based Enumerations
Value-Based Enumeration Classes
Handle-Based Enumeration Classes
Example - Using Enumerations to Represent a State
Built-In and Value-Based Enumeration Classes
Simple and Handle-Based Enumeration Classes
What Causes Loading as a Struct Instead of an Object
Setting Constant Property Default
Metaclass EnumeratedValues Property
Find Class Members with Attribute Settings
Example - Find Properties with Specific Attributes
Which Methods Control Which Behaviors
Overloading and Overriding Functions and Methods
When to Overload MATLAB Functions
Caution When Overloading MATLAB Functions
Default Indexed Reference and Assignment
subsref and subsasgn Within Class Methods - Built-In Called
Understanding Indexed Reference
Avoid Overriding Access Attributes
Understanding Indexed Assignment
A Class with Modified Indexing
Defining end Indexing for an Object
MATLAB Operators and Associated Functions
Summary of the DocPolynom Class
The DocPolynom Constructor Method
Removing Irrelevant Coefficients
Converting DocPolynom Objects to Other Types
Defining Arithmetic Operators for DocPolynom
Overloading MATLAB Functions for the DocPolynom Class
Designing a Class for Financial Assets
The DocAsset Constructor Method
Designing a Class for Stock Assets
Designing a Class for Bond Assets
Designing a Class for Savings Assets
Summary of the DocSavings Class
Designing the DocPortfolio Class
Summary of the DocPortfolio Class
• Graphics
Plotting Tools Interface Overview
Accessing Object Properties with the Property Inspector
Identifying Workspace Data to Plot
Data Sources for Multiobject Graphs
Using Functions to Edit Graphs
Cutting, Copying, and Pasting Plot Objects
Undo/Redo - Eliminating Mistakes
Saving to a Different Format - Exporting Figures
Generating a MATLAB File to Recreate a Graph
Customizing Data Exploration Tools
Display Style - Datatip or Cursor Window
Selection Style - Select Data Points or Interpolate Points on Graph
Exporting Data Value to Workspace Variable
Rotation Style for Complex Graphs
Undo/Redo - Eliminating Mistakes
Enclosing Regions of a Graph in a Rectangle or an Ellipse
Pinning - Attaching to a Point in the Graph
Example - Vertical Distribute, Horizontal Align
Snap to Grid - Aligning Objects on a Grid
Using the Title Option on the Insert Menu
Using the Property Editor to Add a Title
Using the Label Options on the Insert Menu
Using the Property Editor to Add Axis Labels
Creating Text Annotations with the text or gtext Function
Mathematical Symbols, Greek Letters, and TeX Characters
Using Character and Numeric Variables in Text
Example - Using LaTeX to Format Math Equations
Editing Arrows and Line Annotations
Displaying Multiple Plots per Figure
Colors, Line Styles, and Markers
Specifying the Color and Size of Lines
Adding Plots to an Existing Graph
Line Styles for Black and White Output
Combining Linear and Logarithmic Axes
Example - Specifying Ticks and Tick Labels
Coloring 2-D Bars According to Height
Coloring 3-D Bars According to Height
Stacked Bar Graphs to Show Contributing Amounts
Overlaying Other Plots on Bar Graphs
Comparing Data Sets with Area Graphs
Removing a Piece from a Pie Chart
Histograms in Cartesian Coordinates
Histograms in Polar Coordinates
Using Data Cursors with Histograms
Combining Stem Plots with Line Plots
Three-Dimensional Quiver Plots
Changing the Offset of a Contour
Displaying Contours in Polar Coordinates
Example - Visualizing an FFT as a Movie
Updating Plot Object Axis and Color Data
Functions for Reading, Writing, and Displaying Images
8-Bit and 16-Bit Intensity Images
Mathematical Operations Support for uint8 and uint16
Other 8-Bit and 16-Bit Array Support
Converting an 8-Bit RGB Image to Grayscale
Summary of Image Types and Numeric Classes
Subsetting a Graphics Image (Cropping)
Obtaining Information About Graphics Files
Controlling Aspect Ratio and Display Size
Additional Techniques for Fast Image Updating
Specifying Parameters and Options
Default Settings and How to Change Them
Exporting to the Windows or Macintosh Clipboard
Printing with a Specific Paper Size
Exporting in a Specific Graphics Format
Exporting in EPS Format with a TIFF Preview
Exporting a Figure to the Clipboard
Setting the Figure Size and Position
Setting the Paper Size or Type
Setting the Axes Ticks and Limits
Setting Line and Text Characteristics
Setting the Line and Text Color
Specifying a Colorspace for Printing and Exporting
Excluding User Interface Controls form Printed Output
Frequently Used Graphics Formats
Factors to Consider in Choosing a Format
Properties Affected by Choice of Format
Impact of Rendering Method on the Output
Description of Selected Graphics Formats
How to Specify a Format for Exporting
Factors to Consider in Choosing a Driver
How to Specify the Printer Driver to Use
Information on Specific Graphics Objects
Figures Used for Graphing Data
Root Object - The Figure Parent
Example - Creating Core Graphics Objects
High-Level Versus Low-Level Functions
Identifying Plot Objects Programmatically
Plot Objects and Backward Compatibility
Changing the Size of Data Variables
Example - Enclosing Subplots with an Annotation Rectangle
Order Dependence of Setting Property Values
Properties Common to All Objects
How MATLAB Searches for Default Values
Examples - Setting Default Line Styles
The Current Figure, Axes, and Object
Searching for Objects by Property Values - findobj
Specifying the Target for Graphics Output
Preparing Figures and Axes for Graphics
Targeting Graphics Output with newplot
Quitting the MATLAB Environment
Errors in the Close Request Function
Overriding the Close Request Function
Redefining the CloseRequestFcn
Example - Translating Grouped Objects
Properties for Controlling Legend Content
Example - Excluding a Particular Object From a Legend
Example - One Legend Entry for a Group of Objects
Example - Showing Children of Group Objects in Legend
Example - Grouping Objects to Reduce the Legend Entries
User Interface Object Callbacks
Why Use Function Handle Callbacks
Example - Using Function Handles in GUIs
General Performance Guidelines
Specify Axes with Plotting Function for Better Performance
Performance of Bit-Mapped Images
Performance of Surface Objects
Figure Properties That Affect Docking
Example - Specifying Figure Position
Specifying the Figure Colormap
Creating Axes with Specific Characteristics
Using OuterPosition as the ActivePositionProperty
ActivePositionProperty = OuterPosition
ActivePositionProperty = Position
Multiple Axes for Different Scaling
Basic 3-D Plotting: The plot3 function
Functions for Plotting Data Grids
Visualizing Functions of Two Variables
Surface Plots of Nonuniformly Sampled Data
Indexed Color Surfaces - Direct and Scaled Color Mapping
Example - Mapping Surface Curvature to Color
Move Camera Horizontally/Vertically
Move Camera Forward and Backward
Defining the Camera Path as a Stream Line
Moving In and Out on the Scene
Making the Scene Larger or Smaller
Rotation Without Resizing of Graphics Objects
Rotation About the Viewing Axis
Projection Types and Camera Location
Example - axis Command Options
Additional Commands for Setting Aspect Ratio
Default Aspect Ratio Selection
Effects of Setting Aspect Ratio Properties
Example - Displaying Cross-Sections of Surfaces
Example - Displaying Real Objects
Properties That Affect Lighting
Positioning Lights in Data Space
Example - A Transparent Isosurface
Mapping Alpha Data to the Alphamap
Example - Mapping Data to Color or Transparency
Example - Modifying the Alphamap
Behavior of the patch Function
Handling Mixed Data Specification
Coloring Edges with Shared Vertices
Interpolating in Indexed Color Versus Truecolor
Selecting Visualization Techniques
Steps to Create a Volume Visualization
Volume Visualization Functions
Example - Ways to Display MRI Data
Example - Adding Isocaps to an Isosurface
Using Scalar Techniques with Vector Data
Specifying Starting Points for Stream Plots
Accessing Subregions of Volume Data
1. Determine the Range of the Coordinates
2. Add Slice Planes for Visual Context
3. Add Contour Lines to the Slice Planes
4. Define the Starting Points for the Stream Lines
1. Select a Subset of Data to Plot
2. Calculate Curl Angular Velocity and Wind Speed
4. Define the View and Add Lighting
1. Load Data and Calculate Required Values
3. Add Contour Lines to Slice Planes
1. Specify Starting Points of the Data Range to Plot
2. Create Stream Lines to Indicate Particle Paths
4. Calculate the Stream Particle Vertices
2. Add Isocaps to the Isosurface
• Creating Graphical User Interfaces
• About the Simple GUIDE GUI Example
• Lay Out the Simple GUI in GUIDE
• Program the Simple GUIDE GUI
• Use the Completed Simple GUIDE GUI
Create the Simple Programmatic GUI Code File
• Lay Out the Simple Programmatic GUI
• Code the Simple Programmatic GUI
• Use the Completed Simple Programmatic GUI
A Working GUI with Many Components
Add Components to the GUIDE Layout Area
Define User Interface Controls
Define Panels and Button Groups
• Designing for Cross-Platform Compatibility
• Default Callback Properties in GUIDE
• Customizing Callbacks in GUIDE
• Add Code for Components in Callbacks
• Making Multiple GUIs Work Together
Example - Manipulating a Modal Dialog Box for User Input
Example - Individual GUIDE GUIs Cooperating as Icon Manipulation Tools
• GUI for Animating a 3-D View (GUIDE)
About the 3-D Animation Example
View and Run the 3-D Globe GUI
• GUI to Interactively Explore Data in a Table (GUIDE)
• List Box Directory Reader (GUIDE)
• Access Workspace Variables from a List Box (GUIDE)
• A GUI to Set Simulink Model Parameters (GUIDE)
About the Simulink Model Parameters Example
View and Run the Simulink Parameters GUI
How to Use the Simulink Parameters GUI
Program the Slider and Edit Text Components
• An Address Book Reader (GUIDE)
About the Address Book Reader Example
View and Run the Address Book Reader GUI
Run the Address Book Reader GUI
Load an Address Book Into the Reader
The Contact Phone Number Callback
Page Through Address Book - Prev/Next
• Use a Modal Dialog Box to Confirm an Operation (GUIDE)
About the Modal Dialog Example
View and Run the Modal Dialog Box GUIs
Set Up the Close Confirmation Dialog
Set Up the GUI with the Close Button
• Time Data Updates from a GUI (GUIDE)
• Create and Run a Programmatic GUI
Create Figures for Programmatic GUIs
• Add Components to a Programmatic GUI
• Compose and Code GUIs with Interactive Tools
Set Positions of Components Interactively
Set Font Characteristics Interactively
• Set Tab Order in a Programmatic GUI
• Create Menus for a Programmatic GUI
• Create Toolbars for Programmatic GUIs
• Design Programmatic GUIs for Cross-Platform Compatibility
• Initialize a Programmatic GUI
• Examples: Program GUI Components
• Share Data Among a GUI's Callbacks
• GUI with Axes, Menu, and Toolbar
About the Axes, Menu, and Toolbar Example
View and Run the AxesMenuToolbar Code
Generate the Graphing Commands and Data
• GUI that Displays and Graphs Tabular Data
View and Run the tableplot Code
Set Up and Interact with the uitable
Handle Graphics Property Browser
Why Write Custom Applications?
Exchanging Data Files Between Platforms
Overview of matimport.c Example
Declare Variables for External Data
Read External Data into mxArray Data
Creating a MAT-File in Fortran
Building on Windows Operating Systems
Deploying MAT-File Applications
Limitations to Shared Library Support
Troubleshooting Shared Library Applications
Examples of Passing Data to Shared Libraries
Manually Converting Data Passed to Functions
Constructing a libpointer Object
Creating a Pointer to a Primitive Type
Creating a Pointer to a Structure
Passing a Pointer to the First Element of an Array
Putting a String into a Void Pointer
Memory Allocation for an External Library
Working with Structures Examples
Example of Passing a MATLAB Structure
Using the Structure as an Object
Introduction to Source MEX-Files
Overview of Creating a Binary MEX-File
Using Help Files with MEX-Files
Workspace for MEX-File Functions
Selecting a Compiler on Windows Platforms
Selecting a Compiler on UNIX Platforms
Overview of Building the timestwo MEX-File
Understanding MEX-File Problems
Compiler and Platform-Specific Issues
Custom Building on UNIX Systems
Custom Building on Windows Systems
Creating a MEX-File Using LAPACK and BLAS Functions
Preserving Input Values from Modification
Passing Arguments to Fortran Functions from C/C++ Programs
Passing Arguments to Fortran Functions from Fortran Programs
Handling Complex Numbers in LAPACK and BLAS Functions
Modifying the Function Name on UNIX Systems
MEX Uses 32-Bit API by Default
How to Upgrade MEX-Files to Use the 64-Bit API
Passing Two or More Inputs or Outputs
Passing Structures and Cell Arrays
Handling 8-, 16-, and 32-Bit Data
Manipulating Multidimensional Numerical Arrays
Calling Functions from C/C++ MEX-Files
Using C++ Features in MEX-Files
Debugging on the Microsoft Windows Platforms
Building Cross-Platform Applications
Specifying Constant Literal Values
Replacing fseek and ftell with 64-Bit Functions
Determining the Size of an Open File
Determining the Size of a Closed File
Using the Fortran %val Construct
Passing Two or More Inputs or Outputs
Calling Functions from Fortran MEX-Files
Debugging on Microsoft Windows Platforms
Building Cross-Platform Applications
What You Need to Build Engine Applications
Calling MATLAB Software from a C Application
Calling MATLAB Software from a C++ Application
Calling MATLAB Software from a Fortran Application
Attaching to an Existing MATLAB Session
Building and Running Engine Applications on Windows Operating Systems
Windows Engine Example engwindemo
Building and Running Engine Applications on UNIX Operating Systems
Files Required by Engine Applications
Debugging MATLAB Functions Used in Engine Applications
Benefits of the MATLAB Java Interface
Who Should Use the MATLAB Java Interface
To Learn More About Java Programming Language
Platform Support for JVM Software
Using a Different Version of JVM Software
Making Java Classes Available in MATLAB Workspace
Loading Java Class Definitions
Locating Native Method Libraries
Java Classes Contained in a JAR File
Saving and Loading Java Objects to MAT-Files
Finding the Public Data Fields of an Object
Accessing Private and Public Data
Determining the Class of an Object
Invoking Static Methods on Java Classes
Obtaining Information About Methods
Java Methods That Affect MATLAB Commands
How MATLAB Software Handles Undefined Methods
How MATLAB Software Handles Java Exceptions
Method Execution in MATLAB Software
How MATLAB Software Represents the Java Array
Creating an Array of Objects in MATLAB Software
Accessing Elements of a Java Array
Creating a New Array Reference
Creating a Copy of a Java Array
Conversion of MATLAB Argument Data
Passing Data to Overloaded Methods
Conversion of Java Return Types
Converting Objects to MATLAB Types
Description of Function phonebook
Description of Function pb_lookup
Description of Function pb_add
Description of Function pb_remove
Description of Function pb_change
Description of Function pb_listall
Description of Function pb_display
Description of Function pb_keyfilter
Benefits of the MATLAB .NET Interface
Why Use the MATLAB .NET Interface?
What's the Difference Between the MATLAB .NET Interface and MATLAB Builder NE?
Using a .NET assembly in MATLAB
To Learn More About the .NET Framework
Loading .NET Assemblies into MATLAB
What Classes Are in a .NET Assembly?
Using the delete Function on a .NET Object
How MATLAB Maps C# Property and Field Access Modifiers
Call .NET Methods with Optional Arguments
Calling .NET Extension Methods
Call .NET Properties That Take an Argument
How MATLAB Represents .NET Operators
Limitations to Support of .NET Methods
Limitations to Support of .NET Events
Handling Data Returned from a .NET Object
Accessing .NET Array Elements in MATLAB
Converting .NET Arrays to Cell Arrays
Limitations to Support of .NET Arrays
Call a .NET Delegate in MATLAB
Create a Delegate from a .NET Object Method
Create a Delegate Instance Bound to a .NET Method
Use .NET Delegates With the out and ref Type Arguments
Combine and Remove .NET Delegates
Calling a .NET Method Asynchronously
Limitations to Support of .NET Delegates
Iterate Through a .NET Enumeration
Use .NET Enumerations to Test for Conditions
Example - Read Special System Folder Path
Use Bit Flags with .NET Enumerations
Limitations to Support of .NET Enumerations
Work with Microsoft Word Documents Using .NET
Accessing Items in a .NET Collection
Convert a .NET Collection to a MATLAB Array
Display .NET Generic Methods Using Reflection
Create .NET Object From Constructor
View Information About .NET Object
Introduction to .NET Data Types
Use .NET Numeric Types in MATLAB
Do Not Use ClassName.PropertyName Syntax for Static Properties
Call .NET Methods That Use the out Keyword
Call .NET Methods That Use the ref Keyword
Call .NET Methods That Use the params Keyword
Create a Cell Array for Each System.Object
Create MATLAB Variables from the .NET Data
Call MATLAB Functions with MATLAB Variables
The MATLAB COM Automation Server
Registering Controls and Servers
Overview of MATLAB COM Client Examples
Example - Using Internet Explorer Program in a MATLAB Figure
Example - Grid ActiveX Control in a Figure
Example - Reading Excel Spreadsheet Data
MATLAB Client and In-Process Server
MATLAB Client and Out-of-Process Server
COM Implementations Supported by MATLAB Software
Client Application and MATLAB Automation Server
Client Application and MATLAB Engine Server
Identifying Objects and Interfaces
Setting the Value of a Property
Using Enumerated Values for Properties
Properties That Take Arguments
Exceptions to Using Implicit Syntax
Specifying Enumerated Parameters
Returning Multiple Output Arguments
Argument Callouts in Error Messages
Functions for Working with Events
Responding to Events - an Overview
Responding to Events - Examples
Writing Event Handlers as MATLAB File Subfunctions
Releasing COM Interfaces and Objects
Handling Data from a COM Object
Passing MATLAB Data to ActiveX Objects
Passing MATLAB SAFEARRAY to COM Object
Reading SAFEARRAY from a COM Object in MATLAB Applications
Displaying MATLAB Syntax for COM Objects
Using a MATLAB Application as an Automation Client
Connecting to an Existing Excel Application
Running a Macro in an Excel Server Application
Using Microsoft Forms 2.0 Controls
Using MATLAB Application as a DCOM Client
MATLAB COM Support Limitations
Connecting to an Existing MATLAB Server
Executing Commands in the MATLAB Server
Exchanging Data with the Server
Terminating the Server Process
Specifying a Shared or Dedicated Server
Using MATLAB Application as a DCOM Server
Example - Viewing Methods from a Visual Basic .NET Client
Example - Calling MATLAB Software from a Web Application
Example - Calling MATLAB Software from a C# Client
What You Need to Use Web Services with MATLAB
Typical Applications Using Web Services with MATLAB
How MATLAB Accesses Web Services
Example - createClassFromWsdl Function
Tools for Creating Web Services
Supported Serial Port Interface Standards
Using the Examples with Your Device
The Serial Port Interface Standard
Connecting Two Devices with a Serial Cable
Serial Port Signals and Pin Assignments
Finding Serial Port Information for Your Platform
Using Virtual USB Serial Ports
Configuring and Returning Properties
Configuring Properties During Object Creation
The Serial Port Object Display
Creating an Array of Serial Port Objects
Example - Introduction to Writing and Reading Data
Controlling Access to the MATLAB Command Line
Example - Writing and Reading Text Data
Example - Parsing Input Data Using textscan
Example - Introduction to Events and Callbacks
Event Types and Callback Properties
Responding To Event Information
Creating and Executing Callback Functions
Enabling Callback Functions After They Error
Example - Using Events and Callbacks
Signaling the Presence of Connected Devices
Controlling the Flow of Data: Handshaking
Example: Introduction to Recording Information
Creating Multiple Record Files
Example: Recording Information to Disk
Using Serial Port Objects on Different Platforms
• Examples
| On this page… |
|---|
If you need more advanced statistics features, you might want to use the Statistics Toolbox™ software. For more information see the Statistics Toolbox documentation.
Use the following MATLAB functions to calculate the descriptive statistics for your data.
Statistics Function Summary
Function | Description |
|---|---|
Maximum value | |
Average or mean value | |
Median value | |
Smallest value | |
Most frequent value | |
Standard deviation | |
Variance, which measures the spread or dispersion of the values |
The following examples apply MATLAB functions to calculate descriptive statistics:
This example shows how to use MATLAB functions to calculate the maximum, mean, and standard deviation values for a 24-by-3 matrix called count. MATLAB computes these statistics independently for each column in the matrix.
% Load the sample data load count.dat % Find the maximum value in each column mx = max(count) % Calculate the mean of each column mu = mean(count) % Calculate the standard deviation of each column sigma = std(count)
The results are
mx =
114 145 257
mu =
32.0000 46.5417 65.5833
sigma =
25.3703 41.4057 68.0281
To get the row numbers where the maximum data values occur in each data column, specify a second output parameter indx to return the row index. For example:
[mx,indx] = max(count)
These results are
mx =
114 145 257
indx =
20 20 20
Here, the variable mx is a row vector that contains the maximum value in each of the three data columns. The variable indx contains the row indices in each column that correspond to the maximum values.
To find the minimum value in the entire count matrix, reshape this 24-by-3 matrix into a 72-by-1 column vector by using the syntax count(:). Then, to find the minimum value in the single column, use the following syntax:
min(count(:))
ans =
7
Subtract the mean from each column of the matrix by using the following syntax:
% Get the size of the count matrix [n,p] = size(count) % Compute the mean of each column mu = mean(count) % Create a matrix of mean values by % replicating the mu vector for n rows MeanMat = repmat(mu,n,1) % Subtract the column mean from each element % in that column x = count - MeanMat
Note Subtracting the mean from the data is also called detrending. For more information about removing the mean or the best-fit line from the data, see Detrending Data. |
The Data Statistics dialog box helps you calculate and plot descriptive statistics with the data. This example shows how to use MATLAB Data Statistics to calculate and plot statistics for a 24-by-3 matrix, called count. The data represents how many vehicles passed by traffic counting stations on three streets.
This section contains the following topics:
Load and plot the data:
load count.dat
[n,p] = size(count);
% Define the x-values
t = 1:n;
% Plot the data and annotate the graph
plot(t,count)
legend('Station 1','Station 2','Station 3',...
'Location','northwest')
xlabel('Time'), ylabel('Vehicle Count')
Note The legend contains the name of each data set, as specified by the legend function: Station 1, Station 2, and Station 3. A data set refers to each column of data in the array you plotted. If you do not name the data sets, default names are assigned: data1, data2, and so on. |
In the Figure window, select Tools > Data Statistics .
The Data Statistics dialog box opens and displays descriptive statistics for the X- and Y-data of the Station 1 data set.
Select a different data set in the Statistics for list: Station 2.
This displays the statistics for the X and Y data of the Station 2 data set.
Select the check box for each statistic you want to display on the plot, and then click Save to workspace.
For example, to plot the mean of Station 2, select the mean check box in the Y column.
This plots a horizontal line to represent the mean of Station 2 and updates the legend to include this statistic.
The Data Statistics GUI uses colors and line styles to distinguish statistics from the data on the plot. This portion of the example shows how to customize the display of descriptive statistics on a plot, such as the color, line width, line style, or marker.
Note Do not edit display properties of statistics until you finish plotting all the statistics with the data. If you add or remove statistics after editing plot properties, the changes to plot properties are lost. |
To modify the display of data statistics on a plot:
In the MATLAB Figure window, click the
(Edit Plot)
button in the toolbar.
This step enables plot editing.
Double-click the statistic on the plot for which you want to edit display properties. For example, double-click the horizontal line representing the mean of Station 2.
This step opens the Property Editor below the MATLAB Figure window, where you can modify the appearance of the line used to represent this statistic.
In the Property Editor, specify the Line and Marker styles, sizes, and colors.
This portion of the example shows how to save statistics in the Data Statistics GUI to the MATLAB workspace.
Note When your plot contains multiple data sets, save statistics for each data set individually. To display statistics for a different data set, select it from the Statistics for list in the Data Statistics GUI. |
In the Data Statistics dialog box, click the Save to workspace button.
In the Save Statistics to Workspace dialog box, select options to save statistics for either X data, Y data, or both. Then, enter the corresponding variable names.
In this example, save only the Y data. Enter the variable name as Loc2countstats.
Click OK.
This step saves the descriptive statistics to a structure. The new variable is added to the MATLAB workspace.
To view the new structure variable, type the variable name at the MATLAB prompt:
Loc2countstats
Loc2countstats =
min: 9
max: 145
mean: 46.5417
median: 36
mode: 9
std: 41.4057
range: 136
This portion of the example shows how to generate a file containing MATLAB code that reproduces the format of the plot and the plotted statistics with new data.
In the Figure window, select File > Generate Code.
This step creates a function code file and displays it in the MATLAB Editor. The code can programmatically reproduce what you did interactively with the Data Statistics GUI and the Property Editor.
Change the name of the function on the first line of the file from createfigure to something more specific, like countplot. Save the file to your current folder with the file name countplot.m.
Generate some new, random count data:
randcount = 300*rand(24,3);
Reproduce the plot with the new data and the recomputed statistics:
countplot(t,randcount)
 | Differencing Data | Interactive Data Exploration |  |
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