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vdr/dvbspu.h
Klaus Schmidinger 23ed5a5ed3 Version 1.3.16 
- Fixed cChannel::SetName() in case only the ShortName or Provider has changed
  (thanks to Sascha Volkenandt for reporting this one).
- Added Danish language texts (thanks to Mogens Elneff).
- Reactivated the NPTL check at startup because there appear to be still
  unsolved problems when running on NPTL systems.
- Added missing calls to cStatus::MsgOsdClear() in cSkins::Message() (thanks
  to Joachim Wilke for reporting this one, and Andreas Regel for additional
  input).
- Fixed the cDvbSpuDecoder (thanks to Marco Schlüßler).
- Fixed handling of pmAudioOnlyBlack (thanks to Stefan Huelswitt).
- Fixed a short glitch when starting a recording on the primary device while
  in replay or transfer mode (thanks to Marco Schlüßler).
- Added missing initialization of cEvent::seen.
- Checking PID language codes for ISO 639 compliance to avoid problems with
  funny characters. Invalid language codes will be stored as "???".
- The '0' key now toggles the "Day" item in the "Timers" menu between "single
  shot" and "repeating". The keys '1'...'7' can be used to toggle the individual
  days ('1' is Monday). Thanks to Sascha Klek for reporting a problem with the
  '0' key in the "Day" item of the "Timers" menu.
2004-11-14 18:00:00 +01:00

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/*
* SPU decoder for DVB devices
*
* Copyright (C) 2001.2002 Andreas Schultz <aschultz@warp10.net>
*
* This code is distributed under the terms and conditions of the
* GNU GENERAL PUBLIC LICENSE. See the file COPYING for details.
*
* parts of this file are derived from the OMS program.
*
* $Id: dvbspu.h 1.6 2004/11/06 11:42:37 kls Exp $
*/
#ifndef __DVBSPU_H
#define __DVBSPU_H
#include <inttypes.h>
#include "osd.h"
#include "spu.h"
typedef struct sDvbSpuPalDescr {
uint8_t index;
uint8_t trans;
bool operator != (const sDvbSpuPalDescr pd) const {
return index != pd.index && trans != pd.trans;
};
} aDvbSpuPalDescr[4];
typedef struct sDvbSpuRect {
int x1, y1;
int x2, y2;
int width() {
return x2 - x1 + 1;
};
int height() {
return y2 - y1 + 1;
};
bool operator != (const sDvbSpuRect r) const {
return r.x1 != x1 || r.y1 != y1 || r.x2 != x2 || r.y2 != y2;
};
}
sDvbSpuRect;
// --- cDvbSpuPalette----------------------------------
class cDvbSpuPalette {
private:
uint32_t palette[16];
private:
uint32_t yuv2rgb(uint32_t yuv_color);
public:
void setPalette(const uint32_t * pal);
uint32_t getColor(uint8_t idx, uint8_t trans) const;
};
// --- cDvbSpuBitmap----------------------------------
class cDvbSpuBitmap {
public:
private:
sDvbSpuRect bmpsize;
sDvbSpuRect minsize[4];
uint8_t *bmp;
private:
void putPixel(int xp, int yp, int len, uint8_t colorid);
void putFieldData(int field, uint8_t * data, uint8_t * endp);
public:
cDvbSpuBitmap(sDvbSpuRect size,
uint8_t * fodd, uint8_t * eodd,
uint8_t * feven, uint8_t * eeven);
~cDvbSpuBitmap();
bool getMinSize(const aDvbSpuPalDescr paldescr,
sDvbSpuRect & size) const;
cBitmap *getBitmap(const aDvbSpuPalDescr paldescr,
const cDvbSpuPalette & pal,
sDvbSpuRect & size) const;
};
// --- cDvbSpuDecoder------------------------------------
class cDvbSpuDecoder:public cSpuDecoder {
private:
cOsd * osd;
// processing state
uint8_t *spu;
uint32_t spupts;
bool clean;
bool ready;
enum spFlag { spNONE, spHIDE, spSHOW, spMENU };
spFlag state;
cSpuDecoder::eScaleMode scaleMode;
//highligh area
bool highlight;
sDvbSpuRect hlpsize;
aDvbSpuPalDescr hlpDescr;
//palette
cDvbSpuPalette palette;
// spu info's
sDvbSpuRect size;
aDvbSpuPalDescr palDescr;
uint16_t DCSQ_offset;
uint16_t prev_DCSQ_offset;
cDvbSpuBitmap *spubmp;
private:
int cmdOffs(void) {
return ((spu[2] << 8) | spu[3]);
};
int spuSize(void) {
return ((spu[0] << 8) | spu[1]);
};
int ScaleYcoord(int value);
int ScaleYres(int value);
sDvbSpuRect CalcAreaSize(sDvbSpuRect fgsize, cBitmap *fgbmp, sDvbSpuRect bgsize, cBitmap *bgbmp);
public:
cDvbSpuDecoder();
~cDvbSpuDecoder();
int setTime(uint32_t pts);
void setScaleMode(cSpuDecoder::eScaleMode ScaleMode);
void setPalette(uint32_t * pal);
void setHighlight(uint16_t sx, uint16_t sy, uint16_t ex, uint16_t ey,
uint32_t palette);
void clearHighlight(void);
void Empty(void);
void Hide(void);
void Draw(void);
bool IsVisible(void) { return osd != NULL; }
void processSPU(uint32_t pts, uint8_t * buf);
};
// --- cDvbSpuPalette -------------------------------------------
inline uint32_t cDvbSpuPalette::yuv2rgb(uint32_t yuv_color)
{
int Y, Cb, Cr;
int Ey, Epb, Epr;
int Eg, Eb, Er;
Y = (yuv_color >> 16) & 0xff;
Cb = (yuv_color) & 0xff;
Cr = (yuv_color >> 8) & 0xff;
Ey = (Y - 16);
Epb = (Cb - 128);
Epr = (Cr - 128);
/* ITU-R 709
Eg = (298*Ey - 55*Epb - 137*Epr)/256;
Eb = (298*Ey + 543*Epb)/256;
Er = (298*Ey + 460*Epr)/256;
*/
/* FCC ~= mediaLib */
Eg = (298 * Ey - 100 * Epb - 208 * Epr) / 256;
Eb = (298 * Ey + 516 * Epb) / 256;
Er = (298 * Ey + 408 * Epr) / 256;
if (Eg > 255)
Eg = 255;
if (Eg < 0)
Eg = 0;
if (Eb > 255)
Eb = 255;
if (Eb < 0)
Eb = 0;
if (Er > 255)
Er = 255;
if (Er < 0)
Er = 0;
return Eb | (Eg << 8) | (Er << 16);
}
inline uint32_t cDvbSpuPalette::getColor(uint8_t idx, uint8_t trans) const
{
uint8_t t = trans == 0x0f ? 0xff : trans << 4;
return palette[idx] | (t << 24);
}
#endif // __DVBSPU_H
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