1 
2 #ifndef Py_YUV_H
3 #define Py_YUV_H
4 #ifdef __cplusplus
5 extern "C" {
6 #endif
7 
8 /*
9  * SVideo YUV 4:1:1 format.
10  *
11  * 4 consecutive quadwords describe 8 pixels on 2 lines, as depicted
12  * below.  An array of (width/4) of the below structure describes 2
13  * scan lines.
14  *
15  * +-------------------+
16  * | 00 | 01 | 02 | 03 | . . .
17  * +-------------------+
18  * | 10 | 11 | 12 | 13 | . . .
19  * +-------------------+
20  */
21 struct yuv411 {
22     struct {
23         unsigned int dummy:8;
24         unsigned int y0:8;
25         unsigned int u0:2;
26         unsigned int v0:2;
27         unsigned int y1:8;
28         unsigned int u1:2;
29         unsigned int v1:2;
30     } v[4];
31 };
32 
33 #define YUV411_Y00(y)   (y).v[0].y0
34 #define YUV411_Y01(y)   (y).v[1].y0
35 #define YUV411_Y02(y)   (y).v[2].y0
36 #define YUV411_Y03(y)   (y).v[3].y0
37 #define YUV411_Y10(y)   (y).v[0].y1
38 #define YUV411_Y11(y)   (y).v[1].y1
39 #define YUV411_Y12(y)   (y).v[2].y1
40 #define YUV411_Y13(y)   (y).v[3].y1
41 #define YUV411_U00(y)   ((y).v[0].u0<<6|(y).v[1].u0<<4|(y).v[2].u0<<2|(y).v[3].u0)
42 #define YUV411_U01(y)   YUV411_U00(y)
43 #define YUV411_U02(y)   YUV411_U00(y)
44 #define YUV411_U03(y)   YUV411_U00(y)
45 #define YUV411_U10(y)   ((y).v[0].u1<<6|(y).v[1].u1<<4|(y).v[2].u1<<2|(y).v[3].u1)
46 #define YUV411_U11(y)   YUV411_U10(y)
47 #define YUV411_U12(y)   YUV411_U10(y)
48 #define YUV411_U13(y)   YUV411_U10(y)
49 #define YUV411_V00(y)   ((y).v[0].v0<<6|(y).v[1].v0<<4|(y).v[2].v0<<2|(y).v[3].v0)
50 #define YUV411_V01(y)   YUV411_V00(y)
51 #define YUV411_V02(y)   YUV411_V00(y)
52 #define YUV411_V03(y)   YUV411_V00(y)
53 #define YUV411_V10(y)   ((y).v[0].v1<<6|(y).v[1].v1<<4|(y).v[2].v1<<2|(y).v[3].v1)
54 #define YUV411_V11(y)   YUV411_V10(y)
55 #define YUV411_V12(y)   YUV411_V10(y)
56 #define YUV411_V13(y)   YUV411_V10(y)
57 
58 /*
59  * Compression Library YUV 4:2:2 format.
60  *
61  * 1 longword describes 2 pixels.
62  *
63  * +-------+
64  * | 0 | 1 |
65  * +-------+
66  */
67 struct yuv422 {
68     unsigned int u:8;
69     unsigned int y0:8;
70     unsigned int v:8;
71     unsigned int y1:8;
72 };
73 #define YUV422_Y0(y)    (y).y0
74 #define YUV422_Y1(y)    (y).y1
75 #define YUV422_U0(y)    (y).u
76 #define YUV422_U1(y)    (y).u
77 #define YUV422_V0(y)    (y).v
78 #define YUV422_V1(y)    (y).v
79 
80 /*
81  * Compression library YUV 4:2:2 Duplicate Chroma format.
82  *
83  * This is like the previous format, but the U and V values are
84  * duplicated vertically (and hence there is some redundancy in the
85  * data).  With other words, lines 2*n and 2*n+1 have the same U and V
86  * values but different Y values.
87  */
88 
89 /*
90  * Conversion functions.
91  */
92 void yuv_sv411_to_cl422dc(int, void *, void *, int, int);
93 void yuv_sv411_to_cl422dc_quartersize(int, void *, void *, int, int);
94 void yuv_sv411_to_cl422dc_sixteenthsize(int, void *, void *, int, int);
95 
96 #ifdef __cplusplus
97 }
98 #endif
99 #endif /* !Py_YUV_H */
100