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Diff for /OpenXM/src/asir-doc/parts/asir.texi between version 1.14 and 1.18

version 1.14, 2003/12/21 17:36:29 version 1.18, 2005/07/25 12:23:05
Line 1 
Line 1 
 @comment $OpenXM: OpenXM/src/asir-doc/parts/asir.texi,v 1.13 2003/12/20 13:38:44 ohara Exp $  @comment $OpenXM: OpenXM/src/asir-doc/parts/asir.texi,v 1.17 2004/07/10 05:50:57 takayama Exp $
 \BJP  \BJP
 @node $B%f!<%68@8l(B Asir,,, Top  @node $B%f!<%68@8l(B Asir,,, Top
 @chapter $B%f!<%68@8l(B Asir  @chapter $B%f!<%68@8l(B Asir
Line 1451  After @samp{|} one can append any number of options se
Line 1451  After @samp{|} one can append any number of options se
 [100] xxx(1,2,x^2-1,[1,2,3]|proc=1,index=5);  [100] xxx(1,2,x^2-1,[1,2,3]|proc=1,index=5);
 @end example  @end example
   
   \BJP
   $B$5$i$K(B, $B%*%W%7%g%s$r(B @code{key1=value1,key2=value2,...} $B$N$h$&$K(B
   @samp{,} $B$G6h@Z$C$FEO$9Be$o$j$K(B, $BFCJL$J%-!<%o!<%I(B @code{option_list}
   $B$H%*%W%7%g%s%j%9%H(B @code{[["key1",value1],["key2",value2],...]}
   $B$rMQ$$$FEO$9$3$H$b2DG=$G$"$k(B.
   \E
   \BEG
   Optinal arguments may be given as a list
   with the key word @code{option_list}
   as
   @code{option_list=[["key1",value1],["key2",value2],...]}.
   It is equivalent to pass the optional arguments as
   @code{key1=value1,key2=value2,...}.
   \E
   
   @example
   [101] dp_gr_main([x^2+y^2-1,x*y-1]|option_list=[["v",[x,y]],["order",[[x,5,y,1]]]]);
   @end example
   
 \BJP  \BJP
   $BFC$K(B, $B0z?t$J$7$N(B @code{getopt()} $B$O%*%W%7%g%s%j%9%H$rJV$9$N$G(B,
   $B%*%W%7%g%s$r$H$k4X?t$+$i(B, $B%*%W%7%g%s$r$H$k4X?t$r8F$S=P$9$H$-$K$OM-MQ$G$"$k(B.
   \E
   \BEG
   Since @code{getopt()} returns an option list,
   the optional argument @code{option_list=...} is useful when
   we call functions with optional arguments from
   a function with optional arguments to pass
   the all optional parameters.
   \E
   
   @example
   % cat foo.rr
   def foo(F)
   @{
       OPTS=getopt();
       return factor(F|option_list=OPTS);
   @}
   @end example
   
   @example
   [3] load("foo.rr")$
   [4] foo(x^5-1|mod=11);
   [[1,1],[x+6,1],[x+2,1],[x+10,1],[x+7,1],[x+8,1]]
   @end example
   
   \BJP
 @node $B%b%8%e!<%k(B,,, $B%f!<%6Dj5AH!?t$N=q$-J}(B  @node $B%b%8%e!<%k(B,,, $B%f!<%6Dj5AH!?t$N=q$-J}(B
 @subsection $B%b%8%e!<%k(B  @subsection $B%b%8%e!<%k(B
 \E  \E
Line 1587  The below is an example of demand loading.
Line 1632  The below is an example of demand loading.
 \E  \E
   
 @example  @example
 if (!module_definep("stack")) load("stack.rr") $  if (!module_definedp("stack")) load("stack.rr") $
 @end example  @end example
   
 \BJP  \BJP
Line 1637  def demo() @{
Line 1682  def demo() @{
 module stack;  module stack;
   /* The body of the module stack */    /* The body of the module stack */
 endmodule;  endmodule;
   @end example
   
   \BJP
   $B%b%8%e!<%k$NCf$+$i%H%C%W%l%Y%k$GDj5A$5$l$F$$$k4X?t$r8F$V$K$O(B,
   $B2<$NNc$N$h$&$K(B @code{::} $B$rMQ$$$k(B.
   \E
   \BEG
   In order to call functions defined in the top level from the inside
   of a module, we use @code{::} as in the example below.
   \E
   @example
   def afo() @{
     S = "afo, afo";
     return S;
   @}
   module abc;
   localf foo,afo $
   
   def foo() @{
     G = ::afo();
     return G;
   @}
   def afo() @{
     return "afo, afo in abc";
   @}
   endmodule;
   end$
   
   [1200] abc.foo();
   afo, afo
   [1201] abc.afo();
   afo, afo in abc
 @end example  @end example
   
 @table @t  @table @t

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