/src/ghostpdl/base/gximage.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.
*/


/* Generic image support */
#include "memory_.h"
#include "gx.h"
#include "gscspace.h"
#include "gserrors.h"
#include "gsmatrix.h"
#include "gsutil.h"
#include "gxcolor2.h"   /* for lookup map */
#include "gxiparam.h"
#include "stream.h"

/* ---------------- Generic image support ---------------- */

/* Structure descriptors */
public_st_gs_data_image();
public_st_gs_pixel_image();

/* Initialize the common parts of image structures. */
void
gs_image_common_t_init(gs_image_common_t * pic)
{
    gs_make_identity(&pic->ImageMatrix);
    pic->imagematrices_are_untrustworthy = false;
}
void
gs_data_image_t_init(gs_data_image_t * pim, int num_components)
{
    int i;

    gs_image_common_t_init((gs_image_common_t *) pim);
    pim->Width = pim->Height = 0;
    pim->BitsPerComponent = 1;
    if (num_components >= 0) {
        for (i = 0; i < num_components * 2; i += 2)
            pim->Decode[i] = 0, pim->Decode[i + 1] = 1;
    } else {
        for (i = 0; i < num_components * -2; i += 2)
            pim->Decode[i] = 1, pim->Decode[i + 1] = 0;
    }
    pim->Interpolate = false;
    pim->imagematrices_are_untrustworthy = false;
}
void
gs_pixel_image_t_init(gs_pixel_image_t * pim,
                      gs_color_space * color_space)
{
    int num_components;

    if (color_space == 0 ||
        (num_components =
         gs_color_space_num_components(color_space)) < 0
        )
        num_components = 0;
    gs_data_image_t_init((gs_data_image_t *) pim, num_components);
    pim->format = gs_image_format_chunky;
    pim->ColorSpace = color_space;
    pim->CombineWithColor = false;
    pim->override_in_smask = 0;
}

/* Initialize the common part of an image-processing enumerator. */
int
gx_image_enum_common_init(gx_image_enum_common_t * piec,
                          const gs_data_image_t * pic,
                          const gx_image_enum_procs_t * piep,
                          gx_device * dev, int num_components,
                          gs_image_format_t format)
{
    int bpc = pic->BitsPerComponent;
    int i;

    piec->image_type = pic->type;
    piec->procs = piep;
    piec->dev = dev;
    piec->id = gs_next_ids(dev->memory, 1);
    piec->skipping = false;
    piec->pgs = NULL;

    switch (format) {
        case gs_image_format_chunky:
            piec->num_planes = 1;
            piec->plane_depths[0] = bpc * num_components;
            break;
        case gs_image_format_component_planar:
            piec->num_planes = num_components;
            for (i = 0; i < num_components; ++i)
                piec->plane_depths[i] = bpc;
            break;
        case gs_image_format_bit_planar:
            piec->num_planes = bpc * num_components;
            for (i = 0; i < piec->num_planes; ++i)
                piec->plane_depths[i] = 1;
            break;
        default:
            return_error(gs_error_rangecheck);
    }
    for (i = 0; i < piec->num_planes; ++i)
        piec->plane_widths[i] = pic->Width;
    return 0;
}

/* Process the next piece of an image with no source data. */
/* This procedure should never be called. */
int
gx_no_plane_data(gx_image_enum_common_t * info,
                 const gx_image_plane_t * planes, int height,
                 int *height_used)
{
    return_error(gs_error_Fatal);
}

/* Clean up after processing an image with no source data. */
/* This procedure may be called, but should do nothing. */
int
gx_ignore_end_image(gx_image_enum_common_t * info, bool draw_last)
{
    return 0;
}

/* ---------------- Client procedures ---------------- */

int
gx_image_data(gx_image_enum_common_t * info, const byte ** plane_data,
              int data_x, uint raster, int height)
{
    int num_planes = info->num_planes;
    gx_image_plane_t planes[GS_IMAGE_MAX_COMPONENTS];
    int i;

#ifdef DEBUG
    if (num_planes > GS_IMAGE_MAX_COMPONENTS) {
        lprintf2("num_planes=%d > GS_IMAGE_MAX_COMPONENTS=%d!\n",
                 num_planes, GS_IMAGE_MAX_COMPONENTS);
        return_error(gs_error_Fatal);
    }
#endif
    for (i = 0; i < num_planes; ++i) {
        planes[i].data = plane_data[i];
        planes[i].data_x = data_x;
        planes[i].raster = raster;
    }
    return gx_image_plane_data(info, planes, height);
}

int
gx_image_plane_data(gx_image_enum_common_t * info,
                    const gx_image_plane_t * planes, int height)
{
    int ignore_rows_used;

    return gx_image_plane_data_rows(info, planes, height, &ignore_rows_used);
}

int
gx_image_plane_data_rows(gx_image_enum_common_t * info,
                         const gx_image_plane_t * planes, int height,
                         int *rows_used)
{
    return info->procs->plane_data(info, planes, height, rows_used);
}

int
gx_image_flush(gx_image_enum_common_t * info)
{
    int (*flush)(gx_image_enum_common_t *) = info->procs->flush;

    return (flush ? flush(info) : 0);
}

bool
gx_image_planes_wanted(const gx_image_enum_common_t *info, byte *wanted)
{
    bool (*planes_wanted)(const gx_image_enum_common_t *, byte *) =
        info->procs->planes_wanted;

    if (planes_wanted)
        return planes_wanted(info, wanted);
    else {
        memset(wanted, 0xff, info->num_planes);
        return true;
    }
}

int
gx_image_end(gx_image_enum_common_t * info, bool draw_last)
{
    return info->procs->end_image(info, draw_last);
}

/* ---------------- Serialization ---------------- */

/*
 * Define dummy sput/sget/release procedures for image types that don't
 * implement these functions.
 */

int
gx_image_no_sput(const gs_image_common_t *pic, stream *s,
                 const gs_color_space **ppcs)
{
    return_error(gs_error_rangecheck);
}

int
gx_image_no_sget(gs_image_common_t *pic, stream *s,
                 gs_color_space *pcs)
{
    return_error(gs_error_rangecheck);
}

void
gx_image_default_release(gs_image_common_t *pic, gs_memory_t *mem)
{
    gs_free_object(mem, pic, "gx_image_default_release");
}

#ifdef DEBUG
static void
debug_b_print_matrix(const gs_pixel_image_t *pim)
{
    if_debug6('b', "      ImageMatrix=[%g %g %g %g %g %g]\n",
              pim->ImageMatrix.xx, pim->ImageMatrix.xy,
              pim->ImageMatrix.yx, pim->ImageMatrix.yy,
              pim->ImageMatrix.tx, pim->ImageMatrix.ty);
}
static void
debug_b_print_decode(const gs_pixel_image_t *pim, int num_decode)
{
    if (gs_debug_c('b')) {
        const char *str = "      Decode=[";
        int i;

        for (i = 0; i < num_decode; str = " ", ++i)
            dprintf2("%s%g", str, pim->Decode[i]);
        dputs("]\n");
    }
}
#else
#  define debug_b_print_matrix(pim) DO_NOTHING
#  define debug_b_print_decode(pim, num_decode) DO_NOTHING
#endif

/* Test whether an image has a default ImageMatrix. */
bool
gx_image_matrix_is_default(const gs_data_image_t *pid)
{
    return (is_xxyy(&pid->ImageMatrix) &&
            pid->ImageMatrix.xx == pid->Width &&
            pid->ImageMatrix.yy == -pid->Height &&
            is_fzero(pid->ImageMatrix.tx) &&
            pid->ImageMatrix.ty == pid->Height);
}

/* Put a variable-length uint on a stream. */
void
sput_variable_uint(stream *s, uint w)
{
    for (; w > 0x7f; w >>= 7)
        sputc(s, (byte)(w | 0x80));
    sputc(s, (byte)w);
}

/*
 * Write generic pixel image parameters.  The format is the following,
 * encoded as a variable-length uint in the usual way:
 *  xxxFEDCCBBBBA
 *      A = 0 if standard ImageMatrix, 1 if explicit ImageMatrix
 *      BBBB = BitsPerComponent - 1
 *      CC = format
 *      D = 0 if standard (0..1) Decode, 1 if explicit Decode
 *      E = Interpolate
 *      F = CombineWithColor
 *      xxx = extra information from caller
 */
#define PI_ImageMatrix 0x001
#define PI_BPC_SHIFT 1
#define PI_BPC_MASK 0xf
#define PI_FORMAT_SHIFT 5
#define PI_FORMAT_MASK 0x3
#define PI_Decode 0x080
#define PI_Interpolate 0x100
#define PI_CombineWithColor 0x200
#define PI_BITS 10
/*
 *  Width, encoded as a variable-length uint
 *  Height, encoded ditto
 *  ImageMatrix (if A = 1), per gs_matrix_store/fetch
 *  Decode (if D = 1): blocks of up to 4 components
 *      aabbccdd, where each xx is decoded as:
 *    00 = default, 01 = swapped default,
 *    10 = (0,V), 11 = (U,V)
 *      non-defaulted components (up to 8 floats)
 */
int
gx_pixel_image_sput(const gs_pixel_image_t *pim, stream *s,
                    const gs_color_space **ppcs, int extra)
{
    const gs_color_space *pcs = pim->ColorSpace;
    int bpc = pim->BitsPerComponent;
    int num_components = gs_color_space_num_components(pcs);
    int num_decode;
    uint control = extra << PI_BITS;
    float decode_default_1 = 1;
    int i;
    uint ignore;

    /* Construct the control word. */

    if (!gx_image_matrix_is_default((const gs_data_image_t *)pim))
        control |= PI_ImageMatrix;
    switch (pim->format) {
    case gs_image_format_chunky:
    case gs_image_format_component_planar:
        switch (bpc) {
        case 1: case 2: case 4: case 8: case 12: case 16: break;
        default: return_error(gs_error_rangecheck);
        }
        break;
    case gs_image_format_bit_planar:
        if (bpc < 1 || bpc > 8)
            return_error(gs_error_rangecheck);
    }
    control |= (bpc - 1) << PI_BPC_SHIFT;
    control |= pim->format << PI_FORMAT_SHIFT;
    num_decode = num_components * 2;
    if (gs_color_space_get_index(pcs) == gs_color_space_index_Indexed)
        decode_default_1 = (float)pcs->params.indexed.hival;
    for (i = 0; i < num_decode; ++i)
        if (pim->Decode[i] != DECODE_DEFAULT(i, decode_default_1)) {
            control |= PI_Decode;
            break;
        }
    if (pim->Interpolate)
        control |= PI_Interpolate;
    if (pim->CombineWithColor)
        control |= PI_CombineWithColor;

    /* Write the encoding on the stream. */

    if_debug3('b', "[b]put control=0x%x, Width=%d, Height=%d\n",
              control, pim->Width, pim->Height);
    sput_variable_uint(s, control);
    sput_variable_uint(s, (uint)pim->Width);
    sput_variable_uint(s, (uint)pim->Height);
    if (control & PI_ImageMatrix) {
        debug_b_print_matrix(pim);
        sput_matrix(s, &pim->ImageMatrix);
    }
    if (control & PI_Decode) {
        int i;
        uint dflags = 1;
        float decode[8];
        int di = 0;

        debug_b_print_decode(pim, num_decode);
        for (i = 0; i < num_decode; i += 2) {
            float u = pim->Decode[i], v = pim->Decode[i + 1];
            float dv = DECODE_DEFAULT(i + 1, decode_default_1);

            if (dflags >= 0x100) {
                sputc(s, (byte)(dflags & 0xff));
                sputs(s, (const byte *)decode, di * sizeof(float), &ignore);
                dflags = 1;
                di = 0;
            }
            dflags <<= 2;
            if (u == 0 && v == dv)
                DO_NOTHING;
            else if (u == dv && v == 0)
                dflags += 1;
            else {
                if (u != 0) {
                    dflags++;
                    decode[di++] = u;
                }
                dflags += 2;
                decode[di++] = v;
            }
        }
        sputc(s, (byte)((dflags << (8 - num_decode)) & 0xff));
        sputs(s, (const byte *)decode, di * sizeof(float), &ignore);
    }
    *ppcs = pcs;
    return 0;
}

/* Set an image's ImageMatrix to the default. */
void
gx_image_matrix_set_default(gs_data_image_t *pid)
{
    pid->ImageMatrix.xx = (float)pid->Width;
    pid->ImageMatrix.xy = 0;
    pid->ImageMatrix.yx = 0;
    pid->ImageMatrix.yy = (float)-pid->Height;
    pid->ImageMatrix.tx = 0;
    pid->ImageMatrix.ty = (float)pid->Height;
}

/* Get a variable-length uint from a stream. */
int
sget_variable_uint(stream *s, uint *pw)
{
    uint w = 0;
    int shift = 0;
    int ch;

    for (; (ch = sgetc(s)) >= 0x80; shift += 7)
        w += (ch & 0x7f) << shift;
    if (ch < 0)
        return_error(gs_error_ioerror);
    *pw = w + (ch << shift);
    return 0;
}

/*
 * Read generic pixel image parameters.
 */
int
gx_pixel_image_sget(gs_pixel_image_t *pim, stream *s,
                    gs_color_space *pcs)
{
    uint control;
    float decode_default_1 = 1;
    int num_components, num_decode;
    int i;
    int code;
    uint ignore;

    if ((code = sget_variable_uint(s, &control)) < 0 ||
        (code = sget_variable_uint(s, (uint *)&pim->Width)) < 0 ||
        (code = sget_variable_uint(s, (uint *)&pim->Height)) < 0
        )
        return code;
    if_debug3('b', "[b]get control=0x%x, Width=%d, Height=%d\n",
              control, pim->Width, pim->Height);
    if (control & PI_ImageMatrix) {
        if ((code = sget_matrix(s, &pim->ImageMatrix)) < 0)
            return code;
        debug_b_print_matrix(pim);
    } else
        gx_image_matrix_set_default((gs_data_image_t *)pim);
    pim->BitsPerComponent = ((control >> PI_BPC_SHIFT) & PI_BPC_MASK) + 1;
    pim->format = (control >> PI_FORMAT_SHIFT) & PI_FORMAT_MASK;
    pim->ColorSpace = pcs;
    num_components = gs_color_space_num_components(pcs);
    num_decode = num_components * 2;
    if (gs_color_space_get_index(pcs) == gs_color_space_index_Indexed)
        decode_default_1 = (float)pcs->params.indexed.hival;
    if (control & PI_Decode) {
        uint dflags = 0x10000;
        float *dp = pim->Decode;

        for (i = 0; i < num_decode; i += 2, dp += 2, dflags <<= 2) {
            if (dflags >= 0x10000) {
                dflags = sgetc(s) + 0x100;
                if (dflags < 0x100)
                    return_error(gs_error_ioerror);
            }
            switch (dflags & 0xc0) {
            case 0x00:
                dp[0] = 0, dp[1] = DECODE_DEFAULT(i + 1, decode_default_1);
                break;
            case 0x40:
                dp[0] = DECODE_DEFAULT(i + 1, decode_default_1), dp[1] = 0;
                break;
            case 0x80:
                dp[0] = 0;
                if (sgets(s, (byte *)(dp + 1), sizeof(float), &ignore) < 0)
                    return_error(gs_error_ioerror);
                break;
            case 0xc0:
                if (sgets(s, (byte *)dp, sizeof(float) * 2, &ignore) < 0)
                    return_error(gs_error_ioerror);
                break;
            }
        }
        debug_b_print_decode(pim, num_decode);
    } else {
        for (i = 0; i < num_decode; ++i)
            pim->Decode[i] = DECODE_DEFAULT(i, decode_default_1);
    }
    pim->Interpolate = (control & PI_Interpolate) != 0;
    pim->CombineWithColor = (control & PI_CombineWithColor) != 0;
    return control >> PI_BITS;
}

/*
 * Release a pixel image object.  Currently this just frees the object.
 */
void
gx_pixel_image_release(gs_pixel_image_t *pic, gs_memory_t *mem)
{
    gx_image_default_release((gs_image_common_t *)pic, mem);
}

Coverage Report

Created: 2025-06-10 06:59

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		/* Generic image support */
18		#include "memory_.h"
19		#include "gx.h"
20		#include "gscspace.h"
21		#include "gserrors.h"
22		#include "gsmatrix.h"
23		#include "gsutil.h"
24		#include "gxcolor2.h" /* for lookup map */
25		#include "gxiparam.h"
26		#include "stream.h"
27
28		/* ---------------- Generic image support ---------------- */
29
30		/* Structure descriptors */
31		public_st_gs_data_image();
32		public_st_gs_pixel_image();
33
34		/* Initialize the common parts of image structures. */
35		void
36		gs_image_common_t_init(gs_image_common_t * pic)
37	171k	{
38	171k	gs_make_identity(&pic->ImageMatrix);
39	171k	pic->imagematrices_are_untrustworthy = false;
40	171k	}
41		void
42		gs_data_image_t_init(gs_data_image_t * pim, int num_components)
43	171k	{
44	171k	int i;
45
46	171k	gs_image_common_t_init((gs_image_common_t *) pim);
47	171k	pim->Width = pim->Height = 0;
48	171k	pim->BitsPerComponent = 1;
49	171k	if (num_components >= 0) {
50	327k	for (i = 0; i < num_components * 2; i += 2)
51	156k	pim->Decode[i] = 0, pim->Decode[i + 1] = 1;
52	171k	} else {
53	58	for (i = 0; i < num_components * -2; i += 2)
54	29	pim->Decode[i] = 1, pim->Decode[i + 1] = 0;
55	29	}
56	171k	pim->Interpolate = false;
57	171k	pim->imagematrices_are_untrustworthy = false;
58	171k	}
59		void
60		gs_pixel_image_t_init(gs_pixel_image_t * pim,
61		gs_color_space * color_space)
62	171k	{
63	171k	int num_components;
64
65	171k	if (color_space == 0 \|\|
66	171k	(num_components =
67	85.4k	gs_color_space_num_components(color_space)) < 0
68	171k	)
69	85.7k	num_components = 0;
70	171k	gs_data_image_t_init((gs_data_image_t *) pim, num_components);
71	171k	pim->format = gs_image_format_chunky;
72	171k	pim->ColorSpace = color_space;
73	171k	pim->CombineWithColor = false;
74	171k	pim->override_in_smask = 0;
75	171k	}
76
77		/* Initialize the common part of an image-processing enumerator. */
78		int
79		gx_image_enum_common_init(gx_image_enum_common_t * piec,
80		const gs_data_image_t * pic,
81		const gx_image_enum_procs_t * piep,
82		gx_device * dev, int num_components,
83		gs_image_format_t format)
84	234k	{
85	234k	int bpc = pic->BitsPerComponent;
86	234k	int i;
87
88	234k	piec->image_type = pic->type;
89	234k	piec->procs = piep;
90	234k	piec->dev = dev;
91	234k	piec->id = gs_next_ids(dev->memory, 1);
92	234k	piec->skipping = false;
93	234k	piec->pgs = NULL;
94
95	234k	switch (format) {
96	234k	case gs_image_format_chunky:
97	234k	piec->num_planes = 1;
98	234k	piec->plane_depths[0] = bpc * num_components;
99	234k	break;
100	0	case gs_image_format_component_planar:
101	0	piec->num_planes = num_components;
102	0	for (i = 0; i < num_components; ++i)
103	0	piec->plane_depths[i] = bpc;
104	0	break;
105	0	case gs_image_format_bit_planar:
106	0	piec->num_planes = bpc * num_components;
107	0	for (i = 0; i < piec->num_planes; ++i)
108	0	piec->plane_depths[i] = 1;
109	0	break;
110	0	default:
111	0	return_error(gs_error_rangecheck);
112	234k	}
113	468k	for (i = 0; i < piec->num_planes; ++i)
114	234k	piec->plane_widths[i] = pic->Width;
115	234k	return 0;
116	234k	}
117
118		/* Process the next piece of an image with no source data. */
119		/* This procedure should never be called. */
120		int
121		gx_no_plane_data(gx_image_enum_common_t * info,
122		const gx_image_plane_t * planes, int height,
123		int *height_used)
124	0	{
125	0	return_error(gs_error_Fatal);
126	0	}
127
128		/* Clean up after processing an image with no source data. */
129		/* This procedure may be called, but should do nothing. */
130		int
131		gx_ignore_end_image(gx_image_enum_common_t * info, bool draw_last)
132	0	{
133	0	return 0;
134	0	}
135
136		/* ---------------- Client procedures ---------------- */
137
138		int
139		gx_image_data(gx_image_enum_common_t * info, const byte ** plane_data,
140		int data_x, uint raster, int height)
141	0	{
142	0	int num_planes = info->num_planes;
143	0	gx_image_plane_t planes[GS_IMAGE_MAX_COMPONENTS];
144	0	int i;
145
146		#ifdef DEBUG
147		if (num_planes > GS_IMAGE_MAX_COMPONENTS) {
148		lprintf2("num_planes=%d > GS_IMAGE_MAX_COMPONENTS=%d!\n",
149		num_planes, GS_IMAGE_MAX_COMPONENTS);
150		return_error(gs_error_Fatal);
151		}
152		#endif
153	0	for (i = 0; i < num_planes; ++i) {
154	0	planes[i].data = plane_data[i];
155	0	planes[i].data_x = data_x;
156	0	planes[i].raster = raster;
157	0	}
158	0	return gx_image_plane_data(info, planes, height);
159	0	}
160
161		int
162		gx_image_plane_data(gx_image_enum_common_t * info,
163		const gx_image_plane_t * planes, int height)
164	230k	{
165	230k	int ignore_rows_used;
166
167	230k	return gx_image_plane_data_rows(info, planes, height, &ignore_rows_used);
168	230k	}
169
170		int
171		gx_image_plane_data_rows(gx_image_enum_common_t * info,
172		const gx_image_plane_t * planes, int height,
173		int *rows_used)
174	2.79M	{
175	2.79M	return info->procs->plane_data(info, planes, height, rows_used);
176	2.79M	}
177
178		int
179		gx_image_flush(gx_image_enum_common_t * info)
180	158k	{
181	158k	int (flush)(gx_image_enum_common_t ) = info->procs->flush;
182
183	158k	return (flush ? flush(info) : 0);
184	158k	}
185
186		bool
187		gx_image_planes_wanted(const gx_image_enum_common_t info, byte wanted)
188	88.8k	{
189	88.8k	bool (planes_wanted)(const gx_image_enum_common_t , byte *) =
190	88.8k	info->procs->planes_wanted;
191
192	88.8k	if (planes_wanted)
193	4.38k	return planes_wanted(info, wanted);
194	84.4k	else {
195	84.4k	memset(wanted, 0xff, info->num_planes);
196	84.4k	return true;
197	84.4k	}
198	88.8k	}
199
200		int
201		gx_image_end(gx_image_enum_common_t * info, bool draw_last)
202	138k	{
203	138k	return info->procs->end_image(info, draw_last);
204	138k	}
205
206		/* ---------------- Serialization ---------------- */
207
208		/*
209		* Define dummy sput/sget/release procedures for image types that don't
210		* implement these functions.
211		*/
212
213		int
214		gx_image_no_sput(const gs_image_common_t pic, stream s,
215		const gs_color_space **ppcs)
216	0	{
217	0	return_error(gs_error_rangecheck);
218	0	}
219
220		int
221		gx_image_no_sget(gs_image_common_t pic, stream s,
222		gs_color_space *pcs)
223	0	{
224	0	return_error(gs_error_rangecheck);
225	0	}
226
227		void
228		gx_image_default_release(gs_image_common_t pic, gs_memory_t mem)
229	0	{
230	0	gs_free_object(mem, pic, "gx_image_default_release");
231	0	}
232
233		#ifdef DEBUG
234		static void
235		debug_b_print_matrix(const gs_pixel_image_t *pim)
236		{
237		if_debug6('b', " ImageMatrix=[%g %g %g %g %g %g]\n",
238		pim->ImageMatrix.xx, pim->ImageMatrix.xy,
239		pim->ImageMatrix.yx, pim->ImageMatrix.yy,
240		pim->ImageMatrix.tx, pim->ImageMatrix.ty);
241		}
242		static void
243		debug_b_print_decode(const gs_pixel_image_t *pim, int num_decode)
244		{
245		if (gs_debug_c('b')) {
246		const char *str = " Decode=[";
247		int i;
248
249		for (i = 0; i < num_decode; str = " ", ++i)
250		dprintf2("%s%g", str, pim->Decode[i]);
251		dputs("]\n");
252		}
253		}
254		#else
255	40	# define debug_b_print_matrix(pim) DO_NOTHING
256	60	# define debug_b_print_decode(pim, num_decode) DO_NOTHING
257		#endif
258
259		/* Test whether an image has a default ImageMatrix. */
260		bool
261		gx_image_matrix_is_default(const gs_data_image_t *pid)
262	58.8k	{
263	58.8k	return (is_xxyy(&pid->ImageMatrix) &&
264	58.8k	pid->ImageMatrix.xx == pid->Width &&
265	58.8k	pid->ImageMatrix.yy == -pid->Height &&
266	58.8k	is_fzero(pid->ImageMatrix.tx) &&
267	58.8k	pid->ImageMatrix.ty == pid->Height);
268	58.8k	}
269
270		/* Put a variable-length uint on a stream. */
271		void
272		sput_variable_uint(stream *s, uint w)
273	176k	{
274	179k	for (; w > 0x7f; w >>= 7)
275	2.85k	sputc(s, (byte)(w \| 0x80));
276	176k	sputc(s, (byte)w);
277	176k	}
278
279		/*
280		* Write generic pixel image parameters. The format is the following,
281		* encoded as a variable-length uint in the usual way:
282		* xxxFEDCCBBBBA
283		* A = 0 if standard ImageMatrix, 1 if explicit ImageMatrix
284		* BBBB = BitsPerComponent - 1
285		* CC = format
286		* D = 0 if standard (0..1) Decode, 1 if explicit Decode
287		* E = Interpolate
288		* F = CombineWithColor
289		* xxx = extra information from caller
290		*/
291	47.1k	#define PI_ImageMatrix 0x001
292	47.1k	#define PI_BPC_SHIFT 1
293	42.3k	#define PI_BPC_MASK 0xf
294	47.1k	#define PI_FORMAT_SHIFT 5
295	42.3k	#define PI_FORMAT_MASK 0x3
296	47.1k	#define PI_Decode 0x080
297	42.3k	#define PI_Interpolate 0x100
298	42.3k	#define PI_CombineWithColor 0x200
299	47.1k	#define PI_BITS 10
300		/*
301		* Width, encoded as a variable-length uint
302		* Height, encoded ditto
303		* ImageMatrix (if A = 1), per gs_matrix_store/fetch
304		* Decode (if D = 1): blocks of up to 4 components
305		* aabbccdd, where each xx is decoded as:
306		* 00 = default, 01 = swapped default,
307		* 10 = (0,V), 11 = (U,V)
308		* non-defaulted components (up to 8 floats)
309		*/
310		int
311		gx_pixel_image_sput(const gs_pixel_image_t pim, stream s,
312		const gs_color_space **ppcs, int extra)
313	4.72k	{
314	4.72k	const gs_color_space *pcs = pim->ColorSpace;
315	4.72k	int bpc = pim->BitsPerComponent;
316	4.72k	int num_components = gs_color_space_num_components(pcs);
317	4.72k	int num_decode;
318	4.72k	uint control = extra << PI_BITS;
319	4.72k	float decode_default_1 = 1;
320	4.72k	int i;
321	4.72k	uint ignore;
322
323		/* Construct the control word. */
324
325	4.72k	if (!gx_image_matrix_is_default((const gs_data_image_t *)pim))
326	39	control \|= PI_ImageMatrix;
327	4.72k	switch (pim->format) {
328	4.72k	case gs_image_format_chunky:
329	4.72k	case gs_image_format_component_planar:
330	4.72k	switch (bpc) {
331	4.72k	case 1: case 2: case 4: case 8: case 12: case 16: break;
332	0	default: return_error(gs_error_rangecheck);
333	4.72k	}
334	4.72k	break;
335	4.72k	case gs_image_format_bit_planar:
336	0	if (bpc < 1 \|\| bpc > 8)
337	0	return_error(gs_error_rangecheck);
338	4.72k	}
339	4.72k	control \|= (bpc - 1) << PI_BPC_SHIFT;
340	4.72k	control \|= pim->format << PI_FORMAT_SHIFT;
341	4.72k	num_decode = num_components * 2;
342	4.72k	if (gs_color_space_get_index(pcs) == gs_color_space_index_Indexed)
343	194	decode_default_1 = (float)pcs->params.indexed.hival;
344	23.5k	for (i = 0; i < num_decode; ++i)
345	18.8k	if (pim->Decode[i] != DECODE_DEFAULT(i, decode_default_1)) {
346	19	control \|= PI_Decode;
347	19	break;
348	19	}
349	4.72k	if (pim->Interpolate)
350	0	control \|= PI_Interpolate;
351	4.72k	if (pim->CombineWithColor)
352	0	control \|= PI_CombineWithColor;
353
354		/* Write the encoding on the stream. */
355
356	4.72k	if_debug3('b', "[b]put control=0x%x, Width=%d, Height=%d\n",
357	4.72k	control, pim->Width, pim->Height);
358	4.72k	sput_variable_uint(s, control);
359	4.72k	sput_variable_uint(s, (uint)pim->Width);
360	4.72k	sput_variable_uint(s, (uint)pim->Height);
361	4.72k	if (control & PI_ImageMatrix) {
362	39	debug_b_print_matrix(pim);
363	39	sput_matrix(s, &pim->ImageMatrix);
364	39	}
365	4.72k	if (control & PI_Decode) {
366	19	int i;
367	19	uint dflags = 1;
368	19	float decode[8];
369	19	int di = 0;
370
371	19	debug_b_print_decode(pim, num_decode);
372	38	for (i = 0; i < num_decode; i += 2) {
373	19	float u = pim->Decode[i], v = pim->Decode[i + 1];
374	19	float dv = DECODE_DEFAULT(i + 1, decode_default_1);
375
376	19	if (dflags >= 0x100) {
377	0	sputc(s, (byte)(dflags & 0xff));
378	0	sputs(s, (const byte )decode, di sizeof(float), &ignore);
379	0	dflags = 1;
380	0	di = 0;
381	0	}
382	19	dflags <<= 2;
383	19	if (u == 0 && v == dv)
384	19	DO_NOTHING;
385	19	else if (u == dv && v == 0)
386	5	dflags += 1;
387	14	else {
388	14	if (u != 0) {
389	0	dflags++;
390	0	decode[di++] = u;
391	0	}
392	14	dflags += 2;
393	14	decode[di++] = v;
394	14	}
395	19	}
396	19	sputc(s, (byte)((dflags << (8 - num_decode)) & 0xff));
397	19	sputs(s, (const byte )decode, di sizeof(float), &ignore);
398	19	}
399	4.72k	*ppcs = pcs;
400	4.72k	return 0;
401	4.72k	}
402
403		/* Set an image's ImageMatrix to the default. */
404		void
405		gx_image_matrix_set_default(gs_data_image_t *pid)
406	53.3k	{
407	53.3k	pid->ImageMatrix.xx = (float)pid->Width;
408	53.3k	pid->ImageMatrix.xy = 0;
409	53.3k	pid->ImageMatrix.yx = 0;
410	53.3k	pid->ImageMatrix.yy = (float)-pid->Height;
411	53.3k	pid->ImageMatrix.tx = 0;
412	53.3k	pid->ImageMatrix.ty = (float)pid->Height;
413	53.3k	}
414
415		/* Get a variable-length uint from a stream. */
416		int
417		sget_variable_uint(stream s, uint pw)
418	160k	{
419	160k	uint w = 0;
420	160k	int shift = 0;
421	160k	int ch;
422
423	190k	for (; (ch = sgetc(s)) >= 0x80; shift += 7)
424	30.2k	w += (ch & 0x7f) << shift;
425	160k	if (ch < 0)
426	0	return_error(gs_error_ioerror);
427	160k	*pw = w + (ch << shift);
428	160k	return 0;
429	160k	}
430
431		/*
432		* Read generic pixel image parameters.
433		*/
434		int
435		gx_pixel_image_sget(gs_pixel_image_t pim, stream s,
436		gs_color_space *pcs)
437	42.3k	{
438	42.3k	uint control;
439	42.3k	float decode_default_1 = 1;
440	42.3k	int num_components, num_decode;
441	42.3k	int i;
442	42.3k	int code;
443	42.3k	uint ignore;
444
445	42.3k	if ((code = sget_variable_uint(s, &control)) < 0 \|\|
446	42.3k	(code = sget_variable_uint(s, (uint *)&pim->Width)) < 0 \|\|
447	42.3k	(code = sget_variable_uint(s, (uint *)&pim->Height)) < 0
448	42.3k	)
449	0	return code;
450	42.3k	if_debug3('b', "[b]get control=0x%x, Width=%d, Height=%d\n",
451	42.3k	control, pim->Width, pim->Height);
452	42.3k	if (control & PI_ImageMatrix) {
453	1	if ((code = sget_matrix(s, &pim->ImageMatrix)) < 0)
454	0	return code;
455	1	debug_b_print_matrix(pim);
456	1	} else
457	42.3k	gx_image_matrix_set_default((gs_data_image_t *)pim);
458	42.3k	pim->BitsPerComponent = ((control >> PI_BPC_SHIFT) & PI_BPC_MASK) + 1;
459	42.3k	pim->format = (control >> PI_FORMAT_SHIFT) & PI_FORMAT_MASK;
460	42.3k	pim->ColorSpace = pcs;
461	42.3k	num_components = gs_color_space_num_components(pcs);
462	42.3k	num_decode = num_components * 2;
463	42.3k	if (gs_color_space_get_index(pcs) == gs_color_space_index_Indexed)
464	437	decode_default_1 = (float)pcs->params.indexed.hival;
465	42.3k	if (control & PI_Decode) {
466	41	uint dflags = 0x10000;
467	41	float *dp = pim->Decode;
468
469	82	for (i = 0; i < num_decode; i += 2, dp += 2, dflags <<= 2) {
470	41	if (dflags >= 0x10000) {
471	41	dflags = sgetc(s) + 0x100;
472	41	if (dflags < 0x100)
473	0	return_error(gs_error_ioerror);
474	41	}
475	41	switch (dflags & 0xc0) {
476	0	case 0x00:
477	0	dp[0] = 0, dp[1] = DECODE_DEFAULT(i + 1, decode_default_1);
478	0	break;
479	7	case 0x40:
480	7	dp[0] = DECODE_DEFAULT(i + 1, decode_default_1), dp[1] = 0;
481	7	break;
482	34	case 0x80:
483	34	dp[0] = 0;
484	34	if (sgets(s, (byte *)(dp + 1), sizeof(float), &ignore) < 0)
485	0	return_error(gs_error_ioerror);
486	34	break;
487	34	case 0xc0:
488	0	if (sgets(s, (byte )dp, sizeof(float) 2, &ignore) < 0)
489	0	return_error(gs_error_ioerror);
490	0	break;
491	41	}
492	41	}
493	41	debug_b_print_decode(pim, num_decode);
494	42.3k	} else {
495	197k	for (i = 0; i < num_decode; ++i)
496	154k	pim->Decode[i] = DECODE_DEFAULT(i, decode_default_1);
497	42.3k	}
498	42.3k	pim->Interpolate = (control & PI_Interpolate) != 0;
499	42.3k	pim->CombineWithColor = (control & PI_CombineWithColor) != 0;
500	42.3k	return control >> PI_BITS;
501	42.3k	}
502
503		/*
504		* Release a pixel image object. Currently this just frees the object.
505		*/
506		void
507		gx_pixel_image_release(gs_pixel_image_t pic, gs_memory_t mem)
508	0	{
509	0	gx_image_default_release((gs_image_common_t *)pic, mem);
510	0	}