ack/lang/pc/comp/main.c

279 lines
6.7 KiB
C

/* M A I N P R O G R A M */
#include <stdlib.h>
#include <string.h>
#include "debug.h"
#include <em.h>
#include <em_mes.h>
#include <system.h>
#include <stb.h>
#include "LLlex.h"
#include "Lpars.h"
#include "class.h"
#include "const.h"
#include "def.h"
#include "f_info.h"
#include "idf.h"
#include "input.h"
#include "main.h"
#include "node.h"
#include "required.h"
#include "tokenname.h"
#include "type.h"
#include "scope.h"
#include "dbsymtab.h"
char options[128];
char *ProgName;
char *input = "input";
char *output = "output";
label data_label;
label text_label;
struct def *program;
extern int fp_used; /* set if floating point used */
main(argc, argv)
register char **argv;
{
register int Nargc = 1;
register char **Nargv = &argv[0];
ProgName = *argv++;
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);
sys_stop(S_EXIT);
}
if(!Compile(Nargv[1], Nargv[2])) sys_stop(S_EXIT);
sys_stop(S_END);
}
Compile(src, dst)
char *src, *dst;
{
extern struct tokenname tkidf[];
extern struct tokenname tkstandard[];
int tk;
if( !InsertFile(src, (char **) 0, &src) ) {
fprint(STDERR, "%s: cannot open %s\n", ProgName, src);
return 0;
}
LineNumber = 1;
FileName = src;
init_idf();
InitCst();
reserve(tkidf);
reserve(tkstandard);
CheckForLineDirective();
tk = LLlex(); /* Read the first token and put */
aside = dot; /* it aside. In this way, options */
asidetype = toktype; /* inside comments will be seen */
dot.tk_symb = tk; /* before the program starts. */
tokenseen = 1;
InitScope();
InitTypes();
if( options['c'] ) tkclass['"'] = STSTR;
if( options['u'] || options['U'] ) {
class('_') = STIDF;
inidf['_'] = 1;
}
if( tk == '"' || tk == '_' ) {
PushBack();
ASIDE = 0;
}
#ifdef DEBUG
if( options['l'] ) {
LexScan();
return 0; /* running the optimizer is not very useful */
}
#endif /* DEBUG */
C_init(word_size, pointer_size);
if( !C_open(dst) )
fatal("couldn't open output file");
C_magic();
C_ms_emx(word_size, pointer_size);
#ifdef DBSYMTAB
if (options['g']) {
C_ms_std(FileName, N_SO, 0);
}
#endif /* DBSYMTAB */
AddRequired();
C_df_dlb(++data_label);
C_rom_scon(FileName,(arith) strlen(FileName) + 1);
LLparse();
C_ms_src((int)LineNumber - 1, FileName);
if( fp_used ) C_ms_flt();
C_close();
#ifdef DEBUG
if( options['I'] ) Info();
#endif /* DEBUG */
return !err_occurred;
}
#ifdef DEBUG
LexScan()
{
register struct token *tkp = &dot;
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
AddRequired()
{
register struct def *df;
extern struct def *Enter();
static struct node maxintnode = { 0, 0, Value, 0, { INTEGER, 0 } };
/* PROCEDURES */
/* File handling procedures, Read(ln) & Write(ln) are handled
* in the grammar
*/
df = Enter("false", D_ENUM, bool_type, 0);
df->enm_val = 0;
df->df_flags |= D_SET;
bool_type->enm_enums = df;
df->enm_next = Enter("true", D_ENUM, bool_type, 0);
df->enm_next->enm_val = 1;
df->df_flags |= D_SET;
df->enm_next->enm_next = NULLDEF;
(void) Enter("rewrite", D_PROCEDURE, std_type, R_REWRITE);
(void) Enter("put", D_PROCEDURE, std_type, R_PUT);
(void) Enter("reset", D_PROCEDURE, std_type, R_RESET);
(void) Enter("get", D_PROCEDURE, std_type, R_GET);
(void) Enter("page", D_PROCEDURE, std_type, R_PAGE);
/* DYNAMIC ALLOCATION PROCEDURES */
(void) Enter("new", D_PROCEDURE, std_type, R_NEW);
(void) Enter("dispose", D_PROCEDURE, std_type, R_DISPOSE);
if( !options['s'] ) {
(void) Enter("mark", D_PROCEDURE, std_type, R_MARK);
(void) Enter("release", D_PROCEDURE, std_type, R_RELEASE);
}
/* MISCELLANEOUS PROCEDURE(S) */
if( !options['s'] )
(void) Enter("halt", D_PROCEDURE, std_type, R_HALT);
/* TRANSFER PROCEDURES */
(void) Enter("pack", D_PROCEDURE, std_type, R_PACK);
(void) Enter("unpack", D_PROCEDURE, std_type, R_UNPACK);
/* FUNCTIONS */
/* ARITHMETIC FUNCTIONS */
(void) Enter("abs", D_FUNCTION, std_type, R_ABS);
(void) Enter("sqr", D_FUNCTION, std_type, R_SQR);
(void) Enter("sin", D_FUNCTION, std_type, R_SIN);
(void) Enter("cos", D_FUNCTION, std_type, R_COS);
(void) Enter("exp", D_FUNCTION, std_type, R_EXP);
(void) Enter("ln", D_FUNCTION, std_type, R_LN);
(void) Enter("sqrt", D_FUNCTION, std_type, R_SQRT);
(void) Enter("arctan", D_FUNCTION, std_type, R_ARCTAN);
/* TRANSFER FUNCTIONS */
(void) Enter("trunc", D_FUNCTION, std_type, R_TRUNC);
(void) Enter("round", D_FUNCTION, std_type, R_ROUND);
/* ORDINAL FUNCTIONS */
(void) Enter("ord", D_FUNCTION, std_type, R_ORD);
(void) Enter("chr", D_FUNCTION, std_type, R_CHR);
(void) Enter("succ", D_FUNCTION, std_type, R_SUCC);
(void) Enter("pred", D_FUNCTION, std_type, R_PRED);
/* BOOLEAN FUNCTIONS */
(void) Enter("odd", D_FUNCTION, std_type, R_ODD);
(void) Enter("eof", D_FUNCTION, std_type, R_EOF);
(void) Enter("eoln", D_FUNCTION, std_type, R_EOLN);
/* TYPES */
(void) Enter("char", D_TYPE, char_type, 0);
(void) Enter("integer", D_TYPE, int_type, 0);
(void) Enter("real", D_TYPE, real_type, 0);
(void) Enter("boolean", D_TYPE, bool_type, 0);
(void) Enter("text", D_TYPE, text_type, 0);
(void) Enter("(void)", D_TYPE, void_type, 0);
if( options['d'] )
(void) Enter("long", D_TYPE, long_type, 0);
if( options['c'] )
(void) Enter("string", D_TYPE, string_type, 0);
/* DIRECTIVES */
(void) Enter("forward", D_FORWARD, error_type, 0);
(void) Enter("extern", D_EXTERN, error_type, 0);
/* CONSTANTS */
/* nil is TOKEN and thus part of the grammar */
maxintnode.nd_type = int_type;
maxintnode.nd_INT = max_int; /* defined in cstoper.c */
df = define(str2idf("maxint", 0), CurrentScope, D_CONST);
df->df_type = int_type;
df->con_const = &maxintnode;
df->df_flags |= D_SET;
#ifdef DBSYMTAB
if (options['g']) stb_string(df, D_CONST);
#endif /* DBSYMTAB */
}
#ifdef DEBUG
int cntlines;
Info()
{
extern int cnt_def, cnt_node, cnt_paramlist, cnt_type, cnt_scope,
cnt_scopelist, cnt_tmpvar, cnt_withdesig,
cnt_case_hdr, cnt_case_entry;
print("\
%6d def\n%6d node\n%6d paramlist\n%6d type\n%6d scope\n%6d scopelist\n\
%6d lab\n%6d tmpvar\n%6d withdesig\n%6d casehdr\n%6d caseentry\n",
cnt_def, cnt_node, cnt_paramlist, cnt_type, cnt_scope, cnt_scopelist, cnt_lab, cnt_tmpvar, cnt_withdesig, cnt_case_hdr, cnt_case_entry);
print("\nNumber of lines read: %d\n", cntlines);
}
#endif