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sortix--sortix/kernel/textterminal.cpp
2017-01-22 22:28:58 +01:00

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/*
* Copyright (c) 2011, 2012, 2013, 2014, 2015, 2016 Jonas 'Sortie' Termansen.
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
* textterminal.cpp
* Translates a character stream to a 2 dimensional array of characters.
*/
#include <stdio.h>
#include <string.h>
#include <wchar.h>
#include <sortix/vga.h>
#include <sortix/kernel/kernel.h>
#include <sortix/kernel/refcount.h>
#include <sortix/kernel/textbuffer.h>
#include "palette.h"
#include "textterminal.h"
namespace Sortix {
static const uint16_t DEFAULT_VGACOLOR = COLOR8_LIGHT_GREY | COLOR8_BLACK << 4;
static const unsigned int DEFAULT_FOREGROUND = 7;
static const unsigned int DEFAULT_BACKGROUND = 0;
static uint32_t ColorFromRGB(uint8_t r, uint8_t g, uint8_t b)
{
return (uint32_t) b << 0 | (uint32_t) g << 8 | (uint32_t) r << 16;
}
TextTerminal::TextTerminal(TextBufferHandle* textbufhandle)
{
memset(&ps, 0, sizeof(ps));
this->textbufhandle = textbufhandle;
this->termlock = KTHREAD_MUTEX_INITIALIZER;
Reset();
}
TextTerminal::~TextTerminal()
{
}
void TextTerminal::Reset()
{
attr = 0;
next_attr = 0;
vgacolor = DEFAULT_VGACOLOR;
fgcolor = palette[DEFAULT_FOREGROUND];
bgcolor = palette[DEFAULT_BACKGROUND];
column = line = 0;
ansisavedposx = ansisavedposy = 0;
ansimode = NONE;
TextBuffer* textbuf = textbufhandle->Acquire();
TextPos fillfrom(0, 0);
TextPos fillto(textbuf->Width()-1, textbuf->Height()-1);
TextChar fillwith(' ', vgacolor, 0, fgcolor, bgcolor);
textbuf->Fill(fillfrom, fillto, fillwith);
textbuf->SetCursorEnabled(true);
UpdateCursor(textbuf);
textbufhandle->Release(textbuf);
}
size_t TextTerminal::Print(const char* string, size_t stringlen)
{
ScopedLock lock(&termlock);
TextBuffer* textbuf = textbufhandle->Acquire();
for ( size_t i = 0; i < stringlen; i++ )
{
if ( string[i] == '\n' )
PutChar(textbuf, '\r');
PutChar(textbuf, string[i]);
}
UpdateCursor(textbuf);
textbufhandle->Release(textbuf);
return stringlen;
}
size_t TextTerminal::PrintRaw(const char* string, size_t stringlen)
{
ScopedLock lock(&termlock);
TextBuffer* textbuf = textbufhandle->Acquire();
for ( size_t i = 0; i < stringlen; i++ )
PutChar(textbuf, string[i]);
UpdateCursor(textbuf);
textbufhandle->Release(textbuf);
return stringlen;
}
size_t TextTerminal::Width()
{
ScopedLock lock(&termlock);
TextBuffer* textbuf = textbufhandle->Acquire();
size_t width = textbuf->Width();
textbufhandle->Release(textbuf);
return width;
}
size_t TextTerminal::Height()
{
ScopedLock lock(&termlock);
TextBuffer* textbuf = textbufhandle->Acquire();
size_t height = textbuf->Height();
textbufhandle->Release(textbuf);
return height;
}
void TextTerminal::GetCursor(size_t* column, size_t* row)
{
ScopedLock lock(&termlock);
*column = this->column;
*row = this->line;
}
bool TextTerminal::Sync()
{
// Reading something from the textbuffer may cause it to block while
// finishing rendering, effectively synchronizing with it.
ScopedLock lock(&termlock);
TextBuffer* textbuf = textbufhandle->Acquire();
textbuf->GetCursorPos();
textbufhandle->Release(textbuf);
return true;
}
bool TextTerminal::Invalidate()
{
ScopedLock lock(&termlock);
TextBuffer* textbuf = textbufhandle->Acquire();
textbuf->Invalidate();
textbufhandle->Release(textbuf);
return true;
}
void TextTerminal::BeginReplace()
{
kthread_mutex_lock(&termlock);
textbufhandle->BeginReplace();
}
void TextTerminal::CancelReplace()
{
textbufhandle->CancelReplace();
kthread_mutex_unlock(&termlock);
}
void TextTerminal::FinishReplace(TextBuffer* new_textbuf)
{
textbufhandle->FinishReplace(new_textbuf);
TextBuffer* textbuf = textbufhandle->Acquire();
size_t new_width = textbuf->Width();
size_t new_height = textbuf->Height();
textbufhandle->Release(textbuf);
if ( new_width < column )
column = new_width;
if ( new_height <= line )
line = new_height ? new_height - 1 : 0;
kthread_mutex_unlock(&termlock);
}
bool TextTerminal::EmergencyIsImpaired()
{
// This is during a kernel emergency where preemption has been disabled and
// this is the only thread running.
if ( !kthread_mutex_trylock(&termlock) )
return true;
kthread_mutex_unlock(&termlock);
if ( textbufhandle->EmergencyIsImpaired() )
return true;
TextBuffer* textbuf = textbufhandle->EmergencyAcquire();
bool textbuf_was_impaired = textbuf->EmergencyIsImpaired();
textbufhandle->EmergencyRelease(textbuf);
if ( textbuf_was_impaired )
return true;
return false;
}
bool TextTerminal::EmergencyRecoup()
{
// This is during a kernel emergency where preemption has been disabled and
// this is the only thread running.
if ( !kthread_mutex_trylock(&termlock) )
return false;
kthread_mutex_unlock(&termlock);
if ( textbufhandle->EmergencyIsImpaired() &&
!textbufhandle->EmergencyRecoup() )
return false;
TextBuffer* textbuf = textbufhandle->EmergencyAcquire();
bool textbuf_failure = textbuf->EmergencyIsImpaired() &&
!textbuf->EmergencyRecoup();
textbufhandle->EmergencyRelease(textbuf);
if ( !textbuf_failure )
return false;
return true;
}
void TextTerminal::EmergencyReset()
{
// This is during a kernel emergency where preemption has been disabled and
// this is the only thread running.
textbufhandle->EmergencyReset();
TextBuffer* textbuf = textbufhandle->EmergencyAcquire();
textbuf->EmergencyReset();
textbufhandle->EmergencyRelease(textbuf);
this->termlock = KTHREAD_MUTEX_INITIALIZER;
Reset();
}
size_t TextTerminal::EmergencyPrint(const char* string, size_t stringlen)
{
// This is during a kernel emergency where preemption has been disabled and
// this is the only thread running. Another thread may have been interrupted
// while it held the terminal lock. The best case is if the terminal lock is
// currently unused, which would mean everything is safe.
TextBuffer* textbuf = textbufhandle->EmergencyAcquire();
for ( size_t i = 0; i < stringlen; i++ )
{
if ( string[i] == '\n' )
PutChar(textbuf, '\r');
PutChar(textbuf, string[i]);
}
UpdateCursor(textbuf);
textbufhandle->EmergencyRelease(textbuf);
return stringlen;
}
size_t TextTerminal::EmergencyPrintRaw(const char* string, size_t stringlen)
{
// This is during a kernel emergency where preemption has been disabled and
// this is the only thread running. Another thread may have been interrupted
// while it held the terminal lock. The best case is if the terminal lock is
// currently unused, which would mean everything is safe.
TextBuffer* textbuf = textbufhandle->EmergencyAcquire();
for ( size_t i = 0; i < stringlen; i++ )
PutChar(textbuf, string[i]);
UpdateCursor(textbuf);
textbufhandle->EmergencyRelease(textbuf);
return stringlen;
}
size_t TextTerminal::EmergencyWidth()
{
// This is during a kernel emergency where preemption has been disabled and
// this is the only thread running. Another thread may have been interrupted
// while it held the terminal lock. The best case is if the terminal lock is
// currently unused, which would mean everything is safe.
TextBuffer* textbuf = textbufhandle->EmergencyAcquire();
size_t width = textbuf->Width();
textbufhandle->EmergencyRelease(textbuf);
return width;
}
size_t TextTerminal::EmergencyHeight()
{
// This is during a kernel emergency where preemption has been disabled and
// this is the only thread running. Another thread may have been interrupted
// while it held the terminal lock. The best case is if the terminal lock is
// currently unused, which would mean everything is safe.
TextBuffer* textbuf = textbufhandle->EmergencyAcquire();
size_t height = textbuf->Height();
textbufhandle->EmergencyRelease(textbuf);
return height;
}
void TextTerminal::EmergencyGetCursor(size_t* column, size_t* row)
{
// This is during a kernel emergency where preemption has been disabled and
// this is the only thread running. Another thread may have been interrupted
// while it held the terminal lock. The best case is if the terminal lock is
// currently unused, which would mean everything is safe.
*column = this->column;
*row = this->line;
}
bool TextTerminal::EmergencySync()
{
// This is during a kernel emergency where preemption has been disabled and
// this is the only thread running. There is no need to synchronize the
// text buffer here as there is no background thread rendering the console.
return true;
}
void TextTerminal::PutChar(TextBuffer* textbuf, char c)
{
if ( ansimode )
return PutAnsiEscaped(textbuf, c);
if ( mbsinit(&ps) )
{
switch ( c )
{
case '\a': return;
case '\n': Newline(textbuf); return;
case '\r': column = 0; return;
case '\b': Backspace(textbuf); return;
case '\t': Tab(textbuf); return;
case '\e': AnsiReset(); return;
case 127: return;
default: break;
}
}
wchar_t wc;
size_t result = mbrtowc(&wc, &c, 1, &ps);
if ( result == (size_t) -2 )
return;
if ( result == (size_t) -1 )
{
memset(&ps, 0, sizeof(ps));
wc = L'<EFBFBD>';
}
if ( result == (size_t) 0 )
wc = L' ';
if ( textbuf->Width() <= column )
{
column = 0;
Newline(textbuf);
}
TextPos pos(column++, line);
uint16_t tcvgacolor;
uint16_t tcattr = attr | next_attr;
uint32_t tcfgcolor;
uint32_t tcbgcolor;
if ( !(tcattr & ATTR_INVERSE) )
{
tcvgacolor = vgacolor;
tcfgcolor = fgcolor;
tcbgcolor = bgcolor;
}
else
{
tcvgacolor = (vgacolor >> 4 & 0xF) << 0 | (vgacolor >> 0 & 0xF) << 4;
tcfgcolor = bgcolor;
tcbgcolor = fgcolor;
}
TextChar tc(wc, tcvgacolor, tcattr, tcfgcolor, tcbgcolor);
textbuf->SetChar(pos, tc);
next_attr = 0;
}
void TextTerminal::UpdateCursor(TextBuffer* textbuf)
{
textbuf->SetCursorPos(TextPos(column, line));
}
void TextTerminal::Newline(TextBuffer* textbuf)
{
TextPos pos(column, line);
if ( line < textbuf->Height()-1 )
line++;
else
{
uint32_t fillfg = attr & ATTR_INVERSE ? bgcolor : fgcolor;
uint32_t fillbg = attr & ATTR_INVERSE ? fgcolor : bgcolor;
textbuf->Scroll(1, TextChar(' ', vgacolor, 0, fillfg, fillbg));
line = textbuf->Height()-1;
}
}
#if 0
static TextPos DecrementTextPos(TextBuffer* textbuf, TextPos pos)
{
if ( !pos.x && !pos.y )
return pos;
if ( !pos.x )
return TextPos(textbuf->Width(), pos.y-1);
return TextPos(pos.x-1, pos.y);
}
#endif
void TextTerminal::Backspace(TextBuffer* textbuf)
{
if ( column )
{
column--;
TextPos pos(column, line);
TextChar tc = textbuf->GetChar(pos);
next_attr = tc.attr & (ATTR_BOLD | ATTR_UNDERLINE);
if ( tc.c == L'_' )
next_attr |= ATTR_UNDERLINE;
else if ( tc.c == L' ' )
next_attr &= ~ATTR_BOLD;
else
next_attr |= ATTR_BOLD;
}
}
void TextTerminal::Tab(TextBuffer* textbuf)
{
if ( column == textbuf->Width() )
{
column = 0;
Newline(textbuf);
}
column++;
column = -(-column & ~0x7U);
size_t width = textbuf->Width();
if ( width <= column )
column = width;
}
// TODO: This implementation of the 'Ansi Escape Codes' is incomplete and hacky.
void TextTerminal::AnsiReset()
{
next_attr = 0;
ansiusedparams = 0;
ansiparams[0] = 0;
ignoresequence = false;
ansimode = CSI;
}
void TextTerminal::PutAnsiEscaped(TextBuffer* textbuf, char c)
{
// Check the proper prefixes are used.
if ( ansimode == CSI )
{
if ( c == '[' )
ansimode = COMMAND;
else if ( c == '(' || c == ')' || c == '*' || c == '+' ||
c == '-' || c == '.' || c == '/' )
ansimode = CHARSET;
// TODO: Enter and exit alternatve keypad mode.
else if ( c == '=' || c == '>' )
ansimode = NONE;
else
{
ansimode = NONE;
ansimode = NONE;
}
return;
}
if ( ansimode == CHARSET )
{
ansimode = NONE;
return;
}
// Read part of a parameter.
if ( '0' <= c && c <= '9' )
{
if ( ansiusedparams == 0 )
ansiusedparams++;
unsigned val = c - '0';
ansiparams[ansiusedparams-1] *= 10;
ansiparams[ansiusedparams-1] += val;
}
// Parameter delimiter.
else if ( c == ';' )
{
if ( ansiusedparams == ANSI_NUM_PARAMS )
{
ansimode = NONE;
return;
}
ansiparams[ansiusedparams++] = 0;
}
// Left for future standardization, so discard this sequence.
else if ( c == ':' )
{
ignoresequence = true;
}
else if ( c == '>' )
{
ansimode = GREATERTHAN;
}
// Run a command.
else if ( 64 <= c && c <= 126 )
{
if ( !ignoresequence )
{
if ( ansimode == COMMAND )
RunAnsiCommand(textbuf, c);
else if ( ansimode == GREATERTHAN )
{
// Send Device Attributes
if ( c == 'c' )
{
// TODO: Send an appropriate response through the terminal.
}
else
{
ansimode = NONE;
return;
}
ansimode = NONE;
}
}
else
ansimode = NONE;
}
// Something I don't understand, and ignore intentionally.
else if ( c == '?' )
{
}
// TODO: There are some rare things that should be supported here.
// Ignore unknown input.
else
{
ansimode = NONE;
}
}
void TextTerminal::RunAnsiCommand(TextBuffer* textbuf, char c)
{
const unsigned width = (unsigned) textbuf->Width();
const unsigned height = (unsigned) textbuf->Height();
switch ( c )
{
case 'A': // Cursor up
{
unsigned dist = 0 < ansiusedparams ? ansiparams[0] : 1;
if ( line < dist )
line = 0;
else
line -= dist;
} break;
case 'B': // Cursor down
{
unsigned dist = 0 < ansiusedparams ? ansiparams[0] : 1;
if ( height <= line + dist )
line = height-1;
else
line += dist;
} break;
case 'C': // Cursor forward
{
unsigned dist = 0 < ansiusedparams ? ansiparams[0] : 1;
if ( width <= column + dist )
column = width-1;
else
column += dist;
} break;
case 'D': // Cursor backward
{
unsigned dist = 0 < ansiusedparams ? ansiparams[0] : 1;
if ( column < dist )
column = 0;
else
column -= dist;
} break;
case 'E': // Move to beginning of line N lines down.
{
column = 0;
unsigned dist = 0 < ansiusedparams ? ansiparams[0] : 1;
if ( height <= line + dist )
line = height-1;
else
line += dist;
} break;
case 'F': // Move to beginning of line N lines up.
{
column = 0;
unsigned dist = 0 < ansiusedparams ? ansiparams[0] : 1;
if ( line < dist )
line = 0;
else
line -= dist;
} break;
case 'G': // Move the cursor to column N.
{
unsigned pos = 0 < ansiusedparams ? ansiparams[0]-1 : 0;
if ( width <= pos )
pos = width-1;
column = pos;
} break;
case 'H': // Move the cursor to line Y, column X.
case 'f':
{
unsigned posy = 0 < ansiusedparams ? ansiparams[0]-1 : 0;
unsigned posx = 1 < ansiusedparams ? ansiparams[1]-1 : 0;
if ( width <= posx )
posx = width-1;
if ( height <= posy )
posy = height-1;
column = posx;
line = posy;
} break;
case 'J': // Erase parts of the screen.
{
unsigned mode = 0 < ansiusedparams ? ansiparams[0] : 0;
TextPos from(0, 0);
TextPos to(0, 0);
if ( mode == 0 ) // From cursor to end.
from = TextPos{column, line},
to = TextPos{width-1, height-1};
if ( mode == 1 ) // From start to cursor.
from = TextPos{0, 0},
to = TextPos{column, line};
if ( mode == 2 ) // Everything.
from = TextPos{0, 0},
to = TextPos{width-1, height-1};
uint32_t fillfg = attr & ATTR_INVERSE ? bgcolor : fgcolor;
uint32_t fillbg = attr & ATTR_INVERSE ? fgcolor : bgcolor;
textbuf->Fill(from, to, TextChar(' ', vgacolor, 0, fillfg, fillbg));
} break;
case 'K': // Erase parts of the current line.
{
unsigned mode = 0 < ansiusedparams ? ansiparams[0] : 0;
TextPos from(0, 0);
TextPos to(0, 0);
if ( mode == 0 ) // From cursor to end.
from = TextPos{column, line},
to = TextPos{width-1, line};
if ( mode == 1 ) // From start to cursor.
from = TextPos{0, line},
to = TextPos{column, line};
if ( mode == 2 ) // Everything.
from = TextPos{0, line},
to = TextPos{width-1, line};
uint32_t fillfg = attr & ATTR_INVERSE ? bgcolor : fgcolor;
uint32_t fillbg = attr & ATTR_INVERSE ? fgcolor : bgcolor;
textbuf->Fill(from, to, TextChar(' ', vgacolor, 0, fillfg, fillbg));
} break;
// TODO: CSI Ps M Delete Ps Line(s) (default = 1) (DL).
// (delete those lines and move the rest of the lines upwards).
// TODO: CSI Ps P Delete Ps Character(s) (default = 1) (DCH).
// (delete those characters and move the rest of the line leftward).
case 'S': // Scroll a line up and place a new line at the buttom.
{
uint32_t fillfg = attr & ATTR_INVERSE ? bgcolor : fgcolor;
uint32_t fillbg = attr & ATTR_INVERSE ? fgcolor : bgcolor;
textbuf->Scroll(1, TextChar(' ', vgacolor, 0, fillfg, fillbg));
line = height-1;
} break;
case 'T': // Scroll a line up and place a new line at the top.
{
uint32_t fillfg = attr & ATTR_INVERSE ? bgcolor : fgcolor;
uint32_t fillbg = attr & ATTR_INVERSE ? fgcolor : bgcolor;
textbuf->Scroll(-1, TextChar(' ', vgacolor, 0, fillfg, fillbg));
line = 0;
} break;
case 'd': // Move the cursor to line N.
{
unsigned posy = 0 < ansiusedparams ? ansiparams[0]-1 : 0;
if ( height <= posy )
posy = height-1;
line = posy;
} break;
case 'm': // Change how the text is rendered.
{
if ( ansiusedparams == 0 )
{
ansiparams[0] = 0;
ansiusedparams++;
}
// Convert from the ANSI color scheme to the VGA color scheme.
const unsigned conversion[8] =
{
#if 0
0, 4, 2, 6, 1, 5, 3, 7
#else
COLOR8_BLACK, COLOR8_RED, COLOR8_GREEN, COLOR8_BROWN,
COLOR8_BLUE, COLOR8_MAGENTA, COLOR8_CYAN, COLOR8_LIGHT_GREY,
#endif
};
for ( size_t i = 0; i < ansiusedparams; i++ )
{
unsigned cmd = ansiparams[i];
// Turn all attributes off.
if ( cmd == 0 )
{
vgacolor = DEFAULT_VGACOLOR;
attr = 0;
fgcolor = palette[DEFAULT_FOREGROUND];
bgcolor = palette[DEFAULT_BACKGROUND];
}
// Boldness.
else if ( cmd == 1 )
attr |= ATTR_BOLD;
// TODO: 2, Faint
// TODO: 3, Italicized
// Underline.
else if ( cmd == 4 )
attr |= ATTR_UNDERLINE;
// TODO: 5, Blink (appears as Bold)
// Inverse.
else if ( cmd == 7 )
attr |= ATTR_INVERSE;
// TODO: 8, Invisible
// TODO: 9, Crossed-out
// TODO: 21, Doubly-underlined
// Normal (neither bold nor faint).
else if ( cmd == 22 )
attr &= ~ATTR_BOLD;
// TODO: 23, Not italicized
// Not underlined.
else if ( cmd == 24 )
attr &= ~ATTR_UNDERLINE;
// TODO: 25, Steady (not blinking)
// Positive (not inverse).
else if ( cmd == 27 )
attr &= ~ATTR_INVERSE;
// TODO: 28, Visible (not hidden)
// Set text color.
else if ( 30 <= cmd && cmd <= 37 )
{
unsigned val = cmd - 30;
vgacolor &= 0xF0;
vgacolor |= conversion[val] << 0;
fgcolor = palette[val];
}
// Set text color.
else if ( cmd == 38 )
{
if ( 5 <= ansiusedparams - i && ansiparams[i+1] == 2 )
{
uint8_t r = ansiparams[i+2];
uint8_t g = ansiparams[i+3];
uint8_t b = ansiparams[i+4];
i += 5 - 1;
fgcolor = ColorFromRGB(r, g, b);
// TODO: Approxpiate vgacolor.
}
else if ( 3 <= ansiusedparams - i && ansiparams[i+1] == 5 )
{
uint8_t index = ansiparams[i+2];
i += 3 - 1;
fgcolor = palette[index];
// TODO: Approxpiate vgacolor.
}
}
// Set default text color.
else if ( cmd == 39 )
{
vgacolor &= 0xF0;
vgacolor |= DEFAULT_VGACOLOR & 0x0F;
fgcolor = palette[DEFAULT_FOREGROUND];
}
// Set background color.
else if ( 40 <= cmd && cmd <= 47 )
{
unsigned val = cmd - 40;
vgacolor &= 0x0F;
vgacolor |= conversion[val] << 4;
bgcolor = palette[val];
}
// Set background color.
else if ( cmd == 48 )
{
if ( 5 <= ansiusedparams - i && ansiparams[i+1] == 2 )
{
uint8_t r = ansiparams[i+2];
uint8_t g = ansiparams[i+3];
uint8_t b = ansiparams[i+4];
i += 5 - 1;
bgcolor = ColorFromRGB(r, g, b);
// TODO: Approxpiate vgacolor.
}
else if ( 3 <= ansiusedparams - i && ansiparams[i+1] == 5 )
{
uint8_t index = ansiparams[i+2];
i += 3 - 1;
bgcolor = palette[index];
// TODO: Approxpiate vgacolor.
}
}
// Set default background color.
else if ( cmd == 49 )
{
vgacolor &= 0x0F;
vgacolor |= DEFAULT_VGACOLOR & 0xF0;
bgcolor = palette[DEFAULT_BACKGROUND];
}
// Set text color.
else if ( 90 <= cmd && cmd <= 97 )
{
unsigned val = cmd - 90 + 8;
vgacolor &= 0xF0;
vgacolor |= (0x8 | conversion[val - 8]) << 0;
fgcolor = palette[val];
}
// Set background color.
else if ( 100 <= cmd && cmd <= 107 )
{
unsigned val = cmd - 100 + 8;
vgacolor &= 0x0F;
vgacolor |= (0x8 | conversion[val - 8]) << 4;
bgcolor = palette[val];
}
else
{
ansimode = NONE;
}
}
} break;
case 'n': // Request special information from terminal.
{
ansimode = NONE;
// TODO: Handle this code.
} break;
case 's': // Save cursor position.
{
ansisavedposx = column;
ansisavedposy = line;
} break;
case 'u': // Restore cursor position.
{
column = ansisavedposx;
line = ansisavedposy;
if ( width <= column )
column = width-1;
if ( height <= line )
line = height-1;
} break;
case 'l': // Hide cursor.
{
// TODO: This is somehow related to the special char '?'.
if ( 0 < ansiusedparams && ansiparams[0] == 25 )
textbuf->SetCursorEnabled(false);
if ( 0 < ansiusedparams && ansiparams[0] == 1049 )
{}; // TODO: Save scrollback.
} break;
case 'h': // Show cursor.
{
// TODO: This is somehow related to the special char '?'.
if ( 0 < ansiusedparams && ansiparams[0] == 25 )
textbuf->SetCursorEnabled(true);
if ( 0 < ansiusedparams && ansiparams[0] == 1049 )
{}; // TODO: Restore scrollback.
} break;
default:
{
ansimode = NONE;
}
// TODO: Handle other cases.
}
ansimode = NONE;
}
} // namespace Sortix