/* M A I N P R O G R A M */
#include "debug.h"
#include "ndir.h"
#include <system.h>
#include <em_arith.h>
#include <em_label.h>
#include "input.h"
#include "f_info.h"
#include "idf.h"
#include "LLlex.h"
#include "Lpars.h"
#include "type.h"
#include "def.h"
#include "scope.h"
#include "standards.h"
#include "tokenname.h"
#include "node.h"
#include "warning.h"
int state; /* either IMPLEMENTATION or PROGRAM */
char options[128];
int DefinitionModule;
char *ProgName;
char *DEFPATH[NDIRS+1];
struct def *Defined;
extern int err_occurred;
extern int fp_used; /* set if floating point used */
extern C_inp(), C_exp();
int (*c_inp)() = C_inp;
main(argc, argv)
register char **argv;
{
register int Nargc = 1;
register char **Nargv = &argv[0];
ProgName = *argv++;
warning_classes = W_INITIAL;
while (--argc > 0) {
if (**argv == '-')
DoOption((*argv++) + 1);
else
Nargv[Nargc++] = *argv++;
}
Nargv[Nargc] = 0; /* terminate the arg vector */
if (Nargc < 2) {
fprint(STDERR, "%s: Use a file argument\n", ProgName);
return 1;
}
if (options['x']) c_inp = C_exp;
return !Compile(Nargv[1], Nargv[2]);
}
Compile(src, dst)
char *src, *dst;
{
extern struct tokenname tkidf[];
if (! InsertFile(src, (char **) 0, &src)) {
fprint(STDERR,"%s: cannot open %s\n", ProgName, src);
return 0;
}
LineNumber = 1;
FileName = src;
DEFPATH[0] = ".";
DEFPATH[NDIRS] = 0;
init_idf();
InitCst();
reserve(tkidf);
InitScope();
InitTypes();
AddStandards();
#ifdef DEBUG
if (options['l']) {
LexScan();
return 1;
}
#endif DEBUG
open_scope(OPENSCOPE);
GlobalVis = CurrVis;
close_scope(0);
C_init(word_size, pointer_size);
if (! C_open(dst)) fatal("could not open output file");
C_magic();
C_ms_emx(word_size, pointer_size);
CompUnit();
C_ms_src((arith) (LineNumber - 1), FileName);
if (!err_occurred) {
C_exp(Defined->mod_vis->sc_scope->sc_name);
WalkModule(Defined);
if (fp_used) C_ms_flt();
}
C_close();
#ifdef DEBUG
if (options['i']) Info();
#endif
return ! err_occurred;
}
#ifdef DEBUG
LexScan()
{
register struct token *tkp = ˙
extern char *symbol2str();
while (LLlex() > 0) {
print(">>> %s ", symbol2str(tkp->tk_symb));
switch(tkp->tk_symb) {
case IDENT:
print("%s\n", tkp->TOK_IDF->id_text);
break;
case INTEGER:
print("%ld\n", tkp->TOK_INT);
break;
case REAL:
print("%s\n", tkp->TOK_REL);
break;
case STRING:
print("\"%s\"\n", tkp->TOK_STR);
break;
default:
print("\n");
}
}
}
#endif
AddStandards()
{
register struct def *df;
extern struct def *Enter();
static struct node nilnode = { 0, 0, Value, 0, { INTEGER, 0}};
(void) Enter("ABS", D_PROCEDURE, std_type, S_ABS);
(void) Enter("CAP", D_PROCEDURE, std_type, S_CAP);
(void) Enter("CHR", D_PROCEDURE, std_type, S_CHR);
(void) Enter("FLOAT", D_PROCEDURE, std_type, S_FLOAT);
(void) Enter("HIGH", D_PROCEDURE, std_type, S_HIGH);
(void) Enter("HALT", D_PROCEDURE, std_type, S_HALT);
(void) Enter("EXCL", D_PROCEDURE, std_type, S_EXCL);
(void) Enter("DEC", D_PROCEDURE, std_type, S_DEC);
(void) Enter("INC", D_PROCEDURE, std_type, S_INC);
(void) Enter("VAL", D_PROCEDURE, std_type, S_VAL);
(void) Enter("NEW", D_PROCEDURE, std_type, S_NEW);
(void) Enter("DISPOSE", D_PROCEDURE, std_type, S_DISPOSE);
(void) Enter("TRUNC", D_PROCEDURE, std_type, S_TRUNC);
(void) Enter("SIZE", D_PROCEDURE, std_type, S_SIZE);
(void) Enter("ORD", D_PROCEDURE, std_type, S_ORD);
(void) Enter("ODD", D_PROCEDURE, std_type, S_ODD);
(void) Enter("MAX", D_PROCEDURE, std_type, S_MAX);
(void) Enter("MIN", D_PROCEDURE, std_type, S_MIN);
(void) Enter("INCL", D_PROCEDURE, std_type, S_INCL);
(void) Enter("CHAR", D_TYPE, char_type, 0);
(void) Enter("INTEGER", D_TYPE, int_type, 0);
(void) Enter("LONGINT", D_TYPE, longint_type, 0);
(void) Enter("REAL", D_TYPE, real_type, 0);
(void) Enter("LONGREAL", D_TYPE, longreal_type, 0);
(void) Enter("BOOLEAN", D_TYPE, bool_type, 0);
(void) Enter("CARDINAL", D_TYPE, card_type, 0);
df = Enter("NIL", D_CONST, address_type, 0);
df->con_const = &nilnode;
nilnode.nd_INT = 0;
nilnode.nd_type = address_type;
(void) Enter("PROC",
D_TYPE,
construct_type(T_PROCEDURE, NULLTYPE),
0);
df = Enter("BITSET", D_TYPE, bitset_type, 0);
df = Enter("TRUE", D_ENUM, bool_type, 0);
df->enm_val = 1;
df->enm_next = Enter("FALSE", D_ENUM, bool_type, 0);
df = df->enm_next;
df->enm_val = 0;
df->enm_next = 0;
}
/* How do you like that! Modula-2 in a C-program.
*/
char SYSTEM[] = "\
DEFINITION MODULE SYSTEM;\n\
TYPE PROCESS = ADDRESS;\n\
PROCEDURE NEWPROCESS(P:PROC; A:ADDRESS; n:CARDINAL; VAR p1:ADDRESS);\n\
PROCEDURE TRANSFER(VAR p1,p2:ADDRESS);\n\
END SYSTEM.\n";
do_SYSTEM()
{
/* Simulate the reading of the SYSTEM definition module
*/
open_scope(CLOSEDSCOPE);
(void) Enter("WORD", D_TYPE, word_type, 0);
(void) Enter("BYTE", D_TYPE, byte_type, 0);
(void) Enter("ADDRESS", D_TYPE, address_type, 0);
(void) Enter("ADR", D_PROCEDURE, std_type, S_ADR);
(void) Enter("TSIZE", D_PROCEDURE, std_type, S_TSIZE);
if (!InsertText(SYSTEM, sizeof(SYSTEM) - 1)) {
fatal("could not insert text");
}
DefModule();
close_scope(SC_CHKFORW);
}
#ifdef DEBUG
int cntlines;
Info()
{
extern int cnt_def, cnt_node, cnt_paramlist, cnt_type,
cnt_switch_hdr, cnt_case_entry,
cnt_scope, cnt_scopelist, cnt_tmpvar;
print("\
%6d def\n%6d node\n%6d paramlist\n%6d type\n%6d switch_hdr\n\
%6d case_entry\n%6d scope\n%6d scopelist\n%6d tmpvar\n",
cnt_def, cnt_node, cnt_paramlist, cnt_type,
cnt_switch_hdr, cnt_case_entry,
cnt_scope, cnt_scopelist, cnt_tmpvar);
print("\nNumber of lines read: %d\n", cntlines);
}
#endif