/*
    Copyright 2007-2008 Robert Knight <robertknight@gmail.com>
    Copyright 1997,1998 by Lars Doelle <lars.doelle@on-line.de>
    Copyright 1996 by Matthias Ettrich <ettrich@kde.org>

    This program is free software; you can redistribute it and/or modify
    it under the terms of the GNU General Public License as published by
    the Free Software Foundation; either version 2 of the License, or
    (at your option) any later version.

    This program is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    GNU General Public License for more details.

    You should have received a copy of the GNU General Public License
    along with this program; if not, write to the Free Software
    Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
    02110-1301  USA.
*/

// Own
#include "Emulation.h"

// System
#include <cstdio>
#include <cstdlib>
#include <unistd.h>
#include <string>

// Qt
#include <QApplication>
#include <QClipboard>
#include <QHash>
#include <QKeyEvent>
#include <QRegExp>
#include <QTextStream>
#include <QThread>

#include <QTime>

// KDE
//#include <kdebug.h>

// Konsole
#include "KeyboardTranslator.h"
#include "Screen.h"
#include "TerminalCharacterDecoder.h"
#include "ScreenWindow.h"

using namespace Konsole;

Emulation::Emulation() :
  _currentScreen(nullptr),
  _codec(nullptr),
  _decoder(nullptr),
  _keyTranslator(nullptr),
  _usesMouse(false),
  _bracketedPasteMode(false)
{
  // create screens with a default size
  _screen[0] = new Screen(40,80);
  _screen[1] = new Screen(40,80);
  _currentScreen = _screen[0];

  QObject::connect(&_bulkTimer1, SIGNAL(timeout()), this, SLOT(showBulk()) );
  QObject::connect(&_bulkTimer2, SIGNAL(timeout()), this, SLOT(showBulk()) );

  // listen for mouse status changes
  connect(this , SIGNAL(programUsesMouseChanged(bool)) ,
           SLOT(usesMouseChanged(bool)));
  connect(this , SIGNAL(programBracketedPasteModeChanged(bool)) ,
           SLOT(bracketedPasteModeChanged(bool)));

  connect(this, &Emulation::cursorChanged, [this] (KeyboardCursorShape cursorShape, bool blinkingCursorEnabled) {
    emit titleChanged( 50, QString(QLatin1String("CursorShape=%1;BlinkingCursorEnabled=%2"))
                               .arg(static_cast<int>(cursorShape)).arg(blinkingCursorEnabled) );
  });
}

bool Emulation::programUsesMouse() const
{
    return _usesMouse;
}

void Emulation::usesMouseChanged(bool usesMouse)
{
    _usesMouse = usesMouse;
}

bool Emulation::programBracketedPasteMode() const
{
    return _bracketedPasteMode;
}

void Emulation::bracketedPasteModeChanged(bool bracketedPasteMode)
{
    _bracketedPasteMode = bracketedPasteMode;
}

ScreenWindow* Emulation::createWindow()
{
    ScreenWindow* window = new ScreenWindow();
    window->setScreen(_currentScreen);
    _windows << window;

    connect(window , SIGNAL(selectionChanged()),
            this , SLOT(bufferedUpdate()));

    connect(this , SIGNAL(outputChanged()),
            window , SLOT(notifyOutputChanged()) );

    connect(this, &Emulation::handleCommandFromKeyboard,
            window, &ScreenWindow::handleCommandFromKeyboard);
    connect(this, &Emulation::outputFromKeypressEvent,
            window, &ScreenWindow::scrollToEnd);

    return window;
}

Emulation::~Emulation()
{
  QListIterator<ScreenWindow*> windowIter(_windows);

  while (windowIter.hasNext())
  {
    delete windowIter.next();
  }

  delete _screen[0];
  delete _screen[1];
  delete _decoder;
}

void Emulation::setScreen(int n)
{
  Screen *old = _currentScreen;
  _currentScreen = _screen[n & 1];
  if (_currentScreen != old)
  {
     // tell all windows onto this emulation to switch to the newly active screen
     for(ScreenWindow* window : qAsConst(_windows))
         window->setScreen(_currentScreen);
  }
}

void Emulation::clearHistory()
{
    _screen[0]->setScroll( _screen[0]->getScroll() , false );
}
void Emulation::setHistory(const HistoryType& t)
{
  _screen[0]->setScroll(t);

  showBulk();
}

const HistoryType& Emulation::history() const
{
  return _screen[0]->getScroll();
}

void Emulation::setCodec(const QTextCodec * qtc)
{
  if (qtc)
      _codec = qtc;
  else
     setCodec(LocaleCodec);

  delete _decoder;
  _decoder = _codec->makeDecoder();

  emit useUtf8Request(utf8());
}

void Emulation::setCodec(EmulationCodec codec)
{
    if ( codec == Utf8Codec )
        setCodec( QTextCodec::codecForName("utf8") );
    else if ( codec == LocaleCodec )
        setCodec( QTextCodec::codecForLocale() );
}

void Emulation::setKeyBindings(const QString& name)
{
  _keyTranslator = KeyboardTranslatorManager::instance()->findTranslator(name);
  if (!_keyTranslator)
  {
      _keyTranslator = KeyboardTranslatorManager::instance()->defaultTranslator();
  }
}

QString Emulation::keyBindings() const
{
  return _keyTranslator->name();
}

void Emulation::receiveChar(wchar_t c)
// process application unicode input to terminal
// this is a trivial scanner
{
  c &= 0xff;
  switch (c)
  {
    case '\b'      : _currentScreen->backspace();                 break;
    case '\t'      : _currentScreen->tab();                       break;
    case '\n'      : _currentScreen->newLine();                   break;
    case '\r'      : _currentScreen->toStartOfLine();             break;
    case 0x07      : emit stateSet(NOTIFYBELL);
                     break;
    default        : _currentScreen->displayCharacter(c);         break;
  };
}

void Emulation::sendKeyEvent(QKeyEvent* ev, bool)
{
  emit stateSet(NOTIFYNORMAL);

  if (!ev->text().isEmpty())
  { // A block of text
    // Note that the text is proper unicode.
    // We should do a conversion here
    emit sendData(ev->text().toUtf8().constData(),ev->text().length());
  }
}

void Emulation::sendString(const char*,int)
{
    // default implementation does nothing
}

void Emulation::sendMouseEvent(int /*buttons*/, int /*column*/, int /*row*/, int /*eventType*/)
{
    // default implementation does nothing
}

/*
   We are doing code conversion from locale to unicode first.
TODO: Character composition from the old code.  See #96536
*/

void Emulation::receiveData(const char* text, int length)
{
    emit stateSet(NOTIFYACTIVITY);

    bufferedUpdate();

    /* XXX: the following code involves encoding & decoding of "UTF-16
     * surrogate pairs", which does not work with characters higher than
     * U+10FFFF
     * https://unicodebook.readthedocs.io/unicode_encodings.html#surrogates
     */
    QString utf16Text = _decoder->toUnicode(text,length);
    std::wstring unicodeText = utf16Text.toStdWString();

    //send characters to terminal emulator
    for (size_t i=0;i<unicodeText.length();i++)
        receiveChar(unicodeText[i]);

    //look for z-modem indicator
    //-- someone who understands more about z-modems that I do may be able to move
    //this check into the above for loop?
    for (int i=0;i<length;i++)
    {
        if (text[i] == '\030')
        {
            if ((length-i-1 > 3) && (strncmp(text+i+1, "B00", 3) == 0))
                emit zmodemDetected();
        }
    }
}

//OLDER VERSION
//This version of onRcvBlock was commented out because
//    a)  It decoded incoming characters one-by-one, which is slow in the current version of Qt (4.2 tech preview)
//    b)  It messed up decoding of non-ASCII characters, with the result that (for example) chinese characters
//        were not printed properly.
//
//There is something about stopping the _decoder if "we get a control code halfway a multi-byte sequence" (see below)
//which hasn't been ported into the newer function (above).  Hopefully someone who understands this better
//can find an alternative way of handling the check.


/*void Emulation::onRcvBlock(const char *s, int len)
{
  emit notifySessionState(NOTIFYACTIVITY);

  bufferedUpdate();
  for (int i = 0; i < len; i++)
  {

    QString result = _decoder->toUnicode(&s[i],1);
    int reslen = result.length();

    // If we get a control code halfway a multi-byte sequence
    // we flush the _decoder and continue with the control code.
    if ((s[i] < 32) && (s[i] > 0))
    {
       // Flush _decoder
       while(!result.length())
          result = _decoder->toUnicode(&s[i],1);
       reslen = 1;
       result.resize(reslen);
       result[0] = QChar(s[i]);
    }

    for (int j = 0; j < reslen; j++)
    {
      if (result[j].characterategory() == QChar::Mark_NonSpacing)
         _currentScreen->compose(result.mid(j,1));
      else
         onRcvChar(result[j].unicode());
    }
    if (s[i] == '\030')
    {
      if ((len-i-1 > 3) && (strncmp(s+i+1, "B00", 3) == 0))
          emit zmodemDetected();
    }
  }
}*/

void Emulation::writeToStream( TerminalCharacterDecoder* _decoder ,
                               int startLine ,
                               int endLine)
{
  _currentScreen->writeLinesToStream(_decoder,startLine,endLine);
}

void Emulation::writeToStream( TerminalCharacterDecoder* _decoder)
{
  _currentScreen->writeLinesToStream(_decoder, 0, _currentScreen->getHistLines());
}

int Emulation::lineCount() const
{
    // sum number of lines currently on _screen plus number of lines in history
    return _currentScreen->getLines() + _currentScreen->getHistLines();
}

#define BULK_TIMEOUT1 10
#define BULK_TIMEOUT2 40

void Emulation::showBulk()
{
    _bulkTimer1.stop();
    _bulkTimer2.stop();

    emit outputChanged();

    _currentScreen->resetScrolledLines();
    _currentScreen->resetDroppedLines();
}

void Emulation::bufferedUpdate()
{
   _bulkTimer1.setSingleShot(true);
   _bulkTimer1.start(BULK_TIMEOUT1);
   if (!_bulkTimer2.isActive())
   {
      _bulkTimer2.setSingleShot(true);
      _bulkTimer2.start(BULK_TIMEOUT2);
   }
}

char Emulation::eraseChar() const
{
  return '\b';
}

void Emulation::setImageSize(int lines, int columns)
{
  if ((lines < 1) || (columns < 1))
    return;

  QSize screenSize[2] = { QSize(_screen[0]->getColumns(),
                                _screen[0]->getLines()),
                          QSize(_screen[1]->getColumns(),
                                _screen[1]->getLines()) };
  QSize newSize(columns,lines);

  if (newSize == screenSize[0] && newSize == screenSize[1])
    return;

  _screen[0]->resizeImage(lines,columns);
  _screen[1]->resizeImage(lines,columns);

  emit imageSizeChanged(lines,columns);

  bufferedUpdate();
}

QSize Emulation::imageSize() const
{
  return {_currentScreen->getColumns(), _currentScreen->getLines()};
}

ushort ExtendedCharTable::extendedCharHash(ushort* unicodePoints , ushort length) const
{
    ushort hash = 0;
    for ( ushort i = 0 ; i < length ; i++ )
    {
        hash = 31*hash + unicodePoints[i];
    }
    return hash;
}
bool ExtendedCharTable::extendedCharMatch(ushort hash , ushort* unicodePoints , ushort length) const
{
    ushort* entry = extendedCharTable[hash];

    // compare given length with stored sequence length ( given as the first ushort in the
    // stored buffer )
    if ( entry == nullptr || entry[0] != length )
       return false;
    // if the lengths match, each character must be checked.  the stored buffer starts at
    // entry[1]
    for ( int i = 0 ; i < length ; i++ )
    {
        if ( entry[i+1] != unicodePoints[i] )
           return false;
    }
    return true;
}
ushort ExtendedCharTable::createExtendedChar(ushort* unicodePoints , ushort length)
{
    // look for this sequence of points in the table
    ushort hash = extendedCharHash(unicodePoints,length);

    // check existing entry for match
    while ( extendedCharTable.contains(hash) )
    {
        if ( extendedCharMatch(hash,unicodePoints,length) )
        {
            // this sequence already has an entry in the table,
            // return its hash
            return hash;
        }
        else
        {
            // if hash is already used by another, different sequence of unicode character
            // points then try next hash
            hash++;
        }
    }


     // add the new sequence to the table and
     // return that index
    ushort* buffer = new ushort[length+1];
    buffer[0] = length;
    for ( int i = 0 ; i < length ; i++ )
       buffer[i+1] = unicodePoints[i];

    extendedCharTable.insert(hash,buffer);

    return hash;
}

ushort* ExtendedCharTable::lookupExtendedChar(ushort hash , ushort& length) const
{
    // lookup index in table and if found, set the length
    // argument and return a pointer to the character sequence

    ushort* buffer = extendedCharTable[hash];
    if ( buffer )
    {
        length = buffer[0];
        return buffer+1;
    }
    else
    {
        length = 0;
        return nullptr;
    }
}

ExtendedCharTable::ExtendedCharTable()
{
}
ExtendedCharTable::~ExtendedCharTable()
{
    // free all allocated character buffers
    QHashIterator<ushort,ushort*> iter(extendedCharTable);
    while ( iter.hasNext() )
    {
        iter.next();
        delete[] iter.value();
    }
}

// global instance
ExtendedCharTable ExtendedCharTable::instance;


//#include "Emulation.moc"