/* * Frontend Status Monitor plugin for the Video Disk Recorder * * See the README file for copyright information and how to reach the author. * * $Id$ */ #include #include "femoncfg.h" #include "femoni18n.h" #include "femonreceiver.h" #include "femonosd.h" #include "symbols/dev0.xpm" #include "symbols/dev1.xpm" #include "symbols/dev2.xpm" #include "symbols/dev3.xpm" #include "symbols/apid1.xpm" #include "symbols/apid2.xpm" #include "symbols/ar11.xpm" #include "symbols/ar169.xpm" #include "symbols/ar2211.xpm" #include "symbols/ar43.xpm" #include "symbols/ntsc.xpm" #include "symbols/pal.xpm" #include "symbols/dolbydigital.xpm" #include "symbols/dolbydigital20.xpm" #include "symbols/dolbydigital51.xpm" #define FRONTEND_DEVICE "/dev/dvb/adapter%d/frontend%d" #define CHANNELINPUT_TIMEOUT 1000 #ifdef NTSC_SYSTEM #define OSDHEIGHT 420 // in pixels #else #define OSDHEIGHT 480 // in pixels #endif #define OSDWIDTH 600 // in pixels #define OSDINFOHEIGHT (m_Font->Height() * 11) // in pixels (11 rows) #define OSDSTATUSHEIGHT (m_Font->Height() * 6) // in pixels (6 rows) #define OSDINFOWIN_Y(offset) (femonConfig.position ? (OSDHEIGHT - OSDINFOHEIGHT + offset) : offset) #define OSDINFOWIN_X(col) ((col == 4) ? 470 : (col == 3) ? 300 : (col==2) ? 180 : 15) #define OSDSTATUSWIN_Y(offset) (femonConfig.position ? offset : (OSDHEIGHT - OSDSTATUSHEIGHT + offset)) #define OSDSTATUSWIN_X(col) ((col == 7) ? 475 : (col == 6) ? 410 : (col == 5) ? 275 : (col == 4) ? 220 : (col == 3) ? 125 : (col==2) ? 70 : 15) #define OSDSTATUSWIN_XC(col,txt) (((col - 1) * OSDWIDTH / 5) + ((OSDWIDTH / 5 - m_Font->Width(txt)) / 2)) #define BARWIDTH(x) (OSDWIDTH * x / 100) #define SPACING 5 #define clrBackground clrGray50 // this should be tied somehow into current theme cBitmap cFemonOsd::bmDevice0(dev0_xpm); cBitmap cFemonOsd::bmDevice1(dev1_xpm); cBitmap cFemonOsd::bmDevice2(dev2_xpm); cBitmap cFemonOsd::bmDevice3(dev3_xpm); cBitmap cFemonOsd::bmApid1(apid1_xpm); cBitmap cFemonOsd::bmApid2(apid2_xpm); cBitmap cFemonOsd::bmAspectRatio_1_1(ar11_xpm); cBitmap cFemonOsd::bmAspectRatio_16_9(ar169_xpm); cBitmap cFemonOsd::bmAspectRatio_2_21_1(ar2211_xpm); cBitmap cFemonOsd::bmAspectRatio_4_3(ar43_xpm); cBitmap cFemonOsd::bmPAL(pal_xpm); cBitmap cFemonOsd::bmNTSC(ntsc_xpm); cBitmap cFemonOsd::bmDD(dolbydigital_xpm); cBitmap cFemonOsd::bmDD20(dolbydigital20_xpm); cBitmap cFemonOsd::bmDD51(dolbydigital51_xpm); cFemonOsd::cFemonOsd(void) :cOsdObject(true), cThread("femon osd") { //printf("cFemonOsd::cFemonOsd()\n"); m_Osd = NULL; m_Receiver = NULL; m_Frontend = -1; m_Active = false; m_Number = 0; m_OldNumber = 0; m_InputTime = 0; m_Signal = 0; m_SNR = 0; m_BER = 0; m_UNC = 0; m_DisplayMode = femonConfig.displaymode; m_Mutex = new cMutex(); if (Setup.UseSmallFont == 0) { // Dirty hack to force the small fonts... Setup.UseSmallFont = 1; m_Font = cFont::GetFont(fontSml); Setup.UseSmallFont = 0; } else m_Font = cFont::GetFont(fontSml); } cFemonOsd::~cFemonOsd(void) { //printf("cFemonOsd::~cFemonOsd()\n"); if (m_Active) { m_Active = false; Cancel(3); } if (m_Receiver) delete m_Receiver; if (m_Osd) delete m_Osd; } void cFemonOsd::DrawStatusWindow(void) { cMutexLock lock(m_Mutex); //printf("cFemonOsd::DrawStatusWindow()\n"); char buf[128]; int snr = m_SNR / 655; int signal = m_Signal / 655; int offset = 0; int x = OSDWIDTH; int y = 0; cChannel *channel = Channels.GetByNumber(cDevice::CurrentChannel()); if (m_Osd) { m_Osd->DrawRectangle(0, OSDSTATUSWIN_Y(0), OSDWIDTH, OSDSTATUSWIN_Y(OSDSTATUSHEIGHT), clrBackground); snprintf(buf, sizeof(buf), "%d%s %s", m_Number ? m_Number : channel->Number(), m_Number ? "-" : "", channel->Name()); m_Osd->DrawRectangle(0, OSDSTATUSWIN_Y(offset), OSDWIDTH, OSDSTATUSWIN_Y(offset+m_Font->Height()-1), clrWhite); m_Osd->DrawText(OSDSTATUSWIN_X(1), OSDSTATUSWIN_Y(offset), buf, clrBlack, clrWhite, m_Font); if (m_Receiver) { int value = cDevice::ActualDevice()->CardIndex(); if (value == 0) { x -= bmDevice0.Width() + SPACING; y = (m_Font->Height() - bmDevice0.Height()) / 2; if (y < 0) y = 0; m_Osd->DrawBitmap(x, OSDSTATUSWIN_Y(offset+y), bmDevice0, clrBlack, clrWhite); } else if (value == 1) { x -= bmDevice1.Width() + SPACING; y = (m_Font->Height() - bmDevice1.Height()) / 2; if (y < 0) y = 0; m_Osd->DrawBitmap(x, OSDSTATUSWIN_Y(offset+y), bmDevice1, clrBlack, clrWhite); } else if (value == 2) { x -= bmDevice2.Width() + SPACING; y = (m_Font->Height() - bmDevice2.Height()) / 2; if (y < 0) y = 0; m_Osd->DrawBitmap(x, OSDSTATUSWIN_Y(offset+y), bmDevice2, clrBlack, clrWhite); } else if (value == 3) { x -= bmDevice3.Width() + SPACING; y = (m_Font->Height() - bmDevice3.Height()) / 2; if (y < 0) y = 0; m_Osd->DrawBitmap(x, OSDSTATUSWIN_Y(offset+y), bmDevice3, clrBlack, clrWhite); } value = -1; const char **AudioTracks = cDevice::PrimaryDevice()->GetAudioTracks(&value); if (AudioTracks) { if (value == 0) { x -= bmApid1.Width() + SPACING; y = (m_Font->Height() - bmApid1.Height()) / 2; if (y < 0) y = 0; m_Osd->DrawBitmap(x, OSDSTATUSWIN_Y(offset+y), bmApid1, clrBlack, clrWhite); } else if (value == 1) { x -= bmApid2.Width() + SPACING; y = (m_Font->Height() - bmApid2.Height()) / 2; if (y < 0) y = 0; m_Osd->DrawBitmap(x, OSDSTATUSWIN_Y(offset+y), bmApid2, clrBlack, clrWhite); } } value = m_Receiver->VideoFormat(); if (value == VF_PAL) { x -= bmPAL.Width() + SPACING; y = (m_Font->Height() - bmPAL.Height()) / 2; if (y < 0) y = 0; m_Osd->DrawBitmap(x, OSDSTATUSWIN_Y(offset+y), bmPAL, clrBlack, clrWhite); } else if (value == VF_NTSC) { x -= bmNTSC.Width() + SPACING; y = (m_Font->Height() - bmNTSC.Height()) / 2; if (y < 0) y = 0; m_Osd->DrawBitmap(x, OSDSTATUSWIN_Y(offset+y), bmNTSC, clrBlack, clrWhite); } value = m_Receiver->VideoAspectRatio(); if (value == AR_1_1) { x -= bmAspectRatio_1_1.Width() + SPACING; y = (m_Font->Height() - bmAspectRatio_1_1.Height()) / 2; if (y < 0) y = 0; m_Osd->DrawBitmap(x, OSDSTATUSWIN_Y(offset+y), bmAspectRatio_1_1, clrBlack, clrWhite); } else if (value == AR_4_3) { x -= bmAspectRatio_4_3.Width() + SPACING; y = (m_Font->Height() - bmAspectRatio_4_3.Height()) / 2; if (y < 0) y = 0; m_Osd->DrawBitmap(x, OSDSTATUSWIN_Y(offset+y), bmAspectRatio_4_3, clrBlack, clrWhite); } else if (value == AR_16_9) { x -= bmAspectRatio_16_9.Width() + SPACING; y = (m_Font->Height() - bmAspectRatio_16_9.Height()) / 2; if (y < 0) y = 0; m_Osd->DrawBitmap(x, OSDSTATUSWIN_Y(offset+y), bmAspectRatio_16_9, clrBlack, clrWhite); } else if (value == AR_2_21_1) { x -= bmAspectRatio_2_21_1.Width() + SPACING; y = (m_Font->Height() - bmAspectRatio_2_21_1.Height()) / 2; if (y < 0) y = 0; m_Osd->DrawBitmap(x, OSDSTATUSWIN_Y(offset+y), bmAspectRatio_2_21_1, clrBlack, clrWhite); } if (m_Receiver && m_Receiver->AC3Valid()) { if (m_Receiver->AC3_5_1()) { x -= bmDD51.Width() + SPACING; y = (m_Font->Height() - bmDD51.Height()) / 2; if (y < 0) y = 0; m_Osd->DrawBitmap(x, OSDSTATUSWIN_Y(offset+y), bmDD51, clrBlack, clrWhite); } else if (m_Receiver->AC3_2_0()) { x -= bmDD20.Width() + SPACING; y = (m_Font->Height() - bmDD20.Height()) / 2; if (y < 0) y = 0; m_Osd->DrawBitmap(x, OSDSTATUSWIN_Y(offset+y), bmDD20, clrBlack, clrWhite); } else { x -= bmDD.Width() + SPACING; y = (m_Font->Height() - bmDD.Height()) / 2; if (y < 0) y = 0; m_Osd->DrawBitmap(x, OSDSTATUSWIN_Y(offset+y), bmDD, clrBlack, clrWhite); } } } offset += m_Font->Height(); if (signal > 0) { signal = BARWIDTH(signal); m_Osd->DrawRectangle(0, OSDSTATUSWIN_Y(offset+3), min(BARWIDTH(femonConfig.redlimit), signal), OSDSTATUSWIN_Y(offset+m_Font->Height()-3), clrRed); if (signal > BARWIDTH(femonConfig.redlimit)) { m_Osd->DrawRectangle(BARWIDTH(femonConfig.redlimit), OSDSTATUSWIN_Y(offset+3), min((OSDWIDTH * femonConfig.greenlimit / 100), signal), OSDSTATUSWIN_Y(offset+m_Font->Height()-3), clrYellow); } if (signal > BARWIDTH(femonConfig.greenlimit)) { m_Osd->DrawRectangle(BARWIDTH(femonConfig.greenlimit), OSDSTATUSWIN_Y(offset+3), signal, OSDSTATUSWIN_Y(offset+m_Font->Height()-3), clrGreen); } } offset += m_Font->Height(); if (snr > 0) { snr = BARWIDTH(snr); m_Osd->DrawRectangle(0, OSDSTATUSWIN_Y(offset+3), min(BARWIDTH(femonConfig.redlimit), snr), OSDSTATUSWIN_Y(offset+m_Font->Height()-3), clrRed); if (snr > BARWIDTH(femonConfig.redlimit)) { m_Osd->DrawRectangle(BARWIDTH(femonConfig.redlimit), OSDSTATUSWIN_Y(offset+3), min(BARWIDTH(femonConfig.greenlimit), snr), OSDSTATUSWIN_Y(offset+m_Font->Height()-3), clrYellow); } if (snr > BARWIDTH(femonConfig.greenlimit)) { m_Osd->DrawRectangle(BARWIDTH(femonConfig.greenlimit), OSDSTATUSWIN_Y(offset+3), snr, OSDSTATUSWIN_Y(offset+m_Font->Height()-3), clrGreen); } } offset += m_Font->Height(); m_Osd->DrawText(OSDSTATUSWIN_X(1), OSDSTATUSWIN_Y(offset), "STR:", clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%04x", m_Signal); m_Osd->DrawText(OSDSTATUSWIN_X(2), OSDSTATUSWIN_Y(offset), buf, clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "(%2d%%)", m_Signal / 655); m_Osd->DrawText(OSDSTATUSWIN_X(3), OSDSTATUSWIN_Y(offset), buf, clrWhite, clrBackground, m_Font); m_Osd->DrawText(OSDSTATUSWIN_X(4), OSDSTATUSWIN_Y(offset), "BER:", clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%08x", m_BER); m_Osd->DrawText(OSDSTATUSWIN_X(5), OSDSTATUSWIN_Y(offset), buf, clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%s:", tr("Video")); m_Osd->DrawText(OSDSTATUSWIN_X(6), OSDSTATUSWIN_Y(offset), buf, clrWhite, clrBackground, m_Font); if (m_Receiver) snprintf(buf, sizeof(buf), "%.2f %s", m_Receiver->VideoBitrate(), tr("Mbit/s")); else snprintf(buf, sizeof(buf), "--- %s", tr("Mbit/s")); m_Osd->DrawText(OSDSTATUSWIN_X(7), OSDSTATUSWIN_Y(offset), buf, clrWhite, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDSTATUSWIN_X(1), OSDSTATUSWIN_Y(offset), "SNR:", clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%04x", m_SNR); m_Osd->DrawText(OSDSTATUSWIN_X(2), OSDSTATUSWIN_Y(offset), buf, clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "(%2d%%)", m_SNR / 655); m_Osd->DrawText(OSDSTATUSWIN_X(3), OSDSTATUSWIN_Y(offset), buf, clrWhite, clrBackground, m_Font); m_Osd->DrawText(OSDSTATUSWIN_X(4), OSDSTATUSWIN_Y(offset), "UNC:", clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%08x", m_UNC); m_Osd->DrawText(OSDSTATUSWIN_X(5), OSDSTATUSWIN_Y(offset), buf, clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%s:", (m_Receiver && m_Receiver->AC3Valid()) ? tr("AC-3") : tr("Audio")); m_Osd->DrawText(OSDSTATUSWIN_X(6), OSDSTATUSWIN_Y(offset), buf, clrWhite, clrBackground, m_Font); if (m_Receiver) snprintf(buf, sizeof(buf), "%.0f %s", m_Receiver->AC3Valid() ? m_Receiver->AC3Bitrate() : m_Receiver->AudioBitrate(), tr("kbit/s")); else snprintf(buf, sizeof(buf), "--- %s", tr("kbit/s")); m_Osd->DrawText(OSDSTATUSWIN_X(7), OSDSTATUSWIN_Y(offset), buf, clrWhite, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDSTATUSWIN_XC(1,tr("LOCK")), OSDSTATUSWIN_Y(offset), tr("LOCK"), (m_FrontendStatus & FE_HAS_LOCK) ? clrYellow : clrBlack, clrBackground, m_Font); m_Osd->DrawText(OSDSTATUSWIN_XC(2,tr("SIGNAL")), OSDSTATUSWIN_Y(offset), tr("SIGNAL"), (m_FrontendStatus & FE_HAS_SIGNAL) ? clrYellow : clrBlack, clrBackground, m_Font); m_Osd->DrawText(OSDSTATUSWIN_XC(3,tr("CARRIER")), OSDSTATUSWIN_Y(offset), tr("CARRIER"),(m_FrontendStatus & FE_HAS_CARRIER)? clrYellow : clrBlack, clrBackground, m_Font); m_Osd->DrawText(OSDSTATUSWIN_XC(4,tr("VITERBI")), OSDSTATUSWIN_Y(offset), tr("VITERBI"),(m_FrontendStatus & FE_HAS_VITERBI)? clrYellow : clrBlack, clrBackground, m_Font); m_Osd->DrawText(OSDSTATUSWIN_XC(5,tr("SYNC")), OSDSTATUSWIN_Y(offset), tr("SYNC"), (m_FrontendStatus & FE_HAS_SYNC) ? clrYellow : clrBlack, clrBackground, m_Font); m_Osd->Flush(); } } void cFemonOsd::DrawInfoWindow(void) { cMutexLock lock(m_Mutex); //printf("cFemonOsd::DrawInfoWindow()\n"); char buf[128]; char buf2[20]; int offset = 0; int value = 0; double dvalue = 0.0; cChannel *channel = Channels.GetByNumber(cDevice::CurrentChannel()); if (m_Osd) { if (m_DisplayMode == modeTransponder) { m_Osd->DrawRectangle(0, OSDINFOWIN_Y(0), OSDWIDTH, OSDINFOWIN_Y(OSDINFOHEIGHT), clrBackground); m_Osd->DrawRectangle(0, OSDINFOWIN_Y(offset), OSDWIDTH, OSDINFOWIN_Y(offset+m_Font->Height()-1), clrWhite); m_Osd->DrawText( OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Transponder Information"), clrBackground, clrWhite, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Vpid"), clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%d", channel->Vpid()); m_Osd->DrawText(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Ppid"), clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%d", channel->Ppid()); m_Osd->DrawText(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Apid1"), clrWhite, clrBackground, m_Font); value = channel->Apid2(); if (value) snprintf(buf, sizeof(buf), "%d, %d", channel->Apid1(), value); else snprintf(buf, sizeof(buf), "%d", channel->Apid1()); m_Osd->DrawText(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Dpid1"), clrWhite, clrBackground, m_Font); value = channel->Dpid2(); if (value) snprintf(buf, sizeof(buf), "%d, %d", channel->Dpid1(), value); else snprintf(buf, sizeof(buf), "%d", channel->Dpid1()); m_Osd->DrawText(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("CA"), clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%X", channel->Ca()); m_Osd->DrawText(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Tpid"), clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%d", channel->Tpid()); m_Osd->DrawText(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Sid"), clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%d", channel->Sid()); m_Osd->DrawText(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Nid"), clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%d", channel->Nid()); m_Osd->DrawText(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Tid"), clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%d", channel->Tid()); m_Osd->DrawText(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Rid"), clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%d", channel->Rid()); m_Osd->DrawText(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); switch (m_FrontendInfo.type) { case FE_QPSK: snprintf(buf, sizeof(buf), "%s #%d - %s", tr("Satellite Card"), cDevice::ActualDevice()->CardIndex(), m_FrontendInfo.name); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Frequency"), clrWhite, clrBackground, m_Font); value = channel->Frequency(); while (value > 20000) value /= 1000; snprintf(buf, sizeof(buf), "%d %s", value, tr("MHz")); m_Osd->DrawText(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Source"), clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%s", cSource::ToString(channel->Source())); m_Osd->DrawText(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Srate"), clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%d", channel->Srate()); m_Osd->DrawText(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Polarization"), clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%c", toupper(channel->Polarization())); m_Osd->DrawText(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Inversion"), clrWhite, clrBackground, m_Font); value = channel->Inversion(); if (value == INVERSION_OFF) snprintf(buf, sizeof(buf), tr("Off")); else if (value == INVERSION_ON) snprintf(buf, sizeof(buf), tr("On")); else /*INVERSION_AUTO*/ snprintf(buf, sizeof(buf), tr("Auto")); m_Osd->DrawText(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("CoderateH"), clrWhite, clrBackground, m_Font); value = channel->CoderateH(); if (value == FEC_NONE) snprintf(buf, sizeof(buf), tr("None")); else if (value == FEC_1_2) snprintf(buf, sizeof(buf), "1/2"); else if (value == FEC_2_3) snprintf(buf, sizeof(buf), "2/3"); else if (value == FEC_3_4) snprintf(buf, sizeof(buf), "3/4"); else if (value == FEC_4_5) snprintf(buf, sizeof(buf), "4/5"); else if (value == FEC_5_6) snprintf(buf, sizeof(buf), "5/6"); else if (value == FEC_6_7) snprintf(buf, sizeof(buf), "6/7"); else if (value == FEC_7_8) snprintf(buf, sizeof(buf), "7/8"); else if (value == FEC_8_9) snprintf(buf, sizeof(buf), "8/9"); else /*FEC_AUTO*/ snprintf(buf, sizeof(buf), tr("Auto")); m_Osd->DrawText(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); break; case FE_QAM: snprintf(buf, sizeof(buf), "%s #%d - %s", tr("Cable Card"), cDevice::ActualDevice()->CardIndex(), m_FrontendInfo.name); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Frequency"), clrWhite, clrBackground, m_Font); value = channel->Frequency(); while (value > 20000) value /= 1000; snprintf(buf, sizeof(buf), "%d %s", value, tr("MHz")); m_Osd->DrawText(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Source"), clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%s", cSource::ToString(channel->Source())); m_Osd->DrawText(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Srate"), clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%d", channel->Srate()); m_Osd->DrawText(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Modulation"), clrWhite, clrBackground, m_Font); value = channel->Modulation(); if (value == QPSK) snprintf(buf, sizeof(buf), "QPSK"); else if (value == QAM_16) snprintf(buf, sizeof(buf), "QAM 16"); else if (value == QAM_32) snprintf(buf, sizeof(buf), "QAM 32"); else if (value == QAM_64) snprintf(buf, sizeof(buf), "QAM 64"); else if (value == QAM_128) snprintf(buf, sizeof(buf), "QAM 128"); else if (value == QAM_256) snprintf(buf, sizeof(buf), "QAM 256"); else /*QAM_AUTO*/ snprintf(buf, sizeof(buf), "QAM %s", tr("Auto")); m_Osd->DrawText(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Inversion"), clrWhite, clrBackground, m_Font); value = channel->Inversion(); if (value == INVERSION_OFF) snprintf(buf, sizeof(buf), tr("Off")); else if (value == INVERSION_ON) snprintf(buf, sizeof(buf), tr("On")); else /*INVERSION_AUTO*/ snprintf(buf, sizeof(buf), tr("Auto")); m_Osd->DrawText(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("CoderateH"), clrWhite, clrBackground, m_Font); value = channel->CoderateH(); if (value == FEC_NONE) snprintf(buf, sizeof(buf), tr("None")); else if (value == FEC_1_2) snprintf(buf, sizeof(buf), "1/2"); else if (value == FEC_2_3) snprintf(buf, sizeof(buf), "2/3"); else if (value == FEC_3_4) snprintf(buf, sizeof(buf), "3/4"); else if (value == FEC_4_5) snprintf(buf, sizeof(buf), "4/5"); else if (value == FEC_5_6) snprintf(buf, sizeof(buf), "5/6"); else if (value == FEC_6_7) snprintf(buf, sizeof(buf), "6/7"); else if (value == FEC_7_8) snprintf(buf, sizeof(buf), "7/8"); else if (value == FEC_8_9) snprintf(buf, sizeof(buf), "8/9"); else /*FEC_AUTO*/ snprintf(buf, sizeof(buf), tr("Auto")); m_Osd->DrawText(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); break; default: snprintf(buf, sizeof(buf), "%s #%d - %s", tr("Terrestial Card"), cDevice::ActualDevice()->CardIndex(), m_FrontendInfo.name); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Frequency"), clrWhite, clrBackground, m_Font); value = channel->Frequency(); while (value > 20000) value /= 1000; snprintf(buf, sizeof(buf), "%d %s", value, tr("MHz")); m_Osd->DrawText(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Transmission"), clrWhite, clrBackground, m_Font); value = channel->Transmission(); if (value == TRANSMISSION_MODE_2K) snprintf(buf, sizeof(buf), "2K"); else if (value == TRANSMISSION_MODE_8K) snprintf(buf, sizeof(buf), "8K"); else /*TRANSMISSION_MODE_AUTO*/ snprintf(buf, sizeof(buf), tr("Auto")); m_Osd->DrawText(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText( OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Bandwidth"), clrWhite, clrBackground, m_Font); value = channel->Bandwidth(); if (value == BANDWIDTH_8_MHZ) snprintf(buf, sizeof(buf), "8 %s", tr("MHz")); else if (value == BANDWIDTH_7_MHZ) snprintf(buf, sizeof(buf), "7 %s", tr("MHz")); else if (value == BANDWIDTH_6_MHZ) snprintf(buf, sizeof(buf), "6 %s", tr("MHz")); else /*BANDWIDTH_AUTO*/ snprintf(buf, sizeof(buf), tr("Auto")); m_Osd->DrawText(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Modulation"), clrWhite, clrBackground, m_Font); value = channel->Modulation(); if (value == QPSK) snprintf(buf, sizeof(buf), "QPSK"); else if (value == QAM_16) snprintf(buf, sizeof(buf), "QAM 16"); else if (value == QAM_32) snprintf(buf, sizeof(buf), "QAM 32"); else if (value == QAM_64) snprintf(buf, sizeof(buf), "QAM 64"); else if (value == QAM_128) snprintf(buf, sizeof(buf), "QAM 128"); else if (value == QAM_256) snprintf(buf, sizeof(buf), "QAM 256"); else /*QAM_AUTO*/ snprintf(buf, sizeof(buf), "QAM %s", tr("Auto")); m_Osd->DrawText(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Inversion"), clrWhite, clrBackground, m_Font); value = channel->Inversion(); if (value == INVERSION_OFF) snprintf(buf, sizeof(buf), tr("Off")); else if (value == INVERSION_ON) snprintf(buf, sizeof(buf), tr("On")); else /*INVERSION_AUTO*/ snprintf(buf, sizeof(buf), tr("Auto")); m_Osd->DrawText(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("CoderateH"), clrWhite, clrBackground, m_Font); value = channel->CoderateH(); if (value == FEC_NONE) snprintf(buf, sizeof(buf), tr("None")); else if (value == FEC_1_2) snprintf(buf, sizeof(buf), "1/2"); else if (value == FEC_2_3) snprintf(buf, sizeof(buf), "2/3"); else if (value == FEC_3_4) snprintf(buf, sizeof(buf), "3/4"); else if (value == FEC_4_5) snprintf(buf, sizeof(buf), "4/5"); else if (value == FEC_5_6) snprintf(buf, sizeof(buf), "5/6"); else if (value == FEC_6_7) snprintf(buf, sizeof(buf), "6/7"); else if (value == FEC_7_8) snprintf(buf, sizeof(buf), "7/8"); else if (value == FEC_8_9) snprintf(buf, sizeof(buf), "8/9"); else /*FEC_AUTO*/ snprintf(buf, sizeof(buf), tr("Auto")); value = channel->CoderateL(); if (value == FEC_NONE) snprintf(buf2, sizeof(buf2), " - %s", tr("None")); else if (value == FEC_1_2) snprintf(buf2, sizeof(buf2), " - 1/2"); else if (value == FEC_2_3) snprintf(buf2, sizeof(buf2), " - 2/3"); else if (value == FEC_3_4) snprintf(buf2, sizeof(buf2), " - 3/4"); else if (value == FEC_4_5) snprintf(buf2, sizeof(buf2), " - 4/5"); else if (value == FEC_5_6) snprintf(buf2, sizeof(buf2), " - 5/6"); else if (value == FEC_6_7) snprintf(buf2, sizeof(buf2), " - 6/7"); else if (value == FEC_7_8) snprintf(buf2, sizeof(buf2), " - 7/8"); else if (value == FEC_8_9) snprintf(buf2, sizeof(buf2), " - 8/9"); else /*FEC_AUTO*/ snprintf(buf2, sizeof(buf2), " - %s", tr("Auto")); strncat(buf, buf2, sizeof(buf)); m_Osd->DrawText(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Hierarchy"), clrWhite, clrBackground, m_Font); value = channel->Hierarchy(); if (value == HIERARCHY_NONE) snprintf(buf, sizeof(buf), tr("None")); else if (value == HIERARCHY_1) snprintf(buf, sizeof(buf), "1"); else if (value == HIERARCHY_2) snprintf(buf, sizeof(buf), "2"); else if (value == HIERARCHY_4) snprintf(buf, sizeof(buf), "4"); else /*HIERARCHY_AUTO*/ snprintf(buf, sizeof(buf), tr("Auto")); m_Osd->DrawText(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Guard"), clrWhite, clrBackground, m_Font); value = channel->Guard(); if (value == GUARD_INTERVAL_1_32) snprintf(buf, sizeof(buf), "1/32"); else if (value == GUARD_INTERVAL_1_16) snprintf(buf, sizeof(buf), "1/16"); else if (value == GUARD_INTERVAL_1_8) snprintf(buf, sizeof(buf), "1/8"); else if (value == GUARD_INTERVAL_1_4) snprintf(buf, sizeof(buf), "1/4"); else /*GUARD_INTERVAL_AUTO*/ snprintf(buf, sizeof(buf), tr("Auto")); m_Osd->DrawText(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); break; } } else if (m_DisplayMode == modeStream) { m_Osd->DrawRectangle(0, OSDINFOWIN_Y(0), OSDWIDTH, OSDINFOWIN_Y(OSDINFOHEIGHT), clrBackground); m_Osd->DrawRectangle(0, OSDINFOWIN_Y(offset), OSDWIDTH, OSDINFOWIN_Y(offset+m_Font->Height()-1), clrWhite); m_Osd->DrawText( OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Stream Information"), clrBackground, clrWhite, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Video Stream"), clrYellow, clrBackground, m_Font); snprintf(buf, sizeof(buf), "#%d", channel->Vpid()); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Bitrate"), clrWhite, clrBackground, m_Font); if (m_Receiver) snprintf(buf, sizeof(buf), "%.2f %s (%.2f %s)", m_Receiver->VideoStreamBitrate(), tr("Mbit/s"), m_Receiver->VideoBitrate(), tr("Mbit/s")); else snprintf(buf, sizeof(buf), "---"); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Aspect Ratio"), clrWhite, clrBackground, m_Font); if (m_Receiver) { value = m_Receiver->VideoAspectRatio(); if (value == AR_1_1) snprintf(buf, sizeof(buf), "1:1"); else if (value == AR_4_3) snprintf(buf, sizeof(buf), "4:3"); else if (value == AR_16_9) snprintf(buf, sizeof(buf), "16:9"); else if (value == AR_2_21_1) snprintf(buf, sizeof(buf), "2.21:1"); else snprintf(buf, sizeof(buf), "%s", tr("reserved")); } else snprintf(buf, sizeof(buf), "---"); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Frame Rate"), clrWhite, clrBackground, m_Font); if (m_Receiver) snprintf(buf, sizeof(buf), "%.2f %s", m_Receiver->VideoFrameRate(), tr("Hz")); else snprintf(buf, sizeof(buf), "---"); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Video Format"), clrWhite, clrBackground, m_Font); if (m_Receiver) { value = m_Receiver->VideoFormat(); if (value == VF_PAL) snprintf(buf, sizeof(buf), "%s", tr("PAL")); else if (value == VF_NTSC) snprintf(buf, sizeof(buf), "%s", tr("NTSC")); else snprintf(buf, sizeof(buf), "%s", tr("unknown")); } else snprintf(buf, sizeof(buf), "---"); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Resolution"), clrWhite, clrBackground, m_Font); if (m_Receiver) snprintf(buf, sizeof(buf), "%d x %d", m_Receiver->VideoHorizontalSize(), m_Receiver->VideoVerticalSize()); else snprintf(buf, sizeof(buf), "---"); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Audio Stream"), clrYellow, clrBackground, m_Font); value = -1; cDevice::PrimaryDevice()->GetAudioTracks(&value); snprintf(buf, sizeof(buf), "#%d", (value > 0 ? channel->Apid2() : channel->Apid1())); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Bitrate"), clrWhite, clrBackground, m_Font); if (m_Receiver) { dvalue = m_Receiver->AudioStreamBitrate(); if (dvalue == (double)FR_RESERVED) snprintf(buf, sizeof(buf), "%s (%.0f %s)", tr("reserved"), m_Receiver->AudioBitrate(), tr("kbit/s")); else if (dvalue == (double)FR_FREE) snprintf(buf, sizeof(buf), "%s (%.0f %s)", tr("free"), m_Receiver->AudioBitrate(), tr("kbit/s")); else snprintf(buf, sizeof(buf), "%.0f %s (%.0f %s)", dvalue, tr("kbit/s"), m_Receiver->AudioBitrate(), tr("kbit/s")); } else snprintf(buf, sizeof(buf), "---"); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("MPEG Layer"), clrWhite, clrBackground, m_Font); if (m_Receiver) snprintf(buf, sizeof(buf), "%d", m_Receiver->AudioMPEGLayer()); else snprintf(buf, sizeof(buf), "---"); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Sampling Frequency"), clrWhite, clrBackground, m_Font); if (m_Receiver) { value = m_Receiver->AudioSamplingFreq(); if (value == FR_RESERVED) snprintf(buf, sizeof(buf), "%s", tr("reserved")); else snprintf(buf, sizeof(buf), "%.1f %s", (value / 1000.0), tr("kHz")); } else snprintf(buf, sizeof(buf), "---"); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); } else if (m_DisplayMode == modeAC3) { m_Osd->DrawRectangle(0, OSDINFOWIN_Y(0), OSDWIDTH, OSDINFOWIN_Y(OSDINFOHEIGHT), clrBackground); m_Osd->DrawRectangle(0, OSDINFOWIN_Y(offset), OSDWIDTH, OSDINFOWIN_Y(offset+m_Font->Height()-1), clrWhite); snprintf(buf, sizeof(buf), "%s - %s #%d", tr("Stream Information"), tr("AC-3 Stream"), channel->Dpid1()); m_Osd->DrawText( OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), buf, clrBackground, clrWhite, m_Font); offset += m_Font->Height(); if (m_Receiver && m_Receiver->AC3Valid()) { m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Bitrate"), clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%.0f %s (%0.f %s)", m_Receiver->AC3StreamBitrate(), tr("kbit/s"), m_Receiver->AC3Bitrate(), tr("kbit/s")); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Sampling Frequency"), clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%.1f %s", m_Receiver->AC3SamplingFreq() / 1000., tr("kHz")); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Frame Size"), clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%d", m_Receiver->AC3FrameSize()); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Bit Stream Mode"), clrWhite, clrBackground, m_Font); switch (m_Receiver->AC3BitStreamMode()) { case 0: snprintf(buf, sizeof(buf), tr("Complete Main (CM)")); break; case 1: snprintf(buf, sizeof(buf), tr("Music and Effects (ME)")); break; case 2: snprintf(buf, sizeof(buf), tr("Visually Impaired (VI)")); break; case 3: snprintf(buf, sizeof(buf), tr("Hearing Impaired (HI)")); break; case 4: snprintf(buf, sizeof(buf), tr("Dialogue (D)")); break; case 5: snprintf(buf, sizeof(buf), tr("Commentary (C)")); break; case 6: snprintf(buf, sizeof(buf), tr("Emergency (E)")); break; case 7: (m_Receiver->AC3AudioCodingMode() == 1) ? snprintf(buf, sizeof(buf), tr("Voice Over (VO)")) : snprintf(buf, sizeof(buf), tr("Karaoke")); break; default: snprintf(buf, sizeof(buf), "---"); } m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Audio Coding Mode"), clrWhite, clrBackground, m_Font); if (m_Receiver->AC3BitStreamMode() != 7) { switch (m_Receiver->AC3AudioCodingMode()) { case 0: snprintf(buf, sizeof(buf), "1+1 - %s, %s", tr("Ch1"), tr("Ch2")); break; case 1: snprintf(buf, sizeof(buf), "1/0 - %s", tr("C")); break; case 2: snprintf(buf, sizeof(buf), "2/0 - %s, %s", tr("L"), tr("R")); break; case 3: snprintf(buf, sizeof(buf), "3/0 - %s, %s, %s", tr("L"), tr("C"), tr("R")); break; case 4: snprintf(buf, sizeof(buf), "2/1 - %s, %s, %s", tr("L"), tr("R"), tr("S")); break; case 5: snprintf(buf, sizeof(buf), "3/1 - %s, %s, %s, %s", tr("L"), tr("C"), tr("R"), tr("S")); break; case 6: snprintf(buf, sizeof(buf), "2/2 - %s, %s, %s, %s", tr("L"), tr("R"), tr("SL"), tr("SR")); break; case 7: snprintf(buf, sizeof(buf), "3/2 - %s, %s, %s, %s, %s", tr("L"), tr("C"), tr("R"), tr("SL"), tr("SR")); break; default: snprintf(buf, sizeof(buf), "---"); } } else snprintf(buf, sizeof(buf), "---"); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Center Mix Level"), clrWhite, clrBackground, m_Font); switch (m_Receiver->AC3CenterMixLevel()) { case CML_MINUS_3dB: snprintf(buf, sizeof(buf), "-3.0 %s", tr("dB")); break; case CML_MINUS_4_5dB: snprintf(buf, sizeof(buf), "-4.5 %s", tr("dB")); break; case CML_MINUS_6dB: snprintf(buf, sizeof(buf), "-6.0 %s", tr("dB")); break; case CML_RESERVED: snprintf(buf, sizeof(buf), "%s", tr("reserved")); break; default: snprintf(buf, sizeof(buf), "---"); } m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Surround Mix Level"), clrWhite, clrBackground, m_Font); switch (m_Receiver->AC3SurroundMixLevel()) { case SML_MINUS_3dB: snprintf(buf, sizeof(buf), "-3 %s", tr("dB")); break; case SML_MINUS_6dB: snprintf(buf, sizeof(buf), "-6 %s", tr("dB")); break; case SML_0_dB: snprintf(buf, sizeof(buf), "0 %s", tr("dB")); break; case SML_RESERVED: snprintf(buf, sizeof(buf), "%s", tr("reserved")); break; default: snprintf(buf, sizeof(buf), "---"); } m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Dolby Surround Mode"), clrWhite, clrBackground, m_Font); switch (m_Receiver->AC3DolbySurroundMode()) { case DSM_NOT_INDICATED: snprintf(buf, sizeof(buf), "%s", tr("not indicated")); break; case DSM_NOT_DOLBYSURROUND: snprintf(buf, sizeof(buf), "%s", tr("no")); break; case DSM_DOLBYSURROUND: snprintf(buf, sizeof(buf), "%s", tr("yes")); break; case DSM_RESERVED: snprintf(buf, sizeof(buf), "%s", tr("reserved")); break; default: snprintf(buf, sizeof(buf), "---"); } m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Low Frequency Effects"), clrWhite, clrBackground, m_Font); snprintf(buf, sizeof(buf), "%s", m_Receiver->AC3LfeOn() ? tr("On") : tr("Off")); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); m_Osd->DrawText(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Dialogue Normalization"), clrWhite, clrBackground, m_Font); value = m_Receiver->AC3DialogLevel(); if (value > 0) snprintf(buf, sizeof(buf), "-%d %s", value, tr("dB")); else snprintf(buf, sizeof(buf), "---"); m_Osd->DrawText(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_Font); offset += m_Font->Height(); } } else /* modeBasic */ { m_Osd->DrawRectangle(0, OSDINFOWIN_Y(0), OSDWIDTH, OSDINFOWIN_Y(OSDINFOHEIGHT), clrTransparent); } m_Osd->Flush(); } } void cFemonOsd::Action(void) { //printf("cFemonOsd::Action()\n"); m_Active = true; while (m_Active) { if (m_Frontend != -1) { CHECK(ioctl(m_Frontend, FE_READ_STATUS, &m_FrontendStatus)); CHECK(ioctl(m_Frontend, FE_READ_SIGNAL_STRENGTH, &m_Signal)); CHECK(ioctl(m_Frontend, FE_READ_SNR, &m_SNR)); CHECK(ioctl(m_Frontend, FE_READ_BER, &m_BER)); CHECK(ioctl(m_Frontend, FE_READ_UNCORRECTED_BLOCKS, &m_UNC)); DrawInfoWindow(); DrawStatusWindow(); if (femonConfig.syslogoutput) { isyslog("Card #%d (%s) STR: %04x SNR: %04x BER: %08x UNC: %08x |%c|%c|%c|%c|%c|", cDevice::ActualDevice()->CardIndex(), m_FrontendInfo.name, m_Signal, m_SNR, m_BER, m_UNC, (m_FrontendStatus & FE_HAS_LOCK) ? 'L' : ' ', (m_FrontendStatus & FE_HAS_SIGNAL) ? 'S' : ' ', (m_FrontendStatus & FE_HAS_CARRIER) ? 'C' : ' ', (m_FrontendStatus & FE_HAS_VITERBI) ? 'V' : ' ', (m_FrontendStatus & FE_HAS_SYNC) ? 'Z' : ' '); } } usleep(100000L * femonConfig.updateinterval); } } void cFemonOsd::Show(void) { //printf("cFemonOsd::Show()\n"); char *dev = NULL; asprintf(&dev, FRONTEND_DEVICE, cDevice::ActualDevice()->CardIndex(), 0); m_Frontend = open(dev, O_RDONLY | O_NONBLOCK); free(dev); if (m_Frontend < 0) { isyslog("cFemonOsd::Show() cannot open frontend device."); m_Frontend = -1; return; } if (ioctl(m_Frontend, FE_GET_INFO, &m_FrontendInfo) < 0) { isyslog("cFemonOsd::Show() cannot read frontend info."); close(m_Frontend); m_Frontend = -1; return; } m_Osd = cOsdProvider::NewOsd(((Setup.OSDWidth - OSDWIDTH) / 2) + Setup.OSDLeft, ((Setup.OSDHeight - OSDHEIGHT) / 2) + Setup.OSDTop); if (m_Osd) { tArea Areas[] = { { 0, 0, OSDWIDTH, OSDHEIGHT, 4 } }; if (m_Osd->CanHandleAreas(Areas, sizeof(Areas) / sizeof(tArea)) == oeOk) { m_Osd->SetAreas(Areas, sizeof(Areas) / sizeof(tArea)); } else { tArea Areas[] = { { 0, OSDSTATUSWIN_Y(0), (OSDWIDTH-1), OSDSTATUSWIN_Y(OSDSTATUSHEIGHT-1), 4 }, { 0, OSDINFOWIN_Y(0), (OSDWIDTH-1), OSDINFOWIN_Y(OSDINFOHEIGHT-1), 2 } }; m_Osd->SetAreas(Areas, sizeof(Areas) / sizeof(tArea)); } m_Osd->DrawRectangle(0, OSDINFOWIN_Y(0), OSDWIDTH, OSDINFOWIN_Y(OSDINFOHEIGHT), clrTransparent); m_Osd->Flush(); if (m_Receiver) delete m_Receiver; if (femonConfig.analyzestream) { cChannel *channel = Channels.GetByNumber(cDevice::CurrentChannel()); m_Receiver = new cFemonReceiver(channel->Ca(), channel->Vpid(), channel->Apid1(), channel->Dpid1()); cDevice::ActualDevice()->AttachReceiver(m_Receiver); } Start(); } } void cFemonOsd::ChannelSwitch(const cDevice * device, int channelNumber) { //printf("cFemonOsd::ChannelSwitch()\n"); char *dev = NULL; if (!device->IsPrimaryDevice() || !channelNumber || cDevice::PrimaryDevice()->CurrentChannel() != channelNumber) return; close(m_Frontend); asprintf(&dev, FRONTEND_DEVICE, cDevice::ActualDevice()->CardIndex(), 0); m_Frontend = open(dev, O_RDONLY | O_NONBLOCK); free(dev); if (m_Frontend < 0) { isyslog("cFemonOsd::ChannelSwitch() cannot open frontend device."); m_Frontend = -1; return; } if (ioctl(m_Frontend, FE_GET_INFO, &m_FrontendInfo) < 0) { isyslog("cFemonOsd::ChannelSwitch() cannot read frontend info."); close(m_Frontend); m_Frontend = -1; return; } if (m_Receiver) delete m_Receiver; if (femonConfig.analyzestream) { cChannel *channel = Channels.GetByNumber(cDevice::CurrentChannel()); m_Receiver = new cFemonReceiver(channel->Ca(), channel->Vpid(), channel->Apid1(), channel->Dpid1()); cDevice::ActualDevice()->AttachReceiver(m_Receiver); } } eOSState cFemonOsd::ProcessKey(eKeys Key) { eOSState state = cOsdObject::ProcessKey(Key); if (state == osUnknown) { switch (Key) { case k0: if ((m_Number == 0) && (m_OldNumber != 0)) { m_Number = m_OldNumber; m_OldNumber = cDevice::CurrentChannel(); Channels.SwitchTo(m_Number); m_Number = 0; return osContinue; } case k1 ... k9: if (m_Number >= 0) { m_Number = m_Number * 10 + Key - k0; if (m_Number > 0) { DrawStatusWindow(); cChannel *ch = Channels.GetByNumber(m_Number); m_InputTime = time_ms(); // Lets see if there can be any useful further input: int n = ch ? m_Number * 10 : 0; while (ch && (ch = Channels.Next(ch)) != NULL) { if (!ch->GroupSep()) { if (n <= ch->Number() && ch->Number() <= n + 9) { n = 0; break; } if (ch->Number() > n) n *= 10; } } if (n > 0) { // This channel is the only one that fits the input, so let's take it right away: m_OldNumber = cDevice::CurrentChannel(); Channels.SwitchTo(m_Number); m_Number = 0; } } } break; case kBack: return osEnd; case kGreen: { int CurrentAudioTrack = -1; const char **AudioTracks = cDevice::PrimaryDevice()->GetAudioTracks(&CurrentAudioTrack); if (AudioTracks) { const char **at = &AudioTracks[CurrentAudioTrack]; if (!*++at) at = AudioTracks; cDevice::PrimaryDevice()->SetAudioTrack(at - AudioTracks); if (femonConfig.analyzestream) { cChannel *channel = Channels.GetByNumber(cDevice::CurrentChannel()); if (m_Receiver) delete m_Receiver; m_Receiver = new cFemonReceiver(channel->Ca(), channel->Vpid(), (at - AudioTracks) ? channel->Apid2() : channel->Apid1(), channel->Dpid1()); cDevice::ActualDevice()->AttachReceiver(m_Receiver); } } } break; case kRight: case kLeft: { int device = cDevice::ActualDevice()->DeviceNumber(); if (device >= 0) { cChannel *channel = Channels.GetByNumber(cDevice::CurrentChannel()); for (int i = 0; i < cDevice::NumDevices() - 1; i++) { if (NORMALKEY(Key) == kRight) { if (++device >= cDevice::NumDevices()) device = 0; } else { if (--device < 0) device = cDevice::NumDevices() - 1; } if (cDevice::GetDevice(device)->ProvidesChannel(channel)) { //cStatus::MsgChannelSwitch(cDevice::GetDevice(device), 0); //implement some tuning mechanism here //cControl::Launch(new cTransferControl(cDevice::GetDevice(device), channel->Vpid(), channel->Apid1(), channel->Apid2(), channel->Dpid1(), channel->Dpid2())); //cStatus::MsgChannelSwitch(cDevice::GetDevice(device), channel->Number()); break; } } } } break; case kUp|k_Repeat: case kUp: case kDown|k_Repeat: case kDown: m_OldNumber = cDevice::CurrentChannel(); cDevice::SwitchChannel(NORMALKEY(Key) == kUp ? 1 : -1); m_Number = 0; break; case kNone: if (m_Number && (time_ms() - m_InputTime > CHANNELINPUT_TIMEOUT)) { if (Channels.GetByNumber(m_Number)) { m_OldNumber = cDevice::CurrentChannel(); Channels.SwitchTo(m_Number); m_Number = 0; } else { m_InputTime = time_ms(); m_Number = 0; } } break; case kOk: // toggle between display modes if (++m_DisplayMode == modeAC3 && !Channels.GetByNumber(cDevice::CurrentChannel())->Dpid1()) m_DisplayMode++; if (m_DisplayMode >= modeMaxNumber) m_DisplayMode = 0; DrawInfoWindow(); break; default: break; } state = osContinue; } return state; }