function [T] = testm(M)
%TEST Test the model
fprintf('Testing response ... ');
[T.RESP.t,T.RESP.En,T.RESP.E0] = testresp([0 1.5e-3],M);
fprintf('done.\n');
fprintf('Strength-Duration Curce ');
T.M = M;
[T.SD.R,T.SD.T,T.SD.ts,T.SD.i] = SDstat(M,0);
fprintf('done.\n');
fprintf('Threshold Electrotonus ');
T.TE.TD = 1e-3*[0 10 20 30 40 50 60 70 80 99 101 110 120 130 140 150];
T.TE.P = [0.4];
[T.TE.E,T.TE.E0,T.TE.T,T.TE.V] = te(M,T.TE.TD,T.TE.P,0);
fprintf('done.\n');
fprintf('Strength-Intensity ');
T.SI.P = [0 0.2 0.4 0.6 0.8];
[T.SI.T,T.SI.V,T.SI.E0,T.SI.R0] = si(M,T.SI.P);
fprintf('done.\n');
fprintf('Accommodation curve ');
T.AC.TS = 1e-3*[10 25 48.5 100 200];
[T.AC.A,T.AC.S,T.AC.E] = acurve(M,T.AC.TS,T.SD.R,0);
fprintf('done.\n');
fprintf('Accommodation slope ');
T.SLOPE.TAU = 48.5e-3;
T.SLOPE.AC = newSlope(T);
T.SLOPE.E = T.AC.E(3);
fprintf('done.\n');
fprintf('Response to 200ms expr ...');
tspan = [0 -T.AC.TS(length(T.AC.TS))*log(0.05)];
[APs,T.EXPR.t,T.EXPR.En] = resp(tspan,50,M,expr(-T.AC.E(length(T.AC.E)),T.AC.TS(length(T.AC.TS))));
fprintf('Response to 100ms rectangular ...');
Imax = 10e-9; Nmsi = 5; Itol = 0.00001e-9; noAP = 1;
Srheo = pulse(0,100e-3); Sdc = setDC(Srheo,0);
T.RHEO.R = excitation(Imax,Nmsi,Itol,noAP,[0 102e-3],M,Srheo);
[APs,T.RHEO.t,T.RHEO.En] = resp([0 102e-3],4,M,pulse(-T.RHEO.R,100e-3));
[TMP,I] = max(T.RHEO.En);
T.RHEO.L = T.RHEO.t(I);
plotTest2(T)