Main Content

imageDatastore

Datastore for image data

Description

Use an ImageDatastore object to manage a collection of image files, where each individual image fits in memory, but the entire collection of images does not necessarily fit. You can create an ImageDatastore object using the imageDatastore function, specify its properties, and then import and process the data using object functions.

Creation

Description

imds = imageDatastore(location) creates a datastore imds from the collection of image data specified by location.

example

imds = imageDatastore(location,Name,Value) specifies additional parameters and properties for imds using one or more name-value pair arguments.

Input Arguments

expand all

Files or folders included in the datastore, specified as a FileSet object, as file paths, or as a DsFileSet object.

  • FileSet object — You can specify location as a FileSet object. Specifying the location as a FileSet object leads to a faster construction time for datastores compared to specifying a path or DsFileSet object. For more information, see matlab.io.datastore.FileSet.

  • File path — You can specify a single file path as a character vector or string scalar. You can specify multiple file paths as a cell array of character vectors or a string array.

  • DsFileSet object — You can specify a DsFileSet object. For more information, see matlab.io.datastore.DsFileSet.

Files or folders may be local or remote:

  • Local files or folders — Specify local paths to files or folders. If the files are not in the current folder, then specify full or relative paths. Files within subfolders of the specified folder are not automatically included in the datastore. You can use the wildcard character (*) when specifying the local path. This character specifies that the datastore include all matching files or all files in the matching folders.

  • Remote files or folders — Specify full paths to remote files or folders as a uniform resource locator (URL) of the form hdfs:///path_to_file. For more information, see Work with Remote Data.

When you specify a folder, the datastore includes only files with supported file formats and ignores files with any other format. To specify a custom list of file extensions to include in your datastore, see the FileExtensions property.

The imageDatastore function supports files that have an imformats format.

Example: "file1.jpg"

Example: "../dir/data/file1.png"

Example: ["C:\dir\data\file1.tif","C:\dir\data\file2.tif"]

Example: "C:\dir\data\*.jpg"

Name-Value Arguments

Specify optional pairs of arguments as Name1=Value1,...,NameN=ValueN, where Name is the argument name and Value is the corresponding value. Name-value arguments must appear after other arguments, but the order of the pairs does not matter.

Before R2021a, use commas to separate each name and value, and enclose Name in quotes.

Example: imds = imageDatastore("C:\dir\imagedata","FileExtensions",[".jpg",".tif"])

Subfolder inclusion flag, specified as the name-value argument consisting of "IncludeSubfolders" and true or false. Specify true to include all files and subfolders within each folder or false to include only the files within each folder.

If you do not specify "IncludeSubfolders", then the default value is false.

Example: "IncludeSubfolders",true

Data Types: logical | double

Image file extensions, specified as the comma-separated pair consisting of "FileExtensions" and a character vector, cell array of character vectors, string scalar, or string array. The specified extensions do not require an imformats format, and you can use the empty quotes "" to represent files without extensions. If you do not specify "FileExtensions", then imageDatastore automatically includes all images with imformats extensions in the specified path. If you want to include extensions that imformats does not recognize, then specify all extensions.

Example: "FileExtensions",".jpg"

Example: "FileExtensions",[".jpg",".png"]

Data Types: char | cell | string

Alternate file system root paths, specified as the name-value argument consisting of "AlternateFileSystemRoots" and a string vector or a cell array. Use "AlternateFileSystemRoots" when you create a datastore on a local machine, but need to access and process the data on another machine (possibly of a different operating system). Also, when processing data using the Parallel Computing Toolbox™ and the MATLAB® Parallel Server™, and the data is stored on your local machines with a copy of the data available on different platform cloud or cluster machines, you must use "AlternateFileSystemRoots" to associate the root paths.

  • To associate a set of root paths that are equivalent to one another, specify "AlternateFileSystemRoots" as a string vector. For example,

    ["Z:\datasets","/mynetwork/datasets"]

  • To associate multiple sets of root paths that are equivalent for the datastore, specify "AlternateFileSystemRoots" as a cell array containing multiple rows where each row represents a set of equivalent root paths. Specify each row in the cell array as either a string vector or a cell array of character vectors. For example:

    • Specify "AlternateFileSystemRoots" as a cell array of string vectors.

      {["Z:\datasets", "/mynetwork/datasets"];...
       ["Y:\datasets", "/mynetwork2/datasets","S:\datasets"]}

    • Alternatively, specify "AlternateFileSystemRoots" as a cell array of cell array of character vectors.

      {{'Z:\datasets','/mynetwork/datasets'};...
       {'Y:\datasets', '/mynetwork2/datasets','S:\datasets'}}

The value of "AlternateFileSystemRoots" must satisfy these conditions:

  • Contains one or more rows, where each row specifies a set of equivalent root paths.

  • Each row specifies multiple root paths and each root path must contain at least two characters.

  • Root paths are unique and are not subfolders of one another.

  • Contains at least one root path entry that points to the location of the files.

For more information, see Set Up Datastore for Processing on Different Machines or Clusters.

Example: ["Z:\datasets","/mynetwork/datasets"]

Data Types: string | cell

Source providing label data, specified as the name-value argument consisting of "LabelSource" and either "none" or "foldernames". If "none" is specified, then the Labels property is empty. If "foldernames" is specified, then labels are assigned according to the folder names and stored in the Labels property. You can later modify the labels by accessing the Labels property directly.

The "LabelSource" name-value argument is not usable if a FileSet object is used as the file or folder location.

Data Types: char | string

In addition to these name-value pairs, you also can specify any of the properties on this page as name-value pairs, except for the Files property.

Properties

expand all

ImageDatastore properties describe the data and specify how to read the data from the datastore. You can specify the value of ImageDatastore properties using name-value arguments when you create the datastore object. To view or modify a property after creating the object, use the dot notation.

For example, you can create an ImageDatastore object and specify the "ReadFcn" parameter:

imds = imageDatastore("peppers.png","ReadFcn",@customreader);
Alternatively, you can assign "ReadFcn" to @customreader after you create the ImageDatastore:
imds = imageDatastore("peppers.png");
imds.ReadFcn = @customreader;

Files included in the datastore, resolved as a character vector, cell array of character vectors, string scalar, or string array. Each character vector or string is a full path to a file. The location argument in the imageDatastore and datastore functions defines Files when the datastore is created.

Example: {"C:\dir\data\file1.jpg";"C:\dir\data\file2.jpg"}

Data Types: char | cell | string

This property is read-only.

Folders used to construct datastore, returned as a cell array of character vectors. The cell array is oriented as a column vector. Each character vector is a path to a folder that contains data files. The location argument in the imageDatastore and datastore functions defines Folders when the datastore is created.

Data Types: cell

Number of image files to read in a call to the read function, specified as a positive integer scalar. Each call to the read function reads at most ReadSize images.

File labels for the files in the datastore, specified as a vector, a cell array, or a string array. The order of the labels in the array corresponds to the order of the associated files in the datastore. If you specify "LabelSource","foldernames" when creating the ImageDatastore object, then the label name for a file is the name of the folder containing it. If you do not specify "LabelSource","foldernames", then Labels is an empty cell array or string array. If you change the Files property after the datastore is created, then the Labels property is not automatically updated to incorporate the added files.

Data Types: categorical | cell | logical | double | single | string

Function that reads image data, specified as a function handle. The function must take an image file name as input, and then it outputs the corresponding image data. For example, if customreader is the specified function to read the image data, then it must have a signature similar to this:

function data = customreader(filename)
...
end
If more than one output argument exists, then imageDatastore uses only the first argument and ignores the rest.

Note

Using ReadFcn to transform or pre-process 2-D images is not recommended. For file formats recognized by imformats, specifying ReadFcn slows down the performance of imageDatastore. For more efficient ways to transform and pre-process images, see Preprocess Images for Deep Learning (Deep Learning Toolbox).

Example: @customreader

Data Types: function_handle

This property is read-only.

Formats supported for writing, returned as a row vector of strings. This property specifies the possible output formats when using writeall to write output files from the datastore.

This property is read-only.

Default output format, returned as a string scalar. This property specifies the default format when using writeall to write output files from the datastore.

Data Types: string

Object Functions

countEachLabelCount files in ImageDatastore labels
hasdataDetermine if data is available to read
numpartitionsNumber of datastore partitions
partitionPartition a datastore
previewPreview subset of data in datastore
readRead data in datastore
readallRead all data in datastore
readimageRead specified image from datastore
writeallWrite datastore to files
resetReset datastore to initial state
shuffleShuffle all data in datastore
splitEachLabelSplit ImageDatastore labels by proportions
subsetCreate subset of datastore or FileSet
transformTransform datastore
combineCombine data from multiple datastores
isPartitionableDetermine whether datastore is partitionable
isSubsettableDetermine whether datastore is subsettable
isShuffleableDetermine whether datastore is shuffleable

Examples

collapse all

Create an ImageDatastore object associated with all .tif files in the MATLAB® path and its subfolders. Use the folder names as label names.

imds = imageDatastore(fullfile(matlabroot,"toolbox","matlab"),...
"IncludeSubfolders",true,"FileExtensions",".tif","LabelSource","foldernames")
imds = ImageDatastore with properties:
                       Files: {
                              '...\matlab\toolbox\matlab\demos\example.tif';
                              '...\matlab\toolbox\matlab\imagesci\corn.tif'
                              }
                     Folders: {
                              '...\matlab\toolbox\matlab'
                              }
                      Labels: [demos; imagesci]
    AlternateFileSystemRoots: {}
                    ReadSize: 1
      SupportedOutputFormats: ["png"    "jpg"    "jpeg"    "tif"    "tiff"]
         DefaultOutputFormat: "png"
                     ReadFcn: @readDatastoreImage

Create a FileSet object containing four images. Create an ImageDatastore object.

fs = matlab.io.datastore.FileSet(["street1.jpg","street2.jpg","peppers.png","corn.tif"])
fs = 
  FileSet with properties:

                    NumFiles: 4
                NumFilesRead: 0
                    FileInfo: Show FileInfo for all 4 files
    AlternateFileSystemRoots: {}

imds = imageDatastore(fs)
imds = ImageDatastore with properties:
                       Files: {
                              '...\matlab\toolbox\matlab\demos\street1.jpg';
                              '...\matlab\toolbox\matlab\demos\street2.jpg';
                              ' ...\matlab\toolbox\matlab\imagesci\peppers.png'
                               ... and 1 more
                              }
                     Folders: {
                              '...\matlab\toolbox\matlab\demos';
                              '...\matlab\toolbox\matlab\imagesci'
                              }
    AlternateFileSystemRoots: {}
                    ReadSize: 1
                      Labels: {}
      SupportedOutputFormats: ["png"    "jpg"    "jpeg"    "tif"    "tiff"]
         DefaultOutputFormat: "png"
                     ReadFcn: @readDatastoreImage

Preview the first image.

imshow(preview(imds));

image of street

Read only the second and third images, one at a time.

for i = 2:3
    img = readimage(imds,i);
end

Read all four images and view the third image.

imgs = readall(imds);
imshow(imgs{3})

image of vegetables

Limitations

  • Using ReadFcn to transform or pre-process 2-D images is not recommended. For file formats recognized by imformats, specifying ReadFcn slows down the performance of imageDatastore. For more efficient ways to transform and pre-process images, see Preprocess Images for Deep Learning (Deep Learning Toolbox).

Extended Capabilities

Version History

Introduced in R2015b