finalcut/src/fvterm.cpp

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/***********************************************************************
* fvterm.cpp - Virtual terminal implementation *
* *
* This file is part of the FINAL CUT widget toolkit *
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* *
* Copyright 2016-2020 Markus Gans *
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* *
* FINAL CUT is free software; you can redistribute it and/or modify *
* it under the terms of the GNU Lesser General Public License as *
* published by the Free Software Foundation; either version 3 of *
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* the License, or (at your option) any later version. *
* *
* FINAL CUT is distributed in the hope that it will be useful, but *
* WITHOUT ANY WARRANTY; without even the implied warranty of *
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU Lesser General Public License for more details. *
* *
* You should have received a copy of the GNU Lesser General Public *
* License along with this program. If not, see *
* <http://www.gnu.org/licenses/>. *
***********************************************************************/
#if defined(__CYGWIN__)
#include <unistd.h> // need for ttyname_r
#endif
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#include <queue>
#include <string>
#include <vector>
#include "final/fapplication.h"
#include "final/fc.h"
#include "final/fcharmap.h"
#include "final/fcolorpair.h"
#include "final/fkeyboard.h"
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#include "final/flog.h"
#include "final/foptiattr.h"
#include "final/foptimove.h"
#include "final/fstyle.h"
#include "final/fsystem.h"
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#include "final/fterm.h"
#include "final/ftermdata.h"
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#include "final/ftermbuffer.h"
#include "final/ftermcap.h"
#include "final/ftypes.h"
#include "final/fvterm.h"
#include "final/fwidget.h"
#include "final/fwindow.h"
namespace finalcut
{
// global FVTerm object
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static FVTerm* init_object{nullptr};
// static class attributes
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bool FVTerm::draw_completed{false};
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bool FVTerm::terminal_update_pending{false};
bool FVTerm::force_terminal_update{false};
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bool FVTerm::no_terminal_updates{false};
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bool FVTerm::cursor_hideable{false};
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int FVTerm::skipped_terminal_update{};
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uInt64 FVTerm::term_size_check_timeout{500000}; // 500 ms
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uInt FVTerm::erase_char_length{};
uInt FVTerm::repeat_char_length{};
uInt FVTerm::clr_bol_length{};
uInt FVTerm::clr_eol_length{};
uInt FVTerm::cursor_address_length{};
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struct timeval FVTerm::last_term_size_check{};
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std::queue<int>* FVTerm::output_buffer{nullptr};
FPoint* FVTerm::term_pos{nullptr};
FSystem* FVTerm::fsystem{nullptr};
FTerm* FVTerm::fterm{nullptr};
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FVTerm::FTermArea* FVTerm::vterm{nullptr};
FVTerm::FTermArea* FVTerm::vdesktop{nullptr};
FVTerm::FTermArea* FVTerm::active_area{nullptr};
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FKeyboard* FVTerm::keyboard{nullptr};
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FChar FVTerm::term_attribute{};
FChar FVTerm::next_attribute{};
FChar FVTerm::s_ch{};
FChar FVTerm::i_ch{};
//----------------------------------------------------------------------
// class FVTerm
//----------------------------------------------------------------------
// constructors and destructor
//----------------------------------------------------------------------
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FVTerm::FVTerm()
{
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if ( ! init_object )
init();
}
//----------------------------------------------------------------------
FVTerm::~FVTerm() // destructor
{
if ( init_object == this )
finish();
}
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// Overloaded operators
//----------------------------------------------------------------------
FVTerm& FVTerm::operator << (const FTermBuffer& term_buffer)
{
print (term_buffer);
return *this;
}
// public methods of FVTerm
//----------------------------------------------------------------------
FPoint FVTerm::getPrintCursor()
{
const auto& win = getPrintArea();
if ( win )
return { win->offset_left + win->cursor_x
, win->offset_top + win->cursor_y };
return {0, 0};
}
//----------------------------------------------------------------------
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void FVTerm::setTermXY (int x, int y) const
{
// Sets the hardware cursor to the given (x,y) position
if ( term_pos->getX() == x && term_pos->getY() == y )
return;
const auto term_width = int(FTerm::getColumnNumber());
const auto term_height = int(FTerm::getLineNumber());
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if ( x >= term_width && term_width > 0 )
{
y += x / term_width;
x %= term_width;
}
if ( term_pos->getY() >= term_height )
term_pos->setY(term_height - 1);
if ( y >= term_height )
y = term_height - 1;
const int term_x = term_pos->getX();
const int term_y = term_pos->getY();
const char* move_str = FTerm::moveCursorString (term_x, term_y, x, y);
if ( move_str )
appendOutputBuffer(move_str);
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term_pos->setPoint(x, y);
}
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//----------------------------------------------------------------------
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void FVTerm::setTerminalUpdates (terminal_update refresh_state) const
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{
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if ( refresh_state == stop_terminal_updates )
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{
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no_terminal_updates = true;
}
else if ( refresh_state == continue_terminal_updates
|| refresh_state == start_terminal_updates )
{
no_terminal_updates = false;
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}
if ( refresh_state == start_terminal_updates )
updateTerminal();
}
//----------------------------------------------------------------------
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void FVTerm::hideCursor (bool enable) const
{
// Hides or shows the input cursor on the terminal
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if ( ! cursor_hideable )
return;
const char* visibility_str = FTerm::cursorsVisibilityString (enable);
if ( ! visibility_str ) // Exit the function if the string is empty
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return;
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appendOutputBuffer(visibility_str);
flush();
}
//----------------------------------------------------------------------
void FVTerm::setPrintCursor (const FPoint& pos)
{
if ( auto win = getPrintArea() )
{
win->cursor_x = pos.getX() - win->offset_left;
win->cursor_y = pos.getY() - win->offset_top;
}
}
//----------------------------------------------------------------------
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FColor FVTerm::rgb2ColorIndex (uInt8 r, uInt8 g, uInt8 b) const
{
// Converts a 24-bit RGB color to a 256-color compatible approximation
const FColor ri = (((r * 5) + 127) / 255) * 36;
const FColor gi = (((g * 5) + 127) / 255) * 6;
const FColor bi = (((b * 5) + 127) / 255);
return 16 + ri + gi + bi;
}
//----------------------------------------------------------------------
void FVTerm::setNonBlockingRead (bool enable)
{
#if defined(__CYGWIN__)
// Fixes problem with mouse input
char termfilename[256]{};
if ( ttyname_r(1, termfilename, sizeof(termfilename)) )
termfilename[0] = '\0';
if ( std::strncmp(termfilename, "/dev/cons", 9) == 0 )
return;
#endif
uInt64 blocking_time = (enable) ? 5000 : 100000; // 5 or 100 ms
FKeyboard::setReadBlockingTime (blocking_time);
}
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//----------------------------------------------------------------------
void FVTerm::clearArea (int fillchar)
{
clearArea (vwin, fillchar);
}
//----------------------------------------------------------------------
void FVTerm::createVTerm (const FSize& size)
{
// initialize virtual terminal
const FRect box{0, 0, size.getWidth(), size.getHeight()};
const FSize shadow{0, 0};
createArea (box, shadow, vterm);
}
//----------------------------------------------------------------------
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void FVTerm::resizeVTerm (const FSize& size) const
{
// resize virtual terminal
const FRect box{0, 0, size.getWidth(), size.getHeight()};
const FSize shadow{0, 0};
resizeArea (box, shadow, vterm);
}
//----------------------------------------------------------------------
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void FVTerm::putVTerm() const
{
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for (int i{0}; i < vterm->height; i++)
{
vterm->changes[i].xmin = 0;
vterm->changes[i].xmax = uInt(vterm->width - 1);
}
updateTerminal();
}
//----------------------------------------------------------------------
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void FVTerm::updateTerminal() const
{
// Updates pending changes to the terminal
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if ( no_terminal_updates || FApplication::isQuit() )
return;
if ( ! force_terminal_update )
{
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if ( ! draw_completed )
return;
if ( keyboard->isInputDataPending() )
{
terminal_update_pending = true;
return;
}
}
// Checks if VTerm has changes
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if ( ! hasPendingUpdates(vterm) )
return;
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for (uInt y{0}; y < uInt(vterm->height); y++)
updateTerminalLine (y);
vterm->has_changes = false;
// sets the new input cursor position
updateTerminalCursor();
}
//----------------------------------------------------------------------
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void FVTerm::addPreprocessingHandler ( const FVTerm* instance
, const FPreprocessingFunction& function )
{
if ( ! print_area )
FVTerm::getPrintArea();
if ( print_area )
{
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FVTermPreprocessing obj{ instance, function };
delPreprocessingHandler (instance);
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print_area->preproc_list.push_back(obj);
}
}
//----------------------------------------------------------------------
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void FVTerm::delPreprocessingHandler (const FVTerm* instance)
{
if ( ! print_area )
FVTerm::getPrintArea();
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if ( ! print_area || print_area->preproc_list.empty() )
return;
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auto iter = print_area->preproc_list.begin();
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while ( iter != print_area->preproc_list.end() )
{
if ( iter->instance == instance )
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iter = print_area->preproc_list.erase(iter);
else
++iter;
}
}
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//----------------------------------------------------------------------
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int FVTerm::print (const FString& s)
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{
if ( s.isNull() )
return -1;
auto area = getPrintArea();
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if ( ! area )
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return -1;
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return print (area, s);
}
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//----------------------------------------------------------------------
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int FVTerm::print (FTermArea* area, const FString& s)
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{
if ( s.isNull() || ! area )
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return -1;
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std::vector<FChar> term_string{};
const wchar_t* p = s.wc_str();
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if ( p )
{
while ( *p )
{
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FChar nc{}; // next character
nc.ch = *p;
nc.fg_color = next_attribute.fg_color;
nc.bg_color = next_attribute.bg_color;
nc.attr.byte[0] = next_attribute.attr.byte[0];
nc.attr.byte[1] = next_attribute.attr.byte[1];
nc.attr.byte[2] = 0;
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nc.attr.byte[3] = 0;
term_string.push_back(nc);
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p++;
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} // end of while
return print (area, term_string);
}
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return 0;
}
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//----------------------------------------------------------------------
int FVTerm::print (const FTermBuffer& term_buffer)
{
if ( term_buffer.isEmpty() )
return -1;
auto area = getPrintArea();
if ( ! area )
return -1;
return print (area, term_buffer);
}
//----------------------------------------------------------------------
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int FVTerm::print (FTermArea* area, const FTermBuffer& term_buffer)
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{
const auto& term_string = term_buffer.getBuffer();
return print (area, term_string);
}
//----------------------------------------------------------------------
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int FVTerm::print (const std::vector<FChar>& term_string)
{
if ( term_string.empty() )
return 0;
auto area = getPrintArea();
if ( ! area )
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return -1;
return print (area, term_string);
}
//----------------------------------------------------------------------
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int FVTerm::print (FTermArea* area, const std::vector<FChar>& term_string)
{
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int len{0};
const auto tabstop = uInt(FTerm::getTabstop());
if ( ! area )
return -1;
if ( term_string.empty() )
return 0;
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for (auto&& fchar : term_string)
{
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bool printable_character{false};
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switch ( fchar.ch )
{
case '\n':
area->cursor_y++;
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// fall through
case '\r':
area->cursor_x = 1;
break;
case '\t':
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area->cursor_x = int ( uInt(area->cursor_x)
+ tabstop
- uInt(area->cursor_x)
+ 1
% tabstop );
break;
case '\b':
area->cursor_x--;
break;
case '\a':
FTerm::beep();
break;
default:
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print (area, fchar); // print next character
printable_character = true;
}
if ( ! printable_character && printWrap(area) )
break; // end of area reached
len++;
}
return len;
}
//----------------------------------------------------------------------
int FVTerm::print (wchar_t c)
{
auto area = getPrintArea();
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if ( ! area )
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return -1;
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return print (area, c);
}
//----------------------------------------------------------------------
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int FVTerm::print (FTermArea* area, wchar_t c)
{
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FChar nc{}; // next character
if ( ! area )
return -1;
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nc.ch = wchar_t(c);
nc.fg_color = next_attribute.fg_color;
nc.bg_color = next_attribute.bg_color;
nc.attr.byte[0] = next_attribute.attr.byte[0];
nc.attr.byte[1] = next_attribute.attr.byte[1];
nc.attr.byte[2] = 0;
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nc.attr.byte[3] = 0;
return print (area, nc);
}
//----------------------------------------------------------------------
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int FVTerm::print (FChar& term_char)
{
auto area = getPrintArea();
if ( ! area )
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return -1;
return print (area, term_char);
}
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//----------------------------------------------------------------------
int FVTerm::print (FTermArea* area, const FChar& term_char)
{
auto fchar = term_char;
return print (area, fchar);
}
//----------------------------------------------------------------------
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int FVTerm::print (FTermArea* area, FChar& term_char)
{
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if ( ! area )
return -1;
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const int ax = area->cursor_x - 1;
const int ay = area->cursor_y - 1;
const std::size_t char_width = getColumnWidth(term_char); // add column width
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if ( char_width == 0 && ! term_char.attr.bit.fullwidth_padding )
return 0;
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// Print term_char on area at position (ax, ay)
printCharacterOnCoordinate (area, ax, ay, term_char);
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area->cursor_x++;
area->has_changes = true;
// Line break at right margin
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if ( area->cursor_x > area->width + area->right_shadow )
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{
area->cursor_x = 1;
area->cursor_y++;
}
else if ( char_width == 2 )
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printPaddingCharacter (area, term_char);
// Prevent up scrolling
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if ( area->cursor_y > area->height + area->bottom_shadow )
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{
area->cursor_y--;
return -1;
}
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return 1;
}
//----------------------------------------------------------------------
void FVTerm::print (const FPoint& p)
{
setPrintCursor (p);
}
//----------------------------------------------------------------------
void FVTerm::print (const FStyle& style)
{
FAttribute attr = style.getStyle();
if ( attr == 0 )
setNormal();
else if ( (attr & fc::Bold) != 0 )
setBold();
else if ( (attr & fc::Dim) != 0 )
setDim();
else if ( (attr & fc::Italic) != 0 )
setItalic();
else if ( (attr & fc::Underline) != 0 )
setUnderline();
else if ( (attr & fc::Blink) != 0 )
setBlink();
else if ( (attr & fc::Reverse) != 0 )
setReverse();
else if ( (attr & fc::Standout) != 0 )
setStandout();
else if ( (attr & fc::Invisible) != 0 )
setInvisible();
else if ( (attr & fc::Protected) != 0 )
setProtected();
else if ( (attr & fc::CrossedOut) != 0 )
setCrossedOut();
else if ( (attr & fc::DoubleUnderline) != 0 )
setDoubleUnderline();
else if ( (attr & fc::Transparent) != 0 )
setTransparent();
else if ( (attr & fc::ColorOverlay) != 0 )
setColorOverlay();
else if ( (attr & fc::InheritBackground) != 0 )
setInheritBackground();
}
//----------------------------------------------------------------------
void FVTerm::print (const FColorPair& pair)
{
setColor (pair.getForegroundColor(), pair.getBackgroundColor());
}
//----------------------------------------------------------------------
void FVTerm::flush()
{
// Flush the output buffer
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if ( ! output_buffer )
return;
while ( ! output_buffer->empty() )
{
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static const FTerm::defaultPutChar& FTermPutchar = FTerm::putchar();
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if ( FTermPutchar )
{
FTermPutchar (output_buffer->front());
output_buffer->pop();
}
}
std::fflush(stdout);
}
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// protected methods of FVTerm
//----------------------------------------------------------------------
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FVTerm::FTermArea* FVTerm::getPrintArea()
{
// returns the print area of this object
if ( print_area )
return print_area;
else
{
if ( vwin )
{
print_area = vwin;
return print_area;
}
else if ( child_print_area )
{
print_area = child_print_area;
return print_area;
}
}
return vdesktop;
}
//----------------------------------------------------------------------
void FVTerm::createArea ( const FRect& box
, const FSize& shadow
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, FTermArea*& area )
{
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// initialize virtual window
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try
{
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area = new FTermArea;
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}
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catch (const std::bad_alloc&)
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{
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badAllocOutput ("FTermArea");
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return;
}
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area->widget = reinterpret_cast<FWidget*>(this);
resizeArea (box, shadow, area);
}
//----------------------------------------------------------------------
void FVTerm::resizeArea ( const FRect& box
, const FSize& shadow
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, FTermArea* area ) const
{
// Resize the virtual window to a new size.
const int offset_left = box.getX();
const int offset_top = box.getY();
const auto width = int(box.getWidth());
const auto height = int(box.getHeight());
const auto rsw = int(shadow.getWidth());
const auto bsh = int(shadow.getHeight());
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assert ( offset_top >= 0 );
assert ( width > 0 && width + rsw > 0 );
assert ( height > 0 && height + bsh > 0 );
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assert ( rsw >= 0 );
assert ( bsh >= 0 );
if ( ! area )
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return;
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if ( width == area->width
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&& height == area->height
&& rsw == area->right_shadow
&& bsh == area->bottom_shadow )
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{
if ( offset_left != area->offset_left )
area->offset_left = offset_left;
if ( offset_top != area->offset_top )
area->offset_top = offset_top;
return;
}
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bool realloc_success{false};
const std::size_t full_width = std::size_t(width) + std::size_t(rsw);
const std::size_t full_height = std::size_t(height) + std::size_t(bsh);
const std::size_t area_size = full_width * full_height;
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if ( area->height + area->bottom_shadow != int(full_height) )
{
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realloc_success = reallocateTextArea ( area
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, full_height
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, area_size );
}
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else if ( area->width + area->right_shadow != int(full_width) )
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{
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realloc_success = reallocateTextArea (area, area_size);
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}
else
return;
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if ( ! realloc_success )
return;
area->offset_left = offset_left;
area->offset_top = offset_top;
area->width = width;
area->height = height;
area->right_shadow = rsw;
area->bottom_shadow = bsh;
area->has_changes = false;
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const FSize size{full_width, full_height};
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resetTextAreaToDefault (area, size);
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}
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//----------------------------------------------------------------------
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void FVTerm::removeArea (FTermArea*& area)
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{
// remove the virtual window
if ( area == nullptr )
return;
if ( area->changes != nullptr )
{
delete[] area->changes;
area->changes = nullptr;
}
if ( area->data != nullptr )
{
delete[] area->data;
area->data = nullptr;
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}
delete area;
area = nullptr;
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}
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//----------------------------------------------------------------------
void FVTerm::restoreVTerm (const FRect& box)
{
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if ( ! vterm )
return;
int x = box.getX() - 1;
int y = box.getY() - 1;
auto w = int(box.getWidth());
auto h = int(box.getHeight());
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if ( x < 0 )
x = 0;
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if ( y < 0 )
y = 0;
if ( x + w > vterm->width )
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w = vterm->width - x;
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if ( w < 0 )
return;
if ( y + h > vterm->height )
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h = vterm->height - y;
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if ( h < 0 )
return;
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for (int ty{0}; ty < h; ty++)
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{
const int ypos = y + ty;
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for (int tx{0}; tx < w; tx++)
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{
const int xpos = x + tx;
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auto tc = &vterm->data[ypos * vterm->width + xpos]; // terminal character
auto sc = generateCharacter(FPoint{xpos, ypos}); // shown character
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std::memcpy (tc, &sc, sizeof(*tc));
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}
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if ( int(vterm->changes[ypos].xmin) > x )
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vterm->changes[ypos].xmin = uInt(x);
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if ( int(vterm->changes[ypos].xmax) < x + w - 1 )
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vterm->changes[ypos].xmax = uInt(x + w - 1);
}
vterm->has_changes = true;
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}
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//----------------------------------------------------------------------
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bool FVTerm::updateVTermCursor (const FTermArea* area) const
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{
if ( ! area )
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return false;
if ( ! isActive(area) )
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return false;
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if ( ! area->visible )
return false;
if ( area->input_cursor_visible )
{
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// area offset
const int ax = area->offset_left;
const int ay = area->offset_top;
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// area cursor position
const int cx = area->input_cursor_x;
const int cy = area->input_cursor_y;
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// terminal position
const int x = ax + cx;
const int y = ay + cy;
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if ( isInsideArea (FPoint{cx, cy}, area)
&& isInsideTerminal (FPoint{x, y})
&& isCovered (FPoint{x, y}, area) == non_covered )
{
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vterm->input_cursor_x = x;
vterm->input_cursor_y = y;
vterm->input_cursor_visible = true;
vterm->has_changes = true;
return true;
}
}
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vterm->input_cursor_visible = false;
return false;
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}
//----------------------------------------------------------------------
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void FVTerm::setAreaCursor ( const FPoint& pos
, bool visible
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, FTermArea* area )
{
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if ( ! area )
return;
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area->input_cursor_x = pos.getX() - 1;
area->input_cursor_y = pos.getY() - 1;
area->input_cursor_visible = visible;
}
//----------------------------------------------------------------------
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void FVTerm::getArea (const FPoint& pos, const FTermArea* area)
{
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// Copies a block from the virtual terminal position to the given area
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if ( ! area )
return;
const int ax = pos.getX() - 1;
const int ay = pos.getY() - 1;
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int y_end{};
int length{};
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if ( area->height + ay > vterm->height )
y_end = area->height - ay;
else
y_end = area->height;
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if ( area->width + ax > vterm->width )
length = vterm->width - ax;
else
length = area->width;
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for (int y{0}; y < y_end; y++) // line loop
{
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const auto& tc = vterm->data[(ay + y) * vterm->width + ax]; // terminal character
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auto& ac = area->data[y * area->width]; // area character
std::memcpy (&ac, &tc, sizeof(ac) * unsigned(length));
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if ( int(area->changes[y].xmin) > 0 )
area->changes[y].xmin = 0;
if ( int(area->changes[y].xmax) < length - 1 )
area->changes[y].xmax = uInt(length - 1);
}
}
//----------------------------------------------------------------------
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void FVTerm::getArea (const FRect& box, const FTermArea* area)
{
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// Copies a block from the virtual terminal rectangle to the given area
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if ( ! area )
return;
const int x = box.getX();
const int y = box.getY();
const auto w = int(box.getWidth());
const auto h = int(box.getHeight());
const int dx = x - area->offset_left + 1;
const int dy = y - area->offset_top + 1;
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int y_end{};
int length{};
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if ( x < 0 || y < 0 )
return;
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if ( y - 1 + h > vterm->height )
y_end = vterm->height - y + 1;
else
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y_end = h - 1;
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if ( x - 1 + w > vterm->width )
length = vterm->width - x + 1;
else
length = w;
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if ( length < 1 )
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return;
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for (int _y = 0; _y < y_end; _y++) // line loop
{
const int line_len = area->width + area->right_shadow;
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const auto& tc = vterm->data[(y + _y - 1) * vterm->width + x - 1]; // terminal character
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auto& ac = area->data[(dy + _y) * line_len + dx]; // area character
std::memcpy (&ac, &tc, sizeof(ac) * unsigned(length));
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if ( int(area->changes[dy + _y].xmin) > dx )
area->changes[dy + _y].xmin = uInt(dx);
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if ( int(area->changes[dy + _y].xmax) < dx + length - 1 )
area->changes[dy + _y].xmax = uInt(dx + length - 1);
}
}
//----------------------------------------------------------------------
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void FVTerm::putArea (const FTermArea* area) const
{
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// Add area changes to the virtual terminal
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if ( ! area || ! area->visible )
return;
int ax = area->offset_left;
const int ay = area->offset_top;
const int width = area->width + area->right_shadow;
const int height = area->height + area->bottom_shadow;
int ol{0}; // Outside left
int y_end{};
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// Call the preprocessing handler methods
callPreprocessingHandler(area);
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if ( ax < 0 )
{
ol = std::abs(ax);
ax = 0;
}
if ( height + ay > vterm->height )
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y_end = vterm->height - ay;
else
y_end = height;
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for (int y{0}; y < y_end; y++) // Line loop
{
bool modified{false};
auto line_xmin = int(area->changes[y].xmin);
auto line_xmax = int(area->changes[y].xmax);
if ( line_xmin > line_xmax )
continue;
if ( ax == 0 )
line_xmin = ol;
if ( width + ax - ol >= vterm->width )
line_xmax = vterm->width + ol - ax - 1;
if ( ax + line_xmin >= vterm->width )
continue;
for (int x = line_xmin; x <= line_xmax; x++) // Column loop
{
// Global terminal positions
int tx = ax + x;
const int ty = ay + y;
if ( tx < 0 || ty < 0 )
continue;
tx -= ol;
if ( updateVTermCharacter(area, FPoint{x, y}, FPoint{tx, ty}) )
modified = true;
if ( ! modified )
line_xmin++; // Don't update covered character
}
int _xmin = ax + line_xmin - ol;
int _xmax = ax + line_xmax;
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if ( _xmin < int(vterm->changes[ay + y].xmin) )
vterm->changes[ay + y].xmin = uInt(_xmin);
if ( _xmax >= vterm->width )
_xmax = vterm->width - 1;
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if ( _xmax > int(vterm->changes[ay + y].xmax) )
vterm->changes[ay + y].xmax = uInt(_xmax);
area->changes[y].xmin = uInt(width);
area->changes[y].xmax = 0;
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}
vterm->has_changes = true;
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updateVTermCursor(area);
}
//----------------------------------------------------------------------
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void FVTerm::putArea (const FPoint& pos, const FTermArea* area)
{
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// Copies the given area block to the virtual terminal position
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if ( ! area || ! area->visible )
return;
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int ax = pos.getX() - 1;
const int ay = pos.getY() - 1;
const int width = area->width + area->right_shadow;
const int height = area->height + area->bottom_shadow;
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int ol{0}; // outside left
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int y_end{};
int length{};
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if ( ax < 0 )
{
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ol = std::abs(ax);
ax = 0;
}
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if ( ay + height > vterm->height )
y_end = vterm->height - ay;
else
y_end = height;
if ( width - ol + ax > vterm->width )
length = vterm->width - ax;
else
length = width - ol;
if ( length < 1 )
return;
for (int y{0}; y < y_end; y++) // line loop
{
if ( area->changes[y].trans_count == 0 )
{
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// Line has only covered characters
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const auto& ac = area->data[y * width + ol]; // area character
auto& tc = vterm->data[(ay + y) * vterm->width + ax]; // terminal character
putAreaLine (&ac, &tc, length);
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}
else
{
// Line has one or more transparent characters
for (int x{0}; x < length; x++) // column loop
{
const int cx = ax + x;
const int cy = ay + y;
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const auto& ac = area->data[y * width + ol + x]; // area character
auto& tc = vterm->data[cy * vterm->width + cx]; // terminal character
putAreaCharacter (FPoint{cx + 1, cy + 1}, area->widget, &ac, &tc);
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}
}
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if ( ax < int(vterm->changes[ay + y].xmin) )
vterm->changes[ay + y].xmin = uInt(ax);
if ( ax + length - 1 > int(vterm->changes[ay + y].xmax) )
vterm->changes[ay + y].xmax = uInt(ax + length - 1);
}
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vterm->has_changes = true;
}
//----------------------------------------------------------------------
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void FVTerm::scrollAreaForward (FTermArea* area) const
{
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// Scrolls the entire area up line down
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if ( ! area )
return;
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if ( area->height <= 1 )
return;
const int length = area->width;
const int total_width = area->width + area->right_shadow;
const int y_max = area->height - 1;
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for (int y{0}; y < y_max; y++)
{
const int pos1 = y * total_width;
const int pos2 = (y + 1) * total_width;
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const auto& sc = area->data[pos2]; // source character
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auto& dc = area->data[pos1]; // destination character
std::memcpy (&dc, &sc, sizeof(dc) * unsigned(length));
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area->changes[y].xmin = 0;
area->changes[y].xmax = uInt(area->width - 1);
}
// insert a new line below
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FChar nc{}; // next character
std::size_t bottom_right = (y_max * total_width) - area->right_shadow - 1;
const auto& lc = area->data[bottom_right]; // last character
std::memcpy (&nc, &lc, sizeof(nc));
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nc.ch = ' ';
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auto& dc = area->data[y_max * total_width]; // destination character
std::fill_n (&dc, area->width, nc);
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area->changes[y_max].xmin = 0;
area->changes[y_max].xmax = uInt(area->width - 1);
area->has_changes = true;
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if ( area == vdesktop && TCAP(fc::t_scroll_forward) )
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{
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setTermXY (0, vdesktop->height);
FTerm::scrollTermForward();
putArea (FPoint{1, 1}, vdesktop);
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// avoid update lines from 0 to (y_max - 1)
for (int y{0}; y < y_max; y++)
{
area->changes[y].xmin = uInt(area->width - 1);
area->changes[y].xmax = 0;
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}
}
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}
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//----------------------------------------------------------------------
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void FVTerm::scrollAreaReverse (FTermArea* area) const
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{
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// Scrolls the entire area one line down
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if ( ! area )
return;
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if ( area->height <= 1 )
return;
const int length = area->width;
const int total_width = area->width + area->right_shadow;
const int y_max = area->height - 1;
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for (int y = y_max; y > 0; y--)
{
const int pos1 = (y - 1) * total_width;
const int pos2 = y * total_width;
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const auto& sc = area->data[pos1]; // source character
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auto& dc = area->data[pos2]; // destination character
std::memcpy (&dc, &sc, sizeof(dc) * unsigned(length));
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area->changes[y].xmin = 0;
area->changes[y].xmax = uInt(area->width - 1);
}
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// insert a new line above
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FChar nc{}; // next character
const auto& lc = area->data[total_width]; // last character
std::memcpy (&nc, &lc, sizeof(nc));
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nc.ch = ' ';
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auto& dc = area->data[0]; // destination character
std::fill_n (&dc, area->width, nc);
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area->changes[0].xmin = 0;
area->changes[0].xmax = uInt(area->width - 1);
area->has_changes = true;
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if ( area == vdesktop && TCAP(fc::t_scroll_reverse) )
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{
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setTermXY (0, 0);
FTerm::scrollTermReverse();
putArea (FPoint{1, 1}, vdesktop);
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// avoid update lines from 1 to y_max
for (int y{1}; y <= y_max; y++)
{
area->changes[y].xmin = uInt(area->width - 1);
area->changes[y].xmax = 0;
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}
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}
}
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//----------------------------------------------------------------------
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void FVTerm::clearArea (FTermArea* area, int fillchar) const
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{
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// Clear the area with the current attributes
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FChar nc{}; // next character
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// Current attributes with a space character
std::memcpy (&nc, &next_attribute, sizeof(nc));
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nc.ch = fillchar;
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if ( ! (area && area->data) )
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{
clearTerm (fillchar);
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return;
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}
const auto w = uInt(area->width + area->right_shadow);
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if ( area->right_shadow == 0 )
{
if ( clearFullArea(area, nc) )
return;
}
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else
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clearAreaWithShadow(area, nc);
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for (int i{0}; i < area->height; i++)
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{
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area->changes[i].xmin = 0;
area->changes[i].xmax = w - 1;
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if ( nc.attr.bit.transparent
|| nc.attr.bit.color_overlay
|| nc.attr.bit.inherit_background )
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area->changes[i].trans_count = w;
else if ( area->right_shadow != 0 )
area->changes[i].trans_count = uInt(area->right_shadow);
else
area->changes[i].trans_count = 0;
}
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for (int i{0}; i < area->bottom_shadow; i++)
{
const int y = area->height + i;
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area->changes[y].xmin = 0;
area->changes[y].xmax = w - 1;
area->changes[y].trans_count = w;
}
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area->has_changes = true;
}
//----------------------------------------------------------------------
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void FVTerm::processTerminalUpdate() const
{
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// Retains terminal updates if there are unprocessed inputs
static constexpr int max_skip = 8;
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const auto& data = FTerm::getFTermData();
// Checks if the resizing of the terminal is not finished
if ( data && data->hasTermResized() )
return;
// Monitor whether the terminal size has changed
if ( isTermSizeChanged() )
{
raise (SIGWINCH); // Send SIGWINCH
return;
}
// Update data on VTerm
updateVTerm();
if ( ! terminal_update_pending && ! hasPendingUpdates(vterm) )
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return;
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if ( ! keyboard->isInputDataPending() )
{
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updateTerminal();
terminal_update_pending = false;
skipped_terminal_update = 0;
}
else if ( skipped_terminal_update > max_skip )
{
force_terminal_update = true;
updateTerminal();
force_terminal_update = false;
terminal_update_pending = false;
skipped_terminal_update = 0;
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}
else
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skipped_terminal_update++;
}
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//----------------------------------------------------------------------
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void FVTerm::startDrawing()
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{
// Pauses the terminal updates for the printing phase
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draw_completed = false;
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}
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//----------------------------------------------------------------------
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void FVTerm::finishDrawing()
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{
// After the printing phase is completed, the terminal will be updated
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draw_completed = true;
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}
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//----------------------------------------------------------------------
void FVTerm::initTerminal()
{
if ( fterm )
fterm->initTerminal();
// Get FKeyboard object
keyboard = FTerm::getFKeyboard();
// Hide the input cursor
cursor_hideable = FTerm::isCursorHideable();
hideCursor();
// Initialize character lengths
init_characterLengths(FTerm::getFOptiMove());
}
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// private methods of FVTerm
//----------------------------------------------------------------------
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inline void FVTerm::resetTextAreaToDefault ( const FTermArea* area
, const FSize& size ) const
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{
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FChar default_char;
FLineChanges unchanged;
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default_char.ch = ' ';
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default_char.fg_color = fc::Default;
default_char.bg_color = fc::Default;
default_char.attr.byte[0] = 0;
default_char.attr.byte[1] = 0;
default_char.attr.byte[2] = 0;
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default_char.attr.byte[3] = 0;
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std::fill_n (area->data, size.getArea(), default_char);
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unchanged.xmin = uInt(size.getWidth());
unchanged.xmax = 0;
unchanged.trans_count = 0;
std::fill_n (area->changes, size.getHeight(), unchanged);
}
//----------------------------------------------------------------------
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inline bool FVTerm::reallocateTextArea ( FTermArea* area
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, std::size_t height
, std::size_t size )
{
// Reallocate "height" lines for changes
// and "size" bytes for the text area
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if ( area->changes != nullptr )
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delete[] area->changes;
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if ( area->data != nullptr )
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delete[] area->data;
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try
{
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area->changes = new FLineChanges[height];
area->data = new FChar[size];
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}
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catch (const std::bad_alloc&)
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{
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badAllocOutput ("FLineChanges[height] or FChar[size]");
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return false;
}
return true;
}
//----------------------------------------------------------------------
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inline bool FVTerm::reallocateTextArea (FTermArea* area, std::size_t size)
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{
// Reallocate "size" bytes for the text area
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if ( area->data != nullptr )
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delete[] area->data;
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try
{
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area->data = new FChar[size];
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}
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catch (const std::bad_alloc&)
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{
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badAllocOutput ("FChar[size]");
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return false;
}
return true;
}
//----------------------------------------------------------------------
FVTerm::covered_state FVTerm::isCovered ( const FPoint& pos
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, const FTermArea* area )
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{
// Determines the covered state for the given position
if ( ! area )
return non_covered;
auto is_covered = non_covered;
if ( FWidget::getWindowList() && ! FWidget::getWindowList()->empty() )
{
bool found{ area == vdesktop };
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for (auto& win_obj : *FWidget::getWindowList())
{
const auto& win = win_obj->getVWin();
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if ( ! (win && win->visible) )
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continue;
const int& win_x = win->offset_left;
const int& win_y = win->offset_top;
const FRect geometry { win_x , win_y
, std::size_t(win->width) + std::size_t(win->right_shadow)
, std::size_t(win->height) + std::size_t(win->bottom_shadow) };
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if ( found && geometry.contains(pos) )
{
const int width = win->width + win->right_shadow;
const int& x = pos.getX();
const int& y = pos.getY();
const auto& tmp = &win->data[(y - win_y) * width + (x - win_x)];
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if ( tmp->attr.bit.color_overlay )
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{
is_covered = half_covered;
}
else if ( ! tmp->attr.bit.transparent )
{
is_covered = fully_covered;
break;
}
}
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if ( area == win )
found = true;
}
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}
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return is_covered;
}
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//----------------------------------------------------------------------
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void FVTerm::updateOverlappedColor ( const FTermArea* area
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, const FPoint& area_pos
, const FPoint& terminal_pos )
{
// Add the overlapping color to this character
const int x = area_pos.getX();
const int y = area_pos.getY();
const int tx = terminal_pos.getX();
const int ty = terminal_pos.getY();
const int width = area->width + area->right_shadow;
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// Area character
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const auto& ac = area->data[y * width + x];
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// Terminal character
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auto& tc = vterm->data[ty * vterm->width + tx];
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// New character
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FChar nc{};
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std::memcpy (&nc, &ac, sizeof(nc));
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// Overlapped character
auto oc = getOverlappedCharacter (terminal_pos + FPoint{1, 1}, area->widget);
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nc.fg_color = oc.fg_color;
nc.bg_color = oc.bg_color;
nc.attr.bit.reverse = false;
nc.attr.bit.standout = false;
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if ( nc.ch == fc::LowerHalfBlock
|| nc.ch == fc::UpperHalfBlock
|| nc.ch == fc::LeftHalfBlock
|| nc.ch == fc::RightHalfBlock
|| nc.ch == fc::MediumShade
|| nc.ch == fc::FullBlock )
nc.ch = ' ';
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nc.attr.bit.no_changes = bool(tc.attr.bit.printed && tc == nc);
std::memcpy (&tc, &nc, sizeof(tc));
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}
//----------------------------------------------------------------------
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void FVTerm::updateOverlappedCharacter ( const FTermArea* area
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, const FPoint& terminal_pos )
{
// Restore one character on vterm
// Terminal character
const int tx = terminal_pos.getX();
const int ty = terminal_pos.getY();
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auto tc = &vterm->data[ty * vterm->width + tx];
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// Overlapped character
auto oc = getCoveredCharacter (terminal_pos + FPoint{1, 1}, area->widget);
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oc.attr.bit.no_changes = bool(tc->attr.bit.printed && *tc == oc);
std::memcpy (tc, &oc, sizeof(*tc));
}
//----------------------------------------------------------------------
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void FVTerm::updateShadedCharacter ( const FTermArea* area
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, const FPoint& area_pos
, const FPoint& terminal_pos )
{
// Get covered character + add the current color
const int x = area_pos.getX();
const int y = area_pos.getY();
const int tx = terminal_pos.getX();
const int ty = terminal_pos.getY();
const int width = area->width + area->right_shadow;
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// Area character
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const auto& ac = area->data[y * width + x];
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// Terminal character
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auto& tc = vterm->data[ty * vterm->width + tx];
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// Overlapped character
auto oc = getCoveredCharacter (terminal_pos + FPoint{1, 1}, area->widget);
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oc.fg_color = ac.fg_color;
oc.bg_color = ac.bg_color;
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oc.attr.bit.reverse = false;
oc.attr.bit.standout = false;
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if ( oc.ch == fc::LowerHalfBlock
|| oc.ch == fc::UpperHalfBlock
|| oc.ch == fc::LeftHalfBlock
|| oc.ch == fc::RightHalfBlock
|| oc.ch == fc::MediumShade
|| oc.ch == fc::FullBlock )
oc.ch = ' ';
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oc.attr.bit.no_changes = bool(tc.attr.bit.printed && tc == oc);
std::memcpy (&tc, &oc, sizeof(tc));
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}
//----------------------------------------------------------------------
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void FVTerm::updateInheritBackground ( const FTermArea* area
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, const FPoint& area_pos
, const FPoint& terminal_pos )
{
// Add the covered background to this character
const int x = area_pos.getX();
const int y = area_pos.getY();
const int tx = terminal_pos.getX();
const int ty = terminal_pos.getY();
const int width = area->width + area->right_shadow;
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// Area character
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const auto& ac = area->data[y * width + x];
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// Terminal character
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auto& tc = vterm->data[ty * vterm->width + tx];
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// New character
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FChar nc{};
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std::memcpy (&nc, &ac, sizeof(nc));
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// Covered character
auto cc = getCoveredCharacter (terminal_pos + FPoint{1, 1}, area->widget);
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nc.bg_color = cc.bg_color;
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nc.attr.bit.no_changes = bool(tc.attr.bit.printed && tc == nc);
std::memcpy (&tc, &nc, sizeof(tc));
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}
//----------------------------------------------------------------------
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void FVTerm::updateCharacter ( const FTermArea* area
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, const FPoint& area_pos
, const FPoint& terminal_pos )
{
// Copy a area character to the virtual terminal
const int x = area_pos.getX();
const int y = area_pos.getY();
const int tx = terminal_pos.getX();
const int ty = terminal_pos.getY();
const int width = area->width + area->right_shadow;
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// Area character
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const auto& ac = area->data[y * width + x];
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// Terminal character
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auto& tc = vterm->data[ty * vterm->width + tx];
std::memcpy (&tc, &ac, sizeof(tc));
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if ( tc.attr.bit.printed && tc == ac )
tc.attr.bit.no_changes = true;
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else
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tc.attr.bit.no_changes = false;
}
//----------------------------------------------------------------------
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bool FVTerm::updateVTermCharacter ( const FTermArea* area
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, const FPoint& area_pos
, const FPoint& terminal_pos )
{
const int x = area_pos.getX();
const int y = area_pos.getY();
const int width = area->width + area->right_shadow;
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// Area character
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const auto& ac = area->data[y * width + x];
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// Get covered state
const auto is_covered = isCovered(terminal_pos, area);
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if ( is_covered == fully_covered )
return false;
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if ( is_covered == half_covered )
{
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updateOverlappedColor(area, area_pos, terminal_pos);
}
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else if ( ac.attr.bit.transparent ) // Transparent
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{
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updateOverlappedCharacter(area, terminal_pos);
}
else // Not transparent
{
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if ( ac.attr.bit.color_overlay ) // Transparent shadow
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{
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updateShadedCharacter (area, area_pos, terminal_pos);
}
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else if ( ac.attr.bit.inherit_background )
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{
updateInheritBackground (area, area_pos, terminal_pos);
}
else // Default
{
updateCharacter (area, area_pos, terminal_pos);
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}
}
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return true;
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}
//----------------------------------------------------------------------
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void FVTerm::updateVTerm() const
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{
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// Updates the character data from all areas to VTerm
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2020-10-19 23:38:12 +02:00
if ( hasPendingUpdates(vdesktop) )
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{
putArea(vdesktop);
vdesktop->has_changes = false;
}
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const FWidget* widget = vterm->widget;
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if ( ! widget || ! widget->getWindowList()
|| widget->getWindowList()->empty() )
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return;
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for (auto&& window : *(widget->getWindowList()))
{
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auto v_win = window->getVWin();
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if ( ! (v_win && v_win->visible) )
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continue;
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if ( hasPendingUpdates(v_win) )
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{
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putArea(v_win);
v_win->has_changes = false;
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}
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else if ( hasChildAreaChanges(v_win) )
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{
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putArea(v_win); // and call the child area processing handler there
clearChildAreaChanges(v_win);
}
}
}
//----------------------------------------------------------------------
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void FVTerm::callPreprocessingHandler (const FTermArea* area)
{
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// Call preprocessing handler
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if ( area->preproc_list.empty() )
return;
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for (auto&& pcall : area->preproc_list)
{
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// call the preprocessing handler
auto preprocessingHandler = pcall.function;
preprocessingHandler();
}
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}
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//----------------------------------------------------------------------
bool FVTerm::hasChildAreaChanges (FTermArea* area) const
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{
if ( ! area )
return false;
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return std::any_of ( area->preproc_list.begin()
, area->preproc_list.end()
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, [] (const FVTermPreprocessing& pcall)
2020-02-19 21:59:13 +01:00
{
return pcall.instance
&& pcall.instance->child_print_area
&& pcall.instance->child_print_area->has_changes;
}
);
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}
2019-10-06 22:35:00 +02:00
//----------------------------------------------------------------------
2020-07-12 15:25:21 +02:00
void FVTerm::clearChildAreaChanges (const FTermArea* area) const
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{
if ( ! area )
return;
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for (auto&& pcall : area->preproc_list)
{
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if ( pcall.instance
&& pcall.instance->child_print_area )
pcall.instance->child_print_area->has_changes = false;
}
2019-10-06 22:35:00 +02:00
}
2019-10-06 22:35:00 +02:00
//----------------------------------------------------------------------
2020-04-13 12:40:11 +02:00
bool FVTerm::isInsideArea (const FPoint& pos, const FTermArea* area)
2019-10-06 22:35:00 +02:00
{
// Check whether the coordinates are within the area
const auto aw = std::size_t(area->width);
const auto ah = std::size_t(area->height);
FRect area_geometry{0, 0, aw, ah};
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if ( area_geometry.contains(pos) )
return true;
else
return false;
}
2018-01-05 00:49:00 +01:00
//----------------------------------------------------------------------
FChar FVTerm::generateCharacter (const FPoint& pos)
2018-01-05 00:49:00 +01:00
{
// Generates characters for a given position considering all areas
const int x = pos.getX();
const int y = pos.getY();
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auto sc = &vdesktop->data[y * vdesktop->width + x]; // shown character
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if ( ! FWidget::getWindowList() || FWidget::getWindowList()->empty() )
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return *sc;
for (auto& win_obj : *FWidget::getWindowList())
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{
const auto& win = win_obj->getVWin();
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if ( ! win || ! win->visible )
continue;
const int win_x = win->offset_left;
const int win_y = win->offset_top;
const FRect geometry { win_x, win_y
, std::size_t(win->width) + std::size_t(win->right_shadow)
, std::size_t(win->height) + std::size_t(win->bottom_shadow) };
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// Window is visible and contains current character
if ( geometry.contains(x, y) )
{
const int line_len = win->width + win->right_shadow;
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auto tmp = &win->data[(y - win_y) * line_len + (x - win_x)];
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if ( ! tmp->attr.bit.transparent ) // Current character not transparent
{
if ( tmp->attr.bit.color_overlay ) // Transparent shadow
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{
// Keep the current vterm character
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if ( sc != &s_ch )
std::memcpy (&s_ch, sc, sizeof(s_ch));
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s_ch.fg_color = tmp->fg_color;
s_ch.bg_color = tmp->bg_color;
s_ch.attr.bit.reverse = false;
s_ch.attr.bit.standout = false;
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if ( s_ch.ch == fc::LowerHalfBlock
|| s_ch.ch == fc::UpperHalfBlock
|| s_ch.ch == fc::LeftHalfBlock
|| s_ch.ch == fc::RightHalfBlock
|| s_ch.ch == fc::MediumShade
|| s_ch.ch == fc::FullBlock )
s_ch.ch = ' ';
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sc = &s_ch;
}
else if ( tmp->attr.bit.inherit_background )
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{
// Add the covered background to this character
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std::memcpy (&i_ch, tmp, sizeof(i_ch));
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i_ch.bg_color = sc->bg_color; // Last background color
sc = &i_ch;
}
else // Default
sc = tmp;
}
}
}
return *sc;
}
//----------------------------------------------------------------------
FChar FVTerm::getCharacter ( character_type char_type
, const FPoint& pos
, FVTerm* obj )
{
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// Gets the overlapped or the covered character for a given position
const int x = pos.getX() - 1;
const int y = pos.getY() - 1;
int xx = ( x > 0 ) ? x : 0;
int yy = ( y > 0 ) ? y : 0;
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if ( xx >= vterm->width )
xx = vterm->width - 1;
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if ( yy >= vterm->height )
yy = vterm->height - 1;
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auto cc = &vdesktop->data[yy * vdesktop->width + xx]; // covered character
if ( ! FWidget::getWindowList() || FWidget::getWindowList()->empty() )
return *cc;
// Get the window layer of this object
const auto& w = static_cast<FWidget*>(obj);
const int layer = FWindow::getWindowLayer(w);
for (auto&& win_obj : *FWidget::getWindowList())
{
bool significant_char{false};
// char_type can be "overlapped_character"
// or "covered_character"
if ( char_type == covered_character )
significant_char = bool(layer >= FWindow::getWindowLayer(win_obj));
else
significant_char = bool(layer < FWindow::getWindowLayer(win_obj));
if ( obj && win_obj != obj && significant_char )
{
const auto& win = win_obj->getVWin();
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if ( ! win || ! win->visible )
continue;
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const FRect geometry { win->offset_left, win->offset_top
, std::size_t(win->width) + std::size_t(win->right_shadow)
, std::size_t(win->height) + std::size_t(win->bottom_shadow) };
2016-12-28 16:29:49 +01:00
// Window visible and contains current character
if ( geometry.contains(x, y) )
getAreaCharacter (FPoint{x, y}, win, cc);
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}
else if ( char_type == covered_character )
break;
}
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return *cc;
}
//----------------------------------------------------------------------
FChar FVTerm::getCoveredCharacter (const FPoint& pos, FVTerm* obj)
{
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// Gets the covered character for a given position
return getCharacter (covered_character, pos, obj);
2016-12-28 16:29:49 +01:00
}
2016-12-28 16:29:49 +01:00
//----------------------------------------------------------------------
FChar FVTerm::getOverlappedCharacter (const FPoint& pos, FVTerm* obj)
2016-12-28 16:29:49 +01:00
{
// Gets the overlapped character for a given position
return getCharacter (overlapped_character, pos, obj);
2016-12-28 16:29:49 +01:00
}
2020-05-24 02:15:43 +02:00
//----------------------------------------------------------------------
2020-06-06 21:10:06 +02:00
void FVTerm::init()
{
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init_object = this;
vterm = nullptr;
vdesktop = nullptr;
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fsystem = FTerm::getFSystem();
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try
{
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fterm = new FTerm();
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term_pos = new FPoint(-1, -1);
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output_buffer = new std::queue<int>;
}
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catch (const std::bad_alloc&)
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{
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badAllocOutput ("FTerm, FPoint, or std::queue<int>");
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return;
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}
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// Presetting of the current locale for full-width character support.
// The final setting is made later in FTerm::init_locale().
std::setlocale (LC_ALL, "");
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// term_attribute stores the current state of the terminal
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term_attribute.ch = '\0';
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term_attribute.fg_color = fc::Default;
term_attribute.bg_color = fc::Default;
term_attribute.attr.byte[0] = 0;
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term_attribute.attr.byte[1] = 0;
term_attribute.attr.byte[2] = 0;
term_attribute.attr.byte[3] = 0;
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// next_attribute contains the state of the next printed character
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std::memcpy (&next_attribute, &term_attribute, sizeof(next_attribute));
// Create virtual terminal
FRect term_geometry {0, 0, FTerm::getColumnNumber(), FTerm::getLineNumber()};
createVTerm (term_geometry.getSize());
// Create virtual desktop area
FSize shadow_size{0, 0};
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createArea (term_geometry, shadow_size, vdesktop);
vdesktop->visible = true;
active_area = vdesktop;
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// Initialize the last terminal size check time
last_term_size_check.tv_sec = 0;
last_term_size_check.tv_usec = 0;
}
//----------------------------------------------------------------------
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void FVTerm::init_characterLengths (const FOptiMove* optimove)
{
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if ( optimove )
{
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cursor_address_length = optimove->getCursorAddressLength();
erase_char_length = optimove->getEraseCharsLength();
repeat_char_length = optimove->getRepeatCharLength();
clr_bol_length = optimove->getClrBolLength();
clr_eol_length = optimove->getClrEolLength();
}
else
{
cursor_address_length = INT_MAX;
erase_char_length = INT_MAX;
repeat_char_length = INT_MAX;
clr_bol_length = INT_MAX;
clr_eol_length = INT_MAX;
}
}
//----------------------------------------------------------------------
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void FVTerm::finish()
{
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// Show the input cursor
showCursor();
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// Clear the terminal
setNormal();
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if ( FTerm::hasAlternateScreen()
&& FTerm::getFTermData()->isInAlternateScreen() )
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clearTerm();
flush();
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if ( output_buffer )
delete output_buffer;
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// remove virtual terminal + virtual desktop area
removeArea (vdesktop);
removeArea (vterm);
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if ( term_pos )
delete term_pos;
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if ( fterm )
delete fterm;
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init_object = nullptr;
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}
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//----------------------------------------------------------------------
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void FVTerm::putAreaLine (const FChar* ac, FChar* tc, int length)
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{
// copy "length" characters from area to terminal
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std::memcpy (tc, ac, sizeof(*tc) * unsigned(length));
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}
//----------------------------------------------------------------------
void FVTerm::putAreaCharacter ( const FPoint& pos, FVTerm* obj
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, const FChar* ac
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, FChar* tc )
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{
if ( ac->attr.bit.transparent ) // Transparent
{
// Restore one character on vterm
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FChar ch = getCoveredCharacter (pos, obj);
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std::memcpy (tc, &ch, sizeof(*tc));
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}
else // Mot transparent
{
if ( ac->attr.bit.color_overlay ) // Transparent shadow
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{
// Get covered character + add the current color
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FChar ch = getCoveredCharacter (pos, obj);
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ch.fg_color = ac->fg_color;
ch.bg_color = ac->bg_color;
ch.attr.bit.reverse = false;
ch.attr.bit.standout = false;
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if ( ch.ch == fc::LowerHalfBlock
|| ch.ch == fc::UpperHalfBlock
|| ch.ch == fc::LeftHalfBlock
|| ch.ch == fc::RightHalfBlock
|| ch.ch == fc::MediumShade
|| ch.ch == fc::FullBlock )
ch.ch = ' ';
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std::memcpy (tc, &ch, sizeof(*tc));
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}
else if ( ac->attr.bit.inherit_background )
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{
// Add the covered background to this character
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FChar ch{};
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std::memcpy (&ch, ac, sizeof(ch));
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FChar cc = getCoveredCharacter (pos, obj);
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ch.bg_color = cc.bg_color;
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std::memcpy (tc, &ch, sizeof(*tc));
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}
else // Default
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std::memcpy (tc, ac, sizeof(*tc));
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}
}
//----------------------------------------------------------------------
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void FVTerm::getAreaCharacter ( const FPoint& pos, const FTermArea* area
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, FChar*& cc )
{
const int area_x = area->offset_left;
const int area_y = area->offset_top;
const int line_len = area->width + area->right_shadow;
const int x = pos.getX();
const int y = pos.getY();
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auto& tmp = area->data[(y - area_y) * line_len + (x - area_x)];
// Current character not transparent
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if ( ! tmp.attr.bit.transparent )
{
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if ( tmp.attr.bit.color_overlay ) // transparent shadow
{
// Keep the current vterm character
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std::memcpy (&s_ch, cc, sizeof(s_ch));
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s_ch.fg_color = tmp.fg_color;
s_ch.bg_color = tmp.bg_color;
s_ch.attr.bit.reverse = false;
s_ch.attr.bit.standout = false;
cc = &s_ch;
}
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else if ( tmp.attr.bit.inherit_background )
{
// Add the covered background to this character
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std::memcpy (&i_ch, &tmp, sizeof(i_ch));
i_ch.bg_color = cc->bg_color; // last background color
cc = &i_ch;
}
else // default
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cc = &tmp;
}
}
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//----------------------------------------------------------------------
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bool FVTerm::clearTerm (int fillchar) const
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{
// Clear the real terminal and put cursor at home
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const auto& cl = TCAP(fc::t_clear_screen);
const auto& cd = TCAP(fc::t_clr_eos);
const auto& cb = TCAP(fc::t_clr_eol);
const bool ut = FTermcap::background_color_erase;
auto next = &next_attribute;
const bool normal = FTerm::isNormal(next);
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appendAttributes(next);
if ( ! ( (cl || cd || cb) && (normal || ut) )
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|| fillchar != ' ' )
{
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return false;
}
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if ( cl ) // Clear screen
{
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appendOutputBuffer (cl);
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term_pos->setPoint(0, 0);
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}
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else if ( cd ) // Clear to end of screen
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{
setTermXY (0, 0);
appendOutputBuffer (cd);
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term_pos->setPoint(-1, -1);
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}
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else if ( cb ) // Clear to end of line
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{
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term_pos->setPoint(-1, -1);
for (int i{0}; i < int(FTerm::getLineNumber()); i++)
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{
setTermXY (0, i);
appendOutputBuffer (cb);
}
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setTermXY (0, 0);
}
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flush();
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return true;
}
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//----------------------------------------------------------------------
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bool FVTerm::clearFullArea (const FTermArea* area, FChar& nc) const
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{
// Clear area
const int area_size = area->width * area->height;
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std::fill_n (area->data, area_size, nc);
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if ( area != vdesktop ) // Is the area identical to the desktop?
return false;
// Try to clear the terminal rapidly with a control sequence
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if ( clearTerm (nc.ch) )
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{
nc.attr.bit.printed = true;
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std::fill_n (vterm->data, area_size, nc);
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}
else
{
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for (int i{0}; i < vdesktop->height; i++)
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{
vdesktop->changes[i].xmin = 0;
vdesktop->changes[i].xmax = uInt(vdesktop->width) - 1;
vdesktop->changes[i].trans_count = 0;
}
vdesktop->has_changes = true;
}
return true;
}
//----------------------------------------------------------------------
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void FVTerm::clearAreaWithShadow (const FTermArea* area, const FChar& nc)
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{
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FChar t_char = nc;
const int total_width = area->width + area->right_shadow;
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t_char.attr.bit.transparent = true;
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for (int y{0}; y < area->height; y++)
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{
const int pos = y * total_width;
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// Clear area
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std::fill_n (&area->data[pos], total_width, nc);
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// Make right shadow transparent
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std::fill_n (&area->data[pos + area->width], area->right_shadow, t_char);
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}
// Make bottom shadow transparent
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for (int y{0}; y < area->bottom_shadow; y++)
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{
const int pos = total_width * (y + area->height);
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std::fill_n (&area->data[pos], total_width, t_char);
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}
}
//----------------------------------------------------------------------
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bool FVTerm::canClearToEOL (uInt xmin, uInt y)
{
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// Is the line from xmin to the end of the line blank?
// => clear to end of line
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FTermArea*& vt = vterm;
const auto& ce = TCAP(fc::t_clr_eol);
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auto min_char = &vt->data[y * uInt(vt->width) + xmin];
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2019-10-08 04:37:19 +02:00
if ( ce && min_char->ch == ' ' )
{
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uInt beginning_whitespace = 1;
const bool normal = FTerm::isNormal(min_char);
const bool& ut = FTermcap::background_color_erase;
2016-11-26 15:18:44 +01:00
2017-11-30 02:38:55 +01:00
for (uInt x = xmin + 1; x < uInt(vt->width); x++)
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{
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auto ch = &vt->data[y * uInt(vt->width) + x];
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if ( *min_char == *ch )
beginning_whitespace++;
else
break;
}
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if ( beginning_whitespace == uInt(vt->width) - xmin
&& (ut || normal)
&& clr_eol_length < beginning_whitespace )
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return true;
}
return false;
}
//----------------------------------------------------------------------
bool FVTerm::canClearLeadingWS (uInt& xmin, uInt y)
{
// Line has leading whitespace
// => clear from xmin to beginning of line
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FTermArea*& vt = vterm;
const auto& cb = TCAP(fc::t_clr_bol);
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auto first_char = &vt->data[y * uInt(vt->width)];
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2019-10-08 04:37:19 +02:00
if ( cb && first_char->ch == ' ' )
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{
uInt leading_whitespace = 1;
const bool normal = FTerm::isNormal(first_char);
const bool& ut = FTermcap::background_color_erase;
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for (uInt x{1}; x < uInt(vt->width); x++)
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{
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auto ch = &vt->data[y * uInt(vt->width) + x];
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if ( *first_char == *ch )
leading_whitespace++;
else
break;
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}
2017-11-30 02:38:55 +01:00
if ( leading_whitespace > xmin
&& (ut || normal)
&& clr_bol_length < leading_whitespace )
{
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xmin = leading_whitespace - 1;
return true;
}
}
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return false;
}
2017-11-30 02:38:55 +01:00
//----------------------------------------------------------------------
2017-12-19 02:06:27 +01:00
bool FVTerm::canClearTrailingWS (uInt& xmax, uInt y)
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{
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// Line has trailing whitespace
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// => clear from xmax to end of line
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FTermArea*& vt = vterm;
const auto& ce = TCAP(fc::t_clr_eol);
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auto last_char = &vt->data[(y + 1) * uInt(vt->width) - 1];
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if ( ce && last_char->ch == ' ' )
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{
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uInt trailing_whitespace = 1;
const bool normal = FTerm::isNormal(last_char);
const bool& ut = FTermcap::background_color_erase;
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for (uInt x = uInt(vt->width) - 1; x > 0 ; x--)
{
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auto ch = &vt->data[y * uInt(vt->width) + x];
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if ( *last_char == *ch )
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trailing_whitespace++;
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else
break;
}
2017-12-19 02:06:27 +01:00
if ( trailing_whitespace > uInt(vt->width) - xmax
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&& (ut || normal)
&& clr_bol_length < trailing_whitespace )
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{
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xmax = uInt(vt->width) - trailing_whitespace;
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return true;
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}
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}
2016-12-28 16:29:49 +01:00
2017-11-30 02:38:55 +01:00
return false;
}
2016-12-28 16:29:49 +01:00
2017-11-30 02:38:55 +01:00
//----------------------------------------------------------------------
2020-07-12 17:00:16 +02:00
bool FVTerm::skipUnchangedCharacters (uInt& x, uInt xmax, uInt y) const
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{
// Skip characters without changes if it is faster than redrawing
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FTermArea*& vt = vterm;
auto print_char = &vt->data[y * uInt(vt->width) + x];
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print_char->attr.bit.printed = true;
if ( print_char->attr.bit.no_changes )
{
2019-08-25 22:16:00 +02:00
uInt count{1};
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for (uInt i = x + 1; i <= xmax; i++)
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{
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auto ch = &vt->data[y * uInt(vt->width) + i];
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if ( ch->attr.bit.no_changes )
count++;
else
break;
}
if ( count > cursor_address_length )
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{
setTermXY (int(x + count), int(y));
x = x + count - 1;
return true;
}
}
return false;
}
//----------------------------------------------------------------------
void FVTerm::printRange ( uInt xmin, uInt xmax, uInt y
2020-08-11 23:04:46 +02:00
, bool draw_trailing_ws ) const
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{
for (uInt x = xmin; x <= xmax; x++)
{
2019-10-08 04:37:19 +02:00
FTermArea*& vt = vterm;
const auto& ec = TCAP(fc::t_erase_chars);
const auto& rp = TCAP(fc::t_repeat_char);
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auto print_char = &vt->data[y * uInt(vt->width) + x];
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print_char->attr.bit.printed = true;
replaceNonPrintableFullwidth (x, print_char);
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// skip character with no changes
if ( skipUnchangedCharacters(x, xmax, y) )
continue;
// Erase character
2019-10-08 04:37:19 +02:00
if ( ec && print_char->ch == ' ' )
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{
exit_state erase_state = \
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eraseCharacters(x, xmax, y, draw_trailing_ws);
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if ( erase_state == line_completely_printed )
break;
}
else if ( rp ) // Repeat one character n-fold
{
repeatCharacter(x, xmax, y);
2016-12-28 16:29:49 +01:00
}
else // General character output
{
bool min_and_not_max( x == xmin && xmin != xmax );
printCharacter (x, y, min_and_not_max, print_char);
}
}
}
//----------------------------------------------------------------------
inline void FVTerm::replaceNonPrintableFullwidth ( uInt x
2020-07-12 15:25:21 +02:00
, FChar*& print_char ) const
{
// Replace non-printable full-width characters that are truncated
// from the right or left terminal side
if ( x == 0 && isFullWidthPaddingChar(print_char) )
{
2019-10-08 04:37:19 +02:00
print_char->ch = fc::SingleLeftAngleQuotationMark; //
print_char->attr.bit.fullwidth_padding = false;
}
else if ( x == uInt(vterm->width - 1)
&& isFullWidthChar(print_char) )
{
2019-10-08 04:37:19 +02:00
print_char->ch = fc::SingleRightAngleQuotationMark; //
print_char->attr.bit.char_width = 1;
}
}
//----------------------------------------------------------------------
void FVTerm::printCharacter ( uInt& x, uInt y, bool min_and_not_max
2020-07-19 14:15:02 +02:00
, FChar*& print_char) const
{
// General character output on terminal
if ( x < uInt(vterm->width - 1) && isFullWidthChar(print_char) )
{
printFullWidthCharacter (x, y, print_char);
}
else if ( x > 0 && x < uInt(vterm->width - 1)
&& isFullWidthPaddingChar(print_char) )
{
printFullWidthPaddingCharacter (x, y, print_char);
}
else if ( x > 0 && min_and_not_max )
{
printHalfCovertFullWidthCharacter (x, y, print_char);
}
else
{
// Print a half-width character
appendCharacter (print_char);
markAsPrinted (x, y);
}
}
//----------------------------------------------------------------------
void FVTerm::printFullWidthCharacter ( uInt& x, uInt y
2020-07-12 19:33:12 +02:00
, FChar*& print_char ) const
{
const auto vt = vterm;
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auto next_char = &vt->data[y * uInt(vt->width) + x + 1];
if ( print_char->attr.byte[0] == next_char->attr.byte[0]
&& print_char->attr.byte[1] == next_char->attr.byte[1]
&& print_char->fg_color == next_char->fg_color
&& print_char->bg_color == next_char->bg_color
&& isFullWidthChar(print_char)
&& isFullWidthPaddingChar(next_char) )
{
// Print a full-width character
appendCharacter (print_char);
markAsPrinted (x, y);
skipPaddingCharacter (x, y, print_char);
}
else
{
// Print ellipses for the 1st full-width character column
appendAttributes (print_char);
appendOutputBuffer (fc::HorizontalEllipsis);
term_pos->x_ref()++;
markAsPrinted (x, y);
if ( isFullWidthPaddingChar(next_char) )
{
// Print ellipses for the 2nd full-width character column
x++;
appendAttributes (next_char);
appendOutputBuffer (fc::HorizontalEllipsis);
term_pos->x_ref()++;
markAsPrinted (x, y);
}
}
}
//----------------------------------------------------------------------
void FVTerm::printFullWidthPaddingCharacter ( uInt& x, uInt y
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, FChar*& print_char) const
{
const auto vt = vterm;
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auto prev_char = &vt->data[y * uInt(vt->width) + x - 1];
if ( print_char->attr.byte[0] == prev_char->attr.byte[0]
&& print_char->attr.byte[1] == prev_char->attr.byte[1]
&& print_char->fg_color == prev_char->fg_color
&& print_char->bg_color == prev_char->bg_color
&& isFullWidthChar(prev_char)
&& isFullWidthPaddingChar(print_char) )
{
// Move cursor one character to the left
const auto& le = TCAP(fc::t_cursor_left);
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const auto& LE = TCAP(fc::t_parm_left_cursor);
if ( le )
appendOutputBuffer (le);
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else if ( LE )
appendOutputBuffer (FTermcap::encodeParameter(LE, 1, 0, 0, 0, 0, 0, 0, 0, 0));
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else
{
skipPaddingCharacter (x, y, prev_char);
return;
}
// Print a full-width character
x--;
term_pos->x_ref()--;
appendCharacter (prev_char);
markAsPrinted (x, y);
skipPaddingCharacter (x, y, prev_char);
}
else
{
// Print ellipses for the 1st full-width character column
appendAttributes (print_char);
appendOutputBuffer (fc::HorizontalEllipsis);
term_pos->x_ref()++;
markAsPrinted (x, y);
}
}
//----------------------------------------------------------------------
void FVTerm::printHalfCovertFullWidthCharacter ( uInt& x, uInt y
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, FChar*& print_char ) const
{
const auto vt = vterm;
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auto prev_char = &vt->data[y * uInt(vt->width) + x - 1];
if ( isFullWidthChar(prev_char) && ! isFullWidthPaddingChar(print_char) )
{
// Move cursor one character to the left
const auto& le = TCAP(fc::t_cursor_left);
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const auto& LE = TCAP(fc::t_parm_left_cursor);
if ( le )
appendOutputBuffer (le);
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else if ( LE )
appendOutputBuffer (FTermcap::encodeParameter(LE, 1, 0, 0, 0, 0, 0, 0, 0, 0));
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if ( le || LE )
{
// Print ellipses for the 1st full-width character column
x--;
term_pos->x_ref()--;
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appendAttributes (prev_char);
appendOutputBuffer (fc::HorizontalEllipsis);
term_pos->x_ref()++;
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markAsPrinted (x, y);
x++;
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}
}
// Print a half-width character
appendCharacter (print_char);
markAsPrinted (x, y);
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}
//----------------------------------------------------------------------
inline void FVTerm::skipPaddingCharacter ( uInt& x, uInt y
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, const FChar* const& print_char ) const
{
if ( isFullWidthChar(print_char) ) // full-width character
{
x++; // Skip the following padding character
term_pos->x_ref()++;
markAsPrinted (x, y);
}
}
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//----------------------------------------------------------------------
FVTerm::exit_state FVTerm::eraseCharacters ( uInt& x, uInt xmax, uInt y
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, bool draw_trailing_ws ) const
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{
// Erase a number of characters to draw simple whitespaces
const auto& vt = vterm;
const auto& ec = TCAP(fc::t_erase_chars);
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auto print_char = &vt->data[y * uInt(vt->width) + x];
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if ( ! ec || print_char->ch != ' ' )
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return not_used;
uInt whitespace{1};
const bool normal = FTerm::isNormal(print_char);
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for (uInt i = x + 1; i <= xmax; i++)
{
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auto ch = &vt->data[y * uInt(vt->width) + i];
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if ( *print_char == *ch )
whitespace++;
else
break;
}
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if ( whitespace == 1 )
{
appendCharacter (print_char);
markAsPrinted (x, y);
}
else
{
const uInt start_pos = x;
const bool& ut = FTermcap::background_color_erase;
if ( whitespace > erase_char_length + cursor_address_length
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&& (ut || normal) )
{
appendAttributes (print_char);
appendOutputBuffer (FTermcap::encodeParameter(ec, whitespace, 0, 0, 0, 0, 0, 0, 0, 0));
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if ( x + whitespace - 1 < xmax || draw_trailing_ws )
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setTermXY (int(x + whitespace), int(y));
else
return line_completely_printed;
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x = x + whitespace - 1;
}
else
{
x--;
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for (uInt i{0}; i < whitespace; i++)
{
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appendCharacter (print_char);
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x++;
}
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}
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markAsPrinted (start_pos, x, y);
}
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return used;
}
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//----------------------------------------------------------------------
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FVTerm::exit_state FVTerm::repeatCharacter (uInt& x, uInt xmax, uInt y) const
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{
// Repeat one character n-fold
const auto& vt = vterm;
const auto& rp = TCAP(fc::t_repeat_char);
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auto print_char = &vt->data[y * uInt(vt->width) + x];
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if ( ! rp )
return not_used;
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uInt repetitions{1};
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for (uInt i = x + 1; i <= xmax; i++)
{
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auto ch = &vt->data[y * uInt(vt->width) + i];
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if ( *print_char == *ch )
repetitions++;
else
break;
}
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if ( repetitions == 1 )
{
appendCharacter (print_char);
markAsPrinted (x, y);
}
else
{
const uInt start_pos = x;
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if ( repetitions > repeat_char_length
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&& print_char->ch < 128 )
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{
newFontChanges (print_char);
charsetChanges (print_char);
appendAttributes (print_char);
appendOutputBuffer (FTermcap::encodeParameter(rp, print_char->ch, repetitions, 0, 0, 0, 0, 0, 0, 0));
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term_pos->x_ref() += int(repetitions);
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x = x + repetitions - 1;
}
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else
{
x--;
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for (uInt i{0}; i < repetitions; i++)
{
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appendCharacter (print_char);
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x++;
}
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}
markAsPrinted (start_pos, x, y);
}
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return used;
}
//----------------------------------------------------------------------
inline bool FVTerm::isFullWidthChar (const FChar* const& ch) const
{
return bool(ch->attr.bit.char_width == 2);
}
//----------------------------------------------------------------------
inline bool FVTerm::isFullWidthPaddingChar (const FChar* const& ch) const
{
return ch->attr.bit.fullwidth_padding;
}
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//----------------------------------------------------------------------
void FVTerm::cursorWrap()
{
// Wrap the cursor
const auto& vt = vterm;
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if ( term_pos->getX() >= vt->width )
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{
if ( term_pos->getY() == vt->height - 1 )
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term_pos->x_ref()--;
else
{
if ( FTermcap::eat_nl_glitch )
{
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term_pos->setPoint(-1, -1);
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}
else if ( FTermcap::automatic_right_margin )
{
term_pos->setX(0);
term_pos->y_ref()++;
}
else
term_pos->x_ref()--;
}
}
}
//----------------------------------------------------------------------
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bool FVTerm::printWrap (FTermArea* area) const
{
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bool end_of_area{false};
const int width = area->width;
const int height = area->height;
const int rsh = area->right_shadow;
const int bsh = area->bottom_shadow;
// Line break at right margin
if ( area->cursor_x > width + rsh )
{
area->cursor_x = 1;
area->cursor_y++;
}
// Prevent up scrolling
if ( area->cursor_y > height + bsh )
{
area->cursor_y--;
end_of_area = true;
}
return end_of_area;
}
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//----------------------------------------------------------------------
inline void FVTerm::printCharacterOnCoordinate ( FTermArea* area
, const int& ax
, const int& ay
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, const FChar& ch) const
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{
if ( area->cursor_x <= 0
|| area->cursor_y <= 0
|| ax >= area->width + area->right_shadow
|| ay >= area->height + area->bottom_shadow )
return;
const int line_len = area->width + area->right_shadow;
auto& ac = area->data[ay * line_len + ax]; // area character
if ( ac != ch ) // compare with an overloaded operator
{
if ( ( ! ac.attr.bit.transparent && ch.attr.bit.transparent )
|| ( ! ac.attr.bit.color_overlay && ch.attr.bit.color_overlay )
|| ( ! ac.attr.bit.inherit_background && ch.attr.bit.inherit_background ) )
{
// add one transparent character form line
area->changes[ay].trans_count++;
}
if ( ( ac.attr.bit.transparent && ! ch.attr.bit.transparent )
|| ( ac.attr.bit.color_overlay && ! ch.attr.bit.color_overlay )
|| ( ac.attr.bit.inherit_background && ! ch.attr.bit.inherit_background ) )
{
// remove one transparent character from line
area->changes[ay].trans_count--;
}
// copy character to area
std::memcpy (&ac, &ch, sizeof(ac));
if ( ax < int(area->changes[ay].xmin) )
area->changes[ay].xmin = uInt(ax);
if ( ax > int(area->changes[ay].xmax) )
area->changes[ay].xmax = uInt(ax);
}
}
//----------------------------------------------------------------------
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void FVTerm::printPaddingCharacter (FTermArea* area, const FChar& term_char)
{
// Creates a padding-character from the current character (term_char)
// and prints it. It is a placeholder for the column after
// a full-width character.
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FChar pc; // padding character
// Copy character to padding character
std::memcpy (&pc, &term_char, sizeof(pc));
if ( FTerm::getEncoding() == fc::UTF8 )
{
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pc.ch = 0;
pc.attr.bit.fullwidth_padding = true;
pc.attr.bit.char_width = 0;
}
else
{
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pc.ch = '.';
pc.attr.bit.char_width = 1;
}
// Print the padding-character
print (area, pc);
}
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//----------------------------------------------------------------------
void FVTerm::updateTerminalLine (uInt y) const
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{
// Updates pending changes from line y to the terminal
const auto& vt = vterm;
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uInt& xmin = vt->changes[y].xmin;
uInt& xmax = vt->changes[y].xmax;
if ( xmin <= xmax ) // Line has changes
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{
bool draw_leading_ws = false;
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bool draw_trailing_ws = false;
const auto& ce = TCAP(fc::t_clr_eol);
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auto first_char = &vt->data[y * uInt(vt->width)];
auto last_char = &vt->data[(y + 1) * uInt(vt->width) - 1];
auto min_char = &vt->data[y * uInt(vt->width) + xmin];
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// Clear rest of line
bool is_eol_clean = canClearToEOL (xmin, y);
if ( ! is_eol_clean )
{
// leading whitespace
draw_leading_ws = canClearLeadingWS (xmin, y);
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// trailing whitespace
draw_trailing_ws = canClearTrailingWS (xmax, y);
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}
setTermXY (int(xmin), int(y));
if ( is_eol_clean )
{
appendAttributes (min_char);
appendOutputBuffer (ce);
markAsPrinted (xmin, uInt(vt->width - 1), y);
}
else
{
if ( draw_leading_ws )
{
const auto& cb = TCAP(fc::t_clr_bol);
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appendAttributes (first_char);
appendOutputBuffer (cb);
markAsPrinted (0, xmin, y);
}
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printRange (xmin, xmax, y, draw_trailing_ws);
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if ( draw_trailing_ws )
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{
appendAttributes (last_char);
appendOutputBuffer (ce);
markAsPrinted (xmax + 1, uInt(vt->width - 1), y);
}
}
// Reset line changes
xmin = uInt(vt->width);
xmax = 0;
}
cursorWrap();
}
//----------------------------------------------------------------------
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bool FVTerm::updateTerminalCursor() const
{
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// Updates the input cursor visibility and the position
if ( vterm && vterm->input_cursor_visible )
{
const int x = vterm->input_cursor_x;
const int y = vterm->input_cursor_y;
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if ( isInsideTerminal(FPoint{x, y}) )
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{
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setTermXY (x, y);
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showCursor();
return true;
}
}
else
hideCursor();
return false;
}
//----------------------------------------------------------------------
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bool FVTerm::isInsideTerminal (const FPoint& pos) const
{
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// Check whether the coordinates are within the virtual terminal
const FRect term_geometry {0, 0, FTerm::getColumnNumber(), FTerm::getLineNumber()};
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if ( term_geometry.contains(pos) )
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return true;
else
return false;
}
//----------------------------------------------------------------------
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inline bool FVTerm::isTermSizeChanged() const
{
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if ( ! isTermSizeCheckTimeout() )
return false;
FObject::getCurrentTime (&last_term_size_check);
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const auto& data = FTerm::getFTermData();
if ( ! data )
return false;
const auto& old_term_geometry = data->getTermGeometry();
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FTerm::detectTermSize();
auto term_geometry = data->getTermGeometry();
term_geometry.move (-1, -1);
if ( old_term_geometry.getSize() != term_geometry.getSize() )
return true;
return false;
}
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//----------------------------------------------------------------------
inline bool FVTerm::isTermSizeCheckTimeout()
{
return FObject::isTimeout (&last_term_size_check, term_size_check_timeout);
}
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//----------------------------------------------------------------------
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inline bool FVTerm::hasPendingUpdates (const FTermArea* area)
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{
return ( area && area->has_changes ) ? true : false;
}
//----------------------------------------------------------------------
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inline void FVTerm::markAsPrinted (uInt pos, uInt line)
{
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// Marks a character as printed
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vterm->data[line * uInt(vterm->width) + pos].attr.bit.printed = true;
}
//----------------------------------------------------------------------
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inline void FVTerm::markAsPrinted (uInt from, uInt to, uInt line)
{
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// Marks characters in the specified range [from .. to] as printed
for (uInt x = from; x <= to; x++)
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vterm->data[line * uInt(vterm->width) + x].attr.bit.printed = true;
}
//----------------------------------------------------------------------
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inline void FVTerm::newFontChanges (FChar*& next_char)
{
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// NewFont special cases
if ( ! FTerm::isNewFont() )
return;
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if ( next_char->ch == fc::LowerHalfBlock )
{
next_char->ch = fc::UpperHalfBlock;
next_char->attr.bit.reverse = true;
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}
else if ( isReverseNewFontchar(next_char->ch) )
next_char->attr.bit.reverse = true; // Show in reverse video
}
//----------------------------------------------------------------------
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inline void FVTerm::charsetChanges (FChar*& next_char)
{
const wchar_t& ch = next_char->ch;
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next_char->encoded_char = ch;
if ( FTerm::getEncoding() == fc::UTF8 )
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return;
const wchar_t ch_enc = FTerm::charEncode(ch);
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if ( ch_enc == ch )
return;
if ( ch_enc == 0 )
{
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next_char->encoded_char = wchar_t(FTerm::charEncode(ch, fc::ASCII));
return;
}
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next_char->encoded_char = ch_enc;
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if ( FTerm::getEncoding() == fc::VT100 )
next_char->attr.bit.alt_charset = true;
else if ( FTerm::getEncoding() == fc::PC )
{
next_char->attr.bit.pc_charset = true;
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if ( FTerm::isPuttyTerminal() )
return;
if ( FTerm::isXTerminal() && ch_enc < 0x20 ) // Character 0x00..0x1f
{
if ( FTerm::hasUTF8() )
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next_char->encoded_char = int(FTerm::charEncode(ch, fc::ASCII));
else
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{
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next_char->encoded_char += 0x5f;
next_char->attr.bit.alt_charset = true;
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}
}
}
}
//----------------------------------------------------------------------
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inline void FVTerm::appendCharacter (FChar*& next_char) const
{
const int term_width = vterm->width - 1;
const int term_height = vterm->height - 1;
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if ( term_pos->getX() == term_width
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&& term_pos->getY() == term_height )
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appendLowerRight (next_char);
else
appendChar (next_char);
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term_pos->x_ref()++;
}
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//----------------------------------------------------------------------
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inline void FVTerm::appendChar (FChar*& next_char) const
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{
newFontChanges (next_char);
charsetChanges (next_char);
appendAttributes (next_char);
characterFilter (next_char);
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appendOutputBuffer (next_char->encoded_char);
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}
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//----------------------------------------------------------------------
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inline void FVTerm::appendAttributes (FChar*& next_attr) const
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{
auto term_attr = &term_attribute;
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// generate attribute string for the next character
const char* attr_str = FTerm::changeAttribute (term_attr, next_attr);
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if ( attr_str )
appendOutputBuffer (attr_str);
}
//----------------------------------------------------------------------
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int FVTerm::appendLowerRight (FChar*& screen_char) const
{
const auto& SA = TCAP(fc::t_enter_am_mode);
const auto& RA = TCAP(fc::t_exit_am_mode);
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if ( ! FTermcap::automatic_right_margin )
{
appendChar (screen_char);
}
else if ( SA && RA )
{
appendOutputBuffer (RA);
appendChar (screen_char);
appendOutputBuffer (SA);
}
else
{
const auto& IC = TCAP(fc::t_parm_ich);
const auto& im = TCAP(fc::t_enter_insert_mode);
const auto& ei = TCAP(fc::t_exit_insert_mode);
const auto& ip = TCAP(fc::t_insert_padding);
const auto& ic = TCAP(fc::t_insert_character);
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const int x = int(FTerm::getColumnNumber()) - 2;
const int y = int(FTerm::getLineNumber()) - 1;
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setTermXY (x, y);
appendChar (screen_char);
term_pos->x_ref()++;
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setTermXY (x, y);
screen_char--;
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if ( IC )
{
appendOutputBuffer (FTermcap::encodeParameter(IC, 1, 0, 0, 0, 0, 0, 0, 0, 0));
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appendChar (screen_char);
}
else if ( im && ei )
{
appendOutputBuffer (im);
appendChar (screen_char);
if ( ip )
appendOutputBuffer (ip);
appendOutputBuffer (ei);
}
else if ( ic )
{
appendOutputBuffer (ic);
appendChar (screen_char);
if ( ip )
appendOutputBuffer (ip);
}
}
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return screen_char->ch;
}
//----------------------------------------------------------------------
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inline void FVTerm::characterFilter (FChar*& next_char)
{
charSubstitution& sub_map = fterm->getCharSubstitutionMap();
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if ( sub_map.find(next_char->encoded_char) != sub_map.end() )
next_char->encoded_char = sub_map[next_char->encoded_char];
}
//----------------------------------------------------------------------
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inline void FVTerm::appendOutputBuffer (const std::string& s)
{
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const char* const& c_string = s.c_str();
FTermcap::paddingPrint (c_string, 1, appendOutputBuffer);
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}
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//----------------------------------------------------------------------
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inline void FVTerm::appendOutputBuffer (const char s[])
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{
FTermcap::paddingPrint (s, 1, appendOutputBuffer);
}
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//----------------------------------------------------------------------
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int FVTerm::appendOutputBuffer (int ch)
{
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// append method for unicode character
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output_buffer->push(ch);
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if ( output_buffer->size() >= TERMINAL_OUTPUT_BUFFER_SIZE )
flush();
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return ch;
}
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} // namespace finalcut