498 lines
17 KiB
Zig
498 lines
17 KiB
Zig
const std = @import("index.zig");
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const builtin = @import("builtin");
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const Os = builtin.Os;
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const c = std.c;
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const math = std.math;
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const debug = std.debug;
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const assert = debug.assert;
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const os = std.os;
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const mem = std.mem;
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const Buffer = std.Buffer;
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const fmt = std.fmt;
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const File = std.os.File;
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const is_posix = builtin.os != builtin.Os.windows;
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const is_windows = builtin.os == builtin.Os.windows;
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const GetStdIoErrs = os.WindowsGetStdHandleErrs;
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pub fn getStdErr() GetStdIoErrs!File {
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const handle = if (is_windows)
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try os.windowsGetStdHandle(os.windows.STD_ERROR_HANDLE)
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else if (is_posix)
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os.posix.STDERR_FILENO
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else
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unreachable;
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return File.openHandle(handle);
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}
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pub fn getStdOut() GetStdIoErrs!File {
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const handle = if (is_windows)
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try os.windowsGetStdHandle(os.windows.STD_OUTPUT_HANDLE)
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else if (is_posix)
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os.posix.STDOUT_FILENO
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else
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unreachable;
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return File.openHandle(handle);
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}
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pub fn getStdIn() GetStdIoErrs!File {
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const handle = if (is_windows)
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try os.windowsGetStdHandle(os.windows.STD_INPUT_HANDLE)
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else if (is_posix)
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os.posix.STDIN_FILENO
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else
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unreachable;
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return File.openHandle(handle);
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}
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/// Implementation of InStream trait for File
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pub const FileInStream = struct {
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file: &File,
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stream: Stream,
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pub const Error = @typeOf(File.read).ReturnType.ErrorSet;
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pub const Stream = InStream(Error);
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pub fn init(file: &File) FileInStream {
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return FileInStream {
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.file = file,
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.stream = Stream {
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.readFn = readFn,
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},
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};
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}
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fn readFn(in_stream: &Stream, buffer: []u8) Error!usize {
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const self = @fieldParentPtr(FileInStream, "stream", in_stream);
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return self.file.read(buffer);
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}
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};
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/// Implementation of OutStream trait for File
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pub const FileOutStream = struct {
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file: &File,
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stream: Stream,
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pub const Error = File.WriteError;
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pub const Stream = OutStream(Error);
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pub fn init(file: &File) FileOutStream {
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return FileOutStream {
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.file = file,
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.stream = Stream {
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.writeFn = writeFn,
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},
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};
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}
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fn writeFn(out_stream: &Stream, bytes: []const u8) !void {
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const self = @fieldParentPtr(FileOutStream, "stream", out_stream);
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return self.file.write(bytes);
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}
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};
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pub fn InStream(comptime ReadError: type) type {
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return struct {
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const Self = this;
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pub const Error = ReadError;
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/// Return the number of bytes read. If the number read is smaller than buf.len, it
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/// means the stream reached the end. Reaching the end of a stream is not an error
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/// condition.
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readFn: fn(self: &Self, buffer: []u8) Error!usize,
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/// Replaces `buffer` contents by reading from the stream until it is finished.
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/// If `buffer.len()` would exceed `max_size`, `error.StreamTooLong` is returned and
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/// the contents read from the stream are lost.
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pub fn readAllBuffer(self: &Self, buffer: &Buffer, max_size: usize) !void {
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try buffer.resize(0);
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var actual_buf_len: usize = 0;
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while (true) {
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const dest_slice = buffer.toSlice()[actual_buf_len..];
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const bytes_read = try self.readFn(self, dest_slice);
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actual_buf_len += bytes_read;
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if (bytes_read != dest_slice.len) {
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buffer.shrink(actual_buf_len);
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return;
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}
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const new_buf_size = math.min(max_size, actual_buf_len + os.page_size);
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if (new_buf_size == actual_buf_len)
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return error.StreamTooLong;
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try buffer.resize(new_buf_size);
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}
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}
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/// Allocates enough memory to hold all the contents of the stream. If the allocated
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/// memory would be greater than `max_size`, returns `error.StreamTooLong`.
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/// Caller owns returned memory.
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/// If this function returns an error, the contents from the stream read so far are lost.
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pub fn readAllAlloc(self: &Self, allocator: &mem.Allocator, max_size: usize) ![]u8 {
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var buf = Buffer.initNull(allocator);
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defer buf.deinit();
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try self.readAllBuffer(&buf, max_size);
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return buf.toOwnedSlice();
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}
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/// Replaces `buffer` contents by reading from the stream until `delimiter` is found.
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/// Does not include the delimiter in the result.
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/// If `buffer.len()` would exceed `max_size`, `error.StreamTooLong` is returned and the contents
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/// read from the stream so far are lost.
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pub fn readUntilDelimiterBuffer(self: &Self, buffer: &Buffer, delimiter: u8, max_size: usize) !void {
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try buffer.resize(0);
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while (true) {
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var byte: u8 = try self.readByte();
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if (byte == delimiter) {
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return;
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}
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if (buffer.len() == max_size) {
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return error.StreamTooLong;
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}
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try buffer.appendByte(byte);
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}
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}
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/// Allocates enough memory to read until `delimiter`. If the allocated
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/// memory would be greater than `max_size`, returns `error.StreamTooLong`.
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/// Caller owns returned memory.
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/// If this function returns an error, the contents from the stream read so far are lost.
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pub fn readUntilDelimiterAlloc(self: &Self, allocator: &mem.Allocator,
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delimiter: u8, max_size: usize) ![]u8
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{
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var buf = Buffer.initNull(allocator);
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defer buf.deinit();
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try self.readUntilDelimiterBuffer(&buf, delimiter, max_size);
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return buf.toOwnedSlice();
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}
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/// Returns the number of bytes read. If the number read is smaller than buf.len, it
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/// means the stream reached the end. Reaching the end of a stream is not an error
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/// condition.
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pub fn read(self: &Self, buffer: []u8) !usize {
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return self.readFn(self, buffer);
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}
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/// Same as `read` but end of stream returns `error.EndOfStream`.
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pub fn readNoEof(self: &Self, buf: []u8) !void {
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const amt_read = try self.read(buf);
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if (amt_read < buf.len) return error.EndOfStream;
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}
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/// Reads 1 byte from the stream or returns `error.EndOfStream`.
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pub fn readByte(self: &Self) !u8 {
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var result: [1]u8 = undefined;
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try self.readNoEof(result[0..]);
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return result[0];
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}
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/// Same as `readByte` except the returned byte is signed.
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pub fn readByteSigned(self: &Self) !i8 {
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return @bitCast(i8, try self.readByte());
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}
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pub fn readIntLe(self: &Self, comptime T: type) !T {
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return self.readInt(builtin.Endian.Little, T);
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}
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pub fn readIntBe(self: &Self, comptime T: type) !T {
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return self.readInt(builtin.Endian.Big, T);
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}
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pub fn readInt(self: &Self, endian: builtin.Endian, comptime T: type) !T {
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var bytes: [@sizeOf(T)]u8 = undefined;
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try self.readNoEof(bytes[0..]);
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return mem.readInt(bytes, T, endian);
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}
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pub fn readVarInt(self: &Self, endian: builtin.Endian, comptime T: type, size: usize) !T {
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assert(size <= @sizeOf(T));
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assert(size <= 8);
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var input_buf: [8]u8 = undefined;
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const input_slice = input_buf[0..size];
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try self.readNoEof(input_slice);
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return mem.readInt(input_slice, T, endian);
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}
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};
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}
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pub fn OutStream(comptime WriteError: type) type {
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return struct {
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const Self = this;
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pub const Error = WriteError;
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writeFn: fn(self: &Self, bytes: []const u8) Error!void,
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pub fn print(self: &Self, comptime format: []const u8, args: ...) !void {
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return std.fmt.format(self, Error, self.writeFn, format, args);
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}
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pub fn write(self: &Self, bytes: []const u8) !void {
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return self.writeFn(self, bytes);
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}
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pub fn writeByte(self: &Self, byte: u8) !void {
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const slice = (&byte)[0..1];
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return self.writeFn(self, slice);
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}
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pub fn writeByteNTimes(self: &Self, byte: u8, n: usize) !void {
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const slice = (&byte)[0..1];
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var i: usize = 0;
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while (i < n) : (i += 1) {
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try self.writeFn(self, slice);
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}
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}
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};
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}
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/// `path` needs to be copied in memory to add a null terminating byte, hence the allocator.
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pub fn writeFile(allocator: &mem.Allocator, path: []const u8, data: []const u8) !void {
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var file = try File.openWrite(allocator, path);
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defer file.close();
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try file.write(data);
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}
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/// On success, caller owns returned buffer.
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pub fn readFileAlloc(allocator: &mem.Allocator, path: []const u8) ![]u8 {
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var file = try File.openRead(allocator, path);
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defer file.close();
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const size = try file.getEndPos();
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const buf = try allocator.alloc(u8, size);
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errdefer allocator.free(buf);
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var adapter = FileInStream.init(&file);
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try adapter.stream.readNoEof(buf[0..size]);
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return buf;
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}
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pub fn BufferedInStream(comptime Error: type) type {
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return BufferedInStreamCustom(os.page_size, Error);
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}
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pub fn BufferedInStreamCustom(comptime buffer_size: usize, comptime Error: type) type {
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return struct {
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const Self = this;
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const Stream = InStream(Error);
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pub stream: Stream,
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unbuffered_in_stream: &Stream,
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buffer: [buffer_size]u8,
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start_index: usize,
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end_index: usize,
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pub fn init(unbuffered_in_stream: &Stream) Self {
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return Self {
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.unbuffered_in_stream = unbuffered_in_stream,
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.buffer = undefined,
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// Initialize these two fields to buffer_size so that
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// in `readFn` we treat the state as being able to read
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// more from the unbuffered stream. If we set them to 0
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// and 0, the code would think we already hit EOF.
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.start_index = buffer_size,
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.end_index = buffer_size,
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.stream = Stream {
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.readFn = readFn,
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},
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};
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}
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fn readFn(in_stream: &Stream, dest: []u8) !usize {
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const self = @fieldParentPtr(Self, "stream", in_stream);
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var dest_index: usize = 0;
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while (true) {
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const dest_space = dest.len - dest_index;
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if (dest_space == 0) {
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return dest_index;
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}
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const amt_buffered = self.end_index - self.start_index;
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if (amt_buffered == 0) {
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assert(self.end_index <= buffer_size);
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if (self.end_index == buffer_size) {
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// we can read more data from the unbuffered stream
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if (dest_space < buffer_size) {
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self.start_index = 0;
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self.end_index = try self.unbuffered_in_stream.read(self.buffer[0..]);
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} else {
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// asking for so much data that buffering is actually less efficient.
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// forward the request directly to the unbuffered stream
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const amt_read = try self.unbuffered_in_stream.read(dest[dest_index..]);
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return dest_index + amt_read;
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}
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} else {
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// reading from the unbuffered stream returned less than we asked for
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// so we cannot read any more data.
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return dest_index;
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}
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}
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const copy_amount = math.min(dest_space, amt_buffered);
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const copy_end_index = self.start_index + copy_amount;
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mem.copy(u8, dest[dest_index..], self.buffer[self.start_index..copy_end_index]);
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self.start_index = copy_end_index;
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dest_index += copy_amount;
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}
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}
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};
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}
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pub fn BufferedOutStream(comptime Error: type) type {
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return BufferedOutStreamCustom(os.page_size, Error);
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}
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pub fn BufferedOutStreamCustom(comptime buffer_size: usize, comptime OutStreamError: type) type {
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return struct {
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const Self = this;
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pub const Stream = OutStream(Error);
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pub const Error = OutStreamError;
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pub stream: Stream,
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unbuffered_out_stream: &Stream,
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buffer: [buffer_size]u8,
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index: usize,
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pub fn init(unbuffered_out_stream: &Stream) Self {
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return Self {
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.unbuffered_out_stream = unbuffered_out_stream,
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.buffer = undefined,
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.index = 0,
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.stream = Stream {
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.writeFn = writeFn,
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},
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};
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}
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pub fn flush(self: &Self) !void {
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try self.unbuffered_out_stream.write(self.buffer[0..self.index]);
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self.index = 0;
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}
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fn writeFn(out_stream: &Stream, bytes: []const u8) !void {
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const self = @fieldParentPtr(Self, "stream", out_stream);
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if (bytes.len >= self.buffer.len) {
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try self.flush();
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return self.unbuffered_out_stream.write(bytes);
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}
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var src_index: usize = 0;
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while (src_index < bytes.len) {
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const dest_space_left = self.buffer.len - self.index;
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const copy_amt = math.min(dest_space_left, bytes.len - src_index);
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mem.copy(u8, self.buffer[self.index..], bytes[src_index..src_index + copy_amt]);
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self.index += copy_amt;
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assert(self.index <= self.buffer.len);
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if (self.index == self.buffer.len) {
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try self.flush();
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}
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src_index += copy_amt;
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}
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}
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};
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}
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/// Implementation of OutStream trait for Buffer
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pub const BufferOutStream = struct {
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buffer: &Buffer,
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stream: Stream,
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pub const Error = error{OutOfMemory};
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pub const Stream = OutStream(Error);
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pub fn init(buffer: &Buffer) BufferOutStream {
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return BufferOutStream {
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.buffer = buffer,
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.stream = Stream {
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.writeFn = writeFn,
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},
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};
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}
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fn writeFn(out_stream: &Stream, bytes: []const u8) !void {
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const self = @fieldParentPtr(BufferOutStream, "stream", out_stream);
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return self.buffer.append(bytes);
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}
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};
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pub const BufferedAtomicFile = struct {
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atomic_file: os.AtomicFile,
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file_stream: FileOutStream,
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buffered_stream: BufferedOutStream(FileOutStream.Error),
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pub fn create(allocator: &mem.Allocator, dest_path: []const u8) !&BufferedAtomicFile {
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// TODO with well defined copy elision we don't need this allocation
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var self = try allocator.create(BufferedAtomicFile);
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errdefer allocator.destroy(self);
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*self = BufferedAtomicFile {
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.atomic_file = undefined,
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.file_stream = undefined,
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.buffered_stream = undefined,
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};
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self.atomic_file = try os.AtomicFile.init(allocator, dest_path, os.default_file_mode);
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errdefer self.atomic_file.deinit();
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self.file_stream = FileOutStream.init(&self.atomic_file.file);
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self.buffered_stream = BufferedOutStream(FileOutStream.Error).init(&self.file_stream.stream);
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return self;
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}
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/// always call destroy, even after successful finish()
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pub fn destroy(self: &BufferedAtomicFile) void {
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const allocator = self.atomic_file.allocator;
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self.atomic_file.deinit();
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allocator.destroy(self);
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}
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pub fn finish(self: &BufferedAtomicFile) !void {
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try self.buffered_stream.flush();
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try self.atomic_file.finish();
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}
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pub fn stream(self: &BufferedAtomicFile) &OutStream(FileOutStream.Error) {
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return &self.buffered_stream.stream;
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}
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};
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test "import io tests" {
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comptime {
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_ = @import("io_test.zig");
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}
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}
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pub fn readLine(buf: []u8) !usize {
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var stdin = getStdIn() catch return error.StdInUnavailable;
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var adapter = FileInStream.init(&stdin);
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var stream = &adapter.stream;
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var index: usize = 0;
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while (true) {
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const byte = stream.readByte() catch return error.EndOfFile;
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switch (byte) {
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'\n' => return index,
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else => {
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if (index == buf.len) return error.InputTooLong;
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buf[index] = byte;
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index += 1;
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},
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}
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}
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}
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