package os import "base:runtime" import "core:strconv" import "core:unicode/utf8" OS :: ODIN_OS ARCH :: ODIN_ARCH ENDIAN :: ODIN_ENDIAN SEEK_SET :: 0 SEEK_CUR :: 1 SEEK_END :: 2 write_string :: proc(fd: Handle, str: string) -> (int, Errno) { return write(fd, transmute([]byte)str) } write_byte :: proc(fd: Handle, b: byte) -> (int, Errno) { return write(fd, []byte{b}) } write_rune :: proc(fd: Handle, r: rune) -> (int, Errno) { if r < utf8.RUNE_SELF { return write_byte(fd, byte(r)) } b, n := utf8.encode_rune(r) return write(fd, b[:n]) } write_encoded_rune :: proc(fd: Handle, r: rune) { write_byte(fd, '\'') switch r { case '\a': write_string(fd, "\\a") case '\b': write_string(fd, "\\b") case '\e': write_string(fd, "\\e") case '\f': write_string(fd, "\\f") case '\n': write_string(fd, "\\n") case '\r': write_string(fd, "\\r") case '\t': write_string(fd, "\\t") case '\v': write_string(fd, "\\v") case: if r < 32 { write_string(fd, "\\x") b: [2]byte s := strconv.append_bits(b[:], u64(r), 16, true, 64, strconv.digits, nil) switch len(s) { case 0: write_string(fd, "00") case 1: write_rune(fd, '0') case 2: write_string(fd, s) } } else { write_rune(fd, r) } } write_byte(fd, '\'') } read_at_least :: proc(fd: Handle, buf: []byte, min: int) -> (n: int, err: Errno) { if len(buf) < min { return 0, -1 } nn := max(int) for nn > 0 && n < min && err == 0 { nn, err = read(fd, buf[n:]) n += nn } if n >= min { err = 0 } return } read_full :: proc(fd: Handle, buf: []byte) -> (n: int, err: Errno) { return read_at_least(fd, buf, len(buf)) } file_size_from_path :: proc(path: string) -> i64 { fd, err := open(path, O_RDONLY, 0) if err != 0 { return -1 } defer close(fd) length: i64 if length, err = file_size(fd); err != 0 { return -1 } return length } read_entire_file_from_filename :: proc(name: string, allocator := context.allocator, loc := #caller_location) -> (data: []byte, success: bool) { context.allocator = allocator fd, err := open(name, O_RDONLY, 0) if err != 0 { return nil, false } defer close(fd) return read_entire_file_from_handle(fd, allocator, loc) } read_entire_file_from_handle :: proc(fd: Handle, allocator := context.allocator, loc := #caller_location) -> (data: []byte, success: bool) { context.allocator = allocator length: i64 err: Errno if length, err = file_size(fd); err != 0 { return nil, false } if length <= 0 { return nil, true } data = make([]byte, int(length), allocator, loc) if data == nil { return nil, false } bytes_read, read_err := read_full(fd, data) if read_err != ERROR_NONE { delete(data) return nil, false } return data[:bytes_read], true } read_entire_file :: proc { read_entire_file_from_filename, read_entire_file_from_handle, } write_entire_file :: proc(name: string, data: []byte, truncate := true) -> (success: bool) { flags: int = O_WRONLY|O_CREATE if truncate { flags |= O_TRUNC } mode: int = 0 when OS == .Linux || OS == .Darwin { // NOTE(justasd): 644 (owner read, write; group read; others read) mode = S_IRUSR | S_IWUSR | S_IRGRP | S_IROTH } fd, err := open(name, flags, mode) if err != 0 { return false } defer close(fd) _, write_err := write(fd, data) return write_err == 0 } write_ptr :: proc(fd: Handle, data: rawptr, len: int) -> (int, Errno) { return write(fd, ([^]byte)(data)[:len]) } read_ptr :: proc(fd: Handle, data: rawptr, len: int) -> (int, Errno) { return read(fd, ([^]byte)(data)[:len]) } heap_allocator_proc :: runtime.heap_allocator_proc heap_allocator :: runtime.heap_allocator heap_alloc :: runtime.heap_alloc heap_resize :: runtime.heap_resize heap_free :: runtime.heap_free processor_core_count :: proc() -> int { return _processor_core_count() }