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// Copyright 2013 The rust-url developers.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.

//! Punycode ([RFC 3492](http://tools.ietf.org/html/rfc3492)) implementation.
//!
//! Since Punycode fundamentally works on unicode code points,
//! `encode` and `decode` take and return slices and vectors of `char`.
//! `encode_str` and `decode_to_string` provide convenience wrappers
//! that convert from and to Rust’s UTF-8 based `str` and `String` types.

use std::char;
use std::u32;

// Bootstring parameters for Punycode
static BASE: u32 = 36;
static T_MIN: u32 = 1;
static T_MAX: u32 = 26;
static SKEW: u32 = 38;
static DAMP: u32 = 700;
static INITIAL_BIAS: u32 = 72;
static INITIAL_N: u32 = 0x80;
static DELIMITER: char = '-';

#[inline]
fn adapt(mut delta: u32, num_points: u32, first_time: bool) -> u32 {
    delta /= if first_time { DAMP } else { 2 };
    delta += delta / num_points;
    let mut k = 0;
    while delta > ((BASE - T_MIN) * T_MAX) / 2 {
        delta /= BASE - T_MIN;
        k += BASE;
    }
    k + (((BASE - T_MIN + 1) * delta) / (delta + SKEW))
}

/// Convert Punycode to an Unicode `String`.
///
/// This is a convenience wrapper around `decode`.
#[inline]
pub fn decode_to_string(input: &str) -> Option<String> {
    decode(input).map(|chars| chars.into_iter().collect())
}

/// Convert Punycode to Unicode.
///
/// Return None on malformed input or overflow.
/// Overflow can only happen on inputs that take more than
/// 63 encoded bytes, the DNS limit on domain name labels.
pub fn decode(input: &str) -> Option<Vec<char>> {
    // Handle "basic" (ASCII) code points.
    // They are encoded as-is before the last delimiter, if any.
    let (mut output, input) = match input.rfind(DELIMITER) {
        None => (Vec::new(), input),
        Some(position) => (
            input[..position].chars().collect(),
            if position > 0 {
                &input[position + 1..]
            } else {
                input
            },
        ),
    };
    let mut code_point = INITIAL_N;
    let mut bias = INITIAL_BIAS;
    let mut i = 0;
    let mut iter = input.bytes();
    loop {
        let previous_i = i;
        let mut weight = 1;
        let mut k = BASE;
        let mut byte = match iter.next() {
            None => break,
            Some(byte) => byte,
        };
        // Decode a generalized variable-length integer into delta,
        // which gets added to i.
        loop {
            let digit = match byte {
                byte @ b'0'..=b'9' => byte - b'0' + 26,
                byte @ b'A'..=b'Z' => byte - b'A',
                byte @ b'a'..=b'z' => byte - b'a',
                _ => return None,
            } as u32;
            if digit > (u32::MAX - i) / weight {
                return None; // Overflow
            }
            i += digit * weight;
            let t = if k <= bias {
                T_MIN
            } else if k >= bias + T_MAX {
                T_MAX
            } else {
                k - bias
            };
            if digit < t {
                break;
            }
            if weight > u32::MAX / (BASE - t) {
                return None; // Overflow
            }
            weight *= BASE - t;
            k += BASE;
            byte = match iter.next() {
                None => return None, // End of input before the end of this delta
                Some(byte) => byte,
            };
        }
        let length = output.len() as u32;
        bias = adapt(i - previous_i, length + 1, previous_i == 0);
        if i / (length + 1) > u32::MAX - code_point {
            return None; // Overflow
        }
        // i was supposed to wrap around from length+1 to 0,
        // incrementing code_point each time.
        code_point += i / (length + 1);
        i %= length + 1;
        let c = match char::from_u32(code_point) {
            Some(c) => c,
            None => return None,
        };
        output.insert(i as usize, c);
        i += 1;
    }
    Some(output)
}

/// Convert an Unicode `str` to Punycode.
///
/// This is a convenience wrapper around `encode`.
#[inline]
pub fn encode_str(input: &str) -> Option<String> {
    encode(&input.chars().collect::<Vec<char>>())
}

/// Convert Unicode to Punycode.
///
/// Return None on overflow, which can only happen on inputs that would take more than
/// 63 encoded bytes, the DNS limit on domain name labels.
pub fn encode(input: &[char]) -> Option<String> {
    // Handle "basic" (ASCII) code points. They are encoded as-is.
    let output_bytes = input
        .iter()
        .filter_map(|&c| if c.is_ascii() { Some(c as u8) } else { None })
        .collect();
    let mut output = unsafe { String::from_utf8_unchecked(output_bytes) };
    let basic_length = output.len() as u32;
    if basic_length > 0 {
        output.push_str("-")
    }
    let mut code_point = INITIAL_N;
    let mut delta = 0;
    let mut bias = INITIAL_BIAS;
    let mut processed = basic_length;
    let input_length = input.len() as u32;
    while processed < input_length {
        // All code points < code_point have been handled already.
        // Find the next larger one.
        let min_code_point = input
            .iter()
            .map(|&c| c as u32)
            .filter(|&c| c >= code_point)
            .min()
            .unwrap();
        if min_code_point - code_point > (u32::MAX - delta) / (processed + 1) {
            return None; // Overflow
        }
        // Increase delta to advance the decoder’s <code_point,i> state to <min_code_point,0>
        delta += (min_code_point - code_point) * (processed + 1);
        code_point = min_code_point;
        for &c in input {
            let c = c as u32;
            if c < code_point {
                delta += 1;
                if delta == 0 {
                    return None; // Overflow
                }
            }
            if c == code_point {
                // Represent delta as a generalized variable-length integer:
                let mut q = delta;
                let mut k = BASE;
                loop {
                    let t = if k <= bias {
                        T_MIN
                    } else if k >= bias + T_MAX {
                        T_MAX
                    } else {
                        k - bias
                    };
                    if q < t {
                        break;
                    }
                    let value = t + ((q - t) % (BASE - t));
                    output.push(value_to_digit(value));
                    q = (q - t) / (BASE - t);
                    k += BASE;
                }
                output.push(value_to_digit(q));
                bias = adapt(delta, processed + 1, processed == basic_length);
                delta = 0;
                processed += 1;
            }
        }
        delta += 1;
        code_point += 1;
    }
    Some(output)
}

#[inline]
fn value_to_digit(value: u32) -> char {
    match value {
        0..=25 => (value as u8 + 'a' as u8) as char, // a..z
        26..=35 => (value as u8 - 26 + '0' as u8) as char, // 0..9
        _ => panic!(),
    }
}