[MATLAB基础] 同一个版本的matlab、同一个.m文件，为何一个顺利执行、另一个出错？ - MATLAB爱好者论坛-LabFans.com

半言堂主 · 2019-05-23, 22:57

同一个版本7.11.0.584 (R2010b)，安装在一个32位台式机上，和一个64位笔记本上，操作系统都是win7。
同一个.m文件，在32位台式机上运行的好好的，但是在64位笔记本上就出错了！报错如下：
??? Error using ==> mtimes
Inner matrix dimensions must agree.
Error in ==> evalincaller at 14
r = evalin('caller',a);
Error in ==> sym.eval at 33
r = evalin('caller',['evalincaller(''' sym2str(a) ''')']);
Error in ==> ColdHRBWO7 at 247
plot(rx,eval(SS(kn,1))/TP,'k','LineWidth',sqrt(abs(kn)));
经过检查，问题出在：
SS(kn,1) = real(omg*epsl*T(kn,1)*T(kn,1)*bt(kn,1)*A(kn,1)*A(kn,1)*besselj(1,T(kn,1).*r).*besselj(1,T(kn,1).*r));
上。于是，我做了如下尝试：
(1) 我改成：
SS(kn,1) = real(omg*epsl*T(kn,1)*T(kn,1)*bt(kn,1)*A(kn,1)*A(kn,1)*besselj(1,T(kn,1).*r));
在64位笔记本上就不出错了。但真正的公式里面，的确需要两个bessel公式相乘。
(2) 我又把两个bessel之间的.*改成*：
SS(kn,1) = real(omg*epsl*T(kn,1)*T(kn,1)*bt(kn,1)*A(kn,1)*A(kn,1)*besselj(1,T(kn,1).*r)*besselj(1,T(kn,1).*r));
64位笔记本还出错！报的错误仍然是“Inner matrix dimensions must agree.”
(3) 我又改成如下两种形式：
SS(kn,1) = real(omg*epsl*T(kn,1)*T(kn,1)*bt(kn,1)*A(kn,1)*A(kn,1)*(besselj(1,T(kn,1).*r))^2);
SS(kn,1) = real(omg*epsl*T(kn,1)*T(kn,1)*bt(kn,1)*A(kn,1)*A(kn,1)*(besselj(1,T(kn,1).*r)).^2)
64位笔记本继续出错，报的错误又成了：“Inputs must be a scalar and a square matrix.”

出问题的程序段如下：
syms r z;
SS = zeros(2*n+1,1);
SS = sym(SS);
for kn=1:1:2*n+1
SS(kn,1) = real(omg*epsl*T(kn,1)*T(kn,1)*bt(kn,1)*A(kn,1)*A(kn,1)*besselj(1,T(kn,1).*r).*besselj(1,T(kn,1).*r));
end
%#########################谐波功率#########################;
power=zeros(2*n+1,1);
TP = 0;
for kn=1:1:2*n+1
clear sp;
sp = @(z,r) real(besselj(1,T(kn,1).*r).*besselj(1,T(kn,1).*r).*r);
power(kn,1) = real(2*pi/p*omg*epsl*T(kn,1)*T(kn,1)*bt(kn,1)*A(kn,1)*A(kn,1)*quad2d(sp,0,0.5*p,0,Rw,'RelTol',1e-5,'MaxFunEvals',9000));
TP = TP + power(kn,1);
end
power = power/TP;
save power;
xlswrite('5-谐波功率.xls',power);
%#########################功率密度#########################;
rx = 0 : 0.01 : (ro-d)*1e3;
r = rx*1e-3;
z = 0.5*p;
GLMD = rx';
figure(100);
for kn=1:1:2*n+1
clear GLMDn;
plot(rx,eval(SS(kn,1))/TP,'k','LineWidth',sqrt(abs(kn)));
hold on;
grid on;
box on;
xlabel('r-axis (mm)');
ylabel('Power flux density (W/m2)');
GLMDn = eval(SS(kn,1))/TP;
GLMDn = GLMDn';
GLMD = [GLMD,GLMDn];
end
save GLMD;
xlswrite('5-Poynting.xls',GLMD);

2019-05-23, 22:57	#1
半言堂主初级会员注册日期: 2019-05-23 年龄: 42 帖子: 1 声望力: 0	同一个版本的matlab、同一个.m文件，为何一个顺利执行、另一个出错？同一个版本7.11.0.584 (R2010b)，安装在一个32位台式机上，和一个64位笔记本上，操作系统都是win7。同一个.m文件，在32位台式机上运行的好好的，但是在64位笔记本上就出错了！报错如下： ??? Error using ==> mtimes Inner matrix dimensions must agree. Error in ==> evalincaller at 14 r = evalin('caller',a); Error in ==> sym.eval at 33 r = evalin('caller',['evalincaller(''' sym2str(a) ''')']); Error in ==> ColdHRBWO7 at 247 plot(rx,eval(SS(kn,1))/TP,'k','LineWidth',sqrt(abs(kn))); 经过检查，问题出在： SS(kn,1) = real(omgepslT(kn,1)T(kn,1)bt(kn,1)A(kn,1)A(kn,1)besselj(1,T(kn,1).r).besselj(1,T(kn,1).r)); 上。于是，我做了如下尝试： (1) 我改成： SS(kn,1) = real(omgepslT(kn,1)T(kn,1)bt(kn,1)A(kn,1)A(kn,1)besselj(1,T(kn,1).r)); 在64位笔记本上就不出错了。但真正的公式里面，的确需要两个bessel公式相乘。 (2) 我又把两个bessel之间的.改成： SS(kn,1) = real(omgepslT(kn,1)T(kn,1)bt(kn,1)A(kn,1)A(kn,1)besselj(1,T(kn,1).r)besselj(1,T(kn,1).r)); 64位笔记本还出错！报的错误仍然是“Inner matrix dimensions must agree.” (3) 我又改成如下两种形式： SS(kn,1) = real(omgepslT(kn,1)T(kn,1)bt(kn,1)A(kn,1)A(kn,1)(besselj(1,T(kn,1).r))^2); SS(kn,1) = real(omgepslT(kn,1)T(kn,1)bt(kn,1)A(kn,1)A(kn,1)(besselj(1,T(kn,1).r)).^2) 64位笔记本继续出错，报的错误又成了：“Inputs must be a scalar and a square matrix.” 出问题的程序段如下： syms r z; SS = zeros(2n+1,1); SS = sym(SS); for kn=1:1:2n+1 SS(kn,1) = real(omgepslT(kn,1)T(kn,1)bt(kn,1)A(kn,1)A(kn,1)besselj(1,T(kn,1).r).besselj(1,T(kn,1).r)); end %#########################谐波功率#########################; power=zeros(2n+1,1); TP = 0; for kn=1:1:2n+1 clear sp; sp = @(z,r) real(besselj(1,T(kn,1).r).besselj(1,T(kn,1).r).r); power(kn,1) = real(2pi/pomgepslT(kn,1)T(kn,1)bt(kn,1)A(kn,1)A(kn,1)quad2d(sp,0,0.5p,0,Rw,'RelTol',1e-5,'MaxFunEvals',9000)); TP = TP + power(kn,1); end power = power/TP; save power; xlswrite('5-谐波功率.xls',power); %#########################功率密度#########################; rx = 0 : 0.01 : (ro-d)1e3; r = rx1e-3; z = 0.5p; GLMD = rx'; figure(100); for kn=1:1:2n+1 clear GLMDn; plot(rx,eval(SS(kn,1))/TP,'k','LineWidth',sqrt(abs(kn))); hold on; grid on; box on; xlabel('r-axis (mm)'); ylabel('Power flux density (W/m2)'); GLMDn = eval(SS(kn,1))/TP; GLMDn = GLMDn'; GLMD = [GLMD,GLMDn]; end save GLMD; xlswrite('5-Poynting.xls',GLMD);