Help revise the code

Question

Jiiim Wu 2023년 8월 22일

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https://kr.mathworks.com/matlabcentral/answers/2011217-help-revise-the-code

댓글: Walter Roberson 2023년 8월 22일

% Given constants
q = 0.2;
alpha = 0.7;
gamma = 0.1;
K_bar = 1;
z_hat = 1.1;
eta = 0.2;
% Define the range of epsilon values
epsilon_range = 0.1:0.01:1;
% Preallocate array to store z_star values
z_star_values = zeros(size(epsilon_range));
% Define the options for fsolve
options = optimoptions('fsolve', 'Display', 'off', 'TolFun', 1e-6);
for i = 1:length(epsilon_range)
    epsilon_val = epsilon_range(i);
    
    % Define the equation for fsolve
    equation = @(z_star) shooting_equation(z_star, epsilon_val, q, alpha, gamma, K_bar, z_hat, eta);
    
    % Solve for z_star using fsolve
    z_star_initial_guess = 0.5;  % Initial guess for z_star
    z_star_values(i) = fsolve(equation, z_star_initial_guess, options);
end
% Plot z_star as a function of epsilon
figure;
plot(epsilon_range, z_star_values, 'b', 'LineWidth', 2);
xlabel('\epsilon');
ylabel('z^*');
title('Plot of z^* as a Function of \epsilon');
grid on;
function value = shooting_equation(z_star, epsilon, q, alpha, gamma, K_bar, z_hat, eta)
value = z_star - z_star * (((1 - alpha) * epsilon) / (1 - alpha * epsilon))^((1 - epsilon) / epsilon) ...
    - q^((1 - epsilon) / epsilon) * (K_bar)^((epsilon - 1) / epsilon) ...
    * (1)^((epsilon - 1) / (alpha * epsilon)) * ((1 - alpha) / alpha)^((1 - alpha) * (epsilon - 1) / (alpha * epsilon)) ...
    * (epsilon)^(((1 - epsilon + alpha * epsilon) * (1 - epsilon)) / (alpha * epsilon^2)) ...
    * ((alpha) / (1 - alpha * epsilon))^((1 - epsilon) / epsilon) ...
    * (alpha * epsilon)^((epsilon - 1) / (alpha * epsilon^2)) ...
    * (((1 - epsilon) / (0 - 2))^((1 - epsilon) * (epsilon - 1 + alpha * epsilon) / (alpha * epsilon^2))) ...
    * ((((2)^(1 / (1 - epsilon)) - (z_hat + eta)^(1 / (1 - epsilon))) + (((z_hat - eta)^(1 / (1 - epsilon))) - (z_star)^(1 / (1 - epsilon))) ...
    + ((1 - gamma)^(epsilon / (1 - epsilon))) * (((z_hat + eta)^(1 / (1 - epsilon))) - ((z_hat - eta)^(1 / (1 - epsilon))))) ...
    ^((1 - epsilon) * (epsilon - 1 + alpha * epsilon) / (alpha * epsilon^2)) - z_star;
Invalid expression. When calling a function or indexing a variable, use parentheses. Otherwise, check for mismatched delimiters.
end

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Answer 1

Walter Roberson 2023년 8월 22일

1
링크

이 답변에 대한 바로 가기 링크

https://kr.mathworks.com/matlabcentral/answers/2011217-help-revise-the-code#answer_1291002

MATLAB Online에서 열기

starting from the beginning of

    * ((((2)^(1 / (1 - epsilon)) - (z_hat + eta)^(1 / (1 - epsilon))) + (((z_hat - eta)^(1 / (1 - epsilon))) - (z_star)^(1 / (1 - epsilon))) ...

you have one extra ( that does not have a matching )

value = z_star - z_star * (((1 - alpha) * epsilon) / (1 - alpha * epsilon))^((1 - epsilon) / epsilon) - q^((1 - epsilon) / epsilon) * (K_bar)^((epsilon - 1) / epsilon) * (1)^((epsilon - 1) / (alpha * epsilon)) * ((1 - alpha) / alpha)^((1 - alpha) * (epsilon - 1) / (alpha * epsilon)) * (epsilon)^(((1 - epsilon + alpha * epsilon) * (1 - epsilon)) / (alpha * epsilon^2)) * ((alpha) / (1 - alpha * epsilon))^((1 - epsilon) / epsilon) * (alpha * epsilon)^((epsilon - 1) / (alpha * epsilon^2)) * (((1 - epsilon) / (0 - 2))^((1 - epsilon) * (epsilon - 1 + alpha * epsilon) / (alpha * epsilon^2))) * ((((2)^(1 / (1 - epsilon)) - (z_hat + eta)^(1 / (1 - epsilon))) + (((z_hat - eta)^(1 / (1 - epsilon))) - (z_star)^(1 / (1 - epsilon))) + ((1 - gamma)^(epsilon / (1 - epsilon))) * (((z_hat + eta)^(1 / (1 - epsilon))) - ((z_hat - eta)^(1 / (1 - epsilon)))))^((1 - epsilon) * (epsilon - 1 + alpha * epsilon) / (alpha * epsilon^2)) - z_star;
%                         123         2          1   2                   10 12           1          0     12           1          0   1     0 12           1          0   1 0 12           1   2               10   12         1        0 12         1   2           1   2               10   1       0 123                             2   3           21   2                 10   12     1   2                   10 12           1          0   1               0 12           1   2                 10   123           2   3     21 23           2   3                             2   3                 210   1234 3 4    5           43   4           3 4    5           432   345           4 5    6           543   4      3 4    5           432   34         3 4          5           432   345           4 5    6           543   45           4 5    6           54321 23           2   3                             2   3                 21    

The number under each bracket is the number of open brackets in effect "after" the character above the number.

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Jiiim Wu 2023년 8월 22일

이동: Bruno Luong 2023년 8월 22일

Would it be possible that you can provide the correct code. It looks still confusing to me. Thanks

Walter Roberson 2023년 8월 22일

No, I cannot do that, as I do not know what the correct equations are.

I highly recommend that you break the function up into multiple statements, instead of using one long long line of code.

That would also allow you to do optimizations such as calculating alpha * epsilon and 1-epsilon into variables so that those expressions do not need to be calculated multiple times.

Using a long line of source is harder for humans to read, and harder for MATLAB to analyze the flow of. And tends to involve calculating the same sub-expression multiple times unnecessarily.

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