/src/ghostpdl/base/gsline.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.
*/


/* Line parameter operators for Ghostscript library */
#include "math_.h"
#include "memory_.h"
#include "gx.h"
#include "gserrors.h"
#include "gxfixed.h"    /* ditto */
#include "gxmatrix.h"   /* for gzstate */
#include "gzstate.h"
#include "gscoord.h"    /* for currentmatrix, setmatrix */
#include "gsline.h"   /* for prototypes */
#include "gzline.h"

/* ------ Device-independent parameters ------ */

#define pgs_lp gs_currentlineparams_inline(pgs)

/* setlinewidth */
int
gs_setlinewidth(gs_gstate * pgs, double width)
{
    gx_set_line_width(pgs_lp, width);
    return 0;
}

/* currentlinewidth */
float
gs_currentlinewidth(const gs_gstate * pgs)
{
    return gx_current_line_width(pgs_lp);
}

/* setlinecap (sets all 3 caps) */
int
gs_setlinecap(gs_gstate * pgs, gs_line_cap cap)
{
    if ((uint) cap > gs_line_cap_max)
        return_error(gs_error_rangecheck);
    pgs_lp->start_cap = cap;
    pgs_lp->end_cap   = cap;
    pgs_lp->dash_cap  = cap;
    return 0;
}

/* setlinestartcap */
int
gs_setlinestartcap(gs_gstate * pgs, gs_line_cap cap)
{
    if ((uint) cap > gs_line_cap_max)
        return_error(gs_error_rangecheck);
    pgs_lp->start_cap = cap;
    return 0;
}

/* setlineendcap */
int
gs_setlineendcap(gs_gstate * pgs, gs_line_cap cap)
{
    if ((uint) cap > gs_line_cap_max)
        return_error(gs_error_rangecheck);
    pgs_lp->end_cap = cap;
    return 0;
}

/* setlinedashcap */
int
gs_setlinedashcap(gs_gstate * pgs, gs_line_cap cap)
{
    if ((uint) cap > gs_line_cap_max)
        return_error(gs_error_rangecheck);
    pgs_lp->dash_cap = cap;
    return 0;
}

/* currentlinecap */
gs_line_cap
gs_currentlinecap(const gs_gstate * pgs)
{
    /* This assumes that all caps are the same as start_cap - this will be
     * the case for postscript at least. */
    return pgs_lp->start_cap;
}

/* setlinejoin */
int
gs_setlinejoin(gs_gstate * pgs, gs_line_join join)
{
    if ((uint) join > gs_line_join_max)
        return_error(gs_error_rangecheck);
    pgs_lp->join = join;
    return 0;
}

/* currentlinejoin */
gs_line_join
gs_currentlinejoin(const gs_gstate * pgs)
{
    return pgs_lp->join;
}

/* setmiterlimit */
int
gx_set_miter_limit(gx_line_params * plp, double limit)
{
    if (limit < 1.0)
        return_error(gs_error_rangecheck);
    plp->miter_limit = limit;
    /*
     * Compute the miter check value.  The supplied miter limit is an
     * upper bound on 1/sin(phi/2); we convert this to a lower bound on
     * tan(phi).  Note that if phi > pi/2, this is negative.  We use the
     * half-angle and angle-sum formulas here to avoid the trig functions.
     * We also need a special check for phi/2 close to pi/4.
     * Some C compilers can't handle this as a conditional expression....
     */
    {
        double limit_squared = limit * limit;

        if (limit_squared < 2.0001 && limit_squared > 1.9999)
            plp->miter_check = 1.0e6;
        else
            plp->miter_check =
                sqrt(limit_squared - 1) * 2 / (limit_squared - 2);
    }
    return 0;
}
int
gs_setmiterlimit(gs_gstate * pgs, double limit)
{
    return gx_set_miter_limit(pgs_lp, limit);
}

/* currentmiterlimit */
float
gs_currentmiterlimit(const gs_gstate * pgs)
{
    return pgs_lp->miter_limit;
}

/* setdash */
int
gx_set_dash(gx_dash_params * dash, const float *pattern, uint length,
            double offset, gs_memory_t * mem)
{
    uint n = length;
    const float *dfrom = pattern;
    bool ink = true;
    int index = 0;
    float pattern_length = 0.0;
    float dist_left;
    float *ppat = dash->pattern;

    /* Check the dash pattern. */
    while (n--) {
        float elt = *dfrom++;

        if (elt < 0)
            return_error(gs_error_rangecheck);
        pattern_length += elt;
    }
    if (length == 0) {   /* empty pattern */
        dist_left = 0.0;
        if (mem && ppat) {
            gs_free_object(mem, ppat, "gx_set_dash(old pattern)");
            ppat = NULL;
        }
    } else {
        uint size = length * sizeof(float);

        if (pattern_length == 0)
            return_error(gs_error_rangecheck);
        /* Compute the initial index, ink_on, and distance left */
        /* in the pattern, according to the offset. */
#define f_mod(a, b) ((a) - floor((a) / (b)) * (b))
        if (length & 1) { /* Odd and even repetitions of the pattern */
            /* have opposite ink values! */
            float length2 = pattern_length * 2;

            dist_left = f_mod(offset, length2);
            /* Rounding errors can leave dist_left > length2 */
            dist_left = f_mod(dist_left, length2);
            if (dist_left >= pattern_length)
                dist_left -= pattern_length, ink = !ink;
        } else {
            dist_left = f_mod(offset, pattern_length);
            /* Rounding errors can leave dist_left > length */
            dist_left = f_mod(dist_left, pattern_length);
        }
        if (dist_left > pattern_length)
            return_error(gs_error_rangecheck);
        while ((dist_left -= pattern[index]) >= 0 &&
               (dist_left > 0 || pattern[index] != 0)
            )
            ink = !ink, index++;
        if (mem != NULL) {
            if (ppat == NULL)
                ppat = (float *)gs_alloc_bytes(mem, size,
                                               "gx_set_dash(pattern)");
            else if (length != dash->pattern_size)
                ppat = gs_resize_object(mem, ppat, size,
                                        "gx_set_dash(pattern)");
        }
        if (ppat == NULL)
            return_error(gs_error_VMerror);
        if (ppat != pattern)
            memcpy(ppat, pattern, length * sizeof(float));
    }
    dash->pattern = ppat;
    dash->pattern_size = length;
    dash->offset = offset;
    dash->pattern_length = pattern_length;
    dash->init_ink_on = ink;
    dash->init_index = index;
    dash->init_dist_left = -dist_left;
    return 0;
}
int
gs_setdash(gs_gstate * pgs, const float *pattern, uint length, double offset)
{
    return gx_set_dash(&pgs_lp->dash, pattern, length, offset,
                       pgs->memory);
}

/* currentdash */
uint
gs_currentdash_length(const gs_gstate * pgs)
{
    return pgs_lp->dash.pattern_size;
}
const float *
gs_currentdash_pattern(const gs_gstate * pgs)
{
    return pgs_lp->dash.pattern;
}
float
gs_currentdash_offset(const gs_gstate * pgs)
{
    return pgs_lp->dash.offset;
}

/* Internal accessor for line parameters */
const gx_line_params *
gs_currentlineparams(const gs_gstate * pgs)
{
    return gs_currentlineparams_inline(pgs);
}

/* ------ Device-dependent parameters ------ */

/* setflat */
int
gs_gstate_setflat(gs_gstate * pgs, double flat)
{
    if (flat <= 0.2)
        flat = 0.2;
    else if (flat > 100)
        flat = 100;
    pgs->flatness = flat;
    return 0;
}
int
gs_setflat(gs_gstate * pgs, double flat)
{
    return gs_gstate_setflat(pgs, flat);
}

/* currentflat */
float
gs_currentflat(const gs_gstate * pgs)
{
    return pgs->flatness;
}

/* setstrokeadjust */
int
gs_setstrokeadjust(gs_gstate * pgs, bool stroke_adjust)
{
    pgs->stroke_adjust = stroke_adjust;
    return 0;
}

/* currentstrokeadjust */
bool
gs_currentstrokeadjust(const gs_gstate * pgs)
{
    return pgs->stroke_adjust;
}

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

/* Device-independent */

/* setdashadapt */
void
gs_setdashadapt(gs_gstate * pgs, bool adapt)
{
    pgs_lp->dash.adapt = adapt;
}

/* currentdashadapt */
bool
gs_gstate_currentdashadapt(const gs_gstate * pgs)
{
    return gs_currentlineparams_inline(pgs)->dash.adapt;
}
bool
gs_currentdashadapt(const gs_gstate * pgs)
{
    return gs_gstate_currentdashadapt((const gs_gstate *)pgs);
}

/* setcurvejoin */
int
gs_setcurvejoin(gs_gstate * pgs, int join)
{
    if (join < -1 || join > gs_line_join_max)
        return_error(gs_error_rangecheck);
    pgs_lp->curve_join = join;
    return 0;
}

/* currentcurvejoin */
int
gs_currentcurvejoin(const gs_gstate * pgs)
{
    return pgs_lp->curve_join;
}

/* Device-dependent */

/* setaccuratecurves */
void
gs_setaccuratecurves(gs_gstate * pgs, bool accurate)
{
    pgs->accurate_curves = accurate;
}

/* currentaccuratecurves */
bool
gs_gstate_currentaccuratecurves(const gs_gstate * pgs)
{
    return pgs->accurate_curves;
}
bool
gs_currentaccuratecurves(const gs_gstate * pgs)
{
    return gs_gstate_currentaccuratecurves((const gs_gstate *)pgs);
}

/* setdotlength */
int
gx_set_dot_length(gx_line_params * plp, double length, bool absolute)
{
    if (length < 0)
        return_error(gs_error_rangecheck);
    plp->dot_length = length;
    plp->dot_length_absolute = absolute;
    return 0;
}
int
gs_setdotlength(gs_gstate * pgs, double length, bool absolute)
{
    return gx_set_dot_length(pgs_lp, length, absolute);
}

/* currentdotlength */
float
gs_currentdotlength(const gs_gstate * pgs)
{
    return pgs_lp->dot_length;
}
bool
gs_currentdotlength_absolute(const gs_gstate * pgs)
{
    return pgs_lp->dot_length_absolute;
}

/* setdotorientation */
int
gs_setdotorientation(gs_gstate *pgs)
{
    if (is_xxyy(&pgs->ctm) || is_xyyx(&pgs->ctm))
        return gs_currentmatrix(pgs, &pgs_lp->dot_orientation);
    return_error(gs_error_rangecheck);
}

/* dotorientation */
int
gs_dotorientation(gs_gstate *pgs)
{
    return gs_setmatrix(pgs, &pgs_lp->dot_orientation);
}

Coverage Report

Created: 2025-06-10 07:24

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		/* Line parameter operators for Ghostscript library */
18		#include "math_.h"
19		#include "memory_.h"
20		#include "gx.h"
21		#include "gserrors.h"
22		#include "gxfixed.h" /* ditto */
23		#include "gxmatrix.h" /* for gzstate */
24		#include "gzstate.h"
25		#include "gscoord.h" /* for currentmatrix, setmatrix */
26		#include "gsline.h" /* for prototypes */
27		#include "gzline.h"
28
29		/* ------ Device-independent parameters ------ */
30
31	1.20M	#define pgs_lp gs_currentlineparams_inline(pgs)
32
33		/* setlinewidth */
34		int
35		gs_setlinewidth(gs_gstate * pgs, double width)
36	256k	{
37	256k	gx_set_line_width(pgs_lp, width);
38	256k	return 0;
39	256k	}
40
41		/* currentlinewidth */
42		float
43		gs_currentlinewidth(const gs_gstate * pgs)
44	7	{
45	7	return gx_current_line_width(pgs_lp);
46	7	}
47
48		/* setlinecap (sets all 3 caps) */
49		int
50		gs_setlinecap(gs_gstate * pgs, gs_line_cap cap)
51	66.6k	{
52	66.6k	if ((uint) cap > gs_line_cap_max)
53	2.07k	return_error(gs_error_rangecheck);
54	64.5k	pgs_lp->start_cap = cap;
55	64.5k	pgs_lp->end_cap = cap;
56	64.5k	pgs_lp->dash_cap = cap;
57	64.5k	return 0;
58	66.6k	}
59
60		/* setlinestartcap */
61		int
62		gs_setlinestartcap(gs_gstate * pgs, gs_line_cap cap)
63	91.4k	{
64	91.4k	if ((uint) cap > gs_line_cap_max)
65	0	return_error(gs_error_rangecheck);
66	91.4k	pgs_lp->start_cap = cap;
67	91.4k	return 0;
68	91.4k	}
69
70		/* setlineendcap */
71		int
72		gs_setlineendcap(gs_gstate * pgs, gs_line_cap cap)
73	91.4k	{
74	91.4k	if ((uint) cap > gs_line_cap_max)
75	0	return_error(gs_error_rangecheck);
76	91.4k	pgs_lp->end_cap = cap;
77	91.4k	return 0;
78	91.4k	}
79
80		/* setlinedashcap */
81		int
82		gs_setlinedashcap(gs_gstate * pgs, gs_line_cap cap)
83	91.4k	{
84	91.4k	if ((uint) cap > gs_line_cap_max)
85	0	return_error(gs_error_rangecheck);
86	91.4k	pgs_lp->dash_cap = cap;
87	91.4k	return 0;
88	91.4k	}
89
90		/* currentlinecap */
91		gs_line_cap
92		gs_currentlinecap(const gs_gstate * pgs)
93	24	{
94		/* This assumes that all caps are the same as start_cap - this will be
95		* the case for postscript at least. */
96	24	return pgs_lp->start_cap;
97	24	}
98
99		/* setlinejoin */
100		int
101		gs_setlinejoin(gs_gstate * pgs, gs_line_join join)
102	140k	{
103	140k	if ((uint) join > gs_line_join_max)
104	1.54k	return_error(gs_error_rangecheck);
105	139k	pgs_lp->join = join;
106	139k	return 0;
107	140k	}
108
109		/* currentlinejoin */
110		gs_line_join
111		gs_currentlinejoin(const gs_gstate * pgs)
112	8	{
113	8	return pgs_lp->join;
114	8	}
115
116		/* setmiterlimit */
117		int
118		gx_set_miter_limit(gx_line_params * plp, double limit)
119	95.6k	{
120	95.6k	if (limit < 1.0)
121	4	return_error(gs_error_rangecheck);
122	95.6k	plp->miter_limit = limit;
123		/*
124		* Compute the miter check value. The supplied miter limit is an
125		* upper bound on 1/sin(phi/2); we convert this to a lower bound on
126		* tan(phi). Note that if phi > pi/2, this is negative. We use the
127		* half-angle and angle-sum formulas here to avoid the trig functions.
128		* We also need a special check for phi/2 close to pi/4.
129		* Some C compilers can't handle this as a conditional expression....
130		*/
131	95.6k	{
132	95.6k	double limit_squared = limit * limit;
133
134	95.6k	if (limit_squared < 2.0001 && limit_squared > 1.9999)
135	0	plp->miter_check = 1.0e6;
136	95.6k	else
137	95.6k	plp->miter_check =
138	95.6k	sqrt(limit_squared - 1) * 2 / (limit_squared - 2);
139	95.6k	}
140	95.6k	return 0;
141	95.6k	}
142		int
143		gs_setmiterlimit(gs_gstate * pgs, double limit)
144	93.8k	{
145	93.8k	return gx_set_miter_limit(pgs_lp, limit);
146	93.8k	}
147
148		/* currentmiterlimit */
149		float
150		gs_currentmiterlimit(const gs_gstate * pgs)
151	0	{
152	0	return pgs_lp->miter_limit;
153	0	}
154
155		/* setdash */
156		int
157		gx_set_dash(gx_dash_params * dash, const float *pattern, uint length,
158		double offset, gs_memory_t * mem)
159	251k	{
160	251k	uint n = length;
161	251k	const float *dfrom = pattern;
162	251k	bool ink = true;
163	251k	int index = 0;
164	251k	float pattern_length = 0.0;
165	251k	float dist_left;
166	251k	float *ppat = dash->pattern;
167
168		/* Check the dash pattern. */
169	393k	while (n--) {
170	141k	float elt = *dfrom++;
171
172	141k	if (elt < 0)
173	0	return_error(gs_error_rangecheck);
174	141k	pattern_length += elt;
175	141k	}
176	251k	if (length == 0) { /* empty pattern */
177	155k	dist_left = 0.0;
178	155k	if (mem && ppat) {
179	3.30k	gs_free_object(mem, ppat, "gx_set_dash(old pattern)");
180	3.30k	ppat = NULL;
181	3.30k	}
182	155k	} else {
183	96.0k	uint size = length * sizeof(float);
184
185	96.0k	if (pattern_length == 0)
186	115	return_error(gs_error_rangecheck);
187		/* Compute the initial index, ink_on, and distance left */
188		/* in the pattern, according to the offset. */
189	191k	#define f_mod(a, b) ((a) - floor((a) / (b)) * (b))
190	95.9k	if (length & 1) { /* Odd and even repetitions of the pattern */
191		/* have opposite ink values! */
192	73.0k	float length2 = pattern_length * 2;
193
194	73.0k	dist_left = f_mod(offset, length2);
195		/* Rounding errors can leave dist_left > length2 */
196	73.0k	dist_left = f_mod(dist_left, length2);
197	73.0k	if (dist_left >= pattern_length)
198	0	dist_left -= pattern_length, ink = !ink;
199	73.0k	} else {
200	22.9k	dist_left = f_mod(offset, pattern_length);
201		/* Rounding errors can leave dist_left > length */
202	22.9k	dist_left = f_mod(dist_left, pattern_length);
203	22.9k	}
204	95.9k	if (dist_left > pattern_length)
205	0	return_error(gs_error_rangecheck);
206	95.9k	while ((dist_left -= pattern[index]) >= 0 &&
207	95.9k	(dist_left > 0 \|\| pattern[index] != 0)
208	95.9k	)
209	24	ink = !ink, index++;
210	95.9k	if (mem != NULL) {
211	26.7k	if (ppat == NULL)
212	25.1k	ppat = (float *)gs_alloc_bytes(mem, size,
213	26.7k	"gx_set_dash(pattern)");
214	1.62k	else if (length != dash->pattern_size)
215	3	ppat = gs_resize_object(mem, ppat, size,
216	26.7k	"gx_set_dash(pattern)");
217	26.7k	}
218	95.9k	if (ppat == NULL)
219	0	return_error(gs_error_VMerror);
220	95.9k	if (ppat != pattern)
221	28.2k	memcpy(ppat, pattern, length * sizeof(float));
222	95.9k	}
223	251k	dash->pattern = ppat;
224	251k	dash->pattern_size = length;
225	251k	dash->offset = offset;
226	251k	dash->pattern_length = pattern_length;
227	251k	dash->init_ink_on = ink;
228	251k	dash->init_index = index;
229	251k	dash->init_dist_left = -dist_left;
230	251k	return 0;
231	251k	}
232		int
233		gs_setdash(gs_gstate * pgs, const float *pattern, uint length, double offset)
234	135k	{
235	135k	return gx_set_dash(&pgs_lp->dash, pattern, length, offset,
236	135k	pgs->memory);
237	135k	}
238
239		/* currentdash */
240		uint
241		gs_currentdash_length(const gs_gstate * pgs)
242	0	{
243	0	return pgs_lp->dash.pattern_size;
244	0	}
245		const float *
246		gs_currentdash_pattern(const gs_gstate * pgs)
247	0	{
248	0	return pgs_lp->dash.pattern;
249	0	}
250		float
251		gs_currentdash_offset(const gs_gstate * pgs)
252	6	{
253	6	return pgs_lp->dash.offset;
254	6	}
255
256		/* Internal accessor for line parameters */
257		const gx_line_params *
258		gs_currentlineparams(const gs_gstate * pgs)
259	3.99k	{
260	3.99k	return gs_currentlineparams_inline(pgs);
261	3.99k	}
262
263		/* ------ Device-dependent parameters ------ */
264
265		/* setflat */
266		int
267		gs_gstate_setflat(gs_gstate * pgs, double flat)
268	56.6k	{
269	56.6k	if (flat <= 0.2)
270	21.1k	flat = 0.2;
271	35.5k	else if (flat > 100)
272	0	flat = 100;
273	56.6k	pgs->flatness = flat;
274	56.6k	return 0;
275	56.6k	}
276		int
277		gs_setflat(gs_gstate * pgs, double flat)
278	42.0k	{
279	42.0k	return gs_gstate_setflat(pgs, flat);
280	42.0k	}
281
282		/* currentflat */
283		float
284		gs_currentflat(const gs_gstate * pgs)
285	7	{
286	7	return pgs->flatness;
287	7	}
288
289		/* setstrokeadjust */
290		int
291		gs_setstrokeadjust(gs_gstate * pgs, bool stroke_adjust)
292	41.6k	{
293	41.6k	pgs->stroke_adjust = stroke_adjust;
294	41.6k	return 0;
295	41.6k	}
296
297		/* currentstrokeadjust */
298		bool
299		gs_currentstrokeadjust(const gs_gstate * pgs)
300	0	{
301	0	return pgs->stroke_adjust;
302	0	}
303
304		/* ------ Extensions ------ */
305
306		/* Device-independent */
307
308		/* setdashadapt */
309		void
310		gs_setdashadapt(gs_gstate * pgs, bool adapt)
311	91.4k	{
312	91.4k	pgs_lp->dash.adapt = adapt;
313	91.4k	}
314
315		/* currentdashadapt */
316		bool
317		gs_gstate_currentdashadapt(const gs_gstate * pgs)
318	52.7k	{
319	52.7k	return gs_currentlineparams_inline(pgs)->dash.adapt;
320	52.7k	}
321		bool
322		gs_currentdashadapt(const gs_gstate * pgs)
323	0	{
324	0	return gs_gstate_currentdashadapt((const gs_gstate *)pgs);
325	0	}
326
327		/* setcurvejoin */
328		int
329		gs_setcurvejoin(gs_gstate * pgs, int join)
330	91.4k	{
331	91.4k	if (join < -1 \|\| join > gs_line_join_max)
332	0	return_error(gs_error_rangecheck);
333	91.4k	pgs_lp->curve_join = join;
334	91.4k	return 0;
335	91.4k	}
336
337		/* currentcurvejoin */
338		int
339		gs_currentcurvejoin(const gs_gstate * pgs)
340	0	{
341	0	return pgs_lp->curve_join;
342	0	}
343
344		/* Device-dependent */
345
346		/* setaccuratecurves */
347		void
348		gs_setaccuratecurves(gs_gstate * pgs, bool accurate)
349	91.4k	{
350	91.4k	pgs->accurate_curves = accurate;
351	91.4k	}
352
353		/* currentaccuratecurves */
354		bool
355		gs_gstate_currentaccuratecurves(const gs_gstate * pgs)
356	0	{
357	0	return pgs->accurate_curves;
358	0	}
359		bool
360		gs_currentaccuratecurves(const gs_gstate * pgs)
361	0	{
362	0	return gs_gstate_currentaccuratecurves((const gs_gstate *)pgs);
363	0	}
364
365		/* setdotlength */
366		int
367		gx_set_dot_length(gx_line_params * plp, double length, bool absolute)
368	184k	{
369	184k	if (length < 0)
370	0	return_error(gs_error_rangecheck);
371	184k	plp->dot_length = length;
372	184k	plp->dot_length_absolute = absolute;
373	184k	return 0;
374	184k	}
375		int
376		gs_setdotlength(gs_gstate * pgs, double length, bool absolute)
377	91.4k	{
378	91.4k	return gx_set_dot_length(pgs_lp, length, absolute);
379	91.4k	}
380
381		/* currentdotlength */
382		float
383		gs_currentdotlength(const gs_gstate * pgs)
384	0	{
385	0	return pgs_lp->dot_length;
386	0	}
387		bool
388		gs_currentdotlength_absolute(const gs_gstate * pgs)
389	0	{
390	0	return pgs_lp->dot_length_absolute;
391	0	}
392
393		/* setdotorientation */
394		int
395		gs_setdotorientation(gs_gstate *pgs)
396	91.4k	{
397	91.4k	if (is_xxyy(&pgs->ctm) \|\| is_xyyx(&pgs->ctm))
398	91.4k	return gs_currentmatrix(pgs, &pgs_lp->dot_orientation);
399	91.4k	return_error(gs_error_rangecheck);
400	91.4k	}
401
402		/* dotorientation */
403		int
404		gs_dotorientation(gs_gstate *pgs)
405	0	{
406	0	return gs_setmatrix(pgs, &pgs_lp->dot_orientation);
407	0	}