/src/ghostpdl/psi/zrelbit.c

Source (jump to first uncovered line)
/* 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.
*/


/* Relational, boolean, and bit operators */
#include "ghost.h"
#include "oper.h"
#include "gsutil.h"
#include "idict.h"
#include "store.h"
#include "gsstate.h"

/*
 * Many of the procedures in this file are public only so they can be
 * called from the FunctionType 4 interpreter (zfunc4.c).
 */

/* ------ Standard operators ------ */

/* Define the type test for eq and its relatives. */
#define EQ_CHECK_READ(opp, dflt)\
    switch ( r_type(opp) ) {\
        case t_string:\
            check_read(*(opp));\
            break;\
        default:\
            dflt;\
  }

/* Forward references */
static int obj_le(os_ptr, os_ptr);

/* <obj1> <obj2> eq <bool> */
int
zeq(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;
    check_op(2);
    EQ_CHECK_READ(op - 1, check_op(2));
    EQ_CHECK_READ(op, DO_NOTHING);
    make_bool(op - 1, (obj_eq(imemory, op - 1, op) ? 1 : 0));
    pop(1);
    return 0;
}

/* <obj1> <obj2> ne <bool> */
int
zne(i_ctx_t *i_ctx_p)
{ /* We'll just be lazy and use eq. */
    int code = zeq(i_ctx_p);

    if (!code)
        osp->value.boolval ^= 1;
    return code;
}

/* <num1> <num2> ge <bool> */
/* <str1> <str2> ge <bool> */
int
zge(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;
    int code;

    check_op(2);
    code = obj_le(op, op - 1);
    if (code < 0)
        return code;
    make_bool(op - 1, code);
    pop(1);
    return 0;
}

/* <num1> <num2> gt <bool> */
/* <str1> <str2> gt <bool> */
int
zgt(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;
    int code;

    check_op(2);
    code = obj_le(op - 1, op);
    if (code < 0)
        return code;
    make_bool(op - 1, code ^ 1);
    pop(1);
    return 0;
}

/* <num1> <num2> le <bool> */
/* <str1> <str2> le <bool> */
int
zle(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;
    int code;

    check_op(2);
    code = obj_le(op - 1, op);
    if (code < 0)
        return code;
    make_bool(op - 1, code);
    pop(1);
    return 0;
}

/* <num1> <num2> lt <bool> */
/* <str1> <str2> lt <bool> */
int
zlt(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;
    int code;

    check_op(2);
    code = obj_le(op, op - 1);
    if (code < 0)
        return code;
    make_bool(op - 1, code ^ 1);
    pop(1);
    return 0;
}

/* <num1> <num2> .max <num> */
/* <str1> <str2> .max <str> */
static int
zmax(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;
    int code;

    check_op(2);
    code = obj_le(op - 1, op);
    if (code < 0)
        return code;
    if (code) {
        ref_assign(op - 1, op);
    }
    pop(1);
    return 0;
}

/* <num1> <num2> .min <num> */
/* <str1> <str2> .min <str> */
static int
zmin(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;
    int code;

    check_op(2);
    code = obj_le(op - 1, op);
    if (code < 0)
        return code;
    if (!code) {
        ref_assign(op - 1, op);
    }
    pop(1);
    return 0;
}

/* <bool1> <bool2> and <bool> */
/* <int1> <int2> and <int> */
int
zand(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;

    check_op(2);
    switch (r_type(op)) {
        case t_boolean:
            check_type(op[-1], t_boolean);
            op[-1].value.boolval &= op->value.boolval;
            break;
        case t_integer:
            check_type(op[-1], t_integer);
            op[-1].value.intval &= op->value.intval;
            break;
        default:
            return_op_typecheck(op);
    }
    pop(1);
    return 0;
}

/* <bool> not <bool> */
/* <int> not <int> */
int
znot(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;

    check_op(1);
    switch (r_type(op)) {
        case t_boolean:
            op->value.boolval = !op->value.boolval;
            break;
        case t_integer:
            op->value.intval = ~op->value.intval;
            break;
        default:
            return_op_typecheck(op);
    }
    return 0;
}

/* <bool1> <bool2> or <bool> */
/* <int1> <int2> or <int> */
int
zor(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;

    check_op(2);
    switch (r_type(op)) {
        case t_boolean:
            check_type(op[-1], t_boolean);
            op[-1].value.boolval |= op->value.boolval;
            break;
        case t_integer:
            check_type(op[-1], t_integer);
            op[-1].value.intval |= op->value.intval;
            break;
        default:
            return_op_typecheck(op);
    }
    pop(1);
    return 0;
}

/* <bool1> <bool2> xor <bool> */
/* <int1> <int2> xor <int> */
int
zxor(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;

    check_op(2);
    switch (r_type(op)) {
        case t_boolean:
            check_type(op[-1], t_boolean);
            op[-1].value.boolval ^= op->value.boolval;
            break;
        case t_integer:
            check_type(op[-1], t_integer);
            op[-1].value.intval ^= op->value.intval;
            break;
        default:
            return_op_typecheck(op);
    }
    pop(1);
    return 0;
}

/* <int> <shift> bitshift <int> */
int
zbitshift(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;
    int shift;
    short max_shift = (sizeof(ps_int) * 8) - 1;
    short max_shift32 = (sizeof(ps_int32) * 8) - 1;

    check_op(2);
    check_type(*op, t_integer);
    check_type(op[-1], t_integer);
    if ((op->value.intval < -max_shift) || (op->value.intval > max_shift))
        op[-1].value.intval = 0;
    else if (sizeof(ps_int) != 4 && gs_currentcpsimode(imemory) && (op->value.intval < -max_shift32 || op->value.intval > max_shift32))
        op[-1].value.intval = 0;
    else if ((shift = op->value.intval) < 0) {
        if (sizeof(ps_int) != 4 && gs_currentcpsimode(imemory)) {
            ps_int32 val = (ps_int32)(op[-1].value.intval);
            op[-1].value.intval = (ps_int)((uint)(val)) >> -shift;
        }
        else {
            op[-1].value.intval = ((ps_int)(op[-1].value.intval)) >> -shift;
        }
    }
    else {
        if (sizeof(ps_int) != 4 && gs_currentcpsimode(imemory)) {
            ps_int32 val = (ps_int32)(op[-1].value.intval);

            op[-1].value.intval = (ps_int)(val << shift);
        }
        else
           op[-1].value.intval <<= shift;
    }
    pop(1);
    return 0;
}

/* ------ Extensions ------ */

/* <obj1> <obj2> .identeq <bool> */
static int
zidenteq(i_ctx_t *i_ctx_p)
{
    os_ptr op = osp;

    check_op(2);
    EQ_CHECK_READ(op - 1, check_op(2));
    EQ_CHECK_READ(op, DO_NOTHING);
    make_bool(op - 1, (obj_ident_eq(imemory, op - 1, op) ? 1 : 0));
    pop(1);
    return 0;

}

/* <obj1> <obj2> .identne <bool> */
static int
zidentne(i_ctx_t *i_ctx_p)
{
        /* We'll just be lazy and use .identeq. */
    os_ptr op = osp;
    int code;

    check_op(1);
    code = zidenteq(i_ctx_p);
    if (!code)
        osp->value.boolval ^= 1;
    return code;
}

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

const op_def zrelbit_op_defs[] =
{
    {"2and", zand},
    {"2bitshift", zbitshift},
    {"2eq", zeq},
    {"2ge", zge},
    {"2gt", zgt},
    {"2le", zle},
    {"2lt", zlt},
    {"2.max", zmax},
    {"2.min", zmin},
    {"2ne", zne},
    {"1not", znot},
    {"2or", zor},
    {"2xor", zxor},
                /* Extensions */
    {"2.identeq", zidenteq},
    {"2.identne", zidentne},
    op_def_end(0)
};

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

/* Compare two operands (both numeric, or both strings). */
/* Return 1 if op[-1] <= op[0], 0 if op[-1] > op[0], */
/* or a (negative) error code. */
static int
obj_le(register os_ptr op1, register os_ptr op)
{
    switch (r_type(op1)) {
        case t_integer:
            switch (r_type(op)) {
                case t_integer:
                    return (op1->value.intval <= op->value.intval);
                case t_real:
                    return ((double)op1->value.intval <= op->value.realval);
                default:
                    return_op_typecheck(op);
            }
        case t_real:
            switch (r_type(op)) {
                case t_real:
                    return (op1->value.realval <= op->value.realval);
                case t_integer:
                    return (op1->value.realval <= (double)op->value.intval);
                default:
                    return_op_typecheck(op);
            }
        case t_string:
            check_read(*op1);
            check_read_type(*op, t_string);
            return (bytes_compare(op1->value.bytes, r_size(op1),
                                  op->value.bytes, r_size(op)) <= 0);
        default:
            return_op_typecheck(op1);
    }
}

Coverage Report

Created: 2025-06-10 07:26

Line	Count	Source (jump to first uncovered line)
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		/* Relational, boolean, and bit operators */
18		#include "ghost.h"
19		#include "oper.h"
20		#include "gsutil.h"
21		#include "idict.h"
22		#include "store.h"
23		#include "gsstate.h"
24
25		/*
26		* Many of the procedures in this file are public only so they can be
27		* called from the FunctionType 4 interpreter (zfunc4.c).
28		*/
29
30		/* ------ Standard operators ------ */
31
32		/* Define the type test for eq and its relatives. */
33		#define EQ_CHECK_READ(opp, dflt)\
34	470M	switch ( r_type(opp) ) {\
35	13.1M	case t_string:\
36	13.1M	check_read(*(opp));\
37	13.1M	break;\
38	457M	default:\
39	686M	dflt;\
40	470M	}
41
42		/* Forward references */
43		static int obj_le(os_ptr, os_ptr);
44
45		/* <obj1> <obj2> eq <bool> */
46		int
47		zeq(i_ctx_t *i_ctx_p)
48	235M	{
49	235M	os_ptr op = osp;
50	235M	check_op(2);
51	235M	EQ_CHECK_READ(op - 1, check_op(2));
52	235M	EQ_CHECK_READ(op, DO_NOTHING);
53	235M	make_bool(op - 1, (obj_eq(imemory, op - 1, op) ? 1 : 0));
54	235M	pop(1);
55	235M	return 0;
56	235M	}
57
58		/* <obj1> <obj2> ne <bool> */
59		int
60		zne(i_ctx_t *i_ctx_p)
61	52.8M	{ /* We'll just be lazy and use eq. */
62	52.8M	int code = zeq(i_ctx_p);
63
64	52.8M	if (!code)
65	52.8M	osp->value.boolval ^= 1;
66	52.8M	return code;
67	52.8M	}
68
69		/* <num1> <num2> ge <bool> */
70		/* <str1> <str2> ge <bool> */
71		int
72		zge(i_ctx_t *i_ctx_p)
73	492k	{
74	492k	os_ptr op = osp;
75	492k	int code;
76
77	492k	check_op(2);
78	492k	code = obj_le(op, op - 1);
79	492k	if (code < 0)
80	0	return code;
81	492k	make_bool(op - 1, code);
82	492k	pop(1);
83	492k	return 0;
84	492k	}
85
86		/* <num1> <num2> gt <bool> */
87		/* <str1> <str2> gt <bool> */
88		int
89		zgt(i_ctx_t *i_ctx_p)
90	20.7M	{
91	20.7M	os_ptr op = osp;
92	20.7M	int code;
93
94	20.7M	check_op(2);
95	20.7M	code = obj_le(op - 1, op);
96	20.7M	if (code < 0)
97	0	return code;
98	20.7M	make_bool(op - 1, code ^ 1);
99	20.7M	pop(1);
100	20.7M	return 0;
101	20.7M	}
102
103		/* <num1> <num2> le <bool> */
104		/* <str1> <str2> le <bool> */
105		int
106		zle(i_ctx_t *i_ctx_p)
107	254k	{
108	254k	os_ptr op = osp;
109	254k	int code;
110
111	254k	check_op(2);
112	254k	code = obj_le(op - 1, op);
113	254k	if (code < 0)
114	0	return code;
115	254k	make_bool(op - 1, code);
116	254k	pop(1);
117	254k	return 0;
118	254k	}
119
120		/* <num1> <num2> lt <bool> */
121		/* <str1> <str2> lt <bool> */
122		int
123		zlt(i_ctx_t *i_ctx_p)
124	2.57M	{
125	2.57M	os_ptr op = osp;
126	2.57M	int code;
127
128	2.57M	check_op(2);
129	2.57M	code = obj_le(op, op - 1);
130	2.57M	if (code < 0)
131	0	return code;
132	2.57M	make_bool(op - 1, code ^ 1);
133	2.57M	pop(1);
134	2.57M	return 0;
135	2.57M	}
136
137		/* <num1> <num2> .max <num> */
138		/* <str1> <str2> .max <str> */
139		static int
140		zmax(i_ctx_t *i_ctx_p)
141	36.8k	{
142	36.8k	os_ptr op = osp;
143	36.8k	int code;
144
145	36.8k	check_op(2);
146	36.8k	code = obj_le(op - 1, op);
147	36.8k	if (code < 0)
148	0	return code;
149	36.8k	if (code) {
150	36.8k	ref_assign(op - 1, op);
151	36.8k	}
152	36.8k	pop(1);
153	36.8k	return 0;
154	36.8k	}
155
156		/* <num1> <num2> .min <num> */
157		/* <str1> <str2> .min <str> */
158		static int
159		zmin(i_ctx_t *i_ctx_p)
160	204k	{
161	204k	os_ptr op = osp;
162	204k	int code;
163
164	204k	check_op(2);
165	204k	code = obj_le(op - 1, op);
166	204k	if (code < 0)
167	0	return code;
168	204k	if (!code) {
169	0	ref_assign(op - 1, op);
170	0	}
171	204k	pop(1);
172	204k	return 0;
173	204k	}
174
175		/* <bool1> <bool2> and <bool> */
176		/* <int1> <int2> and <int> */
177		int
178		zand(i_ctx_t *i_ctx_p)
179	34.9M	{
180	34.9M	os_ptr op = osp;
181
182	34.9M	check_op(2);
183	34.9M	switch (r_type(op)) {
184	34.9M	case t_boolean:
185	34.9M	check_type(op[-1], t_boolean);
186	34.9M	op[-1].value.boolval &= op->value.boolval;
187	34.9M	break;
188	0	case t_integer:
189	0	check_type(op[-1], t_integer);
190	0	op[-1].value.intval &= op->value.intval;
191	0	break;
192	0	default:
193	0	return_op_typecheck(op);
194	34.9M	}
195	34.9M	pop(1);
196	34.9M	return 0;
197	34.9M	}
198
199		/* <bool> not <bool> */
200		/* <int> not <int> */
201		int
202		znot(i_ctx_t *i_ctx_p)
203	13.8M	{
204	13.8M	os_ptr op = osp;
205
206	13.8M	check_op(1);
207	13.8M	switch (r_type(op)) {
208	13.8M	case t_boolean:
209	13.8M	op->value.boolval = !op->value.boolval;
210	13.8M	break;
211	0	case t_integer:
212	0	op->value.intval = ~op->value.intval;
213	0	break;
214	0	default:
215	0	return_op_typecheck(op);
216	13.8M	}
217	13.8M	return 0;
218	13.8M	}
219
220		/* <bool1> <bool2> or <bool> */
221		/* <int1> <int2> or <int> */
222		int
223		zor(i_ctx_t *i_ctx_p)
224	7.48M	{
225	7.48M	os_ptr op = osp;
226
227	7.48M	check_op(2);
228	7.48M	switch (r_type(op)) {
229	7.48M	case t_boolean:
230	7.48M	check_type(op[-1], t_boolean);
231	7.48M	op[-1].value.boolval \|= op->value.boolval;
232	7.48M	break;
233	0	case t_integer:
234	0	check_type(op[-1], t_integer);
235	0	op[-1].value.intval \|= op->value.intval;
236	0	break;
237	0	default:
238	0	return_op_typecheck(op);
239	7.48M	}
240	7.48M	pop(1);
241	7.48M	return 0;
242	7.48M	}
243
244		/* <bool1> <bool2> xor <bool> */
245		/* <int1> <int2> xor <int> */
246		int
247		zxor(i_ctx_t *i_ctx_p)
248	0	{
249	0	os_ptr op = osp;
250
251	0	check_op(2);
252	0	switch (r_type(op)) {
253	0	case t_boolean:
254	0	check_type(op[-1], t_boolean);
255	0	op[-1].value.boolval ^= op->value.boolval;
256	0	break;
257	0	case t_integer:
258	0	check_type(op[-1], t_integer);
259	0	op[-1].value.intval ^= op->value.intval;
260	0	break;
261	0	default:
262	0	return_op_typecheck(op);
263	0	}
264	0	pop(1);
265	0	return 0;
266	0	}
267
268		/* <int> <shift> bitshift <int> */
269		int
270		zbitshift(i_ctx_t *i_ctx_p)
271	0	{
272	0	os_ptr op = osp;
273	0	int shift;
274	0	short max_shift = (sizeof(ps_int) * 8) - 1;
275	0	short max_shift32 = (sizeof(ps_int32) * 8) - 1;
276
277	0	check_op(2);
278	0	check_type(*op, t_integer);
279	0	check_type(op[-1], t_integer);
280	0	if ((op->value.intval < -max_shift) \|\| (op->value.intval > max_shift))
281	0	op[-1].value.intval = 0;
282	0	else if (sizeof(ps_int) != 4 && gs_currentcpsimode(imemory) && (op->value.intval < -max_shift32 \|\| op->value.intval > max_shift32))
283	0	op[-1].value.intval = 0;
284	0	else if ((shift = op->value.intval) < 0) {
285	0	if (sizeof(ps_int) != 4 && gs_currentcpsimode(imemory)) {
286	0	ps_int32 val = (ps_int32)(op[-1].value.intval);
287	0	op[-1].value.intval = (ps_int)((uint)(val)) >> -shift;
288	0	}
289	0	else {
290	0	op[-1].value.intval = ((ps_int)(op[-1].value.intval)) >> -shift;
291	0	}
292	0	}
293	0	else {
294	0	if (sizeof(ps_int) != 4 && gs_currentcpsimode(imemory)) {
295	0	ps_int32 val = (ps_int32)(op[-1].value.intval);
296
297	0	op[-1].value.intval = (ps_int)(val << shift);
298	0	}
299	0	else
300	0	op[-1].value.intval <<= shift;
301	0	}
302	0	pop(1);
303	0	return 0;
304	0	}
305
306		/* ------ Extensions ------ */
307
308		/* <obj1> <obj2> .identeq <bool> */
309		static int
310		zidenteq(i_ctx_t *i_ctx_p)
311	0	{
312	0	os_ptr op = osp;
313
314	0	check_op(2);
315	0	EQ_CHECK_READ(op - 1, check_op(2));
316	0	EQ_CHECK_READ(op, DO_NOTHING);
317	0	make_bool(op - 1, (obj_ident_eq(imemory, op - 1, op) ? 1 : 0));
318	0	pop(1);
319	0	return 0;
320
321	0	}
322
323		/* <obj1> <obj2> .identne <bool> */
324		static int
325		zidentne(i_ctx_t *i_ctx_p)
326	0	{
327		/* We'll just be lazy and use .identeq. */
328	0	os_ptr op = osp;
329	0	int code;
330
331	0	check_op(1);
332	0	code = zidenteq(i_ctx_p);
333	0	if (!code)
334	0	osp->value.boolval ^= 1;
335	0	return code;
336	0	}
337
338		/* ------ Initialization procedure ------ */
339
340		const op_def zrelbit_op_defs[] =
341		{
342		{"2and", zand},
343		{"2bitshift", zbitshift},
344		{"2eq", zeq},
345		{"2ge", zge},
346		{"2gt", zgt},
347		{"2le", zle},
348		{"2lt", zlt},
349		{"2.max", zmax},
350		{"2.min", zmin},
351		{"2ne", zne},
352		{"1not", znot},
353		{"2or", zor},
354		{"2xor", zxor},
355		/* Extensions */
356		{"2.identeq", zidenteq},
357		{"2.identne", zidentne},
358		op_def_end(0)
359		};
360
361		/* ------ Internal routines ------ */
362
363		/* Compare two operands (both numeric, or both strings). */
364		/* Return 1 if op[-1] <= op[0], 0 if op[-1] > op[0], */
365		/* or a (negative) error code. */
366		static int
367		obj_le(register os_ptr op1, register os_ptr op)
368	24.2M	{
369	24.2M	switch (r_type(op1)) {
370	13.1M	case t_integer:
371	13.1M	switch (r_type(op)) {
372	12.9M	case t_integer:
373	12.9M	return (op1->value.intval <= op->value.intval);
374	164k	case t_real:
375	164k	return ((double)op1->value.intval <= op->value.realval);
376	0	default:
377	0	return_op_typecheck(op);
378	13.1M	}
379	4.76M	case t_real:
380	4.76M	switch (r_type(op)) {
381	4.76M	case t_real:
382	4.76M	return (op1->value.realval <= op->value.realval);
383	1.51k	case t_integer:
384	1.51k	return (op1->value.realval <= (double)op->value.intval);
385	0	default:
386	0	return_op_typecheck(op);
387	4.76M	}
388	6.38M	case t_string:
389	6.38M	check_read(*op1);
390	6.38M	check_read_type(*op, t_string);
391	6.38M	return (bytes_compare(op1->value.bytes, r_size(op1),
392	6.38M	op->value.bytes, r_size(op)) <= 0);
393	0	default:
394	0	return_op_typecheck(op1);
395	24.2M	}
396	24.2M	}