RandomImage3d

Creates a new three-dimensional image with random values having an equidistribution.

Access to parameter description

RandomImage3d creates an image with random values that follow a uniform distribution.
The output image intensity values are included in the range $\left[Mean-\frac{Range}{2}~..~Mean+\frac{Range}{2}\right]$.
Where $Mean$ and $Range$ are input parameters of the algorithm.
The image histogram is flat, which means that each intensity has an equiprobability to occur.

The type of the output image is set by an enumerate as detailed in the Data Type Management section.

See also

Function Syntax

This function returns the outputImage output parameter.

// Function prototype.
std::shared_ptr< iolink::ImageView >
randomImage3d( RandomImage3d::OutputType outputType,
               int32_t imageSizeX,
               int32_t imageSizeY,
               int32_t imageSizeZ,
               double mean,
               double range,
               std::shared_ptr< iolink::ImageView > outputImage = NULL );

This function returns the outputImage output parameter.

// Function prototype.
random_image_3d( output_type = RandomImage3d.OutputType.UNSIGNED_INTEGER_8_BIT,
                 image_size_x = 1024,
                 image_size_y = 1024,
                 image_size_z = 256,
                 mean = 80,
                 range = 10,
                 output_image = None )

This function returns the outputImage output parameter.

// Function prototype.
public static IOLink.ImageView
RandomImage3d( RandomImage3d.OutputType outputType = ImageDev.RandomImage3d.OutputType.UNSIGNED_INTEGER_8_BIT,
               Int32 imageSizeX = 1024,
               Int32 imageSizeY = 1024,
               Int32 imageSizeZ = 256,
               double mean = 80,
               double range = 10,
               IOLink.ImageView outputImage = null );

Class Syntax

// Command constructor.
RandomImage3d();

// Get method of the outputType parameter.
RandomImage3d::OutputType outputType() const;
// Set method of the outputType parameter.
void setOutputType( const RandomImage3d::OutputType& outputType );

// Get method of the imageSizeX parameter.
int32_t imageSizeX() const;
// Set method of the imageSizeX parameter.
void setImageSizeX( const int32_t& imageSizeX );

// Get method of the imageSizeY parameter.
int32_t imageSizeY() const;
// Set method of the imageSizeY parameter.
void setImageSizeY( const int32_t& imageSizeY );

// Get method of the imageSizeZ parameter.
int32_t imageSizeZ() const;
// Set method of the imageSizeZ parameter.
void setImageSizeZ( const int32_t& imageSizeZ );

// Get method of the mean parameter.
double mean() const;
// Set method of the mean parameter.
void setMean( const double& mean );

// Get method of the range parameter.
double range() const;
// Set method of the range parameter.
void setRange( const double& range );

// Get method of the outputImage parameter.
std::shared_ptr< iolink::ImageView > outputImage() const;
// Set method of the outputImage parameter.
void setOutputImage( std::shared_ptr< iolink::ImageView > outputImage );

// Method to launch the command.
void execute();

// Property of the outputType parameter.
RandomImage3d.output_type
// Property of the imageSizeX parameter.
RandomImage3d.image_size_x
// Property of the imageSizeY parameter.
RandomImage3d.image_size_y
// Property of the imageSizeZ parameter.
RandomImage3d.image_size_z
// Property of the mean parameter.
RandomImage3d.mean
// Property of the range parameter.
RandomImage3d.range
// Property of the outputImage parameter.
RandomImage3d.output_image

// Method to launch the command.
execute()

// Command constructor.
RandomImage3d()

// Property of the outputType parameter.
RandomImage3d.outputType
// Property of the imageSizeX parameter.
RandomImage3d.imageSizeX
// Property of the imageSizeY parameter.
RandomImage3d.imageSizeY
// Property of the imageSizeZ parameter.
RandomImage3d.imageSizeZ
// Property of the mean parameter.
RandomImage3d.mean
// Property of the range parameter.
RandomImage3d.range
// Property of the outputImage parameter.
RandomImage3d.outputImage

// Method to launch the command.
Execute()

Parameters

Class Name	RandomImage3d

Parameter Name

Description

Type

Supported Values

Default Value

imageSizeX

The X size in pixels of the output image.

Int32

>=1

1024

imageSizeY

The Y size in pixels of the output image.

Int32

>=1

1024

imageSizeZ

The Z size in pixels of the output image.

Int32

>=1

256

outputType

The output image data type.

UNSIGNED_INTEGER_8_BIT	The output image data type is 1 byte depth. Its possible intensities are unsigned integer from 0 to 255.
SIGNED_INTEGER_8_BIT	The output image data type is 1 byte depth. Its possible intensities are signed integer from -128 to 127.
SIGNED_INTEGER_16_BIT	The output image data type is 2 bytes depth. Its possible intensities are signed integer from -32,768 to 32,767.
UNSIGNED_INTEGER_16_BIT	The output image data type is 2 bytes depth. Its possible intensities are unsigned integer from 0 to 65,535.
LABEL_16_BIT	The output image data type is 2 bytes depth and interpretation is label. Its possible intensities are unsigned integer from 0 to 65,535.
BINARY	The output image data type is 2 bytes depth and interpretation is binary. Its possible intensities are unsigned integer from 0 to 1.
SIGNED_INTEGER_32_BIT	The output image data type is 4 bytes depth. Its possible intensities are signed integer from -2,147,483,648 to 2,147,483,647.
FLOAT_32_BIT	The output image data type is 4 bytes depth. Its possible intensities are unsigned floating-point from -3.402823E38 to 3.402823E38.

Enumeration

UNSIGNED_INTEGER_8_BIT

mean

The mean of random values.

Float64

Any value

range

The output intensity range of random values.

Float64

outputImage

The output image.

Image

nullptr

Object Examples


RandomImage3d randomImage3dAlgo;
randomImage3dAlgo.setOutputType( RandomImage3d::OutputType::UNSIGNED_INTEGER_8_BIT );
randomImage3dAlgo.setImageSizeX( 128 );
randomImage3dAlgo.setImageSizeY( 128 );
randomImage3dAlgo.setImageSizeZ( 128 );
randomImage3dAlgo.setMean( 80.0 );
randomImage3dAlgo.setRange( 10.0 );
randomImage3dAlgo.execute();

std::cout << "outputImage:" << randomImage3dAlgo.outputImage()->toString();


random_image_3d_algo = imagedev.RandomImage3d()
random_image_3d_algo.output_type = imagedev.RandomImage3d.UNSIGNED_INTEGER_8_BIT
random_image_3d_algo.image_size_x = 128
random_image_3d_algo.image_size_y = 128
random_image_3d_algo.image_size_z = 128
random_image_3d_algo.mean = 80.0
random_image_3d_algo.range = 10.0
random_image_3d_algo.execute()

print( "output_image:", str( random_image_3d_algo.output_image ) )


RandomImage3d randomImage3dAlgo = new RandomImage3d
{
    outputType = RandomImage3d.OutputType.UNSIGNED_INTEGER_8_BIT,
    imageSizeX = 128,
    imageSizeY = 128,
    imageSizeZ = 128,
    mean = 80.0,
    range = 10.0
};
randomImage3dAlgo.Execute();

Console.WriteLine( "outputImage:" + randomImage3dAlgo.outputImage.ToString() );

Function Examples


auto result = randomImage3d( RandomImage3d::OutputType::UNSIGNED_INTEGER_8_BIT, 128, 128, 128, 80.0, 10.0 );

std::cout << "outputImage:" << result->toString();


result = imagedev.random_image_3d( imagedev.RandomImage3d.UNSIGNED_INTEGER_8_BIT, 128, 128, 128, 80.0, 10.0 )

print( "output_image:", str( result ) )


IOLink.ImageView result = Processing.RandomImage3d( RandomImage3d.OutputType.UNSIGNED_INTEGER_8_BIT, 128, 128, 128, 80.0, 10.0 );

Console.WriteLine( "outputImage:" + result.ToString() );

RandomImage3d

- Function Syntax

+ Class Syntax

Parameters

Object Examples

Function Examples

Function Syntax

Class Syntax