211 lines
7.5 KiB
Zig
211 lines
7.5 KiB
Zig
const std = @import("std");
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const builtin = @import("builtin");
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const Allocator = std.mem.Allocator;
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const assert = std.debug.assert;
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const Index = usize;
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pub fn encode(extra: *std.ArrayList(u8), comptime T: type, data: anytype) Allocator.Error!void {
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switch (@typeInfo(T)) {
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.Type,
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.NoReturn,
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.ComptimeFloat,
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.ComptimeInt,
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.Undefined,
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.Null,
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.ErrorUnion,
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.ErrorSet,
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.Fn,
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.Opaque,
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.Frame,
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.AnyFrame,
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.EnumLiteral,
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=> @compileError("Unable to encode type " ++ @typeName(T)),
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.Void => {},
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.Bool => try encode(extra, u1, @boolToInt(data)),
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.Int => try extra.appendSlice(std.mem.asBytes(&data)),
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.Float => |info| switch (info.bits) {
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16 => try encode(extra, u16, @bitCast(u16, data)),
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32 => try encode(extra, u32, @bitCast(u32, data)),
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64 => try encode(extra, u64, @bitCast(u64, data)),
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80 => try encode(extra, u80, @bitCast(u80, data)),
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128 => try encode(extra, u128, @bitCast(u128, data)),
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else => @compileError("Unable to encode type " ++ @typeName(T)),
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},
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.Pointer => |info| {
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switch (info.size) {
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.One => {
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if (comptime canEncodeAsBytes(info.child)) {
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try extra.appendNTimes(undefined, std.mem.alignPointerOffset(extra.items.ptr + extra.items.len, info.alignment).?);
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try encode(extra, info.child, data.*);
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} else {
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@compileError("Encoding " ++ @typeName(T) ++ " would require allocation");
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}
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},
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.Slice => {
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if (comptime canEncodeAsBytes(info.child)) {
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try encode(extra, u32, @intCast(u32, data.len));
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try extra.appendNTimes(undefined, std.mem.alignPointerOffset(extra.items.ptr + extra.items.len, info.alignment).?);
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try extra.appendSlice(std.mem.sliceAsBytes(data));
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} else {
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@compileError("Encoding " ++ @typeName(T) ++ " would require allocation");
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}
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},
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.Many,
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.C,
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=> @compileError("Unable to encode type " ++ @typeName(T)),
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}
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},
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.Array => |info| {
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for (data) |item| {
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try encode(extra, info.child, item);
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}
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},
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.Struct => |info| {
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switch (info.layout) {
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.Packed,
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.Extern,
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=> return try extra.appendSlice(std.mem.asBytes(&data)),
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.Auto => {
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inline for (info.fields) |field| {
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try encode(extra, field.type, @field(data, field.name));
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}
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},
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}
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},
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.Optional => {
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try encode(extra, bool, data == null);
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if (data) |item| {
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try encode(extra, item);
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}
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},
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.Enum => |info| try encode(extra, info.tag_type, @enumToInt(data)),
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.Union => @compileError("TODO"),
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.Vector => |info| {
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const array: [info.len]info.child = data;
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try encode(extra, array);
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},
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}
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}
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pub fn decode(extra: *[]const u8, comptime T: type) T {
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return switch (@typeInfo(T)) {
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.Type,
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.NoReturn,
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.ComptimeFloat,
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.ComptimeInt,
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.Undefined,
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.Null,
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.ErrorUnion,
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.ErrorSet,
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.Fn,
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.Opaque,
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.Frame,
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.AnyFrame,
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.EnumLiteral,
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=> @compileError("Unable to decode type " ++ @typeName(T)),
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.Void => {},
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.Bool => decode(extra, u1) == 1,
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.Int => std.mem.bytesToValue(T, readArray(extra, @sizeOf(T))),
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.Float => |info| switch (info.bits) {
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16 => @bitCast(T, decode(extra, u16)),
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32 => @bitCast(T, decode(extra, u32)),
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64 => @bitCast(T, decode(extra, u64)),
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80 => @bitCast(T, decode(extra, u80)),
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128 => @bitCast(T, decode(extra, u128)),
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else => @compileError("Unable to decode type " ++ @typeName(T)),
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},
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.Pointer => |info| {
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switch (info.size) {
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.One => {
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if (comptime canEncodeAsBytes(info.child)) {
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extra.* = alignForward(extra.*, info.alignment);
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return std.mem.bytesAsValue(T, readArray(extra, @sizeOf(info.child)));
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} else {
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@compileError("Decoding " ++ @typeName(T) ++ " would require allocation");
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}
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},
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.Slice => {
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if (comptime canEncodeAsBytes(info.child)) {
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const len = decode(extra, u32);
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extra.* = alignForward(extra.*, info.alignment);
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const bytes = readBytes(extra, len * @sizeOf(info.child));
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return std.mem.bytesAsSlice(info.child, @alignCast(info.alignment, bytes));
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} else {
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@compileError("Decoding " ++ @typeName(T) ++ " would require allocation");
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}
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},
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.Many,
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.C,
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=> @compileError("Unable to decode type " ++ @typeName(T)),
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}
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},
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.Array => |info| blk: {
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var array: T = undefined;
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var i: usize = 0;
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while (i < info.len) {
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array[i] = decode(extra, info.child);
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}
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break :blk array;
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},
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.Struct => |info| {
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switch (info.layout) {
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.Packed,
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.Extern,
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=> return std.mem.bytesToValue(T, readArray(extra, @sizeOf(T))),
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.Auto => {
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var result: T = undefined;
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inline for (info.fields) |field| {
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@field(result, field.name) = decode(extra, field.type);
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}
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return result;
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},
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}
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},
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.Optional => |info| blk: {
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const is_null = decode(extra, bool);
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if (is_null) {
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break :blk null;
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} else {
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break :blk decode(extra, info.child);
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}
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},
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.Enum => |info| @intToEnum(T, decode(extra, info.tag_type)),
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.Union => @compileError("TODO"),
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.Vector => |info| decode(extra, [info.len]info.child),
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};
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}
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pub fn canEncodeAsBytes(comptime T: type) bool {
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return switch (@typeInfo(T)) {
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.Void, .Bool, .Int, .Float, .Enum, .Vector => true,
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.Array => |info| canEncodeAsBytes(info.child),
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.Struct => |info| info.layout != .Auto,
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.Union => |info| info.layout != .Auto,
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else => false,
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};
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}
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/// forward aligns `extra` until it has the given alignment
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pub fn alignForward(extra: []const u8, alignment: usize) []const u8 {
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const unaligned = @ptrToInt(extra.ptr);
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const offset = std.mem.alignForward(unaligned, alignment) - unaligned;
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const result = extra[offset..];
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std.debug.assert(std.mem.isAligned(@ptrToInt(result.ptr), alignment));
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return result;
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}
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pub fn readBytes(extra: *[]const u8, n: usize) []const u8 {
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defer extra.* = extra.*[n..];
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return extra.*[0..n];
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}
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pub fn readArray(extra: *[]const u8, comptime n: usize) *const [n]u8 {
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defer extra.* = extra.*[n..];
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return extra.*[0..n];
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}
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