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#scope_file
#import "POSIX";
#import "System";
// Required to do unlocking input.
libc :: #system_library "libc";
// TODO Remote this.
cfmakeraw :: (termios: *Terminal_IO_Mode) -> void #foreign libc;
// https://codebrowser.dev/glibc/glibc/sysdeps/unix/sysv/linux/tcsetattr.c.html
tcsetattr :: (fd: s32, optional_actions: s32, termios_p : *Terminal_IO_Mode) -> s32 #foreign libc;
// https://codebrowser.dev/glibc/glibc/sysdeps/unix/sysv/linux/tcgetattr.c.html
tcgetattr :: (fd: s32, termios_p: *Terminal_IO_Mode) -> s32 #foreign libc;
// Information for the termios.h enums is platform dependent and was retrieved from:
// https://elixir.bootlin.com/glibc/latest/source/sysdeps/unix/sysv/linux/bits/termios.h
// Set Attributes Actions.
SetAttributesActions :: enum u32 {
TCSANOW :: 0; // Change immediately.
TCSADRAIN :: 1; // Change when pending output is written.
TCSAFLUSH :: 2; // Flush pending input before changing.
}
// Input modes.
Input_Modes :: enum_flags u32 {
IGNBRK :: 0000001; // Ignore break condition.
BRKINT :: 0000002; // Signal interrupt on break.
IGNPAR :: 0000004; // Ignore characters with parity errors.
PARMRK :: 0000010; // Mark parity and framing errors.
INPCK :: 0000020; // Enable input parity check.
ISTRIP :: 0000040; // Strip 8th bit off characters.
INLCR :: 0000100; // Map NL to CR on input.
IGNCR :: 0000200; // Ignore CR.
ICRNL :: 0000400; // Map CR to NL on input.
IUCLC :: 0001000; // Translate upper case input to lower case (not in POSIX).
IXON :: 0002000; // Enable start/stop output control.
IXANY :: 0004000; // Any character will restart after stop.
IXOFF :: 0010000; // Enable start/stop input control.
IMAXBEL :: 0020000; // Ring bell when input queue is full (not in POSIX).
IUTF8 :: 0040000; // Input is UTF8 (not in POSIX).
}
// Output modes.
Output_Modes :: enum_flags u32 {
OPOST :: 0000001; // Perform output processing.
OLCUC :: 0000002; // Map lowercase characters to uppercase on output (not in POSIX).
ONLCR :: 0000004; // Map NL to CR-NL on output.
OCRNL :: 0000010; // Map CR to NL.
ONOCR :: 0000020; // Discard CR's when on column 0.
ONLRET :: 0000040; // Move to column 0 on NL.
OFILL :: 0000100; // Send fill characters for delays.
OFDEL :: 0000200; // Fill is DEL.
VTDLY :: 0040000; // Select vertical-tab delays:
VT0 :: 0000000; // Vertical-tab delay type 0.
VT1 :: 0040000; // Vertical-tab delay type 1.
}
// Control modes.
Control_Modes :: enum u32 {
CS5 :: 0000000; // 5 bits per byte.
CS6 :: 0000020; // 6 bits per byte.
CS7 :: 0000040; // 7 bits per byte.
CS8 :: 0000060; // 8 bits per byte.
CSIZE :: 0000060; // Number of bits per byte (mask).
CSTOPB :: 0000100; // Two stop bits instead of one.
CREAD :: 0000200; // Enable receiver.
PARENB :: 0000400; // Parity enable.
PARODD :: 0001000; // Odd parity instead of even.
HUPCL :: 0002000; // Hang up on last close.
CLOCAL :: 0004000;
}
// Local modes.
Local_Modes :: enum_flags u32 {
ISIG :: 0000001; // Enable signals.
ICANON :: 0000002; // Do erase and kill processing.
ECHO :: 0000010; // Enable echo.
ECHOE :: 0000020; // Visual erase for ERASE.
ECHOK :: 0000040; // Echo NL after KILL.
ECHONL :: 0000100; // Echo NL even if ECHO is off.
NOFLSH :: 0000200; // Disable flush after interrupt.
TOSTOP :: 0000400; // Send SIGTTOU for background output.
IEXTEN :: 0100000; // Enable DISCARD and LNEXT.
}
// Control Characters
Control_Chars :: enum u8 {
VINTR :: 0;
VQUIT :: 1;
VERASE :: 2;
VKILL :: 3;
VEOF :: 4;
VTIME :: 5; // Time-out value (tenths of a second) [!ICANON].
VMIN :: 6; // Minimum number of bytes read at once [!ICANON].
VSWTC :: 7;
VSTART :: 8;
VSTOP :: 9;
VSUSP :: 10;
VEOL :: 11;
VREPRINT :: 12;
VDISCARD :: 13;
VWERASE :: 14;
VLNEXT :: 15;
VEOL2 :: 16;
}
// The struct termios.
Terminal_IO_Mode :: struct {
c_iflag : Input_Modes; // Input mode flags.
c_oflag : Output_Modes; // Output mode flags.
c_cflag : Control_Modes; // Control modes flags.
c_lflag : Local_Modes; // Local modes flags.
c_line : u8; // Line discipline.
c_cc : [32]Control_Chars;// Control characters.
c_ispeed : u32; // Input speed (baud rates).
c_ospeed : u32; // Output speed (baud rates).
}
initial_tio_mode: Terminal_IO_Mode;
raw_tio_mode: Terminal_IO_Mode;
#scope_export
OS_prepare_terminal :: () {
error: s32;
tcgetattr(STDIN_FILENO, *initial_tio_mode); // TODO Log on error.
raw_tio_mode = initial_tio_mode;
raw_tio_mode.c_iflag &= ~(.IGNBRK | .BRKINT | .PARMRK | .ISTRIP | .INLCR | .IGNCR | .ICRNL | .IXON);
raw_tio_mode.c_oflag &= ~(.OPOST);
raw_tio_mode.c_lflag &= ~(.ECHO | .ECHONL | .ICANON | .ISIG | .IEXTEN);
raw_tio_mode.c_cflag &= ~(.CSIZE | .PARENB);
raw_tio_mode.c_cflag |= .CS8;
raw_tio_mode.c_cc[Control_Chars.VMIN] = 0;
raw_tio_mode.c_cc[Control_Chars.VTIME] = 1;
tcsetattr(STDIN_FILENO, 0, *raw_tio_mode); // TODO Log on error.
}
OS_reset_terminal :: () {
tcsetattr(STDIN_FILENO, 0, *initial_tio_mode); // TODO Log on error.
}
OS_get_terminal_size :: () -> rows: int, columns: int {
auto_release_temp();
flush_input();
// input := talloc_string(64);
write_string(Commands.QueryWindowSizeInChars);
// input.count = OS_read_input(input.data, input.count);
sleep_milliseconds(1); //TODO WHYYYY??? GOD DAMIT THREADS...
input := get_str();
// input[0] = #char "x";
// print(">%<", xx input);
// print("#<#");
// Expected message format: [8;<r>;<c>t
// where <r> is the number of rows and <c> of columns.
assert(
input[0] == #char "\e" &&
input[1] == #char "[" &&
input[2] == #char "8",
//input[input.count-1] == #char "t",
"Query windows size in chars returned invalid response.");
parts := split(input, ";");
rows := parse_int(*parts[1]);
columns := parse_int(*parts[2]);
return rows, columns;
}
// OS_set_input_mode :: (mode: Input_Mode) {
// tio_mode: *Terminal_IO_Mode = ---;
// if mode == {
// case .HUMAN;
// tio_mode = *human_tio_mode;
// case;
// tio_mode = *cooked_tio_mode;
// }
// tcsetattr(STDIN_FILENO, 0, tio_mode);
// // TODO get_error_value_and_string :: () -> (error_code: OS_Error_Code, description: string)
// }
OS_read_input :: (buffer: *u8, bytes_to_read: s64) -> bytes_read: s64, error: bool = false, error_message: string = "" {
bytes_read := read(STDIN_FILENO, buffer, xx bytes_to_read);
if bytes_read < 0 {
error_code, error_message := get_error_value_and_string();
return -1, true, error_message;
}
return bytes_read;
}
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