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Diff for /OpenXM/src/asir-doc/parts/asir.texi between version 1.4 and 1.8

version 1.4, 2000/01/26 01:37:32 version 1.8, 2003/10/21 09:17:57
Line 1 
Line 1 
 @comment $OpenXM: OpenXM/src/asir-doc/parts/asir.texi,v 1.3 1999/12/21 02:47:31 noro Exp $  @comment $OpenXM: OpenXM/src/asir-doc/parts/asir.texi,v 1.7 2003/04/20 08:01:25 noro 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 254  comprehensible than use of structure like C programs.
Line 254  comprehensible than use of structure like C programs.
 * return $BJ8(B::  * return $BJ8(B::
 * if $BJ8(B::  * if $BJ8(B::
 * $B%k!<%W(B break return continue::  * $B%k!<%W(B break return continue::
   * $B9=B$BNDj5A(B::
 * $B$5$^$6$^$J<0(B::  * $B$5$^$6$^$J<0(B::
 * $B%W%j%W%m%;%C%5(B::  * $B%W%j%W%m%;%C%5(B::
 * $B%*%W%7%g%s;XDj(B::  * $B%*%W%7%g%s;XDj(B::
   * $B%b%8%e!<%k(B::
 \E  \E
 \BEG  \BEG
 * User defined functions::  * User defined functions::
Line 267  comprehensible than use of structure like C programs.
Line 269  comprehensible than use of structure like C programs.
 * return statement::  * return statement::
 * if statement::  * if statement::
 * loop break return continue::  * loop break return continue::
   * structure definition::
 * various expressions::  * various expressions::
 * preprocessor::  * preprocessor::
 * option::  * option::
   * module::
 \E  \E
 @end menu  @end menu
   
Line 574  def afo(X) @{
Line 578  def afo(X) @{
 @samp{/*} $B$,$$$/$D$"$C$F$b:G=i$N$b$N$N$_$,M-8z$H$J$j(B, $B:G=i$K8=$l$?(B  @samp{/*} $B$,$$$/$D$"$C$F$b:G=i$N$b$N$N$_$,M-8z$H$J$j(B, $B:G=i$K8=$l$?(B
 @samp{*/} $B$G%3%a%s%H$O=*N;$7$?$H8+$J$5$l$k(B. $B%W%m%0%i%`$J$I$G(B, $B%3%a%s%H(B  @samp{*/} $B$G%3%a%s%H$O=*N;$7$?$H8+$J$5$l$k(B. $B%W%m%0%i%`$J$I$G(B, $B%3%a%s%H(B
 $B$r4^$`2DG=@-$,$"$kItJ,$r%3%a%s%H%"%&%H$7$?>l9g$K$O(B, @code{#if 0},  $B$r4^$`2DG=@-$,$"$kItJ,$r%3%a%s%H%"%&%H$7$?>l9g$K$O(B, @code{#if 0},
 @code{#endif}$B$r;H$($P$h$$(B. (@xref{$B%W%j%W%m%;%C%5(B})  @code{#endif}$B$r;H$($P$h$$(B. (@xref{$B%W%j%W%m%;%C%5(B}.)
 \E  \E
 \BEG  \BEG
 A comment can span to several lines, but it cannot be nested.  A comment can span to several lines, but it cannot be nested.
Line 583  in the subsequent text exist, and the comment terminat
Line 587  in the subsequent text exist, and the comment terminat
 @samp{*/}.  @samp{*/}.
   
 In order to comment out a program part that may contain comments in it,  In order to comment out a program part that may contain comments in it,
 use the pair, @code{#if 0} and @code{#endif}. (@xref{preprocessor})  use the pair, @code{#if 0} and @code{#endif}. (@xref{preprocessor}.)
 \E  \E
   
 @example  @example
Line 650  S = sum(N);
Line 654  S = sum(N);
 \BJP  \BJP
 $B$N$h$&$K(B, $B<0$K=*C<5-9f(B (@samp{;} $B$^$?$O(B @samp{$}) $B$r$D$1$?$b$N$G$"$k(B.  $B$N$h$&$K(B, $B<0$K=*C<5-9f(B (@samp{;} $B$^$?$O(B @samp{$}) $B$r$D$1$?$b$N$G$"$k(B.
 $B$3$NC1J85Z$SN`;w$N(B @code{return} $BJ8(B, @code{break} $BJ8$J$I$,J8$N:G>.9=@.(B  $B$3$NC1J85Z$SN`;w$N(B @code{return} $BJ8(B, @code{break} $BJ8$J$I$,J8$N:G>.9=@.(B
 $BC10L$H$J$k(B. @code{if} $BJ8$d(B @code{for} $BJ8$NDj5A(B (@xref{$BJ8K!$N>\:Y(B}) $B$r8+$l(B  $BC10L$H$J$k(B. @code{if} $BJ8$d(B @code{for} $BJ8$NDj5A(B (@ref{$BJ8K!$N>\:Y(B}) $B$r8+$l(B
 $B$P$o$+$kDL$j(B, $B$=$l$i$NK\BN$O(B, $BC1$J$k0l$D$NJ8$H$7$FDj5A$5$l$F$$$k(B. $BDL>o(B  $B$P$o$+$kDL$j(B, $B$=$l$i$NK\BN$O(B, $BC1$J$k0l$D$NJ8$H$7$FDj5A$5$l$F$$$k(B. $BDL>o(B
 $B$O(B, $BK\BN$K$OJ#?t$NJ8$,=q$1$k$3$H$,I,MW$H$J$k(B.  $B$3$N$h$&$J>l9g(B,  $B$O(B, $BK\BN$K$OJ#?t$NJ8$,=q$1$k$3$H$,I,MW$H$J$k(B.  $B$3$N$h$&$J>l9g(B,
 @samp{@{} $B$H(B @samp{@}} $B$GJ8$NJB$S$r3g$C$F(B, $B0l$D$NJ8$H$7$F07$&$3$H$,$G(B  @samp{@{} $B$H(B @samp{@}} $B$GJ8$NJB$S$r3g$C$F(B, $B0l$D$NJ8$H$7$F07$&$3$H$,$G(B
Line 888  infinite loop.
Line 892  infinite loop.
   
 @example  @example
 \JP for ( $B<0JB$S(B-1; $B<0(B; $B<0JB$S(B-2 ) $BJ8(B  \JP for ( $B<0JB$S(B-1; $B<0(B; $B<0JB$S(B-2 ) $BJ8(B
 \EG for ( expression list-1; expression; expression list-2 ) statement  \EG for ( expr list-1; expr; expr list-2 ) statement
 @end example  @end example
   
 \JP $B$G(B, $B$3$l$O(B  \JP $B$G(B, $B$3$l$O(B
Line 903  while ( $B<0(B ) @{
Line 907  while ( $B<0(B ) @{
 @}  @}
 \E  \E
 \BEG  \BEG
 expression list-1 (transformed into a sequence of simple statement)  expr list-1 (transformed into a sequence of simple statement)
 while ( expression ) @{  while ( expr ) @{
     statement      statement
     expression list-2 (transformed into a sequence of simple statement)      expr list-2 (transformed into a sequence of simple statement)
 @}  @}
 \E  \E
 @end example  @end example
Line 990  statement, and the termination condition will be evalu
Line 994  statement, and the termination condition will be evalu
 @end itemize  @end itemize
   
 \BJP  \BJP
   @node $B9=B$BNDj5A(B,,, $B%f!<%6Dj5AH!?t$N=q$-J}(B
   @subsection $B9=B$BNDj5A(B
   \E
   \BEG
   @node structure definition,,, Writing user defined functions
   @subsection structure definition
   \E
   
   \BJP
   $B9=B$BN$H$O(B, $B3F@.J,$NMWAG$,L>A0$G%"%/%;%9$G$-$k8GDjD9G[Ns$H;W$C$F$h$$(B.
   $B3F9=B$BN$OL>A0$G6hJL$5$l$k(B. $B9=B$BN$O(B, @code{struct} $BJ8$K$h$j@k8@$5$l$k(B.
   $B$"$k7?$N9=B$BN$O(B, $BAH$_9~$_4X?t(B @code{newstruct} $B$K$h$j@8@.$5$l$k(B.
   $B9=B$BN$N3F%a%s%P$O(B, $B1i;;;R(B @code{->} $B$K$h$j%"%/%;%9$9$k(B.
   $B%a%s%P$,9=B$BN$N>l9g(B, @code{->} $B$K$h$k;XDj$OF~$l;R$K$G$-$k(B.
   \E
   
   \BEG
   A structure data type is a fixed length array and each component of the array
   is accessed by its name. Each type of structure is distinguished by its name.
   A structure data type is declared by @code{struct} statement.
   A structure object is generated by a builtin function @code{newstruct}.
   Each member of a structure is accessed by an operatator @code{->}.
   If a member of a structure is again a structure, then the specification
   by @code{->} can be nested.
   \E
   
   @example
   [1] struct rat @{num,denom@};
   0
   [2] A = newstruct(rat);
   @{0,0@}
   [3] A->num = 1;
   1
   [4] A->den = 2;
   2
   [5] A;
   @{1,2@}
   @end example
   
   \BJP
 @node $B$5$^$6$^$J<0(B,,, $B%f!<%6Dj5AH!?t$N=q$-J}(B  @node $B$5$^$6$^$J<0(B,,, $B%f!<%6Dj5AH!?t$N=q$-J}(B
 @subsection $B$5$^$6$^$J<0(B  @subsection $B$5$^$6$^$J<0(B
 \E  \E
Line 1095  There are special assignments combined with arithmetic
Line 1139  There are special assignments combined with arithmetic
   
 @example  @example
 \JP A = 2  A *= 3 ($B$3$l$O(B A = A*3 $B$HF1$8(B; $B$=$NB>$N1i;;;R$bF1MM(B)  \JP A = 2  A *= 3 ($B$3$l$O(B A = A*3 $B$HF1$8(B; $B$=$NB>$N1i;;;R$bF1MM(B)
 \EG A = 2  A *= 3 (the same as A = A*3; The other combination are alike.)  \EG A = 2  A *= 3 (the same as A = A*3; The others are alike.)
 @end example  @end example
 @item  @item
 \JP $BH!?t8F$S=P$7(B  \JP $BH!?t8F$S=P$7(B
Line 1121  A--  $BCM$O85$N(B A $B$NCM(B, A = A-1
Line 1165  A--  $BCM$O85$N(B A $B$NCM(B, A = A-1
 \BEG  \BEG
 A++  the expression value is the previous value of A, and A = A+1  A++  the expression value is the previous value of A, and A = A+1
 A--  the expression value is the previous value of A, and A = A-1  A--  the expression value is the previous value of A, and A = A-1
 ++A  A = A+1, and the expression value is the value after increment of A  ++A  A = A+1, and the value is the one after increment of A
 --A  A = A-1, and the expression value is the value after decrement of A  --A  A = A-1, and the value is the one after decrement of A
 \E  \E
 @end example  @end example
   
Line 1313  After @samp{|} one can append any number of options se
Line 1357  After @samp{|} one can append any number of options se
 @end example  @end example
   
   
   \BJP
   @node $B%b%8%e!<%k(B,,, $B%f!<%6Dj5AH!?t$N=q$-J}(B
   @subsection $B%b%8%e!<%k(B
   \E
   \BEG
   @node module,,, Writing user defined functions
   @subsection module
   \E
   
   \BJP
   $B%i%$%V%i%j$GDj5A$5$l$F$$$k4X?t(B, $BJQ?t$r%+%W%;%k2=$9$k;EAH$_$,(B
   $B%b%8%e!<%k(B (module) $B$G$"$k(B.
   $B$O$8$a$K%b%8%e!<%k$rMQ$$$?%W%m%0%i%`$NNc$r$"$2$h$&(B.
   \E
   \BEG
   Function names and variables in a library may be
   encapsulated by module.
   Let us see an example of using module
   \E
   
   @example
   module stack;
   
   static Sp $
   Sp = 0$
   static Ssize$
   Ssize = 100$
   static Stack $
   Stack = newvect(Ssize)$
   localf push $
   localf pop $
   
   def push(A) @{
     if (Sp >= Ssize) @{print("Warning: Stack overflow\nDiscard the top"); pop();@}
     Stack[Sp] = A;
     Sp++;
   @}
   def pop() @{
     local A;
     if (Sp <= 0) @{print("Stack underflow"); return 0;@}
     Sp--;
     A = Stack[Sp];
     return A;
   @}
   endmodule;
   
   def demo() @{
     stack.push(1);
     stack.push(2);
     print(stack.pop());
     print(stack.pop());
   @}
   @end example
   
   \BJP
   $B%b%8%e!<%k$O(B @code{module} $B%b%8%e!<%kL>(B  $B!A(B @code{endmodule}$B$G0O$`(B.
   $B%b%8%e!<%k$NCf$@$1$G;H$&Bg0hJQ?t$O(B @code{static} $B$G@k8@$9$k(B.
   $B$3$NJQ?t$O%b%8%e!<%k$N30$+$i$O;2>H$b$G$-$J$$$7JQ99$b$G$-$J$$(B.
   $B%b%8%e!<%k$N30$NBg0hJQ?t$O(B @code{extern} $B$G@k8@$9$k(B.
   \E
   \BEG
   Module is encapsulated by the sentences
   @code{module} module name
   and
   @code{endmodule}.
   A variable of a module is declared with the key word @code{static}.
   The static variables cannot be refered nor changed out of the module,
   but it can be refered and changed in any functions in the module.
   A global variable which can be refered and changed at any place
   is declared with the key word @code{extern}.
   \E
   
   \BJP
   $B%b%8%e!<%kFbIt$GDj5A$9$k4X?t$O(B @code{localf} $B$rMQ$$$F@k8@$7$J$$$H$$$1$J$$(B.
   $B>e$NNc$G$O(B @code{push} $B$H(B @code{pop} $B$r@k8@$7$F$$$k(B.
   $B$3$N@k8@$OI,?\$G$"$k(B.
   \E
   \BEG
   Any function defined in a module must be declared forward
   with the keyword @code{localf}.
   In the example above, @code{push} and @code{pop} are declared.
   This declaration is necessary.
   \E
   
   \BJP
   $B%b%8%e!<%k(B @code{moduleName} $B$GDj5A$5$l$?4X?t(B @code{functionName} $B$r(B
   $B%b%8%e!<%k$N30$+$i8F$V$K$O(B
        @code{moduleName.functionName($B0z?t(B1, $B0z?t(B2, ... )}
   $B$J$k7A<0$G$h$V(B.
   $B%b%8%e!<%k$NCf$+$i$O(B, $B4X?tL>$N$_$G$h$$(B.
   $B<!$NNc$G$O(B, $B%b%8%e!<%k$N30$+$i%b%8%e!<%k(B @code{stack} $B$GDj5A$5$l$?4X?t(B @code{push},
   @code{pop} $B$r8F$s$G$$$k(B.
   \E
   \BEG
   A function @code{functionName} defined in a module @code{moduleName}
   can be called by the expression
   @code{moduleName.functioName(arg1, arg2, ...)}
   out of the module.
   Inside the module, @code{moduleName.} is not necessary.
   In the example below, the functions @code{push} and @code{pop} defined
   in the module @code{stack} are called out of the module.
   \E
   
   @example
    stack.push(2);
    print( stack.pop() );
    2
   @end example
   
   \BJP
   $B%b%8%e!<%k$GMQ$$$k4X?tL>$O6I=jE*$G$"$k(B.
   $B$D$^$j%b%8%e!<%k$N30$dJL$N%b%8%e!<%k$GDj5A$5$l$F$$$k4X?tL>$HF1$8L>A0$,(B
   $BMxMQ$G$-$k(B.
   \E
   \BEG
   Any function name defined in a module is local.
   In other words, the same function name may be used out of the module
   to define a different function.
   \E
   
   \BJP
   $B%b%8%e!<%k5!G=$OBg5,LO%i%$%V%i%j$N3+H/$rA[Dj$7$F$$$k(B.
   $B%i%$%V%i%j$rI,MW$K1~$8$FJ,3d%m!<%I$9$k$K$O(B, $B4X?t(B @code{module_definedp} $B$rMQ$$$k$N$,(B
   $BJXMx$G$"$k(B.
   $B%G%^%s%I%m!<%I$O$?$H$($P<!$N$h$&$K9T$J$($PNI$$(B.
   \E
   \BEG
   The module structure of asir is introduced to develop large libraries.
   In order to load libraries on demand, the command @code{module_definedp}
   will be useful.
   The below is an example of demand loading.
   \E
   
   @example
   if (!module_definep("stack")) load("stack.rr") $
   @end example
   
   \BJP
   asir $B$G$O6I=jJQ?t$N@k8@$OITMW$G$"$C$?(B.
   $B$7$+$7%b%8%e!<%k(B stack $B$NNc$r8+$l$PJ,$+$k$h$&$K(B, @code{local A;} $B$J$k7A<0$G(B
   $B6I=jJQ?t$r@k8@$G$-$k(B.
   $B%-!<%o!<%I(B @code{local} $B$rMQ$$$k$H(B, $B@k8@5!G=$,M-8z$H$J$k(B.
   $B@k8@5!G=$rM-8z$K$9$k$H(B, $B@k8@$5$l$F$J$$JQ?t$O%m!<%I$NCJ3,$G(B
   $B%(%i!<$r5/$3$9(B.
   $BJQ?tL>$N%?%$%W%_%9$K$h$kM=4|$7$J$$%H%i%V%k$rKI$0$K$O(B,
   $B@k8@5!G=$rM-8z$K$7$F%W%m%0%i%`$9$k$N$,$h$$(B.
   \E
   \BEG
   It is not necessary to declare local variables in asir.
   As you see in the example of the stack module,
   we may declare local variables by the key word @code{local}.
   Once this key word is used, asir requires to declare all the
   variables.
   In order to avoid some troubles to develop a large libraries,
   it is recommended to use @code{local} declarations.
   \E
   
   \BJP
   $B%b%8%e!<%kFb$N4X?t$r$=$N%b%8%e!<%k$,Dj5A$5$l$kA0$K(B
   $B8F$S=P$9$h$&$J4X?t$r=q$/$H$-$K$O(B, $B$=$N4X?t$NA0$G%b%8%e!<%k$r<!$N$h$&$K(B
   $B%W%m%H%?%$%W@k8@$7$F$*$/I,MW$,$"$k(B.
   \E
   \BEG
   When we need to call a function in a module before the module is defined,
   we must make a prototype declaration as the example below.
   \E
   
   @example
   /* Prototype declaration of the module stack */
   module stack;
   localf push $
   localf pop $
   endmodule;
   
   def demo() @{
     print("----------------");
     stack.push(1);
     print(stack.pop());
     print("---------------");
   @}
   
   module stack;
     /* The body of the module stack */
   endmodule;
   @end example
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