Docs: Remove an incorrect statement about tr_float_can_branch_complex
[maxima.git] / share / diffequations / linde1.mc
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1 /*  THIS LITTLE PACKAGE SOLVES FIRST ORDER LINEAR
2      ORDINARY DIFFERENTIAL EQUATIONS SUBJECT TO A 
3      BOUNDARY CONDITION (B.C.) AT AN INITIAL POINT
4        THE CALLING PROCEDURE IS
5           IVPSOL(DIFFEQ,Y,X,A,BCEQ);
6      WHERE DIFFEQ IS THE DIFFERENTIAL EQUATION TO BE SOLVED
7             (E.G.:  X*'DIFF(Y,X)+2*Y=1)
8            Y IS THE DEPENDENT VARIABLE
9            X IS THE INDEPENDENT VARIABLE
10            A IS THE POINT AT WHICH THE B.C. IS APPLIED
11            BCEQ IS THE B.C. EQUATION (E.G.: Y=2)
13 soldiff(eq1,y,x,a):=
14      block([eq2,a1,a2,a3,a4,a5],
15         eq2: lhs(eq1)-rhs(eq1),
16         a1:  ratcoef(eq2,'diff(y,x)),
17         a2:  ratcoef(eq2,y),
18         a3:  eq2-a1*'diff(y,x)-a2*y,
19         a4:  integrate(a2/a1,x),
20         a5:  integrate(%e**a4*a3/a1,x),
21            'const1/%e**a4-a5/%e**a4)$
22 ivpsol(diffeq,y,x,a,bceq):=
23      block([z,dery,dya,ya,co1],
24         z:   soldiff(diffeq,y,x,a),
25         dery:diff(z,x,1),
26         dya: subst(a,x,dery),
27         ya:  subst(a,x,z),
28         co1: solve(subst(ya,y,subst(dya,'diff(y,x),bceq)),'const1),
29         if length(co1)>1 /* LISTP(CO1) */ then
30            [print("SOLUTIONS ARE NOT UNIQUE, POSSIBLE SOLUTIONS ARE:
31              "),
32             map(lambda([l1],apply('display,[l1])),co1), return(z)] 
33            else   if co1=[] then return(print("No solution for given initial
34 condition"),z) else subst(rhs(co1[1]),'const1,z))$
35 /* FIND RIGHT EIGENVECTORS WITH OTHER COMPONENT = 1
36           I.E. X IS SOLUTION OF M*X=MU*X    */
37 evec(m,mu,modes):=block([equations,unknowns,x],
38 (for l:1 thru modes do[
39      equations:[],
40      unknowns:[],
41 /*     KILL(X), */
42      x[l]:1,
43      for i:1 thru modes do if not (i=l) then [
44          unknowns:cons(x[i],unknowns),
45          equations:cons(sum(m[i,j]*x[j],j,1,modes)
46               =mu[l]*x[i],equations)],
47      print(solve(equations,unknowns))]))$
48 /* CONSTRUCT 3 X 3 MATRIX WITH DESIRED EIGENVALUES */
50 consmat3(l1,l2,l3):=block([a,b,mat3,cp,cpm,sol1,l],
51 mat3:matrix([1,2,3],[b,3,a],[1,1,l1+l2+l3-4]),
52 cp:expand(-(l-l1)*(l-l2)*(l-l3)),
53 cpm:charpoly(mat3,l),globalsolve:true,
54 sol1:solve([ratcoef(cp,l)=ratcoef(cpm,l),
55 ratcoef(cp,l,0)=ratcoef(cpm,l,0)],[a,b]),
56 return(apply('ev,[mat3])))$