When you call a .NET method or function from MATLAB®, MATLAB automatically converts arguments into .NET types. MATLAB performs this conversion on each passed argument, except for arguments that are already .NET objects. The following topics provide information about passing specific data types to .NET methods.
The following table shows the MATLAB base types for passed arguments and the corresponding .NET types defined for input arguments. Each row shows a MATLAB type followed by the possible .NET argument matches, from left to right in order of closeness of the match.
MATLAB Primitive Type Conversion Table
| MATLAB Type | Closest Type <————— Other
Matching .NET Types —————> Least
Close Type Preface Each .NET Type with System. | |||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| logical | Boolean | Byte | SByte | Int16 | UInt16 | Int32 | UInt32 | Int64 | UInt64 | Single | Double | Object |
| double | Double | Single | Decimal | Int64 | UInt64 | Int32 | UInt32 | Int16 | UInt16 | SByte | Byte | Object |
| single | Single | Double | Decimal | Object | ||||||||
| int8 | SByte | Int16 | Int32 | Int64 | Single | Double | Object | |||||
| uint8 | Byte | UInt16 | UInt32 | UInt64 | Single | Double | Object | |||||
| int16 | Int16 | Int32 | Int64 | Single | Double | Object | ||||||
| uint16 | UInt16 | UInt32 | UInt64 | Single | Double | Object | ||||||
| int32 | Int32 | Int64 | Single | Double | Object | |||||||
| uint32 | UInt32 | UInt64 | Single | Double | Object | |||||||
| int64 | Int64 | Double | Object | |||||||||
| uint64 | UInt64 | Double | Object | |||||||||
| char | Char | String | Object | |||||||||
| string | String | Object | ||||||||||
The following primitive .NET argument types do not have direct MATLAB equivalent types. MATLAB passes these types as is:
System.IntPtr
System.UIntPtr
System.Decimal
enumerated types
You can pass a cell array to a .NET property or method expecting an array of
System.Object or System.String arguments, as
shown in the following table.
MATLAB Cell Array Conversion Table
| MATLAB Type | Closest Type <——— Other Matching .NET Types ———> Least Close Type | ||
|---|---|---|---|
Cell array of string scalars and/or character arrays | System.String[] | System.Object[] | System.Object |
Cell array (no string or character arrays) | System.Object[] | System.Object | |
Elements of a cell can be any of the following supported types:
Any non-sparse, non-complex built-in numeric type shown in the MATLAB Primitive Type Conversion Table
string
char
logical
cell array
.NET object
When calling a method that has an argument of a particular .NET class, pass an object that is an instance of that class or its derived classes. You can create such an object using the class constructor, or use an object returned by a member of the class. When a class member returns a .NET object, MATLAB leaves it as a .NET object. Use this object to interact with other class members.
MATLAB automatically converts:
char array to a .NET System.String
object. To pass an array of char arrays, create a cell
array.
string scalar to a .NET System.String
object.
Each string scalar in a string array to
a .NET System.String object. The string
array is converted to System.String[].
String value <missing> to null.
string.empty to System.String[] with
size of 0.
You can pass any of the following to a .NET method with
System.Nullable<ValueType> input arguments:
Variable of the underlying <ValueType>
null value, []
System.Nullable<ValueType> object
When you pass a MATLAB variable of type ValueType, MATLAB reads the signature and automatically converts your variable to a
System.Nullable<ValueType> object. For a complete list of
possible ValueType values accepted for
System.Nullable<ValueType>, refer to the MATLAB Primitive Type Conversion Table.
For examples, see Pass System.Nullable Arguments.
MATLAB uses empty double ([]) values for
reference type arguments.
MATLAB does not support passing the following MATLAB types to .NET methods:
Structure arrays
Sparse arrays
Complex numbers
MATLAB chooses the correct .NET method signature (including constructor, static and nonstatic methods) based on the following criteria.
When your MATLAB function calls a .NET method, MATLAB:
Checks to make sure that the object (or class, for a static method) has a method by that name.
Determines whether the invocation passes the same number of arguments of at least one method with that name.
Makes sure that each passed argument can be converted to the type defined for the method.
If all the preceding conditions are satisfied, MATLAB calls the method.
In a call to an overloaded method, if there is more than one candidate, MATLAB selects the one with arguments that best fit the calling arguments, based on the MATLAB Primitive Type Conversion Table. First, MATLAB rejects all methods that have any argument types that are incompatible with the passed arguments. Among the remaining methods, MATLAB selects the one with the highest fitness value, which is the sum of the fitness values of all its arguments. The fitness value for each argument is how close the MATLAB type is to the .NET type. If two methods have the same fitness, MATLAB chooses the first one defined in the class.
For class types, MATLAB chooses the method signature based on the distance of the incoming class type to the expected .NET class type. The closer the incoming type is to the expected type, the better the match.
The rules for overloaded methods with optional arguments are described in Determining Which Overloaded Method Is Invoked.
Open a methodsview window for the
System.String class and look at the entries for the
Concat method:
import System.* methodsview('System.String')
The Concat method takes one or more arguments. If the arguments are
of type System.String, the method concatenates the values. For
example, create two strings:
str1 = String('hello'); str2 = String('world');
When you type:
String.Concat(str1,str2)
MATLAB verifies the method Concat exists and looks for a
signature with two input arguments. The following table shows the two signatures.
| Name | Return Type | Arguments | Qualifiers |
|---|---|---|---|
Concat | System.String RetVal | (System.Object arg0, | Static |
Concat | System.String RetVal | (System.String str0, | Static |
Since str1 and str2 are of class
System.String, MATLAB chooses the second signature and displays:
ans = helloworld
If the arguments are of type System.Object, the method displays the
string representations of the values. For example, create two
System.DateTime objects:
dt = DateTime.Today; myDate = System.DateTime(dt.Year,3,1,11,32,5);
When you type:
String.Concat(dt,myDate)
MATLAB chooses the following signature, since System.DateTime
objects are derived from the System.Object class.
| Qualifiers | Return Type | Name | Arguments |
|---|---|---|---|
Static | System.String RetVal | Concat | (System.Object arg0, |
This Concat method first applies the ToString
method to the objects, then concatenates the strings. MATLAB displays information like:
ans = 12/23/2008 12:00:00 AM3/1/2008 11:32:05 AM
For information about passing MATLAB arrays to .NET methods, see Use Arrays with .NET Applications and Pass MATLAB Arrays as Jagged Arrays.
The dimension of a .NET array is the number of subscripts required to access an
element of the array. To get the number of dimensions, use the
Rank property of the .NET System.Array
type. The dimensionality of a MATLAB array is the number of non-singleton dimensions in the array.
MATLAB matches the array dimensionality with the .NET method signature, as long as the dimensionality of the MATLAB array is lower than or equal to the expected dimensionality. For example, you can pass a scalar input to a method that expects a 2-D array.
For a MATLAB array with number of dimensions, N, if the .NET
array has fewer than N dimensions, the MATLAB conversion drops singleton dimensions, starting with the first one,
until the number of remaining dimensions matches the number of dimensions in the
.NET array.
You can pass a MATLAB array to a method that expects a
System.Object.
A MATLAB array is a rectangular array. The .NET Framework supports a jagged array, which is an array of arrays. So the elements of a jagged array can be of different dimensions and sizes.
Although .NET languages support jagged arrays, the term jagged is
not a language keyword. C# function signatures use multiple pairs of square brackets
([][]) to represent a jagged array. In addition, a jagged array
can be nested ([][][]), multidimensional ([,]), or
nested with multidimensional elements (for example,
[,,][,][]).
MATLAB automatically converts MATLAB arrays of numeric types to the corresponding jagged array type. If the
input argument is a nonnumeric type or multidimensional, use the NET.createArray function to create an array to pass as a jagged array.
For examples using NET.createArray, see Pass Jagged Arrays.