ack/lang/cem/cemcom.ansi/main.c

/*
 * (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
 * See the copyright notice in the ACK home directory, in the file "Copyright".
 */
/* $Id$ */
/* MAIN PROGRAM */

#include	"parameters.h"
#include	<system.h>
#include    "idf.h"
#include	"input.h"
#include	"level.h"
#include	"arith.h"
#include	"type.h"
#include	"proto.h"
#include	"declar.h"
#include	"tokenname.h"
#include	"Lpars.h"
#include	"LLlex.h"
#include	<alloc.h>
#include	"specials.h"
#include	"sizes.h"
#include	"align.h"
#include	"macro.h"
#include	"assert.h"

extern struct tokenname tkidf[];
extern char *symbol2str();
extern char options[128];

#ifndef NOPP
int inc_pos = 1;			/* place where next -I goes */
int inc_total = 0;
int inc_max;
char **inctable;

extern int do_dependencies;
extern char *dep_file;
static File *dep_fd = STDOUT;

extern char *getwdir();
#endif /* NOPP */

struct sp_id special_ids[] =	{
	{"__setjmp", SP_SETJMP},	/* non-local goto's are registered */
	{0, 0}
};

void dependency();

#ifndef NOCROSS
arith
	short_size = SZ_SHORT,
	word_size = SZ_WORD,
	dword_size = (2 * SZ_WORD),
	int_size = SZ_INT,
	long_size = SZ_LONG,
	float_size = SZ_FLOAT,
	double_size = SZ_DOUBLE,
	lngdbl_size = SZ_LNGDBL,
	pointer_size = SZ_POINTER;

int
	short_align = AL_SHORT,
	word_align = AL_WORD,
	int_align = AL_INT,
	long_align = AL_LONG,
	float_align = AL_FLOAT,
	double_align = AL_DOUBLE,
	lngdbl_align = AL_LNGDBL,
	pointer_align = AL_POINTER,
	struct_align = AL_STRUCT,
	union_align = AL_UNION;
#endif /* NOCROSS */

#ifndef NOPP
arith ifval;	/* ifval will contain the result of the #if expression	*/
#endif /* NOPP */

char *prog_name;

main(argc, argv)
	char *argv[];
{
	/* parse and interpret the command line options	*/
	prog_name = argv[0];

#ifndef NOPP
	inctable = (char **) Malloc(10 * sizeof(char *));
	inctable[0] = "";
	inctable[1] = 0;
	inctable[2] = 0;
	inc_total = 3;
	inc_max = 10;

	init_pp();	/* initialise the preprocessor macros	*/
#endif /* NOPP */

	/*	Note: source file "-" indicates that the source is supplied
		as standard input.  This is only allowed if INP_READ_IN_ONE is
		not defined!
	*/
#ifdef INP_READ_IN_ONE
	while (argc > 1 && *argv[1] == '-')
#else /* INP_READ_IN_ONE */
	while (argc > 1 && *argv[1] == '-' && argv[1][1] != '\0')
#endif /* INP_READ_IN_ONE */
	{
		char *par = &argv[1][1];

		do_option(par);
		argc--, argv++;
	}
#ifdef	LINT
	lint_init();
#endif	/* LINT */
	compile(argc - 1, &argv[1]);

#ifdef	DEBUG
	if (options['h']) hash_stat();
	if (options['m']) Info();
#endif	/* DEBUG */

#ifndef NOPP
	if (do_dependencies) {
	    extern char *source;

	    list_dependencies(source);
	}
#endif
	sys_stop(err_occurred ? S_EXIT : S_END);
	/*NOTREACHED*/
}

#ifndef NOPP

struct dependency    *file_head;
extern char *strrchr();

list_dependencies(source)
char *source;
{
    register struct dependency *p = file_head;

    if (source) {
	register char *s = strrchr(source, '.');

	if (s && *(s+1)) {
	    s++;
	    *s++ = 'o';
	    *s = '\0';
	    /* the source may be in another directory than the
	     * object generated, so don't include the pathname
	     * leading to it.
             */
            if (s = strrchr(source, '/')) {
		source = s + 1;
	    }
	}
	else source = 0;
    }
    if (dep_file && !sys_open(dep_file, OP_WRITE, &dep_fd)) {
	fatal("could not open %s", dep_file);
    }
    while (p) {
	dependency(p->dep_idf->id_text, source);
	p = p->next;
    }
}

add_dependency(s)
char *s;
{
    register struct idf *p = str2idf(s, 1);

    if (! p->id_resmac) {
	register struct dependency *q = new_dependency();

	p->id_resmac = K_FILE;
	q->dep_idf = p;
	q->next = file_head;
	file_head = q;
    }
}

void
dependency(s, source)
char *s, *source;
{
    if (options['i'] && !strncmp(s, "/usr/include/", 13)) {
	return;
    }
    if (options['m'] && source) {
	fprint(dep_fd, "%s: %s\n", source, s);
    }
    else    fprint(dep_fd, "%s\n", s);
}

#endif /* NOPP */

char *source = 0;

#ifdef GEN_NM_LIST
char *nmlist = 0;
#endif /* GEN_NM_LIST */

compile(argc, argv)
	char *argv[];
{
	char *result;
#ifndef	LINT
	register char *destination = 0;
#endif	/* LINT */

#ifdef DEBUG
#ifndef NOPP
	int pp_only = options['E'] || options['P'] || options['C'];
#endif /* NOPP */
#endif

	switch (argc) {
	case 1:
#ifndef	LINT
#ifdef DEBUG
#ifndef NOPP
		if (!pp_only)
#endif /* NOPP */
#endif
			fatal("%s: destination file not specified", prog_name);
#endif	/* LINT */
		break;

#ifndef	LINT
	case 2:
		destination = argv[1];
		break;
#ifdef GEN_NM_LIST
	case 3:
		nmlist = argv[2];
		destination = argv[1];
		break;
#endif /* GEN_NM_LIST */
#endif	/* LINT */

	default:
#ifndef	LINT
#ifdef GEN_NM_LIST
		fatal("use: %s source destination [namelist]", prog_name);
#else /* GEN_NM_LIST */
		fatal("use: %s source destination", prog_name);
#endif /* GEN_NM_LIST */
#else	/* LINT */
		fatal("use: %s source", prog_name);
#endif	/* LINT */
		break;
	}

	if (strcmp(argv[0], "-"))
		FileName = source = argv[0];
	else {
		source = 0;
		FileName = Salloc("standard input", (unsigned) 16);
	}

	if (!InsertFile(source, (char **) 0, &result)) /* read the source file	*/
		fatal("%s: no source file %s\n", prog_name, FileName);
	File_Inserted = 1;
	init();
	LineNumber = 0;
	nestlow = -1;

#ifndef	LINT
	init_code(destination
		  && strcmp(destination, "-") != 0
			? destination
			: 0);
#endif	/* LINT */

#ifndef NOPP
	WorkingDir = getwdir(source);
	PushLex();			/* initialize lex machine */
#else /* NOPP */
	GetToken(&ahead);
#endif /* NOPP */

#ifdef DEBUG
#ifndef NOPP
	if (pp_only) /* run the preprocessor as if it is stand-alone	*/
		preprocess();
	else
#endif /* NOPP */
#endif /* DEBUG */
	{
		/* compile the source text			*/
		C_program();

#ifdef PREPEND_SCOPES
		prepend_scopes();
#endif /* PREPEND_SCOPES */

#ifndef	LINT
		end_code();
#endif	/* LINT */

#ifdef	DEBUG
		if (options['u'])	{
			unstack_level();	/* unstack L_GLOBAL */
		}
		if (options['f'] || options['t'])
			dumpidftab("end of main", options['f'] ? 7 : 0);
#endif	/* DEBUG */
	}
#ifndef	NOPP
	PopLex();
#endif	/* NOPP */
}

init()
{
	init_cst();	/* initialize variables of "cstoper.c"		*/
	reserve(tkidf);		/* mark the C reserved words as such	*/
	init_specials(special_ids);	/* mark special ids as such	*/

	schar_type = standard_type(CHAR, 0, 1, (arith)1);
	uchar_type = standard_type(CHAR, UNSIGNED, 1, (arith)1);

	short_type = standard_type(SHORT, 0, short_align, short_size);
	ushort_type = standard_type(SHORT, UNSIGNED, short_align, short_size);

	/*	Treat type `word' as `int', having its own size and
		alignment requirements.
		This type is transparent to the user.
	*/
	word_type = standard_type(INT, 0, word_align, word_size);
	uword_type = standard_type(INT, UNSIGNED, word_align, word_size);

	int_type = standard_type(INT, 0, int_align, int_size);
	uint_type = standard_type(INT, UNSIGNED, int_align, int_size);

	long_type = standard_type(LONG, 0, long_align, long_size);
	ulong_type = standard_type(LONG, UNSIGNED, long_align, long_size);

	float_type = standard_type(FLOAT, 0, float_align, float_size);
	double_type = standard_type(DOUBLE, 0, double_align, double_size);
	lngdbl_type = standard_type(LNGDBL, 0, lngdbl_align, lngdbl_size);
	void_type = standard_type(VOID, 0, 1, (arith)-1);
	error_type = standard_type(ERRONEOUS, 0, 1, (arith)1);
	error_type->tp_up = error_type;

	/*	Pointer Arithmetic type: all arithmetics concerning
		pointers is supposed to be performed in the
		pointer arithmetic type which is equal to either
		int_type or long_type, depending on the pointer_size
	*/
	if ((int)pointer_size == (int)int_size)
		pa_type = int_type;
	else
	if ((int)pointer_size == (int)long_size)
		pa_type = long_type;
	else
		fatal("pointer size incompatible with any integral size");

	if ((int)int_size != (int)word_size)
		fatal("int_size and word_size are not equal");
	if ((int)short_size > (int)int_size || (int)int_size > (int)long_size)
		fatal("sizes of short/int/long decreasing");
	if ((int)float_size > (int)double_size || (int)double_size > (int)lngdbl_size)
		fatal("sizes of float/double/long double decreasing");

	/* Build a type for function returning int (3.3.2.2) */
	funint_type = construct_type(FUNCTION, int_type, 0, (arith)0, NO_PROTO);
	string_type = construct_type(POINTER, schar_type, 0, (arith)0, NO_PROTO);

	/* Define the standard type identifiers. */
	add_def(str2idf("char", 0), TYPEDEF, schar_type, L_UNIVERSAL);
	add_def(str2idf("int", 0), TYPEDEF, int_type, L_UNIVERSAL);
	add_def(str2idf("float", 0), TYPEDEF, float_type, L_UNIVERSAL);
	add_def(str2idf("double", 0), TYPEDEF, double_type, L_UNIVERSAL);
	add_def(str2idf("void", 0), TYPEDEF, void_type, L_UNIVERSAL);
	stack_level();
}

init_specials(si)
	register struct sp_id *si;
{
	while (si->si_identifier)	{
		struct idf *idf = str2idf(si->si_identifier, 0);

		if (idf->id_special)
			fatal("maximum identifier length insufficient");
		idf->id_special = si->si_flag;
		si++;
	}
}

#ifdef DEBUG
#ifndef NOPP
preprocess()
{
	/*	preprocess() is the "stand-alone" preprocessor which
		consecutively calls the lexical analyzer LLlex() to get
		the tokens and prints them in a suitable way.
	*/
	static unsigned int lastlineno = 0;
	static char *lastfilenm = "";

	while (LLlex() !=  EOI)	{
		if (lastlineno != dot.tk_line)	{
			if (strcmp(lastfilenm, dot.tk_file) == 0)	{
				if (dot.tk_line - lastlineno <= 1)	{
					lastlineno++;
					print("\n");
				}
				else	{
					lastlineno = dot.tk_line;
					if (!options['P'])
						print("\n#line %ld \"%s\"\n",
							lastlineno,
							lastfilenm
						);
				}
			}
			else	{
				lastfilenm = dot.tk_file;
				lastlineno = dot.tk_line;
				if (!options['P'])
					print("\n#line %ld \"%s\"\n",
						lastlineno, lastfilenm);
			}
		}
		else
		if (strcmp(lastfilenm, dot.tk_file) != 0)	{
			lastfilenm = dot.tk_file;
			if (!options['P'])
				print("\n#line %ld \"%s\"\n",
					lastlineno, lastfilenm);
		}
		switch (DOT)	{
		case IDENTIFIER:
		case TYPE_IDENTIFIER:
			print("%s ", dot.tk_idf->id_text);
			break;
		case STRING:
		{
			char sbuf[1024];	/* a transient buffer */
			char *bts2str();

			print("\"%s\" ", bts2str(dot.tk_bts, dot.tk_len -
			1, sbuf));
			break;
		}
		case INTEGER:
			print("%ld ", dot.tk_ival);
			break;
		case FLOATING:
			print("%s ", dot.tk_fval);
			break;
		case EOI:
		case EOF:
			return;
		default:	/* very expensive...	*/
			print("%s ", symbol2str(DOT));
		}
	}
}
#endif /* NOPP */

Info()
{
	extern int cnt_string_cst, cnt_formal,
		    cnt_decl_unary, cnt_def, cnt_expr, cnt_field,
		    cnt_e_stack, cnt_localvar, cnt_proto, cnt_repl,
		    cnt_args, cnt_macro, cnt_stack_level,
		    cnt_stack_entry, cnt_stmt_block, cnt_sdef, cnt_tag,
		    cnt_switch_hdr, cnt_case_entry, cnt_type, cnt_brace,
		    cnt_lint_stack_entry, cnt_state, cnt_auto_def,
		    cnt_expr_state, cnt_argument;
	print("\
%6d string_cst\n%6d formal\n\
%6d decl_unary\n%6d def\n%6d expr\n%6d field\n\
%6d e_stack\n%6d localvar\n%6d proto\n%6d repl\n\
%6d args\n%6d macro\n%6d stack_level\n\
%6d stack_entry\n%6d stmt_block\n%6d sdef\n%6d tag\n\
%6d switch_hdr\n%6d case_entry\n%6d type\n%6d brace\n\
%6d lint_stack_entry\n%6d state\n%6d auto_def\n\
%6d expr_state\n%6d argument\n",
	cnt_string_cst, cnt_formal,
	cnt_decl_unary, cnt_def, cnt_expr, cnt_field,
	cnt_e_stack, cnt_localvar, cnt_proto, cnt_repl,
	cnt_args, cnt_macro, cnt_stack_level,
	cnt_stack_entry, cnt_stmt_block, cnt_sdef, cnt_tag,
	cnt_switch_hdr, cnt_case_entry, cnt_type, cnt_brace,
	cnt_lint_stack_entry, cnt_state, cnt_auto_def,
	cnt_expr_state, cnt_argument);


}
#endif /* DEBUG */

void
No_Mem()				/* called by alloc package */
{
	fatal("out of memory");
}

void
C_failed()				/* called by EM_code module */
{
	fatal("write failed");
}