mirror of
https://github.com/ziglang/zig.git
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444 lines
14 KiB
Zig
444 lines
14 KiB
Zig
//! The 7-bit [ASCII](https://en.wikipedia.org/wiki/ASCII) character encoding standard.
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//!
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//! This is not to be confused with the 8-bit [extended ASCII](https://en.wikipedia.org/wiki/Extended_ASCII) character encoding.
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//!
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//! Even though this module concerns itself with 7-bit ASCII,
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//! functions use `u8` as the type instead of `u7` for convenience and compatibility.
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//! Characters outside of the 7-bit range are gracefully handled (e.g. by returning `false`).
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//!
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//! See also: https://en.wikipedia.org/wiki/ASCII#Character_set
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const std = @import("std");
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/// The C0 control codes of the ASCII encoding.
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///
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/// See also: https://en.wikipedia.org/wiki/C0_and_C1_control_codes and `isControl`
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pub const control_code = struct {
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/// Null.
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pub const nul = 0x00;
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/// Start of Heading.
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pub const soh = 0x01;
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/// Start of Text.
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pub const stx = 0x02;
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/// End of Text.
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pub const etx = 0x03;
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/// End of Transmission.
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pub const eot = 0x04;
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/// Enquiry.
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pub const enq = 0x05;
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/// Acknowledge.
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pub const ack = 0x06;
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/// Bell, Alert.
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pub const bel = 0x07;
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/// Backspace.
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pub const bs = 0x08;
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/// Horizontal Tab, Tab ('\t').
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pub const ht = 0x09;
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/// Line Feed, Newline ('\n').
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pub const lf = 0x0A;
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/// Vertical Tab.
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pub const vt = 0x0B;
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/// Form Feed.
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pub const ff = 0x0C;
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/// Carriage Return ('\r').
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pub const cr = 0x0D;
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/// Shift Out.
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pub const so = 0x0E;
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/// Shift In.
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pub const si = 0x0F;
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/// Data Link Escape.
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pub const dle = 0x10;
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/// Device Control One (XON).
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pub const dc1 = 0x11;
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/// Device Control Two.
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pub const dc2 = 0x12;
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/// Device Control Three (XOFF).
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pub const dc3 = 0x13;
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/// Device Control Four.
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pub const dc4 = 0x14;
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/// Negative Acknowledge.
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pub const nak = 0x15;
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/// Synchronous Idle.
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pub const syn = 0x16;
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/// End of Transmission Block
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pub const etb = 0x17;
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/// Cancel.
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pub const can = 0x18;
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/// End of Medium.
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pub const em = 0x19;
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/// Substitute.
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pub const sub = 0x1A;
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/// Escape.
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pub const esc = 0x1B;
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/// File Separator.
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pub const fs = 0x1C;
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/// Group Separator.
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pub const gs = 0x1D;
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/// Record Separator.
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pub const rs = 0x1E;
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/// Unit Separator.
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pub const us = 0x1F;
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/// Delete.
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pub const del = 0x7F;
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/// An alias to `dc1`.
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pub const xon = dc1;
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/// An alias to `dc3`.
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pub const xoff = dc3;
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};
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/// Returns whether the character is alphanumeric: A-Z, a-z, or 0-9.
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pub fn isAlphanumeric(c: u8) bool {
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return switch (c) {
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'0'...'9', 'A'...'Z', 'a'...'z' => true,
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else => false,
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};
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}
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/// Returns whether the character is alphabetic: A-Z or a-z.
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pub fn isAlphabetic(c: u8) bool {
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return switch (c) {
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'A'...'Z', 'a'...'z' => true,
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else => false,
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};
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}
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/// Returns whether the character is a control character.
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///
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/// See also: `control_code`
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pub fn isControl(c: u8) bool {
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return c <= control_code.us or c == control_code.del;
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}
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/// Returns whether the character is a digit.
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pub fn isDigit(c: u8) bool {
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return switch (c) {
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'0'...'9' => true,
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else => false,
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};
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}
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/// Returns whether the character is a lowercase letter.
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pub fn isLower(c: u8) bool {
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return switch (c) {
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'a'...'z' => true,
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else => false,
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};
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}
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/// Returns whether the character is printable and has some graphical representation,
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/// including the space character.
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pub fn isPrint(c: u8) bool {
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return isAscii(c) and !isControl(c);
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}
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/// Returns whether this character is included in `whitespace`.
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pub fn isWhitespace(c: u8) bool {
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return for (whitespace) |other| {
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if (c == other)
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break true;
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} else false;
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}
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/// Whitespace for general use.
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/// This may be used with e.g. `std.mem.trim` to trim whitespace.
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///
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/// See also: `isWhitespace`
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pub const whitespace = [_]u8{ ' ', '\t', '\n', '\r', control_code.vt, control_code.ff };
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test whitespace {
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for (whitespace) |char| try std.testing.expect(isWhitespace(char));
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var i: u8 = 0;
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while (isAscii(i)) : (i += 1) {
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if (isWhitespace(i)) try std.testing.expect(std.mem.indexOfScalar(u8, &whitespace, i) != null);
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}
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}
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/// Returns whether the character is an uppercase letter.
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pub fn isUpper(c: u8) bool {
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return switch (c) {
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'A'...'Z' => true,
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else => false,
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};
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}
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/// Returns whether the character is a hexadecimal digit: A-F, a-f, or 0-9.
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pub fn isHex(c: u8) bool {
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return switch (c) {
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'0'...'9', 'A'...'F', 'a'...'f' => true,
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else => false,
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};
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}
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/// Returns whether the character is a 7-bit ASCII character.
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pub fn isAscii(c: u8) bool {
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return c < 128;
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}
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/// /// Deprecated: use `isAscii`
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pub const isASCII = isAscii;
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/// Uppercases the character and returns it as-is if already uppercase or not a letter.
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pub fn toUpper(c: u8) u8 {
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if (isLower(c)) {
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return c & 0b11011111;
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} else {
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return c;
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}
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}
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/// Lowercases the character and returns it as-is if already lowercase or not a letter.
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pub fn toLower(c: u8) u8 {
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if (isUpper(c)) {
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return c | 0b00100000;
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} else {
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return c;
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}
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}
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test "ASCII character classes" {
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const testing = std.testing;
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try testing.expect(!isControl('a'));
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try testing.expect(!isControl('z'));
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try testing.expect(!isControl(' '));
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try testing.expect(isControl(control_code.nul));
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try testing.expect(isControl(control_code.ff));
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try testing.expect(isControl(control_code.us));
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try testing.expect(isControl(control_code.del));
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try testing.expect(!isControl(0x80));
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try testing.expect(!isControl(0xff));
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try testing.expect('C' == toUpper('c'));
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try testing.expect(':' == toUpper(':'));
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try testing.expect('\xab' == toUpper('\xab'));
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try testing.expect(!isUpper('z'));
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try testing.expect(!isUpper(0x80));
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try testing.expect(!isUpper(0xff));
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try testing.expect('c' == toLower('C'));
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try testing.expect(':' == toLower(':'));
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try testing.expect('\xab' == toLower('\xab'));
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try testing.expect(!isLower('Z'));
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try testing.expect(!isLower(0x80));
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try testing.expect(!isLower(0xff));
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try testing.expect(isAlphanumeric('Z'));
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try testing.expect(isAlphanumeric('z'));
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try testing.expect(isAlphanumeric('5'));
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try testing.expect(isAlphanumeric('a'));
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try testing.expect(!isAlphanumeric('!'));
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try testing.expect(!isAlphanumeric(0x80));
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try testing.expect(!isAlphanumeric(0xff));
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try testing.expect(!isAlphabetic('5'));
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try testing.expect(isAlphabetic('c'));
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try testing.expect(!isAlphabetic('@'));
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try testing.expect(isAlphabetic('Z'));
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try testing.expect(!isAlphabetic(0x80));
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try testing.expect(!isAlphabetic(0xff));
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try testing.expect(isWhitespace(' '));
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try testing.expect(isWhitespace('\t'));
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try testing.expect(isWhitespace('\r'));
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try testing.expect(isWhitespace('\n'));
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try testing.expect(isWhitespace(control_code.ff));
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try testing.expect(!isWhitespace('.'));
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try testing.expect(!isWhitespace(control_code.us));
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try testing.expect(!isWhitespace(0x80));
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try testing.expect(!isWhitespace(0xff));
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try testing.expect(!isHex('g'));
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try testing.expect(isHex('b'));
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try testing.expect(isHex('F'));
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try testing.expect(isHex('9'));
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try testing.expect(!isHex(0x80));
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try testing.expect(!isHex(0xff));
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try testing.expect(!isDigit('~'));
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try testing.expect(isDigit('0'));
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try testing.expect(isDigit('9'));
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try testing.expect(!isDigit(0x80));
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try testing.expect(!isDigit(0xff));
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try testing.expect(isPrint(' '));
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try testing.expect(isPrint('@'));
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try testing.expect(isPrint('~'));
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try testing.expect(!isPrint(control_code.esc));
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try testing.expect(!isPrint(0x80));
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try testing.expect(!isPrint(0xff));
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}
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/// Writes a lower case copy of `ascii_string` to `output`.
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/// Asserts `output.len >= ascii_string.len`.
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pub fn lowerString(output: []u8, ascii_string: []const u8) []u8 {
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std.debug.assert(output.len >= ascii_string.len);
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for (ascii_string, 0..) |c, i| {
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output[i] = toLower(c);
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}
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return output[0..ascii_string.len];
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}
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test lowerString {
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var buf: [1024]u8 = undefined;
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const result = lowerString(&buf, "aBcDeFgHiJkLmNOPqrst0234+💩!");
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try std.testing.expectEqualStrings("abcdefghijklmnopqrst0234+💩!", result);
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}
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/// Allocates a lower case copy of `ascii_string`.
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/// Caller owns returned string and must free with `allocator`.
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pub fn allocLowerString(allocator: std.mem.Allocator, ascii_string: []const u8) ![]u8 {
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const result = try allocator.alloc(u8, ascii_string.len);
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return lowerString(result, ascii_string);
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}
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test allocLowerString {
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const result = try allocLowerString(std.testing.allocator, "aBcDeFgHiJkLmNOPqrst0234+💩!");
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defer std.testing.allocator.free(result);
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try std.testing.expectEqualStrings("abcdefghijklmnopqrst0234+💩!", result);
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}
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/// Writes an upper case copy of `ascii_string` to `output`.
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/// Asserts `output.len >= ascii_string.len`.
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pub fn upperString(output: []u8, ascii_string: []const u8) []u8 {
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std.debug.assert(output.len >= ascii_string.len);
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for (ascii_string, 0..) |c, i| {
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output[i] = toUpper(c);
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}
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return output[0..ascii_string.len];
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}
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test upperString {
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var buf: [1024]u8 = undefined;
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const result = upperString(&buf, "aBcDeFgHiJkLmNOPqrst0234+💩!");
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try std.testing.expectEqualStrings("ABCDEFGHIJKLMNOPQRST0234+💩!", result);
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}
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/// Allocates an upper case copy of `ascii_string`.
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/// Caller owns returned string and must free with `allocator`.
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pub fn allocUpperString(allocator: std.mem.Allocator, ascii_string: []const u8) ![]u8 {
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const result = try allocator.alloc(u8, ascii_string.len);
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return upperString(result, ascii_string);
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}
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test allocUpperString {
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const result = try allocUpperString(std.testing.allocator, "aBcDeFgHiJkLmNOPqrst0234+💩!");
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defer std.testing.allocator.free(result);
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try std.testing.expectEqualStrings("ABCDEFGHIJKLMNOPQRST0234+💩!", result);
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}
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/// Compares strings `a` and `b` case-insensitively and returns whether they are equal.
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pub fn eqlIgnoreCase(a: []const u8, b: []const u8) bool {
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if (a.len != b.len) return false;
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for (a, 0..) |a_c, i| {
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if (toLower(a_c) != toLower(b[i])) return false;
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}
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return true;
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}
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test eqlIgnoreCase {
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try std.testing.expect(eqlIgnoreCase("HEl💩Lo!", "hel💩lo!"));
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try std.testing.expect(!eqlIgnoreCase("hElLo!", "hello! "));
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try std.testing.expect(!eqlIgnoreCase("hElLo!", "helro!"));
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}
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pub fn startsWithIgnoreCase(haystack: []const u8, needle: []const u8) bool {
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return if (needle.len > haystack.len) false else eqlIgnoreCase(haystack[0..needle.len], needle);
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}
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test startsWithIgnoreCase {
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try std.testing.expect(startsWithIgnoreCase("boB", "Bo"));
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try std.testing.expect(!startsWithIgnoreCase("Needle in hAyStAcK", "haystack"));
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}
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pub fn endsWithIgnoreCase(haystack: []const u8, needle: []const u8) bool {
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return if (needle.len > haystack.len) false else eqlIgnoreCase(haystack[haystack.len - needle.len ..], needle);
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}
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test endsWithIgnoreCase {
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try std.testing.expect(endsWithIgnoreCase("Needle in HaYsTaCk", "haystack"));
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try std.testing.expect(!endsWithIgnoreCase("BoB", "Bo"));
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}
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/// Finds `needle` in `haystack`, ignoring case, starting at index 0.
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pub fn indexOfIgnoreCase(haystack: []const u8, needle: []const u8) ?usize {
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return indexOfIgnoreCasePos(haystack, 0, needle);
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}
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/// Finds `needle` in `haystack`, ignoring case, starting at `start_index`.
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/// Uses Boyer-Moore-Horspool algorithm on large inputs; `indexOfIgnoreCasePosLinear` on small inputs.
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pub fn indexOfIgnoreCasePos(haystack: []const u8, start_index: usize, needle: []const u8) ?usize {
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if (needle.len > haystack.len) return null;
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if (needle.len == 0) return start_index;
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if (haystack.len < 52 or needle.len <= 4)
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return indexOfIgnoreCasePosLinear(haystack, start_index, needle);
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var skip_table: [256]usize = undefined;
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boyerMooreHorspoolPreprocessIgnoreCase(needle, skip_table[0..]);
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var i: usize = start_index;
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while (i <= haystack.len - needle.len) {
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if (eqlIgnoreCase(haystack[i .. i + needle.len], needle)) return i;
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i += skip_table[toLower(haystack[i + needle.len - 1])];
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}
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return null;
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}
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/// Consider using `indexOfIgnoreCasePos` instead of this, which will automatically use a
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/// more sophisticated algorithm on larger inputs.
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pub fn indexOfIgnoreCasePosLinear(haystack: []const u8, start_index: usize, needle: []const u8) ?usize {
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var i: usize = start_index;
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const end = haystack.len - needle.len;
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while (i <= end) : (i += 1) {
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if (eqlIgnoreCase(haystack[i .. i + needle.len], needle)) return i;
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}
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return null;
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}
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fn boyerMooreHorspoolPreprocessIgnoreCase(pattern: []const u8, table: *[256]usize) void {
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for (table) |*c| {
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c.* = pattern.len;
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}
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var i: usize = 0;
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// The last item is intentionally ignored and the skip size will be pattern.len.
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// This is the standard way Boyer-Moore-Horspool is implemented.
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while (i < pattern.len - 1) : (i += 1) {
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table[toLower(pattern[i])] = pattern.len - 1 - i;
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}
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}
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test indexOfIgnoreCase {
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try std.testing.expect(indexOfIgnoreCase("one Two Three Four", "foUr").? == 14);
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try std.testing.expect(indexOfIgnoreCase("one two three FouR", "gOur") == null);
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try std.testing.expect(indexOfIgnoreCase("foO", "Foo").? == 0);
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try std.testing.expect(indexOfIgnoreCase("foo", "fool") == null);
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try std.testing.expect(indexOfIgnoreCase("FOO foo", "fOo").? == 0);
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try std.testing.expect(indexOfIgnoreCase("one two three four five six seven eight nine ten eleven", "ThReE fOUr").? == 8);
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try std.testing.expect(indexOfIgnoreCase("one two three four five six seven eight nine ten eleven", "Two tWo") == null);
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}
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/// Returns the lexicographical order of two slices. O(n).
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pub fn orderIgnoreCase(lhs: []const u8, rhs: []const u8) std.math.Order {
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const n = @min(lhs.len, rhs.len);
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var i: usize = 0;
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while (i < n) : (i += 1) {
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switch (std.math.order(toLower(lhs[i]), toLower(rhs[i]))) {
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.eq => continue,
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.lt => return .lt,
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.gt => return .gt,
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}
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}
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return std.math.order(lhs.len, rhs.len);
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}
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/// Returns whether the lexicographical order of `lhs` is lower than `rhs`.
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pub fn lessThanIgnoreCase(lhs: []const u8, rhs: []const u8) bool {
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return orderIgnoreCase(lhs, rhs) == .lt;
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}
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