/src/ghostpdl/psi/zdevice2.c

Source
/* Copyright (C) 2001-2023 Artifex Software, Inc.
   All Rights Reserved.

   This software is provided AS-IS with no warranty, either express or
   implied.

   This software is distributed under license and may not be copied,
   modified or distributed except as expressly authorized under the terms
   of the license contained in the file LICENSE in this distribution.

   Refer to licensing information at http://www.artifex.com or contact
   Artifex Software, Inc.,  39 Mesa Street, Suite 108A, San Francisco,
   CA 94129, USA, for further information.
*/


/* Level 2 device operators */
#include "math_.h"
#include "memory_.h"
#include "ghost.h"
#include "oper.h"
#include "dstack.h"   /* for dict_find_name */
#include "estack.h"
#include "idict.h"
#include "idparam.h"
#include "igstate.h"
#include "iname.h"
#include "iutil.h"
#include "isave.h"
#include "store.h"
#include "gxdevice.h"
#include "gsstate.h"

/* Exported for zfunc4.c */
int z2copy(i_ctx_t *);

/* Forward references */
static int z2copy_gstate(i_ctx_t *);
static int push_callout(i_ctx_t *, const char *);

/* Extend the `copy' operator to deal with gstates. */
/* This is done with a hack -- we know that gstates are the only */
/* t_astruct subtype that implements copy. */
/* We export this for recognition in FunctionType 4 functions. */
int
z2copy(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;
    int code = zcopy(i_ctx_p);

    if (code >= 0)
        return code;
    if (!r_has_type(op, t_astruct))
        return code;
    return z2copy_gstate(i_ctx_p);
}

/* - .currentshowpagecount <count> true */
/* - .currentshowpagecount false */
static int
zcurrentshowpagecount(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;
    gx_device *dev1, *dev = gs_currentdevice(igs);

    if ((*dev_proc(dev, get_page_device))(dev) == 0) {
        push(1);
        make_false(op);
    } else {
        dev1 = (*dev_proc(dev, get_page_device))(dev);
        push(2);
        make_int(op - 1, dev1->ShowpageCount);
        make_true(op);
    }
    return 0;
}

/* - .currentpagedevice <dict> <bool> */
static int
zcurrentpagedevice(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;
    gx_device *dev = gs_currentdevice(igs);

    push(2);
    if ((*dev_proc(dev, get_page_device))(dev) != 0) {
        op[-1] = istate->pagedevice;
        make_true(op);
    } else {
        make_null(op - 1);
        make_false(op);
    }
    return 0;
}

/* <local_dict|null> .setpagedevice - */
static int
zsetpagedevice(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;
    int code;

    check_op(1);
/******
    if ( igs->in_cachedevice )
        return_error(gs_error_undefined);
 ******/
    if (r_has_type(op, t_dictionary)) {
        check_dict_read(*op);
#if 0 /****************/
        /*
         * In order to avoid invalidaccess errors on setpagedevice,
         * the dictionary must be allocated in local VM.
         */
        if (!(r_is_local(op)))
            return_error(gs_error_invalidaccess);
#endif  /****************/
        /* Make the dictionary read-only. */
        code = zreadonly(i_ctx_p);
        if (code < 0)
            return code;
    } else {
        check_type(*op, t_null);
    }
    istate->pagedevice = *op;
    pop(1);
    return 0;
}

/* Default Install/BeginPage/EndPage procedures */
/* that just call the procedure in the device. */

/* - .callinstall - */
static int
zcallinstall(i_ctx_t *i_ctx_p)
{
    gx_device *dev = gs_currentdevice(igs);

    if ((dev = (*dev_proc(dev, get_page_device))(dev)) != 0) {
        int code = (*dev->page_procs.install) (dev, igs);

        if (code < 0)
            return code;
    }
    return 0;
}

/* <showpage_count> .callbeginpage - */
static int
zcallbeginpage(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;
    gx_device *dev = gs_currentdevice(igs);

    check_op(1);
    check_type(*op, t_integer);
    if ((dev = (*dev_proc(dev, get_page_device))(dev)) != 0) {
        int code = (*dev->page_procs.begin_page)(dev, igs);

        if (code < 0)
            return code;
    }
    pop(1);
    return 0;
}

/* <showpage_count> <reason_int> .callendpage <flush_bool> */
static int
zcallendpage(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;
    gx_device *dev = gs_currentdevice(igs);
    int code;

    check_op(2);
    check_type(op[-1], t_integer);
    check_type(*op, t_integer);
    if ((dev = (*dev_proc(dev, get_page_device))(dev)) != 0) {
        code = (*dev->page_procs.end_page)(dev, (int)op->value.intval, igs);
        if (code < 0)
            return code;
        if (code > 1)
            return_error(gs_error_rangecheck);
    } else {
        code = (op->value.intval == 2 ? 0 : 1);
    }
    make_bool(op - 1, code);
    pop(1);
    return 0;
}

/* ------ Wrappers for operators that save the graphics state. ------ */

/* When saving the state with the current device a page device, */
/* we need to make sure that the page device dictionary exists */
/* so that grestore can use it to reset the device parameters. */
/* This may have significant performance consequences, but we don't see */
/* any way around it. */

/* Check whether we need to call out to create the page device dictionary. */
static bool
save_page_device(gs_gstate *pgs)
{
    return
        (r_has_type(&gs_int_gstate(pgs)->pagedevice, t_null) &&
         (*dev_proc(gs_currentdevice(pgs), get_page_device))(gs_currentdevice(pgs)) != 0);
}

/* - gsave - */
static int
z2gsave(i_ctx_t *i_ctx_p)
{
    if (!save_page_device(igs))
        return gs_gsave(igs);
    return push_callout(i_ctx_p, "%gsavepagedevice");
}

/* - save - */
static int
z2save(i_ctx_t *i_ctx_p)
{
    if (!save_page_device(igs))
        return zsave(i_ctx_p);
    return push_callout(i_ctx_p, "%savepagedevice");
}

/* - gstate <gstate> */
static int
z2gstate(i_ctx_t *i_ctx_p)
{
    if (!save_page_device(igs))
        return zgstate(i_ctx_p);
    return push_callout(i_ctx_p, "%gstatepagedevice");
}

/* <gstate1> <gstate2> copy <gstate2> */
static int
z2copy_gstate(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;
    check_op(2);
    if (!save_page_device(igs))
        return zcopy_gstate(i_ctx_p);
    return push_callout(i_ctx_p, "%copygstatepagedevice");
}

/* <gstate> currentgstate <gstate> */
static int
z2currentgstate(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;
    check_op(1);
    if (!save_page_device(igs))
        return zcurrentgstate(i_ctx_p);
    return push_callout(i_ctx_p, "%currentgstatepagedevice");
}

/* ------ Wrappers for operators that reset the graphics state. ------ */

/* Check whether we need to call out to restore the page device. */
static int
restore_page_device(i_ctx_t *i_ctx_p, const gs_gstate * pgs_old, const gs_gstate * pgs_new)
{
    gx_device *dev_old = gs_currentdevice(pgs_old);
    gx_device *dev_new;
    gx_device *dev_t1;
    gx_device *dev_t2;
    bool samepagedevice = obj_eq(dev_old->memory, &gs_int_gstate(pgs_old)->pagedevice,
        &gs_int_gstate(pgs_new)->pagedevice);
    bool LockSafetyParams = dev_old->LockSafetyParams;

    if ((dev_t1 = (*dev_proc(dev_old, get_page_device)) (dev_old)) == 0)
        return 0;
    /* If we are going to putdeviceparams in a callout, we need to */
    /* unlock temporarily.  The device will be re-locked as needed */
    /* by putdeviceparams from the pgs_old->pagedevice dict state. */
    if (!samepagedevice)
        dev_old->LockSafetyParams = false;
    dev_new = gs_currentdevice(pgs_new);
    if (dev_old != dev_new) {
        if ((dev_t2 = (*dev_proc(dev_new, get_page_device)) (dev_new)) == 0)
            samepagedevice = true;
        else if (dev_t1 != dev_t2)
            samepagedevice = false;
    }

    if (LockSafetyParams) {
        const int required_ops = 512;
        const int required_es = 32;

        /* The %grestorepagedevice must complete: the biggest danger
           is operand stack overflow. As we use get/putdeviceparams
           that means pushing all the device params onto the stack,
           pdfwrite having by far the largest number of parameters
           at (currently) 212 key/value pairs - thus needing (currently)
           424 entries on the op stack. Allowing for working stack
           space, and safety margin.....
         */
        if (required_ops + ref_stack_count(&o_stack) >= ref_stack_max_count(&o_stack)) {
           gs_currentdevice(pgs_old)->LockSafetyParams = LockSafetyParams;
           return_error(gs_error_stackoverflow);
        }
        /* We also want enough exec stack space - 32 is an overestimate of
           what we need to complete the Postscript call out.
         */
        if (required_es + ref_stack_count(&e_stack) >= ref_stack_max_count(&e_stack)) {
           gs_currentdevice(pgs_old)->LockSafetyParams = LockSafetyParams;
           return_error(gs_error_execstackoverflow);
        }
    }
    /*
     * The current implementation of setpagedevice just sets new
     * parameters in the same device object, so we have to check
     * whether the page device dictionaries are the same.
     */
    return samepagedevice ? 0 : 1;
}

/* - grestore - */
static int
z2grestore(i_ctx_t *i_ctx_p)
{
    int code = restore_page_device(i_ctx_p, igs, gs_gstate_saved(igs));
    if (code < 0) return code;

    if (code == 0)
        return gs_grestore(igs);
    return push_callout(i_ctx_p, "%grestorepagedevice");
}

/* - grestoreall - */
static int
z2grestoreall(i_ctx_t *i_ctx_p)
{
    for (;;) {
        int code = restore_page_device(i_ctx_p, igs, gs_gstate_saved(igs));
        if (code < 0) return code;
        if (code == 0) {
            bool done = !gs_gstate_saved(gs_gstate_saved(igs));

            gs_grestore(igs);
            if (done)
                break;
        } else
            return push_callout(i_ctx_p, "%grestoreallpagedevice");
    }
    return 0;
}
/* This is the Level 2+ variant of restore - which adds restoring
   of the page device to the Level 1 variant in zvmem.c.
   Previous this restored the device state before calling zrestore.c
   which validated operands etc, meaning a restore could error out
   partially complete.
   The operand checking, and actual VM restore are now in two functions
   so they can called separately thus, here, we can do as much
   checking as possible, before embarking on actual changes
 */
/* <save> restore - */
static int
z2restore(i_ctx_t *i_ctx_p)
{
    alloc_save_t *asave;
    bool saveLockSafety = gs_currentdevice_inline(igs)->LockSafetyParams;
    int code = restore_check_save(i_ctx_p, &asave);

    if (code < 0) return code;

    while (gs_gstate_saved(gs_gstate_saved(igs))) {
        code = restore_page_device(i_ctx_p, igs, gs_gstate_saved(igs));
        if (code < 0) return code;
        if (code > 0)
            return push_callout(i_ctx_p, "%restore1pagedevice");
        gs_grestore(igs);
    }
    code = restore_page_device(i_ctx_p, igs, gs_gstate_saved(igs));
    if (code < 0) return code;
    if (code > 0)
        return push_callout(i_ctx_p, "%restorepagedevice");

    code = dorestore(i_ctx_p, asave);

    if (code < 0) {
        /* An error here is basically fatal, but....
           restore_page_device() has to set LockSafetyParams false so it can
           configure the restored device correctly - in normal operation, that
           gets reset by that configuration. If we hit an error, though, that
           may not happen -  at least ensure we keep the setting through the
           error.
         */
        gs_currentdevice_inline(igs)->LockSafetyParams = saveLockSafety;
    }
    return code;
}

/* <gstate> setgstate - */
static int
z2setgstate(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;
    int code;

    check_op(1);
    check_stype(*op, st_igstate_obj);
    code = restore_page_device(i_ctx_p, igs, igstate_ptr(op));
    if (code < 0) return code;
    if (code == 0)
        return zsetgstate(i_ctx_p);
    return push_callout(i_ctx_p, "%setgstatepagedevice");
}

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

const op_def zdevice2_l2_op_defs[] =
{
    op_def_begin_level2(),
    {"0.currentshowpagecount", zcurrentshowpagecount},
    {"0.currentpagedevice", zcurrentpagedevice},
    {"1.setpagedevice", zsetpagedevice},
                /* Note that the following replace prior definitions */
                /* in the indicated files: */
    {"1copy", z2copy},    /* zdps1.c */
    {"0gsave", z2gsave},  /* zgstate.c */
    {"0save", z2save},    /* zvmem.c */
    {"0gstate", z2gstate},  /* zdps1.c */
    {"1currentgstate", z2currentgstate},  /* zdps1.c */
    {"0grestore", z2grestore},  /* zgstate.c */
    {"0grestoreall", z2grestoreall},  /* zgstate.c */
    {"1restore", z2restore},  /* zvmem.c */
    {"1setgstate", z2setgstate},  /* zdps1.c */
                /* Default Install/BeginPage/EndPage procedures */
                /* that just call the procedure in the device. */
    {"0.callinstall", zcallinstall},
    {"1.callbeginpage", zcallbeginpage},
    {"2.callendpage", zcallendpage},
    op_def_end(0)
};

/* ------ Internal routines ------ */

/* Call out to a PostScript procedure. */
static int
push_callout(i_ctx_t *i_ctx_p, const char *callout_name)
{
    int code;

    check_estack(1);
    code = name_enter_string(imemory, callout_name, esp + 1);
    if (code < 0)
        return code;
    ++esp;
    r_set_attrs(esp, a_executable);
    return o_push_estack;
}

Coverage Report

Created: 2025-11-16 07:40

Line	Count	Source
1		/* Copyright (C) 2001-2023 Artifex Software, Inc.
2		All Rights Reserved.
3
4		This software is provided AS-IS with no warranty, either express or
5		implied.
6
7		This software is distributed under license and may not be copied,
8		modified or distributed except as expressly authorized under the terms
9		of the license contained in the file LICENSE in this distribution.
10
11		Refer to licensing information at http://www.artifex.com or contact
12		Artifex Software, Inc., 39 Mesa Street, Suite 108A, San Francisco,
13		CA 94129, USA, for further information.
14		*/
15
16
17		/* Level 2 device operators */
18		#include "math_.h"
19		#include "memory_.h"
20		#include "ghost.h"
21		#include "oper.h"
22		#include "dstack.h" /* for dict_find_name */
23		#include "estack.h"
24		#include "idict.h"
25		#include "idparam.h"
26		#include "igstate.h"
27		#include "iname.h"
28		#include "iutil.h"
29		#include "isave.h"
30		#include "store.h"
31		#include "gxdevice.h"
32		#include "gsstate.h"
33
34		/* Exported for zfunc4.c */
35		int z2copy(i_ctx_t *);
36
37		/* Forward references */
38		static int z2copy_gstate(i_ctx_t *);
39		static int push_callout(i_ctx_t , const char );
40
41		/* Extend the `copy' operator to deal with gstates. */
42		/* This is done with a hack -- we know that gstates are the only */
43		/* t_astruct subtype that implements copy. */
44		/* We export this for recognition in FunctionType 4 functions. */
45		int
46		z2copy(i_ctx_t *i_ctx_p)
47	547M	{
48	547M	os_ptr op = osp;
49	547M	int code = zcopy(i_ctx_p);
50
51	547M	if (code >= 0)
52	547M	return code;
53	125	if (!r_has_type(op, t_astruct))
54	125	return code;
55	0	return z2copy_gstate(i_ctx_p);
56	125	}
57
58		/* - .currentshowpagecount <count> true */
59		/* - .currentshowpagecount false */
60		static int
61		zcurrentshowpagecount(i_ctx_t *i_ctx_p)
62	2.48M	{
63	2.48M	os_ptr op = osp;
64	2.48M	gx_device dev1, dev = gs_currentdevice(igs);
65
66	2.48M	if ((*dev_proc(dev, get_page_device))(dev) == 0) {
67	162	push(1);
68	162	make_false(op);
69	2.48M	} else {
70	2.48M	dev1 = (*dev_proc(dev, get_page_device))(dev);
71	2.48M	push(2);
72	2.48M	make_int(op - 1, dev1->ShowpageCount);
73	2.48M	make_true(op);
74	2.48M	}
75	2.48M	return 0;
76	2.48M	}
77
78		/* - .currentpagedevice <dict> <bool> */
79		static int
80		zcurrentpagedevice(i_ctx_t *i_ctx_p)
81	7.15M	{
82	7.15M	os_ptr op = osp;
83	7.15M	gx_device *dev = gs_currentdevice(igs);
84
85	7.15M	push(2);
86	7.15M	if ((*dev_proc(dev, get_page_device))(dev) != 0) {
87	7.15M	op[-1] = istate->pagedevice;
88	7.15M	make_true(op);
89	7.15M	} else {
90	380	make_null(op - 1);
91	380	make_false(op);
92	380	}
93	7.15M	return 0;
94	7.15M	}
95
96		/* <local_dict\|null> .setpagedevice - */
97		static int
98		zsetpagedevice(i_ctx_t *i_ctx_p)
99	3.42M	{
100	3.42M	os_ptr op = osp;
101	3.42M	int code;
102
103	3.42M	check_op(1);
104		/******
105		if ( igs->in_cachedevice )
106		return_error(gs_error_undefined);
107		******/
108	3.42M	if (r_has_type(op, t_dictionary)) {
109	3.42M	check_dict_read(*op);
110		#if 0 /****************/
111		/*
112		* In order to avoid invalidaccess errors on setpagedevice,
113		* the dictionary must be allocated in local VM.
114		*/
115		if (!(r_is_local(op)))
116		return_error(gs_error_invalidaccess);
117		#endif /****************/
118		/* Make the dictionary read-only. */
119	3.42M	code = zreadonly(i_ctx_p);
120	3.42M	if (code < 0)
121	0	return code;
122	3.42M	} else {
123	126	check_type(*op, t_null);
124	126	}
125	3.42M	istate->pagedevice = *op;
126	3.42M	pop(1);
127	3.42M	return 0;
128	3.42M	}
129
130		/* Default Install/BeginPage/EndPage procedures */
131		/* that just call the procedure in the device. */
132
133		/* - .callinstall - */
134		static int
135		zcallinstall(i_ctx_t *i_ctx_p)
136	872k	{
137	872k	gx_device *dev = gs_currentdevice(igs);
138
139	872k	if ((dev = (*dev_proc(dev, get_page_device))(dev)) != 0) {
140	872k	int code = (*dev->page_procs.install) (dev, igs);
141
142	872k	if (code < 0)
143	0	return code;
144	872k	}
145	872k	return 0;
146	872k	}
147
148		/* <showpage_count> .callbeginpage - */
149		static int
150		zcallbeginpage(i_ctx_t *i_ctx_p)
151	1.13M	{
152	1.13M	os_ptr op = osp;
153	1.13M	gx_device *dev = gs_currentdevice(igs);
154
155	1.13M	check_op(1);
156	1.13M	check_type(*op, t_integer);
157	1.13M	if ((dev = (*dev_proc(dev, get_page_device))(dev)) != 0) {
158	1.13M	int code = (*dev->page_procs.begin_page)(dev, igs);
159
160	1.13M	if (code < 0)
161	0	return code;
162	1.13M	}
163	1.13M	pop(1);
164	1.13M	return 0;
165	1.13M	}
166
167		/* <showpage_count> <reason_int> .callendpage <flush_bool> */
168		static int
169		zcallendpage(i_ctx_t *i_ctx_p)
170	1.34M	{
171	1.34M	os_ptr op = osp;
172	1.34M	gx_device *dev = gs_currentdevice(igs);
173	1.34M	int code;
174
175	1.34M	check_op(2);
176	1.34M	check_type(op[-1], t_integer);
177	1.34M	check_type(*op, t_integer);
178	1.34M	if ((dev = (*dev_proc(dev, get_page_device))(dev)) != 0) {
179	1.34M	code = (*dev->page_procs.end_page)(dev, (int)op->value.intval, igs);
180	1.34M	if (code < 0)
181	0	return code;
182	1.34M	if (code > 1)
183	0	return_error(gs_error_rangecheck);
184	1.34M	} else {
185	0	code = (op->value.intval == 2 ? 0 : 1);
186	0	}
187	1.34M	make_bool(op - 1, code);
188	1.34M	pop(1);
189	1.34M	return 0;
190	1.34M	}
191
192		/* ------ Wrappers for operators that save the graphics state. ------ */
193
194		/* When saving the state with the current device a page device, */
195		/* we need to make sure that the page device dictionary exists */
196		/* so that grestore can use it to reset the device parameters. */
197		/* This may have significant performance consequences, but we don't see */
198		/* any way around it. */
199
200		/* Check whether we need to call out to create the page device dictionary. */
201		static bool
202		save_page_device(gs_gstate *pgs)
203	11.9M	{
204	11.9M	return
205	11.9M	(r_has_type(&gs_int_gstate(pgs)->pagedevice, t_null) &&
206	385k	(*dev_proc(gs_currentdevice(pgs), get_page_device))(gs_currentdevice(pgs)) != 0);
207	11.9M	}
208
209		/* - gsave - */
210		static int
211		z2gsave(i_ctx_t *i_ctx_p)
212	10.4M	{
213	10.4M	if (!save_page_device(igs))
214	10.2M	return gs_gsave(igs);
215	192k	return push_callout(i_ctx_p, "%gsavepagedevice");
216	10.4M	}
217
218		/* - save - */
219		static int
220		z2save(i_ctx_t *i_ctx_p)
221	1.54M	{
222	1.54M	if (!save_page_device(igs))
223	1.34M	return zsave(i_ctx_p);
224	192k	return push_callout(i_ctx_p, "%savepagedevice");
225	1.54M	}
226
227		/* - gstate <gstate> */
228		static int
229		z2gstate(i_ctx_t *i_ctx_p)
230	357	{
231	357	if (!save_page_device(igs))
232	357	return zgstate(i_ctx_p);
233	0	return push_callout(i_ctx_p, "%gstatepagedevice");
234	357	}
235
236		/* <gstate1> <gstate2> copy <gstate2> */
237		static int
238		z2copy_gstate(i_ctx_t *i_ctx_p)
239	0	{
240	0	os_ptr op = osp;
241	0	check_op(2);
242	0	if (!save_page_device(igs))
243	0	return zcopy_gstate(i_ctx_p);
244	0	return push_callout(i_ctx_p, "%copygstatepagedevice");
245	0	}
246
247		/* <gstate> currentgstate <gstate> */
248		static int
249		z2currentgstate(i_ctx_t *i_ctx_p)
250	33	{
251	33	os_ptr op = osp;
252	33	check_op(1);
253	18	if (!save_page_device(igs))
254	18	return zcurrentgstate(i_ctx_p);
255	0	return push_callout(i_ctx_p, "%currentgstatepagedevice");
256	18	}
257
258		/* ------ Wrappers for operators that reset the graphics state. ------ */
259
260		/* Check whether we need to call out to restore the page device. */
261		static int
262		restore_page_device(i_ctx_t i_ctx_p, const gs_gstate pgs_old, const gs_gstate * pgs_new)
263	22.4M	{
264	22.4M	gx_device *dev_old = gs_currentdevice(pgs_old);
265	22.4M	gx_device *dev_new;
266	22.4M	gx_device *dev_t1;
267	22.4M	gx_device *dev_t2;
268	22.4M	bool samepagedevice = obj_eq(dev_old->memory, &gs_int_gstate(pgs_old)->pagedevice,
269	22.4M	&gs_int_gstate(pgs_new)->pagedevice);
270	22.4M	bool LockSafetyParams = dev_old->LockSafetyParams;
271
272	22.4M	if ((dev_t1 = (*dev_proc(dev_old, get_page_device)) (dev_old)) == 0)
273	120k	return 0;
274		/* If we are going to putdeviceparams in a callout, we need to */
275		/* unlock temporarily. The device will be re-locked as needed */
276		/* by putdeviceparams from the pgs_old->pagedevice dict state. */
277	22.3M	if (!samepagedevice)
278	120k	dev_old->LockSafetyParams = false;
279	22.3M	dev_new = gs_currentdevice(pgs_new);
280	22.3M	if (dev_old != dev_new) {
281	0	if ((dev_t2 = (*dev_proc(dev_new, get_page_device)) (dev_new)) == 0)
282	0	samepagedevice = true;
283	0	else if (dev_t1 != dev_t2)
284	0	samepagedevice = false;
285	0	}
286
287	22.3M	if (LockSafetyParams) {
288	0	const int required_ops = 512;
289	0	const int required_es = 32;
290
291		/* The %grestorepagedevice must complete: the biggest danger
292		is operand stack overflow. As we use get/putdeviceparams
293		that means pushing all the device params onto the stack,
294		pdfwrite having by far the largest number of parameters
295		at (currently) 212 key/value pairs - thus needing (currently)
296		424 entries on the op stack. Allowing for working stack
297		space, and safety margin.....
298		*/
299	0	if (required_ops + ref_stack_count(&o_stack) >= ref_stack_max_count(&o_stack)) {
300	0	gs_currentdevice(pgs_old)->LockSafetyParams = LockSafetyParams;
301	0	return_error(gs_error_stackoverflow);
302	0	}
303		/* We also want enough exec stack space - 32 is an overestimate of
304		what we need to complete the Postscript call out.
305		*/
306	0	if (required_es + ref_stack_count(&e_stack) >= ref_stack_max_count(&e_stack)) {
307	0	gs_currentdevice(pgs_old)->LockSafetyParams = LockSafetyParams;
308	0	return_error(gs_error_execstackoverflow);
309	0	}
310	0	}
311		/*
312		* The current implementation of setpagedevice just sets new
313		* parameters in the same device object, so we have to check
314		* whether the page device dictionaries are the same.
315		*/
316	22.3M	return samepagedevice ? 0 : 1;
317	22.3M	}
318
319		/* - grestore - */
320		static int
321		z2grestore(i_ctx_t *i_ctx_p)
322	22.1M	{
323	22.1M	int code = restore_page_device(i_ctx_p, igs, gs_gstate_saved(igs));
324	22.1M	if (code < 0) return code;
325
326	22.1M	if (code == 0)
327	22.1M	return gs_grestore(igs);
328	5.47k	return push_callout(i_ctx_p, "%grestorepagedevice");
329	22.1M	}
330
331		/* - grestoreall - */
332		static int
333		z2grestoreall(i_ctx_t *i_ctx_p)
334	309	{
335	315	for (;;) {
336	315	int code = restore_page_device(i_ctx_p, igs, gs_gstate_saved(igs));
337	315	if (code < 0) return code;
338	315	if (code == 0) {
339	157	bool done = !gs_gstate_saved(gs_gstate_saved(igs));
340
341	157	gs_grestore(igs);
342	157	if (done)
343	151	break;
344	157	} else
345	158	return push_callout(i_ctx_p, "%grestoreallpagedevice");
346	315	}
347	151	return 0;
348	309	}
349		/* This is the Level 2+ variant of restore - which adds restoring
350		of the page device to the Level 1 variant in zvmem.c.
351		Previous this restored the device state before calling zrestore.c
352		which validated operands etc, meaning a restore could error out
353		partially complete.
354		The operand checking, and actual VM restore are now in two functions
355		so they can called separately thus, here, we can do as much
356		checking as possible, before embarking on actual changes
357		*/
358		/* <save> restore - */
359		static int
360		z2restore(i_ctx_t *i_ctx_p)
361	257k	{
362	257k	alloc_save_t *asave;
363	257k	bool saveLockSafety = gs_currentdevice_inline(igs)->LockSafetyParams;
364	257k	int code = restore_check_save(i_ctx_p, &asave);
365
366	257k	if (code < 0) return code;
367
368	336k	while (gs_gstate_saved(gs_gstate_saved(igs))) {
369	79.8k	code = restore_page_device(i_ctx_p, igs, gs_gstate_saved(igs));
370	79.8k	if (code < 0) return code;
371	79.8k	if (code > 0)
372	0	return push_callout(i_ctx_p, "%restore1pagedevice");
373	79.8k	gs_grestore(igs);
374	79.8k	}
375	257k	code = restore_page_device(i_ctx_p, igs, gs_gstate_saved(igs));
376	257k	if (code < 0) return code;
377	257k	if (code > 0)
378	114k	return push_callout(i_ctx_p, "%restorepagedevice");
379
380	142k	code = dorestore(i_ctx_p, asave);
381
382	142k	if (code < 0) {
383		/* An error here is basically fatal, but....
384		restore_page_device() has to set LockSafetyParams false so it can
385		configure the restored device correctly - in normal operation, that
386		gets reset by that configuration. If we hit an error, though, that
387		may not happen - at least ensure we keep the setting through the
388		error.
389		*/
390	0	gs_currentdevice_inline(igs)->LockSafetyParams = saveLockSafety;
391	0	}
392	142k	return code;
393	257k	}
394
395		/* <gstate> setgstate - */
396		static int
397		z2setgstate(i_ctx_t *i_ctx_p)
398	31	{
399	31	os_ptr op = osp;
400	31	int code;
401
402	31	check_op(1);
403	16	check_stype(*op, st_igstate_obj);
404	8	code = restore_page_device(i_ctx_p, igs, igstate_ptr(op));
405	8	if (code < 0) return code;
406	8	if (code == 0)
407	8	return zsetgstate(i_ctx_p);
408	0	return push_callout(i_ctx_p, "%setgstatepagedevice");
409	8	}
410
411		/* ------ Initialization procedure ------ */
412
413		const op_def zdevice2_l2_op_defs[] =
414		{
415		op_def_begin_level2(),
416		{"0.currentshowpagecount", zcurrentshowpagecount},
417		{"0.currentpagedevice", zcurrentpagedevice},
418		{"1.setpagedevice", zsetpagedevice},
419		/* Note that the following replace prior definitions */
420		/* in the indicated files: */
421		{"1copy", z2copy}, /* zdps1.c */
422		{"0gsave", z2gsave}, /* zgstate.c */
423		{"0save", z2save}, /* zvmem.c */
424		{"0gstate", z2gstate}, /* zdps1.c */
425		{"1currentgstate", z2currentgstate}, /* zdps1.c */
426		{"0grestore", z2grestore}, /* zgstate.c */
427		{"0grestoreall", z2grestoreall}, /* zgstate.c */
428		{"1restore", z2restore}, /* zvmem.c */
429		{"1setgstate", z2setgstate}, /* zdps1.c */
430		/* Default Install/BeginPage/EndPage procedures */
431		/* that just call the procedure in the device. */
432		{"0.callinstall", zcallinstall},
433		{"1.callbeginpage", zcallbeginpage},
434		{"2.callendpage", zcallendpage},
435		op_def_end(0)
436		};
437
438		/* ------ Internal routines ------ */
439
440		/* Call out to a PostScript procedure. */
441		static int
442		push_callout(i_ctx_t i_ctx_p, const char callout_name)
443	505k	{
444	505k	int code;
445
446	505k	check_estack(1);
447	505k	code = name_enter_string(imemory, callout_name, esp + 1);
448	505k	if (code < 0)
449	0	return code;
450	505k	++esp;
451	505k	r_set_attrs(esp, a_executable);
452	505k	return o_push_estack;
453	505k	}