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Diff for /OpenXM/src/kan96xx/Kan/Kclass/tree.c between version 1.1 and 1.6

version 1.1, 2003/11/21 02:10:37 version 1.6, 2003/12/05 23:14:14
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Line 1 
 /* $OpenXM$ */  /* $OpenXM: OpenXM/src/kan96xx/Kan/Kclass/tree.c,v 1.5 2003/12/05 13:51:32 takayama Exp $ */
 #include <stdio.h>  #include <stdio.h>
 #include "../datatype.h"  #include "../datatype.h"
 #include "../stackm.h"  #include "../stackm.h"
Line 19  struct object KpoTree(struct object ob) {
Line 19  struct object KpoTree(struct object ob) {
   newobp = (struct object *) sGC_malloc(sizeof(struct object));    newobp = (struct object *) sGC_malloc(sizeof(struct object));
   if (newobp == NULL) errorKan1("%s\n","Kclass/indeterminate.c, no more memory.");    if (newobp == NULL) errorKan1("%s\n","Kclass/indeterminate.c, no more memory.");
   if (ob.tag != Sarray) {    if (ob.tag != Sarray) {
     errorKan1("%s\n","Kclass/indeterminate.c, only properly formatted list object can be transformed into tree. [name, cdname, arglist].");      errorKan1("%s\n","Kclass/indeterminate.c, only properly formatted list object can be transformed into tree. [name, attr-list, arglist].");
   }    }
   if (getoaSize(ob) < 3) {    if (getoaSize(ob) < 3) {
     errorKan1("%s\n","Kclass/indeterminate.c, the length must 3 or more than 3. [name, cdname, arglist].");      errorKan1("%s\n","Kclass/indeterminate.c, the length must 3 or more than 3. [name, attr-list, arglist].");
   }    }
   ob1 = getoa(ob,0); ob2 = getoa(ob,1); ob3 = getoa(ob,2);    ob1 = getoa(ob,0); ob2 = getoa(ob,1); ob3 = getoa(ob,2);
   if (ob1.tag != Sdollar || ob2.tag != Sarray || ob3.tag != Sarray) {    if (ob1.tag != Sdollar || ob2.tag != Sarray || ob3.tag != Sarray) {
     errorKan1("%s\n","Kclass/indeterminate.c, [string name, list attributes, list arglist].");      errorKan1("%s\n","Kclass/indeterminate.c, [string name, list attributes, list arglist].");
   }    }
   *newobp = ob;    *newobp = ob;   /* Add class-tag to the array */
   rob.rc.voidp = newobp;    rob.rc.voidp = newobp;
   return(rob);    return(rob);
 }  }
Line 56  int isTreeAdd(struct object ob) {
Line 56  int isTreeAdd(struct object ob) {
   if (name.tag != Sdollar) {    if (name.tag != Sdollar) {
     errorKan1("%s\n","CLASSNAME_tree is broken. Should be string.");      errorKan1("%s\n","CLASSNAME_tree is broken. Should be string.");
   }    }
   if (strcmp(KopString(name),"add") == 0) {    if (strcmp(KopString(name),"plus") == 0) {
     return(1);      return(1);
   }else{    }else{
     return(0);      return(0);
Line 67  struct object addTree(struct object ob1, struct object
Line 67  struct object addTree(struct object ob1, struct object
 {  {
   struct object rob,aob;    struct object rob,aob;
   struct object ob3,ob4;    struct object ob3,ob4;
     struct object attr;
     struct object keyValue;
     struct object to;
   int i;    int i;
     to = ob2; ob2=ob1; ob1=to; /* Exchange ob1 and ob2 */
   if (isTreeAdd(ob1) && !isTreeAdd(ob2)) {    if (isTreeAdd(ob1) && !isTreeAdd(ob2)) {
     ob1 = KopTree(ob1);      ob1 = KopTree(ob1);
     ob3 = getoa(ob1,2);      ob3 = getoa(ob1,2);
Line 101  struct object addTree(struct object ob1, struct object
Line 105  struct object addTree(struct object ob1, struct object
     putoa(aob,0,ob1);      putoa(aob,0,ob1);
     putoa(aob,1,ob2);      putoa(aob,1,ob2);
   }    }
     attr = newObjectArray(1);
     keyValue = newObjectArray(2);
     putoa(keyValue,0,KpoString("cd"));
     putoa(keyValue,1,KpoString("arith1"));
     putoa(attr,0,keyValue);
   rob = newObjectArray(3);    rob = newObjectArray(3);
   putoa(rob,0,KpoString("add"));    putoa(rob,0,KpoString("plus"));
   putoa(rob,1,KpoString("basic"));    putoa(rob,1,attr);
   putoa(rob,2,aob);    putoa(rob,2,aob);
   return(KpoTree(rob));    return(KpoTree(rob));
 }  }
   
   /* XML DOM-like interfaces */
   struct object KtreeGetDocumentElement(struct object to) {
     struct object rob;
     struct object ob;
     if (to.tag != Sclass) errorKan1("%s\n","KtreeGetDocumentElement");
     if (ectag(to) != CLASSNAME_tree) errorKan1("%s\n","KtreeGetDocumentElement");
     ob = KopTree(to);
     if (ob.tag != Sarray) errorKan1("%s\n","KtreeGetDocumentElement: not an array.");
     if (getoaSize(ob) != 3) errorKan1("%s\n","KtreeGetDocumentElement: array is broken.");
     ob=getoa(ob,0);
     if (ob.tag != Sdollar) errorKan1("%s\n","KtreeGetDocumentElement: element must be a string");
     return ob;
   }
   
 /*------------------------------------------*/  struct object KtreeGetAttributes(struct object to) {
     struct object rob;
     struct object ob;
     if (to.tag != Sclass) errorKan1("%s\n","KtreeGetAttributes:");
     if (ectag(to) != CLASSNAME_tree) errorKan1("%s\n","KtreeGetAttributes:");
     ob = KopTree(to);
     if (ob.tag != Sarray) errorKan1("%s\n","KtreeGetAttributes: not an array.");
     if (getoaSize(ob) != 3) errorKan1("%s\n","KtreeGetAttributes: array is broken.");
     return getoa(ob,1);
   }
   
   struct object KtreeGetChildNodes(struct object to) {
     struct object rob;
     struct object ob;
     if (to.tag != Sclass) errorKan1("%s\n","KtreeGetChildNodes:");
     if (ectag(to) != CLASSNAME_tree) errorKan1("%s\n","KtreeGetChildNodes:");
     ob = KopTree(to);
     if (ob.tag != Sarray) errorKan1("%s\n","KtreeGetChildNodes: not an array.");
     if (getoaSize(ob) != 3) errorKan1("%s\n","KtreeGetChildNodes: array is broken.");
     return getoa(ob,2);
   }
   
   struct object KtreeCreateElement(struct object ostr) {
     struct object ob;
     if (ostr.tag != Sdollar) errorKan1("%s\n","KtreeCreateElement: not a string.");
     ob = newObjectArray(3);
     getoa(ob,0)=ostr;
     getoa(ob,1) = newObjectArray(0);
     getoa(ob,2) = newObjectArray(0);
     return KpoTree(ob);
   }
   

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  Added in v.1.6

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