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vdr/interface.c
Klaus Schmidinger d08073815d Version 1.1.11 
- Fixed an incomplete initialization of the filter parameters in eit.c (thanks
  to Jeremy Hall).
- Fixed the 'newplugin' script for use with the NEWSTRUCT driver (thanks to
  Andreas Schultz for reporting this one). If you have already created a plugin
  directory and Makefile with 'newplugin', please apply the following patch to it:

  -------------------------------------------------------
  --- Makefile    2002/06/10 16:24:06     1.4
  +++ Makefile    2002/09/17 15:36:36     1.5
  @@ -15,7 +15,12 @@

   ### The directory environment:

  +ifdef NEWSTRUCT
  +DVBDIR = ../../../../DVB/include
  +DEFINES += -DNEWSTRUCT
  +else
   DVBDIR = ../../../../DVB/ost/include
  +endif
   VDRDIR = ../../..
   VDRINC = $(VDRDIR)/include
   LIBDIR = ../../lib
  @@ -34,7 +39,7 @@

   INCLUDES = -I$(VDRINC) -I$(DVBDIR)

  -DEFINES = -DPLUGIN_NAME_I18N='"$(PLUGIN)"'
  +DEFINES += -DPLUGIN_NAME_I18N='"$(PLUGIN)"'

   ### The object files (add further files here):
  -------------------------------------------------------

  This is the diff for the 'setup' example that comes with VDR, so your line
  numbers may be different.
- Added a missing 'public' keyword in device.h (thanks to Martin Hammerschmid).
- Fixed a race condition when starting 'Transfer Mode'.
- Rearranged the remote control key handling to allow plugins to implement
  additional types of remote controls (see PLUGINS.html, section "Remote Control").
  The previously used files 'keys.conf' and 'keys-pc.conf' have been replaced
  by the file 'remote.conf', which holds the key definitions of all remote controls.
- The LIRC remote control keys are now handled just like the keyboard and RCU keys.
  This means that you can use the lircd.conf file as is for your remote control,
  without the need of editing it to make the key names the same as used in VDR.
  When first starting VDR it will go into the "Learning keys" mode and ask you
  to press the various keys. The resulting key assignment will be stored in
  the file 'remote.conf'.
  Since I have no way of testing the LIRC support, I hope I didn't break it in
  the process...
- While learning the remote control keys it is now possible to press the 'Menu'
  key to skip the definition of keys that are not available on your particular
  RC unit.
- Fixed handling DVD subtitles in the SPU decoder (thanks to Andreas Schultz).
- Avoiding restarts due to 'panic level' when switching channels on the primary
  device during EPG scan.
2002-09-29 18:00:00 +02:00

443 lines
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C
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/*
* interface.c: Abstract user interface layer
*
* See the main source file 'vdr.c' for copyright information and
* how to reach the author.
*
* $Id: interface.c 1.55 2002/09/29 12:50:22 kls Exp $
*/
#include "interface.h"
#include <ctype.h>
#include <stdlib.h>
#include <unistd.h>
#include "i18n.h"
#include "osd.h"
#include "status.h"
cInterface *Interface = NULL;
cInterface::cInterface(int SVDRPport)
{
open = 0;
cols[0] = 0;
width = height = 0;
interrupted = false;
SVDRP = NULL;
if (SVDRPport)
SVDRP = new cSVDRP(SVDRPport);
}
cInterface::~cInterface()
{
delete SVDRP;
}
void cInterface::Open(int NumCols, int NumLines)
{
if (!open++) {
if (NumCols == 0)
NumCols = Setup.OSDwidth;
if (NumLines == 0)
NumLines = Setup.OSDheight;
cOsd::Open(width = NumCols, height = NumLines);
}
}
void cInterface::Close(void)
{
if (open == 1)
Clear();
if (!--open) {
cOsd::Close();
width = height = 0;
}
}
eKeys cInterface::GetKey(bool Wait)
{
Flush();
if (SVDRP) {
SVDRP->Process();
if (!open) {
char *message = SVDRP->GetMessage();
if (message) {
Info(message);
free(message);
}
}
}
return cRemote::Get(Wait ? 1000 : 10);
}
eKeys cInterface::Wait(int Seconds, bool KeepChar)
{
if (Seconds == 0)
Seconds = Setup.OSDMessageTime;
Flush();
eKeys Key = kNone;
time_t timeout = time(NULL) + Seconds;
for (;;) {
Key = GetKey();
if ((Key != kNone && (RAWKEY(Key) != kOk || RAWKEY(Key) == Key)) || time(NULL) > timeout || interrupted)
break;
}
if (KeepChar && ISRAWKEY(Key))
cRemote::Put(Key);
interrupted = false;
return Key;
}
void cInterface::Clear(void)
{
if (open)
cOsd::Clear();
cStatus::MsgOsdClear();
}
void cInterface::ClearEol(int x, int y, eDvbColor Color)
{
if (open)
cOsd::ClrEol(x, y, Color);
}
void cInterface::Fill(int x, int y, int w, int h, eDvbColor Color)
{
if (open)
cOsd::Fill(x, y, w, h, Color);
}
void cInterface::SetBitmap(int x, int y, const cBitmap &Bitmap)
{
if (open)
cOsd::SetBitmap(x, y, Bitmap);
}
void cInterface::Flush(void)
{
if (open)
cOsd::Flush();
}
void cInterface::SetCols(int *c)
{
for (int i = 0; i < MaxCols; i++) {
cols[i] = *c++;
if (cols[i] == 0)
break;
}
}
eDvbFont cInterface::SetFont(eDvbFont Font)
{
return cOsd::SetFont(Font);
}
char *cInterface::WrapText(const char *Text, int Width, int *Height)
{
// Wraps the Text to make it fit into the area defined by the given Width
// (which is given in character cells).
// The actual number of lines resulting from this operation is returned in
// Height.
// The returned string is newly created on the heap and the caller
// is responsible for deleting it once it is no longer used.
// Wrapping is done by inserting the necessary number of newline
// characters into the string.
int Lines = 1;
char *t = strdup(Text);
char *Blank = NULL;
char *Delim = NULL;
int w = 0;
Width *= cOsd::CellWidth();
while (*t && t[strlen(t) - 1] == '\n')
t[strlen(t) - 1] = 0; // skips trailing newlines
for (char *p = t; *p; ) {
if (*p == '\n') {
Lines++;
w = 0;
Blank = Delim = NULL;
p++;
continue;
}
else if (isspace(*p))
Blank = p;
int cw = cOsd::Width(*p);
if (w + cw > Width) {
if (Blank) {
*Blank = '\n';
p = Blank;
continue;
}
else {
// Here's the ugly part, where we don't have any whitespace to
// punch in a newline, so we need to make room for it:
if (Delim)
p = Delim + 1; // let's fall back to the most recent delimiter
char *s = MALLOC(char, strlen(t) + 2); // The additional '\n' plus the terminating '\0'
int l = p - t;
strncpy(s, t, l);
s[l] = '\n';
strcpy(s + l + 1, p);
free(t);
t = s;
p = t + l;
continue;
}
}
else
w += cw;
if (strchr("-.,:;!?_", *p)) {
Delim = p;
Blank = NULL;
}
p++;
}
*Height = Lines;
return t;
}
void cInterface::Write(int x, int y, const char *s, eDvbColor FgColor, eDvbColor BgColor)
{
if (open)
cOsd::Text(x, y, s, FgColor, BgColor);
}
void cInterface::WriteText(int x, int y, const char *s, eDvbColor FgColor, eDvbColor BgColor)
{
if (open) {
ClearEol(x, y, BgColor);
int col = 0;
for (;;) {
const char *t = strchr(s, '\t');
const char *p = s;
char buf[1000];
if (t && col < MaxCols && cols[col] > 0) {
unsigned int n = t - s;
if (n >= sizeof(buf))
n = sizeof(buf) - 1;
strncpy(buf, s, n);
buf[n] = 0;
p = buf;
s = t + 1;
}
Write(x, y, p, FgColor, BgColor);
if (p == s)
break;
x += cols[col++];
}
}
}
void cInterface::Title(const char *s)
{
ClearEol(0, 0, clrCyan);
const char *t = strchr(s, '\t');
if (t) {
char buffer[Width() + 1];
unsigned int n = t - s;
if (n >= sizeof(buffer))
n = sizeof(buffer) - 1;
strn0cpy(buffer, s, n + 1);
Write(1, 0, buffer, clrBlack, clrCyan);
t++;
Write(-(cOsd::WidthInCells(t) + 1), 0, t, clrBlack, clrCyan);
}
else {
int x = (Width() - strlen(s)) / 2;
if (x < 0)
x = 0;
Write(x, 0, s, clrBlack, clrCyan);
}
cStatus::MsgOsdTitle(s);
}
void cInterface::Status(const char *s, eDvbColor FgColor, eDvbColor BgColor)
{
int Line = (abs(height) == 1) ? 0 : -2;
ClearEol(0, Line, s ? BgColor : clrBackground);
if (s) {
int x = (Width() - strlen(s)) / 2;
if (x < 0)
x = 0;
Write(x, Line, s, FgColor, BgColor);
}
cStatus::MsgOsdStatusMessage(s);
}
void cInterface::Info(const char *s)
{
Open(Setup.OSDwidth, -1);
isyslog("info: %s", s);
Status(s, clrBlack, clrGreen);
Wait();
Status(NULL);
Close();
}
void cInterface::Error(const char *s)
{
Open(Setup.OSDwidth, -1);
esyslog("ERROR: %s", s);
Status(s, clrWhite, clrRed);
Wait();
Status(NULL);
Close();
}
bool cInterface::Confirm(const char *s, int Seconds, bool WaitForTimeout)
{
Open(Setup.OSDwidth, -1);
isyslog("confirm: %s", s);
Status(s, clrBlack, clrYellow);
eKeys k = Wait(Seconds);
bool result = WaitForTimeout ? k == kNone : k == kOk;
Status(NULL);
Close();
isyslog("%sconfirmed", result ? "" : "not ");
return result;
}
void cInterface::HelpButton(int Index, const char *Text, eDvbColor FgColor, eDvbColor BgColor)
{
if (open) {
const int w = Width() / 4;
cOsd::Fill(Index * w, -1, w, 1, Text ? BgColor : clrBackground);
if (Text) {
int l = (w - int(strlen(Text))) / 2;
if (l < 0)
l = 0;
cOsd::Text(Index * w + l, -1, Text, FgColor, BgColor);
}
}
}
void cInterface::Help(const char *Red, const char *Green, const char *Yellow, const char *Blue)
{
HelpButton(0, Red, clrBlack, clrRed);
HelpButton(1, Green, clrBlack, clrGreen);
HelpButton(2, Yellow, clrBlack, clrYellow);
HelpButton(3, Blue, clrWhite, clrBlue);
cStatus::MsgOsdHelpKeys(Red, Green, Yellow, Blue);
}
void cInterface::QueryKeys(cRemote *Remote)
{
cRemote::Clear();
Clear();
WriteText(1, 1, tr("Learning Remote Control Keys"));//XXX Remote->name()!!!
WriteText(1, 3, tr("Phase 1: Detecting RC code type"));
WriteText(1, 5, tr("Press any key on the RC unit"));
Flush();
if (Remote->Initialize()) {
WriteText(1, 5, tr("RC code detected!"));
WriteText(1, 6, tr("Do not press any key..."));
Flush();
sleep(3);
ClearEol(0, 5);
ClearEol(0, 6);
WriteText(1, 3, tr("Phase 2: Learning specific key codes"));
eKeys NewKey = kUp;
while (NewKey != kNone) {
char *Prompt;
asprintf(&Prompt, tr("Press key for '%s'"), tr(cKey::ToString(NewKey)));
WriteText(1, 5, Prompt);
free(Prompt);
cRemote::Clear();
Flush();
for (eKeys k = NewKey; k == NewKey; ) {
char *NewCode = NULL;
eKeys Key = cRemote::Get(100, &NewCode);
switch (Key) {
case kUp: {
NewKey = eKeys(NewKey - 1);
cKey *last = Keys.Last();
if (last && last->Key() == NewKey)
Keys.Del(last);
}
break;
case kDown: WriteText(1, 5, tr("Press 'Up' to confirm"));
WriteText(1, 6, tr("Press 'Down' to continue"));
ClearEol(0, 7);
ClearEol(0, 8);
ClearEol(0, 9);
for (;;) {
Key = cRemote::Get(100);
if (Key == kUp) {
Clear();
return;
}
else if (Key == kDown) {
ClearEol(0, 6);
k = kNone; // breaks the outer for() loop
break;
}
}
break;
case kMenu: NewKey = eKeys(NewKey + 1);
break;
case kNone: if (NewCode) {
dsyslog("new %s code: %s = %s", Remote->Name(), NewCode, cKey::ToString(NewKey));
Keys.Add(new cKey(Remote->Name(), NewCode, NewKey));
NewKey = eKeys(NewKey + 1);
free(NewCode);
}
break;
default: break;
}
}
if (NewKey > kUp)
WriteText(1, 7, tr("(press 'Up' to go back)"));
else
ClearEol(0, 7);
if (NewKey > kDown)
WriteText(1, 8, tr("(press 'Down' to end key definition)"));
else
ClearEol(0, 8);
if (NewKey > kMenu)
WriteText(1, 9, tr("(press 'Menu' to skip this key)"));
else
ClearEol(0, 9);
}
}
}
void cInterface::LearnKeys(void)
{
for (cRemote *Remote = Remotes.First(); Remote; Remote = Remotes.Next(Remote)) {
bool known = Keys.KnowsRemote(Remote->Name());
dsyslog("remote control %s - %s", Remote->Name(), known ? "keys known" : "learning keys");
if (!known) {
Open();
for (;;) {
Clear();
cRemote::SetLearning(true);
QueryKeys(Remote);
cRemote::SetLearning(false);
Clear();
WriteText(1, 1, tr("Learning Remote Control Keys"));//XXX Remote->name()!!!
WriteText(1, 3, tr("Phase 3: Saving key codes"));
WriteText(1, 5, tr("Press 'Up' to save, 'Down' to cancel"));
for (;;) {
eKeys key = GetKey();
if (key == kUp) {
Keys.Save();
Close();
return;
}
else if (key == kDown) {
Keys.Load();
Close();
return;
}
}
}
}
}
}
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