[q-lang-cvs] q/doc qdoc.texi,1.141,1.142

[Albert G. <ag...@us...>]

Update of /cvsroot/q-lang/q/doc
In directory sc8-pr-cvs16.sourceforge.net:/tmp/cvs-serv12347

Modified Files:
	qdoc.texi 
Log Message:
update documentation

Index: qdoc.texi
===================================================================
RCS file: /cvsroot/q-lang/q/doc/qdoc.texi,v
retrieving revision 1.141
retrieving revision 1.142
diff -C2 -d -r1.141 -r1.142
*** qdoc.texi	18 Jan 2008 11:18:45 -0000	1.141
--- qdoc.texi	18 Jan 2008 11:34:58 -0000	1.142
***************
*** 11324,11337 ****
  floating point values, as of Q 7.11 @code{clib} offers a number of
  specialized operations which provide direct read/write access to the
! elements of numeric vectors, and to convert between such C vectors and
! lists of integer or floating point values. These operations are all
! implemented directly in C and will usually be much more efficient for
! manipulating numeric C vectors than the basic byte-oriented
  functions. Moreover, they allow you to modify the elements of a C vector
  in a direct fashion, turning byte strings into a mutable data structure.
  
  Different operations are provided to handle vectors of signed or
! unsigned 8/16/32 (machine) integers, as well as single and double
! precision floating point numbers. For instance:
  
  @smallexample
--- 11324,11337 ----
  floating point values, as of Q 7.11 @code{clib} offers a number of
  specialized operations which provide direct read/write access to the
! elements of numeric vectors, and allow you to convert between C vectors
! and Q lists of integer or floating point values. These operations are
! all implemented directly in C and will usually be much more efficient
! for manipulating numeric C vectors than the basic byte-oriented
  functions. Moreover, they allow you to modify the elements of a C vector
  in a direct fashion, turning byte strings into a mutable data structure.
  
  Different operations are provided to handle vectors of signed or
! unsigned 8/16/32 bit (machine) integers, as well as single (32 bit) and
! double precision (64 bit) floating point numbers. For instance:
  
  @smallexample