mirror of
https://github.com/ziglang/zig.git
synced 2024-12-03 18:38:45 +00:00
f26dda2117
Most of this migration was performed automatically with `zig fmt`. There were a few exceptions which I had to manually fix: * `@alignCast` and `@addrSpaceCast` cannot be automatically rewritten * `@truncate`'s fixup is incorrect for vectors * Test cases are not formatted, and their error locations change
940 lines
33 KiB
Zig
940 lines
33 KiB
Zig
const std = @import("./std.zig");
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const assert = std.debug.assert;
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const testing = std.testing;
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const mem = std.mem;
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/// Use this to replace an unknown, unrecognized, or unrepresentable character.
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///
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/// See also: https://en.wikipedia.org/wiki/Specials_(Unicode_block)#Replacement_character
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pub const replacement_character: u21 = 0xFFFD;
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/// Returns how many bytes the UTF-8 representation would require
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/// for the given codepoint.
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pub fn utf8CodepointSequenceLength(c: u21) !u3 {
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if (c < 0x80) return @as(u3, 1);
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if (c < 0x800) return @as(u3, 2);
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if (c < 0x10000) return @as(u3, 3);
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if (c < 0x110000) return @as(u3, 4);
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return error.CodepointTooLarge;
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}
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/// Given the first byte of a UTF-8 codepoint,
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/// returns a number 1-4 indicating the total length of the codepoint in bytes.
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/// If this byte does not match the form of a UTF-8 start byte, returns Utf8InvalidStartByte.
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pub fn utf8ByteSequenceLength(first_byte: u8) !u3 {
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// The switch is optimized much better than a "smart" approach using @clz
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return switch (first_byte) {
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0b0000_0000...0b0111_1111 => 1,
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0b1100_0000...0b1101_1111 => 2,
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0b1110_0000...0b1110_1111 => 3,
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0b1111_0000...0b1111_0111 => 4,
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else => error.Utf8InvalidStartByte,
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};
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}
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/// Encodes the given codepoint into a UTF-8 byte sequence.
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/// c: the codepoint.
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/// out: the out buffer to write to. Must have a len >= utf8CodepointSequenceLength(c).
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/// Errors: if c cannot be encoded in UTF-8.
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/// Returns: the number of bytes written to out.
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pub fn utf8Encode(c: u21, out: []u8) !u3 {
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const length = try utf8CodepointSequenceLength(c);
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assert(out.len >= length);
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switch (length) {
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// The pattern for each is the same
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// - Increasing the initial shift by 6 each time
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// - Each time after the first shorten the shifted
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// value to a max of 0b111111 (63)
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1 => out[0] = @as(u8, @intCast(c)), // Can just do 0 + codepoint for initial range
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2 => {
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out[0] = @as(u8, @intCast(0b11000000 | (c >> 6)));
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out[1] = @as(u8, @intCast(0b10000000 | (c & 0b111111)));
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},
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3 => {
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if (0xd800 <= c and c <= 0xdfff) return error.Utf8CannotEncodeSurrogateHalf;
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out[0] = @as(u8, @intCast(0b11100000 | (c >> 12)));
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out[1] = @as(u8, @intCast(0b10000000 | ((c >> 6) & 0b111111)));
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out[2] = @as(u8, @intCast(0b10000000 | (c & 0b111111)));
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},
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4 => {
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out[0] = @as(u8, @intCast(0b11110000 | (c >> 18)));
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out[1] = @as(u8, @intCast(0b10000000 | ((c >> 12) & 0b111111)));
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out[2] = @as(u8, @intCast(0b10000000 | ((c >> 6) & 0b111111)));
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out[3] = @as(u8, @intCast(0b10000000 | (c & 0b111111)));
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},
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else => unreachable,
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}
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return length;
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}
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const Utf8DecodeError = Utf8Decode2Error || Utf8Decode3Error || Utf8Decode4Error;
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/// Decodes the UTF-8 codepoint encoded in the given slice of bytes.
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/// bytes.len must be equal to utf8ByteSequenceLength(bytes[0]) catch unreachable.
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/// If you already know the length at comptime, you can call one of
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/// utf8Decode2,utf8Decode3,utf8Decode4 directly instead of this function.
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pub fn utf8Decode(bytes: []const u8) Utf8DecodeError!u21 {
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return switch (bytes.len) {
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1 => @as(u21, bytes[0]),
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2 => utf8Decode2(bytes),
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3 => utf8Decode3(bytes),
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4 => utf8Decode4(bytes),
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else => unreachable,
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};
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}
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const Utf8Decode2Error = error{
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Utf8ExpectedContinuation,
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Utf8OverlongEncoding,
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};
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pub fn utf8Decode2(bytes: []const u8) Utf8Decode2Error!u21 {
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assert(bytes.len == 2);
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assert(bytes[0] & 0b11100000 == 0b11000000);
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var value: u21 = bytes[0] & 0b00011111;
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if (bytes[1] & 0b11000000 != 0b10000000) return error.Utf8ExpectedContinuation;
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value <<= 6;
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value |= bytes[1] & 0b00111111;
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if (value < 0x80) return error.Utf8OverlongEncoding;
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return value;
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}
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const Utf8Decode3Error = error{
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Utf8ExpectedContinuation,
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Utf8OverlongEncoding,
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Utf8EncodesSurrogateHalf,
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};
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pub fn utf8Decode3(bytes: []const u8) Utf8Decode3Error!u21 {
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assert(bytes.len == 3);
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assert(bytes[0] & 0b11110000 == 0b11100000);
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var value: u21 = bytes[0] & 0b00001111;
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if (bytes[1] & 0b11000000 != 0b10000000) return error.Utf8ExpectedContinuation;
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value <<= 6;
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value |= bytes[1] & 0b00111111;
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if (bytes[2] & 0b11000000 != 0b10000000) return error.Utf8ExpectedContinuation;
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value <<= 6;
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value |= bytes[2] & 0b00111111;
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if (value < 0x800) return error.Utf8OverlongEncoding;
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if (0xd800 <= value and value <= 0xdfff) return error.Utf8EncodesSurrogateHalf;
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return value;
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}
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const Utf8Decode4Error = error{
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Utf8ExpectedContinuation,
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Utf8OverlongEncoding,
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Utf8CodepointTooLarge,
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};
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pub fn utf8Decode4(bytes: []const u8) Utf8Decode4Error!u21 {
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assert(bytes.len == 4);
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assert(bytes[0] & 0b11111000 == 0b11110000);
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var value: u21 = bytes[0] & 0b00000111;
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if (bytes[1] & 0b11000000 != 0b10000000) return error.Utf8ExpectedContinuation;
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value <<= 6;
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value |= bytes[1] & 0b00111111;
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if (bytes[2] & 0b11000000 != 0b10000000) return error.Utf8ExpectedContinuation;
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value <<= 6;
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value |= bytes[2] & 0b00111111;
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if (bytes[3] & 0b11000000 != 0b10000000) return error.Utf8ExpectedContinuation;
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value <<= 6;
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value |= bytes[3] & 0b00111111;
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if (value < 0x10000) return error.Utf8OverlongEncoding;
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if (value > 0x10FFFF) return error.Utf8CodepointTooLarge;
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return value;
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}
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/// Returns true if the given unicode codepoint can be encoded in UTF-8.
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pub fn utf8ValidCodepoint(value: u21) bool {
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return switch (value) {
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0xD800...0xDFFF => false, // Surrogates range
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0x110000...0x1FFFFF => false, // Above the maximum codepoint value
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else => true,
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};
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}
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/// Returns the length of a supplied UTF-8 string literal in terms of unicode
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/// codepoints.
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pub fn utf8CountCodepoints(s: []const u8) !usize {
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var len: usize = 0;
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const N = @sizeOf(usize);
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const MASK = 0x80 * (std.math.maxInt(usize) / 0xff);
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var i: usize = 0;
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while (i < s.len) {
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// Fast path for ASCII sequences
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while (i + N <= s.len) : (i += N) {
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const v = mem.readIntNative(usize, s[i..][0..N]);
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if (v & MASK != 0) break;
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len += N;
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}
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if (i < s.len) {
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const n = try utf8ByteSequenceLength(s[i]);
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if (i + n > s.len) return error.TruncatedInput;
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switch (n) {
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1 => {}, // ASCII, no validation needed
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else => _ = try utf8Decode(s[i..][0..n]),
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}
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i += n;
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len += 1;
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}
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}
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return len;
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}
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pub fn utf8ValidateSlice(s: []const u8) bool {
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var i: usize = 0;
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while (i < s.len) {
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if (utf8ByteSequenceLength(s[i])) |cp_len| {
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if (i + cp_len > s.len) {
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return false;
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}
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if (std.meta.isError(utf8Decode(s[i .. i + cp_len]))) {
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return false;
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}
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i += cp_len;
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} else |_| {
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return false;
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}
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}
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return true;
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}
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/// Utf8View iterates the code points of a utf-8 encoded string.
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///
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/// ```
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/// var utf8 = (try std.unicode.Utf8View.init("hi there")).iterator();
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/// while (utf8.nextCodepointSlice()) |codepoint| {
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/// std.debug.print("got codepoint {}\n", .{codepoint});
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/// }
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/// ```
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pub const Utf8View = struct {
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bytes: []const u8,
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pub fn init(s: []const u8) !Utf8View {
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if (!utf8ValidateSlice(s)) {
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return error.InvalidUtf8;
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}
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return initUnchecked(s);
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}
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pub fn initUnchecked(s: []const u8) Utf8View {
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return Utf8View{ .bytes = s };
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}
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/// TODO: https://github.com/ziglang/zig/issues/425
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pub fn initComptime(comptime s: []const u8) Utf8View {
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if (comptime init(s)) |r| {
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return r;
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} else |err| switch (err) {
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error.InvalidUtf8 => {
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@compileError("invalid utf8");
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},
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}
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}
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pub fn iterator(s: Utf8View) Utf8Iterator {
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return Utf8Iterator{
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.bytes = s.bytes,
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.i = 0,
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};
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}
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};
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pub const Utf8Iterator = struct {
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bytes: []const u8,
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i: usize,
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pub fn nextCodepointSlice(it: *Utf8Iterator) ?[]const u8 {
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if (it.i >= it.bytes.len) {
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return null;
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}
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const cp_len = utf8ByteSequenceLength(it.bytes[it.i]) catch unreachable;
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it.i += cp_len;
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return it.bytes[it.i - cp_len .. it.i];
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}
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pub fn nextCodepoint(it: *Utf8Iterator) ?u21 {
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const slice = it.nextCodepointSlice() orelse return null;
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return utf8Decode(slice) catch unreachable;
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}
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/// Look ahead at the next n codepoints without advancing the iterator.
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/// If fewer than n codepoints are available, then return the remainder of the string.
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pub fn peek(it: *Utf8Iterator, n: usize) []const u8 {
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const original_i = it.i;
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defer it.i = original_i;
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var end_ix = original_i;
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var found: usize = 0;
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while (found < n) : (found += 1) {
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const next_codepoint = it.nextCodepointSlice() orelse return it.bytes[original_i..];
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end_ix += next_codepoint.len;
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}
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return it.bytes[original_i..end_ix];
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}
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};
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pub const Utf16LeIterator = struct {
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bytes: []const u8,
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i: usize,
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pub fn init(s: []const u16) Utf16LeIterator {
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return Utf16LeIterator{
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.bytes = mem.sliceAsBytes(s),
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.i = 0,
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};
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}
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pub fn nextCodepoint(it: *Utf16LeIterator) !?u21 {
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assert(it.i <= it.bytes.len);
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if (it.i == it.bytes.len) return null;
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const c0: u21 = mem.readIntLittle(u16, it.bytes[it.i..][0..2]);
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it.i += 2;
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if (c0 & ~@as(u21, 0x03ff) == 0xd800) {
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// surrogate pair
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if (it.i >= it.bytes.len) return error.DanglingSurrogateHalf;
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const c1: u21 = mem.readIntLittle(u16, it.bytes[it.i..][0..2]);
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if (c1 & ~@as(u21, 0x03ff) != 0xdc00) return error.ExpectedSecondSurrogateHalf;
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it.i += 2;
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return 0x10000 + (((c0 & 0x03ff) << 10) | (c1 & 0x03ff));
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} else if (c0 & ~@as(u21, 0x03ff) == 0xdc00) {
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return error.UnexpectedSecondSurrogateHalf;
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} else {
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return c0;
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}
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}
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};
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/// Returns the length of a supplied UTF-16 string literal in terms of unicode
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/// codepoints.
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pub fn utf16CountCodepoints(utf16le: []const u16) !usize {
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var len: usize = 0;
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var it = Utf16LeIterator.init(utf16le);
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while (try it.nextCodepoint()) |_| len += 1;
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return len;
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}
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fn testUtf16CountCodepoints() !void {
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try testing.expectEqual(
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@as(usize, 1),
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try utf16CountCodepoints(utf8ToUtf16LeStringLiteral("a")),
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);
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try testing.expectEqual(
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@as(usize, 10),
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try utf16CountCodepoints(utf8ToUtf16LeStringLiteral("abcdefghij")),
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);
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try testing.expectEqual(
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@as(usize, 10),
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try utf16CountCodepoints(utf8ToUtf16LeStringLiteral("äåéëþüúíóö")),
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);
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try testing.expectEqual(
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@as(usize, 5),
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try utf16CountCodepoints(utf8ToUtf16LeStringLiteral("こんにちは")),
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);
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}
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test "utf16 count codepoints" {
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try testUtf16CountCodepoints();
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try comptime testUtf16CountCodepoints();
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}
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test "utf8 encode" {
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try comptime testUtf8Encode();
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try testUtf8Encode();
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}
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fn testUtf8Encode() !void {
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// A few taken from wikipedia a few taken elsewhere
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var array: [4]u8 = undefined;
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try testing.expect((try utf8Encode(try utf8Decode("€"), array[0..])) == 3);
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try testing.expect(array[0] == 0b11100010);
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try testing.expect(array[1] == 0b10000010);
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try testing.expect(array[2] == 0b10101100);
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try testing.expect((try utf8Encode(try utf8Decode("$"), array[0..])) == 1);
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try testing.expect(array[0] == 0b00100100);
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try testing.expect((try utf8Encode(try utf8Decode("¢"), array[0..])) == 2);
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try testing.expect(array[0] == 0b11000010);
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try testing.expect(array[1] == 0b10100010);
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try testing.expect((try utf8Encode(try utf8Decode("𐍈"), array[0..])) == 4);
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try testing.expect(array[0] == 0b11110000);
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try testing.expect(array[1] == 0b10010000);
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try testing.expect(array[2] == 0b10001101);
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try testing.expect(array[3] == 0b10001000);
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}
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test "utf8 encode error" {
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try comptime testUtf8EncodeError();
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try testUtf8EncodeError();
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}
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fn testUtf8EncodeError() !void {
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var array: [4]u8 = undefined;
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try testErrorEncode(0xd800, array[0..], error.Utf8CannotEncodeSurrogateHalf);
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try testErrorEncode(0xdfff, array[0..], error.Utf8CannotEncodeSurrogateHalf);
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try testErrorEncode(0x110000, array[0..], error.CodepointTooLarge);
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try testErrorEncode(0x1fffff, array[0..], error.CodepointTooLarge);
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}
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fn testErrorEncode(codePoint: u21, array: []u8, expectedErr: anyerror) !void {
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try testing.expectError(expectedErr, utf8Encode(codePoint, array));
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}
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test "utf8 iterator on ascii" {
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try comptime testUtf8IteratorOnAscii();
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try testUtf8IteratorOnAscii();
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}
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fn testUtf8IteratorOnAscii() !void {
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const s = Utf8View.initComptime("abc");
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var it1 = s.iterator();
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try testing.expect(std.mem.eql(u8, "a", it1.nextCodepointSlice().?));
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try testing.expect(std.mem.eql(u8, "b", it1.nextCodepointSlice().?));
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try testing.expect(std.mem.eql(u8, "c", it1.nextCodepointSlice().?));
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try testing.expect(it1.nextCodepointSlice() == null);
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var it2 = s.iterator();
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try testing.expect(it2.nextCodepoint().? == 'a');
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try testing.expect(it2.nextCodepoint().? == 'b');
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try testing.expect(it2.nextCodepoint().? == 'c');
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try testing.expect(it2.nextCodepoint() == null);
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}
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test "utf8 view bad" {
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try comptime testUtf8ViewBad();
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try testUtf8ViewBad();
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}
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fn testUtf8ViewBad() !void {
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// Compile-time error.
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// const s3 = Utf8View.initComptime("\xfe\xf2");
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try testing.expectError(error.InvalidUtf8, Utf8View.init("hel\xadlo"));
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}
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test "utf8 view ok" {
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try comptime testUtf8ViewOk();
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try testUtf8ViewOk();
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}
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fn testUtf8ViewOk() !void {
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const s = Utf8View.initComptime("東京市");
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var it1 = s.iterator();
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try testing.expect(std.mem.eql(u8, "東", it1.nextCodepointSlice().?));
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try testing.expect(std.mem.eql(u8, "京", it1.nextCodepointSlice().?));
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try testing.expect(std.mem.eql(u8, "市", it1.nextCodepointSlice().?));
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try testing.expect(it1.nextCodepointSlice() == null);
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var it2 = s.iterator();
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try testing.expect(it2.nextCodepoint().? == 0x6771);
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try testing.expect(it2.nextCodepoint().? == 0x4eac);
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try testing.expect(it2.nextCodepoint().? == 0x5e02);
|
||
try testing.expect(it2.nextCodepoint() == null);
|
||
}
|
||
|
||
test "bad utf8 slice" {
|
||
try comptime testBadUtf8Slice();
|
||
try testBadUtf8Slice();
|
||
}
|
||
fn testBadUtf8Slice() !void {
|
||
try testing.expect(utf8ValidateSlice("abc"));
|
||
try testing.expect(!utf8ValidateSlice("abc\xc0"));
|
||
try testing.expect(!utf8ValidateSlice("abc\xc0abc"));
|
||
try testing.expect(utf8ValidateSlice("abc\xdf\xbf"));
|
||
}
|
||
|
||
test "valid utf8" {
|
||
try comptime testValidUtf8();
|
||
try testValidUtf8();
|
||
}
|
||
fn testValidUtf8() !void {
|
||
try testValid("\x00", 0x0);
|
||
try testValid("\x20", 0x20);
|
||
try testValid("\x7f", 0x7f);
|
||
try testValid("\xc2\x80", 0x80);
|
||
try testValid("\xdf\xbf", 0x7ff);
|
||
try testValid("\xe0\xa0\x80", 0x800);
|
||
try testValid("\xe1\x80\x80", 0x1000);
|
||
try testValid("\xef\xbf\xbf", 0xffff);
|
||
try testValid("\xf0\x90\x80\x80", 0x10000);
|
||
try testValid("\xf1\x80\x80\x80", 0x40000);
|
||
try testValid("\xf3\xbf\xbf\xbf", 0xfffff);
|
||
try testValid("\xf4\x8f\xbf\xbf", 0x10ffff);
|
||
}
|
||
|
||
test "invalid utf8 continuation bytes" {
|
||
try comptime testInvalidUtf8ContinuationBytes();
|
||
try testInvalidUtf8ContinuationBytes();
|
||
}
|
||
fn testInvalidUtf8ContinuationBytes() !void {
|
||
// unexpected continuation
|
||
try testError("\x80", error.Utf8InvalidStartByte);
|
||
try testError("\xbf", error.Utf8InvalidStartByte);
|
||
// too many leading 1's
|
||
try testError("\xf8", error.Utf8InvalidStartByte);
|
||
try testError("\xff", error.Utf8InvalidStartByte);
|
||
// expected continuation for 2 byte sequences
|
||
try testError("\xc2", error.UnexpectedEof);
|
||
try testError("\xc2\x00", error.Utf8ExpectedContinuation);
|
||
try testError("\xc2\xc0", error.Utf8ExpectedContinuation);
|
||
// expected continuation for 3 byte sequences
|
||
try testError("\xe0", error.UnexpectedEof);
|
||
try testError("\xe0\x00", error.UnexpectedEof);
|
||
try testError("\xe0\xc0", error.UnexpectedEof);
|
||
try testError("\xe0\xa0", error.UnexpectedEof);
|
||
try testError("\xe0\xa0\x00", error.Utf8ExpectedContinuation);
|
||
try testError("\xe0\xa0\xc0", error.Utf8ExpectedContinuation);
|
||
// expected continuation for 4 byte sequences
|
||
try testError("\xf0", error.UnexpectedEof);
|
||
try testError("\xf0\x00", error.UnexpectedEof);
|
||
try testError("\xf0\xc0", error.UnexpectedEof);
|
||
try testError("\xf0\x90\x00", error.UnexpectedEof);
|
||
try testError("\xf0\x90\xc0", error.UnexpectedEof);
|
||
try testError("\xf0\x90\x80\x00", error.Utf8ExpectedContinuation);
|
||
try testError("\xf0\x90\x80\xc0", error.Utf8ExpectedContinuation);
|
||
}
|
||
|
||
test "overlong utf8 codepoint" {
|
||
try comptime testOverlongUtf8Codepoint();
|
||
try testOverlongUtf8Codepoint();
|
||
}
|
||
fn testOverlongUtf8Codepoint() !void {
|
||
try testError("\xc0\x80", error.Utf8OverlongEncoding);
|
||
try testError("\xc1\xbf", error.Utf8OverlongEncoding);
|
||
try testError("\xe0\x80\x80", error.Utf8OverlongEncoding);
|
||
try testError("\xe0\x9f\xbf", error.Utf8OverlongEncoding);
|
||
try testError("\xf0\x80\x80\x80", error.Utf8OverlongEncoding);
|
||
try testError("\xf0\x8f\xbf\xbf", error.Utf8OverlongEncoding);
|
||
}
|
||
|
||
test "misc invalid utf8" {
|
||
try comptime testMiscInvalidUtf8();
|
||
try testMiscInvalidUtf8();
|
||
}
|
||
fn testMiscInvalidUtf8() !void {
|
||
// codepoint out of bounds
|
||
try testError("\xf4\x90\x80\x80", error.Utf8CodepointTooLarge);
|
||
try testError("\xf7\xbf\xbf\xbf", error.Utf8CodepointTooLarge);
|
||
// surrogate halves
|
||
try testValid("\xed\x9f\xbf", 0xd7ff);
|
||
try testError("\xed\xa0\x80", error.Utf8EncodesSurrogateHalf);
|
||
try testError("\xed\xbf\xbf", error.Utf8EncodesSurrogateHalf);
|
||
try testValid("\xee\x80\x80", 0xe000);
|
||
}
|
||
|
||
test "utf8 iterator peeking" {
|
||
try comptime testUtf8Peeking();
|
||
try testUtf8Peeking();
|
||
}
|
||
|
||
fn testUtf8Peeking() !void {
|
||
const s = Utf8View.initComptime("noël");
|
||
var it = s.iterator();
|
||
|
||
try testing.expect(std.mem.eql(u8, "n", it.nextCodepointSlice().?));
|
||
|
||
try testing.expect(std.mem.eql(u8, "o", it.peek(1)));
|
||
try testing.expect(std.mem.eql(u8, "oë", it.peek(2)));
|
||
try testing.expect(std.mem.eql(u8, "oël", it.peek(3)));
|
||
try testing.expect(std.mem.eql(u8, "oël", it.peek(4)));
|
||
try testing.expect(std.mem.eql(u8, "oël", it.peek(10)));
|
||
|
||
try testing.expect(std.mem.eql(u8, "o", it.nextCodepointSlice().?));
|
||
try testing.expect(std.mem.eql(u8, "ë", it.nextCodepointSlice().?));
|
||
try testing.expect(std.mem.eql(u8, "l", it.nextCodepointSlice().?));
|
||
try testing.expect(it.nextCodepointSlice() == null);
|
||
|
||
try testing.expect(std.mem.eql(u8, &[_]u8{}, it.peek(1)));
|
||
}
|
||
|
||
fn testError(bytes: []const u8, expected_err: anyerror) !void {
|
||
try testing.expectError(expected_err, testDecode(bytes));
|
||
}
|
||
|
||
fn testValid(bytes: []const u8, expected_codepoint: u21) !void {
|
||
try testing.expect((testDecode(bytes) catch unreachable) == expected_codepoint);
|
||
}
|
||
|
||
fn testDecode(bytes: []const u8) !u21 {
|
||
const length = try utf8ByteSequenceLength(bytes[0]);
|
||
if (bytes.len < length) return error.UnexpectedEof;
|
||
try testing.expect(bytes.len == length);
|
||
return utf8Decode(bytes);
|
||
}
|
||
|
||
/// Caller must free returned memory.
|
||
pub fn utf16leToUtf8Alloc(allocator: mem.Allocator, utf16le: []const u16) ![]u8 {
|
||
// optimistically guess that it will all be ascii.
|
||
var result = try std.ArrayList(u8).initCapacity(allocator, utf16le.len);
|
||
errdefer result.deinit();
|
||
var out_index: usize = 0;
|
||
var it = Utf16LeIterator.init(utf16le);
|
||
while (try it.nextCodepoint()) |codepoint| {
|
||
const utf8_len = utf8CodepointSequenceLength(codepoint) catch unreachable;
|
||
try result.resize(result.items.len + utf8_len);
|
||
assert((utf8Encode(codepoint, result.items[out_index..]) catch unreachable) == utf8_len);
|
||
out_index += utf8_len;
|
||
}
|
||
|
||
return result.toOwnedSlice();
|
||
}
|
||
|
||
/// Caller must free returned memory.
|
||
pub fn utf16leToUtf8AllocZ(allocator: mem.Allocator, utf16le: []const u16) ![:0]u8 {
|
||
// optimistically guess that it will all be ascii (and allocate space for the null terminator)
|
||
var result = try std.ArrayList(u8).initCapacity(allocator, utf16le.len + 1);
|
||
errdefer result.deinit();
|
||
var out_index: usize = 0;
|
||
var it = Utf16LeIterator.init(utf16le);
|
||
while (try it.nextCodepoint()) |codepoint| {
|
||
const utf8_len = utf8CodepointSequenceLength(codepoint) catch unreachable;
|
||
try result.resize(result.items.len + utf8_len);
|
||
assert((utf8Encode(codepoint, result.items[out_index..]) catch unreachable) == utf8_len);
|
||
out_index += utf8_len;
|
||
}
|
||
return result.toOwnedSliceSentinel(0);
|
||
}
|
||
|
||
/// Asserts that the output buffer is big enough.
|
||
/// Returns end byte index into utf8.
|
||
pub fn utf16leToUtf8(utf8: []u8, utf16le: []const u16) !usize {
|
||
var end_index: usize = 0;
|
||
var it = Utf16LeIterator.init(utf16le);
|
||
while (try it.nextCodepoint()) |codepoint| {
|
||
end_index += try utf8Encode(codepoint, utf8[end_index..]);
|
||
}
|
||
return end_index;
|
||
}
|
||
|
||
test "utf16leToUtf8" {
|
||
var utf16le: [2]u16 = undefined;
|
||
const utf16le_as_bytes = mem.sliceAsBytes(utf16le[0..]);
|
||
|
||
{
|
||
mem.writeIntSliceLittle(u16, utf16le_as_bytes[0..], 'A');
|
||
mem.writeIntSliceLittle(u16, utf16le_as_bytes[2..], 'a');
|
||
const utf8 = try utf16leToUtf8Alloc(std.testing.allocator, &utf16le);
|
||
defer std.testing.allocator.free(utf8);
|
||
try testing.expect(mem.eql(u8, utf8, "Aa"));
|
||
}
|
||
|
||
{
|
||
mem.writeIntSliceLittle(u16, utf16le_as_bytes[0..], 0x80);
|
||
mem.writeIntSliceLittle(u16, utf16le_as_bytes[2..], 0xffff);
|
||
const utf8 = try utf16leToUtf8Alloc(std.testing.allocator, &utf16le);
|
||
defer std.testing.allocator.free(utf8);
|
||
try testing.expect(mem.eql(u8, utf8, "\xc2\x80" ++ "\xef\xbf\xbf"));
|
||
}
|
||
|
||
{
|
||
// the values just outside the surrogate half range
|
||
mem.writeIntSliceLittle(u16, utf16le_as_bytes[0..], 0xd7ff);
|
||
mem.writeIntSliceLittle(u16, utf16le_as_bytes[2..], 0xe000);
|
||
const utf8 = try utf16leToUtf8Alloc(std.testing.allocator, &utf16le);
|
||
defer std.testing.allocator.free(utf8);
|
||
try testing.expect(mem.eql(u8, utf8, "\xed\x9f\xbf" ++ "\xee\x80\x80"));
|
||
}
|
||
|
||
{
|
||
// smallest surrogate pair
|
||
mem.writeIntSliceLittle(u16, utf16le_as_bytes[0..], 0xd800);
|
||
mem.writeIntSliceLittle(u16, utf16le_as_bytes[2..], 0xdc00);
|
||
const utf8 = try utf16leToUtf8Alloc(std.testing.allocator, &utf16le);
|
||
defer std.testing.allocator.free(utf8);
|
||
try testing.expect(mem.eql(u8, utf8, "\xf0\x90\x80\x80"));
|
||
}
|
||
|
||
{
|
||
// largest surrogate pair
|
||
mem.writeIntSliceLittle(u16, utf16le_as_bytes[0..], 0xdbff);
|
||
mem.writeIntSliceLittle(u16, utf16le_as_bytes[2..], 0xdfff);
|
||
const utf8 = try utf16leToUtf8Alloc(std.testing.allocator, &utf16le);
|
||
defer std.testing.allocator.free(utf8);
|
||
try testing.expect(mem.eql(u8, utf8, "\xf4\x8f\xbf\xbf"));
|
||
}
|
||
|
||
{
|
||
mem.writeIntSliceLittle(u16, utf16le_as_bytes[0..], 0xdbff);
|
||
mem.writeIntSliceLittle(u16, utf16le_as_bytes[2..], 0xdc00);
|
||
const utf8 = try utf16leToUtf8Alloc(std.testing.allocator, &utf16le);
|
||
defer std.testing.allocator.free(utf8);
|
||
try testing.expect(mem.eql(u8, utf8, "\xf4\x8f\xb0\x80"));
|
||
}
|
||
|
||
{
|
||
mem.writeIntSliceLittle(u16, utf16le_as_bytes[0..], 0xdcdc);
|
||
mem.writeIntSliceLittle(u16, utf16le_as_bytes[2..], 0xdcdc);
|
||
const result = utf16leToUtf8Alloc(std.testing.allocator, &utf16le);
|
||
try std.testing.expectError(error.UnexpectedSecondSurrogateHalf, result);
|
||
}
|
||
}
|
||
|
||
pub fn utf8ToUtf16LeWithNull(allocator: mem.Allocator, utf8: []const u8) ![:0]u16 {
|
||
// optimistically guess that it will not require surrogate pairs
|
||
var result = try std.ArrayList(u16).initCapacity(allocator, utf8.len + 1);
|
||
errdefer result.deinit();
|
||
|
||
const view = try Utf8View.init(utf8);
|
||
var it = view.iterator();
|
||
while (it.nextCodepoint()) |codepoint| {
|
||
if (codepoint < 0x10000) {
|
||
const short = @as(u16, @intCast(codepoint));
|
||
try result.append(mem.nativeToLittle(u16, short));
|
||
} else {
|
||
const high = @as(u16, @intCast((codepoint - 0x10000) >> 10)) + 0xD800;
|
||
const low = @as(u16, @intCast(codepoint & 0x3FF)) + 0xDC00;
|
||
var out: [2]u16 = undefined;
|
||
out[0] = mem.nativeToLittle(u16, high);
|
||
out[1] = mem.nativeToLittle(u16, low);
|
||
try result.appendSlice(out[0..]);
|
||
}
|
||
}
|
||
|
||
return result.toOwnedSliceSentinel(0);
|
||
}
|
||
|
||
/// Returns index of next character. If exact fit, returned index equals output slice length.
|
||
/// Assumes there is enough space for the output.
|
||
pub fn utf8ToUtf16Le(utf16le: []u16, utf8: []const u8) !usize {
|
||
var dest_i: usize = 0;
|
||
var src_i: usize = 0;
|
||
while (src_i < utf8.len) {
|
||
const n = utf8ByteSequenceLength(utf8[src_i]) catch return error.InvalidUtf8;
|
||
const next_src_i = src_i + n;
|
||
const codepoint = utf8Decode(utf8[src_i..next_src_i]) catch return error.InvalidUtf8;
|
||
if (codepoint < 0x10000) {
|
||
const short = @as(u16, @intCast(codepoint));
|
||
utf16le[dest_i] = mem.nativeToLittle(u16, short);
|
||
dest_i += 1;
|
||
} else {
|
||
const high = @as(u16, @intCast((codepoint - 0x10000) >> 10)) + 0xD800;
|
||
const low = @as(u16, @intCast(codepoint & 0x3FF)) + 0xDC00;
|
||
utf16le[dest_i] = mem.nativeToLittle(u16, high);
|
||
utf16le[dest_i + 1] = mem.nativeToLittle(u16, low);
|
||
dest_i += 2;
|
||
}
|
||
src_i = next_src_i;
|
||
}
|
||
return dest_i;
|
||
}
|
||
|
||
test "utf8ToUtf16Le" {
|
||
var utf16le: [2]u16 = [_]u16{0} ** 2;
|
||
{
|
||
const length = try utf8ToUtf16Le(utf16le[0..], "𐐷");
|
||
try testing.expectEqual(@as(usize, 2), length);
|
||
try testing.expectEqualSlices(u8, "\x01\xd8\x37\xdc", mem.sliceAsBytes(utf16le[0..]));
|
||
}
|
||
{
|
||
const length = try utf8ToUtf16Le(utf16le[0..], "\u{10FFFF}");
|
||
try testing.expectEqual(@as(usize, 2), length);
|
||
try testing.expectEqualSlices(u8, "\xff\xdb\xff\xdf", mem.sliceAsBytes(utf16le[0..]));
|
||
}
|
||
{
|
||
const result = utf8ToUtf16Le(utf16le[0..], "\xf4\x90\x80\x80");
|
||
try testing.expectError(error.InvalidUtf8, result);
|
||
}
|
||
}
|
||
|
||
test "utf8ToUtf16LeWithNull" {
|
||
{
|
||
const utf16 = try utf8ToUtf16LeWithNull(testing.allocator, "𐐷");
|
||
defer testing.allocator.free(utf16);
|
||
try testing.expectEqualSlices(u8, "\x01\xd8\x37\xdc", mem.sliceAsBytes(utf16[0..]));
|
||
try testing.expect(utf16[2] == 0);
|
||
}
|
||
{
|
||
const utf16 = try utf8ToUtf16LeWithNull(testing.allocator, "\u{10FFFF}");
|
||
defer testing.allocator.free(utf16);
|
||
try testing.expectEqualSlices(u8, "\xff\xdb\xff\xdf", mem.sliceAsBytes(utf16[0..]));
|
||
try testing.expect(utf16[2] == 0);
|
||
}
|
||
{
|
||
const result = utf8ToUtf16LeWithNull(testing.allocator, "\xf4\x90\x80\x80");
|
||
try testing.expectError(error.InvalidUtf8, result);
|
||
}
|
||
}
|
||
|
||
/// Converts a UTF-8 string literal into a UTF-16LE string literal.
|
||
pub fn utf8ToUtf16LeStringLiteral(comptime utf8: []const u8) *const [calcUtf16LeLen(utf8) catch unreachable:0]u16 {
|
||
return comptime blk: {
|
||
const len: usize = calcUtf16LeLen(utf8) catch |err| @compileError(err);
|
||
var utf16le: [len:0]u16 = [_:0]u16{0} ** len;
|
||
const utf16le_len = utf8ToUtf16Le(&utf16le, utf8[0..]) catch |err| @compileError(err);
|
||
assert(len == utf16le_len);
|
||
break :blk &utf16le;
|
||
};
|
||
}
|
||
|
||
const CalcUtf16LeLenError = Utf8DecodeError || error{Utf8InvalidStartByte};
|
||
|
||
/// Returns length in UTF-16 of UTF-8 slice as length of []u16.
|
||
/// Length in []u8 is 2*len16.
|
||
pub fn calcUtf16LeLen(utf8: []const u8) CalcUtf16LeLenError!usize {
|
||
var src_i: usize = 0;
|
||
var dest_len: usize = 0;
|
||
while (src_i < utf8.len) {
|
||
const n = try utf8ByteSequenceLength(utf8[src_i]);
|
||
const next_src_i = src_i + n;
|
||
const codepoint = try utf8Decode(utf8[src_i..next_src_i]);
|
||
if (codepoint < 0x10000) {
|
||
dest_len += 1;
|
||
} else {
|
||
dest_len += 2;
|
||
}
|
||
src_i = next_src_i;
|
||
}
|
||
return dest_len;
|
||
}
|
||
|
||
fn testCalcUtf16LeLen() !void {
|
||
try testing.expectEqual(@as(usize, 1), try calcUtf16LeLen("a"));
|
||
try testing.expectEqual(@as(usize, 10), try calcUtf16LeLen("abcdefghij"));
|
||
try testing.expectEqual(@as(usize, 10), try calcUtf16LeLen("äåéëþüúíóö"));
|
||
try testing.expectEqual(@as(usize, 5), try calcUtf16LeLen("こんにちは"));
|
||
}
|
||
|
||
test "calculate utf16 string length of given utf8 string in u16" {
|
||
try testCalcUtf16LeLen();
|
||
try comptime testCalcUtf16LeLen();
|
||
}
|
||
|
||
/// Print the given `utf16le` string
|
||
fn formatUtf16le(
|
||
utf16le: []const u16,
|
||
comptime fmt: []const u8,
|
||
options: std.fmt.FormatOptions,
|
||
writer: anytype,
|
||
) !void {
|
||
_ = fmt;
|
||
_ = options;
|
||
var buf: [300]u8 = undefined; // just a random size I chose
|
||
var it = Utf16LeIterator.init(utf16le);
|
||
var u8len: usize = 0;
|
||
while (it.nextCodepoint() catch replacement_character) |codepoint| {
|
||
u8len += utf8Encode(codepoint, buf[u8len..]) catch
|
||
utf8Encode(replacement_character, buf[u8len..]) catch unreachable;
|
||
if (u8len + 3 >= buf.len) {
|
||
try writer.writeAll(buf[0..u8len]);
|
||
u8len = 0;
|
||
}
|
||
}
|
||
try writer.writeAll(buf[0..u8len]);
|
||
}
|
||
|
||
/// Return a Formatter for a Utf16le string
|
||
pub fn fmtUtf16le(utf16le: []const u16) std.fmt.Formatter(formatUtf16le) {
|
||
return .{ .data = utf16le };
|
||
}
|
||
|
||
test "fmtUtf16le" {
|
||
const expectFmt = std.testing.expectFmt;
|
||
try expectFmt("", "{}", .{fmtUtf16le(utf8ToUtf16LeStringLiteral(""))});
|
||
try expectFmt("foo", "{}", .{fmtUtf16le(utf8ToUtf16LeStringLiteral("foo"))});
|
||
try expectFmt("𐐷", "{}", .{fmtUtf16le(utf8ToUtf16LeStringLiteral("𐐷"))});
|
||
try expectFmt("", "{}", .{fmtUtf16le(&[_]u16{std.mem.readIntNative(u16, "\xff\xd7")})});
|
||
try expectFmt("<EFBFBD>", "{}", .{fmtUtf16le(&[_]u16{std.mem.readIntNative(u16, "\x00\xd8")})});
|
||
try expectFmt("<EFBFBD>", "{}", .{fmtUtf16le(&[_]u16{std.mem.readIntNative(u16, "\xff\xdb")})});
|
||
try expectFmt("<EFBFBD>", "{}", .{fmtUtf16le(&[_]u16{std.mem.readIntNative(u16, "\x00\xdc")})});
|
||
try expectFmt("<EFBFBD>", "{}", .{fmtUtf16le(&[_]u16{std.mem.readIntNative(u16, "\xff\xdf")})});
|
||
try expectFmt("", "{}", .{fmtUtf16le(&[_]u16{std.mem.readIntNative(u16, "\x00\xe0")})});
|
||
}
|
||
|
||
test "utf8ToUtf16LeStringLiteral" {
|
||
{
|
||
const bytes = [_:0]u16{
|
||
mem.nativeToLittle(u16, 0x41),
|
||
};
|
||
const utf16 = utf8ToUtf16LeStringLiteral("A");
|
||
try testing.expectEqualSlices(u16, &bytes, utf16);
|
||
try testing.expect(utf16[1] == 0);
|
||
}
|
||
{
|
||
const bytes = [_:0]u16{
|
||
mem.nativeToLittle(u16, 0xD801),
|
||
mem.nativeToLittle(u16, 0xDC37),
|
||
};
|
||
const utf16 = utf8ToUtf16LeStringLiteral("𐐷");
|
||
try testing.expectEqualSlices(u16, &bytes, utf16);
|
||
try testing.expect(utf16[2] == 0);
|
||
}
|
||
{
|
||
const bytes = [_:0]u16{
|
||
mem.nativeToLittle(u16, 0x02FF),
|
||
};
|
||
const utf16 = utf8ToUtf16LeStringLiteral("\u{02FF}");
|
||
try testing.expectEqualSlices(u16, &bytes, utf16);
|
||
try testing.expect(utf16[1] == 0);
|
||
}
|
||
{
|
||
const bytes = [_:0]u16{
|
||
mem.nativeToLittle(u16, 0x7FF),
|
||
};
|
||
const utf16 = utf8ToUtf16LeStringLiteral("\u{7FF}");
|
||
try testing.expectEqualSlices(u16, &bytes, utf16);
|
||
try testing.expect(utf16[1] == 0);
|
||
}
|
||
{
|
||
const bytes = [_:0]u16{
|
||
mem.nativeToLittle(u16, 0x801),
|
||
};
|
||
const utf16 = utf8ToUtf16LeStringLiteral("\u{801}");
|
||
try testing.expectEqualSlices(u16, &bytes, utf16);
|
||
try testing.expect(utf16[1] == 0);
|
||
}
|
||
{
|
||
const bytes = [_:0]u16{
|
||
mem.nativeToLittle(u16, 0xDBFF),
|
||
mem.nativeToLittle(u16, 0xDFFF),
|
||
};
|
||
const utf16 = utf8ToUtf16LeStringLiteral("\u{10FFFF}");
|
||
try testing.expectEqualSlices(u16, &bytes, utf16);
|
||
try testing.expect(utf16[2] == 0);
|
||
}
|
||
}
|
||
|
||
fn testUtf8CountCodepoints() !void {
|
||
try testing.expectEqual(@as(usize, 10), try utf8CountCodepoints("abcdefghij"));
|
||
try testing.expectEqual(@as(usize, 10), try utf8CountCodepoints("äåéëþüúíóö"));
|
||
try testing.expectEqual(@as(usize, 5), try utf8CountCodepoints("こんにちは"));
|
||
// testing.expectError(error.Utf8EncodesSurrogateHalf, utf8CountCodepoints("\xED\xA0\x80"));
|
||
}
|
||
|
||
test "utf8 count codepoints" {
|
||
try testUtf8CountCodepoints();
|
||
try comptime testUtf8CountCodepoints();
|
||
}
|
||
|
||
fn testUtf8ValidCodepoint() !void {
|
||
try testing.expect(utf8ValidCodepoint('e'));
|
||
try testing.expect(utf8ValidCodepoint('ë'));
|
||
try testing.expect(utf8ValidCodepoint('は'));
|
||
try testing.expect(utf8ValidCodepoint(0xe000));
|
||
try testing.expect(utf8ValidCodepoint(0x10ffff));
|
||
try testing.expect(!utf8ValidCodepoint(0xd800));
|
||
try testing.expect(!utf8ValidCodepoint(0xdfff));
|
||
try testing.expect(!utf8ValidCodepoint(0x110000));
|
||
}
|
||
|
||
test "utf8 valid codepoint" {
|
||
try testUtf8ValidCodepoint();
|
||
try comptime testUtf8ValidCodepoint();
|
||
}
|