ack/lang/m2/comp/program.g

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/* O V E R A L L S T R U C T U R E */
{
static char *RcsId = "$Header$";
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#include <alloc.h>
#include <em_arith.h>
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#include <em_label.h>
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#include "main.h"
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#include "idf.h"
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#include "LLlex.h"
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#include "scope.h"
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#include "def.h"
#include "type.h"
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#include "node.h"
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#include "debug.h"
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static int DEFofIMPL = 0; /* Flag indicating that we are currently
parsing the definition module of the
implementation module currently being
compiled
*/
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struct def *currentdef; /* current definition of module or procedure */
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}
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/*
The grammar as given by Wirth is already almost LL(1); the
main problem is that the full form of a qualified designator
may be:
[ module_ident '.' ]* IDENT [ '.' field_ident ]*
which is quite confusing to an LL(1) parser. Rather than
resorting to context-sensitive techniques, I have decided
to render this as:
IDENT [ '.' IDENT ]*
on the grounds that it is quite natural to consider the first
IDENT to be the name of the object and regard the others as
field identifiers.
*/
%lexical LLlex;
%start CompUnit, CompilationUnit;
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%start DefModule, DefinitionModule;
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ModuleDeclaration
{
struct idf *id;
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register struct def *df;
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struct def *savecurr = currentdef;
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extern int proclevel;
static int modulecount = 0;
char buf[256];
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struct node *nd;
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extern char *sprint(), *Malloc(), *strcpy();
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} :
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MODULE IDENT {
id = dot.TOK_IDF;
df = define(id, CurrentScope, D_MODULE);
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currentdef = df;
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if (!df->mod_scope) {
open_scope(CLOSEDSCOPE);
df->mod_scope = CurrentScope;
}
else CurrentScope = df->mod_scope;
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df->df_type = standard_type(T_RECORD, 0, (arith) 0);
df->df_type->rec_scope = df->mod_scope;
df->mod_number = ++modulecount;
sprint(buf, "__%d%s", df->mod_number, id->id_text);
CurrentScope->sc_name =
Malloc((unsigned) (strlen(buf) + 1));
strcpy(CurrentScope->sc_name, buf);
C_ina_dnam(&buf[1]);
C_inp(buf);
}
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priority(&(df->mod_priority))?
';'
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import(1)*
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export(0)?
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block(&nd)
IDENT { InitProc(nd, df);
close_scope(SC_CHKFORW|SC_CHKPROC|SC_REVERSE);
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match_id(id, dot.TOK_IDF);
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currentdef = savecurr;
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}
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;
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priority(arith *pprio;)
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{
struct node *nd;
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} :
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'[' ConstExpression(&nd) ']'
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{ if (!(nd->nd_type->tp_fund & T_INTORCARD)) {
node_error(nd, "Illegal priority");
}
*pprio = nd->nd_INT;
FreeNode(nd);
}
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;
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export(int def;)
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{
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struct node *ExportList;
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int QUALflag = 0;
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} :
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EXPORT
[
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QUALIFIED
{ QUALflag = 1; }
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]?
IdentList(&ExportList) ';'
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{
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if (!def) {
Export(ExportList, QUALflag);
}
else {
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node_warning(ExportList, "export list in definition module ignored");
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FreeNode(ExportList);
}
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}
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;
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import(int local;)
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{
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struct node *ImportList;
struct node *id = 0;
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} :
[ FROM
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IDENT { id = MkNode(Value, NULLNODE, NULLNODE, &dot); }
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]?
IMPORT IdentList(&ImportList) ';'
/*
When parsing a global module, this is the place where we must
read already compiled definition modules.
If the FROM clause is present, the identifier in it is a module
name, otherwise the names in the import list are module names.
*/
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{
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Import(ImportList, id, local);
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}
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;
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DefinitionModule
{
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register struct def *df;
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struct idf *id;
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} :
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DEFINITION
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MODULE IDENT {
id = dot.TOK_IDF;
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df = define(id, GlobalScope, D_MODULE);
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if (!SYSTEMModule) open_scope(CLOSEDSCOPE);
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if (!Defined) Defined = df;
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df->mod_scope = CurrentScope;
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df->mod_number = 0;
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CurrentScope->sc_name = id->id_text;
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df->df_type = standard_type(T_RECORD, 0, (arith) 0);
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df->df_type->rec_scope = df->mod_scope;
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DefinitionModule++;
DO_DEBUG(1, debug("Definition module \"%s\" %d",
id->id_text, DefinitionModule));
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}
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';'
import(0)*
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export(1)?
/* New Modula-2 does not have export lists in definition modules.
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For the time being, we ignore export lists here, and a
warning is issued.
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*/
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definition* END IDENT
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{
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if (DEFofIMPL) {
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/* Just read the definition module of the
implementation module being compiled
*/
RemImports(&(CurrentScope->sc_def));
}
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df = CurrentScope->sc_def;
while (df) {
/* Make all definitions "QUALIFIED EXPORT" */
df->df_flags |= D_QEXPORTED;
df = df->df_nextinscope;
}
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if (!SYSTEMModule) close_scope(SC_CHKFORW);
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DefinitionModule--;
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match_id(id, dot.TOK_IDF);
}
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'.'
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;
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definition
{
struct def *df;
} :
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CONST [ ConstantDeclaration Semicolon ]*
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|
TYPE
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[ IDENT { df = define(dot.TOK_IDF, CurrentScope, D_TYPE); }
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[ '=' type(&(df->df_type))
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| /* empty */
/*
Here, the exported type has a hidden implementation.
The export is said to be opaque.
It is restricted to pointer types.
*/
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{ df->df_kind = D_HIDDEN;
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df->df_type = construct_type(T_POINTER, NULLTYPE);
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}
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]
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Semicolon
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]*
|
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VAR [ VariableDeclaration Semicolon ]*
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|
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ProcedureHeading(&df, D_PROCHEAD) Semicolon
;
Semicolon:
';'
|
{ warning("; expected"); }
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;
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ProgramModule(int state;)
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{
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struct idf *id;
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struct def *GetDefinitionModule();
register struct def *df;
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struct node *nd;
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} :
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MODULE
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IDENT {
id = dot.TOK_IDF;
if (state == IMPLEMENTATION) {
DEFofIMPL = 1;
df = GetDefinitionModule(id);
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currentdef = df;
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CurrentScope = df->mod_scope;
DEFofIMPL = 0;
}
else {
df = define(id, CurrentScope, D_MODULE);
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Defined = df;
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open_scope(CLOSEDSCOPE);
df->mod_scope = CurrentScope;
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df->mod_number = 0;
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CurrentScope->sc_name = id->id_text;
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}
}
priority(&(df->mod_priority))?
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';' import(0)*
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block(&nd) IDENT
{ InitProc(nd, df);
close_scope(SC_CHKFORW|SC_CHKPROC|SC_REVERSE);
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match_id(id, dot.TOK_IDF);
}
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'.'
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;
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Module
{
int state = PROGRAM;
} :
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DefinitionModule
|
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[
IMPLEMENTATION { state = IMPLEMENTATION; }
]?
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ProgramModule(state)
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;
CompilationUnit:
Module
;