示例#1
0
char* sprint_value(void *db, wg_int enc, char **buf, int *bufsize, char **bptr,
                 int format, int showid, int depth, int maxdepth, int strenc) {
  wg_int *ptrdata;
  int intdata,strl,strl1,strl2;
  char *strdata, *exdata;
  double doubledata;
  char strbuf[80]; // tmp area for dates
  int limit=MIN_STRLEN;

  switch(wg_get_encoded_type(db, enc)) {
    case WG_NULLTYPE:
      str_guarantee_space(buf, bufsize, bptr, MIN_STRLEN);
      if (format!=0) {
        // json
        snprintf(*bptr, limit, JS_NULL);
        return *bptr+strlen(*bptr);
      }
      return *bptr;
    case WG_RECORDTYPE:
      str_guarantee_space(buf, bufsize, bptr, MIN_STRLEN);
      if (!format || depth>=maxdepth) {
        snprintf(*bptr, limit,"%d", (int)enc); // record offset (i.e. id)
        return *bptr+strlen(*bptr);
      } else {
        // recursive print
        ptrdata = wg_decode_record(db, enc);
        sprint_record(db,ptrdata,buf,bufsize,bptr,format,showid,depth+1,maxdepth,strenc);
        **bptr='\0';
        return *bptr;
      }
      break;
    case WG_INTTYPE:
      intdata = wg_decode_int(db, enc);
      str_guarantee_space(buf, bufsize, bptr, MIN_STRLEN);
      snprintf(*bptr, limit, "%d", intdata);
      return *bptr+strlen(*bptr);
    case WG_DOUBLETYPE:
      doubledata = wg_decode_double(db, enc);
      str_guarantee_space(buf, bufsize, bptr, MIN_STRLEN);
      snprintf(*bptr, limit, DOUBLE_FORMAT, doubledata);
      return *bptr+strlen(*bptr);
    case WG_FIXPOINTTYPE:
      doubledata = wg_decode_fixpoint(db, enc);
      str_guarantee_space(buf, bufsize, bptr, MIN_STRLEN);
      snprintf(*bptr, limit, DOUBLE_FORMAT, doubledata);
      return *bptr+strlen(*bptr);
    case WG_STRTYPE:
      strdata = wg_decode_str(db, enc);
      exdata = wg_decode_str_lang(db,enc);
      if (strdata!=NULL) strl1=strlen(strdata);
      else strl1=0;
      if (exdata!=NULL) strl2=strlen(exdata);
      else strl2=0;
      str_guarantee_space(buf, bufsize, bptr, MIN_STRLEN+STRLEN_FACTOR*(strl1+strl2));
      sprint_string(*bptr,(strl1+strl2),strdata,strenc);
      if (exdata!=NULL) {
        snprintf(*bptr+strl1+1,limit,"@%s\"", exdata);
      }
      return *bptr+strlen(*bptr);
    case WG_URITYPE:
      strdata = wg_decode_uri(db, enc);
      exdata = wg_decode_uri_prefix(db, enc);
      if (strdata!=NULL) strl1=strlen(strdata);
      else strl1=0;
      if (exdata!=NULL) strl2=strlen(exdata);
      else strl2=0;
      limit=MIN_STRLEN+STRLEN_FACTOR*(strl1+strl2);
      str_guarantee_space(buf, bufsize, bptr, limit);
      if (exdata==NULL)
        snprintf(*bptr, limit, "\"%s\"", strdata);
      else
        snprintf(*bptr, limit, "\"%s:%s\"", exdata, strdata);
      return *bptr+strlen(*bptr);
    case WG_XMLLITERALTYPE:
      strdata = wg_decode_xmlliteral(db, enc);
      exdata = wg_decode_xmlliteral_xsdtype(db, enc);
      if (strdata!=NULL) strl1=strlen(strdata);
      else strl1=0;
      if (exdata!=NULL) strl2=strlen(exdata);
      else strl2=0;
      limit=MIN_STRLEN+STRLEN_FACTOR*(strl1+strl2);
      str_guarantee_space(buf, bufsize, bptr, limit);
      snprintf(*bptr, limit, "\"%s:%s\"", exdata, strdata);
      return *bptr+strlen(*bptr);
    case WG_CHARTYPE:
      intdata = wg_decode_char(db, enc);
      str_guarantee_space(buf, bufsize, bptr, MIN_STRLEN);
      snprintf(*bptr, limit, "\"%c\"", (char) intdata);
      return *bptr+strlen(*bptr);
    case WG_DATETYPE:
      intdata = wg_decode_date(db, enc);
      wg_strf_iso_datetime(db,intdata,0,strbuf);
      strbuf[10]=0;
      str_guarantee_space(buf, bufsize, bptr, MIN_STRLEN);
      snprintf(*bptr, limit, "\"%s\"",strbuf);
      return *bptr+strlen(*bptr);
    case WG_TIMETYPE:
      intdata = wg_decode_time(db, enc);
      wg_strf_iso_datetime(db,1,intdata,strbuf);
      str_guarantee_space(buf, bufsize, bptr, MIN_STRLEN);
      snprintf(*bptr, limit, "\"%s\"",strbuf+11);
      return *bptr+strlen(*bptr);
    case WG_VARTYPE:
      intdata = wg_decode_var(db, enc);
      str_guarantee_space(buf, bufsize, bptr, MIN_STRLEN);
      snprintf(*bptr, limit, "\"?%d\"", intdata);
      return *bptr+strlen(*bptr);
    case WG_BLOBTYPE:
      strdata = wg_decode_blob(db, enc);
      strl=wg_decode_blob_len(db, enc);
      limit=MIN_STRLEN+STRLEN_FACTOR*strlen(strdata);
      str_guarantee_space(buf, bufsize, bptr, limit);
      sprint_blob(*bptr,strl,strdata,strenc);
      return *bptr+strlen(*bptr);
    default:
      str_guarantee_space(buf, bufsize, bptr, MIN_STRLEN);
      snprintf(*bptr, limit, JS_TYPE_ERR);
      return *bptr+strlen(*bptr);
  }
}
示例#2
0
/** Compare two encoded values
 * a, b - encoded values
 * returns WG_GREATER, WG_EQUAL or WG_LESSTHAN
 * assumes that a and b themselves are not equal and so
 * their decoded values need to be examined (which could still
 * be equal for some data types).
 * depth - recursion depth for records
 */
gint wg_compare(void *db, gint a, gint b, int depth) {
/* a very simplistic version of the function:
 * - we get the types of the variables
 * - if the types match, compare the decoded values
 * - otherwise compare the type codes (not really scientific,
 *   but will provide a means of ordering values).
 *
 * One important point that should be observed here is
 * that the returned values should be consistent when
 * comparing A to B and then B to A. This applies to cases
 * where we have no reason to think one is greater than
 * the other from the *user's* point of view, but for use
 * in T-tree index and similar, values need to be consistently
 * ordered. Examples include unknown types and record pointers
 * (once recursion depth runs out).
 */

  /* XXX: might be able to save time here to mask and compare
   * the type bits instead */
  gint typea = wg_get_encoded_type(db, a);
  gint typeb = wg_get_encoded_type(db, b);

  /* assume types are >2 (NULLs are always equal) and
   * <13 (not implemented as of now)
   * XXX: all of this will fall apart if type codes
   * are somehow rearranged :-) */
  if(typeb==typea) {
    if(typea>WG_CHARTYPE) { /* > 9, not a string */
      if(typea>WG_FIXPOINTTYPE) {
        /* date or time. Compare decoded gints */
        gint deca, decb;
        if(typea==WG_DATETYPE) {
          deca = wg_decode_date(db, a);
          decb = wg_decode_date(db, b);
        } else if(typea==WG_TIMETYPE) {
          deca = wg_decode_time(db, a);
          decb = wg_decode_time(db, b);
        } else if(typea==WG_VARTYPE) {
          deca = wg_decode_var(db, a);
          decb = wg_decode_var(db, b);
        } else {
          /* anon const or other new type, no idea how to compare */
          return (a>b ? WG_GREATER : WG_LESSTHAN);
        }
        return (deca>decb ? WG_GREATER : WG_LESSTHAN);
      } else {
        /* fixpoint, need to compare doubles */
        double deca, decb;
        deca = wg_decode_fixpoint(db, a);
        decb = wg_decode_fixpoint(db, b);
        return (deca>decb ? WG_GREATER : WG_LESSTHAN);
      }
    }
    else if(typea<WG_STRTYPE) { /* < 5, still not a string */
      if(typea==WG_RECORDTYPE) {
        void *deca, *decb;
        deca = wg_decode_record(db, a);
        decb = wg_decode_record(db, b);

        if(!depth) {
          /* No more recursion allowed and pointers aren't equal.
           * So while we're technically comparing the addresses here,
           * the main point is that the returned value != WG_EQUAL
           */
          return ((gint) deca> (gint) decb ? WG_GREATER : WG_LESSTHAN);
        }
        else {
          int i;
#ifdef USE_CHILD_DB
          void *parenta, *parentb;
#endif
          int lena = wg_get_record_len(db, deca);
          int lenb = wg_get_record_len(db, decb);

#ifdef USE_CHILD_DB
          /* Determine, if the records are inside the memory area beloning
           * to our current base address. If it is outside, the encoded
           * values inside the record contain offsets in relation to
           * a different base address and need to be translated.
           */
          parenta = wg_get_rec_owner(db, deca);
          parentb = wg_get_rec_owner(db, decb);
#endif

          /* XXX: Currently we're considering records of differing lengths
           * non-equal without comparing the elements
           */
          if(lena!=lenb)
            return (lena>lenb ? WG_GREATER : WG_LESSTHAN);

          /* Recursively check each element in the record. If they
           * are not equal, break and return with the obtained value
           */
          for(i=0; i<lena; i++) {
            gint elema = wg_get_field(db, deca, i);
            gint elemb = wg_get_field(db, decb, i);

#ifdef USE_CHILD_DB
            if(parenta != dbmemseg(db)) {
              elema = wg_translate_hdroffset(db, parenta, elema);
            }
            if(parentb != dbmemseg(db)) {
              elemb = wg_translate_hdroffset(db, parentb, elemb);
            }
#endif

            if(elema != elemb) {
              gint cr = wg_compare(db, elema, elemb, depth - 1);
              if(cr != WG_EQUAL)
                return cr;
            }
          }
          return WG_EQUAL; /* all elements matched */
        }
      }
      else if(typea==WG_INTTYPE) {
        gint deca, decb;
        deca = wg_decode_int(db, a);
        decb = wg_decode_int(db, b);
        if(deca==decb) return WG_EQUAL; /* large ints can be equal */
        return (deca>decb ? WG_GREATER : WG_LESSTHAN);
      } else {
        /* WG_DOUBLETYPE */
        double deca, decb;
        deca = wg_decode_double(db, a);
        decb = wg_decode_double(db, b);
        if(deca==decb) return WG_EQUAL; /* decoded doubles can be equal */
        return (deca>decb ? WG_GREATER : WG_LESSTHAN);
      }
    }
    else { /* string */
      /* Need to compare the characters. In case of 0-terminated
       * strings we use strcmp() directly, which in glibc is heavily
       * optimised. In case of blob type we need to query the length
       * and use memcmp().
       */
      char *deca, *decb, *exa=NULL, *exb=NULL;
      char buf[4];
      gint res;
      if(typea==WG_STRTYPE) {
        /* lang is ignored */
        deca = wg_decode_str(db, a);
        decb = wg_decode_str(db, b);
      }
      else if(typea==WG_URITYPE) {
        exa = wg_decode_uri_prefix(db, a);
        exb = wg_decode_uri_prefix(db, b);
        deca = wg_decode_uri(db, a);
        decb = wg_decode_uri(db, b);
      }
      else if(typea==WG_XMLLITERALTYPE) {
        exa = wg_decode_xmlliteral_xsdtype(db, a);
        exb = wg_decode_xmlliteral_xsdtype(db, b);
        deca = wg_decode_xmlliteral(db, a);
        decb = wg_decode_xmlliteral(db, b);
      }
      else if(typea==WG_CHARTYPE) {
        buf[0] = wg_decode_char(db, a);
        buf[1] = '\0';
        buf[2] = wg_decode_char(db, b);
        buf[3] = '\0';
        deca = buf;
        decb = &buf[2];
      }
      else { /* WG_BLOBTYPE */
        deca = wg_decode_blob(db, a);
        decb = wg_decode_blob(db, b);
      }

      if(exa || exb) {
        /* String type where extra information is significant
         * (we're ignoring this for plain strings and blobs).
         * If extra part is equal, normal comparison continues. If
         * one string is missing altogether, it is considered to be
         * smaller than the other string.
         */
        if(!exb) {
          if(exa[0])
            return WG_GREATER;
        } else if(!exa) {
          if(exb[0])
            return WG_LESSTHAN;
        } else {
          res = strcmp(exa, exb);
          if(res > 0) return WG_GREATER;
          else if(res < 0) return WG_LESSTHAN;
        }
      }

#if 0 /* paranoia check */
      if(!deca || !decb) {
        if(decb)
          if(decb[0])
            return WG_LESSTHAN;
        } else if(deca) {
          if(deca[0])
            return WG_GREATER;
        }
        return WG_EQUAL;
      }
#endif

      if(typea==WG_BLOBTYPE) {
        /* Blobs are not 0-terminated */
        int lena = wg_decode_blob_len(db, a);
        int lenb = wg_decode_blob_len(db, b);
        res = memcmp(deca, decb, (lena < lenb ? lena : lenb));
        if(!res) res = lena - lenb;
      } else {
        res = strcmp(deca, decb);
      }
      if(res > 0) return WG_GREATER;
      else if(res < 0) return WG_LESSTHAN;
      else return WG_EQUAL;
    }
  }
示例#3
0
/*
 * Return an encoded value as a decoded byte array.
 * It should be freed afterwards.
 * returns the number of bytes in the array.
 * returns 0 if the decode failed.
 *
 * NOTE: to differentiate between identical byte strings
 * the value is prefixed with a type identifier.
 * TODO: For values with varying length that can contain
 * '\0' bytes, add length to the prefix.
 */
gint wg_decode_for_hashing(void *db, gint enc, char **decbytes) {
  gint len;
  gint type;
  gint ptrdata;
  int intdata;
  double doubledata;
  char *bytedata;
  char *exdata, *buf = NULL, *outbuf;

  type = wg_get_encoded_type(db, enc);
  switch(type) {
    case WG_NULLTYPE:
      len = sizeof(gint);
      ptrdata = 0;
      bytedata = (char *) &ptrdata;
      break;
    case WG_RECORDTYPE:
      len = sizeof(gint);
      ptrdata = enc;
      bytedata = (char *) &ptrdata;
      break;
    case WG_INTTYPE:
      len = sizeof(int);
      intdata = wg_decode_int(db, enc);
      bytedata = (char *) &intdata;
      break;
    case WG_DOUBLETYPE:
      len = sizeof(double);
      doubledata = wg_decode_double(db, enc);
      bytedata = (char *) &doubledata;
      break;
    case WG_FIXPOINTTYPE:
      len = sizeof(double);
      doubledata = wg_decode_fixpoint(db, enc);
      bytedata = (char *) &doubledata;
      break;
    case WG_STRTYPE:
      len = wg_decode_str_len(db, enc);
      bytedata = wg_decode_str(db, enc);
      break;
    case WG_URITYPE:
      len = wg_decode_uri_len(db, enc);
      bytedata = wg_decode_uri(db, enc);
      exdata = wg_decode_uri_prefix(db, enc);
      CONCAT_FOR_HASHING(db, bytedata, exdata, len, buf, enc)
      break;
    case WG_XMLLITERALTYPE:
      len = wg_decode_xmlliteral_len(db, enc);
      bytedata = wg_decode_xmlliteral(db, enc);
      exdata = wg_decode_xmlliteral_xsdtype(db, enc);
      CONCAT_FOR_HASHING(db, bytedata, exdata, len, buf, enc)
      break;
    case WG_CHARTYPE:
      len = sizeof(int);
      intdata = wg_decode_char(db, enc);
      bytedata = (char *) &intdata;
      break;
    case WG_DATETYPE:
      len = sizeof(int);
      intdata = wg_decode_date(db, enc);
      bytedata = (char *) &intdata;
      break;
    case WG_TIMETYPE:
      len = sizeof(int);
      intdata = wg_decode_time(db, enc);
      bytedata = (char *) &intdata;
      break;
    case WG_VARTYPE:
      len = sizeof(int);
      intdata = wg_decode_var(db, enc);
      bytedata = (char *) &intdata;
      break;
    case WG_ANONCONSTTYPE:
      /* Ignore anonconst */
    default:
      return 0;
  }

  /* Form the hashable buffer. It is not 0-terminated */
  outbuf = malloc(len + 1);
  if(outbuf) {
    outbuf[0] = (char) type;
    memcpy(outbuf + 1, bytedata, len++);
    *decbytes = outbuf;
  } else {
    /* Indicate failure */
    len = 0;
  }

  if(buf)
    free(buf);
  return len;
}