Welcome to OGeek Q&A Community for programmer and developer-Open, Learning and Share
Welcome To Ask or Share your Answers For Others

Categories

0 votes
280 views
in Technique[技术] by (71.8m points)

function - Simulating waves in disc or circle form

I am getting an error when I run this code while selecting disc view or circle view option for wave simulation. The code and error are attached. I think there is some problem in this part of code typically in fzero function. Any help would be great.

Code:

function z = bjzeros(n,k)
% BJZEROS  Zeros of the Bessel function.
% z = bjzeros(n,k) is the first k zeros of besselj(n,x)
% delta must be chosen so that the linear search can take
% steps as large as possible 

delta = .99*pi;
Jsubn = inline('besselj(n,x)''x','n');
a = n+1;
fa = besselj(n,a);
z = zeros(1,k);
j = 0;
while j < k
   b = a + delta;
   fb = besselj(n,b);
   if sign(fb) ~= sign(fa)
      j = j+1;
      z(j) = fzerotx(Jsubn,[a b],n);
   end
   a = b;
   fa = fb;
end

Error:

Undefined function 'fzerotx' for input arguments of type 'inline'.

Error in waves>bjzeros (line 292)

 z(j) = fzerotx(Jsubn,[a b],n);

Error in waves (line 137)

       mu = [bjzeros(0,2) bjzeros(1,2)];

与恶龙缠斗过久,自身亦成为恶龙;凝视深渊过久,深渊将回以凝视…
Welcome To Ask or Share your Answers For Others

1 Reply

0 votes
by (71.8m points)

Function Declarations and Syntax

The fzerotx() function may not be declared. You can follow the file structure below to create the required M-files/functions in the same directory. Another small error may be caused by a missing comma, I got rid of the error by changing the line:

Jsubn = inline('besselj(n,x)''x','n');

to

Jsubn = inline('besselj(n,x)','x','n');

File 1: Main File/Function Call → [main.m]

mu = [bjzeros(0,2) bjzeros(1,2)];

File 2: bjzeros() Function → [bjzeros.m]

function z = bjzeros(n,k)
% BJZEROS  Zeros of the Bessel function.
% z = bjzeros(n,k) is the first k zeros of besselj(n,x)
% delta must be chosen so that the linear search can take
% steps as large as possible 

delta = .99*pi;
Jsubn = inline('besselj(n,x)','x','n');
a = n+1;
fa = besselj(n,a);
z = zeros(1,k);
j = 0;
while j < k
   b = a + delta;
   fb = besselj(n,b);
   if sign(fb) ~= sign(fa)
      j = j+1;
      z(j) = fzerotx(Jsubn,[a b],n);
   end
   a = b;
   fa = fb;
end
end

File 3: fzerotx() Function → [fzerotx.m]

Function Reference: MATLAB: Textbook version of FZERO

function b = fzerotx(F,ab,varargin)
%FZEROTX  Textbook version of FZERO.
%   x = fzerotx(F,[a,b]) tries to find a zero of F(x) between a and b.
%   F(a) and F(b) must have opposite signs.  fzerotx returns one 
%   end point of a small subinterval of [a,b] where F changes sign.
%   Arguments beyond the first two, fzerotx(F,[a,b],p1,p2,...),
%   are passed on, F(x,p1,p2,..).
%
%   Examples:
%      fzerotx(@sin,[1,4])
%      F = @(x) sin(x); fzerotx(F,[1,4])

%   Copyright 2014 Cleve Moler
%   Copyright 2014 The MathWorks, Inc.

% Initialize.
a = ab(1);
b = ab(2);
fa = F(a,varargin{:});
fb = F(b,varargin{:});
if sign(fa) == sign(fb)
   error('Function must change sign on the interval')
end
c = a;
fc = fa;
d = b - c;
e = d;

% Main loop, exit from middle of the loop
while fb ~= 0

   % The three current points, a, b, and c, satisfy:
   %    f(x) changes sign between a and b.
   %    abs(f(b)) <= abs(f(a)).
   %    c = previous b, so c might = a.
   % The next point is chosen from
   %    Bisection point, (a+b)/2.
   %    Secant point determined by b and c.
   %    Inverse quadratic interpolation point determined
   %    by a, b, and c if they are distinct.

   if sign(fa) == sign(fb)
      a = c;  fa = fc;
      d = b - c;  e = d;
   end
   if abs(fa) < abs(fb)
      c = b;    b = a;    a = c;
      fc = fb;  fb = fa;  fa = fc;
   end
   
   % Convergence test and possible exit
   m = 0.5*(a - b);
   tol = 2.0*eps*max(abs(b),1.0);
   if (abs(m) <= tol) | (fb == 0.0)
      break
   end
   
   % Choose bisection or interpolation
   if (abs(e) < tol) | (abs(fc) <= abs(fb))
      % Bisection
      d = m;
      e = m;
   else
      % Interpolation
      s = fb/fc;
      if (a == c)
         % Linear interpolation (secant)
         p = 2.0*m*s;
         q = 1.0 - s;
      else
         % Inverse quadratic interpolation
         q = fc/fa;
         r = fb/fa;
         p = s*(2.0*m*q*(q - r) - (b - c)*(r - 1.0));
         q = (q - 1.0)*(r - 1.0)*(s - 1.0);
      end;
      if p > 0, q = -q; else p = -p; end;
      % Is interpolated point acceptable
      if (2.0*p < 3.0*m*q - abs(tol*q)) & (p < abs(0.5*e*q))
         e = d;
         d = p/q;
      else
         d = m;
         e = m;
      end;
   end
   
   % Next point
   c = b;
   fc = fb;
   if abs(d) > tol
      b = b + d;
   else
      b = b - sign(b-a)*tol;
   end
   fb = F(b,varargin{:});
end

Ran using MATLAB R2019b


与恶龙缠斗过久,自身亦成为恶龙;凝视深渊过久,深渊将回以凝视…
OGeek|极客中国-欢迎来到极客的世界,一个免费开放的程序员编程交流平台!开放,进步,分享!让技术改变生活,让极客改变未来! Welcome to OGeek Q&A Community for programmer and developer-Open, Learning and Share
Click Here to Ask a Question

Just Browsing Browsing

[5] html - How to create even cell spacing within a

1.4m articles

1.4m replys

5 comments

57.0k users

...