OpenXM/src/asir-contrib/testing/test1-tr.rr - diff

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Diff for /OpenXM/src/asir-contrib/testing/test1-tr.rr between version 1.5 and 1.7

version 1.5, 2005/04/15 12:47:14

version 1.7, 2005/05/04 05:47:03

Line 1

/* $Id$ */

/* $OpenXM: OpenXM/src/asir-contrib/testing/test1-tr.rr,v 1.4 2005/04/06 09:26:28 takayama Exp $ */

/* $OpenXM: OpenXM/src/asir-contrib/testing/test1-tr.rr,v 1.6 2005/04/21 10:54:49 takayama Exp $ */

load("tr.rr")$

qt_ ==> qt.

tr_ ==> tr.

def test0() {

A = quotetolist(quote(1+sin(x)+sin(3*@pi)*sin(0)));

P = quotetolist(quote(sin(pn("x")*@pi)));

Q = ["qt_sin_int","x"];

Q = ["qt.sin_int","x"];

print(A);

print(P);

print(Q);

print("----------------");

print(tr_match0(A,P));

print(tr.match0(A,P));

A2 = quotetolist(quote(sin(2*@pi)));

print(tr_match0(A2,P));

print(tr.match0(A2,P));

print("----------------");

print("---- tr_make_binding --------");

print("---- tr.make_binding --------");

print(tr_make_binding(A2,P));

print(tr.make_binding(A2,P));

print("-----tr_rp -------------");

print("-----tr.rp -------------");

R=tr_rp(A,P,Q);

R=tr.rp(A,P,Q);

print("--------------------");

print(R);

print("--------------------");

Line 29 def test0() {

Line 31 def test0() {

}

def test1() {

Rule1=[quote(sin(pn("x")*@pi)),["qt_sin_int","x"]]; /* sin($B@0?t(B*@pi) --> 0 */

Rule1=[quote(sin(pn("x")*@pi)),["qt.sin_int","x"]]; /* sin($B@0?t(B*@pi) --> 0 */

Rule2=[quote(0*pn("y")), ["qt_zero"]]; /* 0*any --> 0 */

Rule2=[quote(0*pn("y")), ["qt.zero"]]; /* 0*any --> 0 */

Rule3=[quote(pn("y")*0), ["qt_zero"]]; /* any*0 --> 0 */

Rule3=[quote(pn("y")*0), ["qt.zero"]]; /* any*0 --> 0 */

Rule4=[quote(pn("y")+0), ["qt_id","y"]]; /* any+0 --> any */

Rule4=[quote(pn("y")+0), ["qt.id","y"]]; /* any+0 --> any */

Rule5=[quote(0+pn("y")), ["qt_id","y"]]; /* 0+any --> any */

Rule5=[quote(0+pn("y")), ["qt.id","y"]]; /* 0+any --> any */

Rule6=[quote(sin(0)), ["qt_zero"]]; /* sin(0) --> 0 */

Rule6=[quote(sin(0)), ["qt.zero"]]; /* sin(0) --> 0 */

R0 = quote(1+sin(sin(2*@pi)*sin(@pi/2))+sin(5*@pi));

print(print_input_form(R0));

R=tr_apply_rule1(R0,Rule1[0],Rule1[1]);

R=tr.apply_rule1(R0,Rule1[0],Rule1[1]);

print(print_input_form(R));

R=tr_apply_rule1(R,Rule2[0],Rule2[1]);

R=tr.apply_rule1(R,Rule2[0],Rule2[1]);

print(print_input_form(R));

R=tr_apply_rule1(R,Rule4[0],Rule4[1]);

R=tr.apply_rule1(R,Rule4[0],Rule4[1]);

print(print_input_form(R));

R=tr_apply_rule1(R,Rule6[0],Rule6[1]);

R=tr.apply_rule1(R,Rule6[0],Rule6[1]);

print(print_input_form(R));

R=tr_apply_rule1(R,Rule4[0],Rule4[1]);

R=tr.apply_rule1(R,Rule4[0],Rule4[1]);

print(print_input_form(R));

return R;

}

Line 96 def test3a(R0) {

Line 98 def test3a(R0) {

for (J=0; J<3; J++) { /* Todo: $B%U%i%0$,$J$$$N$G(B, $B$H$j$"$($:(B 3 $B2s(B */

for (I=0; I<N; I++) {

print(print_input_form(R));

R=tr_apply_rule1(R,Rules[I][0],Rules[I][1]);

R=tr.apply_rule1(R,Rules[I][0],Rules[I][1]);

}

return R;

Line 104 def test3a(R0) {

Line 106 def test3a(R0) {

/* $B4X?t$N%^%C%A(B. N[] $BAjEv(B. test4(). */

/* quote(nn(pn(f),qt_is_function(f))); $B$OITMW(B. qt_map_arg $B$,=hM}(B */

/* quote(nn(pn(f),qt.is_function(f))); $B$OITMW(B. qt.map_arg $B$,=hM}(B */

def test4() {

Rule=[quote(nn(pn(f))),[qt_map_arg,nn,f]];

Rule=[quote(nn(pn(f))),["qt.map_arg",nn,f]];

R0 = quote(nn(sin(1/2)*cos(1/3)));

print(print_input_form(R0));

R=tr_apply_rule1(R0,Rule[0],Rule[1]);

R=tr.apply_rule1(R0,Rule[0],Rule[1]);

return R;

}

/* tr_apply_or_rule $B$N;n:n(B */

/* Flag $BIU$-(B $B$N(B tr_rp. $BB0@-$,$J$$$N$G$3$l$G$d$k(B. */

def tr_rp_flag(F,P,Q) {

Flag = 0;

dprint0("tr_rp, F="); dprint(F);

dprint0("tr_rp, P="); dprint(P);

dprint0("tr_rp, Q="); dprint(Q);

if (tr_match0(F,P)) {

BindTable = tr_make_binding(F,P);

dprint0("BindTable="); dprint(BindTable);

return [1,tr_apply_function0(Q,BindTable)];

}

if (type(F) != 4) return F;

Node = qt_node(F);

N = qt_nchild(F);

Ans = Node;

for (I=0; I<N; I++) {

T = tr_rp_flag(qt_child(F,I),P,Q);

if (T[0] == 1) Flag = 1;

Ans = append(Ans,[T[1]]);

}

return [Flag,Ans];

}

extern Debug2$

Debug2=0$

/* $B=q$-49$((B flag $BIU$-$N(B tr_apply_rule_flag */

def tr_apply_rule1_flag(Obj,L,R) {

Flag = 0;

if (Debug2)

print("-------- start of tr_apply_rule1_flag ------------ ");

if (Debug2) print(print_input_form(Obj));

Obj = quotetolist(Obj);

L = quotetolist(L);

R = tr_rp_flag(Obj,L,R);

Flag=R[0]; R=R[1];

if (type(R) == 17) R=quotetolist(R);

RR = "quote("+listtoquote_str(R)+")";

if (Debug2) {print("==> "+RR+" by "); print(listtoquote_str(L));}

if (Debug2) print("-------- end of tr_apply_rule1_flag ------------ ");

return [Flag,eval_str(RR)];

}

def tr_apply_or_rules(Q,R) {

Flag = 1;

N = length(R);

while (Flag) {

Flag = 0;

for (I=0; I<N; I++) {

Q = tr_apply_rule1_flag(Q,R[I][0],R[I][1]);

if (Q[0]) {

Flag = 1;

dprint("Applied the rule "+rtostr(I));

}

Q = Q[1];

}

return Q;

}

def test5() {

Rule1=[quote(sin(pn(x)*@pi)),[qt_sin_int,x]]; /* sin($B@0?t(B*@pi) --> 0 */

Rule1=[quote(sin(pn(x)*@pi)),["qt.sin_int",x]]; /* sin($B@0?t(B*@pi) --> 0 */

Rule2=[quote(0*pn(y)), [qt_zero]]; /* 0*any --> 0 */

Rule2=[quote(0*pn(y)), ["qt.zero"]]; /* 0*any --> 0 */

Rule3=[quote(pn(y)*0), [qt_zero]]; /* any*0 --> 0 */

Rule3=[quote(pn(y)*0), ["qt.zero"]]; /* any*0 --> 0 */

Rule4=[quote(pn(y)+0), [qt_id,y]]; /* any+0 --> any */

Rule4=[quote(pn(y)+0), ["qt.id",y]]; /* any+0 --> any */

Rule5=[quote(0+pn(y)), [qt_id,y]]; /* 0+any --> any */

Rule5=[quote(0+pn(y)), ["qt.id",y]]; /* 0+any --> any */

Rule6=[quote(sin(0)), [qt_zero]]; /* sin(0) --> 0 */

Rule6=[quote(sin(0)), ["qt.zero"]]; /* sin(0) --> 0 */

R0 = quote(1+sin(sin(2*@pi)*sin(@pi/2))+sin(5*@pi));

print(print_input_form(R0));

R=tr_apply_rule1_flag(R0,Rule1[0],Rule1[1]);

R=tr.apply_rule1_flag(R0,Rule1[0],Rule1[1]);

print([R[0],print_input_form(R[1])]);

R=tr_apply_or_rules(R0,[Rule1,Rule2,Rule3,Rule4,Rule5,Rule6]);

R=tr.apply_or_rules(R0,[Rule1,Rule2,Rule3,Rule4,Rule5,Rule6]);

return R;

}

/* $BHyJ,4D$N7W;;(B */

/* x $B$K0MB8$7$F$k$+(B? u, u_0, u_1, u_2, ... $B$O(B x $B$K0MB8$7$F$k(B.*/

def to_quote(L) {

Line 197 def dep6(Q) {

Line 140 def dep6(Q) {

if (type(Q) == 4) {

Q = to_quote(Q);

}

if (qt_is_dependent(Q,x)) return 1;

if (qt.is_dependent(Q,x)) return 1;

if (qt_is_dependent(Q,u)) return 1;

if (qt.is_dependent(Q,u)) return 1;

/* $B$H$j$"$($:(B 10 $B<!$^$G$N(B f. --> $B$J$s$H$+$;$h(B. */

for (I=0; I<10; I++) {

if (qt_is_dependent(Q,idxtov(u,I))) return 1;

if (qt.is_dependent(Q,idxtov(u,I))) return 1;

}

return 0;

}

def diff_lin(F,G) {

if (type(F) == 4) F=to_quote(F);

if (type(G) == 4) G=to_quote(G);

return qt_replace(quote(diff(f)+diff(g)),[[f,F],[g,G]]);

return qt.replace(quote(diff(f)+diff(g)),[[f,F],[g,G]]);

}

def diff_mul(F,G) {

F1 = dep6(F); G1 = dep6(G);

if (type(F) == 4) F=to_quote(F);

if (type(G) == 4) G=to_quote(G);

if (F1 && G1)

return qt_replace(quote(diff(f)*g+f*diff(g)),[[f,F],[g,G]]);

return qt.replace(quote(diff(f)*g+f*diff(g)),[[f,F],[g,G]]);

if ((F1 == 1) && (G1 == 0))

return qt_replace(quote(diff(f)*g),[[f,F],[g,G]]);

return qt.replace(quote(diff(f)*g),[[f,F],[g,G]]);

if ((F1 == 0) && (G1 == 1))

return qt_replace(quote(f*diff(g)),[[f,F],[g,G]]);

return qt.replace(quote(f*diff(g)),[[f,F],[g,G]]);

if ((F1 == 0) && (G1 == 0))

return qt_zero();

return qt.zero();

}

def qt_one() {

return quote(1);

}

def diff_x_n(N) {

N = eval_quote(N);

N1=N-1;

if (N1 == 0) return qt_one();

if (N1 == 0) return qt.one();

if (N1 == 1) return quote(2*x);

if (N1 > 1) return eval_str("quote("+rtostr(N)+"*x^"+rtostr(N1)+")");

}

/* F $B$,(B u $B$H$+(B u_0, u_1, ... $B$J$i(B 1 $B$rLa$9(B. */

/* debug $BMQ$NF~NO(B.

tr_check_pn(quote(u_1),quote(pn(x,is_u_variable(x))));

tr.check_pn(quote(u_1),quote(pn(x,is_u_variable(x))));

def is_u_variable(F) {

/* $B=R8l$NA0$N(B check point $B$b(B debugger $B$KM_$7$$(B. */

Line 265 def diff_u_n(F,N) {

Line 205 def diff_u_n(F,N) {

U = objtoquote(eval_str(U));

if (N1 == 0) return NextU;

if (N1 == 1) return qt_replace(quote(2*up*uu),[[up,NextU],[uu,U]]);

if (N1 == 1) return qt.replace(quote(2*up*uu),[[up,NextU],[uu,U]]);

if (N1 > 1) return qt_replace(quote(n*up*uu^m),[[up,NextU],[uu,U],

if (N1 > 1) return qt.replace(quote(n*up*uu^m),[[up,NextU],[uu,U],

[n,NN],[m,NN1]]);

}

def test6b() {

T1=[quote(diff(x)),[qt_one]];

T1=[quote(diff(x)),["qt.one"]];

T2=[quote(diff(x^pn(n))),[diff_x_n,n]]; /* is_poly? $B$,M_$7$$(B. */

R1=[quote(diff(pn(f)+pn(g))),[diff_lin,f,g]];

R2=[quote(diff(pn(f)*pn(g))),[diff_mul,f,g]];

A = quote(diff(2*4*x^3+x));

print(print_input_form(A));

R=tr_apply_or_rules(A,[R1,R2,T1,T2]);

R=tr.apply_or_rules(A,[R1,R2,T1,T2]);

return R;

}

/* Use Debug2=1; $B$O(B debug $B$K$H$F$bM-1W(B. */

def test6() {

T1=[quote(diff(x)),[qt_one]];

T1=[quote(diff(x)),["qt.one"]];

T2=[quote(diff(x^pn(n))),[diff_x_n,n]]; /* is_poly? $B$,M_$7$$(B. */

T3=[quote(diff(pn(f,is_u_variable(f))^pn(n))),[diff_u_n,f,n]];

R1=[quote(diff(pn(f)+pn(g))),[diff_lin,f,g]];

Line 293 def test6() {

Line 233 def test6() {

/* A = quote(diff(2*x^3+x));*/

A = quote(diff(2*u^3+x));

print(print_input_form(A));

R=tr_apply_or_rules(A,[R1,R2,T1,T2,T3]);

R=tr.apply_or_rules(A,[R1,R2,T1,T2,T3]);

return R;

}

end$

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