Handle Complex Fortran Data
To copy complex data values between a Fortran array and a MATLAB® array, call the mxCopyComplex16ToPtr,
mxCopyPtrToComplex16,
mxCopyComplex8ToPtr, and
mxCopyPtrToComplex8
functions. The example convec.F takes two
COMPLEX*16 row vectors and convolves them. This example
uses the interleaved complex version of the Fortran Matrix API and assumes a basic
understanding of MEX files as described in Create Fortran Source MEX File.
These statements copy data defined by input arrays prhs(1) and
prhs(2) into Fortran variables x and
y defined as complex*16 arrays.
C Load the data into Fortran arrays(native COMPLEX data).
status =
+ mxCopyPtrToComplex16(mxGetComplexDoubles(prhs(1)),x,nx)
if (status .ne. 1) then
call mexErrMsgIdAndTxt (
+ 'MATLAB:convec:CopyingFailed',
+ 'Could not copy from prhs(1) to complex*16.')
endif
status =
+ mxCopyPtrToComplex16(mxGetComplexDoubles(prhs(2)),y,ny)
if (status .ne. 1) then
call mexErrMsgIdAndTxt (
+ 'MATLAB:convec:CopyingFailed',
+ 'Could not copy from prhs(2) to complex*16.')
endif
Call the convec subroutine.
call convec(x,y,z,nx,ny)
Copy the results into the MATLAB output array plhs(1).
C Load the output into a MATLAB array.
status =
+ mxCopyComplex16ToPtr(z,mxGetComplexDoubles(plhs(1)),nz)
if (status .ne. 1) then
call mexErrMsgIdAndTxt (
+ 'MATLAB:convec:CopyingFailed',
+ 'Could not copy from complex*16 to plhs(1).')
endif
Build and Test
Verify that you have an installed Fortran compiler.
mex -setup fortran
Copy the convec.F file to a writable folder.
copyfile(fullfile(matlabroot,'extern','examples','refbook','convec.F'),'.','f')
Build the file.
mex -R2018a convec.F
Test the MEX file.
x = [3.000 - 1.000i, 4.000 + 2.000i, 7.000 - 3.000i]; y = [8.000 - 6.000i, 12.000 + 16.000i, 40.000 - 42.000i]; z = convec(x,y)
z = 1.0e+02 * Columns 1 through 4 0.1800 - 0.2600i 0.9600 + 0.2800i 1.3200 - 1.4400i 3.7600 - 0.1200i Column 5 1.5400 - 4.1400i
Compare the results with the built-in MATLAB function conv.
conv(x,y)
