Server IP : 85.214.239.14 / Your IP : 3.145.89.181 Web Server : Apache/2.4.62 (Debian) System : Linux h2886529.stratoserver.net 4.9.0 #1 SMP Tue Jan 9 19:45:01 MSK 2024 x86_64 User : www-data ( 33) PHP Version : 7.4.18 Disable Function : pcntl_alarm,pcntl_fork,pcntl_waitpid,pcntl_wait,pcntl_wifexited,pcntl_wifstopped,pcntl_wifsignaled,pcntl_wifcontinued,pcntl_wexitstatus,pcntl_wtermsig,pcntl_wstopsig,pcntl_signal,pcntl_signal_get_handler,pcntl_signal_dispatch,pcntl_get_last_error,pcntl_strerror,pcntl_sigprocmask,pcntl_sigwaitinfo,pcntl_sigtimedwait,pcntl_exec,pcntl_getpriority,pcntl_setpriority,pcntl_async_signals,pcntl_unshare, MySQL : OFF | cURL : OFF | WGET : ON | Perl : ON | Python : ON | Sudo : ON | Pkexec : OFF Directory : /proc/3/root/usr/share/doc/re2c/examples/rust/conditions/ |
Upload File : |
/* Generated by re2c */ // re2rust $INPUT -o $OUTPUT // Store u32 number in u64 during parsing to simplify overflow hadling. struct State<'a> { str: &'a [u8], cur: usize, mar: usize, num: u64, } const ERROR: u64 = std::u32::MAX as u64 + 1; // overflow macro_rules! maybe { // Convert the number from u64 to optional u32. ($n:expr) => { if $n < ERROR { Some($n as u32) } else { None } } } // Add digit with the given base, checking for overflow. fn add(st: &mut State, offs: u8, base: u64) { let digit = unsafe { st.str.get_unchecked(st.cur - 1) } - offs; st.num = std::cmp::min(st.num * base + digit as u64, ERROR); } fn parse_u32(s: & [u8]) -> Option<u32> { let mut st = State {str: s, cur: 0, mar: 0, num: 0}; { #[allow(unused_assignments)] let mut yych : u8 = 0; let mut yystate : usize = 0; 'yyl: loop { match yystate { 0 => { yych = unsafe {*st.str.get_unchecked(st.cur)}; st.cur += 1; match yych { 0x30 => { yystate = 2; continue 'yyl; } 0x31 ..= 0x39 => { yystate = 4; continue 'yyl; } _ => { yystate = 1; continue 'yyl; } } } 1 => { return None; } 2 => { st.mar = st.cur; yych = unsafe {*st.str.get_unchecked(st.cur)}; match yych { 0x42 | 0x62 => { st.cur += 1; yystate = 5; continue 'yyl; } 0x58 | 0x78 => { st.cur += 1; yystate = 7; continue 'yyl; } _ => { yystate = 3; continue 'yyl; } } } 3 => { return parse_oct(&mut st); } 4 => { st.cur = (st.cur as isize + -1) as usize; { return parse_dec(&mut st); } } 5 => { yych = unsafe {*st.str.get_unchecked(st.cur)}; match yych { 0x30 ..= 0x31 => { st.cur += 1; yystate = 8; continue 'yyl; } _ => { yystate = 6; continue 'yyl; } } } 6 => { st.cur = st.mar; yystate = 3; continue 'yyl; } 7 => { yych = unsafe {*st.str.get_unchecked(st.cur)}; match yych { 0x30 ..= 0x39 | 0x41 ..= 0x46 | 0x61 ..= 0x66 => { st.cur += 1; yystate = 9; continue 'yyl; } _ => { yystate = 6; continue 'yyl; } } } 8 => { st.cur = (st.cur as isize + -1) as usize; { return parse_bin(&mut st); } } 9 => { st.cur = (st.cur as isize + -1) as usize; { return parse_hex(&mut st); } } _ => { panic!("internal lexer error") } } } } } fn parse_bin(st: &mut State) -> Option<u32> { 'bin: loop { { #[allow(unused_assignments)] let mut yych : u8 = 0; let mut yystate : usize = 0; 'yyl: loop { match yystate { 0 => { yych = unsafe {*st.str.get_unchecked(st.cur)}; st.cur += 1; match yych { 0x30 ..= 0x31 => { yystate = 2; continue 'yyl; } _ => { yystate = 1; continue 'yyl; } } } 1 => { return maybe!(st.num); } 2 => { add(st, 48, 2); continue 'bin; } _ => { panic!("internal lexer error") } } } } } } fn parse_oct(st: &mut State) -> Option<u32> { 'oct: loop { { #[allow(unused_assignments)] let mut yych : u8 = 0; let mut yystate : usize = 0; 'yyl: loop { match yystate { 0 => { yych = unsafe {*st.str.get_unchecked(st.cur)}; st.cur += 1; match yych { 0x30 ..= 0x37 => { yystate = 2; continue 'yyl; } _ => { yystate = 1; continue 'yyl; } } } 1 => { return maybe!(st.num); } 2 => { add(st, 48, 8); continue 'oct; } _ => { panic!("internal lexer error") } } } } } } fn parse_dec(st: &mut State) -> Option<u32> { 'dec: loop { { #[allow(unused_assignments)] let mut yych : u8 = 0; let mut yystate : usize = 0; 'yyl: loop { match yystate { 0 => { yych = unsafe {*st.str.get_unchecked(st.cur)}; st.cur += 1; match yych { 0x30 ..= 0x39 => { yystate = 2; continue 'yyl; } _ => { yystate = 1; continue 'yyl; } } } 1 => { return maybe!(st.num); } 2 => { add(st, 48, 10); continue 'dec; } _ => { panic!("internal lexer error") } } } } } } fn parse_hex(st: &mut State) -> Option<u32> { 'hex: loop { { #[allow(unused_assignments)] let mut yych : u8 = 0; let mut yystate : usize = 0; 'yyl: loop { match yystate { 0 => { yych = unsafe {*st.str.get_unchecked(st.cur)}; st.cur += 1; match yych { 0x30 ..= 0x39 => { yystate = 2; continue 'yyl; } 0x41 ..= 0x46 => { yystate = 3; continue 'yyl; } 0x61 ..= 0x66 => { yystate = 4; continue 'yyl; } _ => { yystate = 1; continue 'yyl; } } } 1 => { return maybe!(st.num); } 2 => { add(st, 48, 16); continue 'hex; } 3 => { add(st, 55, 16); continue 'hex; } 4 => { add(st, 87, 16); continue 'hex; } _ => { panic!("internal lexer error") } } } } } } fn main() { assert_eq!(parse_u32(b"\0"), None); assert_eq!(parse_u32(b"1234567890\0"), Some(1234567890)); assert_eq!(parse_u32(b"0b1101\0"), Some(13)); assert_eq!(parse_u32(b"0x7Fe\0"), Some(2046)); assert_eq!(parse_u32(b"0644\0"), Some(420)); assert_eq!(parse_u32(b"9999999999\0"), None); }