converting m-file to c-code
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Hello all. Iam trying to covert m-file into a c-code so that it can be used in microprocessor for real-time implementation. Iam following two methods: 1-Using embedded matlab simulink block. 2-Using emlmex and emlc commands.
When i use the first method, an error occured "cannot generate c-file" Here is the matlab code which is on extended kalman filter:
duration=60;
dt=0.1;
% position measurement noise (feet)
MeasNoise = 10;
accelnoise = 0.2; % acceleration noise (feet/sec^2)
a = [1 dt 0; 0 1 0; 0 0 1]; % transition matrix
b = [dt^2/2 0; dt 0; 0 dt]; % input matrix
c = [1 0 0; 0 0 1]; % measurement matrix
x = [0; 0; 0]; % initial state vector
xhat = x; % initial state estimate
Sz = [MeasNoise^2 0; 0 MeasNoise^2]; % measurement error covariance
Sw = [10^-6 0 0; 0 4*10^-4 0; 0 0 0.05]; % process noise cov
P = Sw; % initial estimation covariance
% Initialize arrays for later plotting.
pos = []; % true position array
poshat = []; % estimated position array
posmeas = []; % measured position array
vel = []; % true velocity array
velhat = []; % estimated velocity array
angle = [];
anglehat = [];
anglemeas = [];
for t = 0 : dt: duration,
% Use a constant commanded acceleration of 1 foot/sec^2.
u = [1;4*dt];
% Simulate the linear system.
ProcessNoise = accelnoise * [(dt^2/2)*randn; dt*randn; dt*randn];
x = a * x + b * u + ProcessNoise;
% Simulate the noisy measurement
MeasNoise = [0.5*randn; 0.5*randn]
y = c * x + MeasNoise;
% Extrapolate the most recent state estimate to the present time.
xhat = a * xhat + b * u;
% Form the Innovation vector.
Inn = y - c * xhat;
% Compute the covariance of the Innovation.
s = c * P * c' + Sz;
% Form the Kalman Gain matrix.
K = a * P * c' * inv(s);
% Update the state estimate.
xhat = xhat + K * Inn;
% Compute the covariance of the estimation error.
P = a * P * a' - a * P * c' * inv(s) * c * P * a' + Sw;
% Save some parameters for plotting later.
pos = [pos; x(1)];
posmeas = [posmeas; y(1)];
poshat = [poshat; xhat(1)];
vel = [vel; x(2)];
velhat = [velhat; xhat(2)];
angle = [angle; x(3)];
anglemeas = [anglemeas; y(2)];
anglehat = [anglehat; xhat(3)];
end
% Plot the results
close all;
t = 0 : dt : duration;
figure;
plot(t,pos, t,posmeas, t,poshat);
grid;
xlabel('Time (sec)');
ylabel('Position (feet)');
title('Figure 1 - Vehicle Position (True, Measured, and Estimated)')
figure;
plot(t,angle, t,anglemeas, t,anglehat);
grid;
xlabel('Time (sec)');
ylabel('angle');
title('Figure 1 - Vehicle orientation (True, Measured, and Estimated)')
figure;
plot(t,pos-posmeas, t,pos-poshat);
grid;
xlabel('Time (sec)');
ylabel('Position Error (feet)');
title('Figure 2 - Position Measurement Error and Position Estimation Error');
figure;
plot(t,vel, t,velhat);
grid;
xlabel('Time (sec)');
ylabel('Velocity (feet/sec)');
title('Figure 3 - Velocity (True and Estimated)');
figure;
plot(t,vel-velhat);
grid;
xlabel('Time (sec)');
ylabel('Velocity Error (feet/sec)');
title('Figure 4 - Velocity Estimation Error');
This code is first converted into embedded matlab and then converted into c-file. Can anyone help me out. Thanks alot..!
3 Comments
Guillermo Soriano
on 23 Jan 2013
Hi: among function plot, there are others, but the most important is that your code must start with function, otherwise can not be converted to c
Willy
Walter Roberson
on 23 Jan 2013
That was true in the timeframe that the question was asked, but I have seen hints (and a very brief mention in the documentation) that some of the newer MATLAB versions permit scripts to be compiled.
Accepted Answer
Gautam Vallabha
on 22 Feb 2011
If you just want to convert MATLAB code to C code, you don't need to create a Simulink block. You can just create a MATLAB function file and invoke emlc. Make sure that:
- Your MATLAB function has %#eml at the beginning
- Your MATLAB function only uses functions and features from the Embedded MATLAB subset. In particular, graphics functions like figure, xlabel, and plot are not supported; you can have them in your file, but then you should use eml.extrinsic to tell EMLC to ignore these functions.
- Pay careful attention to the datatypes of the functions inputs
Example:
%#eml
function z = testeml(x, y)
% datatypes and sizes of inputs
assert( isa(x, 'single') && isa(y, 'single') );
assert( all(size(x) == [1 10]) && all(size(y) == [1 10]) );
% functions that EMLC should ignore
eml.extrinsic('figure', 'plot');
z = x .* y;
figure;
plot(x,y);
You can compile this with:
config = emlcoder.RTWConfig;
config.GenCodeOnly = true;
config.GenerateReport = true;
emlc -s config testeml
You can also run it directly from the MATLAB command line:
>> testeml(single(1:10), single(2:2:20))
13 Comments
Kaustubha Govind
on 1 Mar 2011
It appears that these header files are not on the include path. I'm not familiar with the microC environment, but you should ensure that the location of these headers is added to the list of include directories for your project. If you are compiling from command-line, this typically means adding "-I /path/to/headers" to the compile command.
More Answers (1)
Walter Roberson
on 3 Mar 2011
Here is a function to convert any input file in to a hex format. As I had no idea what a "hex file" for whatever micro controller you are using looks like, I used a common hex dump format.
function write_as_hex(infile, outfile)
fin = fopen(infile, 'r');
if fin < 0
warning('failed to open input file, no output');
return
end
fout = fopen(outfile, 'w');
if fout < 0
warning('failed to open output file, no output');
fclose(fin);
return
end
indata = fread(fin);
fclose(fin);
trailbytes = mod(length(indata), 16);
fprintf(fout, [repmat('%2X ',1,15) '%2X\n']), ...
indata(1:end-trailbytes));
fprint(fout, [repmat(%2X ',1, trailbytes-1) '%2X\n'], ...
indata(end-trailbytes+1:end));
fclose(fout);
end
9 Comments
Walter Roberson
on 7 Mar 2011
You can use one of the Mathworks tools to convert your embedded Matlab to C. Then, as best I can tell from the documentation, you can use mplab to convert the C file into executable code in .HEX format suitable for downloading to the PIC processor.
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