Not enough Input arguments

Question

sanjiv kumar el 13 de Oct. de 2021

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Enlace directo a esta pregunta

https://la.mathworks.com/matlabcentral/answers/1562541-not-enough-input-arguments

Comentada: sanjiv kumar el 13 de Oct. de 2021

Dear Matlab experts, while running the code i am getting an error, if anyone of you could help i would be really greatful.

The error i am getting

--------------------------------------------------------------------------------------------------

>>qardlecm

Not enough input arguments.

Error in qardlecm (line 24)

nn = size(data,1);

...................................................

--The code I want to run---------------------------------------------------------------------------------------------------------------------------------------------------------

%-------------------------------------------------------------------------%
% This procedure file provides the following outputs
% Short-run parameters (phi, theta) and its covariance matrix 
% For this output, the following inputs are required
% 1) data : (n*(1+k)) matrix, where the 1st column is the dependent
% variable, and the last k columns are explanatory variables
% 2) ppp : p value of QARDL-ECM(p,q) model
% 3) qqq : q value of QARDL-ECM(p,q) model
% 4) tau : (s*1) vector of quantiles, which is sorted from the smallest to
% the largest.
% November 17, 2020
% Jin Seo Cho 
%-------------------------------------------------------------------------%
function[bigphia,bigpia,thett,distthett] = qardlecm(data,ppp,qqq,tau)
nn = size(data,1);
k0 = size(data,2)-1;
ss = size(tau,1);
tau = sort(tau,1);
pd = makedist('normal','mu',0,'sigma',1);
za = icdf(pd,0.975);
hb = zeros(ss,1);
hs = zeros(ss,1);
for jj = 1:ss
    hb(jj,1) = (4.5*normpdf(icdf(pd,tau(jj,1)))^4/(nn*(2*icdf(pd,tau(jj,1))^2+1)^2))^0.2;
    hs(jj,1) = za^(2/3)*(1.5*normpdf(icdf(pd,tau(jj,1)))^2/(nn*(2*icdf(pd,tau(jj,1))^2+1)))^(1/3);
end
yy = data(:,1);
xx = data(:,2:size(data,2));
ee = xx(2:nn,:) - xx(1:(nn-1),:);
ee = [zeros(1,k0);ee];
eei = zeros(nn-qqq,qqq*k0);
xxi = xx(qqq+1:nn,:);
yyi = zeros(nn-ppp,ppp);
for jj = 1:k0
    for ii = 0:qqq-1
        eei(:, ii+1+(jj-1)*qqq) = ee((qqq+1-ii):(nn-ii),jj);
    end
end
for ii = 1:ppp
    yyi(:,ii) = yy((1+ppp-ii):(nn-ii),1);
end
if (ppp>qqq)
    X = [eei((size(eei,1)+1-size(yyi,1)):size(eei,1),:), xxi((size(xxi,1)+1-size(yyi,1)):size(xxi,1),:), yyi];
else
    X = [eei, xxi, yyi((size(yyi,1)+1-size(xxi,1)):size(yyi,1),:)];
end
ONEX = [ones(size(X,1),1),X];
Y = yy((nn-size(X,1)+1):nn,1);
 
bt = zeros(size(ONEX,2),ss); 
fh = zeros(ss,1);
uu = zeros(nn-2,ss);
for jj = 1:ss
    [bt1] = qregressMatlab(Y,ONEX,tau(jj,1));
    uu(:,jj) = Y - ONEX*bt1;
    fh(jj,1) = mean(normpdf(-uu(:,jj)/hb(jj,1)))/hb(jj,1);
    bt(:,jj) = bt1;
end
barw = zeros(nn-1,qqq*k0);
for jj = 1:qqq
    barw(jj:(nn-1),(k0*(jj-1)+1):k0*jj) = ee(2:(nn-jj+1),:);
end
tw = [ones(nn-1,1), barw];
mm = (xx((qqq+1):nn,:)'*xx((qqq+1):nn,:) - xx((qqq+1):nn,:)'*tw(qqq:(nn-1),:)*inv(tw(qqq:(nn-1),:)'*tw(qqq:(nn-1),:))*tw(qqq:(nn-1),:)'*xx((qqq+1):nn,:))/(nn-qqq)^2;
bb = zeros(ss,1);
for jj = 1:ss
    bb(jj,1) = 1/((1-sum(bt(2+(qqq+1)*k0:1+(qqq+1)*k0+ppp,jj),1)')*fh(jj,1));
end
qq = zeros(ss,ss);
for jj = 1:ss
    for ii = 1:ss
        psu = zeros(2,1);
        psu(1,1) = tau(jj,1);
        psu(2,1) = tau(ii,1);
        qq(jj,ii) = (min(psu,[],1)' - tau(jj,1)*tau(ii,1))*bb(jj,1)*bb(ii,1);
    end
end
midbt = zeros(k0,ss);
for jj = 1:ss
    midbt(:,jj) = bt(2+qqq*k0:1+(qqq+1)*k0,jj)/(1-sum(bt(2+(qqq+1)*k0:1+(qqq+1)*k0+ppp,jj),1)');
end
bigbt = reshape(midbt,[],1);
bigbtmm = kron(qq,inv(mm));
if (ppp>qqq)
    yyj = zeros(nn-ppp,ppp);
    xxj = zeros(nn-ppp,k0);
    wwj = zeros(nn-ppp,qqq*k0);
    for jj = 1:ppp
        yyj(:,jj) = yy((ppp+1-jj):(nn-jj),1);
    end
    
    for ii = 1:k0
        for jj = 1:qqq
            wwj(:,jj+(ii-1)*qqq) = ee((ppp-jj+2):(nn-jj+1),ii);
        end
    end
    
    xxj = xx((ppp+1):nn,:);
    kk = zeros(nn-ppp,ss*ppp);
    
    for jj = 1:ppp
        Y = yyj(:,jj);
        ONEX = [ones(nn-ppp,1),xxj,wwj];
        for ii = 1:ss
            [bbt] = qregressMatlab(Y,ONEX,tau(ii,1));
            kkk = Y - ONEX*bbt;
            kk(:,jj+(ii-1)*ppp) = kkk;
        end
    end
    kka1 = kk(:,2);
    kka2 = kk(:,4);
    kka3 = kk(:,6);
    
    kka = [kka1,kka2,kka3];
    
tilw = tw(ppp:(nn-1),:);
llla = (kka'*kka - kka'*tilw*inv(tilw'*tilw)*tilw'*kka)/(nn-ppp);
else
    yyj = zeros(nn-qqq,ppp);
    xxj = zeros(nn-qqq,k0);
    wwj = zeros(nn-qqq,qqq*k0);
    
    for jj = 1:ppp
        yyj(:,jj) = yy((qqq+1-jj):(nn-jj),1);
    end
    
for ii = 1:k0
    for jj = 1:qqq
        wwj(:,jj+(ii-1)*qqq) = ee((qqq-jj+2):(nn-jj+1),ii);
    end
end
xxj = xx((qqq+1):nn,:);
kk = zeros(nn-qqq,ss*ppp);
for jj = 1:ppp
    Y = yyj(:,jj);
    ONEX = [ones(nn-qqq,1), xxj, wwj];
    for ii = 1:ss
        [bbt] = qregressMatlab(Y,ONEX,tau(jj,1));
        kkk = Y - ONEX*bbt;
        kk(:,jj+(ii-1)*ppp) = kkk;
    end
end
    kka1 = kk(:,2);
    kka2 = kk(:,4);
    kka3 = kk(:,6);
    
    kka = [kka1,kka2,kka3];
    
tilw = tw(qqq:(nn-1),:);
llla = (kka'*kka - kka'*tilw*inv(tilw'*tilw)*tilw'*kka)/(nn-qqq);
end
cc = zeros(ss,ss);
for jj = 1:ss
    for ii = 1:ss
        psu = zeros(2,1);
        psu(1,1) = tau(jj,1);
        psu(2,1) = tau(ii,1);
        cc(jj,ii) = (min(psu,[],1)' - tau(jj,1)*tau(ii,1))/(fh(ii,1)*fh(jj,1));
    end
end
bigpia = zeros(ss*(ppp-1),ss*(ppp-1));
for jj = 1:ss
    for ii = 1:ss
        psu = inv(llla((jj-1)*(ppp-1)+1:jj*(ppp-1),(jj-1)*(ppp-1)+1:jj*(ppp-1)))*llla((jj-1)*(ppp-1)+1:jj*(ppp-1),(ii-1)*(ppp-1)+1:ii*(ppp-1))*inv(llla((ii-1)*(ppp-1)+1:ii*(ppp-1),(ii-1)*(ppp-1)+1:ii*(ppp-1)));
        
        bigpia((jj-1)*(ppp-1)+1:jj*(ppp-1),(ii-1)*(ppp-1)+1:ii*(ppp-1)) = cc(jj,ii)*psu;
    end
end
midphi = zeros(ppp,ss);
for jj = 1:ss
    midphi(:,jj) = bt(2+(qqq+1)*k0:1+(qqq+1)*k0+ppp,jj);
    
end
bigphi = reshape(midphi,[],1);
bigphia1 = bigphi(2,1);
bigphia2 = bigphi(4,1);
bigphia3 = bigphi(6,1);
   
bigphia = [bigphia1; bigphia2; bigphia3];
dg = [nn^(1/2),0,0; 0,nn^(1/2),0; 0,0,nn];
uu2 = uu;
   
tilwb = tilw(:,2);
r1 = 1;
r2 = sum(tilwb,1)*(nn-2)^(-1);
r3 = sum(xx(3:nn,1),1)*(nn-2)^(-3/2);
r4 = r2;
rh5 = tilwb'*tilwb;
r5 = rh5*(nn-2)^(-1);
rh6 = tilwb'*xx(3:nn,1);
r6 = rh6*(nn-2)^(-3/2);
r7 = r3;
r8 = r6;
rh9 = xx(3:nn,1)'*xx(3:nn,1);
r9 = rh9*(nn-2)^(-2);
QQQ = [r1, r2, r3 ; r4, r5, r6; r7, r8, r9];    
   
   psiu = zeros(nn-2,3);
   
for jj = 1:3
    for rr = 1:nn-2
        if (uu2(rr,jj)<= 0)
         psiu(rr,jj) = tau(jj,1)-1;
        else
         psiu(rr,jj) = tau(jj,1);
        end       
    end   
end
sigmma = psiu'*psiu*(1/(nn-2));
psiu1 = psiu(1:nn-2,1);
psiu2 = psiu(1:nn-2,2);
psiu3 = psiu(1:nn-2,3);
sium1 = mean(psiu1);
sium2 = mean(psiu2);
sium3 = mean(psiu3);
sigma1 = mean(psiu1.^(2));
sigma2 = mean(psiu2.^(2));
sigma3 = mean(psiu3.^(2));
distmt1 = nn*fh(1,1)^(-2)*sigmma(1,1)*inv(dg)*inv(QQQ)*inv(dg);
distmt2 = nn*fh(1,1)^(-1)*fh(2,1)^(-1)*sigmma(1,2)*inv(dg)*inv(QQQ)*inv(dg);
distmt3 = nn*fh(1,1)^(-1)*fh(3,1)^(-1)*sigmma(1,3)*inv(dg)*inv(QQQ)*inv(dg);
distmt4 = nn*fh(2,1)^(-1)*fh(1,1)^(-1)*sigmma(2,1)*inv(dg)*inv(QQQ)*inv(dg);
distmt5 = nn*fh(2,1)^(-2)*sigmma(2,2)*inv(dg)*inv(QQQ)*inv(dg);
distmt6 = nn*fh(2,1)^(-1)*fh(3,1)^(-1)*sigmma(2,3)*inv(dg)*inv(QQQ)*inv(dg);
distmt7 = nn*fh(3,1)^(-1)*fh(1,1)^(-1)*sigmma(3,1)*inv(dg)*inv(QQQ)*inv(dg);
distmt8 = nn*fh(3,1)^(-1)*fh(2,1)^(-1)*sigmma(3,2)*inv(dg)*inv(QQQ)*inv(dg);
distmt9 = nn*fh(3,1)^(-2)*sigmma(3,3)*inv(dg)*inv(QQQ)*inv(dg);
A11 = distmt1(2,2);
A12 = distmt1(3,3);
A13 = 2*distmt1(2,3);
A21 = distmt2(2,2);
A22 = distmt2(3,3);
A23 = 2*distmt2(2,3);
A31 = distmt3(2,2);
A32 = distmt3(3,3);
A33 = 2*distmt3(2,3);
A41 = distmt4(2,2);
A42 = distmt4(3,3);
A43 = 2*distmt4(2,3);
A51 = distmt5(2,2);
A52 = distmt5(3,3);
A53 = 2*distmt5(2,3);
A61 = distmt6(2,2);
A62 = distmt6(3,3);
A63 = 2*distmt6(2,3);
A71 = distmt7(2,2);
A72 = distmt7(3,3);
A73 = 2*distmt7(2,3);
A81 = distmt8(2,2);
A82 = distmt8(3,3);
A83 = 2*distmt8(2,3);
A91 = distmt9(2,2);
A92 = distmt9(3,3);
A93 = 2*distmt9(2,3);
distcon1 = A11 + A12 + A13; 
distcon2 = A21 + A22 + A23;
distcon3 = A31 + A32 + A33;
distcon4 = A41 + A42 + A43; 
distcon5 = A51 + A52 + A53;
distcon6 = A61 + A62 + A63;
distcon7 = A71 + A72 + A73; 
distcon8 = A81 + A82 + A83;
distcon9 = A91 + A92 + A93;
distthett = [distcon1, distcon2, distcon3 ; distcon4, distcon5, distcon6 ; distcon7, distcon8, distcon9];
thett1 = bt(2,1) + bt(3,1);
thett2 = bt(2,2) + bt(3,2);
thett3 = bt(2,3) + bt(3,3);
thett = [thett1 ; thett2 ; thett3];
end

2 comentarios
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Stephen23 el 13 de Oct. de 2021

Editada: Stephen23 el 13 de Oct. de 2021

qardlecm requires four inout arguments when it is called. What inputs are you supplying when you call it?

sanjiv kumar el 13 de Oct. de 2021

Thank you so much. Now I have got the answer, I was not providing all the four input as it requires. Now I am able to run the code.

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Answer 1

Jan el 13 de Oct. de 2021

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Enlace directo a esta respuesta

https://la.mathworks.com/matlabcentral/answers/1562541-not-enough-input-arguments#answer_807576

Stephen hits the point:

>>qardlecm

This shows, that you call the function without input arguments. Perhaps you start it by clicking on the green triangle in the editor. You need to provide 4 inputs instead.