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4 Commits
master ... v0.0.7

Author SHA1 Message Date
Rolf Ahrenberg
22802773b8 Backported changes and fixes from version 0.1.6. 2004-09-11 04:20:00 +03:00
Rolf Ahrenberg
ca717b0425 Backported the "AC3 Stream Information" feature from version 0.1.3. 2004-06-11 04:20:00 +03:00
Rolf Ahrenberg
9ce3009e39 Backported changes and fixes from version 0.1.2. 2004-06-06 04:20:00 +03:00
Rolf Ahrenberg
b08205607c Backported "stream information" feature (from version 0.1.1). 2004-05-31 04:20:00 +03:00
12 changed files with 2342 additions and 309 deletions
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67
HISTORY
View File

@ -1,5 +1,6 @@
===================================
VDR Plugin 'femon' Revision History
-----------------------------------
===================================
2004-02-15: Version 0.0.1
@ -43,5 +44,65 @@ VDR Plugin 'femon' Revision History
2004-04-04: Version 0.0.3c
- Fixed minor bitrate calculation errors
- Added russian translation (Thanks to Vyacheslav Dikonov)
- Fixed minor bitrate calculation errors.
- Added russian translation (Thanks to Vyacheslav Dikonov).
2004-05-31: Version 0.0.4
- Backported "stream information" feature (from version 0.1.1).
2004-06-06: Version 0.0.5
- Backported changes and fixes from version 0.1.2.
2004-06-11: Version 0.0.6
- Backported the "AC3 Stream Information" feature from version 0.1.3.
2004-09-11: Version 0.0.7
- Backported changes and fixes from version 0.1.6.
===================================
VDR Plugin 'femon' Revision History
===================================
2004-05-18: Version 0.1.0
- Updated for vdr-1.3.7 and removed compability with older versions.
2004-05-30: Version 0.1.1
- Added "Stream Information" display mode.
Toggle between different modes with 'OK' key:
.-> basic -> transponder -> stream -.
`-----------------------------------´
- Added missing german translations (Thanks to Peter Marquardt).
2004-06-06: Version 0.1.2
- Fixed the channel switch bug (reported by Stefan Lucke).
- Nid/Tid/Rid are now included in translations.
- Added video format and aspect ratio symbols into status window.
2004-06-11: Version 0.1.3
- Added "AC-3 Stream Information" display mode (Thanks to Lothar Englisch).
2004-06-24: Version 0.1.4
- Added some new symbols and beautified the old ones.
- Added audio track selection feature.
- Added preliminary device switching feature (disabled at the moment).
2004-08-18: Version 0.1.5
- Fixed OSDSTATUSWIN_XC define.
- Added preliminary NTSC support (make NTSC_SYSTEM=1 plugins).
- Fixed "Setup/OSD/Use Small Fonts" bug (Thanks to Winni for reporting this one).
- Added patches directory: CA system names by Lauri Tischler.
2004-09-11: Version 0.1.6
- Yet Another Minor Release.
- Integrated the CA system names patch: "Setup / Show CA System".

6
Makefile
View File

@ -11,7 +11,7 @@ PLUGIN = femon
### The version number of this plugin (taken from the main source file):
VERSION = $(shell grep 'static const char \*VERSION *=' $(PLUGIN).c | awk '{ print $$6 }' | sed -e 's/[";]//g')
VERSION = $(shell grep 'static const char \*VERSION *=' $(PLUGIN).h | awk '{ print $$6 }' | sed -e 's/[";]//g')
### The C++ compiler and options:
@ -44,6 +44,10 @@ INCLUDES += -I$(VDRDIR)/include -I$(DVBDIR)/include
DEFINES += -D_GNU_SOURCE -DPLUGIN_NAME_I18N='"$(PLUGIN)"'
ifdef NTSC_SYSTEM
DEFINES += -DNTSC_SYSTEM
endif
### The object files (add further files here):
OBJS = femon.o femonosd.o femonreceiver.o femoncfg.o femoni18n.o

86
README
View File

@ -10,36 +10,86 @@ See the file COPYING for license information.
Requirements:
Ph.D. in Astro Physics and preferably a six-pack waiting in a fridge.
Never trust a Klingon. "Qu'vaD lI' De'vam". Beam me up, Scotty!
VDR & DVB. BMW & Ph.D.. BEER. YARRR!
Description:
DVB Frontend Status Monitor is a plugin that displays some signal information
parameters of the current tuned channel on OSD. You can zap through all your
channels and the plugin should be monitoring always the right frontend. The
transponder information is also available in advanced display mode. User can
switch between simple and advanced display modes by pressing 'OK' key.
transponder and stream information are also available in advanced display modes.
The plugin is based on a neat console frontend status monitor application called
'femon' by Johannes Stezenbach <js@convergence.de> (see DVB-apps/szap/femon.c
for further information). The other parts of plugin code are borrowed from the
excellent 'OSD Picture-In-Picture' plugin by Sascha Volkenandt <sascha@akv-soft.de>
and Andreas Regel <andreas.regel@powarman.de>. The bitrate calculation algorithm
originates from the 'dvbstream' application by Dave Chapman <dave@dchapman.com>.
The plugin is based on a neat console frontend status monitor application
called 'femon' by Johannes Stezenbach (see DVB-apps/szap/femon.c for further
information). The other parts of plugin code are borrowed from the excellent
'OSD Picture-In-Picture' plugin by Sascha Volkenandt and Andreas Regel. The
bitrate calculation algorithm originates from the 'dvbstream' application by
Dave Chapman and the stream information routines from the 'libdvb' library by
Metzler Brothers.
Shortcomings / Todo list / Notes:
Terminology:
--------------------------------------------------------------
|## Channel Name ######################### [DD][AR][VF][A][D]|
|[=====Signal Strength in % ==============|=================]|
|[=====Signal-to-Noise Ratio in % ========|=================]|
| STR: #0000 (0%) BER: #00000000 Video: 0 Mbit/s |
| SNR: #0000 (0%) UNC: #00000000 Audio: 0 kbit/s |
| [LOCK] [SIGNAL] [CARRIER] [VITERBI] [SYNC] |
--------------------------------------------------------------
STR - Signal strength
SNR - Signal-to-noise ratio
BER - Bit error rate
UNC - Uncorrected blocks
Video - Calculated video bitrate in Mbit/s
Audio - Calculated audio / AC-3 bitrate in kbit/s
LOCK - Everything's working...
SIGNAL - Found something above the noise level
CARRIER - Found a DVB signal
VITERBI - FEC (forward error correction) is stable
SYNC - Found sync bytes
DD - AC-3 stream (optional)
AR - Aspect Ratio: 1:1/4:3/16:9/2.21:1 (optional)
VF - Video format: PAL/NTSC (optional)
A - Audio track: 1..2 (optional)
D - Device number: 0..3 (optional)
Controls:
ChanUp/ChanDn - Switch channel up/down
Up/Down - Switch channel up/down
0-9 - Select channel
Ok - Switch between display modes: basic, transponder, stream, AC-3
Right/Left - Switch to next/previous device that provides the current channel
Green - Select language (APID)
Back - Exit plugin
Installation:
cd /put/your/path/here/VDR/PLUGINS/src
tar -xzf /put/your/path/here/vdr-femon-X.Y.Z.tgz
ln -s femon-X.Y.Z femon
cd /put/your/path/here/VDR
make
make plugins
./vdr -P femon
Notes:
- The current version is a kind of Proof In Concept to replace the old 'tech
patch', and it's now eating many unnecessary cpu clock cycles - this will be
fixed later...
- The plugin supports only those DVB cards with _one_ frontend (do any cards
with multiple frontends even exist?), because I haven't yet figured howto do
it without patching the VDR core.
- Sometimes (read always) ttxtsubs plugin messes up the OSD - user should disable
ttxtsubs, but closing and reopening the femon plugin might help temporarily as
well. Btw., this same thing happens with OSDTeletext plugin too :)
- The plugin GUI is designed for _small fonts_, so stable vdr-1.2.6 users should
consider a small font patch (e.g. ElchiAIO4a) to maximize the visual effect :)
- The stream information is still missing.
- Disable bitrate calculation to speed up heavy zapping sessions.
- Disable the stream analyze to speed up heavy zapping sessions.
- The signal strength and signal-to-noise ratio values are comparable only
between the same brand/model frontends. Due to the lack of proper frontend
specifications those values cannot be calculated into any real units.
- Shrinked OSD is available for NTSC users: make NTSC_SYSTEM=1
- The device switching feature is still non-functional.
"Femon - A real womon who lives according to her natural feminine inclinations."

42
femon.c
View File

@ -12,6 +12,10 @@
#include "femonosd.h"
#include "femon.h"
#if VDRVERSNUM && VDRVERSNUM >= 10307
#error "You don't exist! Go away!"
#endif
cPluginFemon::cPluginFemon(void)
{
// Initialize any member variables here.
@ -67,19 +71,25 @@ bool cPluginFemon::SetupParse(const char *Name, const char *Value)
else if (!strcasecmp(Name, "SyslogOutput")) femonConfig.syslogoutput = atoi(Value);
else if (!strcasecmp(Name, "DisplayMode")) femonConfig.displaymode = atoi(Value);
else if (!strcasecmp(Name, "Position")) femonConfig.position = atoi(Value);
else if (!strcasecmp(Name, "ShowCASystem")) femonConfig.showcasystem = atoi(Value);
else if (!strcasecmp(Name, "RedLimit")) femonConfig.redlimit = atoi(Value);
else if (!strcasecmp(Name, "GreenLimit")) femonConfig.greenlimit = atoi(Value);
else if (!strcasecmp(Name, "UpdateInterval")) femonConfig.updateinterval = atoi(Value);
else if (!strcasecmp(Name, "ShowBitRate")) femonConfig.showbitrate = atoi(Value);
else if (!strcasecmp(Name, "AnalStream")) femonConfig.analyzestream = atoi(Value);
else if (!strcasecmp(Name, "CalcInterval")) femonConfig.calcinterval = atoi(Value);
else
return false;
if (femonConfig.displaymode < 0 || femonConfig.displaymode >= modeMaxNumber) femonConfig.displaymode = 0;
return true;
}
cMenuFemonSetup::cMenuFemonSetup(void)
{
dispmodes[modeBasic] = tr("basic");
dispmodes[modeTransponder] = tr("transponder");
dispmodes[modeStream] = tr("stream");
dispmodes[modeAC3] = tr("AC-3");
Setup();
}
@ -88,16 +98,17 @@ void cMenuFemonSetup::Setup(void)
int current = Current();
Clear();
Add(new cMenuEditBoolItem( tr("Hide Mainmenu Entry"), &femonConfig.hidemenu, tr("no"), tr("yes")));
Add(new cMenuEditBoolItem( tr("Use Syslog Output"), &femonConfig.syslogoutput, tr("no"), tr("yes")));
Add(new cMenuEditBoolItem( tr("Default Display Mode"), &femonConfig.displaymode, tr("simple"), tr("advanced")));
Add(new cMenuEditBoolItem( tr("Position"), &femonConfig.position, tr("bottom"), tr("top")));
Add(new cMenuEditIntItem( tr("Red Limit [%]"), &femonConfig.redlimit, 1, 50));
Add(new cMenuEditIntItem( tr("Green Limit [%]"), &femonConfig.greenlimit, 51, 100));
Add(new cMenuEditIntItem( tr("OSD Update Interval [0.1s]"), &femonConfig.updateinterval, 1, 100));
Add(new cMenuEditBoolItem( tr("Bitrate Calculation"), &femonConfig.showbitrate, tr("no"), tr("yes")));
if (femonConfig.showbitrate)
Add(new cMenuEditIntItem(tr("Calculation Interval [0.1s]"), &femonConfig.calcinterval, 1, 100));
Add(new cMenuEditBoolItem( tr("Hide Mainmenu Entry"), &femonConfig.hidemenu, tr("no"), tr("yes")));
Add(new cMenuEditBoolItem( tr("Use Syslog Output"), &femonConfig.syslogoutput, tr("no"), tr("yes")));
Add(new cMenuEditStraItem( tr("Default Display Mode"), &femonConfig.displaymode, modeMaxNumber, dispmodes));
Add(new cMenuEditBoolItem( tr("Position"), &femonConfig.position, tr("bottom"), tr("top")));
Add(new cMenuEditBoolItem( tr("Show CA System"), &femonConfig.showcasystem, tr("no"), tr("yes")));
Add(new cMenuEditIntItem( tr("Red Limit [%]"), &femonConfig.redlimit, 1, 50));
Add(new cMenuEditIntItem( tr("Green Limit [%]"), &femonConfig.greenlimit, 51, 100));
Add(new cMenuEditIntItem( tr("OSD Update Interval [0.1s]"), &femonConfig.updateinterval, 1, 100));
Add(new cMenuEditBoolItem( tr("Analyze Stream"), &femonConfig.analyzestream, tr("no"), tr("yes")));
if (femonConfig.analyzestream)
Add(new cMenuEditIntItem(tr("Calculation Interval [0.1s]"), &femonConfig.calcinterval, 1, 100));
SetCurrent(Get(current));
Display();
@ -107,22 +118,23 @@ void cMenuFemonSetup::Store(void)
{
SetupStore("HideMenu", femonConfig.hidemenu);
SetupStore("SyslogOutput", femonConfig.syslogoutput);
SetupStore("Position", femonConfig.position);
SetupStore("DisplayMode", femonConfig.displaymode);
SetupStore("Position", femonConfig.position);
SetupStore("ShowCASystem", femonConfig.showcasystem);
SetupStore("RedLimit", femonConfig.redlimit);
SetupStore("GreenLimit", femonConfig.greenlimit);
SetupStore("UpdateInterval", femonConfig.updateinterval);
SetupStore("ShowBitRate", femonConfig.showbitrate);
SetupStore("AnalStream", femonConfig.analyzestream);
SetupStore("CalcInterval", femonConfig.calcinterval);
}
eOSState cMenuFemonSetup::ProcessKey(eKeys Key)
{
int oldShowbitrate = femonConfig.showbitrate;
int oldAnalyzestream = femonConfig.analyzestream;
eOSState state = cMenuSetupPage::ProcessKey(Key);
if (Key != kNone && (femonConfig.showbitrate != oldShowbitrate)) {
if (Key != kNone && (femonConfig.analyzestream != oldAnalyzestream)) {
Setup();
}

3
femon.h
View File

@ -11,7 +11,7 @@
#include <vdr/plugin.h>
static const char *VERSION = "0.0.3c";
static const char *VERSION = "0.0.7";
static const char *DESCRIPTION = "DVB Signal Information Monitor (OSD)";
static const char *MAINMENUENTRY = "Signal Information";
@ -36,6 +36,7 @@ public:
class cMenuFemonSetup : public cMenuSetupPage {
private:
const char *dispmodes[modeMaxNumber];
virtual void Setup(void);
protected:
virtual eOSState ProcessKey(eKeys Key);

3
femoncfg.c
View File

@ -18,7 +18,8 @@ cFemonConfig::cFemonConfig(void)
redlimit = 33;
greenlimit = 66;
updateinterval = 5;
showbitrate = 1;
analyzestream = 1;
calcinterval = 20;
syslogoutput = 0;
showcasystem = 0;
}

11
femoncfg.h
View File

@ -9,6 +9,14 @@
#ifndef __FEMONCFG_H
#define __FEMONCFG_H
enum dispModes {
modeBasic,
modeTransponder,
modeStream,
modeAC3,
modeMaxNumber
};
struct cFemonConfig
{
public:
@ -19,9 +27,10 @@ public:
int redlimit;
int greenlimit;
int updateinterval;
int showbitrate;
int analyzestream;
int calcinterval;
int syslogoutput;
int showcasystem;
};
extern cFemonConfig femonConfig;

1420
femoni18n.c
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File diff suppressed because it is too large Load Diff

642
femonosd.c
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@ -16,32 +16,28 @@
#warning You should consider using the small fonts!
#endif
#define FRONTEND_DEVICE "/dev/dvb/adapter%d/frontend%d"
#define CHANNELINPUT_TIMEOUT 1000
#define FRONTEND_DEVICE "/dev/dvb/adapter%d/frontend%d"
#define CHANNELINPUT_TIMEOUT 1000
#define SCREENWIDTH 720
#define SCREENHEIGHT 576
#ifdef NTSC_SYSTEM
#define SCREENHEIGHT 480 // in pixels
#define OSDHEIGHT 420 // in pixels
#else
#define SCREENHEIGHT 576 // in pixels
#define OSDHEIGHT 480 // in pixels
#endif
#define SCREENWIDTH 720 // in pixels
#define OSDWIDTH 600 // in pixels
#define OSDINFOHEIGHT ((cOsd::LineHeight() - 2) * 11) // in pixels (11 rows)
#define OSDSTATUSHEIGHT ((cOsd::LineHeight() - 2) * 6) // in pixels (6 rows)
#define OSDWIDTH 46
#define OSDINFOHEIGHT 11
#define OSDGAPHEIGHT 1
#define OSDSTATUSHEIGHT 6
#define OSDSTATUSCOL1 1
#define OSDSTATUSCOL2 10
#define OSDSTATUSCOL3 17
#define OSDSTATUSCOL4 32
#define OSDSTATUSLOCK 1
#define OSDSTATUSSIGN 9
#define OSDSTATUSCARR 19
#define OSDSTATUSVITE 30
#define OSDSTATUSSYNC 40
#define OSDINFOLCOL1 1
#define OSDINFOLCOL2 14
#define OSDINFOLCOL3 23
#define OSDINFOLCOL4 36
#define OSDINFOWIN_Y(offset) (femonConfig.position ? (OSDHEIGHT - OSDINFOHEIGHT + offset) : offset)
#define OSDINFOWIN_X(col) ((col == 4) ? 455 : (col == 3) ? 305 : (col == 2) ? 155 : 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 - cOsd::WidthInCells(txt) * cOsd::CellWidth()) / 2))
#define BARWIDTH(x) (OSDWIDTH * x / 100)
#define DELTA 2
cFemonOsd::cFemonOsd(void)
#if VDRVERSNUM >= 10300
@ -52,8 +48,6 @@ cFemonOsd::cFemonOsd(void)
{
//printf("cFemonOsd::cFemonOsd()\n");
m_Osd = NULL;
m_InfoWindow = -1;
m_StatusWindow = -1;
m_Receiver = NULL;
m_Frontend = -1;
m_Active = false;
@ -65,6 +59,11 @@ cFemonOsd::cFemonOsd(void)
m_BER = 0;
m_UNC = 0;
m_DisplayMode = femonConfig.displaymode;
#if (VDRVERSNUM >= 10300) || defined(ELCHIAIOVERSION)
m_Font = fontSml;
#else
m_Font = fontOsd;
#endif
m_Mutex = new cMutex();
}
@ -88,65 +87,73 @@ void cFemonOsd::DrawStatusWindow(void)
char buf[128];
int snr = m_SNR / 655;
int signal = m_Signal / 655;
int lines = 0;
int offset = 0;
cChannel *channel = Channels.GetByNumber(cDevice::CurrentChannel());
if (m_Osd) {
#if (VDRVERSNUM >= 10300) || defined(ELCHIAIOVERSION)
eDvbFont OldFont = m_Osd->SetFont(fontSml);
eDvbFont OldFont = m_Osd->SetFont(m_Font);
#endif
m_Osd->Clear(m_StatusWindow);
m_Osd->Fill(0, OSDSTATUSWIN_Y(0), OSDWIDTH, OSDSTATUSWIN_Y(OSDSTATUSHEIGHT), clrBackground, m_StatusWindow);
snprintf(buf, sizeof(buf), "%d%s %s", m_Number ? m_Number : channel->Number(), m_Number ? "-" : "", channel->Name());
m_Osd->Fill(0, femonConfig.position ? 0 : (OSDINFOHEIGHT + OSDGAPHEIGHT) * cOsd::LineHeight(), OSDWIDTH * cOsd::CellWidth(), femonConfig.position ? cOsd::LineHeight() - 1 : (OSDINFOHEIGHT + OSDGAPHEIGHT + 1) * cOsd::LineHeight() - 1, clrWhite, m_StatusWindow);
m_Osd->Text(OSDSTATUSCOL1 * cOsd::CellWidth(), femonConfig.position ? 0 : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight(), buf, clrBlack, clrWhite, m_StatusWindow);
lines++;
m_Osd->Fill(0, OSDSTATUSWIN_Y(offset), OSDWIDTH, OSDSTATUSWIN_Y(offset+cOsd::LineHeight()-1), clrWhite, m_StatusWindow);
m_Osd->Text(OSDSTATUSWIN_X(1), OSDSTATUSWIN_Y(offset), buf, clrBlack, clrWhite, m_StatusWindow);
offset += cOsd::LineHeight();
if (signal > 0) {
signal = (OSDWIDTH * cOsd::CellWidth()) * signal / 100;
m_Osd->Fill(0, femonConfig.position ? lines * cOsd::LineHeight() + 3 : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() + 3, min(((OSDWIDTH * cOsd::CellWidth()) * femonConfig.redlimit / 100), signal), femonConfig.position ? (lines + 1) * cOsd::LineHeight() - 3 : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines + 1) * cOsd::LineHeight() - 3, clrRed, m_StatusWindow);
if (signal > ((OSDWIDTH * cOsd::CellWidth()) * femonConfig.redlimit / 100)) {
m_Osd->Fill(((OSDWIDTH * cOsd::CellWidth()) * femonConfig.redlimit / 100), femonConfig.position ? lines * cOsd::LineHeight() + 3 : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() + 3, min(((OSDWIDTH * cOsd::CellWidth()) * femonConfig.greenlimit / 100), signal), femonConfig.position ? (lines + 1) * cOsd::LineHeight() - 3 : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines + 1) * cOsd::LineHeight() - 3, clrYellow, m_StatusWindow);
signal = BARWIDTH(signal);
m_Osd->Fill(0, OSDSTATUSWIN_Y(offset+3), min(BARWIDTH(femonConfig.redlimit), signal), OSDSTATUSWIN_Y(offset+cOsd::LineHeight()-3), clrRed, m_StatusWindow);
if (signal > BARWIDTH(femonConfig.redlimit)) {
m_Osd->Fill(BARWIDTH(femonConfig.redlimit), OSDSTATUSWIN_Y(offset+3), min((OSDWIDTH * femonConfig.greenlimit / 100), signal), OSDSTATUSWIN_Y(offset+cOsd::LineHeight()-3), clrYellow, m_StatusWindow);
}
if (signal > ((OSDWIDTH * cOsd::CellWidth()) * femonConfig.greenlimit / 100)) {
m_Osd->Fill(((OSDWIDTH * cOsd::CellWidth()) * femonConfig.greenlimit / 100), femonConfig.position ? lines * cOsd::LineHeight() + 3 : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() + 3, signal, femonConfig.position ? (lines + 1) * cOsd::LineHeight() - 3 : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines + 1) * cOsd::LineHeight() - 3, clrGreen, m_StatusWindow);
if (signal > BARWIDTH(femonConfig.greenlimit)) {
m_Osd->Fill(BARWIDTH(femonConfig.greenlimit), OSDSTATUSWIN_Y(offset+3), signal, OSDSTATUSWIN_Y(offset+cOsd::LineHeight()-3), clrGreen, m_StatusWindow);
}
}
lines++;
offset += cOsd::LineHeight() - DELTA;
if (snr > 0) {
snr = (OSDWIDTH * cOsd::CellWidth()) * snr / 100;
m_Osd->Fill(0, femonConfig.position ? lines * cOsd::LineHeight() + 3 : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() + 3, min(((OSDWIDTH * cOsd::CellWidth()) * femonConfig.redlimit / 100), snr), femonConfig.position ? (lines + 1) * cOsd::LineHeight() - 3 : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines + 1) * cOsd::LineHeight() - 3, clrRed, m_StatusWindow);
if (snr > ((OSDWIDTH * cOsd::CellWidth()) * femonConfig.redlimit / 100)) {
m_Osd->Fill(((OSDWIDTH * cOsd::CellWidth()) * femonConfig.redlimit / 100), femonConfig.position ? lines * cOsd::LineHeight() + 3 : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() + 3, min(((OSDWIDTH * cOsd::CellWidth()) * femonConfig.greenlimit / 100), snr), femonConfig.position ? (lines + 1) * cOsd::LineHeight() - 3 : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines + 1) * cOsd::LineHeight() - 3, clrYellow, m_StatusWindow);
snr = BARWIDTH(snr);
m_Osd->Fill(0, OSDSTATUSWIN_Y(offset+3), min(BARWIDTH(femonConfig.redlimit), snr), OSDSTATUSWIN_Y(offset+cOsd::LineHeight()-3), clrRed, m_StatusWindow);
if (snr > BARWIDTH(femonConfig.redlimit)) {
m_Osd->Fill(BARWIDTH(femonConfig.redlimit), OSDSTATUSWIN_Y(offset+3), min(BARWIDTH(femonConfig.greenlimit), snr), OSDSTATUSWIN_Y(offset+cOsd::LineHeight()-3), clrYellow, m_StatusWindow);
}
if (snr > ((OSDWIDTH * cOsd::CellWidth()) * femonConfig.greenlimit / 100)) {
m_Osd->Fill(((OSDWIDTH * cOsd::CellWidth()) * femonConfig.greenlimit / 100), femonConfig.position ? lines * cOsd::LineHeight() + 3 : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() + 3, snr, femonConfig.position ? (lines + 1) * cOsd::LineHeight() - 3 : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines + 1) * cOsd::LineHeight() - 3, clrGreen, m_StatusWindow);
if (snr > BARWIDTH(femonConfig.greenlimit)) {
m_Osd->Fill(BARWIDTH(femonConfig.greenlimit), OSDSTATUSWIN_Y(offset+3), snr, OSDSTATUSWIN_Y(offset+cOsd::LineHeight()-3), clrGreen, m_StatusWindow);
}
}
lines++;
snprintf(buf, sizeof(buf), "STR: %04x", m_Signal);
m_Osd->Text(OSDSTATUSCOL1 * cOsd::CellWidth(), femonConfig.position ? lines * cOsd::LineHeight() : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight(), buf, clrWhite, clrBackground, m_StatusWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDSTATUSWIN_X(1), OSDSTATUSWIN_Y(offset), "STR:", clrWhite, clrBackground, m_StatusWindow);
snprintf(buf, sizeof(buf), "%04x", m_Signal);
m_Osd->Text(OSDSTATUSWIN_X(2), OSDSTATUSWIN_Y(offset), buf, clrWhite, clrBackground, m_StatusWindow);
snprintf(buf, sizeof(buf), "(%2d%%)", m_Signal / 655);
m_Osd->Text(OSDSTATUSCOL2 * cOsd::CellWidth(), femonConfig.position ? lines * cOsd::LineHeight() : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight(), buf, clrWhite /*signal < femonConfig.redlimit ? clrRed : signal < femonConfig.greenlimit ? clrYellow : clrGreen*/, clrBackground, m_StatusWindow);
snprintf(buf, sizeof(buf), "BER: %08x", m_BER);
m_Osd->Text(OSDSTATUSCOL3 * cOsd::CellWidth(), femonConfig.position ? lines * cOsd::LineHeight() : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight(), buf, clrWhite, clrBackground, m_StatusWindow);
if (m_Receiver) snprintf(buf, sizeof(buf), "%s: %.2f %s", tr("Video"), m_Receiver->VideoBitrate(), tr("Mbit/s"));
else snprintf(buf, sizeof(buf), "%s: --- %s", tr("Video"), tr("Mbit/s"));
m_Osd->Text(OSDSTATUSCOL4 * cOsd::CellWidth(), femonConfig.position ? lines * cOsd::LineHeight() : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight(), buf, clrWhite, clrBackground, m_StatusWindow);
lines++;
snprintf(buf, sizeof(buf), "SNR: %04x", m_SNR);
m_Osd->Text(OSDSTATUSCOL1 * cOsd::CellWidth(), femonConfig.position ? lines * cOsd::LineHeight() : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight(), buf, clrWhite, clrBackground, m_StatusWindow);
m_Osd->Text(OSDSTATUSWIN_X(3), OSDSTATUSWIN_Y(offset), buf, clrWhite, clrBackground, m_StatusWindow);
m_Osd->Text(OSDSTATUSWIN_X(4), OSDSTATUSWIN_Y(offset), "BER:", clrWhite, clrBackground, m_StatusWindow);
snprintf(buf, sizeof(buf), "%08x", m_BER);
m_Osd->Text(OSDSTATUSWIN_X(5), OSDSTATUSWIN_Y(offset), buf, clrWhite, clrBackground, m_StatusWindow);
snprintf(buf, sizeof(buf), "%s:", tr("Video"));
m_Osd->Text(OSDSTATUSWIN_X(6), OSDSTATUSWIN_Y(offset), buf, clrWhite, clrBackground, m_StatusWindow);
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->Text(OSDSTATUSWIN_X(7), OSDSTATUSWIN_Y(offset), buf, clrWhite, clrBackground, m_StatusWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDSTATUSWIN_X(1), OSDSTATUSWIN_Y(offset), "SNR:", clrWhite, clrBackground, m_StatusWindow);
snprintf(buf, sizeof(buf), "%04x", m_SNR);
m_Osd->Text(OSDSTATUSWIN_X(2), OSDSTATUSWIN_Y(offset), buf, clrWhite, clrBackground, m_StatusWindow);
snprintf(buf, sizeof(buf), "(%2d%%)", m_SNR / 655);
m_Osd->Text(OSDSTATUSCOL2 * cOsd::CellWidth(), femonConfig.position ? lines * cOsd::LineHeight() : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight(), buf, clrWhite /*snr < femonConfig.redlimit ? clrRed : snr < femonConfig.greenlimit ? clrYellow : clrGreen*/, clrBackground, m_StatusWindow);
snprintf(buf, sizeof(buf), "UNC: %08x", m_UNC);
m_Osd->Text(OSDSTATUSCOL3 * cOsd::CellWidth(), femonConfig.position ? lines * cOsd::LineHeight() : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight(), buf, clrWhite, clrBackground, m_StatusWindow);
if (m_Receiver) snprintf(buf, sizeof(buf), "%s: %.0f %s", tr("Audio"), m_Receiver->AudioBitrate(), tr("kbit/s"));
else snprintf(buf, sizeof(buf), "%s: --- %s", tr("Audio"), tr("kbit/s"));
m_Osd->Text(OSDSTATUSCOL4 * cOsd::CellWidth(), femonConfig.position ? lines * cOsd::LineHeight() : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight(), buf, clrWhite, clrBackground, m_StatusWindow);
lines++;
m_Osd->Text(OSDSTATUSLOCK * cOsd::CellWidth(), femonConfig.position ? lines * cOsd::LineHeight() : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight(), tr("LOCK"), (m_FrontendStatus & FE_HAS_LOCK) ? clrYellow : clrBlack, clrBackground, m_StatusWindow);
m_Osd->Text(OSDSTATUSSIGN * cOsd::CellWidth(), femonConfig.position ? lines * cOsd::LineHeight() : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight(), tr("SIGNAL"), (m_FrontendStatus & FE_HAS_SIGNAL) ? clrYellow : clrBlack, clrBackground, m_StatusWindow);
m_Osd->Text(OSDSTATUSCARR * cOsd::CellWidth(), femonConfig.position ? lines * cOsd::LineHeight() : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight(), tr("CARRIER"),(m_FrontendStatus & FE_HAS_CARRIER)? clrYellow : clrBlack, clrBackground, m_StatusWindow);
m_Osd->Text(OSDSTATUSVITE * cOsd::CellWidth(), femonConfig.position ? lines * cOsd::LineHeight() : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight(), tr("VITERBI"),(m_FrontendStatus & FE_HAS_VITERBI)? clrYellow : clrBlack, clrBackground, m_StatusWindow);
m_Osd->Text(OSDSTATUSSYNC * cOsd::CellWidth(), femonConfig.position ? lines * cOsd::LineHeight() : (OSDINFOHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight(), tr("SYNC"), (m_FrontendStatus & FE_HAS_SYNC) ? clrYellow : clrBlack, clrBackground, m_StatusWindow);
m_Osd->Text(OSDSTATUSWIN_X(3), OSDSTATUSWIN_Y(offset), buf, clrWhite, clrBackground, m_StatusWindow);
m_Osd->Text(OSDSTATUSWIN_X(4), OSDSTATUSWIN_Y(offset), "UNC:", clrWhite, clrBackground, m_StatusWindow);
snprintf(buf, sizeof(buf), "%08x", m_UNC);
m_Osd->Text(OSDSTATUSWIN_X(5), OSDSTATUSWIN_Y(offset), buf, clrWhite, clrBackground, m_StatusWindow);
snprintf(buf, sizeof(buf), "%s:", (m_Receiver && m_Receiver->AC3Valid()) ? tr("AC-3") : tr("Audio"));
m_Osd->Text(OSDSTATUSWIN_X(6), OSDSTATUSWIN_Y(offset), buf, clrWhite, clrBackground, m_StatusWindow);
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->Text(OSDSTATUSWIN_X(7), OSDSTATUSWIN_Y(offset), buf, clrWhite, clrBackground, m_StatusWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDSTATUSWIN_XC(1,tr("LOCK")), OSDSTATUSWIN_Y(offset), tr("LOCK"), (m_FrontendStatus & FE_HAS_LOCK) ? clrYellow : clrBlack, clrBackground, m_StatusWindow);
m_Osd->Text(OSDSTATUSWIN_XC(2,tr("SIGNAL")), OSDSTATUSWIN_Y(offset), tr("SIGNAL"), (m_FrontendStatus & FE_HAS_SIGNAL) ? clrYellow : clrBlack, clrBackground, m_StatusWindow);
m_Osd->Text(OSDSTATUSWIN_XC(3,tr("CARRIER")), OSDSTATUSWIN_Y(offset), tr("CARRIER"),(m_FrontendStatus & FE_HAS_CARRIER)? clrYellow : clrBlack, clrBackground, m_StatusWindow);
m_Osd->Text(OSDSTATUSWIN_XC(4,tr("VITERBI")), OSDSTATUSWIN_Y(offset), tr("VITERBI"),(m_FrontendStatus & FE_HAS_VITERBI)? clrYellow : clrBlack, clrBackground, m_StatusWindow);
m_Osd->Text(OSDSTATUSWIN_XC(5,tr("SYNC")), OSDSTATUSWIN_Y(offset), tr("SYNC"), (m_FrontendStatus & FE_HAS_SYNC) ? clrYellow : clrBlack, clrBackground, m_StatusWindow);
#if (VDRVERSNUM >= 10300) || defined(ELCHIAIOVERSION)
m_Osd->SetFont(OldFont);
#endif
@ -160,88 +167,152 @@ void cFemonOsd::DrawInfoWindow(void)
//printf("cFemonOsd::DrawInfoWindow()\n");
char buf[128];
char buf2[20];
int lines = 0;
int offset = 0;
int value = 0;
double dvalue = 0.0;
cChannel *channel = Channels.GetByNumber(cDevice::CurrentChannel());
if (m_Osd) {
if (m_DisplayMode) {
#if (VDRVERSNUM >= 10300) || defined(ELCHIAIOVERSION)
eDvbFont OldFont = m_Osd->SetFont(fontSml);
eDvbFont OldFont = m_Osd->SetFont(m_Font);
#endif
m_Osd->Clear(m_InfoWindow);
m_Osd->Fill(0, femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), OSDWIDTH * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines + 1) * cOsd::LineHeight() - 1 : (lines + 1) * cOsd::LineHeight() - 1, clrWhite, m_InfoWindow);
m_Osd->Text( OSDINFOLCOL1 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines, tr("Transponder Information"), clrBackground, clrWhite, m_InfoWindow);
lines++;
m_Osd->Text(OSDINFOLCOL1 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Vpid"), clrWhite, clrBackground, m_InfoWindow);
if (m_DisplayMode == modeTransponder) {
m_Osd->Fill(0, OSDINFOWIN_Y(0), OSDWIDTH, OSDINFOWIN_Y(OSDINFOHEIGHT), clrBackground, m_InfoWindow);
m_Osd->Fill(0, OSDINFOWIN_Y(offset), OSDWIDTH, OSDINFOWIN_Y(offset+cOsd::LineHeight()-1), clrWhite, m_InfoWindow);
m_Osd->Text( OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Transponder Information"), clrBackground, clrWhite, m_InfoWindow);
offset += cOsd::LineHeight();
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Vpid"), clrWhite, clrBackground, m_InfoWindow);
snprintf(buf, sizeof(buf), "%d", channel->Vpid());
m_Osd->Text(OSDINFOLCOL2 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOLCOL3 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Ppid"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Ppid"), clrWhite, clrBackground, m_InfoWindow);
snprintf(buf, sizeof(buf), "%d", channel->Ppid());
m_Osd->Text(OSDINFOLCOL4 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
lines++;
m_Osd->Text(OSDINFOLCOL1 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Apid1"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Apid1"), clrWhite, clrBackground, m_InfoWindow);
value = channel->Apid2();
if (value) snprintf(buf, sizeof(buf), "%d, %d", channel->Apid1(), value);
else snprintf(buf, sizeof(buf), "%d", channel->Apid1());
m_Osd->Text(OSDINFOLCOL2 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOLCOL3 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Dpid1"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Dpid1"), clrWhite, clrBackground, m_InfoWindow);
value = channel->Dpid2();
if (value) snprintf(buf, sizeof(buf), "%d, %d", channel->Dpid1(), value);
else snprintf(buf, sizeof(buf), "%d", channel->Dpid1());
m_Osd->Text(OSDINFOLCOL4 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
lines++;
m_Osd->Text(OSDINFOLCOL1 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("CA"), clrWhite, clrBackground, m_InfoWindow);
snprintf(buf, sizeof(buf), "%d", channel->Ca());
m_Osd->Text(OSDINFOLCOL2 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOLCOL3 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Tpid"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("CA"), clrWhite, clrBackground, m_InfoWindow);
value = channel->Ca();
if (femonConfig.showcasystem) {
/* http://www.dvb.org/index.php?id=174 */
switch (value) {
case 0x0000:
/* Reserved */
snprintf(buf, sizeof(buf), "%s", tr("Free to Air"));
break;
case 0x0001 ... 0x00FF:
/* Standardized systems */
snprintf(buf, sizeof(buf), "%s", tr("Fixed"));
break;
case 0x0100 ... 0x01FF:
/* Canal Plus */
snprintf(buf, sizeof(buf), "%s", tr("SECA/Mediaguard"));
break;
case 0x0500 ... 0x05FF:
/* France Telecom */
snprintf(buf, sizeof(buf), "%s", tr("Viaccess"));
break;
case 0x0600 ... 0x06FF:
/* Irdeto */
snprintf(buf, sizeof(buf), "%s", tr("Irdeto"));
break;
case 0x0900 ... 0x09FF:
/* News Datacom */
snprintf(buf, sizeof(buf), "%s", tr("NDS/Videoguard"));
break;
case 0x0B00 ... 0x0BFF:
/* Norwegian Telekom */
snprintf(buf, sizeof(buf), "%s", tr("Conax"));
break;
case 0x0D00 ... 0x0DFF:
/* Philips */
snprintf(buf, sizeof(buf), "%s", tr("CryptoWorks"));
break;
case 0x0E00 ... 0x0EFF:
/* Scientific Atlanta */
snprintf(buf, sizeof(buf), "%s", tr("PowerVu"));
break;
case 0x1200 ... 0x12FF:
/* BellVu Express */
snprintf(buf, sizeof(buf), "%s", tr("NagraVision"));
break;
case 0x1700 ... 0x17FF:
/* BetaTechnik */
snprintf(buf, sizeof(buf), "%s", tr("BetaCrypt"));
break;
case 0x1800 ... 0x18FF:
/* Kudelski SA */
snprintf(buf, sizeof(buf), "%s", tr("NagraVision"));
break;
case 0x4A60 ... 0x4A6F:
/* @Sky */
snprintf(buf, sizeof(buf), "%s", tr("SkyCrypt"));
break;
default:
snprintf(buf, sizeof(buf), "%X", value);
break;
}
}
else {
snprintf(buf, sizeof(buf), "%X", value);
}
m_Osd->Text(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Tpid"), clrWhite, clrBackground, m_InfoWindow);
snprintf(buf, sizeof(buf), "%d", channel->Tpid());
m_Osd->Text(OSDINFOLCOL4 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
lines++;
m_Osd->Text(OSDINFOLCOL1 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Sid"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Sid"), clrWhite, clrBackground, m_InfoWindow);
snprintf(buf, sizeof(buf), "%d", channel->Sid());
m_Osd->Text(OSDINFOLCOL2 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
#if (VDRVERSNUM >= 10300)
m_Osd->Text(OSDINFOLCOL3 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), "Nid", clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Nid"), clrWhite, clrBackground, m_InfoWindow);
snprintf(buf, sizeof(buf), "%d", channel->Nid());
m_Osd->Text(OSDINFOLCOL4 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
lines++;
m_Osd->Text(OSDINFOLCOL1 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), "Tid" /*tr("Tid")*/, clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Tid"), clrWhite, clrBackground, m_InfoWindow);
snprintf(buf, sizeof(buf), "%d", channel->Tid());
m_Osd->Text(OSDINFOLCOL2 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOLCOL3 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), "Rid" /*tr("Rid")*/, clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Rid"), clrWhite, clrBackground, m_InfoWindow);
snprintf(buf, sizeof(buf), "%d", channel->Rid());
m_Osd->Text(OSDINFOLCOL4 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
#endif
lines++;
offset += cOsd::LineHeight() - DELTA;
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->Text(OSDINFOLCOL1 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
lines++;
m_Osd->Text(OSDINFOLCOL1 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Frequency"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Frequency"), clrWhite, clrBackground, m_InfoWindow);
value = channel->Frequency();
while (value > 20000) value /= 1000;
snprintf(buf, sizeof(buf), "%d %s", value, tr("MHz"));
m_Osd->Text(OSDINFOLCOL2 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOLCOL3 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Source"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Source"), clrWhite, clrBackground, m_InfoWindow);
snprintf(buf, sizeof(buf), "%s", cSource::ToString(channel->Source()));
m_Osd->Text(OSDINFOLCOL4 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
lines++;
m_Osd->Text(OSDINFOLCOL1 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Srate"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Srate"), clrWhite, clrBackground, m_InfoWindow);
snprintf(buf, sizeof(buf), "%d", channel->Srate());
m_Osd->Text(OSDINFOLCOL2 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOLCOL3 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Polarization"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Polarization"), clrWhite, clrBackground, m_InfoWindow);
snprintf(buf, sizeof(buf), "%c", toupper(channel->Polarization()));
m_Osd->Text(OSDINFOLCOL4 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
lines++;
m_Osd->Text(OSDINFOLCOL1 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Inversion"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Inversion"), clrWhite, clrBackground, m_InfoWindow);
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->Text(OSDINFOLCOL2 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOLCOL3 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("CoderateH"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("CoderateH"), clrWhite, clrBackground, m_InfoWindow);
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");
@ -253,26 +324,26 @@ void cFemonOsd::DrawInfoWindow(void)
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->Text(OSDINFOLCOL4 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
break;
case FE_QAM:
snprintf(buf, sizeof(buf), "%s #%d - %s", tr("Cable Card"), cDevice::ActualDevice()->CardIndex(), m_FrontendInfo.name);
m_Osd->Text(OSDINFOLCOL1 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
lines++;
m_Osd->Text(OSDINFOLCOL1 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Frequency"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Frequency"), clrWhite, clrBackground, m_InfoWindow);
value = channel->Frequency();
while (value > 20000) value /= 1000;
snprintf(buf, sizeof(buf), "%d %s", value, tr("MHz"));
m_Osd->Text(OSDINFOLCOL2 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOLCOL3 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Source"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Source"), clrWhite, clrBackground, m_InfoWindow);
snprintf(buf, sizeof(buf), "%s", cSource::ToString(channel->Source()));
m_Osd->Text(OSDINFOLCOL4 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
lines++;
m_Osd->Text(OSDINFOLCOL1 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Srate"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Srate"), clrWhite, clrBackground, m_InfoWindow);
snprintf(buf, sizeof(buf), "%d", channel->Srate());
m_Osd->Text(OSDINFOLCOL2 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOLCOL3 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Modulation"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Modulation"), clrWhite, clrBackground, m_InfoWindow);
value = channel->Modulation();
if (value == QPSK) snprintf(buf, sizeof(buf), "QPSK");
else if (value == QAM_16) snprintf(buf, sizeof(buf), "QAM 16");
@ -281,15 +352,15 @@ void cFemonOsd::DrawInfoWindow(void)
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->Text(OSDINFOLCOL4 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
lines++;
m_Osd->Text(OSDINFOLCOL1 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Inversion"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Inversion"), clrWhite, clrBackground, m_InfoWindow);
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->Text(OSDINFOLCOL2 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOLCOL3 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("CoderateH"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("CoderateH"), clrWhite, clrBackground, m_InfoWindow);
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");
@ -301,33 +372,33 @@ void cFemonOsd::DrawInfoWindow(void)
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->Text(OSDINFOLCOL4 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
break;
default:
snprintf(buf, sizeof(buf), "%s #%d - %s", tr("Terrestial Card"), cDevice::ActualDevice()->CardIndex(), m_FrontendInfo.name);
m_Osd->Text(OSDINFOLCOL1 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
lines++;
m_Osd->Text(OSDINFOLCOL1 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Frequency"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Frequency"), clrWhite, clrBackground, m_InfoWindow);
value = channel->Frequency();
while (value > 20000) value /= 1000;
snprintf(buf, sizeof(buf), "%d %s", value, tr("MHz"));
m_Osd->Text(OSDINFOLCOL2 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOLCOL3 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Transmission"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Transmission"), clrWhite, clrBackground, m_InfoWindow);
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->Text(OSDINFOLCOL4 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
lines++;
m_Osd->Text( OSDINFOLCOL1 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Bandwidth"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text( OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Bandwidth"), clrWhite, clrBackground, m_InfoWindow);
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->Text(OSDINFOLCOL2 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOLCOL3 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Modulation"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Modulation"), clrWhite, clrBackground, m_InfoWindow);
value = channel->Modulation();
if (value == QPSK) snprintf(buf, sizeof(buf), "QPSK");
else if (value == QAM_16) snprintf(buf, sizeof(buf), "QAM 16");
@ -336,15 +407,15 @@ void cFemonOsd::DrawInfoWindow(void)
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->Text(OSDINFOLCOL4 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
lines++;
m_Osd->Text(OSDINFOLCOL1 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Inversion"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Inversion"), clrWhite, clrBackground, m_InfoWindow);
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->Text(OSDINFOLCOL2 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOLCOL3 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("CoderateH"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("CoderateH"), clrWhite, clrBackground, m_InfoWindow);
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");
@ -368,33 +439,202 @@ void cFemonOsd::DrawInfoWindow(void)
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->Text(OSDINFOLCOL4 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
lines++;
m_Osd->Text(OSDINFOLCOL1 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Hierarchy"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Hierarchy"), clrWhite, clrBackground, m_InfoWindow);
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->Text(OSDINFOLCOL2 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOLCOL3 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), tr("Guard"), clrWhite, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(2), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), tr("Guard"), clrWhite, clrBackground, m_InfoWindow);
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->Text(OSDINFOLCOL4 * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT + lines) * cOsd::LineHeight() : lines * cOsd::LineHeight(), buf, clrYellow, clrBackground, m_InfoWindow);
m_Osd->Text(OSDINFOWIN_X(4), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
break;
}
}
else if (m_DisplayMode == modeStream) {
m_Osd->Fill(0, OSDINFOWIN_Y(0), OSDWIDTH, OSDINFOWIN_Y(OSDINFOHEIGHT), clrBackground, m_InfoWindow);
m_Osd->Fill(0, OSDINFOWIN_Y(offset), OSDWIDTH, OSDINFOWIN_Y(offset+cOsd::LineHeight()-1), clrWhite, m_InfoWindow);
m_Osd->Text( OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Stream Information"), clrBackground, clrWhite, m_InfoWindow);
offset += cOsd::LineHeight();
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Video Stream"), clrYellow, clrBackground, m_InfoWindow);
snprintf(buf, sizeof(buf), "#%d", channel->Vpid());
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Bitrate"), clrWhite, clrBackground, m_InfoWindow);
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->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Aspect Ratio"), clrWhite, clrBackground, m_InfoWindow);
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->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Frame Rate"), clrWhite, clrBackground, m_InfoWindow);
if (m_Receiver) snprintf(buf, sizeof(buf), "%.2f %s", m_Receiver->VideoFrameRate(), tr("Hz"));
else snprintf(buf, sizeof(buf), "---");
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Video Format"), clrWhite, clrBackground, m_InfoWindow);
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->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Resolution"), clrWhite, clrBackground, m_InfoWindow);
if (m_Receiver) snprintf(buf, sizeof(buf), "%d x %d", m_Receiver->VideoHorizontalSize(), m_Receiver->VideoVerticalSize());
else snprintf(buf, sizeof(buf), "---");
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Audio Stream"), clrYellow, clrBackground, m_InfoWindow);
value = -1;
cDevice::PrimaryDevice()->GetAudioTracks(&value);
snprintf(buf, sizeof(buf), "#%d", (value > 0 ? channel->Apid2() : channel->Apid1()));
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Bitrate"), clrWhite, clrBackground, m_InfoWindow);
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->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("MPEG Layer"), clrWhite, clrBackground, m_InfoWindow);
if (m_Receiver) snprintf(buf, sizeof(buf), "%d", m_Receiver->AudioMPEGLayer());
else snprintf(buf, sizeof(buf), "---");
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Sampling Frequency"), clrWhite, clrBackground, m_InfoWindow);
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->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
}
else if (m_DisplayMode == modeAC3) {
m_Osd->Fill(0, OSDINFOWIN_Y(0), OSDWIDTH, OSDINFOWIN_Y(OSDINFOHEIGHT), clrBackground, m_InfoWindow);
m_Osd->Fill(0, OSDINFOWIN_Y(offset), OSDWIDTH, OSDINFOWIN_Y(offset+cOsd::LineHeight()-1), clrWhite, m_InfoWindow);
snprintf(buf, sizeof(buf), "%s - %s #%d", tr("Stream Information"), tr("AC-3 Stream"), channel->Dpid1());
m_Osd->Text( OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), buf, clrBackground, clrWhite, m_InfoWindow);
offset += cOsd::LineHeight();
if (m_Receiver && m_Receiver->AC3Valid()) {
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Bitrate"), clrWhite, clrBackground, m_InfoWindow);
snprintf(buf, sizeof(buf), "%.0f %s (%0.f %s)", m_Receiver->AC3StreamBitrate(), tr("kbit/s"), m_Receiver->AC3Bitrate(), tr("kbit/s"));
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Sampling Frequency"), clrWhite, clrBackground, m_InfoWindow);
snprintf(buf, sizeof(buf), "%.1f %s", m_Receiver->AC3SamplingFreq() / 1000., tr("kHz"));
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Frame Size"), clrWhite, clrBackground, m_InfoWindow);
snprintf(buf, sizeof(buf), "%d", m_Receiver->AC3FrameSize());
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Bit Stream Mode"), clrWhite, clrBackground, m_InfoWindow);
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->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Audio Coding Mode"), clrWhite, clrBackground, m_InfoWindow);
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->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Center Mix Level"), clrWhite, clrBackground, m_InfoWindow);
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->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Surround Mix Level"), clrWhite, clrBackground, m_InfoWindow);
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->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Dolby Surround Mode"), clrWhite, clrBackground, m_InfoWindow);
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("Off")); break;
case DSM_DOLBYSURROUND: snprintf(buf, sizeof(buf), "%s", tr("On")); break;
case DSM_RESERVED: snprintf(buf, sizeof(buf), "%s", tr("reserved")); break;
default: snprintf(buf, sizeof(buf), "---");
}
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Low Frequency Effects"), clrWhite, clrBackground, m_InfoWindow);
snprintf(buf, sizeof(buf), "%s", m_Receiver->AC3LfeOn() ? tr("On") : tr("Off"));
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
m_Osd->Text(OSDINFOWIN_X(1), OSDINFOWIN_Y(offset), tr("Dialogue Normalization"), clrWhite, clrBackground, m_InfoWindow);
value = m_Receiver->AC3DialogLevel();
if (value > 0) snprintf(buf, sizeof(buf), "-%d %s", value, tr("dB"));
else snprintf(buf, sizeof(buf), "---");
m_Osd->Text(OSDINFOWIN_X(3), OSDINFOWIN_Y(offset), buf, clrYellow, clrBackground, m_InfoWindow);
offset += cOsd::LineHeight() - DELTA;
}
}
else /* modeBasic */ {
m_Osd->Fill(0, OSDINFOWIN_Y(0), OSDWIDTH, OSDINFOWIN_Y(OSDINFOHEIGHT), clrTransparent, m_InfoWindow);
}
#if (VDRVERSNUM >= 10300) || defined(ELCHIAIOVERSION)
m_Osd->SetFont(OldFont);
m_Osd->SetFont(OldFont);
#endif
}
else {
m_Osd->Fill(0, femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT) * cOsd::LineHeight() : 0, OSDWIDTH * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDINFOHEIGHT + OSDGAPHEIGHT) * cOsd::LineHeight() : OSDINFOHEIGHT * cOsd::LineHeight(), clrTransparent, m_InfoWindow);
}
m_Osd->Flush();
}
}
@ -440,22 +680,28 @@ void cFemonOsd::Show(void)
}
if (ioctl(m_Frontend, FE_GET_INFO, &m_FrontendInfo) < 0) {
isyslog("cFemonOsd::Show() cannot read frontend info.");
m_Frontend = -1;
close(m_Frontend);
m_Frontend = -1;
return;
}
m_Osd = cOsd::OpenRaw((SCREENWIDTH - OSDWIDTH * cOsd::CellWidth()) / 2, (SCREENHEIGHT - (OSDSTATUSHEIGHT + OSDINFOHEIGHT + OSDGAPHEIGHT) * cOsd::LineHeight()) / 2);
m_Osd = cOsd::OpenRaw((SCREENWIDTH - OSDWIDTH) / 2, (SCREENHEIGHT - OSDHEIGHT) / 2);
if (m_Osd) {
m_StatusWindow = m_Osd->Create(0, femonConfig.position ? 0 : (OSDINFOHEIGHT + OSDGAPHEIGHT) * cOsd::LineHeight(), OSDWIDTH * cOsd::CellWidth(), OSDSTATUSHEIGHT * cOsd::LineHeight(), 4);
m_InfoWindow = m_Osd->Create(0, femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT) * cOsd::LineHeight() : 0, OSDWIDTH * cOsd::CellWidth(), OSDINFOHEIGHT * cOsd::LineHeight(), 2);
#if (VDRVERSNUM >= 10300) || defined(ELCHIAIOVERSION)
eDvbFont OldFont = m_Osd->SetFont(m_Font);
#endif
m_StatusWindow = m_Osd->Create(0, OSDSTATUSWIN_Y(0), OSDWIDTH, OSDSTATUSHEIGHT, 4);
m_InfoWindow = m_Osd->Create(0, OSDINFOWIN_Y(0), OSDWIDTH, OSDINFOHEIGHT, 2);
m_Osd->Clear();
m_Osd->Fill(0, femonConfig.position ? (OSDSTATUSHEIGHT + OSDGAPHEIGHT) * cOsd::LineHeight() : 0, OSDWIDTH * cOsd::CellWidth(), femonConfig.position ? (OSDSTATUSHEIGHT + OSDINFOHEIGHT + OSDGAPHEIGHT) * cOsd::LineHeight() : OSDINFOHEIGHT * cOsd::LineHeight(), clrTransparent, m_InfoWindow);
m_Osd->Fill(0, OSDINFOWIN_Y(0), OSDWIDTH, OSDINFOWIN_Y(OSDINFOHEIGHT), clrTransparent, m_InfoWindow);
#if (VDRVERSNUM >= 10300) || defined(ELCHIAIOVERSION)
m_Osd->SetFont(OldFont);
#endif
m_Osd->Flush();
if (m_Receiver)
delete m_Receiver;
if (femonConfig.showbitrate) {
int channelNumber = cDevice::CurrentChannel();
m_Receiver = new cFemonReceiver(Channels.GetByNumber(channelNumber)->Ca(), Channels.GetByNumber(channelNumber)->Vpid(), Channels.GetByNumber(channelNumber)->Apid1());
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();
@ -466,6 +712,8 @@ 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);
@ -477,15 +725,15 @@ void cFemonOsd::ChannelSwitch(const cDevice * device, int channelNumber)
}
if (ioctl(m_Frontend, FE_GET_INFO, &m_FrontendInfo) < 0) {
isyslog("cFemonOsd::ChannelSwitch() cannot read frontend info.");
m_Frontend = -1;
close(m_Frontend);
m_Frontend = -1;
return;
}
if (m_Receiver)
delete m_Receiver;
if (femonConfig.showbitrate) {
channelNumber = cDevice::CurrentChannel();
m_Receiver = new cFemonReceiver(Channels.GetByNumber(channelNumber)->Ca(), Channels.GetByNumber(channelNumber)->Vpid(), Channels.GetByNumber(channelNumber)->Apid1());
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);
}
}
@ -493,9 +741,8 @@ void cFemonOsd::ChannelSwitch(const cDevice * device, int channelNumber)
eOSState cFemonOsd::ProcessKey(eKeys Key)
{
eOSState state = cOsdObject::ProcessKey(Key);
if (state == osUnknown) {
switch (Key & ~k_Repeat) {
switch (Key) {
case k0:
if ((m_Number == 0) && (m_OldNumber != 0)) {
m_Number = m_OldNumber;
@ -534,6 +781,49 @@ eOSState cFemonOsd::ProcessKey(eKeys Key)
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:
@ -556,7 +846,9 @@ eOSState cFemonOsd::ProcessKey(eKeys Key)
}
break;
case kOk:
m_DisplayMode ^= 1; // toggle between advanced and simple display mode
// 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:

1
femonosd.h
View File

@ -36,6 +36,7 @@ private:
uint32_t m_UNC;
fe_status_t m_FrontendStatus;
int m_DisplayMode;
eDvbFont m_Font;
cMutex* m_Mutex;
void DrawStatusWindow(void);
void DrawInfoWindow(void);

260
femonreceiver.c
View File

@ -10,21 +10,53 @@
#include "femoncfg.h"
#include "femonreceiver.h"
cFemonReceiver::cFemonReceiver(int Ca, int Vpid, int Apid)
#define TS_SIZE 188
#define PAY_START 0x40
#define ADAPT_FIELD 0x20
#define PAYLOAD 0x10
#define PTS_DTS_FLAGS 0xC0
cFemonReceiver::cFemonReceiver(int Ca, int Vpid, int Apid, int Dpid)
#if VDRVERSNUM >= 10300
:cReceiver(Ca, -1, 2, Vpid, Apid), cThread("femon receiver")
:cReceiver(Ca, -1, 3, Vpid, Apid, Dpid), cThread("femon receiver")
#else
:cReceiver(Ca, -1, 2, Vpid, Apid)
:cReceiver(Ca, -1, 3, Vpid, Apid, Dpid)
#endif
{
//printf("cFemonReceiver::cFemonReceiver()\n");
m_Active = false;
m_VideoPid = Vpid;
m_AudioPid = Apid;
m_AC3Pid = Dpid;
m_VideoValid = false;
m_VideoPacketCount = 0;
m_AudioPacketCount = 0;
m_VideoHorizontalSize = 0;
m_VideoVerticalSize = 0;
m_VideoAspectRatio = AR_RESERVED;
m_VideoFormat = VF_UNKNOWN;
m_VideoFrameRate = 0.0;
m_VideoStreamBitrate = 0.0;
m_VideoBitrate = 0.0;
m_AudioValid = false;
m_AudioPacketCount = 0;
m_AudioStreamBitrate = -2.0;
m_AudioBitrate = 0.0;
m_AudioSamplingFreq = -1;
m_AudioMPEGLayer = 0;
m_AudioBitrate = 0.0;
m_AC3Valid = false;
m_AC3PacketCount = 0;
m_AC3StreamBitrate = 0;
m_AC3SamplingFreq = 0;
m_AC3Bitrate = 0;
m_AC3FrameSize = 0;
m_AC3BitStreamMode = FR_NOTVALID;
m_AC3AudioCodingMode = FR_NOTVALID;
m_AC3CenterMixLevel = FR_NOTVALID;
m_AC3SurroundMixLevel = FR_NOTVALID;
m_AC3DolbySurroundMode = FR_NOTVALID;
m_AC3LfeOn = false;
m_AC3DialogLevel = FR_NOTVALID;
}
cFemonReceiver::~cFemonReceiver(void)
@ -36,6 +68,192 @@ cFemonReceiver::~cFemonReceiver(void)
}
}
/* The following function originates from libdvbmpeg: */
void cFemonReceiver::GetVideoInfo(uint8_t *mbuf, int count)
{
//printf("cFemonReceiver::GetVideoInfo()\n");
uint8_t *headr;
int found = 0;
int c = 0;
m_VideoValid = false;
while ((found < 4) && ((c + 4) < count)) {
uint8_t *b;
b = mbuf + c;
if ((b[0] == 0x00) && (b[1] == 0x00) && (b[2] == 0x01) && (b[3] == 0xb3))
found = 4;
else
c++;
}
if ((!found) || ((c + 16) >= count)) return;
m_VideoValid = true;
headr = mbuf + c + 4;
m_VideoHorizontalSize = ((headr[1] & 0xF0) >> 4) | (headr[0] << 4);
m_VideoVerticalSize = ((headr[1] & 0x0F) << 8) | (headr[2]);
int sw = (int)((headr[3] & 0xF0) >> 4);
switch ( sw ){
case 1:
m_VideoAspectRatio = AR_1_1;
break;
case 2:
m_VideoAspectRatio = AR_4_3;
break;
case 3:
m_VideoAspectRatio = AR_16_9;
break;
case 4:
m_VideoAspectRatio = AR_2_21_1;
break;
case 5 ... 15:
default:
m_VideoAspectRatio = AR_RESERVED;
break;
}
sw = (int)(headr[3] & 0x0F);
switch ( sw ) {
case 1:
m_VideoFrameRate = 24000 / 1001.0;
m_VideoFormat = VF_UNKNOWN;
break;
case 2:
m_VideoFrameRate = 24.0;
m_VideoFormat = VF_UNKNOWN;
break;
case 3:
m_VideoFrameRate = 25.0;
m_VideoFormat = VF_PAL;
break;
case 4:
m_VideoFrameRate = 30000 / 1001.0;
m_VideoFormat = VF_NTSC;
break;
case 5:
m_VideoFrameRate = 30.0;
m_VideoFormat = VF_NTSC;
break;
case 6:
m_VideoFrameRate = 50.0;
m_VideoFormat = VF_PAL;
break;
case 7:
m_VideoFrameRate = 60.0;
m_VideoFormat = VF_NTSC;
break;
case 8:
m_VideoFrameRate = 60000 / 1001.0;
m_VideoFormat = VF_NTSC;
break;
case 9 ... 15:
default:
m_VideoFrameRate = 0;
m_VideoFormat = VF_UNKNOWN;
break;
}
m_VideoStreamBitrate = 400 * (((headr[4] << 10) & 0x0003FC00UL) | ((headr[5] << 2) & 0x000003FCUL) | (((headr[6] & 0xC0) >> 6) & 0x00000003UL)) / 1000000.0;
}
static unsigned int bitrates[3][16] =
{
{0, 32, 64, 96, 128, 160, 192, 224, 256, 288, 320, 352, 384, 416, 448, 0},
{0, 32, 48, 56, 64, 80, 96, 112, 128, 160, 192, 224, 256, 320, 384, 0},
{0, 32, 40, 48, 56, 64, 80, 96, 112, 128, 160, 192, 224, 256, 320, 0}
};
static unsigned int samplerates[4] =
{441, 480, 320, 0};
/* The following function originates from libdvbmpeg: */
void cFemonReceiver::GetAudioInfo(uint8_t *mbuf, int count)
{
//printf("cFemonReceiver::GetAudioInfo()\n");
uint8_t *headr;
int found = 0;
int c = 0;
int tmp = 0;
m_AudioValid = false;
while (!found && (c < count)) {
uint8_t *b = mbuf + c;
if ((b[0] == 0xff) && ((b[1] & 0xf8) == 0xf8))
found = 1;
else
c++;
}
if ((!found) || ((c + 3) >= count)) return;
m_AudioValid = true;
headr = mbuf + c;
m_AudioMPEGLayer = 4 - ((headr[1] & 0x06) >> 1);
tmp = bitrates[(3 - ((headr[1] & 0x06) >> 1))][(headr[2] >> 4)] * 1000;
if (tmp == 0)
m_AudioStreamBitrate = (double)FR_FREE;
else if (tmp == 0xf)
m_AudioStreamBitrate = (double)FR_RESERVED;
else
m_AudioStreamBitrate = tmp / 1000.0;
tmp = samplerates[((headr[2] & 0x0c) >> 2)] * 100;
if (tmp == 3)
m_AudioSamplingFreq = FR_RESERVED;
else
m_AudioSamplingFreq = tmp;
}
static unsigned int ac3_bitrates[32] =
{32, 40, 48, 56, 64, 80, 96, 112, 128, 160, 192, 224, 256, 320, 384, 448, 512, 576, 640, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
static unsigned int ac3_freq[4] =
{480, 441, 320, 0};
static unsigned int ac3_frames[3][32] =
{
{64, 80, 96, 112, 128, 160, 192, 224, 256, 320, 384, 448, 512, 640, 768, 896, 1024, 1152, 1280, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0},
{69, 87, 104, 121, 139, 174, 208, 243, 278, 348, 417, 487, 557, 696, 835, 975, 1114, 1253, 1393, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0},
{96, 120, 144, 168, 192, 240, 288, 336, 384, 480, 576, 672, 768, 960, 1152, 1344, 1536, 1728, 1920, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}
};
/*
** AC3 Audio Header: http://www.atsc.org/standards/a_52a.pdf
** The following function originates from libdvbmpeg:
*/
void cFemonReceiver::GetAC3Info(uint8_t *mbuf, int count)
{
uint8_t *headr;
int found = 0;
int c = 0;
uint8_t frame;
m_AC3Valid = false;
while (!found && (c < count)) {
uint8_t *b = mbuf + c;
if ((b[0] == 0x0b) && (b[1] == 0x77))
found = 1;
else
c++;
}
if ((!found) || ((c + 5) >= count)) return;
m_AC3Valid = true;
headr = mbuf + c + 2;
frame = (headr[2] & 0x3f);
m_AC3StreamBitrate = ac3_bitrates[frame >> 1];
int fr = (headr[2] & 0xc0 ) >> 6;
m_AC3SamplingFreq = ac3_freq[fr] * 100;
m_AC3FrameSize = ac3_frames[fr][frame >> 1];
if ((frame & 1) && (fr == 1)) m_AC3FrameSize++;
m_AC3FrameSize <<= 1;
m_AC3BitStreamMode = (headr[3] & 7);
m_AC3AudioCodingMode = (headr[4] & 0xE0) >> 5;
if ((m_AC3AudioCodingMode & 0x01) && (m_AC3AudioCodingMode != 0x01)) // if 3 front channels
m_AC3CenterMixLevel = (headr[4] & 0x18) >> 3;
else
m_AC3CenterMixLevel = FR_NOTVALID;
if (m_AC3AudioCodingMode & 0x04) // if a surround channel exists
m_AC3SurroundMixLevel = (headr[4] & 0x06) >> 1;
else
m_AC3SurroundMixLevel = FR_NOTVALID;
if (m_AC3AudioCodingMode == 0x02) // if in 2/0 mode
m_AC3DolbySurroundMode = ((headr[4] & 1) << 1) | ((headr[5] & 0x80) >> 7);
else
m_AC3DolbySurroundMode = FR_NOTVALID;
m_AC3LfeOn = (headr[5] & 0x40) >> 6;
m_AC3DialogLevel = (headr[5] & 0x3e) >> 1;
}
void cFemonReceiver::Activate(bool On)
{
//printf("cFemonReceiver::Activate()\n");
@ -45,8 +263,8 @@ void cFemonReceiver::Activate(bool On)
void cFemonReceiver::Receive(uchar *Data, int Length)
{
//printf("cFemonReceiver::Receive()\n");
// TS packet length: 188
if (Length == 188) {
// TS packet length: TS_SIZE
if (Length == TS_SIZE) {
int pid = ((Data[1] & 0x1f) << 8) | (Data[2]);
if (pid == m_VideoPid) {
m_VideoPacketCount++;
@ -54,6 +272,34 @@ void cFemonReceiver::Receive(uchar *Data, int Length)
else if (pid == m_AudioPid) {
m_AudioPacketCount++;
}
else if (pid == m_AC3Pid) {
m_AC3PacketCount++;
}
/* the following originates from libdvbmpeg: */
if (!(Data[3] & PAYLOAD)) {
return;
}
uint8_t off = 0;
if (Data[3] & ADAPT_FIELD) {
off = Data[4] + 1;
}
if (Data[1] & PAY_START) {
uint8_t *sb = Data + 4 + off;
if (sb[7] & PTS_DTS_FLAGS) {
uint8_t *pay = sb + sb[8] + 9;
int l = TS_SIZE - 13 - off - sb[8];
if (pid == m_VideoPid) {
GetVideoInfo(pay, l);
}
else if (pid == m_AudioPid) {
GetAudioInfo(pay, l);
}
else if (pid == m_AC3Pid) {
GetAC3Info(pay, l);
}
}
}
/* end */
}
}
@ -70,6 +316,8 @@ void cFemonReceiver::Action(void)
m_VideoPacketCount = 0;
m_AudioBitrate = (8.0 * 184.0 * m_AudioPacketCount) / (femonConfig.calcinterval * 100.0);
m_AudioPacketCount = 0;
m_AC3Bitrate = (8.0 * 184.0 * m_AC3PacketCount) / (femonConfig.calcinterval * 100.0);
m_AC3PacketCount = 0;
usleep(100000L * femonConfig.calcinterval);
}
#if (VDRVERSNUM < 10300)

110
femonreceiver.h
View File

@ -12,15 +12,82 @@
#include <vdr/thread.h>
#include <vdr/receiver.h>
enum eVideoFormat {
VF_UNKNOWN = 0,
VF_PAL = 1,
VF_NTSC = 2,
};
enum eAspectRatio {
AR_RESERVED = 0,
AR_1_1 = 100,
AR_4_3 = 133,
AR_16_9 = 177,
AR_2_21_1 = 233,
};
enum eCenterMixLevel {
CML_MINUS_3dB = 0,
CML_MINUS_4_5dB = 1,
CML_MINUS_6dB = 2,
CML_RESERVED = 3,
};
enum eSurroundMixLevel {
SML_MINUS_3dB = 0,
SML_MINUS_6dB = 1,
SML_0_dB = 2,
SML_RESERVED = 3,
};
enum eDolbySurroundMode {
DSM_NOT_INDICATED = 0,
DSM_NOT_DOLBYSURROUND = 1,
DSM_DOLBYSURROUND = 2,
DSM_RESERVED = 3,
};
#define FR_RESERVED -1
#define FR_FREE -2
#define FR_NOTVALID -3
class cFemonReceiver : public cReceiver, public cThread {
private:
bool m_Active;
int m_VideoPid;
int m_AudioPid;
int m_VideoPacketCount;
int m_AudioPacketCount;
bool m_Active;
int m_VideoPid;
int m_AudioPid;
int m_AC3Pid;
bool m_VideoValid;
int m_VideoPacketCount;
int m_VideoHorizontalSize;
int m_VideoVerticalSize;
int m_VideoAspectRatio;
int m_VideoFormat;
double m_VideoFrameRate;
double m_VideoStreamBitrate;
double m_VideoBitrate;
bool m_AudioValid;
int m_AudioPacketCount;
double m_AudioStreamBitrate;
double m_AudioBitrate;
int m_AudioSamplingFreq;
int m_AudioMPEGLayer;
bool m_AC3Valid;
int m_AC3PacketCount;
double m_AC3Bitrate;
int m_AC3FrameSize;
int m_AC3SamplingFreq;
int m_AC3StreamBitrate;
int m_AC3BitStreamMode;
int m_AC3AudioCodingMode;
int m_AC3CenterMixLevel;
int m_AC3SurroundMixLevel;
int m_AC3DolbySurroundMode;
bool m_AC3LfeOn;
int m_AC3DialogLevel;
void GetVideoInfo(uint8_t *mbuf, int count);
void GetAudioInfo(uint8_t *mbuf, int count);
void GetAC3Info(uint8_t *mbuf, int count);
protected:
virtual void Activate(bool On);
@ -28,11 +95,38 @@ protected:
virtual void Action(void);
public:
cFemonReceiver(int Ca, int Vpid, int Apid);
cFemonReceiver(int Ca, int Vpid, int Apid, int Dpid);
virtual ~cFemonReceiver();
double VideoBitrate(void) { return m_VideoBitrate; }; // Mbit/s
double AudioBitrate(void) { return m_AudioBitrate; }; // kbit/s
bool VideoValid(void) { return m_VideoValid; }; // boolean
int VideoHorizontalSize(void) { return m_VideoHorizontalSize; }; // pixels
int VideoVerticalSize(void) { return m_VideoVerticalSize; }; // pixels
int VideoAspectRatio(void) { return m_VideoAspectRatio; }; // eAspectRatio
int VideoFormat(void) { return m_VideoFormat; }; // eVideoFormat
double VideoFrameRate(void) { return m_VideoFrameRate; }; // Hz
double VideoStreamBitrate(void) { return m_VideoStreamBitrate; }; // Mbit/s
double VideoBitrate(void) { return m_VideoBitrate; }; // Mbit/s
bool AudioValid(void) { return m_AudioValid; }; // boolean
int AudioMPEGLayer(void) { return m_AudioMPEGLayer; }; // layer number
int AudioSamplingFreq(void) { return m_AudioSamplingFreq; }; // Hz
double AudioStreamBitrate(void) { return m_AudioStreamBitrate; }; // kbit/s
double AudioBitrate(void) { return m_AudioBitrate; }; // kbit/s
bool AC3Valid(void) { return m_AC3Valid; }; // boolean
int AC3SamplingFreq(void) { return m_AC3SamplingFreq; }; // Hz
double AC3StreamBitrate(void) { return m_AC3StreamBitrate; }; // kbit/s
double AC3Bitrate(void) { return m_AC3Bitrate; }; // kbit/s
int AC3FrameSize(void) { return m_AC3FrameSize; }; // Bytes
int AC3BitStreamMode(void) { return m_AC3BitStreamMode; }; // 0..7
int AC3AudioCodingMode(void) { return m_AC3AudioCodingMode; }; // 0..7
bool AC3_2_0(void) { return m_AC3AudioCodingMode == 2; }; // DD 2.0
bool AC3_5_1(void) { return m_AC3AudioCodingMode == 7; }; // DD 5.1
int AC3CenterMixLevel(void) { return m_AC3CenterMixLevel; }; // eCenterMixLevel
int AC3SurroundMixLevel(void) { return m_AC3SurroundMixLevel; }; // eSurroundMixLevel
int AC3DolbySurroundMode(void) { return m_AC3DolbySurroundMode; }; // eDolbySurroundMode
bool AC3LfeOn(void) { return m_AC3LfeOn; }; // boolean
int AC3DialogLevel(void) { return m_AC3DialogLevel; }; // -dB
};
#endif //__FEMONRECEIVER_H