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zig/std/io.zig

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const system = switch(@compileVar("os")) {
Os.linux => @import("linux.zig"),
Os.darwin => @import("darwin.zig"),
else => @compileError("Unsupported OS"),
};
const errno = @import("errno.zig");
const math = @import("math.zig");
const endian = @import("endian.zig");
const debug = @import("debug.zig");
const assert = debug.assert;
const os = @import("os.zig");
const mem = @import("mem.zig");
pub const stdin_fileno = 0;
pub const stdout_fileno = 1;
pub const stderr_fileno = 2;
pub var stdin = InStream {
.fd = stdin_fileno,
};
pub var stdout = OutStream {
.fd = stdout_fileno,
.buffer = undefined,
.index = 0,
};
pub var stderr = OutStream {
.fd = stderr_fileno,
.buffer = undefined,
.index = 0,
};
/// The function received invalid input at runtime. An Invalid error means a
/// bug in the program that called the function.
error Invalid;
/// When an Unexpected error occurs, code that emitted the error likely needs
/// a patch to recognize the unexpected case so that it can handle it and emit
/// a more specific error.
error Unexpected;
error DiskQuota;
error FileTooBig;
error Io;
error NoSpaceLeft;
error BadPerm;
error PipeFail;
error BadFd;
error IsDir;
error NotDir;
error SymLinkLoop;
error ProcessFdQuotaExceeded;
error SystemFdQuotaExceeded;
error NameTooLong;
error NoDevice;
error PathNotFound;
error NoMem;
error Unseekable;
error Eof;
const buffer_size = 4 * 1024;
const max_f64_digits = 65;
const max_int_digits = 65;
pub const OpenRead = 0b0001;
pub const OpenWrite = 0b0010;
pub const OpenCreate = 0b0100;
pub const OpenTruncate = 0b1000;
pub const OutStream = struct {
fd: i32,
buffer: [buffer_size]u8,
index: usize,
pub fn writeByte(self: &OutStream, b: u8) -> %void {
if (self.buffer.len == self.index) %return self.flush();
self.buffer[self.index] = b;
self.index += 1;
}
pub fn write(self: &OutStream, bytes: []const u8) -> %void {
var src_bytes_left = bytes.len;
var src_index: usize = 0;
const dest_space_left = self.buffer.len - self.index;
while (src_bytes_left > 0) {
const copy_amt = math.min(dest_space_left, src_bytes_left);
@memcpy(&self.buffer[self.index], &bytes[src_index], copy_amt);
self.index += copy_amt;
if (self.index == self.buffer.len) {
%return self.flush();
}
src_bytes_left -= copy_amt;
}
}
const State = enum { // TODO put inside printf function and make sure the name and debug info is correct
Start,
OpenBrace,
CloseBrace,
Hex: bool,
};
/// Calls print and then flushes the buffer.
pub fn printf(self: &OutStream, comptime format: []const u8, args: ...) -> %void {
comptime var start_index: usize = 0;
comptime var state = State.Start;
comptime var next_arg: usize = 0;
inline for (format) |c, i| {
switch (state) {
State.Start => switch (c) {
'{' => {
if (start_index < i) %return self.write(format[start_index...i]);
state = State.OpenBrace;
},
'}' => {
if (start_index < i) %return self.write(format[start_index...i]);
state = State.CloseBrace;
},
else => {},
},
State.OpenBrace => switch (c) {
'{' => {
state = State.Start;
start_index = i;
},
'}' => {
%return self.printValue(args[next_arg]);
next_arg += 1;
state = State.Start;
start_index = i + 1;
},
'x' => {
state = State.Hex { false };
},
'X' => {
state = State.Hex { true };
},
else => @compileError("Unknown format character: " ++ c),
},
State.CloseBrace => switch (c) {
'}' => {
state = State.Start;
start_index = i;
},
else => @compileError("Single '}' encountered in format string"),
},
State.Hex => |uppercase| switch (c) {
'}' => {
self.printInt(args[next_arg], 16, uppercase);
next_arg += 1;
state = State.Start;
start_index = i + 1;
},
else => @compileError("Expected '}' after 'x'/'X' in format string"),
},
}
}
comptime {
if (args.len != next_arg) {
@compileError("Unused arguments");
}
// TODO https://github.com/andrewrk/zig/issues/253
switch (state) {
State.Start => {},
else => @compileError("Incomplete format string: " ++ format),
}
}
if (start_index < format.len) {
%return self.write(format[start_index...format.len]);
}
%return self.flush();
}
pub fn printValue(self: &OutStream, value: var) -> %void {
const T = @typeOf(value);
if (@isInteger(T)) {
return self.printInt(value, 10, false);
} else if (@isFloat(T)) {
return self.printFloat(T, value);
} else if (@canImplicitCast([]const u8, value)) {
const casted_value = ([]const u8)(value);
return self.write(casted_value);
} else if (T == void) {
return self.write("void");
} else {
@compileError("Unable to print type '" ++ @typeName(T) ++ "'");
}
}
pub fn printInt(self: &OutStream, x: var, base: u8, uppercase: bool) -> %void {
if (self.index + max_int_digits >= self.buffer.len) {
%return self.flush();
}
const amt_printed = bufPrintInt(self.buffer[self.index...], x, base, uppercase);
self.index += amt_printed;
}
pub fn flush(self: &OutStream) -> %void {
while (true) {
const write_ret = system.write(self.fd, &self.buffer[0], self.index);
const write_err = system.getErrno(write_ret);
if (write_err > 0) {
return switch (write_err) {
errno.EINTR => continue,
errno.EINVAL => @unreachable(),
errno.EDQUOT => error.DiskQuota,
errno.EFBIG => error.FileTooBig,
errno.EIO => error.Io,
errno.ENOSPC => error.NoSpaceLeft,
errno.EPERM => error.BadPerm,
errno.EPIPE => error.PipeFail,
else => error.Unexpected,
}
}
self.index = 0;
return;
}
}
pub fn close(self: &OutStream) {
while (true) {
const close_ret = system.close(self.fd);
const close_err = system.getErrno(close_ret);
if (close_err > 0 && close_err == errno.EINTR)
continue;
return;
}
}
};
// TODO created a BufferedInStream struct and move some of this code there
// BufferedInStream API goes on top of minimal InStream API.
pub const InStream = struct {
fd: i32,
/// Call close to clean up.
pub fn open(is: &InStream, path: []const u8) -> %void {
switch (@compileVar("os")) {
Os.linux, Os.darwin => {
while (true) {
const result = system.open(path, system.O_LARGEFILE|system.O_RDONLY, 0);
const err = system.getErrno(result);
if (err > 0) {
return switch (err) {
errno.EINTR => continue,
errno.EFAULT => @unreachable(),
errno.EINVAL => @unreachable(),
errno.EACCES => error.BadPerm,
errno.EFBIG, errno.EOVERFLOW => error.FileTooBig,
errno.EISDIR => error.IsDir,
errno.ELOOP => error.SymLinkLoop,
errno.EMFILE => error.ProcessFdQuotaExceeded,
errno.ENAMETOOLONG => error.NameTooLong,
errno.ENFILE => error.SystemFdQuotaExceeded,
errno.ENODEV => error.NoDevice,
errno.ENOENT => error.PathNotFound,
errno.ENOMEM => error.NoMem,
errno.ENOSPC => error.NoSpaceLeft,
errno.ENOTDIR => error.NotDir,
errno.EPERM => error.BadPerm,
else => error.Unexpected,
}
}
is.fd = i32(result);
return;
}
},
else => @compileError("unsupported OS"),
}
}
/// Upon success, the stream is in an uninitialized state. To continue using it,
/// you must use the open() function.
pub fn close(is: &InStream) -> %void {
switch (@compileVar("os")) {
Os.linux, Os.darwin => {
while (true) {
const close_ret = system.close(is.fd);
const close_err = system.getErrno(close_ret);
if (close_err > 0) {
return switch (close_err) {
errno.EINTR => continue,
errno.EIO => error.Io,
errno.EBADF => error.BadFd,
else => error.Unexpected,
}
}
return;
}
},
else => @compileError("unsupported OS"),
}
}
/// Returns the number of bytes read. If the number read is smaller than buf.len, then
/// the stream reached End Of File.
pub fn read(is: &InStream, buf: []u8) -> %usize {
switch (@compileVar("os")) {
Os.linux, Os.darwin => {
var index: usize = 0;
while (index < buf.len) {
const amt_read = system.read(is.fd, &buf[index], buf.len - index);
const read_err = system.getErrno(amt_read);
if (read_err > 0) {
switch (read_err) {
errno.EINTR => continue,
errno.EINVAL => @unreachable(),
errno.EFAULT => @unreachable(),
errno.EBADF => return error.BadFd,
errno.EIO => return error.Io,
else => return error.Unexpected,
}
}
if (amt_read == 0) return index;
index += amt_read;
}
return index;
},
else => @compileError("unsupported OS"),
}
}
pub fn readNoEof(is: &InStream, buf: []u8) -> %void {
const amt_read = %return is.read(buf);
if (amt_read < buf.len) return error.Eof;
}
pub fn readByte(is: &InStream) -> %u8 {
var result: [1]u8 = undefined;
%return is.readNoEof(result);
return result[0];
}
pub fn readIntLe(is: &InStream, comptime T: type) -> %T {
is.readInt(false, T)
}
pub fn readIntBe(is: &InStream, comptime T: type) -> %T {
is.readInt(true, T)
}
pub fn readInt(is: &InStream, is_be: bool, comptime T: type) -> %T {
var result: T = undefined;
const result_slice = ([]u8)((&result)[0...1]);
%return is.readNoEof(result_slice);
return endian.swapIf(!is_be, T, result);
}
pub fn readVarInt(is: &InStream, is_be: bool, comptime T: type, size: usize) -> %T {
assert(size <= @sizeOf(T));
assert(size <= 8);
var input_buf: [8]u8 = undefined;
const input_slice = input_buf[0...size];
%return is.readNoEof(input_slice);
return mem.sliceAsInt(input_slice, is_be, T);
}
pub fn seekForward(is: &InStream, amount: usize) -> %void {
switch (@compileVar("os")) {
Os.linux, Os.darwin => {
const result = system.lseek(is.fd, amount, system.SEEK_CUR);
const err = system.getErrno(result);
if (err > 0) {
return switch (err) {
errno.EBADF => error.BadFd,
errno.EINVAL => error.Unseekable,
errno.EOVERFLOW => error.Unseekable,
errno.ESPIPE => error.Unseekable,
errno.ENXIO => error.Unseekable,
else => error.Unexpected,
};
}
},
else => @compileError("unsupported OS"),
}
}
pub fn seekTo(is: &InStream, pos: usize) -> %void {
switch (@compileVar("os")) {
Os.linux, Os.darwin => {
const result = system.lseek(is.fd, pos, system.SEEK_SET);
const err = system.getErrno(result);
if (err > 0) {
return switch (err) {
errno.EBADF => error.BadFd,
errno.EINVAL => error.Unseekable,
errno.EOVERFLOW => error.Unseekable,
errno.ESPIPE => error.Unseekable,
errno.ENXIO => error.Unseekable,
else => error.Unexpected,
};
}
},
else => @compileError("unsupported OS"),
}
}
pub fn getPos(is: &InStream) -> %usize {
switch (@compileVar("os")) {
Os.linux, Os.darwin => {
const result = system.lseek(is.fd, 0, system.SEEK_CUR);
const err = system.getErrno(result);
if (err > 0) {
return switch (err) {
errno.EBADF => error.BadFd,
errno.EINVAL => error.Unseekable,
errno.EOVERFLOW => error.Unseekable,
errno.ESPIPE => error.Unseekable,
errno.ENXIO => error.Unseekable,
else => error.Unexpected,
};
}
return result;
},
else => @compileError("unsupported OS"),
}
}
pub fn getEndPos(is: &InStream) -> %usize {
var stat: system.stat = undefined;
const err = system.getErrno(system.fstat(is.fd, &stat));
if (err > 0) {
return switch (err) {
errno.EBADF => error.BadFd,
errno.ENOMEM => error.NoMem,
else => error.Unexpected,
}
}
return usize(stat.size);
}
};
pub fn parseUnsigned(comptime T: type, buf: []u8, radix: u8) -> %T {
var x: T = 0;
for (buf) |c| {
const digit = %return charToDigit(c, radix);
x = %return math.mulOverflow(T, x, radix);
x = %return math.addOverflow(T, x, digit);
}
return x;
}
error InvalidChar;
fn charToDigit(c: u8, radix: u8) -> %u8 {
const value = switch (c) {
'0' ... '9' => c - '0',
'A' ... 'Z' => c - 'A' + 10,
'a' ... 'z' => c - 'a' + 10,
else => return error.InvalidChar,
};
if (value >= radix)
return error.InvalidChar;
return value;
}
fn digitToChar(digit: u8, uppercase: bool) -> u8 {
return switch (digit) {
0 ... 9 => digit + '0',
10 ... 35 => digit + ((if (uppercase) u8('A') else u8('a')) - 10),
else => @unreachable(),
};
}
/// Guaranteed to not use more than max_int_digits
pub fn bufPrintInt(out_buf: []u8, x: var, base: u8, uppercase: bool) -> usize {
if (@typeOf(x).is_signed)
bufPrintSigned(out_buf, x, base, uppercase)
else
bufPrintUnsigned(out_buf, x, base, uppercase)
}
fn bufPrintSigned(out_buf: []u8, x: var, base: u8, uppercase: bool) -> usize {
const uint = @intType(false, @typeOf(x).bit_count);
if (x < 0) {
out_buf[0] = '-';
return 1 + bufPrintUnsigned(out_buf[1...], uint(-(x + 1)) + 1, base, uppercase);
} else {
return bufPrintUnsigned(out_buf, uint(x), base, uppercase);
}
}
fn bufPrintUnsigned(out_buf: []u8, x: var, base: u8, uppercase: bool) -> usize {
// max_int_digits accounts for the minus sign. when printing an unsigned
// number we don't need to do that.
var buf: [max_int_digits - 1]u8 = undefined;
var a = x;
var index: usize = buf.len;
while (true) {
const digit = a % base;
index -= 1;
buf[index] = digitToChar(u8(digit), uppercase);
a /= base;
if (a == 0)
break;
}
const src_buf = buf[index...];
mem.copy(u8, out_buf, src_buf);
return src_buf.len;
}
fn parseU64DigitTooBig() {
@setFnTest(this);
parseUnsigned(u64, "123a", 10) %% |err| {
if (err == error.InvalidChar) return;
@unreachable();
};
@unreachable();
}
pub fn openSelfExe(stream: &InStream) -> %void {
switch (@compileVar("os")) {
Os.linux => {
%return stream.open("/proc/self/exe");
},
Os.darwin => {
%%stderr.printf("TODO: openSelfExe on Darwin\n");
os.abort();
},
else => @compileError("unsupported os"),
}
}
fn bufPrintIntToSlice(buf: []u8, x: var, base: u8, uppercase: bool) -> []u8 {
return buf[0...bufPrintInt(buf, x, base, uppercase)];
}
fn testBufPrintInt() {
@setFnTest(this);
var buf: [max_int_digits]u8 = undefined;
assert(mem.eql(bufPrintIntToSlice(buf, i32(-12345678), 2, false), "-101111000110000101001110"));
assert(mem.eql(bufPrintIntToSlice(buf, i32(-12345678), 10, false), "-12345678"));
assert(mem.eql(bufPrintIntToSlice(buf, i32(-12345678), 16, false), "-bc614e"));
assert(mem.eql(bufPrintIntToSlice(buf, i32(-12345678), 16, true), "-BC614E"));
assert(mem.eql(bufPrintIntToSlice(buf, u32(12345678), 10, true), "12345678"));
}
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