/*********************************************************************** * ftermlinux.cpp - Contains the Linux terminal functions * * * * This file is part of the Final Cut widget toolkit * * * * Copyright 2018 Markus Gans * * * * The 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 * * the License, or (at your option) any later version. * * * * The Final Cut is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU 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 * * . * ***********************************************************************/ #include "final/fterm.h" #include "final/ftermlinux.h" #if defined(__linux__) #include "../fonts/newfont.h" #include "../fonts/unicodemap.h" #include "../fonts/vgafont.h" #endif namespace finalcut { // static class attributes #if defined(__linux__) FTermLinux::modifier_key FTermLinux::mod_key; console_font_op FTermLinux::screen_font; unimapdesc FTermLinux::screen_unicode_map; bool FTermLinux::new_font; bool FTermLinux::vga_font; bool FTermLinux::shadow_character = true; bool FTermLinux::half_block_character = true; bool FTermLinux::has_saved_palette = false; FTermDetection* FTermLinux::term_detection = nullptr; fc::linuxConsoleCursorStyle FTermLinux::linux_console_cursor_style; FTermLinux::ColorMap FTermLinux::saved_color_map; FTermLinux::ColorMap FTermLinux::cmap; int FTermLinux::framebuffer_bpp = -1; #endif // defined(__linux__) //---------------------------------------------------------------------- // class FTermLinux //---------------------------------------------------------------------- // constructors and destructor //---------------------------------------------------------------------- FTermLinux::~FTermLinux() // destructor { #if defined(__linux__) if ( screen_font.data ) delete[] screen_font.data; if ( screen_unicode_map.entries ) delete[] screen_unicode_map.entries; #endif // defined(__linux__) } // public methods of FTermLinux //---------------------------------------------------------------------- #if defined(__linux__) fc::linuxConsoleCursorStyle FTermLinux::getCursorStyle() { // Get the current set cursor style return linux_console_cursor_style; } //---------------------------------------------------------------------- char* FTermLinux::setCursorStyle ( fc::linuxConsoleCursorStyle style , bool hidden ) { // Set cursor style in linux console static char buf[16] = { }; if ( ! FTerm::isLinuxTerm() ) return buf; linux_console_cursor_style = style; if ( hidden ) return buf; std::sprintf (buf, CSI "?%dc", style); return buf; } //---------------------------------------------------------------------- void FTermLinux::setUTF8 (bool on) { if ( ! FTerm::isLinuxTerm() ) return; if ( on ) FTerm::putstring (ESC "%G"); else FTerm::putstring (ESC "%@"); std::fflush(stdout); } //---------------------------------------------------------------------- #if defined(__x86_64__) || defined(__i386) || defined(__arm__) bool FTermLinux::setPalette (FColor index, int r, int g, int b) { if ( ! FTerm::isLinuxTerm() ) return false; return setVGAPalette (index, r, g, b); } #else bool FTermLinux::setPalette (FColor, int, int, int) { return false; } #endif //---------------------------------------------------------------------- bool FTermLinux::isLinuxConsole() { // Check if it's a Linux console char arg = 0; int fd_tty = FTerm::getTTYFileDescriptor(); // get keyboard type an compare return ( isatty (fd_tty) && ioctl(fd_tty, KDGKBTYPE, &arg) == 0 && ((arg == KB_101) || (arg == KB_84)) ); } //---------------------------------------------------------------------- void FTermLinux::init() { // initialize Linux console screen_unicode_map.entries = nullptr; screen_font.data = nullptr; if ( FTerm::openConsole() == 0 ) { term_detection->setLinuxTerm (isLinuxConsole()); if ( FTerm::isLinuxTerm() ) { getUnicodeMap(); getScreenFont(); #if defined(__x86_64__) || defined(__i386) || defined(__arm__) // Enable 16 background colors if ( setBlinkAsIntensity(true) == 0 ) FTermcap::max_color = 16; else FTermcap::max_color = 8; #endif // Underline cursor setCursorStyle (fc::underscore_cursor, true); // Framebuffer color depth in bits per pixel framebuffer_bpp = getFramebuffer_bpp(); // More than 4 bits per pixel and the font uses the blink-bit if ( framebuffer_bpp >= 4 && screen_font.charcount <= 256 ) FTermcap::max_color = 16; } FTerm::detectTermSize(); FTerm::closeConsole(); } else { std::cerr << "can not open the console.\n"; std::abort(); } } //---------------------------------------------------------------------- void FTermLinux::initCharMap (uInt char_map[][fc::NUM_OF_ENCODINGS]) { uInt c1, c2, c3, c4, c5; if ( new_font || vga_font ) return; if ( screen_unicode_map.entry_ct != 0 ) { for (int i = 0; i <= fc::lastCharItem; i++ ) { bool known_unicode = false; for (uInt n = 0; n < screen_unicode_map.entry_ct; n++) { if ( char_map[i][fc::UTF8] == screen_unicode_map.entries[n].unicode ) { if ( screen_unicode_map.entries[n].fontpos < 256 ) known_unicode = true; break; } } if ( ! known_unicode ) char_map[i][fc::PC] = char_map[i][fc::ASCII]; } } c1 = fc::UpperHalfBlock; c2 = fc::LowerHalfBlock; c3 = fc::FullBlock; if ( FTerm::charEncode(c1, fc::PC) == FTerm::charEncode(c1, fc::ASCII) || FTerm::charEncode(c2, fc::PC) == FTerm::charEncode(c2, fc::ASCII) || FTerm::charEncode(c3, fc::PC) == FTerm::charEncode(c3, fc::ASCII) ) { shadow_character = false; } c4 = fc::RightHalfBlock; c5 = fc::LeftHalfBlock; if ( FTerm::charEncode(c4, fc::PC) == FTerm::charEncode(c4, fc::ASCII) || FTerm::charEncode(c5, fc::PC) == FTerm::charEncode(c5, fc::ASCII) ) { half_block_character = false; } } //---------------------------------------------------------------------- void FTermLinux::finish() { if ( FTerm::isLinuxTerm() ) { #if defined(__x86_64__) || defined(__i386) || defined(__arm__) setBlinkAsIntensity (false); #endif setCursorStyle (fc::default_cursor, false); } } //---------------------------------------------------------------------- bool FTermLinux::loadVGAFont() { vga_font = true; if ( FTerm::openConsole() == 0 ) { if ( isLinuxConsole() ) { // Set the standard vga font 8x16 int ret = setScreenFont(fc::__8x16std, 256, 8, 16); if ( ret != 0 ) vga_font = false; // unicode character mapping struct unimapdesc unimap; unimap.entry_ct = uInt16 ( sizeof(fc::unicode_cp437_pairs) / sizeof(unipair) ); unimap.entries = &fc::unicode_cp437_pairs[0]; setUnicodeMap(&unimap); } else vga_font = false; FTerm::detectTermSize(); FTerm::closeConsole(); } else vga_font = false; if ( vga_font ) shadow_character = half_block_character = true; return vga_font; } //---------------------------------------------------------------------- bool FTermLinux::loadNewFont() { new_font = true; if ( FTerm::openConsole() == 0 ) { if ( isLinuxConsole() ) { // Set the graphical font 8x16 int ret = setScreenFont(fc::__8x16graph, 256, 8, 16); if ( ret != 0 ) new_font = false; // unicode character mapping struct unimapdesc unimap; unimap.entry_ct = uInt16 ( sizeof(fc::unicode_cp437_pairs) / sizeof(unipair) ); unimap.entries = &fc::unicode_cp437_pairs[0]; setUnicodeMap(&unimap); } else new_font = false; FTerm::detectTermSize(); FTerm::closeConsole(); } else new_font = false; if ( vga_font ) shadow_character = half_block_character = true; return new_font; } //---------------------------------------------------------------------- bool FTermLinux::loadOldFont (uInt char_map[][fc::NUM_OF_ENCODINGS]) { bool retval = false; if ( FTerm::openConsole() == 0 ) { if ( isLinuxConsole() ) { if ( screen_font.data ) { int ret = setScreenFont ( screen_font.data , screen_font.charcount , screen_font.width , screen_font.height , true ); delete[] screen_font.data; screen_font.data = nullptr; if ( ret == 0 ) retval = true; } if ( screen_unicode_map.entries ) { setUnicodeMap (&screen_unicode_map); initCharMap(char_map); delete[] screen_unicode_map.entries; screen_unicode_map.entries = nullptr; } } FTerm::detectTermSize(); FTerm::closeConsole(); } if ( retval ) vga_font = new_font = false; return retval; } //---------------------------------------------------------------------- bool FTermLinux::saveColorMap() { if ( ! FTerm::isLinuxTerm() ) return false; #if defined(__x86_64__) || defined(__i386) || defined(__arm__) return saveVGAPalette(); #else return false; #endif } //---------------------------------------------------------------------- bool FTermLinux::resetColorMap() { if ( ! FTerm::isLinuxTerm() ) return false; #if defined(__x86_64__) || defined(__i386) || defined(__arm__) return resetVGAPalette(); #else return false; #endif } //---------------------------------------------------------------------- void FTermLinux::setBeep (int Hz, int ms) { if ( ! FTerm::isLinuxTerm() ) return; // range for frequency: 21-32766 if ( Hz < 21 || Hz > 32766 ) return; // range for duration: 0-1999 if ( ms < 0 || ms > 1999 ) return; FTerm::putstringf ( CSI "10;%d]" CSI "11;%d]" , Hz, ms ); std::fflush(stdout); } //---------------------------------------------------------------------- void FTermLinux::resetBeep() { if ( ! FTerm::isLinuxTerm() ) return; // default frequency: 750 Hz // default duration: 125 ms FTerm::putstring ( CSI "10;750]" CSI "11;125]" ); std::fflush(stdout); } //---------------------------------------------------------------------- char* FTermLinux::restoreCursorStyle() { // Reset to the last used Linux console cursor style return setCursorStyle (getCursorStyle(), false); } //---------------------------------------------------------------------- FKey FTermLinux::modifierKeyCorrection (const FKey& key_id) { // Get the current modifier key state modifier_key& m = getModifierKey(); if ( ! (m.shift || m.ctrl || m.alt) ) { return key_id; } else if ( m.shift && ! m.ctrl && ! m.alt ) { return shiftKeyCorrection(key_id); } else if ( ! m.shift && m.ctrl && ! m.alt ) { return ctrlKeyCorrection(key_id); } else if ( ! m.shift && ! m.ctrl && m.alt ) { return altKeyCorrection(key_id); } else if ( m.shift && m.ctrl && ! m.alt ) { return shiftCtrlKeyCorrection(key_id); } else if ( m.shift && ! m.ctrl && m.alt ) { return shiftAltKeyCorrection(key_id); } else if ( ! m.shift && m.ctrl && m.alt ) { return ctrlAltKeyCorrection(key_id); } else if ( m.shift && m.ctrl && m.alt ) { return shiftCtrlAltKeyCorrection(key_id); } return key_id; } // private methods of FTermLinux //---------------------------------------------------------------------- int FTermLinux::getFramebuffer_bpp() { int fd = -1; struct fb_var_screeninfo fb_var; struct fb_fix_screeninfo fb_fix; const char* fb = C_STR("/dev/fb/0"); if ( (fd = open(fb, O_RDWR)) < 0 ) { if ( errno != ENOENT && errno != ENOTDIR ) return -1; fb = C_STR("/dev/fb0"); if ( (fd = open(fb, O_RDWR)) < 0 ) return -1; } if ( ! ioctl(fd, FBIOGET_VSCREENINFO, &fb_var) && ! ioctl(fd, FBIOGET_FSCREENINFO, &fb_fix) ) { ::close(fd); return int(fb_var.bits_per_pixel); } else { ::close(fd); } return -1; } //---------------------------------------------------------------------- bool FTermLinux::getScreenFont() { static const std::size_t data_size = 4 * 32 * 512; struct console_font_op font; int fd_tty = FTerm::getTTYFileDescriptor(); int ret; if ( fd_tty < 0 ) return false; // initialize unused padding bytes in struct std::memset (&font, 0, sizeof(console_font_op)); font.op = KD_FONT_OP_GET; font.flags = 0; font.width = 32; font.height = 32; font.charcount = 512; // initialize with 0 try { font.data = new uChar[data_size](); } catch (const std::bad_alloc& ex) { std::cerr << bad_alloc_str << ex.what() << std::endl; return false; } // font operation ret = ioctl (fd_tty, KDFONTOP, &font); if ( ret == 0 ) { screen_font.width = font.width; screen_font.height = font.height; screen_font.charcount = font.charcount; screen_font.data = font.data; return true; } else return false; } //---------------------------------------------------------------------- bool FTermLinux::getUnicodeMap() { int ret; int fd_tty = FTerm::getTTYFileDescriptor(); if ( fd_tty < 0 ) return false; screen_unicode_map.entry_ct = 0; screen_unicode_map.entries = nullptr; // get count ret = ioctl (fd_tty, GIO_UNIMAP, &screen_unicode_map); if ( ret != 0 ) { std::size_t count = screen_unicode_map.entry_ct; if ( errno != ENOMEM || count == 0 ) return false; try { screen_unicode_map.entries = new struct unipair[count](); } catch (const std::bad_alloc& ex) { std::cerr << bad_alloc_str << ex.what() << std::endl; return false; } // get unicode-to-font mapping from kernel ret = ioctl(fd_tty, GIO_UNIMAP, &screen_unicode_map); if ( ret != 0 ) return false; } return true; } //---------------------------------------------------------------------- FTermLinux::modifier_key& FTermLinux::getModifierKey() { // Get Linux console shift state char subcode = 6; // Shift state command + return value // fill bit field with 0 std::memset (&mod_key, 0x00, sizeof(mod_key)); // TIOCLINUX, subcode = 6 if ( ioctl(0, TIOCLINUX, &subcode) >= 0 ) { if ( subcode & (1 << KG_SHIFT) ) mod_key.shift = true; if ( subcode & (1 << KG_ALTGR) ) mod_key.alt_gr = true; if ( subcode & (1 << KG_CTRL) ) mod_key.ctrl = true; if ( subcode & (1 << KG_ALT) ) mod_key.alt = true; } return mod_key; } //---------------------------------------------------------------------- int FTermLinux::setScreenFont ( uChar fontdata[], uInt count , uInt fontwidth, uInt fontheight , bool direct) { struct console_font_op font; int ret; int fd_tty = FTerm::getTTYFileDescriptor(); if ( fd_tty < 0 ) return -1; // initialize unused padding bytes in struct std::memset (&font, 0x00, sizeof(console_font_op)); font.op = KD_FONT_OP_SET; font.flags = 0; font.width = fontwidth; font.height = fontheight; font.charcount = count; if ( direct ) font.data = fontdata; else { const std::size_t bytes_per_line = font.width / 8; const std::size_t data_size = bytes_per_line * 32 * font.charcount; try { font.data = new uChar[data_size](); // initialize with 0 } catch (const std::bad_alloc& ex) { std::cerr << bad_alloc_str << ex.what() << std::endl; return -1; } for (std::size_t i = 0; i < count; i++) std::memcpy ( const_cast(font.data + bytes_per_line * 32 * i) , &fontdata[i * font.height] , font.height); } // font operation ret = ioctl (fd_tty, KDFONTOP, &font); if ( ret != 0 && errno != ENOSYS && errno != EINVAL ) { if ( ! direct ) delete[] font.data; return -1; } if ( ! direct ) delete[] font.data; if ( ret == 0 ) return 0; else return -1; } //---------------------------------------------------------------------- int FTermLinux::setUnicodeMap (struct unimapdesc* unimap) { struct unimapinit advice; int ret; int fd_tty = FTerm::getTTYFileDescriptor(); if ( fd_tty < 0 ) return -1; advice.advised_hashsize = 0; advice.advised_hashstep = 0; advice.advised_hashlevel = 0; do { // clear the unicode-to-font table ret = ioctl(fd_tty, PIO_UNIMAPCLR, &advice); if ( ret != 0 ) return -1; // put the new unicode-to-font mapping in kernel ret = ioctl(fd_tty, PIO_UNIMAP, unimap); if ( ret != 0 ) advice.advised_hashlevel++; } while ( ret != 0 && errno == ENOMEM && advice.advised_hashlevel < 100); if ( ret == 0 ) return 0; else return -1; } #if defined(__x86_64__) || defined(__i386) || defined(__arm__) //---------------------------------------------------------------------- inline uInt16 FTermLinux::getInputStatusRegisterOne() { // Gets the VGA input-status-register-1 // Miscellaneous output (read port) static const uInt16 misc_read = 0x3cc; const uInt16 io_base = ( inb(misc_read) & 0x01 ) ? 0x3d0 : 0x3b0; // 0x3ba : Input status 1 MDA (read port) // 0x3da : Input status 1 CGA (read port) return io_base + 0x0a; } //---------------------------------------------------------------------- uChar FTermLinux::readAttributeController (uChar index) { // Reads a byte from the attribute controller from a given index uChar res; // Attribute controller (write port) static const uInt16 attrib_cntlr_write = 0x3c0; // Attribute controller (read port) static const uInt16 attrib_cntlr_read = 0x3c1; const uInt16 input_status_1 = getInputStatusRegisterOne(); inb (input_status_1); // switch to index mode outb (index & 0x1f, attrib_cntlr_write); res = inb (attrib_cntlr_read); inb (input_status_1); // switch to data mode index = (index & 0x1f) | 0x20; // set bit 5 (enable display) outb (index, attrib_cntlr_write); inb (attrib_cntlr_read); return res; } //---------------------------------------------------------------------- void FTermLinux::writeAttributeController (uChar index, uChar data) { // Writes a byte from the attribute controller from a given index // Attribute controller (write port) static const uInt16 attrib_cntlr_write = 0x3c0; const uInt16 input_status_1 = getInputStatusRegisterOne(); inb (input_status_1); // switch to index mode outb (index & 0x1f, attrib_cntlr_write); outb (data, attrib_cntlr_write); inb (input_status_1); // switch to data mode index = (index & 0x1f) | 0x20; // set bit 5 (enable display) outb (index, attrib_cntlr_write); outb (data, attrib_cntlr_write); } //---------------------------------------------------------------------- inline uChar FTermLinux::getAttributeMode() { // Gets the attribute mode value from the vga attribute controller static const uChar attrib_mode = 0x10; return readAttributeController(attrib_mode); } //---------------------------------------------------------------------- inline void FTermLinux::setAttributeMode (uChar data) { // Sets the attribute mode value from the vga attribute controller static const uChar attrib_mode = 0x10; writeAttributeController (attrib_mode, data); } //---------------------------------------------------------------------- int FTermLinux::setBlinkAsIntensity (bool on) { // Uses blink-bit as background intensity. // That permits 16 colors for background int fd_tty = FTerm::getTTYFileDescriptor(); // Test if the blink-bit is used by the screen font (512 characters) if ( screen_font.charcount > 256 ) return -1; if ( getuid() != 0 ) // Direct hardware access requires root privileges return -2; if ( fd_tty < 0 ) return -1; // Enable access to VGA I/O ports (from 0x3B4 with num = 0x2C) if ( ioctl(fd_tty, KDENABIO, 0) < 0 ) return -1; // error on KDENABIO if ( on ) setAttributeMode (getAttributeMode() & 0xF7); // clear bit 3 else setAttributeMode (getAttributeMode() | 0x08); // set bit 3 // Disable access to VGA I/O ports if ( ioctl(fd_tty, KDDISABIO, 0) < 0 ) return -1; // error on KDDISABIO return 0; } //---------------------------------------------------------------------- bool FTermLinux::setVGAPalette (FColor index, int r, int g, int b) { // Set the vga color map if ( r >= 0 && r < 256 && g >= 0 && g < 256 && b >= 0 && b < 256 ) { cmap.color[index].red = uChar(r); cmap.color[index].green = uChar(g); cmap.color[index].blue = uChar(b); } if ( ioctl (0, PIO_CMAP, &cmap) ) return false; else return true; } //---------------------------------------------------------------------- bool FTermLinux::saveVGAPalette() { // Save the current vga color map if ( ioctl (0, GIO_CMAP, &saved_color_map) ) has_saved_palette = false; else has_saved_palette = true; return has_saved_palette; } //---------------------------------------------------------------------- bool FTermLinux::resetVGAPalette() { // Reset the vga color map if ( has_saved_palette ) { if ( ioctl (0, PIO_CMAP, &saved_color_map) ) return false; } else { rgb defaultColor[16] = { {0x00, 0x00, 0x00}, {0xAA, 0x00, 0x00}, {0x00, 0xAA, 0x00}, {0xAA, 0x55, 0x00}, {0x00, 0x00, 0xAA}, {0xAA, 0x00, 0xAA}, {0x00, 0xAA, 0xAA}, {0xAA, 0xAA, 0xAA}, {0x55, 0x55, 0x55}, {0xFF, 0x55, 0x55}, {0x55, 0xFF, 0x55}, {0xFF, 0xFF, 0x55}, {0x55, 0x55, 0xFF}, {0xFF, 0x55, 0xFF}, {0x55, 0xFF, 0xFF}, {0xFF, 0xFF, 0xFF} }; for (int index = 0; index < 16; index++) { cmap.color[index].red = defaultColor[index].red; cmap.color[index].green = defaultColor[index].green; cmap.color[index].blue = defaultColor[index].blue; } if ( ioctl (0, PIO_CMAP, &cmap) ) return false; } return true; } #endif // defined(__x86_64__) || defined(__i386) || defined(__arm__) //---------------------------------------------------------------------- FKey FTermLinux::shiftKeyCorrection (const FKey& key_id) { switch ( key_id ) { case fc::Fkey_up: return fc::Fkey_sr; // Shift+Up case fc::Fkey_down: return fc::Fkey_sf; // Shift+Down case fc::Fkey_left: return fc::Fkey_sleft; // Shift+Left case fc::Fkey_right: return fc::Fkey_sright; // Shift+Right case fc::Fkey_ic: return fc::Fkey_sic; // Shift+Ins case fc::Fkey_dc: return fc::Fkey_sdc; // Shift+Del case fc::Fkey_home: return fc::Fkey_shome; // Shift+Home case fc::Fkey_end: return fc::Fkey_send; // Shift+End case fc::Fkey_ppage: return fc::Fkey_sprevious; // Shift+PgUp case fc::Fkey_npage: return fc::Fkey_snext; // Shift+PgDn default: return key_id; } } //---------------------------------------------------------------------- FKey FTermLinux::ctrlKeyCorrection (const FKey& key_id) { switch ( key_id ) { case fc::Fkey_up: return fc::Fckey_up; // Ctrl+Up case fc::Fkey_down: return fc::Fckey_down; // Ctrl+Down case fc::Fkey_left: return fc::Fckey_left; // Ctrl+Left case fc::Fkey_right: return fc::Fckey_right; // Ctrl+Right case fc::Fkey_ic: return fc::Fckey_ic; // Ctrl+Ins case fc::Fkey_dc: return fc::Fckey_dc; // Ctrl+Del case fc::Fkey_home: return fc::Fckey_home; // Ctrl+Home case fc::Fkey_end: return fc::Fckey_end; // Ctrl+End case fc::Fkey_ppage: return fc::Fckey_ppage; // Ctrl+PgUp case fc::Fkey_npage: return fc::Fckey_npage; // Ctrl+PgDn default: return key_id; } } //---------------------------------------------------------------------- FKey FTermLinux::altKeyCorrection (const FKey& key_id) { switch ( key_id ) { case fc::Fkey_up: return fc::Fmkey_up; // Meta+Up case fc::Fkey_down: return fc::Fmkey_down; // Meta+Down case fc::Fkey_left: return fc::Fmkey_left; // Meta+Left case fc::Fkey_right: return fc::Fmkey_right; // Meta+Right case fc::Fkey_ic: return fc::Fmkey_ic; // Meta+Ins case fc::Fkey_dc: return fc::Fmkey_dc; // Meta+Del case fc::Fkey_home: return fc::Fmkey_home; // Meta+Home case fc::Fkey_end: return fc::Fmkey_end; // Meta+End case fc::Fkey_ppage: return fc::Fmkey_ppage; // Meta+PgUp case fc::Fkey_npage: return fc::Fmkey_npage; // Meta+PgDn default: return key_id; } } //---------------------------------------------------------------------- FKey FTermLinux::shiftCtrlKeyCorrection (const FKey& key_id) { switch ( key_id ) { case fc::Fkey_up: return fc::Fckey_sup; // Shift+Ctrl+Up case fc::Fkey_down: return fc::Fckey_sdown; // Shift+Ctrl+Down case fc::Fkey_left: return fc::Fckey_sleft; // Shift+Ctrl+Left case fc::Fkey_right: return fc::Fckey_sright; // Shift+Ctrl+Right case fc::Fkey_ic: return fc::Fckey_sic; // Shift+Ctrl+Ins case fc::Fkey_dc: return fc::Fckey_sdc; // Shift+Ctrl+Del case fc::Fkey_home: return fc::Fckey_shome; // Shift+Ctrl+Home case fc::Fkey_end: return fc::Fckey_send; // Shift+Ctrl+End case fc::Fkey_ppage: return fc::Fckey_sppage; // Shift+Ctrl+PgUp case fc::Fkey_npage: return fc::Fckey_snpage; // Shift+Ctrl+PgDn default: return key_id; } } //---------------------------------------------------------------------- FKey FTermLinux::shiftAltKeyCorrection (const FKey& key_id) { switch ( key_id ) { case fc::Fkey_up: return fc::Fmkey_sup; // Shift+Meta+Up case fc::Fkey_down: return fc::Fmkey_sdown; // Shift+Meta+Down case fc::Fkey_left: return fc::Fmkey_sright; // Shift+Meta+Left case fc::Fkey_right: return fc::Fmkey_sleft; // Shift+Meta+Right case fc::Fkey_ic: return fc::Fmkey_sic; // Shift+Meta+Ins case fc::Fkey_dc: return fc::Fmkey_sdc; // Shift+Meta+Del case fc::Fkey_home: return fc::Fmkey_shome; // Shift+Meta+Home case fc::Fkey_end: return fc::Fmkey_send; // Shift+Meta+End case fc::Fkey_ppage: return fc::Fmkey_sppage; // Shift+Meta+PgUp case fc::Fkey_npage: return fc::Fmkey_snpage; // Shift+Meta+PgDn default: return key_id; } } //---------------------------------------------------------------------- FKey FTermLinux::ctrlAltKeyCorrection (const FKey& key_id) { switch ( key_id ) { case fc::Fkey_up: return fc::Fcmkey_up; // Ctrl+Meta+Up case fc::Fkey_down: return fc::Fcmkey_down; // Ctrl+Meta+Down case fc::Fkey_left: return fc::Fcmkey_left; // Ctrl+Meta+Left case fc::Fkey_right: return fc::Fcmkey_right; // Ctrl+Meta+Right case fc::Fkey_ic: return fc::Fcmkey_ic; // Ctrl+Meta+Ins case fc::Fkey_dc: return fc::Fcmkey_dc; // Ctrl+Meta+Del case fc::Fkey_home: return fc::Fcmkey_home; // Ctrl+Meta+Home case fc::Fkey_end: return fc::Fcmkey_end; // Ctrl+Meta+End case fc::Fkey_ppage: return fc::Fcmkey_ppage; // Ctrl+Meta+PgUp case fc::Fkey_npage: return fc::Fcmkey_npage; // Ctrl+Meta+PgDn default: return key_id; } } //---------------------------------------------------------------------- FKey FTermLinux::shiftCtrlAltKeyCorrection (const FKey& key_id) { switch ( key_id ) { case fc::Fkey_up: return fc::Fcmkey_sup; // Shift+Ctrl+Meta+Up case fc::Fkey_down: return fc::Fcmkey_sdown; // Shift+Ctrl+Meta+Down case fc::Fkey_left: return fc::Fcmkey_sleft; // Shift+Ctrl+Meta+Left case fc::Fkey_right: return fc::Fcmkey_sright; // Shift+Ctrl+Meta+Right case fc::Fkey_ic: return fc::Fcmkey_sic; // Shift+Ctrl+Meta+Ins case fc::Fkey_dc: return fc::Fcmkey_sdc; // Shift+Ctrl+Meta+Del case fc::Fkey_home: return fc::Fcmkey_shome; // Shift+Ctrl+Meta+Home case fc::Fkey_end: return fc::Fcmkey_send; // Shift+Ctrl+Meta+End case fc::Fkey_ppage: return fc::Fcmkey_sppage; // Shift+Ctrl+Meta+PgUp case fc::Fkey_npage: return fc::Fcmkey_snpage; // Shift+Ctrl+Meta+PgDn default: return key_id; } } #endif // defined(__linux__) } // namespace finalcut