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1 /****************************************************************************
2  *
3  * ftimage.h
4  *
5  *   FreeType glyph image formats and default raster interface
6  *   (specification).
7  *
8  * Copyright (C) 1996-2020 by
9  * David Turner, Robert Wilhelm, and Werner Lemberg.
10  *
11  * This file is part of the FreeType project, and may only be used,
12  * modified, and distributed under the terms of the FreeType project
13  * license, LICENSE.TXT.  By continuing to use, modify, or distribute
14  * this file you indicate that you have read the license and
15  * understand and accept it fully.
16  *
17  */
18 
19   /**************************************************************************
20    *
21    * Note: A 'raster' is simply a scan-line converter, used to render
22    *       FT_Outlines into FT_Bitmaps.
23    *
24    */
25 
26 
27 #ifndef FTIMAGE_H_
28 #define FTIMAGE_H_
29 
30 
31   /* STANDALONE_ is from ftgrays.c */
32 #ifndef STANDALONE_
33 #endif
34 
35 
36 FT_BEGIN_HEADER
37 
38 
39   /**************************************************************************
40    *
41    * @section:
42    *   basic_types
43    *
44    */
45 
46 
47   /**************************************************************************
48    *
49    * @type:
50    *   FT_Pos
51    *
52    * @description:
53    *   The type FT_Pos is used to store vectorial coordinates.  Depending on
54    *   the context, these can represent distances in integer font units, or
55    *   16.16, or 26.6 fixed-point pixel coordinates.
56    */
57   typedef signed long  FT_Pos;
58 
59 
60   /**************************************************************************
61    *
62    * @struct:
63    *   FT_Vector
64    *
65    * @description:
66    *   A simple structure used to store a 2D vector; coordinates are of the
67    *   FT_Pos type.
68    *
69    * @fields:
70    *   x ::
71    *     The horizontal coordinate.
72    *   y ::
73    *     The vertical coordinate.
74    */
75   typedef struct  FT_Vector_
76   {
77     FT_Pos  x;
78     FT_Pos  y;
79 
80   } FT_Vector;
81 
82 
83   /**************************************************************************
84    *
85    * @struct:
86    *   FT_BBox
87    *
88    * @description:
89    *   A structure used to hold an outline's bounding box, i.e., the
90    *   coordinates of its extrema in the horizontal and vertical directions.
91    *
92    * @fields:
93    *   xMin ::
94    *     The horizontal minimum (left-most).
95    *
96    *   yMin ::
97    *     The vertical minimum (bottom-most).
98    *
99    *   xMax ::
100    *     The horizontal maximum (right-most).
101    *
102    *   yMax ::
103    *     The vertical maximum (top-most).
104    *
105    * @note:
106    *   The bounding box is specified with the coordinates of the lower left
107    *   and the upper right corner.  In PostScript, those values are often
108    *   called (llx,lly) and (urx,ury), respectively.
109    *
110    *   If `yMin` is negative, this value gives the glyph's descender.
111    *   Otherwise, the glyph doesn't descend below the baseline.  Similarly,
112    *   if `ymax` is positive, this value gives the glyph's ascender.
113    *
114    *   `xMin` gives the horizontal distance from the glyph's origin to the
115    *   left edge of the glyph's bounding box.  If `xMin` is negative, the
116    *   glyph extends to the left of the origin.
117    */
118   typedef struct  FT_BBox_
119   {
120     FT_Pos  xMin, yMin;
121     FT_Pos  xMax, yMax;
122 
123   } FT_BBox;
124 
125 
126   /**************************************************************************
127    *
128    * @enum:
129    *   FT_Pixel_Mode
130    *
131    * @description:
132    *   An enumeration type used to describe the format of pixels in a given
133    *   bitmap.  Note that additional formats may be added in the future.
134    *
135    * @values:
136    *   FT_PIXEL_MODE_NONE ::
137    *     Value~0 is reserved.
138    *
139    *   FT_PIXEL_MODE_MONO ::
140    *     A monochrome bitmap, using 1~bit per pixel.  Note that pixels are
141    *     stored in most-significant order (MSB), which means that the
142    *     left-most pixel in a byte has value 128.
143    *
144    *   FT_PIXEL_MODE_GRAY ::
145    *     An 8-bit bitmap, generally used to represent anti-aliased glyph
146    *     images.  Each pixel is stored in one byte.  Note that the number of
147    *     'gray' levels is stored in the `num_grays` field of the @FT_Bitmap
148    *     structure (it generally is 256).
149    *
150    *   FT_PIXEL_MODE_GRAY2 ::
151    *     A 2-bit per pixel bitmap, used to represent embedded anti-aliased
152    *     bitmaps in font files according to the OpenType specification.  We
153    *     haven't found a single font using this format, however.
154    *
155    *   FT_PIXEL_MODE_GRAY4 ::
156    *     A 4-bit per pixel bitmap, representing embedded anti-aliased bitmaps
157    *     in font files according to the OpenType specification.  We haven't
158    *     found a single font using this format, however.
159    *
160    *   FT_PIXEL_MODE_LCD ::
161    *     An 8-bit bitmap, representing RGB or BGR decimated glyph images used
162    *     for display on LCD displays; the bitmap is three times wider than
163    *     the original glyph image.  See also @FT_RENDER_MODE_LCD.
164    *
165    *   FT_PIXEL_MODE_LCD_V ::
166    *     An 8-bit bitmap, representing RGB or BGR decimated glyph images used
167    *     for display on rotated LCD displays; the bitmap is three times
168    *     taller than the original glyph image.  See also
169    *     @FT_RENDER_MODE_LCD_V.
170    *
171    *   FT_PIXEL_MODE_BGRA ::
172    *     [Since 2.5] An image with four 8-bit channels per pixel,
173    *     representing a color image (such as emoticons) with alpha channel.
174    *     For each pixel, the format is BGRA, which means, the blue channel
175    *     comes first in memory.  The color channels are pre-multiplied and in
176    *     the sRGB colorspace.  For example, full red at half-translucent
177    *     opacity will be represented as '00,00,80,80', not '00,00,FF,80'.
178    *     See also @FT_LOAD_COLOR.
179    */
180   typedef enum  FT_Pixel_Mode_
181   {
182     FT_PIXEL_MODE_NONE = 0,
183     FT_PIXEL_MODE_MONO,
184     FT_PIXEL_MODE_GRAY,
185     FT_PIXEL_MODE_GRAY2,
186     FT_PIXEL_MODE_GRAY4,
187     FT_PIXEL_MODE_LCD,
188     FT_PIXEL_MODE_LCD_V,
189     FT_PIXEL_MODE_BGRA,
190 
191     FT_PIXEL_MODE_MAX      /* do not remove */
192 
193   } FT_Pixel_Mode;
194 
195 
196   /* these constants are deprecated; use the corresponding `FT_Pixel_Mode` */
197   /* values instead.                                                       */
198 #define ft_pixel_mode_none   FT_PIXEL_MODE_NONE
199 #define ft_pixel_mode_mono   FT_PIXEL_MODE_MONO
200 #define ft_pixel_mode_grays  FT_PIXEL_MODE_GRAY
201 #define ft_pixel_mode_pal2   FT_PIXEL_MODE_GRAY2
202 #define ft_pixel_mode_pal4   FT_PIXEL_MODE_GRAY4
203 
204 
205   /**************************************************************************
206    *
207    * @struct:
208    *   FT_Bitmap
209    *
210    * @description:
211    *   A structure used to describe a bitmap or pixmap to the raster.  Note
212    *   that we now manage pixmaps of various depths through the `pixel_mode`
213    *   field.
214    *
215    * @fields:
216    *   rows ::
217    *     The number of bitmap rows.
218    *
219    *   width ::
220    *     The number of pixels in bitmap row.
221    *
222    *   pitch ::
223    *     The pitch's absolute value is the number of bytes taken by one
224    *     bitmap row, including padding.  However, the pitch is positive when
225    *     the bitmap has a 'down' flow, and negative when it has an 'up' flow.
226    *     In all cases, the pitch is an offset to add to a bitmap pointer in
227    *     order to go down one row.
228    *
229    *     Note that 'padding' means the alignment of a bitmap to a byte
230    *     border, and FreeType functions normally align to the smallest
231    *     possible integer value.
232    *
233    *     For the B/W rasterizer, `pitch` is always an even number.
234    *
235    *     To change the pitch of a bitmap (say, to make it a multiple of 4),
236    *     use @FT_Bitmap_Convert.  Alternatively, you might use callback
237    *     functions to directly render to the application's surface; see the
238    *     file `example2.cpp` in the tutorial for a demonstration.
239    *
240    *   buffer ::
241    *     A typeless pointer to the bitmap buffer.  This value should be
242    *     aligned on 32-bit boundaries in most cases.
243    *
244    *   num_grays ::
245    *     This field is only used with @FT_PIXEL_MODE_GRAY; it gives the
246    *     number of gray levels used in the bitmap.
247    *
248    *   pixel_mode ::
249    *     The pixel mode, i.e., how pixel bits are stored.  See @FT_Pixel_Mode
250    *     for possible values.
251    *
252    *   palette_mode ::
253    *     This field is intended for paletted pixel modes; it indicates how
254    *     the palette is stored.  Not used currently.
255    *
256    *   palette ::
257    *     A typeless pointer to the bitmap palette; this field is intended for
258    *     paletted pixel modes.  Not used currently.
259    */
260   typedef struct  FT_Bitmap_
261   {
262     unsigned int    rows;
263     unsigned int    width;
264     int             pitch;
265     unsigned char*  buffer;
266     unsigned short  num_grays;
267     unsigned char   pixel_mode;
268     unsigned char   palette_mode;
269     void*           palette;
270 
271   } FT_Bitmap;
272 
273 
274   /**************************************************************************
275    *
276    * @section:
277    *   outline_processing
278    *
279    */
280 
281 
282   /**************************************************************************
283    *
284    * @struct:
285    *   FT_Outline
286    *
287    * @description:
288    *   This structure is used to describe an outline to the scan-line
289    *   converter.
290    *
291    * @fields:
292    *   n_contours ::
293    *     The number of contours in the outline.
294    *
295    *   n_points ::
296    *     The number of points in the outline.
297    *
298    *   points ::
299    *     A pointer to an array of `n_points` @FT_Vector elements, giving the
300    *     outline's point coordinates.
301    *
302    *   tags ::
303    *     A pointer to an array of `n_points` chars, giving each outline
304    *     point's type.
305    *
306    *     If bit~0 is unset, the point is 'off' the curve, i.e., a Bezier
307    *     control point, while it is 'on' if set.
308    *
309    *     Bit~1 is meaningful for 'off' points only.  If set, it indicates a
310    *     third-order Bezier arc control point; and a second-order control
311    *     point if unset.
312    *
313    *     If bit~2 is set, bits 5-7 contain the drop-out mode (as defined in
314    *     the OpenType specification; the value is the same as the argument to
315    *     the 'SCANMODE' instruction).
316    *
317    *     Bits 3 and~4 are reserved for internal purposes.
318    *
319    *   contours ::
320    *     An array of `n_contours` shorts, giving the end point of each
321    *     contour within the outline.  For example, the first contour is
322    *     defined by the points '0' to `contours[0]`, the second one is
323    *     defined by the points `contours[0]+1` to `contours[1]`, etc.
324    *
325    *   flags ::
326    *     A set of bit flags used to characterize the outline and give hints
327    *     to the scan-converter and hinter on how to convert/grid-fit it.  See
328    *     @FT_OUTLINE_XXX.
329    *
330    * @note:
331    *   The B/W rasterizer only checks bit~2 in the `tags` array for the first
332    *   point of each contour.  The drop-out mode as given with
333    *   @FT_OUTLINE_IGNORE_DROPOUTS, @FT_OUTLINE_SMART_DROPOUTS, and
334    *   @FT_OUTLINE_INCLUDE_STUBS in `flags` is then overridden.
335    */
336   typedef struct  FT_Outline_
337   {
338     short       n_contours;      /* number of contours in glyph        */
339     short       n_points;        /* number of points in the glyph      */
340 
341     FT_Vector*  points;          /* the outline's points               */
342     char*       tags;            /* the points flags                   */
343     short*      contours;        /* the contour end points             */
344 
345     int         flags;           /* outline masks                      */
346 
347   } FT_Outline;
348 
349   /* */
350 
351   /* Following limits must be consistent with */
352   /* FT_Outline.{n_contours,n_points}         */
353 #define FT_OUTLINE_CONTOURS_MAX  SHRT_MAX
354 #define FT_OUTLINE_POINTS_MAX    SHRT_MAX
355 
356 
357   /**************************************************************************
358    *
359    * @enum:
360    *   FT_OUTLINE_XXX
361    *
362    * @description:
363    *   A list of bit-field constants used for the flags in an outline's
364    *   `flags` field.
365    *
366    * @values:
367    *   FT_OUTLINE_NONE ::
368    *     Value~0 is reserved.
369    *
370    *   FT_OUTLINE_OWNER ::
371    *     If set, this flag indicates that the outline's field arrays (i.e.,
372    *     `points`, `flags`, and `contours`) are 'owned' by the outline
373    *     object, and should thus be freed when it is destroyed.
374    *
375    *   FT_OUTLINE_EVEN_ODD_FILL ::
376    *     By default, outlines are filled using the non-zero winding rule.  If
377    *     set to 1, the outline will be filled using the even-odd fill rule
378    *     (only works with the smooth rasterizer).
379    *
380    *   FT_OUTLINE_REVERSE_FILL ::
381    *     By default, outside contours of an outline are oriented in
382    *     clock-wise direction, as defined in the TrueType specification.
383    *     This flag is set if the outline uses the opposite direction
384    *     (typically for Type~1 fonts).  This flag is ignored by the scan
385    *     converter.
386    *
387    *   FT_OUTLINE_IGNORE_DROPOUTS ::
388    *     By default, the scan converter will try to detect drop-outs in an
389    *     outline and correct the glyph bitmap to ensure consistent shape
390    *     continuity.  If set, this flag hints the scan-line converter to
391    *     ignore such cases.  See below for more information.
392    *
393    *   FT_OUTLINE_SMART_DROPOUTS ::
394    *     Select smart dropout control.  If unset, use simple dropout control.
395    *     Ignored if @FT_OUTLINE_IGNORE_DROPOUTS is set.  See below for more
396    *     information.
397    *
398    *   FT_OUTLINE_INCLUDE_STUBS ::
399    *     If set, turn pixels on for 'stubs', otherwise exclude them.  Ignored
400    *     if @FT_OUTLINE_IGNORE_DROPOUTS is set.  See below for more
401    *     information.
402    *
403    *   FT_OUTLINE_OVERLAP ::
404    *     This flag indicates that this outline contains overlapping contrours
405    *     and the anti-aliased renderer should perform oversampling to
406    *     mitigate possible artifacts.  This flag should _not_ be set for
407    *     well designed glyphs without overlaps because it quadruples the
408    *     rendering time.
409    *
410    *   FT_OUTLINE_HIGH_PRECISION ::
411    *     This flag indicates that the scan-line converter should try to
412    *     convert this outline to bitmaps with the highest possible quality.
413    *     It is typically set for small character sizes.  Note that this is
414    *     only a hint that might be completely ignored by a given
415    *     scan-converter.
416    *
417    *   FT_OUTLINE_SINGLE_PASS ::
418    *     This flag is set to force a given scan-converter to only use a
419    *     single pass over the outline to render a bitmap glyph image.
420    *     Normally, it is set for very large character sizes.  It is only a
421    *     hint that might be completely ignored by a given scan-converter.
422    *
423    * @note:
424    *   The flags @FT_OUTLINE_IGNORE_DROPOUTS, @FT_OUTLINE_SMART_DROPOUTS, and
425    *   @FT_OUTLINE_INCLUDE_STUBS are ignored by the smooth rasterizer.
426    *
427    *   There exists a second mechanism to pass the drop-out mode to the B/W
428    *   rasterizer; see the `tags` field in @FT_Outline.
429    *
430    *   Please refer to the description of the 'SCANTYPE' instruction in the
431    *   OpenType specification (in file `ttinst1.doc`) how simple drop-outs,
432    *   smart drop-outs, and stubs are defined.
433    */
434 #define FT_OUTLINE_NONE             0x0
435 #define FT_OUTLINE_OWNER            0x1
436 #define FT_OUTLINE_EVEN_ODD_FILL    0x2
437 #define FT_OUTLINE_REVERSE_FILL     0x4
438 #define FT_OUTLINE_IGNORE_DROPOUTS  0x8
439 #define FT_OUTLINE_SMART_DROPOUTS   0x10
440 #define FT_OUTLINE_INCLUDE_STUBS    0x20
441 #define FT_OUTLINE_OVERLAP          0x40
442 
443 #define FT_OUTLINE_HIGH_PRECISION   0x100
444 #define FT_OUTLINE_SINGLE_PASS      0x200
445 
446 
447   /* these constants are deprecated; use the corresponding */
448   /* `FT_OUTLINE_XXX` values instead                       */
449 #define ft_outline_none             FT_OUTLINE_NONE
450 #define ft_outline_owner            FT_OUTLINE_OWNER
451 #define ft_outline_even_odd_fill    FT_OUTLINE_EVEN_ODD_FILL
452 #define ft_outline_reverse_fill     FT_OUTLINE_REVERSE_FILL
453 #define ft_outline_ignore_dropouts  FT_OUTLINE_IGNORE_DROPOUTS
454 #define ft_outline_high_precision   FT_OUTLINE_HIGH_PRECISION
455 #define ft_outline_single_pass      FT_OUTLINE_SINGLE_PASS
456 
457   /* */
458 
459 #define FT_CURVE_TAG( flag )  ( flag & 0x03 )
460 
461   /* see the `tags` field in `FT_Outline` for a description of the values */
462 #define FT_CURVE_TAG_ON            0x01
463 #define FT_CURVE_TAG_CONIC         0x00
464 #define FT_CURVE_TAG_CUBIC         0x02
465 
466 #define FT_CURVE_TAG_HAS_SCANMODE  0x04
467 
468 #define FT_CURVE_TAG_TOUCH_X       0x08  /* reserved for TrueType hinter */
469 #define FT_CURVE_TAG_TOUCH_Y       0x10  /* reserved for TrueType hinter */
470 
471 #define FT_CURVE_TAG_TOUCH_BOTH    ( FT_CURVE_TAG_TOUCH_X | \
472                                      FT_CURVE_TAG_TOUCH_Y )
473   /* values 0x20, 0x40, and 0x80 are reserved */
474 
475 
476   /* these constants are deprecated; use the corresponding */
477   /* `FT_CURVE_TAG_XXX` values instead                     */
478 #define FT_Curve_Tag_On       FT_CURVE_TAG_ON
479 #define FT_Curve_Tag_Conic    FT_CURVE_TAG_CONIC
480 #define FT_Curve_Tag_Cubic    FT_CURVE_TAG_CUBIC
481 #define FT_Curve_Tag_Touch_X  FT_CURVE_TAG_TOUCH_X
482 #define FT_Curve_Tag_Touch_Y  FT_CURVE_TAG_TOUCH_Y
483 
484 
485   /**************************************************************************
486    *
487    * @functype:
488    *   FT_Outline_MoveToFunc
489    *
490    * @description:
491    *   A function pointer type used to describe the signature of a 'move to'
492    *   function during outline walking/decomposition.
493    *
494    *   A 'move to' is emitted to start a new contour in an outline.
495    *
496    * @input:
497    *   to ::
498    *     A pointer to the target point of the 'move to'.
499    *
500    *   user ::
501    *     A typeless pointer, which is passed from the caller of the
502    *     decomposition function.
503    *
504    * @return:
505    *   Error code.  0~means success.
506    */
507   typedef int
508   (*FT_Outline_MoveToFunc)( const FT_Vector*  to,
509                             void*             user );
510 
511 #define FT_Outline_MoveTo_Func  FT_Outline_MoveToFunc
512 
513 
514   /**************************************************************************
515    *
516    * @functype:
517    *   FT_Outline_LineToFunc
518    *
519    * @description:
520    *   A function pointer type used to describe the signature of a 'line to'
521    *   function during outline walking/decomposition.
522    *
523    *   A 'line to' is emitted to indicate a segment in the outline.
524    *
525    * @input:
526    *   to ::
527    *     A pointer to the target point of the 'line to'.
528    *
529    *   user ::
530    *     A typeless pointer, which is passed from the caller of the
531    *     decomposition function.
532    *
533    * @return:
534    *   Error code.  0~means success.
535    */
536   typedef int
537   (*FT_Outline_LineToFunc)( const FT_Vector*  to,
538                             void*             user );
539 
540 #define FT_Outline_LineTo_Func  FT_Outline_LineToFunc
541 
542 
543   /**************************************************************************
544    *
545    * @functype:
546    *   FT_Outline_ConicToFunc
547    *
548    * @description:
549    *   A function pointer type used to describe the signature of a 'conic to'
550    *   function during outline walking or decomposition.
551    *
552    *   A 'conic to' is emitted to indicate a second-order Bezier arc in the
553    *   outline.
554    *
555    * @input:
556    *   control ::
557    *     An intermediate control point between the last position and the new
558    *     target in `to`.
559    *
560    *   to ::
561    *     A pointer to the target end point of the conic arc.
562    *
563    *   user ::
564    *     A typeless pointer, which is passed from the caller of the
565    *     decomposition function.
566    *
567    * @return:
568    *   Error code.  0~means success.
569    */
570   typedef int
571   (*FT_Outline_ConicToFunc)( const FT_Vector*  control,
572                              const FT_Vector*  to,
573                              void*             user );
574 
575 #define FT_Outline_ConicTo_Func  FT_Outline_ConicToFunc
576 
577 
578   /**************************************************************************
579    *
580    * @functype:
581    *   FT_Outline_CubicToFunc
582    *
583    * @description:
584    *   A function pointer type used to describe the signature of a 'cubic to'
585    *   function during outline walking or decomposition.
586    *
587    *   A 'cubic to' is emitted to indicate a third-order Bezier arc.
588    *
589    * @input:
590    *   control1 ::
591    *     A pointer to the first Bezier control point.
592    *
593    *   control2 ::
594    *     A pointer to the second Bezier control point.
595    *
596    *   to ::
597    *     A pointer to the target end point.
598    *
599    *   user ::
600    *     A typeless pointer, which is passed from the caller of the
601    *     decomposition function.
602    *
603    * @return:
604    *   Error code.  0~means success.
605    */
606   typedef int
607   (*FT_Outline_CubicToFunc)( const FT_Vector*  control1,
608                              const FT_Vector*  control2,
609                              const FT_Vector*  to,
610                              void*             user );
611 
612 #define FT_Outline_CubicTo_Func  FT_Outline_CubicToFunc
613 
614 
615   /**************************************************************************
616    *
617    * @struct:
618    *   FT_Outline_Funcs
619    *
620    * @description:
621    *   A structure to hold various function pointers used during outline
622    *   decomposition in order to emit segments, conic, and cubic Beziers.
623    *
624    * @fields:
625    *   move_to ::
626    *     The 'move to' emitter.
627    *
628    *   line_to ::
629    *     The segment emitter.
630    *
631    *   conic_to ::
632    *     The second-order Bezier arc emitter.
633    *
634    *   cubic_to ::
635    *     The third-order Bezier arc emitter.
636    *
637    *   shift ::
638    *     The shift that is applied to coordinates before they are sent to the
639    *     emitter.
640    *
641    *   delta ::
642    *     The delta that is applied to coordinates before they are sent to the
643    *     emitter, but after the shift.
644    *
645    * @note:
646    *   The point coordinates sent to the emitters are the transformed version
647    *   of the original coordinates (this is important for high accuracy
648    *   during scan-conversion).  The transformation is simple:
649    *
650    *   ```
651    *     x' = (x << shift) - delta
652    *     y' = (y << shift) - delta
653    *   ```
654    *
655    *   Set the values of `shift` and `delta` to~0 to get the original point
656    *   coordinates.
657    */
658   typedef struct  FT_Outline_Funcs_
659   {
660     FT_Outline_MoveToFunc   move_to;
661     FT_Outline_LineToFunc   line_to;
662     FT_Outline_ConicToFunc  conic_to;
663     FT_Outline_CubicToFunc  cubic_to;
664 
665     int                     shift;
666     FT_Pos                  delta;
667 
668   } FT_Outline_Funcs;
669 
670 
671   /**************************************************************************
672    *
673    * @section:
674    *   basic_types
675    *
676    */
677 
678 
679   /**************************************************************************
680    *
681    * @macro:
682    *   FT_IMAGE_TAG
683    *
684    * @description:
685    *   This macro converts four-letter tags to an unsigned long type.
686    *
687    * @note:
688    *   Since many 16-bit compilers don't like 32-bit enumerations, you should
689    *   redefine this macro in case of problems to something like this:
690    *
691    *   ```
692    *     #define FT_IMAGE_TAG( value, _x1, _x2, _x3, _x4 )  value
693    *   ```
694    *
695    *   to get a simple enumeration without assigning special numbers.
696    */
697 #ifndef FT_IMAGE_TAG
698 #define FT_IMAGE_TAG( value, _x1, _x2, _x3, _x4 )  \
699           value = ( ( (unsigned long)_x1 << 24 ) | \
700                     ( (unsigned long)_x2 << 16 ) | \
701                     ( (unsigned long)_x3 << 8  ) | \
702                       (unsigned long)_x4         )
703 #endif /* FT_IMAGE_TAG */
704 
705 
706   /**************************************************************************
707    *
708    * @enum:
709    *   FT_Glyph_Format
710    *
711    * @description:
712    *   An enumeration type used to describe the format of a given glyph
713    *   image.  Note that this version of FreeType only supports two image
714    *   formats, even though future font drivers will be able to register
715    *   their own format.
716    *
717    * @values:
718    *   FT_GLYPH_FORMAT_NONE ::
719    *     The value~0 is reserved.
720    *
721    *   FT_GLYPH_FORMAT_COMPOSITE ::
722    *     The glyph image is a composite of several other images.  This format
723    *     is _only_ used with @FT_LOAD_NO_RECURSE, and is used to report
724    *     compound glyphs (like accented characters).
725    *
726    *   FT_GLYPH_FORMAT_BITMAP ::
727    *     The glyph image is a bitmap, and can be described as an @FT_Bitmap.
728    *     You generally need to access the `bitmap` field of the
729    *     @FT_GlyphSlotRec structure to read it.
730    *
731    *   FT_GLYPH_FORMAT_OUTLINE ::
732    *     The glyph image is a vectorial outline made of line segments and
733    *     Bezier arcs; it can be described as an @FT_Outline; you generally
734    *     want to access the `outline` field of the @FT_GlyphSlotRec structure
735    *     to read it.
736    *
737    *   FT_GLYPH_FORMAT_PLOTTER ::
738    *     The glyph image is a vectorial path with no inside and outside
739    *     contours.  Some Type~1 fonts, like those in the Hershey family,
740    *     contain glyphs in this format.  These are described as @FT_Outline,
741    *     but FreeType isn't currently capable of rendering them correctly.
742    */
743   typedef enum  FT_Glyph_Format_
744   {
745     FT_IMAGE_TAG( FT_GLYPH_FORMAT_NONE, 0, 0, 0, 0 ),
746 
747     FT_IMAGE_TAG( FT_GLYPH_FORMAT_COMPOSITE, 'c', 'o', 'm', 'p' ),
748     FT_IMAGE_TAG( FT_GLYPH_FORMAT_BITMAP,    'b', 'i', 't', 's' ),
749     FT_IMAGE_TAG( FT_GLYPH_FORMAT_OUTLINE,   'o', 'u', 't', 'l' ),
750     FT_IMAGE_TAG( FT_GLYPH_FORMAT_PLOTTER,   'p', 'l', 'o', 't' )
751 
752   } FT_Glyph_Format;
753 
754 
755   /* these constants are deprecated; use the corresponding */
756   /* `FT_Glyph_Format` values instead.                     */
757 #define ft_glyph_format_none       FT_GLYPH_FORMAT_NONE
758 #define ft_glyph_format_composite  FT_GLYPH_FORMAT_COMPOSITE
759 #define ft_glyph_format_bitmap     FT_GLYPH_FORMAT_BITMAP
760 #define ft_glyph_format_outline    FT_GLYPH_FORMAT_OUTLINE
761 #define ft_glyph_format_plotter    FT_GLYPH_FORMAT_PLOTTER
762 
763 
764   /*************************************************************************/
765   /*************************************************************************/
766   /*************************************************************************/
767   /*****                                                               *****/
768   /*****            R A S T E R   D E F I N I T I O N S                *****/
769   /*****                                                               *****/
770   /*************************************************************************/
771   /*************************************************************************/
772   /*************************************************************************/
773 
774 
775   /**************************************************************************
776    *
777    * A raster is a scan converter, in charge of rendering an outline into a
778    * bitmap.  This section contains the public API for rasters.
779    *
780    * Note that in FreeType 2, all rasters are now encapsulated within
781    * specific modules called 'renderers'.  See `ftrender.h` for more details
782    * on renderers.
783    *
784    */
785 
786 
787   /**************************************************************************
788    *
789    * @section:
790    *   raster
791    *
792    * @title:
793    *   Scanline Converter
794    *
795    * @abstract:
796    *   How vectorial outlines are converted into bitmaps and pixmaps.
797    *
798    * @description:
799    *   This section contains technical definitions.
800    *
801    * @order:
802    *   FT_Raster
803    *   FT_Span
804    *   FT_SpanFunc
805    *
806    *   FT_Raster_Params
807    *   FT_RASTER_FLAG_XXX
808    *
809    *   FT_Raster_NewFunc
810    *   FT_Raster_DoneFunc
811    *   FT_Raster_ResetFunc
812    *   FT_Raster_SetModeFunc
813    *   FT_Raster_RenderFunc
814    *   FT_Raster_Funcs
815    *
816    */
817 
818 
819   /**************************************************************************
820    *
821    * @type:
822    *   FT_Raster
823    *
824    * @description:
825    *   An opaque handle (pointer) to a raster object.  Each object can be
826    *   used independently to convert an outline into a bitmap or pixmap.
827    */
828   typedef struct FT_RasterRec_*  FT_Raster;
829 
830 
831   /**************************************************************************
832    *
833    * @struct:
834    *   FT_Span
835    *
836    * @description:
837    *   A structure used to model a single span of gray pixels when rendering
838    *   an anti-aliased bitmap.
839    *
840    * @fields:
841    *   x ::
842    *     The span's horizontal start position.
843    *
844    *   len ::
845    *     The span's length in pixels.
846    *
847    *   coverage ::
848    *     The span color/coverage, ranging from 0 (background) to 255
849    *     (foreground).
850    *
851    * @note:
852    *   This structure is used by the span drawing callback type named
853    *   @FT_SpanFunc that takes the y~coordinate of the span as a parameter.
854    *
855    *   The coverage value is always between 0 and 255.  If you want less gray
856    *   values, the callback function has to reduce them.
857    */
858   typedef struct  FT_Span_
859   {
860     short           x;
861     unsigned short  len;
862     unsigned char   coverage;
863 
864   } FT_Span;
865 
866 
867   /**************************************************************************
868    *
869    * @functype:
870    *   FT_SpanFunc
871    *
872    * @description:
873    *   A function used as a call-back by the anti-aliased renderer in order
874    *   to let client applications draw themselves the gray pixel spans on
875    *   each scan line.
876    *
877    * @input:
878    *   y ::
879    *     The scanline's upward y~coordinate.
880    *
881    *   count ::
882    *     The number of spans to draw on this scanline.
883    *
884    *   spans ::
885    *     A table of `count` spans to draw on the scanline.
886    *
887    *   user ::
888    *     User-supplied data that is passed to the callback.
889    *
890    * @note:
891    *   This callback allows client applications to directly render the gray
892    *   spans of the anti-aliased bitmap to any kind of surfaces.
893    *
894    *   This can be used to write anti-aliased outlines directly to a given
895    *   background bitmap, and even perform translucency.
896    */
897   typedef void
898   (*FT_SpanFunc)( int             y,
899                   int             count,
900                   const FT_Span*  spans,
901                   void*           user );
902 
903 #define FT_Raster_Span_Func  FT_SpanFunc
904 
905 
906   /**************************************************************************
907    *
908    * @functype:
909    *   FT_Raster_BitTest_Func
910    *
911    * @description:
912    *   Deprecated, unimplemented.
913    */
914   typedef int
915   (*FT_Raster_BitTest_Func)( int    y,
916                              int    x,
917                              void*  user );
918 
919 
920   /**************************************************************************
921    *
922    * @functype:
923    *   FT_Raster_BitSet_Func
924    *
925    * @description:
926    *   Deprecated, unimplemented.
927    */
928   typedef void
929   (*FT_Raster_BitSet_Func)( int    y,
930                             int    x,
931                             void*  user );
932 
933 
934   /**************************************************************************
935    *
936    * @enum:
937    *   FT_RASTER_FLAG_XXX
938    *
939    * @description:
940    *   A list of bit flag constants as used in the `flags` field of a
941    *   @FT_Raster_Params structure.
942    *
943    * @values:
944    *   FT_RASTER_FLAG_DEFAULT ::
945    *     This value is 0.
946    *
947    *   FT_RASTER_FLAG_AA ::
948    *     This flag is set to indicate that an anti-aliased glyph image should
949    *     be generated.  Otherwise, it will be monochrome (1-bit).
950    *
951    *   FT_RASTER_FLAG_DIRECT ::
952    *     This flag is set to indicate direct rendering.  In this mode, client
953    *     applications must provide their own span callback.  This lets them
954    *     directly draw or compose over an existing bitmap.  If this bit is
955    *     _not_ set, the target pixmap's buffer _must_ be zeroed before
956    *     rendering and the output will be clipped to its size.
957    *
958    *     Direct rendering is only possible with anti-aliased glyphs.
959    *
960    *   FT_RASTER_FLAG_CLIP ::
961    *     This flag is only used in direct rendering mode.  If set, the output
962    *     will be clipped to a box specified in the `clip_box` field of the
963    *     @FT_Raster_Params structure.  Otherwise, the `clip_box` is
964    *     effectively set to the bounding box and all spans are generated.
965    */
966 #define FT_RASTER_FLAG_DEFAULT  0x0
967 #define FT_RASTER_FLAG_AA       0x1
968 #define FT_RASTER_FLAG_DIRECT   0x2
969 #define FT_RASTER_FLAG_CLIP     0x4
970 
971   /* these constants are deprecated; use the corresponding */
972   /* `FT_RASTER_FLAG_XXX` values instead                   */
973 #define ft_raster_flag_default  FT_RASTER_FLAG_DEFAULT
974 #define ft_raster_flag_aa       FT_RASTER_FLAG_AA
975 #define ft_raster_flag_direct   FT_RASTER_FLAG_DIRECT
976 #define ft_raster_flag_clip     FT_RASTER_FLAG_CLIP
977 
978 
979   /**************************************************************************
980    *
981    * @struct:
982    *   FT_Raster_Params
983    *
984    * @description:
985    *   A structure to hold the parameters used by a raster's render function,
986    *   passed as an argument to @FT_Outline_Render.
987    *
988    * @fields:
989    *   target ::
990    *     The target bitmap.
991    *
992    *   source ::
993    *     A pointer to the source glyph image (e.g., an @FT_Outline).
994    *
995    *   flags ::
996    *     The rendering flags.
997    *
998    *   gray_spans ::
999    *     The gray span drawing callback.
1000    *
1001    *   black_spans ::
1002    *     Unused.
1003    *
1004    *   bit_test ::
1005    *     Unused.
1006    *
1007    *   bit_set ::
1008    *     Unused.
1009    *
1010    *   user ::
1011    *     User-supplied data that is passed to each drawing callback.
1012    *
1013    *   clip_box ::
1014    *     An optional span clipping box expressed in _integer_ pixels
1015    *     (not in 26.6 fixed-point units).
1016    *
1017    * @note:
1018    *   The @FT_RASTER_FLAG_AA bit flag must be set in the `flags` to
1019    *   generate an anti-aliased glyph bitmap, otherwise a monochrome bitmap
1020    *   is generated.  The `target` should have appropriate pixel mode and its
1021    *   dimensions define the clipping region.
1022    *
1023    *   If both @FT_RASTER_FLAG_AA and @FT_RASTER_FLAG_DIRECT bit flags
1024    *   are set in `flags`, the raster calls an @FT_SpanFunc callback
1025    *   `gray_spans` with `user` data as an argument ignoring `target`.  This
1026    *   allows direct composition over a pre-existing user surface to perform
1027    *   the span drawing and composition.  To optionally clip the spans, set
1028    *   the @FT_RASTER_FLAG_CLIP flag and `clip_box`.  The monochrome raster
1029    *   does not support the direct mode.
1030    *
1031    *   The gray-level rasterizer always uses 256 gray levels.  If you want
1032    *   fewer gray levels, you have to use @FT_RASTER_FLAG_DIRECT and reduce
1033    *   the levels in the callback function.
1034    */
1035   typedef struct  FT_Raster_Params_
1036   {
1037     const FT_Bitmap*        target;
1038     const void*             source;
1039     int                     flags;
1040     FT_SpanFunc             gray_spans;
1041     FT_SpanFunc             black_spans;  /* unused */
1042     FT_Raster_BitTest_Func  bit_test;     /* unused */
1043     FT_Raster_BitSet_Func   bit_set;      /* unused */
1044     void*                   user;
1045     FT_BBox                 clip_box;
1046 
1047   } FT_Raster_Params;
1048 
1049 
1050   /**************************************************************************
1051    *
1052    * @functype:
1053    *   FT_Raster_NewFunc
1054    *
1055    * @description:
1056    *   A function used to create a new raster object.
1057    *
1058    * @input:
1059    *   memory ::
1060    *     A handle to the memory allocator.
1061    *
1062    * @output:
1063    *   raster ::
1064    *     A handle to the new raster object.
1065    *
1066    * @return:
1067    *   Error code.  0~means success.
1068    *
1069    * @note:
1070    *   The `memory` parameter is a typeless pointer in order to avoid
1071    *   un-wanted dependencies on the rest of the FreeType code.  In practice,
1072    *   it is an @FT_Memory object, i.e., a handle to the standard FreeType
1073    *   memory allocator.  However, this field can be completely ignored by a
1074    *   given raster implementation.
1075    */
1076   typedef int
1077   (*FT_Raster_NewFunc)( void*       memory,
1078                         FT_Raster*  raster );
1079 
1080 #define FT_Raster_New_Func  FT_Raster_NewFunc
1081 
1082 
1083   /**************************************************************************
1084    *
1085    * @functype:
1086    *   FT_Raster_DoneFunc
1087    *
1088    * @description:
1089    *   A function used to destroy a given raster object.
1090    *
1091    * @input:
1092    *   raster ::
1093    *     A handle to the raster object.
1094    */
1095   typedef void
1096   (*FT_Raster_DoneFunc)( FT_Raster  raster );
1097 
1098 #define FT_Raster_Done_Func  FT_Raster_DoneFunc
1099 
1100 
1101   /**************************************************************************
1102    *
1103    * @functype:
1104    *   FT_Raster_ResetFunc
1105    *
1106    * @description:
1107    *   FreeType used to provide an area of memory called the 'render pool'
1108    *   available to all registered rasterizers.  This was not thread safe,
1109    *   however, and now FreeType never allocates this pool.
1110    *
1111    *   This function is called after a new raster object is created.
1112    *
1113    * @input:
1114    *   raster ::
1115    *     A handle to the new raster object.
1116    *
1117    *   pool_base ::
1118    *     Previously, the address in memory of the render pool.  Set this to
1119    *     `NULL`.
1120    *
1121    *   pool_size ::
1122    *     Previously, the size in bytes of the render pool.  Set this to 0.
1123    *
1124    * @note:
1125    *   Rasterizers should rely on dynamic or stack allocation if they want to
1126    *   (a handle to the memory allocator is passed to the rasterizer
1127    *   constructor).
1128    */
1129   typedef void
1130   (*FT_Raster_ResetFunc)( FT_Raster       raster,
1131                           unsigned char*  pool_base,
1132                           unsigned long   pool_size );
1133 
1134 #define FT_Raster_Reset_Func  FT_Raster_ResetFunc
1135 
1136 
1137   /**************************************************************************
1138    *
1139    * @functype:
1140    *   FT_Raster_SetModeFunc
1141    *
1142    * @description:
1143    *   This function is a generic facility to change modes or attributes in a
1144    *   given raster.  This can be used for debugging purposes, or simply to
1145    *   allow implementation-specific 'features' in a given raster module.
1146    *
1147    * @input:
1148    *   raster ::
1149    *     A handle to the new raster object.
1150    *
1151    *   mode ::
1152    *     A 4-byte tag used to name the mode or property.
1153    *
1154    *   args ::
1155    *     A pointer to the new mode/property to use.
1156    */
1157   typedef int
1158   (*FT_Raster_SetModeFunc)( FT_Raster      raster,
1159                             unsigned long  mode,
1160                             void*          args );
1161 
1162 #define FT_Raster_Set_Mode_Func  FT_Raster_SetModeFunc
1163 
1164 
1165   /**************************************************************************
1166    *
1167    * @functype:
1168    *   FT_Raster_RenderFunc
1169    *
1170    * @description:
1171    *   Invoke a given raster to scan-convert a given glyph image into a
1172    *   target bitmap.
1173    *
1174    * @input:
1175    *   raster ::
1176    *     A handle to the raster object.
1177    *
1178    *   params ::
1179    *     A pointer to an @FT_Raster_Params structure used to store the
1180    *     rendering parameters.
1181    *
1182    * @return:
1183    *   Error code.  0~means success.
1184    *
1185    * @note:
1186    *   The exact format of the source image depends on the raster's glyph
1187    *   format defined in its @FT_Raster_Funcs structure.  It can be an
1188    *   @FT_Outline or anything else in order to support a large array of
1189    *   glyph formats.
1190    *
1191    *   Note also that the render function can fail and return a
1192    *   `FT_Err_Unimplemented_Feature` error code if the raster used does not
1193    *   support direct composition.
1194    */
1195   typedef int
1196   (*FT_Raster_RenderFunc)( FT_Raster                raster,
1197                            const FT_Raster_Params*  params );
1198 
1199 #define FT_Raster_Render_Func  FT_Raster_RenderFunc
1200 
1201 
1202   /**************************************************************************
1203    *
1204    * @struct:
1205    *   FT_Raster_Funcs
1206    *
1207    * @description:
1208    *  A structure used to describe a given raster class to the library.
1209    *
1210    * @fields:
1211    *   glyph_format ::
1212    *     The supported glyph format for this raster.
1213    *
1214    *   raster_new ::
1215    *     The raster constructor.
1216    *
1217    *   raster_reset ::
1218    *     Used to reset the render pool within the raster.
1219    *
1220    *   raster_render ::
1221    *     A function to render a glyph into a given bitmap.
1222    *
1223    *   raster_done ::
1224    *     The raster destructor.
1225    */
1226   typedef struct  FT_Raster_Funcs_
1227   {
1228     FT_Glyph_Format        glyph_format;
1229 
1230     FT_Raster_NewFunc      raster_new;
1231     FT_Raster_ResetFunc    raster_reset;
1232     FT_Raster_SetModeFunc  raster_set_mode;
1233     FT_Raster_RenderFunc   raster_render;
1234     FT_Raster_DoneFunc     raster_done;
1235 
1236   } FT_Raster_Funcs;
1237 
1238   /* */
1239 
1240 
1241 FT_END_HEADER
1242 
1243 #endif /* FTIMAGE_H_ */
1244 
1245 
1246 /* END */
1247 
1248 
1249 /* Local Variables: */
1250 /* coding: utf-8    */
1251 /* End:             */
1252