view lwbasic/attic/parser.c @ 258:ebda5c96665e

Improved stack handling for os9 target in lwlink Added "stack" as a valid symbol in the __os9 section. All instances of __os9 are now polled for "stack" symobls and the values added to the stack size set in the linker script. The stack size is then added to the final data size of the module. Also set a default minimum stack size of 32 bytes.
author William Astle <lost@l-w.ca>
date Thu, 31 Jan 2013 19:34:54 -0700
parents cca933d32298
children
line wrap: on
line source

/*
compiler.c

Copyright © 2011 William Astle

This file is part of LWTOOLS.

LWTOOLS is free software: you can redistribute it and/or modify it under the
terms of the GNU General Public License as published by the Free Software
Foundation, either version 3 of the License, or (at your option) any later
version.

This program is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
more details.

You should have received a copy of the GNU General Public License along with
this program. If not, see <http://www.gnu.org/licenses/>.
*/

/*
This is the actual compiler bit; it drives the parser and code generation
*/

#include <stdio.h>

#include <lw_alloc.h>
#include <lw_string.h>

#include "lwbasic.h"
#include "symtab.h"

static void expect(cstate *state, int tt)
{
	if (state -> lexer_token != tt)
		lwb_error("Expecting %s, got %s\n", lexer_token_name(tt), lexer_return_token(state));
	lexer(state);
}


/* size of a type */
static int sizeof_type(int type)
{
	/* everything is an "int" right now; 2 bytes */
	return 2;
}

/* parse a type; the next token will be acquired as a result */
/* the token advancement is to provide consistency */
static int parse_type(cstate *state)
{
	int pt = -1;
	
	switch (state -> lexer_token)
	{
	case token_kw_integer:
		pt = 1;
		break;

	default:
		lwb_error("Invalid type specification");
	}
	lexer(state);
	/* look for "unsigned" modifier for integer types */
	return pt;
}

static void parse_expr(cstate *state, int prec);
static void parse_term(cstate *state);
static int parse_expression(cstate *state)
{
	state -> expression = 1;
	
	parse_expr(state, 0);
	
	state -> expression = 0;
	return 1;
}

static void parse_decls(cstate *state)
{
	/* declarations */
	/* the first thing that doesn't look like a declaration is assumed */
	/* to be a statement and will trigger a bailout */
	int vt;
	char *vn;
	symtab_entry_t *se;
	
	for (;;)
	{
		switch (state -> lexer_token)
		{
		/* DIM keyword */
		case token_kw_dim:
			lexer(state);
			if (state -> lexer_token != token_identifier)
			{
				lwb_error("Expecting identifier, got %s\n", lexer_return_token(state));
			}
			vn = lw_strdup(state -> lexer_token_string);
			lexer(state);
			if (state -> lexer_token != token_kw_as)
			{
				lwb_error("Expecting AS, got %s\n", lexer_return_token(state));
			}
			lexer(state);
			vt = parse_type(state);
			
			se = symtab_find(state -> local_syms, vn);
			if (se)
			{
				lwb_error("Multiply defined local variable %s", vn);
			}
			state -> framesize += sizeof_type(vt);
			symtab_register(state -> local_syms, vn, -(state -> framesize), symtype_var, NULL);
			
			lw_free(vn);
			break;
		
		/* blank lines allowed */
		case token_eol:
			break;
			
		default:
			return;
		}
		if (state -> lexer_token != token_eol)
			lwb_error("Expecting end of line; got %s\n", lexer_return_token(state));
		lexer(state);
	}
}

static void parse_statements(cstate *state)
{
	symtab_entry_t *se;
	int et;
	
	for (;;)
	{
		switch (state -> lexer_token)
		{
		/* blank lines allowed */
		case token_eol:
			break;
		
		/* variable assignment */
		case token_identifier:
			se = symtab_find(state -> local_syms, state -> lexer_token_string);
			if (!se)
			{
				se = symtab_find(state -> global_syms, state -> lexer_token_string);
			}
			if (!se)
				lwb_error("Unknown variable %s\n", state -> lexer_token_string);
			lexer(state);
			/* ensure the first token of the expression will be parsed correctly */
			state -> expression = 1;
			expect(state, token_op_assignment);

			/* parse the expression */
			et = parse_expression(state);
			
			/* check type compatibility */
			
			/* actually do the assignment */
			
			break;
		
		/* anything we don't recognize as a statement token breaks out */
		default:
			return;
		}
		if (state -> lexer_token != token_eol)
			lwb_error("Expecting end of line; got %s\n", lexer_return_token(state));
		lexer(state);
	}
}


/* issub means RETURNS is not allowed; !issub means RETURNS is required */

static void parse_subfunc(cstate *state, int issub)
{
	int pt, rt;
	char *subname, *pn;
	int vis = 0;
	symtab_entry_t *se;
	int paramsize = 0;
	
	state -> local_syms = symtab_init();
	state -> framesize = 0;
	
	lexer(state);
	if (state -> lexer_token != token_identifier)
	{
		lwb_error("Invalid sub name '%s'", state -> lexer_token_string);
	}
	
	subname = lw_strdup(state -> lexer_token_string);
	
	lexer(state);
	if (state -> lexer_token == token_kw_public || state -> lexer_token == token_kw_private)
	{
		if (state -> lexer_token == token_kw_public)
			vis = 1;
		lexer(state);
	}

	/* ignore the "PARAMS" keyword if present */
	if (state -> lexer_token == token_kw_params)
		lexer(state);
	
	if (state -> lexer_token == token_eol || state -> lexer_token == token_kw_returns)
		goto noparms;

paramagain:
	if (state -> lexer_token != token_identifier)
	{
		lwb_error("Parameter name expected, got %s\n", lexer_return_token(state));
	}
	pn = lw_strdup(state -> lexer_token_string);
	lexer(state);
	
	if (state -> lexer_token != token_kw_as)
		lwb_error("Expecting AS\n");
	lexer(state);
	
	pt = parse_type(state);

	se = symtab_find(state -> local_syms, pn);
	if (se)
	{
		lwb_error("Duplicate parameter name %s\n", pn);
	}
	symtab_register(state -> local_syms, pn, paramsize, symtype_param, NULL);
	paramsize += sizeof_type(pt);
	lw_free(pn);
	
	if (state -> lexer_token == token_char && state -> lexer_token_string[0] == ',')
	{
		lexer(state);
		goto paramagain;
	}

noparms:
	rt = -1;
	if (!issub)
	{
		if (state -> lexer_token != token_kw_returns)
		{
			lwb_error("FUNCTION must have RETURNS\n");
		}
		lexer(state);
/*		if (state -> lexer_token == token_identifier)
		{
			printf("Return value named: %s\n", state -> lexer_token_string);
			
			lexer(state);
			if (state -> lexer_token != token_kw_as)
				lwb_error("Execting AS after RETURNS");
			lexer(state);
		}
*/
		rt = parse_type(state);
	}
	else
	{
		if (state -> lexer_token == token_kw_returns)
		{
			lwb_error("SUB cannot specify RETURNS\n");
		}
	}

	
	if (state -> lexer_token != token_eol)
	{
		lwb_error("EOL expected; found %s\n", lexer_return_token(state));
	}

	
	se = symtab_find(state -> global_syms, subname);
	if (se)
	{
		lwb_error("Multiply defined symbol %s\n", subname);
	}

	symtab_register(state -> global_syms, subname, -1, issub ? symtype_sub : symtype_func, NULL);

	state -> currentsub = subname;
	state -> returntype = rt;
	/* consume EOL */
	lexer(state);
	
	/* variable declarations */
	parse_decls(state);
	
	/* output function/sub prolog */
	emit_prolog(state, vis);
	
	/* parse statement block  */
	parse_statements(state);
	
	if (issub)
	{
		if (state -> lexer_token != token_kw_endsub)
		{
			lwb_error("Expecting ENDSUB, got %s\n", lexer_return_token(state));
		}
	}
	else
	{
		if (state -> lexer_token != token_kw_endfunction)
		{
			lwb_error("Expecting ENDFUNCTION, got %s\n", lexer_return_token(state));
		}
	}
	/* output function/sub epilog */
	emit_epilog(state);
	
	lw_free(state -> currentsub);
	state -> currentsub = NULL;
	symtab_destroy(state -> local_syms);
	state -> local_syms = NULL;
}

void parser(cstate *state)
{
	state -> lexer_curchar = -1;
	state -> global_syms = symtab_init();
		
	/* now look for a global declaration */
	for (;;)
	{
		state -> parser_state = parser_state_global;
		lexer(state);
		switch (state -> lexer_token)
		{
		case token_kw_function:
			printf("Function\n");
			parse_subfunc(state, 0);
			break;
			
		case token_kw_sub:
			printf("Sub\n");
			parse_subfunc(state, 1);
			break;

		/* blank lines are allowed */
		case token_eol:
			continue;
		
		/* EOF is allowed - end of parsing */
		case token_eof:
			return;

		default:
			lwb_error("Invalid token '%s' in global state\n", lexer_return_token(state));
		}
	}	
}

static void parse_expr(cstate *state, int prec)
{
	static const struct operinfo {
		int opernum;
		int operprec;
	} operators[] =
	{
		{ token_op_plus, 100 },
		{ token_op_minus, 100 },
		{ token_op_times, 150 },
		{ token_op_divide, 150 },
		{ token_op_modulus, 150 },
		{ token_op_and,	25 },
		{ token_op_or, 20 },
		{ token_op_xor, 20 },
		{ token_op_band, 50 },
		{ token_op_bor, 45 },
		{ token_op_bxor, 45 },
		{ -1, -1 }
	};
	int opern;
	
	parse_term(state);
	
eval_next:
	for (opern = 0; operators[opern].opernum != -1; opern++)
	{
		if (operators[opern].opernum == state -> lexer_token)
			break;
	}
	if (operators[opern].opernum == -1)
		return;
	
	if (operators[opern].operprec <= prec)
		return;
	
	lexer(state);
	
	parse_expr(state, operators[opern].operprec);
	
	/* push operator */
	
	goto eval_next;
}

static void parse_term(cstate *state)
{
eval_next:
	/* parens */
	if (state -> lexer_token == token_op_oparen)
	{
		lexer(state);
		parse_expr(state, 0);
		expect(state, token_op_cparen);
		return;
	}
	
	/* unary plus; ignore it */
	if (state -> lexer_token == token_op_plus)
	{
		lexer(state);
		goto eval_next;
	}
	
	/* unary minus, precision 200 */
	if (state -> lexer_token == token_op_minus)
	{
		lexer(state);
		parse_expr(state, 200);
		
		/* push unary negation */
	}
	
	/* BNOT, NOT */
	if (state -> lexer_token == token_op_not || state -> lexer_token == token_op_bnot)
	{
		lexer(state);
		parse_expr(state, 200);
		
		/* push unary operator */
	}
	
	/* integer */
	if (state -> lexer_token == token_int)
	{
	}
	
	/* unsigned integer */
	if (state -> lexer_token == token_uint)
	{
	}
	
	/* variable or function call */
	if (state -> lexer_token == token_identifier)
	{
		lexer(state);
		if (state -> lexer_token == token_op_oparen)
		{
			/* function call */
			return;
		}
		/* variable */
		return;
	}
	
	lwb_error("Invalid input in expression; got %s\n", lexer_return_token(state));
}