File: zmisc.c

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/* Copyright (C) 1989, 1995 Aladdin Enterprises.  All rights reserved.
  
  This file is part of GNU Ghostscript.
  
  GNU Ghostscript is distributed in the hope that it will be useful, but
  WITHOUT ANY WARRANTY.  No author or distributor accepts responsibility to
  anyone for the consequences of using it or for whether it serves any
  particular purpose or works at all, unless he says so in writing.  Refer
  to the GNU Ghostscript General Public License for full details.
  
*/

/* zmisc.c */
/* Miscellaneous operators */
#include "errno_.h"
#include "memory_.h"
#include "string_.h"
#include "ghost.h"
#include "gscdefs.h"			/* for gs_serialnumber */
#include "gp.h"
#include "errors.h"
#include "oper.h"
#include "ialloc.h"
#include "idict.h"
#include "dstack.h"			/* for name lookup in bind */
#include "iname.h"
#include "ipacked.h"
#include "ivmspace.h"
#include "store.h"

/* Import the C getenv function. */
extern char *getenv(P1(const char *));

/* <proc> bind <proc> */
private int
zbind(os_ptr op)
{	uint depth = 1;
	ref defn;
	register os_ptr bsp;
	switch ( r_type(op) )
	   {
	case t_array:
	case t_mixedarray:
	case t_shortarray:
		defn = *op;
		break;
	case t_oparray:
		defn = *op->value.const_refs;
		break;
	default:
		return_op_typecheck(op);
	   }
	push(1);
	*op = defn;
	bsp = op;
	/*
	 * We must not make the top-level procedure read-only,
	 * but we must bind it even if it is read-only already.
	 *
	 * Here are the invariants for the following loop:
	 *	`depth' elements have been pushed on the ostack;
	 *	For i < depth, p = ref_stack_index(&o_stack, i):
	 *	  *p is an array (or packedarray) ref. */
#define r_is_ex_oper(rp)\
  ((r_btype(rp) == t_operator || r_type(rp) == t_oparray) &&\
   r_has_attr(rp, a_executable))
	while ( depth )
	   {	while ( r_size(bsp) )
		   {	ref *tp = bsp->value.refs;
			r_dec_size(bsp, 1);
			if ( r_is_packed(tp) )
			 { /* Check for a packed executable name */
			   ushort elt = *(ushort *)tp;
			   if ( r_packed_is_exec_name(&elt) )
			    { ref nref;
			      ref *pvalue;
			      name_index_ref(packed_name_index(&elt),
					     &nref);
			      if ( (pvalue = dict_find_name(&nref)) != 0 &&
				   r_is_ex_oper(pvalue)
				 )
				/* Note: can't undo this by restore! */
				*(ushort *)tp =
				  pt_tag(pt_executable_operator) +
				  op_index(pvalue);
			    }
			   bsp->value.refs = (ref *)((ref_packed *)tp + 1);
			 }
			else
			  switch ( bsp->value.refs++, r_type(tp) )
			 {
			case t_name:	/* bind the name if an operator */
			  if ( r_has_attr(tp, a_executable) )
			   {	ref *pvalue;
				if ( (pvalue = dict_find_name(tp)) != 0 &&
				     r_is_ex_oper(pvalue)
				   )
					ref_assign_old(bsp, tp, pvalue, "bind");
			   }
			  break;
			case t_array:	/* push into array if procedure */
			  if ( !r_has_attr(tp, a_write) ) break;
			case t_mixedarray:
			case t_shortarray:
			  if ( r_has_attr(tp, a_executable) )
			   {	/* Make reference read-only */
				r_clear_attrs(tp, a_write);
				if ( bsp >= ostop )
				  {	/* Push a new stack block. */
					ref temp;
					int code;
					temp = *tp;
					osp = bsp;
					code = ref_stack_push(&o_stack, 1);
					if ( code < 0 )
					  {	ref_stack_pop(&o_stack, depth);
						return_error(code);
					  }
					bsp = osp;
					*bsp = temp;
				  }
				else
					*++bsp = *tp;
				depth++;
			   }
			 }
		   }
		bsp--; depth--;
		if ( bsp < osbot )
		  {	/* Pop back to the previous stack block. */
			osp = bsp;
			ref_stack_pop_block(&o_stack);
			bsp = osp;
		  }
	   }
	osp = bsp;
	return 0;
}

/* - serialnumber <int> */
private int
zserialnumber(register os_ptr op)
{	push(1);
	make_int(op, gs_serialnumber);
	return 0;
}

/* - usertime <int> */
private int
zusertime(register os_ptr op)
{	long date_time[2];
	gp_get_clock(date_time);
	push(1);
	make_int(op, date_time[0] * 86400000L + date_time[1]);
	return 0;
}

/* ---------------- Non-standard operators ---------------- */

/* - .currenttime <int> */
private int
zcurrenttime(register os_ptr op)
{	long date_time[2];
	gp_get_clock(date_time);
	push(1);
	make_real(op, date_time[0] * 1440.0 + date_time[1] / 60000.0);
	return 0;
}

/* <string> getenv <value_string> true */
/* <string> getenv false */
private int
zgetenv(register os_ptr op)
{	char *str, *value;
	int code;
	check_read_type(*op, t_string);
	str = ref_to_string(op, imemory, "getenv name");
	if ( str == 0 )
		return_error(e_VMerror);
	value = getenv(str);
	ifree_string((byte *)str, r_size(op) + 1, "getenv name");
	if ( value == 0 )		/* not found */
	   {	make_bool(op, 0);
		return 0;
	   }
	code = string_to_ref(value, op, iimemory, "getenv value");
	if ( code < 0 ) return code;
	push(1);
	make_bool(op, 1);
	return 0;
}

/* <name> <proc> .makeoperator <oper> */
private int
zmakeoperator(register os_ptr op)
{	op_array_table *opt;
	uint count;
	ref *tab;

	check_type(op[-1], t_name);
	check_proc(*op);
	switch ( r_space(op) )
	  {
	  case avm_global: opt = &op_array_table_global; break;
	  case avm_local: opt = &op_array_table_local; break;
	  default: return_error(e_invalidaccess);
	  }
	count = opt->count;
	tab = opt->table.value.refs;
	/*
	 * restore doesn't reset op_array_table.count, but it does
	 * remove entries from op_array_table.table.  Since we fill
	 * the table in order, we can detect that a restore has occurred
	 * by checking whether what should be the most recent entry
	 * is occupied.  If not, we scan backwards over the vacated entries
	 * to find the true end of the table.
	 */
	while ( count > 0 && r_has_type(&tab[count - 1], t_null) )
	  --count;
	if ( count == r_size(&opt->table) )
	  return_error(e_limitcheck);
	ref_assign_old(&opt->table, &tab[count], op, "makeoperator");
	opt->nx_table[count] = name_index(op - 1);
	op_index_ref(opt->base_index + count, op - 1);
	opt->count = count + 1;
	pop(1);
	return 0;
}

/* - .oserrno <int> */
private int
zoserrno(register os_ptr op)
{	push(1);
	make_int(op, errno);
	return 0;
}

/* <int> .setoserrno - */
private int
zsetoserrno(register os_ptr op)
{	check_type(*op, t_integer);
	errno = op->value.intval;
	pop(1);
	return 0;
}

/* <int> .oserrorstring <string> true */
/* <int> .oserrorstring false */
private int
zoserrorstring(register os_ptr op)
{	const char *str;
	int code;	
	uint len;
	byte ch;
	check_type(*op, t_integer);
	str = gp_strerror((int)op->value.intval);
	if ( str == 0 || (len = strlen(str)) == 0 )
	{	make_false(op);
		return 0;
	}
	check_ostack(1);
	code = string_to_ref(str, op, iimemory, ".oserrorstring");
	if ( code < 0 )
		return code;
	/* Strip trailing end-of-line characters. */
	while ( (len = r_size(op)) != 0 &&
		((ch = op->value.bytes[--len]) == '\r' || ch == '\n')
	      )
		r_dec_size(op, 1);
	push(1);
	make_true(op);
	return 0;
}

/* <string> <bool> .setdebug - */
private int
zsetdebug(register os_ptr op)
{	check_read_type(op[-1], t_string);
	check_type(*op, t_boolean);
	   {	int i;
		for ( i = 0; i < r_size(op - 1); i++ )
			gs_debug[op[-1].value.bytes[i] & 127] =
				op->value.boolval;
	   }
	pop(2);
	return 0;
}

/* ------ Initialization procedure ------ */

BEGIN_OP_DEFS(zmisc_op_defs) {
	{"1bind", zbind},
	{"0.currenttime", zcurrenttime},
	{"1getenv", zgetenv},
	{"2.makeoperator", zmakeoperator},
	{"0.oserrno", zoserrno},
	{"1.oserrorstring", zoserrorstring},
	{"1serialnumber", zserialnumber},
	{"2.setdebug", zsetdebug},
	{"1.setoserrno", zsetoserrno},
	{"0usertime", zusertime},
END_OP_DEFS(0) }