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|
#include <memory>
#include <cerrno>
#include <cstdlib>
#include <cstring>
#include <array>
#include <stdexcept>
#ifdef _WIN32
#include <conio.h>
#include <windows.h>
#include <io.h>
#define isatty _isatty
#define strcasecmp _stricmp
#define strdup _strdup
#define write _write
#define STDIN_FILENO 0
#ifndef ENABLE_VIRTUAL_TERMINAL_PROCESSING
static DWORD const ENABLE_VIRTUAL_TERMINAL_PROCESSING = 4;
#endif
#include "windows.hxx"
#else /* _WIN32 */
#include <unistd.h>
#include <sys/ioctl.h>
#include <sys/select.h>
#include <fcntl.h>
#include <signal.h>
#endif /* _WIN32 */
#include "terminal.hxx"
#include "conversion.hxx"
#include "escape.hxx"
#include "replxx.hxx"
#include "util.hxx"
using namespace std;
namespace replxx {
namespace tty {
bool is_a_tty( int fd_ ) {
bool aTTY( isatty( fd_ ) != 0 );
#ifdef _WIN32
do {
if ( aTTY ) {
break;
}
HANDLE h( (HANDLE)_get_osfhandle( fd_ ) );
if ( h == INVALID_HANDLE_VALUE ) {
break;
}
DWORD st( 0 );
if ( ! GetConsoleMode( h, &st ) ) {
break;
}
aTTY = true;
} while ( false );
#endif
return ( aTTY );
}
bool in( is_a_tty( 0 ) );
bool out( is_a_tty( 1 ) );
}
#ifndef _WIN32
Terminal* _terminal_ = nullptr;
static void WindowSizeChanged( int ) {
if ( ! _terminal_ ) {
return;
}
_terminal_->notify_event( Terminal::EVENT_TYPE::RESIZE );
}
#endif
Terminal::Terminal( void )
#ifdef _WIN32
: _consoleOut( INVALID_HANDLE_VALUE )
, _consoleIn( INVALID_HANDLE_VALUE )
, _origOutMode()
, _origInMode()
, _oldDisplayAttribute()
, _inputCodePage( GetConsoleCP() )
, _outputCodePage( GetConsoleOutputCP() )
, _interrupt( INVALID_HANDLE_VALUE )
, _events()
, _empty()
#else
: _origTermios()
, _rawModeTermios()
, _interrupt()
#endif
, _rawMode( false )
, _utf8() {
#ifdef _WIN32
_interrupt = CreateEvent( nullptr, true, false, TEXT( "replxx_interrupt_event" ) );
#else
static_cast<void>( ::pipe( _interrupt ) == 0 );
#endif
}
Terminal::~Terminal( void ) {
if ( _rawMode ) {
disable_raw_mode();
}
#ifdef _WIN32
CloseHandle( _interrupt );
#else
static_cast<void>( ::close( _interrupt[0] ) == 0 );
static_cast<void>( ::close( _interrupt[1] ) == 0 );
#endif
}
void Terminal::write32( char32_t const* text32, int len32 ) {
_utf8.assign( text32, len32 );
write8( _utf8.get(), _utf8.size() );
return;
}
void Terminal::write8( char const* data_, int size_ ) {
#ifdef _WIN32
bool temporarilyEnabled( false );
if ( _consoleOut == INVALID_HANDLE_VALUE ) {
enable_out();
temporarilyEnabled = true;
}
int nWritten( win_write( _consoleOut, _autoEscape, data_, size_ ) );
if ( temporarilyEnabled ) {
disable_out();
}
#else
int nWritten( write( 1, data_, size_ ) );
#endif
if ( nWritten != size_ ) {
throw std::runtime_error( "write failed" );
}
return;
}
int Terminal::get_screen_columns( void ) {
int cols( 0 );
#ifdef _WIN32
CONSOLE_SCREEN_BUFFER_INFO inf;
GetConsoleScreenBufferInfo( _consoleOut, &inf );
cols = inf.dwSize.X;
#else
struct winsize ws;
cols = ( ioctl( 1, TIOCGWINSZ, &ws ) == -1 ) ? 80 : ws.ws_col;
#endif
// cols is 0 in certain circumstances like inside debugger, which creates
// further issues
return ( cols > 0 ) ? cols : 80;
}
int Terminal::get_screen_rows( void ) {
int rows;
#ifdef _WIN32
CONSOLE_SCREEN_BUFFER_INFO inf;
GetConsoleScreenBufferInfo( _consoleOut, &inf );
rows = 1 + inf.srWindow.Bottom - inf.srWindow.Top;
#else
struct winsize ws;
rows = (ioctl(1, TIOCGWINSZ, &ws) == -1) ? 24 : ws.ws_row;
#endif
return (rows > 0) ? rows : 24;
}
namespace {
inline int notty( void ) {
errno = ENOTTY;
return ( -1 );
}
}
void Terminal::enable_out( void ) {
#ifdef _WIN32
SetConsoleOutputCP( 65001 );
_consoleOut = GetStdHandle( STD_OUTPUT_HANDLE );
GetConsoleMode( _consoleOut, &_origOutMode );
_autoEscape = SetConsoleMode( _consoleOut, _origOutMode | ENABLE_VIRTUAL_TERMINAL_PROCESSING ) != 0;
#endif
}
void Terminal::disable_out( void ) {
#ifdef _WIN32
SetConsoleMode( _consoleOut, _origOutMode );
SetConsoleOutputCP( _outputCodePage );
_consoleOut = INVALID_HANDLE_VALUE;
_autoEscape = false;
#endif
}
void Terminal::enable_bracketed_paste( void ) {
static char const BRACK_PASTE_INIT[] = "\033[?2004h";
write8( BRACK_PASTE_INIT, sizeof ( BRACK_PASTE_INIT ) - 1 );
}
void Terminal::disable_bracketed_paste( void ) {
static char const BRACK_PASTE_DISABLE[] = "\033[?2004l";
write8( BRACK_PASTE_DISABLE, sizeof ( BRACK_PASTE_DISABLE ) - 1 );
}
int Terminal::enable_raw_mode( void ) {
if ( _rawMode ) {
return ( 0 );
}
#ifdef _WIN32
_consoleIn = GetStdHandle( STD_INPUT_HANDLE );
GetConsoleMode( _consoleIn, &_origInMode );
#else
if ( ! tty::in ) {
return ( notty() );
}
if ( tcgetattr( 0, &_origTermios ) == -1 ) {
return ( notty() );
}
_rawModeTermios = _origTermios; /* modify the original mode */
/* input modes: no break, no CR to NL, no parity check, no strip char,
* no start/stop output control. */
_rawModeTermios.c_iflag &= ~(BRKINT | ICRNL | INPCK | ISTRIP | IXON);
/* output modes - disable post processing */
// this is wrong, we don't want _rawModeTermios output, it turns newlines into straight
// linefeeds
// _rawModeTermios.c_oflag &= ~(OPOST);
/* control modes - set 8 bit chars */
_rawModeTermios.c_cflag |= (CS8);
/* local modes - echoing off, canonical off, no extended functions,
* no signal chars (^Z,^C) */
_rawModeTermios.c_lflag &= ~(ECHO | ICANON | IEXTEN | ISIG);
/* control chars - set return condition: min number of bytes and timer.
* We want read to return every single byte, without timeout. */
_rawModeTermios.c_cc[VMIN] = 1;
_rawModeTermios.c_cc[VTIME] = 0; /* 1 byte, no timer */
#endif
_rawMode = true;
if ( reset_raw_mode() < 0 ) {
_rawMode = false;
return ( notty() );
}
#ifndef _WIN32
_terminal_ = this;
#endif
return ( 0 );
}
int Terminal::reset_raw_mode( void ) {
if ( ! _rawMode ) {
return ( -1 );
}
#ifdef _WIN32
SetConsoleMode(
_consoleIn,
( _origInMode & ~( ENABLE_LINE_INPUT | ENABLE_ECHO_INPUT | ENABLE_PROCESSED_INPUT ) ) | ENABLE_QUICK_EDIT_MODE
);
SetConsoleCP( 65001 );
enable_out();
return ( 0 );
#else
/* put terminal in raw mode after flushing */
return ( tcsetattr( 0, TCSADRAIN, &_rawModeTermios ) );
#endif
}
void Terminal::disable_raw_mode(void) {
if ( ! _rawMode ) {
return;
}
#ifdef _WIN32
disable_out();
SetConsoleMode( _consoleIn, _origInMode );
SetConsoleCP( _inputCodePage );
_consoleIn = INVALID_HANDLE_VALUE;
#else
_terminal_ = nullptr;
if ( tcsetattr( 0, TCSADRAIN, &_origTermios ) == -1 ) {
return;
}
#endif
_rawMode = false;
return;
}
#ifndef _WIN32
/**
* Read a UTF-8 sequence from the non-Windows keyboard and return the Unicode
* (char32_t) character it encodes
*
* @return char32_t Unicode character
*/
char32_t read_unicode_character(void) {
static char8_t utf8String[5];
static size_t utf8Count = 0;
while (true) {
char8_t c;
/* Continue reading if interrupted by signal. */
ssize_t nread;
do {
nread = read( STDIN_FILENO, &c, 1 );
} while ((nread == -1) && (errno == EINTR));
if (nread <= 0) return 0;
if (c <= 0x7F || locale::is8BitEncoding) { // short circuit ASCII
utf8Count = 0;
return c;
} else if (utf8Count < sizeof(utf8String) - 1) {
utf8String[utf8Count++] = c;
utf8String[utf8Count] = 0;
char32_t unicodeChar[2];
int ucharCount( 0 );
ConversionResult res = copyString8to32(unicodeChar, 2, ucharCount, utf8String);
if (res == conversionOK && ucharCount) {
utf8Count = 0;
return unicodeChar[0];
}
} else {
utf8Count = 0; // this shouldn't happen: got four bytes but no UTF-8 character
}
}
}
#endif // #ifndef _WIN32
void beep() {
fprintf(stderr, "\x7"); // ctrl-G == bell/beep
fflush(stderr);
}
// replxx_read_char -- read a keystroke or keychord from the keyboard, and translate it
// into an encoded "keystroke". When convenient, extended keys are translated into their
// simpler Emacs keystrokes, so an unmodified "left arrow" becomes Ctrl-B.
//
// A return value of zero means "no input available", and a return value of -1
// means "invalid key".
//
char32_t Terminal::read_char( void ) {
char32_t c( 0 );
#ifdef _WIN32
INPUT_RECORD rec;
DWORD count;
char32_t modifierKeys = 0;
bool escSeen = false;
int highSurrogate( 0 );
while (true) {
ReadConsoleInputW( _consoleIn, &rec, 1, &count );
#if __REPLXX_DEBUG__ // helper for debugging keystrokes, display info in the debug "Output"
// window in the debugger
{
if ( rec.EventType == KEY_EVENT ) {
//if ( rec.Event.KeyEvent.uChar.UnicodeChar ) {
char buf[1024];
sprintf(
buf,
"Unicode character 0x%04X, repeat count %d, virtual keycode 0x%04X, "
"virtual scancode 0x%04X, key %s%s%s%s%s\n",
rec.Event.KeyEvent.uChar.UnicodeChar,
rec.Event.KeyEvent.wRepeatCount,
rec.Event.KeyEvent.wVirtualKeyCode,
rec.Event.KeyEvent.wVirtualScanCode,
rec.Event.KeyEvent.bKeyDown ? "down" : "up",
(rec.Event.KeyEvent.dwControlKeyState & LEFT_CTRL_PRESSED) ? " L-Ctrl" : "",
(rec.Event.KeyEvent.dwControlKeyState & RIGHT_CTRL_PRESSED) ? " R-Ctrl" : "",
(rec.Event.KeyEvent.dwControlKeyState & LEFT_ALT_PRESSED) ? " L-Alt" : "",
(rec.Event.KeyEvent.dwControlKeyState & RIGHT_ALT_PRESSED) ? " R-Alt" : ""
);
OutputDebugStringA( buf );
//}
}
}
#endif
if ( rec.EventType != KEY_EVENT ) {
continue;
}
// Windows provides for entry of characters that are not on your keyboard by sending the
// Unicode characters as a "key up" with virtual keycode 0x12 (VK_MENU == Alt key) ...
// accept these characters, otherwise only process characters on "key down"
if ( !rec.Event.KeyEvent.bKeyDown && ( rec.Event.KeyEvent.wVirtualKeyCode != VK_MENU ) ) {
continue;
}
modifierKeys = 0;
// AltGr is encoded as ( LEFT_CTRL_PRESSED | RIGHT_ALT_PRESSED ), so don't treat this
// combination as either CTRL or META we just turn off those two bits, so it is still
// possible to combine CTRL and/or META with an AltGr key by using right-Ctrl and/or
// left-Alt
DWORD const AltGr( LEFT_CTRL_PRESSED | RIGHT_ALT_PRESSED );
if ( ( rec.Event.KeyEvent.dwControlKeyState & AltGr ) == AltGr ) {
rec.Event.KeyEvent.dwControlKeyState &= ~( LEFT_CTRL_PRESSED | RIGHT_ALT_PRESSED );
}
if ( rec.Event.KeyEvent.dwControlKeyState & ( RIGHT_CTRL_PRESSED | LEFT_CTRL_PRESSED ) ) {
modifierKeys |= Replxx::KEY::BASE_CONTROL;
}
if ( rec.Event.KeyEvent.dwControlKeyState & ( RIGHT_ALT_PRESSED | LEFT_ALT_PRESSED ) ) {
modifierKeys |= Replxx::KEY::BASE_META;
}
if ( escSeen ) {
modifierKeys |= Replxx::KEY::BASE_META;
}
int key( rec.Event.KeyEvent.uChar.UnicodeChar );
if ( key == 0 ) {
if ( rec.Event.KeyEvent.dwControlKeyState & SHIFT_PRESSED ) {
modifierKeys |= Replxx::KEY::BASE_SHIFT;
}
switch ( rec.Event.KeyEvent.wVirtualKeyCode ) {
case VK_LEFT:
return modifierKeys | Replxx::KEY::LEFT;
case VK_RIGHT:
return modifierKeys | Replxx::KEY::RIGHT;
case VK_UP:
return modifierKeys | Replxx::KEY::UP;
case VK_DOWN:
return modifierKeys | Replxx::KEY::DOWN;
case VK_DELETE:
return modifierKeys | Replxx::KEY::DELETE;
case VK_HOME:
return modifierKeys | Replxx::KEY::HOME;
case VK_END:
return modifierKeys | Replxx::KEY::END;
case VK_PRIOR:
return modifierKeys | Replxx::KEY::PAGE_UP;
case VK_NEXT:
return modifierKeys | Replxx::KEY::PAGE_DOWN;
case VK_F1:
return modifierKeys | Replxx::KEY::F1;
case VK_F2:
return modifierKeys | Replxx::KEY::F2;
case VK_F3:
return modifierKeys | Replxx::KEY::F3;
case VK_F4:
return modifierKeys | Replxx::KEY::F4;
case VK_F5:
return modifierKeys | Replxx::KEY::F5;
case VK_F6:
return modifierKeys | Replxx::KEY::F6;
case VK_F7:
return modifierKeys | Replxx::KEY::F7;
case VK_F8:
return modifierKeys | Replxx::KEY::F8;
case VK_F9:
return modifierKeys | Replxx::KEY::F9;
case VK_F10:
return modifierKeys | Replxx::KEY::F10;
case VK_F11:
return modifierKeys | Replxx::KEY::F11;
case VK_F12:
return modifierKeys | Replxx::KEY::F12;
default:
continue; // in raw mode, ReadConsoleInput shows shift, ctrl - ignore them
}
} else if ( key == Replxx::KEY::ESCAPE ) { // ESC, set flag for later
escSeen = true;
continue;
} else if ( ( key >= 0xD800 ) && ( key <= 0xDBFF ) ) {
highSurrogate = key - 0xD800;
continue;
} else {
if ( ( key == 13 ) && ( rec.Event.KeyEvent.dwControlKeyState & SHIFT_PRESSED ) ) {
key = 10;
}
// we got a real character, return it
if ( ( key >= 0xDC00 ) && ( key <= 0xDFFF ) ) {
key -= 0xDC00;
key |= ( highSurrogate << 10 );
key += 0x10000;
}
if ( is_control_code( key ) ) {
key = control_to_human( key );
modifierKeys |= Replxx::KEY::BASE_CONTROL;
}
key |= modifierKeys;
highSurrogate = 0;
c = key;
break;
}
}
#else
c = read_unicode_character();
if (c == 0) {
return 0;
}
// If _DEBUG_LINUX_KEYBOARD is set, then ctrl-^ puts us into a keyboard
// debugging mode
// where we print out decimal and decoded values for whatever the "terminal"
// program
// gives us on different keystrokes. Hit ctrl-C to exit this mode.
//
#ifdef __REPLXX_DEBUG__
if (c == ctrlChar('^')) { // ctrl-^, special debug mode, prints all keys hit,
// ctrl-C to get out
printf(
"\nEntering keyboard debugging mode (on ctrl-^), press ctrl-C to exit "
"this mode\n");
while (true) {
unsigned char keys[10];
int ret = read(0, keys, 10);
if (ret <= 0) {
printf("\nret: %d\n", ret);
}
for (int i = 0; i < ret; ++i) {
char32_t key = static_cast<char32_t>(keys[i]);
char* friendlyTextPtr;
char friendlyTextBuf[10];
const char* prefixText = (key < 0x80) ? "" : "0x80+";
char32_t keyCopy = (key < 0x80) ? key : key - 0x80;
if (keyCopy >= '!' && keyCopy <= '~') { // printable
friendlyTextBuf[0] = '\'';
friendlyTextBuf[1] = keyCopy;
friendlyTextBuf[2] = '\'';
friendlyTextBuf[3] = 0;
friendlyTextPtr = friendlyTextBuf;
} else if (keyCopy == ' ') {
friendlyTextPtr = const_cast<char*>("space");
} else if (keyCopy == 27) {
friendlyTextPtr = const_cast<char*>("ESC");
} else if (keyCopy == 0) {
friendlyTextPtr = const_cast<char*>("NUL");
} else if (keyCopy == 127) {
friendlyTextPtr = const_cast<char*>("DEL");
} else {
friendlyTextBuf[0] = '^';
friendlyTextBuf[1] = control_to_human( keyCopy );
friendlyTextBuf[2] = 0;
friendlyTextPtr = friendlyTextBuf;
}
printf("%d x%02X (%s%s) ", key, key, prefixText, friendlyTextPtr);
}
printf("\x1b[1G\n"); // go to first column of new line
// drop out of this loop on ctrl-C
if (keys[0] == ctrlChar('C')) {
printf("Leaving keyboard debugging mode (on ctrl-C)\n");
fflush(stdout);
return -2;
}
}
}
#endif // __REPLXX_DEBUG__
c = EscapeSequenceProcessing::doDispatch(c);
if ( is_control_code( c ) ) {
c = Replxx::KEY::control( control_to_human( c ) );
}
#endif // #_WIN32
return ( c );
}
Terminal::EVENT_TYPE Terminal::wait_for_input( int long timeout_ ) {
#ifdef _WIN32
std::array<HANDLE, 2> handles = { _consoleIn, _interrupt };
while ( true ) {
DWORD event( WaitForMultipleObjects( static_cast<DWORD>( handles.size() ), handles.data(), false, timeout_ > 0 ? timeout_ : INFINITE ) );
switch ( event ) {
case ( WAIT_OBJECT_0 + 0 ): {
// peek events that will be skipped
INPUT_RECORD rec;
DWORD count;
PeekConsoleInputW( _consoleIn, &rec, 1, &count );
if (
( rec.EventType != KEY_EVENT )
|| ( !rec.Event.KeyEvent.bKeyDown && ( rec.Event.KeyEvent.wVirtualKeyCode != VK_MENU ) )
) {
// read the event to unsignal the handle
ReadConsoleInputW( _consoleIn, &rec, 1, &count );
continue;
} else if ( rec.EventType == KEY_EVENT ) {
int key( rec.Event.KeyEvent.uChar.UnicodeChar );
if ( key == 0 ) {
switch ( rec.Event.KeyEvent.wVirtualKeyCode ) {
case VK_LEFT:
case VK_RIGHT:
case VK_UP:
case VK_DOWN:
case VK_DELETE:
case VK_HOME:
case VK_END:
case VK_PRIOR:
case VK_NEXT:
case VK_F1:
case VK_F2:
case VK_F3:
case VK_F4:
case VK_F5:
case VK_F6:
case VK_F7:
case VK_F8:
case VK_F9:
case VK_F10:
case VK_F11:
case VK_F12:
break;
default:
ReadConsoleInputW( _consoleIn, &rec, 1, &count );
continue; // in raw mode, ReadConsoleInput shows shift, ctrl - ignore them
}
}
}
return ( EVENT_TYPE::KEY_PRESS );
}
case ( WAIT_OBJECT_0 + 1 ): {
ResetEvent( _interrupt );
if ( _events.empty() ) {
continue;
}
EVENT_TYPE eventType( _events.front() );
_events.pop_front();
return ( eventType );
}
case ( WAIT_TIMEOUT ): {
return ( EVENT_TYPE::TIMEOUT );
}
}
}
#else
fd_set fdSet;
int nfds( max( _interrupt[0], _interrupt[1] ) + 1 );
while ( true ) {
FD_ZERO( &fdSet );
FD_SET( 0, &fdSet );
FD_SET( _interrupt[0], &fdSet );
timeval tv{ timeout_ / 1000, static_cast<suseconds_t>( ( timeout_ % 1000 ) * 1000 ) };
int err( select( nfds, &fdSet, nullptr, nullptr, timeout_ > 0 ? &tv : nullptr ) );
if ( ( err == -1 ) && ( errno == EINTR ) ) {
continue;
}
if ( err == 0 ) {
return ( EVENT_TYPE::TIMEOUT );
}
if ( FD_ISSET( _interrupt[0], &fdSet ) ) {
char data( 0 );
static_cast<void>( read( _interrupt[0], &data, 1 ) == 1 );
if ( data == 'k' ) {
return ( EVENT_TYPE::KEY_PRESS );
}
if ( data == 'm' ) {
return ( EVENT_TYPE::MESSAGE );
}
if ( data == 'r' ) {
return ( EVENT_TYPE::RESIZE );
}
}
if ( FD_ISSET( 0, &fdSet ) ) {
return ( EVENT_TYPE::KEY_PRESS );
}
}
#endif
}
void Terminal::notify_event( EVENT_TYPE eventType_ ) {
#ifdef _WIN32
_events.push_back( eventType_ );
SetEvent( _interrupt );
#else
char data( ( eventType_ == EVENT_TYPE::KEY_PRESS ) ? 'k' : ( eventType_ == EVENT_TYPE::MESSAGE ? 'm' : 'r' ) );
static_cast<void>( write( _interrupt[1], &data, 1 ) == 1 );
#endif
}
/**
* Clear the screen ONLY (no redisplay of anything)
*/
void Terminal::clear_screen( CLEAR_SCREEN clearScreen_ ) {
#ifdef _WIN32
if ( _autoEscape ) {
#endif
if ( clearScreen_ == CLEAR_SCREEN::WHOLE ) {
char const clearCode[] = "\033c\033[H\033[2J\033[0m";
static_cast<void>( write(1, clearCode, sizeof ( clearCode ) - 1) >= 0 );
} else {
char const clearCode[] = "\033[J";
static_cast<void>( write(1, clearCode, sizeof ( clearCode ) - 1) >= 0 );
}
return;
#ifdef _WIN32
}
COORD coord = { 0, 0 };
CONSOLE_SCREEN_BUFFER_INFO inf;
HANDLE consoleOut( _consoleOut != INVALID_HANDLE_VALUE ? _consoleOut : GetStdHandle( STD_OUTPUT_HANDLE ) );
GetConsoleScreenBufferInfo( consoleOut, &inf );
if ( clearScreen_ == CLEAR_SCREEN::TO_END ) {
coord = inf.dwCursorPosition;
DWORD nWritten( 0 );
SHORT height( inf.srWindow.Bottom - inf.srWindow.Top );
DWORD yPos( inf.dwCursorPosition.Y - inf.srWindow.Top );
DWORD toWrite( ( height + 1 - yPos ) * inf.dwSize.X - inf.dwCursorPosition.X );
// FillConsoleOutputCharacterA( consoleOut, ' ', toWrite, coord, &nWritten );
_empty.resize( toWrite - 1, ' ' );
WriteConsoleA( consoleOut, _empty.data(), toWrite - 1, &nWritten, nullptr );
} else {
COORD scrollTarget = { 0, static_cast<SHORT>( -inf.dwSize.Y ) };
CHAR_INFO fill{ TEXT( ' ' ), inf.wAttributes };
SMALL_RECT scrollRect = { 0, 0, inf.dwSize.X, inf.dwSize.Y };
ScrollConsoleScreenBuffer( consoleOut, &scrollRect, nullptr, scrollTarget, &fill );
}
SetConsoleCursorPosition( consoleOut, coord );
#endif
}
void Terminal::jump_cursor( int xPos_, int yOffset_ ) {
#ifdef _WIN32
CONSOLE_SCREEN_BUFFER_INFO inf;
GetConsoleScreenBufferInfo( _consoleOut, &inf );
inf.dwCursorPosition.X = xPos_;
inf.dwCursorPosition.Y += yOffset_;
SetConsoleCursorPosition( _consoleOut, inf.dwCursorPosition );
#else
char seq[64];
if ( yOffset_ != 0 ) { // move the cursor up as required
snprintf( seq, sizeof seq, "\033[%d%c", abs( yOffset_ ), yOffset_ > 0 ? 'B' : 'A' );
write8( seq, strlen( seq ) );
}
// position at the end of the prompt, clear to end of screen
snprintf(
seq, sizeof seq, "\033[%dG",
xPos_ + 1 /* 1-based on VT100 */
);
write8( seq, strlen( seq ) );
#endif
}
#ifdef _WIN32
void Terminal::set_cursor_visible( bool visible_ ) {
CONSOLE_CURSOR_INFO cursorInfo;
GetConsoleCursorInfo( _consoleOut, &cursorInfo );
cursorInfo.bVisible = visible_;
SetConsoleCursorInfo( _consoleOut, &cursorInfo );
return;
}
#else
void Terminal::set_cursor_visible( bool ) {}
#endif
#ifndef _WIN32
int Terminal::read_verbatim( char32_t* buffer_, int size_ ) {
int len( 0 );
buffer_[len ++] = read_unicode_character();
int statusFlags( ::fcntl( STDIN_FILENO, F_GETFL, 0 ) );
::fcntl( STDIN_FILENO, F_SETFL, statusFlags | O_NONBLOCK );
while ( len < size_ ) {
char32_t c( read_unicode_character() );
if ( c == 0 ) {
break;
}
buffer_[len ++] = c;
}
::fcntl( STDIN_FILENO, F_SETFL, statusFlags );
return ( len );
}
int Terminal::install_window_change_handler( void ) {
struct sigaction sa;
sigemptyset(&sa.sa_mask);
sa.sa_flags = 0;
sa.sa_handler = &WindowSizeChanged;
if (sigaction(SIGWINCH, &sa, nullptr) == -1) {
return errno;
}
return 0;
}
#endif
}
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