fill area between two polar curves

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fima v 2017 年 2 月 17 日

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https://jp.mathworks.com/matlabcentral/answers/325599-fill-area-between-two-polar-curves

コメント済み: Star Strider 2024 年 6 月 5 日

Hello , i have these two formulas, i would like to fill the area between these two curves is there a way to do it with patch command?

Thanks

phi=0.87*sin((log(r)*pi)/(log(tau)));
phi_shifted_45=0.87*sin((log(r)*pi)/(log(tau)))+0.78;

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Answer 1

Star Strider 2017 年 2 月 17 日

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https://jp.mathworks.com/matlabcentral/answers/325599-fill-area-between-two-polar-curves#answer_255245

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The patch function will not work with polar axes. It throws this error:

Error using patch
While setting property 'Parent' of class 'Patch':
Patch cannot be a child of PolarAxes.

Oh, well...

The best I can do with this is to use pol2cart:

tau = 0.5;
r = linspace(eps, 1.5, 500);
phi = 0.87*sin((log(r)*pi)/(log(tau)));
phi_shifted_45 = 0.87*sin((log(r)*pi)/(log(tau)))+0.78;
[x1,y1] = pol2cart(phi, r);
[x2,y2] = pol2cart(phi_shifted_45, r);
figure(1)
patch([x1 fliplr(x2)], [y1 fliplr(y2)], 'g')
axis equal

Note to MathWorks: Can we have a patch for polar coordinate systems when you have time to implement it?

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Star Strider 2017 年 2 月 17 日

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My pleasure.

Yes!

I decided to go ‘all in’ on this while I was at it, and ‘rounded’ straight line (it took me just a bit to figure that out), then added the circumference and all the other grid lines.

The Code —

tau = 0.5;
rlim = 1.5;
r = linspace(eps, rlim, 500);
phi = 0.87*sin((log(r)*pi)/(log(tau)));
phi_shifted_45 = 0.87*sin((log(r)*pi)/(log(tau)))+0.78;
[x1,y1] = pol2cart(phi, r);
[x2,y2] = pol2cart(phi_shifted_45, r);
rc = 1.5*ones(1, 50);                                   % ‘Round’ The Connecting Line
phic = linspace(phi(end), phi_shifted_45(end), 50);
[xc,yc] = pol2cart(phic, rc);
cfull = linspace(0, 2*pi, 1000);                        % Full Circle Circumference
ccf = @(rd,th) [rd*cos(th); rd*sin(th)];                % Function
cc15 = ccf(rlim,cfull);                                 % R = 1.5
cc10 = ccf(1,cfull);                                    % R = 1.0
cc05 = ccf(0.5,cfull);                                  % R = 0.5
rrv = [0:30:360]*pi/180;                                % Calcualte Radials
[rd00x, rd00y] = pol2cart(rrv, zeros(size(rrv)));
[rd15x, rd15y] = pol2cart(rrv, rlim*ones(size(rrv)));
rdx = [rd00x; rd15x];
rdy = [rd00y; rd15y];
figure(1)
patch([x1 xc fliplr(x2)], [y1 yc fliplr(y2)], 'g')      % Plot Functions
hold on
plot(cc15(1,:), cc15(2,:), 'k')                         % Plot Full Circumference
plot(cc10(1,:), cc10(2,:), 'k')
plot(cc05(1,:), cc05(2,:), 'k')
plot(rdx, rdy, 'k')                                     % Plot Radials
hold off
axis([-1  1    -1  1]*1.8)
axis square
set(gca, 'XColor','none', 'YColor','none')

The Plot —

I leave the angle and radius labels to you. Use the text function for them, and note the name-value pair arguments that will allow you to line them up the way you want them where you want them.

Darcy Cordell 2024 年 6 月 5 日

Not sure if this is really a solution, but I find it weird that the old function "polar" that was in much earlier releases of MATLAB can handle patches fine. So, if you want to plot a patch, you can just use "polar" instead of "polarplot".

In the later releases, "polar" is not recommend for use and MATLAB suggests users use polarplot instead. Frustrating when updates actually cause a loss in functionality rather than a gain...

Star Strider 2024 年 6 月 5 日

@Darcy Cordell — Note that my code uses strictly Cartesian coordinates (the pol2cart calls), and draws the polar axes grid separately. I have not attempted to do somoething similar with either polar or polarplot. (That may not even have been an option in R2017a.)

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Answer 2

Nate Roberts 2021 年 10 月 28 日

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編集済み: Nate Roberts 2021 年 10 月 28 日

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I answered a similar question earilier today (https://www.mathworks.com/matlabcentral/answers/340760-how-to-fill-the-area-between-two-curves-on-a-polar-plot#answer_818143), but this one requires a more general solution than the one given there. The idea is the same, to overlay a transparent cartesian axes over the polar axes. This function (polarfill), however, recognizes that you may want to fill between different angles, not just different radii:

tau = 0.5;

r = linspace(eps, 1.5, 500);

phi = @(r)0.87*sin((log(r)*pi)/(log(tau))); %lambda function

phi_shifted_45 = @(r)0.87*sin((log(r)*pi)/(log(tau)))+0.78; %lambda function

f = figure();

polarplot(phi(r),r,'k','LineWidth',2); hold on; ax_pol = gca;

polarplot(phi_shifted_45(r),r,'r','LineWidth',2)

polarfill(ax_pol,phi(r),phi_shifted_45(r),r,r,'b',0.5)

%% Filling the extra gap

r_upper = 1.5; % The upper radius is constant

theta_range = linspace(phi(r_upper),phi_shifted_45(r_upper)); % The range of theta for the area

% Determining the polar equation for the lower radius as a function of theta

[x1,y1] = pol2cart(theta_range(1),r_upper); % Polar -> Cartesian

[x2,y2] = pol2cart(theta_range(end),r_upper); % Polar -> Cartesian

m = (y2-y1)/(x2-x1); % Slope of a line

b = y1-m*x1; % Intercept of a line

r_lower = - b ./ (m*cos(theta_range)-sin(theta_range)); % polar equation of a straight line

% Second call to Polar Fill

polarfill(ax_pol,theta_range,theta_range,r_lower,r_upper,'b',0.5)

function polarfill(ax_polar,thetal,thetah,rlow,rhigh,color,alpha)

ax_cart = axes();

ax_cart.Position = ax_polar.Position;

[xl,yl] = pol2cart(thetal,rlow);

[xh,yh] = pol2cart(fliplr(thetah),fliplr(rhigh));

fill([xl,xh],[yl,yh],color,'FaceAlpha',alpha,'EdgeAlpha',0);

xlim(ax_cart,[-max(get(ax_polar,'RLim')),max(get(ax_polar,'RLim'))]);

ylim(ax_cart,[-max(get(ax_polar,'RLim')),max(get(ax_polar,'RLim'))]);

axis square; set(ax_cart,'visible','off');

end

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Nate Roberts 2021 年 10 月 28 日

@Star Strider I've updated the answer to fill the extra gap.

Mohammed Aldosri 2021 年 11 月 22 日

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how would this function be implemented in appdesigner? I tried to use polarfill, but when I run the app, a new figure pops for me with random stuff in it instead of coloring the polaraxes I created in the UIFigure. This is the code i run in the appdesigner

Pax = polaraxes(app.UIFigure);

Pax.Units = 'pixels';

Pax.Position = [478 14 430 297];

theta1 = (22.5*pi/180):0.01*pi:(67.5*pi/180);

rho1 = 2*ones(size(theta1));

polarplot(theta1, rho1);

Rlow = 0;

Rhigh = 2;

ax_cart = axes();

ax_cart.Position = Pax.Position;

[XL, YL] = pol2cart(theta1, Rlow);

[XH, YH] = pol2cart(fliplr(theta1), fliplr(Rhigh));

fill([XL,XH],[YL,YH],'blue','FaceAlpha',0.4,'EdgeAlpha',0);

xlim(ax_cart,[-max(get(Pax,'RLim')),max(get(Pax,'RLim'))]);

ylim(ax_cart,[-max(get(Pax,'RLim')),max(get(Pax,'RLim'))]);

axis square; set(ax_cart,'visible','off');

Pax.ThetaZeroLocation = 'top';

Pax.ThetaLim = [-180 180];

Pax.RLim = [0 1];

Pax.ThetaTick = -180:45:180;

I run similar code in a .m file and I get this

Pax = polaraxes;

theta = (22.5*pi/180):0.01*pi:(67.5*pi/180);

rho = 2*ones(size(theta));

polarplot(theta, rho);

rlim([0 1]);

polarfill(Pax, theta, 0, 1,'green', 0.3);

function polarfill(ax_polar,theta,rlow,rhigh,color,alpha)

ax_cart = axes();

ax_polar.ThetaLim = [-180 180];

ax_polar.ThetaZeroLocation = 'top';

ax_polar.ThetaTick = -180:45:180;

ax_cart.Position = ax_polar.Position;

[xl,yl] = pol2cart(theta,rlow);

[xh,yh] = pol2cart(fliplr(theta),fliplr(rhigh));

fill([xl,xh],[yl,yh],color,'FaceAlpha',alpha,'EdgeAlpha',0);

xlim(ax_cart,[-max(get(ax_polar,'RLim')),max(get(ax_polar,'RLim'))]);

ylim(ax_cart,[-max(get(ax_polar,'RLim')),max(get(ax_polar,'RLim'))]);

axis square; set(ax_cart,'visible','off');

end

could you help me?

Pax = polaraxes;

theta = (22.5*pi/180):0.01*pi:(67.5*pi/180);

rho = 2*ones(size(theta));

polarplot(theta, rho);

rlim([0 1]);

polarfill(Pax, theta, 0, 1,'green', 0.3);

function polarfill(ax_polar,theta,rlow,rhigh,color,alpha)

ax_cart = axes();

ax_polar.ThetaLim = [-180 180];

ax_polar.ThetaZeroLocation = 'top';

ax_polar.ThetaTick = -180:45:180;

ax_cart.Position = ax_polar.Position;

[xl,yl] = pol2cart(theta,rlow);

[xh,yh] = pol2cart(fliplr(theta),fliplr(rhigh));

fill([xl,xh],[yl,yh],color,'FaceAlpha',alpha,'EdgeAlpha',0);

xlim(ax_cart,[-max(get(ax_polar,'RLim')),max(get(ax_polar,'RLim'))]);

ylim(ax_cart,[-max(get(ax_polar,'RLim')),max(get(ax_polar,'RLim'))]);

axis square; set(ax_cart,'visible','off');

end

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Answer 3

Ludovico Saint Amour di Chanaz 2022 年 6 月 2 日

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I you need to do a subplot with this fill the polarfill axes are not aligned and it makes for a very messy fill, this can be solved easily with the 'align' function of subplot

subplot(rows, cols, i, 'align')

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fill area between two polar curves

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