version 1.4, 2000/01/26 01:37:32 |
version 1.8, 2003/10/21 09:17:57 |
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@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. |
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Line 254 comprehensible than use of structure like C programs. |
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* 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:: |
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* $B9=B$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:: |
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* $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. |
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Line 269 comprehensible than use of structure like C programs. |
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* return statement:: |
* return statement:: |
* if statement:: |
* if statement:: |
* loop break return continue:: |
* loop break return continue:: |
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* structure definition:: |
* various expressions:: |
* various expressions:: |
* preprocessor:: |
* preprocessor:: |
* option:: |
* option:: |
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* module:: |
\E |
\E |
@end menu |
@end menu |
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@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 |
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Line 587 in the subsequent text exist, and the comment terminat |
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@samp{*/}. |
@samp{*/}. |
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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 |
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@example |
@example |
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\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 |
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@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 |
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\JP $B$G(B, $B$3$l$O(B |
\JP $B$G(B, $B$3$l$O(B |
Line 903 while ( $B<0(B ) @{ |
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Line 907 while ( $B<0(B ) @{ |
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@} |
@} |
\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 |
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Line 994 statement, and the termination condition will be evalu |
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@end itemize |
@end itemize |
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\BJP |
\BJP |
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@node $B9=B$BNDj5A(B,,, $B%f!<%6Dj5AH!?t$N=q$-J}(B |
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@subsection $B9=B$BNDj5A(B |
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\E |
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\BEG |
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@node structure definition,,, Writing user defined functions |
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@subsection structure definition |
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\E |
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\BJP |
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$B9=B$BN$H$O(B, $B3F@.J,$NMWAG$,L>A0$G%"%/%;%9$G$-$k8GDjD9G[Ns$H;W$C$F$h$$(B. |
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$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. |
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$B$"$k7?$N9=B$BN$O(B, $BAH$_9~$_4X?t(B @code{newstruct} $B$K$h$j@8@.$5$l$k(B. |
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$B9=B$BN$N3F%a%s%P$O(B, $B1i;;;R(B @code{->} $B$K$h$j%"%/%;%9$9$k(B. |
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$B%a%s%P$,9=B$BN$N>l9g(B, @code{->} $B$K$h$k;XDj$OF~$l;R$K$G$-$k(B. |
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\E |
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\BEG |
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A structure data type is a fixed length array and each component of the array |
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is accessed by its name. Each type of structure is distinguished by its name. |
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A structure data type is declared by @code{struct} statement. |
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A structure object is generated by a builtin function @code{newstruct}. |
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Each member of a structure is accessed by an operatator @code{->}. |
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If a member of a structure is again a structure, then the specification |
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by @code{->} can be nested. |
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\E |
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@example |
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[1] struct rat @{num,denom@}; |
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0 |
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[2] A = newstruct(rat); |
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@{0,0@} |
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[3] A->num = 1; |
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1 |
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[4] A->den = 2; |
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2 |
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[5] A; |
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@{1,2@} |
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@end example |
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\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 |
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Line 1139 There are special assignments combined with arithmetic |
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@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 |
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Line 1165 A-- $BCM$O85$N(B A $B$NCM(B, A = A-1 |
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\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 |
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Line 1313 After @samp{|} one can append any number of options se |
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Line 1357 After @samp{|} one can append any number of options se |
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@end example |
@end example |
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\BJP |
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@node $B%b%8%e!<%k(B,,, $B%f!<%6Dj5AH!?t$N=q$-J}(B |
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@subsection $B%b%8%e!<%k(B |
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\E |
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\BEG |
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@node module,,, Writing user defined functions |
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@subsection module |
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\E |
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\BJP |
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$B%i%$%V%i%j$GDj5A$5$l$F$$$k4X?t(B, $BJQ?t$r%+%W%;%k2=$9$k;EAH$_$,(B |
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$B%b%8%e!<%k(B (module) $B$G$"$k(B. |
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$B$O$8$a$K%b%8%e!<%k$rMQ$$$?%W%m%0%i%`$NNc$r$"$2$h$&(B. |
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\E |
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\BEG |
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Function names and variables in a library may be |
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encapsulated by module. |
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Let us see an example of using module |
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\E |
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@example |
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module stack; |
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static Sp $ |
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Sp = 0$ |
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static Ssize$ |
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Ssize = 100$ |
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static Stack $ |
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Stack = newvect(Ssize)$ |
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localf push $ |
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localf pop $ |
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def push(A) @{ |
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if (Sp >= Ssize) @{print("Warning: Stack overflow\nDiscard the top"); pop();@} |
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Stack[Sp] = A; |
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Sp++; |
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@} |
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def pop() @{ |
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local A; |
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if (Sp <= 0) @{print("Stack underflow"); return 0;@} |
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Sp--; |
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A = Stack[Sp]; |
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return A; |
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@} |
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endmodule; |
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def demo() @{ |
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stack.push(1); |
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stack.push(2); |
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print(stack.pop()); |
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print(stack.pop()); |
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@} |
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@end example |
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\BJP |
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$B%b%8%e!<%k$O(B @code{module} $B%b%8%e!<%kL>(B $B!A(B @code{endmodule}$B$G0O$`(B. |
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$B%b%8%e!<%k$NCf$@$1$G;H$&Bg0hJQ?t$O(B @code{static} $B$G@k8@$9$k(B. |
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$B$3$NJQ?t$O%b%8%e!<%k$N30$+$i$O;2>H$b$G$-$J$$$7JQ99$b$G$-$J$$(B. |
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$B%b%8%e!<%k$N30$NBg0hJQ?t$O(B @code{extern} $B$G@k8@$9$k(B. |
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\E |
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\BEG |
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Module is encapsulated by the sentences |
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@code{module} module name |
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and |
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@code{endmodule}. |
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A variable of a module is declared with the key word @code{static}. |
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The static variables cannot be refered nor changed out of the module, |
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but it can be refered and changed in any functions in the module. |
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A global variable which can be refered and changed at any place |
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is declared with the key word @code{extern}. |
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\E |
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\BJP |
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$B%b%8%e!<%kFbIt$GDj5A$9$k4X?t$O(B @code{localf} $B$rMQ$$$F@k8@$7$J$$$H$$$1$J$$(B. |
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$B>e$NNc$G$O(B @code{push} $B$H(B @code{pop} $B$r@k8@$7$F$$$k(B. |
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$B$3$N@k8@$OI,?\$G$"$k(B. |
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\E |
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\BEG |
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Any function defined in a module must be declared forward |
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with the keyword @code{localf}. |
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In the example above, @code{push} and @code{pop} are declared. |
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This declaration is necessary. |
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\E |
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\BJP |
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$B%b%8%e!<%k(B @code{moduleName} $B$GDj5A$5$l$?4X?t(B @code{functionName} $B$r(B |
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$B%b%8%e!<%k$N30$+$i8F$V$K$O(B |
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@code{moduleName.functionName($B0z?t(B1, $B0z?t(B2, ... )} |
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$B$J$k7A<0$G$h$V(B. |
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$B%b%8%e!<%k$NCf$+$i$O(B, $B4X?tL>$N$_$G$h$$(B. |
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$B<!$NNc$G$O(B, $B%b%8%e!<%k$N30$+$i%b%8%e!<%k(B @code{stack} $B$GDj5A$5$l$?4X?t(B @code{push}, |
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@code{pop} $B$r8F$s$G$$$k(B. |
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\E |
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\BEG |
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A function @code{functionName} defined in a module @code{moduleName} |
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can be called by the expression |
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@code{moduleName.functioName(arg1, arg2, ...)} |
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out of the module. |
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Inside the module, @code{moduleName.} is not necessary. |
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In the example below, the functions @code{push} and @code{pop} defined |
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in the module @code{stack} are called out of the module. |
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\E |
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@example |
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stack.push(2); |
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print( stack.pop() ); |
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2 |
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@end example |
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\BJP |
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$B%b%8%e!<%k$GMQ$$$k4X?tL>$O6I=jE*$G$"$k(B. |
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$B$D$^$j%b%8%e!<%k$N30$dJL$N%b%8%e!<%k$GDj5A$5$l$F$$$k4X?tL>$HF1$8L>A0$,(B |
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$BMxMQ$G$-$k(B. |
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\E |
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\BEG |
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Any function name defined in a module is local. |
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In other words, the same function name may be used out of the module |
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to define a different function. |
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\E |
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\BJP |
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$B%b%8%e!<%k5!G=$OBg5,LO%i%$%V%i%j$N3+H/$rA[Dj$7$F$$$k(B. |
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$B%i%$%V%i%j$rI,MW$K1~$8$FJ,3d%m!<%I$9$k$K$O(B, $B4X?t(B @code{module_definedp} $B$rMQ$$$k$N$,(B |
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$BJXMx$G$"$k(B. |
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$B%G%^%s%I%m!<%I$O$?$H$($P<!$N$h$&$K9T$J$($PNI$$(B. |
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\E |
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\BEG |
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The module structure of asir is introduced to develop large libraries. |
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In order to load libraries on demand, the command @code{module_definedp} |
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will be useful. |
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The below is an example of demand loading. |
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\E |
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@example |
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if (!module_definep("stack")) load("stack.rr") $ |
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@end example |
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\BJP |
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asir $B$G$O6I=jJQ?t$N@k8@$OITMW$G$"$C$?(B. |
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$B$7$+$7%b%8%e!<%k(B stack $B$NNc$r8+$l$PJ,$+$k$h$&$K(B, @code{local A;} $B$J$k7A<0$G(B |
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$B6I=jJQ?t$r@k8@$G$-$k(B. |
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$B%-!<%o!<%I(B @code{local} $B$rMQ$$$k$H(B, $B@k8@5!G=$,M-8z$H$J$k(B. |
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$B@k8@5!G=$rM-8z$K$9$k$H(B, $B@k8@$5$l$F$J$$JQ?t$O%m!<%I$NCJ3,$G(B |
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$B%(%i!<$r5/$3$9(B. |
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$BJQ?tL>$N%?%$%W%_%9$K$h$kM=4|$7$J$$%H%i%V%k$rKI$0$K$O(B, |
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$B@k8@5!G=$rM-8z$K$7$F%W%m%0%i%`$9$k$N$,$h$$(B. |
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\E |
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\BEG |
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It is not necessary to declare local variables in asir. |
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As you see in the example of the stack module, |
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we may declare local variables by the key word @code{local}. |
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Once this key word is used, asir requires to declare all the |
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variables. |
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In order to avoid some troubles to develop a large libraries, |
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it is recommended to use @code{local} declarations. |
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\E |
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\BJP |
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$B%b%8%e!<%kFb$N4X?t$r$=$N%b%8%e!<%k$,Dj5A$5$l$kA0$K(B |
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$B8F$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 |
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$B%W%m%H%?%$%W@k8@$7$F$*$/I,MW$,$"$k(B. |
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\E |
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\BEG |
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When we need to call a function in a module before the module is defined, |
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we must make a prototype declaration as the example below. |
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\E |
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@example |
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/* Prototype declaration of the module stack */ |
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module stack; |
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localf push $ |
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localf pop $ |
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endmodule; |
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def demo() @{ |
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print("----------------"); |
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stack.push(1); |
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print(stack.pop()); |
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print("---------------"); |
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@} |
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module stack; |
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/* The body of the module stack */ |
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endmodule; |
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@end example |