===================================================================
RCS file: /home/cvs/OpenXM/src/asir-contrib/testing/test1-tr.rr,v
retrieving revision 1.2
retrieving revision 1.8
diff -u -p -r1.2 -r1.8
--- OpenXM/src/asir-contrib/testing/test1-tr.rr	2005/04/02 05:56:57	1.2
+++ OpenXM/src/asir-contrib/testing/test1-tr.rr	2005/05/11 06:40:10	1.8
@@ -1,27 +1,29 @@
-/* $OpenXM$ */
-/* $Id: test1-tr.rr,v 1.2 2005/04/02 05:56:57 takayama Exp $ */
+/* $Id: test1-tr.rr,v 1.8 2005/05/11 06:40:10 takayama Exp $ */
+/* $OpenXM: OpenXM/src/asir-contrib/testing/test1-tr.rr,v 1.7 2005/05/04 05:47:03 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(A2,P));
-  print("-----tr_rp -------------");
-  R=tr_rp(A,P,Q);
+  print("---- tr.make_binding --------");
+  print(tr.make_binding(A2,P));
+  print("-----tr.rp -------------");
+  R=tr.rp(A,P,Q);
   print("--------------------");
   print(R);
   print("--------------------");
@@ -29,23 +31,23 @@ def test0() {
 }
 
 def test1()  {
-  Rule1=[quote(sin(pn("x")*@pi)),["qt_sin_int","x"]]; /* sin(整数*@pi) --> 0 */
-  Rule2=[quote(0*pn("y")),       ["qt_zero"]];       /* 0*any --> 0 */
-  Rule3=[quote(pn("y")*0),       ["qt_zero"]];       /* any*0 --> 0 */
-  Rule4=[quote(pn("y")+0),       ["qt_id","y"]];       /* any+0 --> any */
-  Rule5=[quote(0+pn("y")),       ["qt_id","y"]];       /* 0+any --> any */
-  Rule6=[quote(sin(0)),          ["qt_zero"]];       /* sin(0) --> 0 */
+  Rule1=[quote(sin(pn("x")*@pi)),["qt.sin_int","x"]]; /* sin(整数*@pi) --> 0 */
+  Rule2=[quote(0*pn("y")),       ["qt.zero"]];       /* 0*any --> 0 */
+  Rule3=[quote(pn("y")*0),       ["qt.zero"]];       /* any*0 --> 0 */
+  Rule4=[quote(pn("y")+0),       ["qt.id","y"]];       /* any+0 --> any */
+  Rule5=[quote(0+pn("y")),       ["qt.id","y"]];       /* 0+any --> any */
+  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;
 }
@@ -96,10 +98,142 @@ def test3a(R0)  {
   for (J=0; J<3; J++) {  /* Todo: フラグがないので, とりあえず 3 回 */
     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;
 }
 
+
+/* 関数のマッチ.  N[] 相当.  test4(). */
+/*  quote(nn(pn(f),qt.is_function(f))); は不要. qt.map_arg が処理 */
+def test4() {
+  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]);
+  return R;
+}
+
+def test5() {
+  Rule1=[quote(sin(pn(x)*@pi)),["qt.sin_int",x]]; /* sin(整数*@pi) --> 0 */
+  Rule2=[quote(0*pn(y)),       ["qt.zero"]];       /* 0*any --> 0 */
+  Rule3=[quote(pn(y)*0),       ["qt.zero"]];       /* any*0 --> 0 */
+  Rule4=[quote(pn(y)+0),       ["qt.id",y]];       /* any+0 --> any */
+  Rule5=[quote(0+pn(y)),       ["qt.id",y]];       /* 0+any --> any */
+  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]);
+  print([R[0],print_input_form(R[1])]);
+  R=tr.apply_or_rules(R0,[Rule1,Rule2,Rule3,Rule4,Rule5,Rule6]);
+  return R;
+}
+
+
+/* 微分環の計算 */
+/* x に依存してるか?  u, u_0, u_1, u_2, ... は x に依存してる.*/
+def to_quote(L) {
+  return eval_str("quote("+listtoquote_str(L)+")");
+}
+def dep6(Q) {
+  if (type(Q) == 4) {
+    Q = to_quote(Q);
+  }  
+  if (qt.is_dependent(Q,x)) return 1;
+  if (qt.is_dependent(Q,u)) return 1;
+  /* とりあえず 10 次までの f. --> なんとかせよ. */
+  for (I=0; I<10; I++) {  
+    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]]);
+}
+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]]);
+  if ((F1 == 1) &&  (G1 == 0)) 
+    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]]);
+  if ((F1 == 0) && (G1 == 0))
+    return qt.zero();
+}
+def diff_x_n(N) {
+  N = eval_quote(N);
+  N1=N-1;
+  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 が u とか u_0, u_1, ... なら 1 を戻す. */
+/* debug 用の入力.
+  tr.check_pn(quote(u_1),quote(pn(x,is_u_variable(x))));
+*/
+def is_u_variable(F) {
+  /* 述語の前の check point も debugger に欲しい. */
+  /* print("is_u_variable: ",0); print(print_input_form(F)); */
+  if (type(F) == 17) F=quotetolist(F);
+  if (rtostr(F[0]) == "internal") {
+    V = eval_str(rtostr(F[1]));
+    if (vtoidx(V)[0] == "u") return 1;
+  }
+  return 0;
+}
+/*  u_i^n の微分をする.  n*u_{i+1}*u_i^{n-1} 
+   Todo: もっと簡潔に quote を書けないか?
+*/
+def diff_u_n(F,N) {
+  F = eval_quote(F);
+  I = vtoidx(F); 
+  if (length(I) == 1) I = 0; else I=I[1];
+  N = eval_quote(N);
+  N1=N-1;
+  NextU = "u_"+rtostr(I+1);
+  if (I == 0) U = "u"; else U = "u_"+rtostr(I);
+
+  NN = objtoquote(N);
+  NN1 = objtoquote(N1);
+  NextU = objtoquote(eval_str(NextU));
+  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(n*up*uu^m),[[up,NextU],[uu,U],
+     [n,NN],[m,NN1]]);
+}
+
+def test6b() {
+  T1=[quote(diff(x)),["qt.one"]];
+  T2=[quote(diff(x^pn(n))),[diff_x_n,n]];  /* is_poly? が欲しい. */
+  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]);
+  return R;
+}
+
+/* Use Debug2=1; は debug にとても有益. */
+def test6() {
+  T1=[quote(diff(x)),["qt.one"]];
+  T2=[quote(diff(x^pn(n))),[diff_x_n,n]];  /* is_poly? が欲しい. */
+  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]];
+  R2=[quote(diff(pn(f)*pn(g))),[diff_mul,f,g]];
+
+  /* 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]);
+  return R;
+}
 end$