matlab app encapsulation ?

3 views (last 30 days)
yan
yan on 8 Nov 2024
Commented: yan on 14 Nov 2024
I have failed several times in encapsulation because the source code uses syms, but I don't know how to change it, or all the changes make me change too much, is there a good solution
syms pha H
term1 = 9 - 12 * (1 - P_ya .* F ./ (y .* H));
term2 = R .* sqrt(term1) - 3 .* R;
denominator = 2 .* H;
% pha
pha = atan(term2 ./ denominator);
%
% disp(pha);
pha_rad1=rad2deg(pha);
H_vals = linspace(50, 250, 50);
pha_vals = double(subs(pha_rad1, H, H_vals));
% Plot H versus pha
% figure(1);
plot(app.UIAxes,H_vals, pha_vals, 'b-', 'LineWidth', 2);
xlabel(app.UIAxes,'H');
ylabel(app.UIAxes,'pha');
title(app.UIAxes,'Plot of pha vs H');
% grid on;
% disp(pha_rad);
%
if K < 1
pha_rad = 45 - (P.*180) /(2.*pi);
elseif K < 2
pha_rad = 45;
else
pha_rad = 45 + (P.*180) /(2.*pi) ;
end
%
pha_rad = max(15, min(pha_rad, 65));
pha_rad = pha_rad * (pi / 180);
switch app.DropDown.Value
case '1'
if app.Button_2.Value==1
Vc2=(4.*pi.*R.^3)./3+pi.*R.^2*(L-2.*R);%
Ac2=pi.*R.^2+(L-2.*R).*2.*R;
Lc2=2*pi.*R+(L-2*R).*2;%
sigma2=Lc2.*H.*K.*y.*H./2;
Fbc2=Vc2.*10;%
Fbr2=Ac2.*10.*(H-L_s);
F2=Ac2.*P_ya;
Wr2=y.*H.*Ac2;%
t2=Lc2.*c.*H+sigma2.*tan(P)
eq=Wr2+t2==F.*(F2+Fbc2+Fbr2)
H_solution = double(solve(eq, H));
positiveValues = H_solution(H_solution > 0);
app.HEditField.Value=positiveValues;
app.Image.ImageSource = '1'; % 直接用路径
app.Image_2.ImageSource = '1'; % 直接
elseif app.Button.Value==1
Vc1=(4.*pi.*R.^3)./3+pi.*R.^2*(L-2.*R);;%
Ac1=pi.*R.^2;%
Lc1=2*pi.*R;%
sigma1=Lc1.*H.*K.*y.*H./2;%
Fbc1=Vc1.*10;%
Fbr1=Ac1.*10.*(H-L_s);%
F1=Ac1.*P_ya;%
Wr1=y.*H.*Ac1;%
t1=Lc1.*c.*H+sigma1.*tan(P)
eq=Wr1+t1==F.*(F1+Fbc1+Fbr1)
H_solution = double(solve(eq, H));
positiveValues = H_solution(H_solution > 0);
app.HEditField.Value=positiveValues;
app.Image.ImageSource = '2'; % 直接用路径
app.Image_2.ImageSource = '2'; % 直接用路径
end
case '3'
if app.Button_2.Value==1
Wr2=y.*pi.*(R.^2.*H+R.*H.^2.*tan(pha_rad)+(H.^3.*tan(pha_rad).^2)./3-2.*R.^3./3)
F2=pi.*R.^2.*P_ya
eq=Wr2==F.*F2
H_solution =vpasolve(eq, H);
positiveValues = H_solution(H_solution > 0);
app.HEditField.Value=double(positiveValues);
app.Image.ImageSource = '5'; % 直接用路径
app.Image_2.ImageSource = '5'; % 直接用路径
elseif app.Button.Value==1
Vc1=H.*(R.*2.*L+(H.*tan(pha_rad).*2+R.*2).*L+sqrt(R.*2.*L.*(H.*tan(pha_rad).*2+R.*2)*L))/3;
Ac1=L.*R.*2;%
F1=Ac1.*P_ya;%
Wr1=y.*Vc1;%
eq=Wr1==F.*F1
H_solution =vpasolve(eq, H);
positiveValues = H_solution(H_solution > 0);
app.HEditField.Value=double(positiveValues);
app.Image.ImageSource = '4'; % 直接用路径
app.Image_2.ImageSource = '4'; % 直接用路径
%%显示结果
end

Answers (1)

Sameer
Sameer on 8 Nov 2024
Hi @yan
To tackle the encapsulation issue, you can use "anonymous functions" or "numerical computations" instead of symbolic computations.
Here's how you can do it:
% Define constants and parameters
% Define a function for pha calculation
calculate_pha = @(H) atan((R .* sqrt(9 - 12 * (1 - P_ya .* F ./ (y .* H))) - 3 .* R) ./ (2 .* H));
% Calculate pha values over a range of H
H_vals = linspace(50, 250, 50);
pha_vals = arrayfun(@(H) rad2deg(calculate_pha(H)), H_vals);
% Plot H versus pha
plot(app.UIAxes, H_vals, pha_vals, 'b-', 'LineWidth', 2);
xlabel(app.UIAxes, 'H');
ylabel(app.UIAxes, 'pha');
title(app.UIAxes, 'Plot of pha vs H');
% Calculate pha_rad based on K
if K < 1
pha_rad = 45 - (P .* 180) / (2 .* pi);
elseif K < 2
pha_rad = 45;
else
pha_rad = 45 + (P .* 180) / (2 .* pi);
end
pha_rad = max(15, min(pha_rad, 65)) * (pi / 180);
switch app.DropDown.Value
case '1'
if app.Button_2.Value == 1
Vc2 = (4 .* pi .* R.^3) / 3 + pi .* R.^2 * (L - 2 .* R);
Ac2 = pi .* R.^2 + (L - 2 .* R) .* 2 .* R;
Lc2 = 2 * pi .* R + (L - 2 * R) .* 2;
sigma2 = Lc2 .* H_vals .* K .* y .* H_vals / 2;
Fbc2 = Vc2 .* 10;
Fbr2 = Ac2 .* 10 .* (H_vals - L_s);
F2 = Ac2 .* P_ya;
Wr2 = y .* H_vals .* Ac2;
t2 = Lc2 .* c .* H_vals + sigma2 .* tan(P);
eq = Wr2 + t2 == F .* (F2 + Fbc2 + Fbr2);
H_solution = H_vals(eq > 0);
positiveValues = H_solution(H_solution > 0);
app.HEditField.Value = positiveValues;
app.Image.ImageSource = '1';
app.Image_2.ImageSource = '1';
end
end
Hope this helps!
  3 Comments
Walter Roberson
Walter Roberson on 10 Nov 2024
The code you posted has
H_vals = linspace(50, 250, 50);
If that range is too small, make the range larger.
yan
yan on 14 Nov 2024
Incorrect use of Depth_CAESs/Button_3 Pushed Function or variable 'H' is not recognized.Because I used syms H to define the variables of H earlier, the subsequent encapsulation problems occurred.

Sign in to comment.

Categories

Find more on Communications Toolbox in Help Center and File Exchange

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!