/src/ghostpdl/psi/zpacked.c

Source (jump to first uncovered line)
/* Copyright (C) 2001-2024 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.
*/


/* Packed array operators */
#include "ghost.h"
#include "ialloc.h"
#include "idict.h"
#include "iname.h"
#include "istack.h"   /* for iparray.h */
#include "ipacked.h"
#include "iparray.h"
#include "ivmspace.h"
#include "oper.h"
#include "store.h"
#include "gxalloc.h"

/* - currentpacking <bool> */
static int
zcurrentpacking(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;

    push(1);
    ref_assign(op, &ref_array_packing);
    return 0;
}

/* <obj_0> ... <obj_n-1> <n> packedarray <packedarray> */
int
zpackedarray(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;
    int code;
    ref parr;

    check_type(*op, t_integer);

    /* This avoids a valgrind error */
    parr.tas.type_attrs = 0;

    if (op->value.intval < 0)
        return_error(gs_error_rangecheck);
    if (op->value.intval > op - osbot &&
        op->value.intval >= ref_stack_count(&o_stack)
        )
        return_error(gs_error_stackunderflow);
    osp--;
    code = make_packed_array(&parr, &o_stack, (uint) op->value.intval,
                             idmemory, "packedarray");
    osp++;
    if (code >= 0)
        *osp = parr;
    return code;
}

/* <bool> setpacking - */
static int
zsetpacking(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;
    ref cont;
    check_op(1);
    check_type(*op, t_boolean);
    make_struct(&cont, avm_local, ref_array_packing_container);
    ref_assign_old(&cont, &ref_array_packing, op, "setpacking");
    pop(1);
    return 0;
}

/* ------ Non-operator routines ------ */

/* Make a packed array.  See the comment in packed.h about */
/* ensuring that refs in mixed arrays are properly aligned. */
#undef idmemory     /****** NOTA BENE ******/
int
make_packed_array(ref * parr, ref_stack_t * pstack, uint size,
                  gs_dual_memory_t *idmemory, client_name_t cname)
{
    uint i;
    const ref *pref;
    uint idest = 0, ishort = 0;
    ref_packed *pbody;
    ref_packed *pdest;
    ref_packed *pshort;   /* points to start of */
                                /* last run of short elements */
    gs_ref_memory_t *imem = idmemory->current;
    uint space = imemory_space(imem);
    int skip = 0, pad;
    ref rtemp;
    int code;

    /* Do a first pass to calculate the size of the array, */
    /* and to detect local-into-global stores. */

    for (i = size; i != 0; i--) {
        pref = ref_stack_index(pstack, i - 1);
        if (pref == NULL)
            return_error(gs_error_stackunderflow);

        switch (r_btype(pref)) { /* not r_type, opers are special */
            case t_name:
              if (name_index(imem, pref) >= packed_name_max_index)
                    break;  /* can't pack */
                idest++;
                continue;
            case t_integer:
                if (pref->value.intval < packed_min_intval ||
                    pref->value.intval > packed_max_intval
                    )
                    break;
                idest++;
                continue;
            case t_oparray:
                /* Check for local-into-global store. */
                store_check_space(space, pref);
                /* falls through */
            case t_operator:
                {
                    uint oidx;

                    if (!r_has_attr(pref, a_executable))
                        break;
                    oidx = op_index(pref);
                    if (oidx == 0 || oidx > packed_int_mask)
                        break;
                }
                idest++;
                continue;
            default:
                /* Check for local-into-global store. */
                store_check_space(space, pref);
        }
        /* Can't pack this element, use a full ref. */
        /* We may have to unpack up to align_packed_per_ref - 1 */
        /* preceding short elements. */
        /* If we are at the beginning of the array, however, */
        /* we can just move the elements up. */
        {
            int i = (idest - ishort) & (align_packed_per_ref - 1);

            if (ishort == 0)  /* first time */
                idest += skip = -i & (align_packed_per_ref - 1);
            else
                idest += (packed_per_ref - 1) * i;
        }
        ishort = idest += packed_per_ref;
    }
    pad = (packed_per_ref - idest % packed_per_ref) % packed_per_ref; /* padding at end */

    /* Now we can allocate the array. */

    code = gs_alloc_ref_array(imem, &rtemp, 0, (idest + pad) / packed_per_ref,
                              cname);
    if (code < 0)
        return code;
    pbody = (ref_packed *) rtemp.value.refs;

    /* Make sure any initial skipped elements contain legal packed */
    /* refs, so that the garbage collector can scan storage. */

    pshort = pbody;
    for (; skip; skip--)
        *pbody++ = pt_tag(pt_integer);
    pdest = pbody;

    for (i = size; i != 0; i--) {
        pref = ref_stack_index(pstack, i - 1);
        if (pref == NULL)
            return_error(gs_error_stackunderflow);

        switch (r_btype(pref)) { /* not r_type, opers are special */
            case t_name:
                {
                    uint nidx = name_index(imem, pref);

                    if (nidx >= packed_name_max_index)
                        break;  /* can't pack */
                    *pdest++ = nidx +
                        (r_has_attr(pref, a_executable) ?
                         pt_tag(pt_executable_name) :
                         pt_tag(pt_literal_name));
                }
                continue;
            case t_integer:
                if (pref->value.intval < packed_min_intval ||
                    pref->value.intval > packed_max_intval
                    )
                    break;
                *pdest++ = pt_tag(pt_integer) +
                    ((short)pref->value.intval - packed_min_intval);
                continue;
            case t_oparray:
            case t_operator:
                {
                    uint oidx;

                    if (!r_has_attr(pref, a_executable))
                        break;
                    oidx = op_index(pref);
                    if (oidx == 0 || oidx > packed_int_mask)
                        break;
                    *pdest++ = pt_tag(pt_executable_operator) + oidx;
                }
                continue;
        }
        /* Can't pack this element, use a full ref. */
        /* We may have to unpack up to align_packed_per_ref - 1 */
        /* preceding short elements. */
        /* Note that if we are at the beginning of the array, */
        /* 'skip' already ensures that we don't need to do this. */
        {
            int i = (pdest - pshort) & (align_packed_per_ref - 1);
            const ref_packed *psrc = pdest;
            ref *pmove =
            (ref *) (pdest += (packed_per_ref - 1) * i);

            ref_assign_new(pmove, pref);
            while (--i >= 0) {
                --psrc;
                --pmove;
                packed_get(imem->non_gc_memory, psrc, pmove);
            }
        }
        pshort = pdest += packed_per_ref;
    }

    {
        int atype =
        (pdest == pbody + size ? t_shortarray : t_mixedarray);

        /* Pad with legal packed refs so that the garbage collector */
        /* can scan storage. */

        for (; pad; pad--)
            *pdest++ = pt_tag(pt_integer);

        /* Finally, make the array. */

        ref_stack_pop(pstack, size);
        make_tasv_new(parr, atype, a_readonly | space, size,
                      packed, pbody + skip);
    }
    return 0;
}

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

const op_def zpacked_op_defs[] =
{
    {"0currentpacking", zcurrentpacking},
    {"1packedarray", zpackedarray},
    {"1setpacking", zsetpacking},
    op_def_end(0)
};

Coverage Report

Created: 2025-06-24 07:01

Line	Count	Source (jump to first uncovered line)
1		/* Copyright (C) 2001-2024 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		/* Packed array operators */
18		#include "ghost.h"
19		#include "ialloc.h"
20		#include "idict.h"
21		#include "iname.h"
22		#include "istack.h" /* for iparray.h */
23		#include "ipacked.h"
24		#include "iparray.h"
25		#include "ivmspace.h"
26		#include "oper.h"
27		#include "store.h"
28		#include "gxalloc.h"
29
30		/* - currentpacking <bool> */
31		static int
32		zcurrentpacking(i_ctx_t *i_ctx_p)
33	663k	{
34	663k	os_ptr op = osp;
35
36	663k	push(1);
37	663k	ref_assign(op, &ref_array_packing);
38	663k	return 0;
39	663k	}
40
41		/* <obj_0> ... <obj_n-1> <n> packedarray <packedarray> */
42		int
43		zpackedarray(i_ctx_t *i_ctx_p)
44	11.2M	{
45	11.2M	os_ptr op = osp;
46	11.2M	int code;
47	11.2M	ref parr;
48
49	11.2M	check_type(*op, t_integer);
50
51		/* This avoids a valgrind error */
52	11.2M	parr.tas.type_attrs = 0;
53
54	11.2M	if (op->value.intval < 0)
55	3	return_error(gs_error_rangecheck);
56	11.2M	if (op->value.intval > op - osbot &&
57	11.2M	op->value.intval >= ref_stack_count(&o_stack)
58	11.2M	)
59	0	return_error(gs_error_stackunderflow);
60	11.2M	osp--;
61	11.2M	code = make_packed_array(&parr, &o_stack, (uint) op->value.intval,
62	11.2M	idmemory, "packedarray");
63	11.2M	osp++;
64	11.2M	if (code >= 0)
65	11.2M	*osp = parr;
66	11.2M	return code;
67	11.2M	}
68
69		/* <bool> setpacking - */
70		static int
71		zsetpacking(i_ctx_t *i_ctx_p)
72	1.62M	{
73	1.62M	os_ptr op = osp;
74	1.62M	ref cont;
75	1.62M	check_op(1);
76	1.62M	check_type(*op, t_boolean);
77	1.62M	make_struct(&cont, avm_local, ref_array_packing_container);
78	1.62M	ref_assign_old(&cont, &ref_array_packing, op, "setpacking");
79	1.62M	pop(1);
80	1.62M	return 0;
81	1.62M	}
82
83		/* ------ Non-operator routines ------ */
84
85		/* Make a packed array. See the comment in packed.h about */
86		/* ensuring that refs in mixed arrays are properly aligned. */
87		#undef idmemory /**** NOTA BENE ****/
88		int
89		make_packed_array(ref * parr, ref_stack_t * pstack, uint size,
90		gs_dual_memory_t *idmemory, client_name_t cname)
91	755M	{
92	755M	uint i;
93	755M	const ref *pref;
94	755M	uint idest = 0, ishort = 0;
95	755M	ref_packed *pbody;
96	755M	ref_packed *pdest;
97	755M	ref_packed pshort; / points to start of */
98		/* last run of short elements */
99	755M	gs_ref_memory_t *imem = idmemory->current;
100	755M	uint space = imemory_space(imem);
101	755M	int skip = 0, pad;
102	755M	ref rtemp;
103	755M	int code;
104
105		/* Do a first pass to calculate the size of the array, */
106		/* and to detect local-into-global stores. */
107
108	6.57G	for (i = size; i != 0; i--) {
109	5.82G	pref = ref_stack_index(pstack, i - 1);
110	5.82G	if (pref == NULL)
111	0	return_error(gs_error_stackunderflow);
112
113	5.82G	switch (r_btype(pref)) { /* not r_type, opers are special */
114	4.20G	case t_name:
115	4.20G	if (name_index(imem, pref) >= packed_name_max_index)
116	377M	break; /* can't pack */
117	3.82G	idest++;
118	3.82G	continue;
119	697M	case t_integer:
120	697M	if (pref->value.intval < packed_min_intval \|\|
121	697M	pref->value.intval > packed_max_intval
122	697M	)
123	15.1M	break;
124	682M	idest++;
125	682M	continue;
126	6.82M	case t_oparray:
127		/* Check for local-into-global store. */
128	6.82M	store_check_space(space, pref);
129		/* falls through */
130	22.5M	case t_operator:
131	22.5M	{
132	22.5M	uint oidx;
133
134	22.5M	if (!r_has_attr(pref, a_executable))
135	0	break;
136	22.5M	oidx = op_index(pref);
137	22.5M	if (oidx == 0 \|\| oidx > packed_int_mask)
138	0	break;
139	22.5M	}
140	22.5M	idest++;
141	22.5M	continue;
142	899M	default:
143		/* Check for local-into-global store. */
144	899M	store_check_space(space, pref);
145	5.82G	}
146		/* Can't pack this element, use a full ref. */
147		/* We may have to unpack up to align_packed_per_ref - 1 */
148		/* preceding short elements. */
149		/* If we are at the beginning of the array, however, */
150		/* we can just move the elements up. */
151	1.29G	{
152	1.29G	int i = (idest - ishort) & (align_packed_per_ref - 1);
153
154	1.29G	if (ishort == 0) /* first time */
155	502M	idest += skip = -i & (align_packed_per_ref - 1);
156	789M	else
157	789M	idest += (packed_per_ref - 1) * i;
158	1.29G	}
159	1.29G	ishort = idest += packed_per_ref;
160	1.29G	}
161	755M	pad = (packed_per_ref - idest % packed_per_ref) % packed_per_ref; /* padding at end */
162
163		/* Now we can allocate the array. */
164
165	755M	code = gs_alloc_ref_array(imem, &rtemp, 0, (idest + pad) / packed_per_ref,
166	755M	cname);
167	755M	if (code < 0)
168	0	return code;
169	755M	pbody = (ref_packed *) rtemp.value.refs;
170
171		/* Make sure any initial skipped elements contain legal packed */
172		/* refs, so that the garbage collector can scan storage. */
173
174	755M	pshort = pbody;
175	1.34G	for (; skip; skip--)
176	590M	*pbody++ = pt_tag(pt_integer);
177	755M	pdest = pbody;
178
179	6.57G	for (i = size; i != 0; i--) {
180	5.82G	pref = ref_stack_index(pstack, i - 1);
181	5.82G	if (pref == NULL)
182	0	return_error(gs_error_stackunderflow);
183
184	5.82G	switch (r_btype(pref)) { /* not r_type, opers are special */
185	4.20G	case t_name:
186	4.20G	{
187	4.20G	uint nidx = name_index(imem, pref);
188
189	4.20G	if (nidx >= packed_name_max_index)
190	377M	break; /* can't pack */
191	3.82G	*pdest++ = nidx +
192	3.82G	(r_has_attr(pref, a_executable) ?
193	3.11G	pt_tag(pt_executable_name) :
194	3.82G	pt_tag(pt_literal_name));
195	3.82G	}
196	0	continue;
197	697M	case t_integer:
198	697M	if (pref->value.intval < packed_min_intval \|\|
199	697M	pref->value.intval > packed_max_intval
200	697M	)
201	15.1M	break;
202	682M	*pdest++ = pt_tag(pt_integer) +
203	682M	((short)pref->value.intval - packed_min_intval);
204	682M	continue;
205	6.82M	case t_oparray:
206	22.5M	case t_operator:
207	22.5M	{
208	22.5M	uint oidx;
209
210	22.5M	if (!r_has_attr(pref, a_executable))
211	0	break;
212	22.5M	oidx = op_index(pref);
213	22.5M	if (oidx == 0 \|\| oidx > packed_int_mask)
214	0	break;
215	22.5M	*pdest++ = pt_tag(pt_executable_operator) + oidx;
216	22.5M	}
217	0	continue;
218	5.82G	}
219		/* Can't pack this element, use a full ref. */
220		/* We may have to unpack up to align_packed_per_ref - 1 */
221		/* preceding short elements. */
222		/* Note that if we are at the beginning of the array, */
223		/* 'skip' already ensures that we don't need to do this. */
224	1.29G	{
225	1.29G	int i = (pdest - pshort) & (align_packed_per_ref - 1);
226	1.29G	const ref_packed *psrc = pdest;
227	1.29G	ref *pmove =
228	1.29G	(ref ) (pdest += (packed_per_ref - 1) i);
229
230	1.29G	ref_assign_new(pmove, pref);
231	2.02G	while (--i >= 0) {
232	735M	--psrc;
233	735M	--pmove;
234	735M	packed_get(imem->non_gc_memory, psrc, pmove);
235	735M	}
236	1.29G	}
237	1.29G	pshort = pdest += packed_per_ref;
238	1.29G	}
239
240	755M	{
241	755M	int atype =
242	755M	(pdest == pbody + size ? t_shortarray : t_mixedarray);
243
244		/* Pad with legal packed refs so that the garbage collector */
245		/* can scan storage. */
246
247	3.87G	for (; pad; pad--)
248	3.12G	*pdest++ = pt_tag(pt_integer);
249
250		/* Finally, make the array. */
251
252	755M	ref_stack_pop(pstack, size);
253	755M	make_tasv_new(parr, atype, a_readonly \| space, size,
254	755M	packed, pbody + skip);
255	755M	}
256	755M	return 0;
257	755M	}
258
259		/* ------ Initialization procedure ------ */
260
261		const op_def zpacked_op_defs[] =
262		{
263		{"0currentpacking", zcurrentpacking},
264		{"1packedarray", zpackedarray},
265		{"1setpacking", zsetpacking},
266		op_def_end(0)
267		};