/*
 *	aegis - project change supervisor
 *	Copyright (C) 1997, 1999 Peter Miller;
 *	All rights reserved.
 *
 *	This program 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 2 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, write to the Free Software
 *	Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111, USA.
 *
 * MANIFEST: functions to manipulate bitwise operators
 */

#include <aer/value/error.h>
#include <aer/value/integer.h>
#include <error.h>
#include <sub.h>
#include <trace.h>
#include <tree/bitwise.h>
#include <tree/diadic.h>
#include <tree/monadic.h>


static rpt_value_ty *bitwise_and_evaluate _((tree_ty *, string_ty *,
	struct stat *));

static rpt_value_ty *
bitwise_and_evaluate(tp, path, st)
	tree_ty		*tp;
	string_ty	*path;
	struct stat	*st;
{
	tree_diadic_ty	*this;
	rpt_value_ty	*v1;
	rpt_value_ty	*v1i;
	rpt_value_ty	*v2;
	rpt_value_ty	*v2i;
	rpt_value_ty	*result;

	this = (tree_diadic_ty *)tp;
	v1 = tree_evaluate(this->left, path, st);
	if (v1->method->type == rpt_value_type_error)
		return v1;
	v1i = rpt_value_integerize(v1);
	if (v1i->method->type != rpt_value_type_integer)
	{
		sub_context_ty	*scp;
		string_ty	*s;

		scp = sub_context_new();
		rpt_value_free(v1i);
		sub_var_set_charstar(scp, "Name", v1->method->name);
		rpt_value_free(v1);
		s =
			subst_intl
			(
				scp,
		    i18n("integer value required for bit and (was given $name)")
			);
		sub_context_delete(scp);
		result = rpt_value_error(0, s);
		str_free(s);
		return result;
	}
	rpt_value_free(v1);

	v2 = tree_evaluate(this->right, path, st);
	if (v2->method->type == rpt_value_type_error)
	{
		rpt_value_free(v1i);
		return v2;
	}
	v2i = rpt_value_integerize(v2);
	if (v2i->method->type != rpt_value_type_integer)
	{
		sub_context_ty	*scp;
		string_ty	*s;

		rpt_value_free(v1i);
		rpt_value_free(v2i);
		scp = sub_context_new();
		sub_var_set_charstar(scp, "Name", v2->method->name);
		s =
			subst_intl
			(
				scp,
		    i18n("integer value required for bit and (was given $name)")
			);
		sub_context_delete(scp);
		result = rpt_value_error(0, s);
		str_free(s);
		rpt_value_free(v2);
		return result;
	}
	rpt_value_free(v2);

	result =
		rpt_value_integer
		(
			rpt_value_integer_query(v1i)
		&
			rpt_value_integer_query(v2i)
		);
	rpt_value_free(v1i);
	rpt_value_free(v2i);
	return result;
}


static tree_method_ty bitwise_and_method =
{
	sizeof(tree_diadic_ty),
	"&",
	tree_diadic_destructor,
	tree_diadic_print,
	bitwise_and_evaluate,
	tree_diadic_useful,
	tree_diadic_constant,
	tree_diadic_optimize,
};


tree_ty *
tree_bitwise_and_new(left, right)
	tree_ty		*left;
	tree_ty		*right;
{
	return tree_diadic_new(&bitwise_and_method, left, right);
}


static rpt_value_ty *bitwise_xor_evaluate _((tree_ty *, string_ty *,
	struct stat *));

static rpt_value_ty *
bitwise_xor_evaluate(tp, path, st)
	tree_ty		*tp;
	string_ty	*path;
	struct stat	*st;
{
	tree_diadic_ty	*this;
	rpt_value_ty	*v1;
	rpt_value_ty	*v1i;
	rpt_value_ty	*v2;
	rpt_value_ty	*v2i;
	rpt_value_ty	*result;

	this = (tree_diadic_ty *)tp;
	v1 = tree_evaluate(this->left, path, st);
	if (v1->method->type == rpt_value_type_error)
		return v1;
	v1i = rpt_value_integerize(v1);
	if (v1i->method->type != rpt_value_type_integer)
	{
		sub_context_ty	*scp;
		string_ty	*s;

		scp = sub_context_new();
		rpt_value_free(v1i);
		sub_var_set_charstar(scp, "Name", v1->method->name);
		rpt_value_free(v1);
		s =
			subst_intl
			(
				scp,
		    i18n("integer value required for bit xor (was given $name)")
			);
		sub_context_delete(scp);
		result = rpt_value_error(0, s);
		str_free(s);
		return result;
	}
	rpt_value_free(v1);

	v2 = tree_evaluate(this->right, path, st);
	if (v2->method->type == rpt_value_type_error)
	{
		rpt_value_free(v1i);
		return v2;
	}
	v2i = rpt_value_integerize(v2);
	if (v2i->method->type != rpt_value_type_integer)
	{
		sub_context_ty	*scp;
		string_ty	*s;

		scp = sub_context_new();
		rpt_value_free(v1i);
		rpt_value_free(v2i);
		sub_var_set_charstar(scp, "Name", v2->method->name);
		rpt_value_free(v2);
		s =
			subst_intl
			(
				scp,
		    i18n("integer value required for bit xor (was given $name)")
			);
		sub_context_delete(scp);
		result = rpt_value_error(0, s);
		str_free(s);
		return result;
	}
	rpt_value_free(v2);

	result =
		rpt_value_integer
		(
			rpt_value_integer_query(v1i)
		^
			rpt_value_integer_query(v2i)
		);
	rpt_value_free(v1i);
	rpt_value_free(v2i);
	return result;
}


static tree_method_ty bitwise_xor_method =
{
	sizeof(tree_diadic_ty),
	"^",
	tree_diadic_destructor,
	tree_diadic_print,
	bitwise_xor_evaluate,
	tree_diadic_useful,
	tree_diadic_constant,
	tree_diadic_optimize,
};


tree_ty *
tree_bitwise_xor_new(left, right)
	tree_ty		*left;
	tree_ty		*right;
{
	return tree_diadic_new(&bitwise_xor_method, left, right);
}


static rpt_value_ty *bitwise_or_evaluate _((tree_ty *, string_ty *,
	struct stat *));

static rpt_value_ty *
bitwise_or_evaluate(tp, path, st)
	tree_ty		*tp;
	string_ty	*path;
	struct stat	*st;
{
	tree_diadic_ty	*this;
	rpt_value_ty	*v1;
	rpt_value_ty	*v1i;
	rpt_value_ty	*v2;
	rpt_value_ty	*v2i;
	rpt_value_ty	*result;

	this = (tree_diadic_ty *)tp;
	v1 = tree_evaluate(this->left, path, st);
	if (v1->method->type == rpt_value_type_error)
		return v1;
	v1i = rpt_value_integerize(v1);
	if (v1i->method->type != rpt_value_type_integer)
	{
		sub_context_ty	*scp;
		string_ty	*s;

		scp = sub_context_new();
		rpt_value_free(v1i);
		sub_var_set_charstar(scp, "Name", v1->method->name);
		rpt_value_free(v1);
		s =
			subst_intl
			(
				scp,
		     i18n("integer value required for bit or (was given $name)")
			);
		sub_context_delete(scp);
		result = rpt_value_error(0, s);
		str_free(s);
		return result;
	}
	rpt_value_free(v1);

	v2 = tree_evaluate(this->right, path, st);
	if (v2->method->type == rpt_value_type_error)
	{
		rpt_value_free(v1i);
		return v2;
	}
	v2i = rpt_value_integerize(v2);
	if (v2i->method->type != rpt_value_type_integer)
	{
		sub_context_ty	*scp;
		string_ty	*s;

		scp = sub_context_new();
		rpt_value_free(v1i);
		rpt_value_free(v2i);
		sub_var_set_charstar(scp, "Name", v2->method->name);
		rpt_value_free(v2);
		s =
			subst_intl
			(
				scp,
		     i18n("integer value required for bit or (was given $name)")
			);
		sub_context_delete(scp);
		result = rpt_value_error(0, s);
		str_free(s);
		return result;
	}
	rpt_value_free(v2);

	result =
		rpt_value_integer
		(
			rpt_value_integer_query(v1i)
		|
			rpt_value_integer_query(v2i)
		);
	rpt_value_free(v1i);
	rpt_value_free(v2i);
	return result;
}


static tree_method_ty bitwise_or_method =
{
	sizeof(tree_diadic_ty),
	"|",
	tree_diadic_destructor,
	tree_diadic_print,
	bitwise_or_evaluate,
	tree_diadic_useful,
	tree_diadic_constant,
	tree_diadic_optimize,
};


tree_ty *
tree_bitwise_or_new(left, right)
	tree_ty		*left;
	tree_ty		*right;
{
	return tree_diadic_new(&bitwise_or_method, left, right);
}


static rpt_value_ty *bitwise_not_evaluate _((tree_ty *, string_ty *,
	struct stat *));

static rpt_value_ty *
bitwise_not_evaluate(tp, path, st)
	tree_ty		*tp;
	string_ty	*path;
	struct stat	*st;
{
	tree_monadic_ty	*this;
	rpt_value_ty	*v1;
	rpt_value_ty	*v2;
	rpt_value_ty	*vp;

	/*
	 * evaluate the argument
	 */
	trace(("not::evaluate()\n{\n"/*}*/));
	this = (tree_monadic_ty *)tp;
	v1 = tree_evaluate(this->arg, path, st);
	if (v1->method->type == rpt_value_type_error)
	{
		trace((/*{*/"}\n"));
		return v1;
	}

	/*
	 * coerce the argument to an arithmetic type
	 *	(will not give error if can't, will copy instead)
	 */
	v2 = rpt_value_integerize(v1);
	rpt_value_free(v1);

	/*
	 * the type of the result depends on
	 * the types of the argument
	 */
	if (v2->method->type == rpt_value_type_integer)
		vp = rpt_value_integer(~rpt_value_integer_query(v2));
	else
	{
		sub_context_ty	*scp;
		string_ty	*s;

		scp = sub_context_new();
		sub_var_set_charstar(scp, "Name", v2->method->name);
		s = subst_intl(scp, i18n("illegal bit not ($name)"));
		sub_context_delete(scp);
		vp = rpt_value_error(0, s);
		str_free(s);
	}
	rpt_value_free(v2);
	trace(("return %08lX;\n", (long)vp));
	trace((/*{*/"}\n"));
	return vp;
}


static tree_method_ty bitwise_not_method =
{
	sizeof(tree_monadic_ty),
	"~",
	tree_monadic_destructor,
	tree_monadic_print,
	bitwise_not_evaluate,
	tree_monadic_useful,
	tree_monadic_constant,
	tree_monadic_optimize,
};


tree_ty *
tree_bitwise_not_new(arg)
	tree_ty		*arg;
{
	return tree_monadic_new(&bitwise_not_method, arg);
}


static rpt_value_ty *shift_left_evaluate _((tree_ty *, string_ty *,
	struct stat *));

static rpt_value_ty *
shift_left_evaluate(tp, path, st)
	tree_ty		*tp;
	string_ty	*path;
	struct stat	*st;
{
	tree_diadic_ty	*this;
	sub_context_ty	*scp;
	rpt_value_ty	*v1;
	rpt_value_ty	*v1i;
	unsigned long	v1n;
	rpt_value_ty	*v2;
	rpt_value_ty	*v2i;
	long		v2n;
	rpt_value_ty	*result;

	this = (tree_diadic_ty *)tp;
	v1 = tree_evaluate(this->left, path, st);
	if (v1->method->type == rpt_value_type_error)
		return v1;
	v1i = rpt_value_integerize(v1);
	rpt_value_free(v1);

	v2 = tree_evaluate(this->right, path, st);
	if (v2->method->type == rpt_value_type_error)
		return v2;
	v2i = rpt_value_integerize(v2);
	rpt_value_free(v2);

	if
	(
		v1i->method->type != rpt_value_type_integer
	||
		v2i->method->type != rpt_value_type_integer
	)
	{
		string_ty	*s;

		scp = sub_context_new();
		sub_var_set_charstar(scp, "Name1", v1i->method->name);
		sub_var_set_charstar(scp, "Name2", v2i->method->name);
		s = subst_intl(scp, i18n("illegal shift ($name1 << $name2)"));
		sub_context_delete(scp);
		result = rpt_value_error(0, s);
		str_free(s);
		return result;
	}

	v1n = rpt_value_integer_query(v1i);
	v2n = rpt_value_integer_query(v2i);
	rpt_value_free(v1i);
	rpt_value_free(v2i);
	return rpt_value_integer(v1n << v2n);
}


static tree_method_ty shift_left_method =
{
	sizeof(tree_diadic_ty),
	"<<",
	tree_diadic_destructor,
	tree_diadic_print,
	shift_left_evaluate,
	tree_diadic_useful,
	tree_diadic_constant,
	tree_diadic_optimize,
};


tree_ty *
tree_shift_left_new(left, right)
	tree_ty		*left;
	tree_ty		*right;
{
	return tree_diadic_new(&shift_left_method, left, right);
}


static rpt_value_ty *shift_right_evaluate _((tree_ty *, string_ty *,
	struct stat *));

static rpt_value_ty *
shift_right_evaluate(tp, path, st)
	tree_ty		*tp;
	string_ty	*path;
	struct stat	*st;
{
	tree_diadic_ty	*this;
	sub_context_ty	*scp;
	rpt_value_ty	*v1;
	rpt_value_ty	*v1i;
	unsigned long	v1n;
	rpt_value_ty	*v2;
	rpt_value_ty	*v2i;
	long		v2n;
	rpt_value_ty	*result;

	this = (tree_diadic_ty *)tp;
	v1 = tree_evaluate(this->left, path, st);
	if (v1->method->type == rpt_value_type_error)
		return v1;
	v1i = rpt_value_integerize(v1);
	rpt_value_free(v1);

	v2 = tree_evaluate(this->right, path, st);
	if (v2->method->type == rpt_value_type_error)
		return v2;
	v2i = rpt_value_integerize(v2);
	rpt_value_free(v2);

	if
	(
		v1i->method->type != rpt_value_type_integer
	||
		v2i->method->type != rpt_value_type_integer
	)
	{
		string_ty	*s;

		scp = sub_context_new();
		sub_var_set_charstar(scp, "Name1", v1i->method->name);
		sub_var_set_charstar(scp, "Name2", v2i->method->name);
		s = subst_intl(scp, i18n("illegal shift ($name1 >> $name2)"));
		sub_context_delete(scp);
		result = rpt_value_error(0, s);
		str_free(s);
		return result;
	}

	v1n = rpt_value_integer_query(v1i);
	v2n = rpt_value_integer_query(v2i);
	rpt_value_free(v1i);
	rpt_value_free(v2i);
	return rpt_value_integer(v1n >> v2n);
}


static tree_method_ty shift_right_method =
{
	sizeof(tree_diadic_ty),
	">>",
	tree_diadic_destructor,
	tree_diadic_print,
	shift_right_evaluate,
	tree_diadic_useful,
	tree_diadic_constant,
	tree_diadic_optimize,
};


tree_ty *
tree_shift_right_new(left, right)
	tree_ty		*left;
	tree_ty		*right;
{
	return tree_diadic_new(&shift_right_method, left, right);
}