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vdr/interface.c
2002-06-16 13:26:00 +02:00

490 lines
12 KiB
C

/*
* 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 1.52 2002/06/16 13:23:40 kls Exp $
*/
#include "interface.h"
#include <ctype.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;
keyFromWait = kNone;
interrupted = false;
rcIo = NULL;
SVDRP = NULL;
#if defined(REMOTE_RCU)
rcIo = new cRcIoRCU("/dev/ttyS1");
#elif defined(REMOTE_LIRC)
rcIo = new cRcIoLIRC("/dev/lircd");
#elif defined(REMOTE_KBD)
rcIo = new cRcIoKBD;
#else
rcIo = new cRcIoBase; // acts as a dummy device
#endif
rcIo->SetCode(Keys.code, Keys.address);
if (SVDRPport)
SVDRP = new cSVDRP(SVDRPport);
}
cInterface::~cInterface()
{
delete rcIo;
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;
}
}
unsigned int cInterface::GetCh(bool Wait, bool *Repeat, bool *Release)
{
Flush();
if (!rcIo->InputAvailable())
cFile::AnyFileReady(-1, Wait ? 1000 : 0);
unsigned int Command;
return rcIo->GetCommand(&Command, Repeat, Release) ? Command : 0;
}
eKeys cInterface::GetKey(bool Wait)
{
Flush();
if (SVDRP) {
SVDRP->Process();
if (!open) {
char *message = SVDRP->GetMessage();
if (message) {
Info(message);
delete message;
}
}
}
eKeys Key = keyFromWait;
if (Key == kNone) {
bool Repeat = false, Release = false;
Key = Keys.Get(GetCh(Wait, &Repeat, &Release));
if (Repeat)
Key = eKeys(Key | k_Repeat);
if (Release)
Key = eKeys(Key | k_Release);
}
keyFromWait = kNone;
return Key;
}
void cInterface::PutKey(eKeys Key)
{
keyFromWait = Key;
}
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))
keyFromWait = 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 = new 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);
delete 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(void)
{
Keys.Clear();
Clear();
WriteText(1, 1, tr("Learning Remote Control Keys"));
WriteText(1, 3, tr("Phase 1: Detecting RC code type"));
WriteText(1, 5, tr("Press any key on the RC unit"));
Flush();
#ifndef REMOTE_KBD
unsigned char Code = '0';
unsigned short Address;
#endif
for (;;) {
#ifdef REMOTE_KBD
if (GetCh())
break;
#else
//TODO on screen display...
if (rcIo->DetectCode(&Code, &Address)) {
Keys.code = Code;
Keys.address = Address;
WriteText(1, 5, tr("RC code detected!"));
WriteText(1, 6, tr("Do not press any key..."));
Flush();
rcIo->Flush(3000);
ClearEol(0, 5);
ClearEol(0, 6);
Flush();
break;
}
#endif
}
WriteText(1, 3, tr("Phase 2: Learning specific key codes"));
tKey *k = Keys.keys;
while (k->type != kNone) {
char *Prompt;
asprintf(&Prompt, tr("Press key for '%s'"), tr(k->name));
WriteText(1, 5, Prompt);
delete Prompt;
for (;;) {
unsigned int ch = GetCh();
if (ch != 0) {
switch (Keys.Get(ch)) {
case kUp: if (k > Keys.keys) {
k--;
break;
}
case kDown: if (k > Keys.keys + 1) {
WriteText(1, 5, tr("Press 'Up' to confirm"));
WriteText(1, 6, tr("Press 'Down' to continue"));
ClearEol(0, 7);
ClearEol(0, 8);
for (;;) {
eKeys key = GetKey();
if (key == kUp) {
Clear();
return;
}
else if (key == kDown) {
ClearEol(0, 6);
break;
}
}
break;
}
case kNone: k->code = ch;
k++;
break;
default: break;
}
break;
}
}
if (k > Keys.keys)
WriteText(1, 7, tr("(press 'Up' to go back)"));
else
ClearEol(0, 7);
if (k > Keys.keys + 1)
WriteText(1, 8, tr("(press 'Down' to end key definition)"));
else
ClearEol(0, 8);
}
}
void cInterface::LearnKeys(void)
{
isyslog("learning keys");
Open();
for (;;) {
Clear();
QueryKeys();
Clear();
WriteText(1, 1, tr("Learning Remote Control Keys"));
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;
}
}
}
}
void cInterface::DisplayChannelNumber(int Number)
{
rcIo->Number(Number);
}
void cInterface::DisplayRecording(int Index, bool On)
{
rcIo->SetPoints(1 << Index, On);
}
bool cInterface::Recording(void)
{
// This is located here because the Interface has to do with the "PrimaryDevice" anyway
return cDevice::PrimaryDevice()->Receiving();
}