namerena-rs/src/name.rs

#[cfg(feature = "simd")]
use std::simd::u8x64;

use tracing::warn;

#[inline(always)]
pub fn median<T>(x: T, y: T, z: T) -> T
where
    T: std::cmp::Ord + std::marker::Copy,
{
    x.max(y).max(x.min(y).min(z))
}

#[derive(Debug, Clone)]
pub struct TeamNamer {
    pub team: String,
    pub val: [u8; 256],
}

impl TeamNamer {
    /// 方便使用的 new
    /// 会检查长度是否超过 256
    #[inline(always)]
    pub fn new(team: &str) -> Option<Self> {
        if team.len() > 256 {
            warn!("Team too long({}): {}", team.len(), team);
            return None;
        }
        Some(Self::new_unchecked(team))
    }
    #[inline(always)]
    pub fn new_unchecked(team: &str) -> Self {
        let team_bytes = team.as_bytes();
        let mut val: [u8; 256] = (0..=255).collect::<Vec<u8>>().try_into().unwrap();
        let mut s = 0_u8;
        let t_len = team.len() + 1;
        for i in 0..256 {
            if (i % t_len) != 0 {
                s = s.wrapping_add(team_bytes[(i % t_len) - 1]);
            }
            s = s.wrapping_add(val[i]);
            val.swap(i, s as usize);
        }
        Self {
            team: team.to_string(),
            val,
        }
    }
    #[inline(always)]
    pub fn clone_vals(&self) -> [u8; 256] {
        self.val.clone()
    }
}

#[derive(Debug, Clone)]
pub struct Namer {
    pub name: String,
    pub team: String,
    pub val: [u8; 256],
    pub name_base: [u8; 128],
    pub name_prop: [u32; 8],
    pub skl_id: [u8; 40],
    pub skl_freq: [u8; 40],
}

impl Namer {
    /// 最完整的、最简单的 new
    /// 可以直接丢一个 name 进来
    #[inline(always)]
    pub fn new(full_name: &String) -> Option<Self> {
        // name@team
        // name
        let (name, team) = full_name.split_once('@').unwrap_or((full_name, ""));
        if name.len() > 256 {
            warn!("Name too long({}): {}", name.len(), name);
            return None;
        }
        if team.len() > 256 {
            warn!("Team too long({}): {}", team.len(), team);
            return None;
        }
        Some(Self::new_raw_unchecked(name, team))
    }
    /// 用起来也很方便的
    /// 只不过是需要分别输入, 也挺好用的
    /// 包括了长度检测
    #[inline(always)]
    pub fn new_raw(name: &str, team: &str) -> Option<Self> {
        if name.len() > 256 {
            warn!("Name too long({}): {}", name.len(), name);
            return None;
        }
        if team.len() > 256 {
            warn!("Team too long({}): {}", team.len(), team);
            return None;
        }
        Some(Self::new_raw_unchecked(name, team))
    }
    /// 不带检查长度的 new
    /// 依然可以传一个完整的进来
    #[inline(always)]
    pub fn new_unchecked(full_name: &str) -> Self {
        let (name, team) = full_name.split_once('@').unwrap_or((full_name, ""));
        Self::new_raw_unchecked(name, team)
    }
    /// 大部分情况下的实际调用 p1
    /// p2 是 new_from_team_namer_unchecked
    /// 实际上还是个包装
    #[inline(always)]
    pub fn new_raw_unchecked(name: &str, team: &str) -> Self {
        let team_namer = TeamNamer::new_unchecked(team);
        Self::new_from_team_namer_unchecked(&team_namer, name)
    }
    /// 带检查长度的 from namer
    /// 我其实也不知道为啥要有他, 就带上了吧
    #[inline(always)]
    pub fn new_from_team_namer(team_namer: &TeamNamer, name: &str) -> Option<Self> {
        if name.len() > 256 {
            warn!("Name too long({}): {}", name.len(), name);
            return None;
        }
        Some(Self::new_from_team_namer_unchecked(team_namer, name))
    }
    /// 实际 new 实现
    #[inline(always)]
    pub fn new_from_team_namer_unchecked(team_namer: &TeamNamer, name: &str) -> Self {
        let mut val: [u8; 256] = team_namer.clone_vals();
        // let mut val: [u8; 256] = (0..=255).collect::<Vec<u8>>().try_into().unwrap();
        let mut name_base = [0_u8; 128];
        let mut name_prop = [0_u32; 8];
        let skl_id = [0_u8; 40];
        let skl_freq = [0_u8; 40];

        let name_bytes = name.as_bytes();
        // let mut name_bytes = name.as_bytes().to_vec();
        // name_bytes.insert(0, 0);
        let name_len = name_bytes.len();
        let b_name_len = name_len + 1;
        // 转到 256 长度 的 u8 数组
        // let name_bytes = {
        //     let mut bytes = [0_u8; 256];
        //     for i in 0..name_len {
        //         bytes[i + 1] = name_bytes[i];
        //     }
        //     bytes
        // };
        // // 计算
        // for i in 0..256 {
        //     s += team_bytes[i % (team_len + 1)] as u32 + val[i] as u32;
        //     s %= 256;
        //     let tmp = val[i];
        //     val[i] = val[s as usize];
        //     val[s as usize] = tmp;
        // }
        // s = 0;
        // cpp 实现
        /*
        for (int _ = 0; _ < 2; _++) {
            for (int i = s = 0, j = 0; i < N; i++, j++) {
                s += name[j];
                s += val[i];
                std::swap(val[i], val[s]);
                if (j == len) j = -1;
            }
        } */
        for _ in 0..2 {
            // 手动处理 0 的问题
            // 手动swap
            let mut s = 0_u8;
            val.swap(s as usize, 0);
            for i in 0..256 {
                // s = s.wrapping_add(name_bytes[i % name_len]);
                s = s.wrapping_add(match i % b_name_len {
                    0 => 0,
                    k => name_bytes[k - 1],
                });
                s = s.wrapping_add(val[i]);
                val.swap(i, s as usize);
            }
        }
        // for i in 0..256 {
        //     let m = ((val[i] as u32 * 181) + 160) % 256;
        //     if m >= 89 && m < 217 {
        //         name_base[s as usize] = (m & 63) as u8;
        //         s += 1;
        //     }
        // }
        // for _ in 0..2 {
        //     for i in 0..256 {
        //         if i < name_len {
        //             s = s.overflowing_add(name_bytes[i]).0;
        //         }
        //         s = s.overflowing_add(val[i]).0;
        //         val.swap(i, s as usize);
        //     }
        // }
        /*
        #define median(x, y, z) std::max(std::min(x, y), std::min(std::max(x, y), z))
        #define LIM 96
        #define WK(x) val[i + x] = val[i + x] * 181 + 160;
        #define a name_base
        for (int i = 0; i < LIM; i += 8) {
            WK(0) WK(1) WK(2) WK(3) WK(4) WK(5) WK(6) WK(7)
        }
        for (int i = 0; i < LIM && q_len < 30; i++)
            if (val[i] >= 89 && val[i] < 217) a[++q_len] = val[i] & 63;

        if (q_len < 30) {
            for (int i = LIM; i < N; i += 8) {
                WK(0) WK(1) WK(2) WK(3) WK(4) WK(5) WK(6) WK(7)
            }
            for (int i = LIM; i < N && q_len < 30; i++)
                if (val[i] >= 89 && val[i] < 217) a[++q_len] = val[i] & 63;
        }*/
        // simd 优化
        #[cfg(feature = "simd")]
        {
            let mut simd_val = val.clone();
            let x_a = u8x64::splat(181);
            let x_b = u8x64::splat(160);
            for i in (0..256).step_by(64) {
                // 一次性加载4个数字
                let mut x = u8x64::from_slice(&simd_val[i..]);
                x = x * x_a + x_b;
                x.copy_to_slice(&mut simd_val[i..]);
            }

            let mut mod_count = 0;
            for i in 0..256 {
                let k = simd_val[i];
                if k >= 89 && k < 217 {
                    name_base[mod_count as usize] = (k & 63) as u8;
                    mod_count += 1;
                }
                if mod_count >= 31 {
                    break;
                }
            }
            if mod_count < 31 {
                // println!("mod_count: {}", mod_count);
                // for i in (96..256).step_by(64) {
                //     // 一次性加载4个数字
                //     let mut x = u8x64::from_slice(&simd_val[i..]);
                //     x = x * x_a + x_b;
                //     x.copy_to_slice(&mut simd_val[i..]);
                // }
                for i in 96..256 {
                    let k = simd_val[i];
                    if k >= 89 && k < 217 {
                        name_base[mod_count as usize] = (k & 63) as u8;
                        mod_count += 1;
                    }
                    if mod_count >= 30 {
                        break;
                    }
                }
            }
        }

        #[cfg(not(feature = "simd"))]
        {
            let mut s = 0;
            for i in 0..256 {
                let m = ((val[i] as u32 * 181) + 160) % 256;
                if m >= 89 && m < 217 {
                    name_base[s as usize] = (m & 63) as u8;
                    s += 1;
                }
            }
        }

        // 计算 name_prop
        let mut prop_cnt = 0;
        let mut prop_name = name_base[0..32].to_vec();
        for i in (10..31).step_by(3) {
            prop_name[i..i + 3].sort_unstable();
            let med = median(prop_name[i], prop_name[i + 1], prop_name[i + 2]);
            name_prop[prop_cnt] = med as u32;
            prop_cnt += 1;
        }
        prop_name[0..10].sort_unstable();
        name_prop[prop_cnt] = 154;
        prop_cnt += 1;
        for i in 3..7 {
            name_prop[prop_cnt - 1] += prop_name[i] as u32;
        }
        for i in 0..7 {
            name_prop[i] += 36;
        }
        /*
    	st[0] = 154 + a[3] + a[4] + a[5] + a[6];
        st[1] = median(prop_name[10], prop_name[11], prop_name[12]) + 36;
        st[2] = median(prop_name[13], prop_name[14], prop_name[15]) + 36;
        st[3] = median(prop_name[16], prop_name[17], prop_name[18]) + 36;
        st[4] = median(prop_name[19], prop_name[20], prop_name[21]) + 36;
        st[5] = median(prop_name[22], prop_name[23], prop_name[24]) + 36;
        st[6] = median(prop_name[25], prop_name[26], prop_name[27]) + 36;
        st[7] = median(prop_name[28], prop_name[29], prop_name[30]) + 36; */
        // name_prop[0] = 154 + prop_name[3] as u32 + prop_name[4] as u32 + prop_name[5] as u32 + prop_name[6] as u32;
        // name_prop[1] = median(prop_name[10], prop_name[11], prop_name[12]) as u32 + 36;
        // name_prop[2] = median(prop_name[13], prop_name[14], prop_name[15]) as u32 + 36;
        // name_prop[3] = median(prop_name[16], prop_name[17], prop_name[18]) as u32 + 36;
        // name_prop[4] = median(prop_name[19], prop_name[20], prop_name[21]) as u32 + 36;
        // name_prop[5] = median(prop_name[22], prop_name[23], prop_name[24]) as u32 + 36;
        // name_prop[6] = median(prop_name[25], prop_name[26], prop_name[27]) as u32 + 36;
        // name_prop[7] = median(prop_name[28], prop_name[29], prop_name[30]) as u32 + 36;

        Self {
            name: name.to_string(),
            team: team_namer.team.clone(),
            val,
            name_base,
            name_prop,
            skl_id,
            skl_freq,
        }
    }

    #[inline(always)]
    pub fn get_property(&self) -> f32 {
        // 除 prop[7] 外 加起来  + prop[7] / 3
        let sum1 = self.name_prop[0..7].iter().sum::<u32>();
        let sum2 = self.name_prop[7] as u32;
        sum1 as f32 + (sum2 as f32 / 3_f32)
    }
}

#[cfg(test)]
mod test {
    use super::*;

    #[test]
    fn new_test() {
        let namer = Namer::new(&"x@x".to_string());
        assert!(namer.is_some());
        let namer = namer.unwrap();
        assert_eq!(namer.name, "x");
        assert_eq!(namer.team, "x");
    }
    
    #[test]
    fn val_test() {
        let team = TeamNamer::new_unchecked("x");
        let namer = Namer::new_from_team_namer_unchecked(&team, "x");

        let val_vec: Vec<u8> = vec![
            225, 96, 49, 232, 20, 47, 115, 245, 234, 23, 111, 178, 231, 100, 118, 197, 42, 98, 137,
            196, 209, 86, 114, 184, 167, 129, 164, 239, 205, 211, 82, 173, 189, 153, 198, 67, 4, 3,
            90, 52, 128, 134, 176, 145, 85, 9, 250, 30, 63, 247, 240, 17, 215, 200, 78, 188, 132,
            117, 10, 45, 162, 79, 123, 73, 109, 91, 57, 210, 22, 175, 107, 203, 103, 32, 83, 70,
            242, 75, 220, 140, 148, 15, 138, 44, 228, 43, 105, 199, 99, 116, 97, 69, 80, 172, 230,
            25, 224, 33, 31, 135, 235, 74, 193, 238, 233, 88, 216, 204, 24, 163, 141, 6, 201, 26,
            38, 21, 186, 237, 101, 206, 212, 76, 144, 219, 149, 169, 202, 110, 41, 166, 139, 194,
            168, 34, 142, 147, 187, 108, 223, 94, 5, 243, 226, 60, 40, 102, 51, 87, 61, 236, 46,
            159, 64, 227, 113, 190, 81, 127, 65, 8, 183, 253, 150, 249, 229, 37, 156, 182, 180,
            246, 124, 244, 174, 122, 89, 120, 160, 35, 143, 11, 14, 151, 133, 27, 177, 251, 221,
            207, 58, 29, 131, 119, 171, 157, 93, 185, 48, 112, 192, 191, 66, 106, 39, 59, 92, 19,
            1, 155, 254, 84, 222, 165, 54, 121, 13, 50, 36, 130, 95, 161, 213, 170, 28, 241, 71,
            53, 68, 218, 0, 252, 16, 136, 179, 158, 248, 2, 154, 12, 125, 126, 255, 18, 146, 104,
            77, 152, 208, 214, 72, 55, 195, 62, 7, 217, 56, 181,
        ];
        assert_eq!(namer.val.to_vec(), val_vec);
    }

    #[test]
    fn base_name_test() {
        let team = TeamNamer::new_unchecked("x");
        let namer = Namer::new_from_team_namer_unchecked(&team, "x");

        let base_name_vec: Vec<u8> = vec![
            53, 0, 40, 4, 58, 61, 37, 46, 56, 51, 21, 20, 27, 17, 15, 26, 13, 30, 52, 63, 36, 30,
            57, 34, 22, 37, 35, 6, 12, 25, 50, 49, 59, 23, 49, 27, 51, 58, 39, 28, 60, 20, 31, 36,
            41, 11, 7, 29, 24, 24, 61, 62, 57, 4, 28, 48, 55, 50, 38, 29, 10, 40, 42, 15, 23, 47,
            42, 62, 47, 1, 60, 5, 43, 21, 1, 46, 45, 9, 9, 14, 38, 13, 56, 0, 31, 59, 39, 6, 35,
            41, 55, 5, 34, 3, 7, 33, 33, 45, 16, 16, 32, 43, 18, 44, 22, 14, 17, 10, 11, 53, 18,
            44, 19, 52, 2, 32, 12, 8, 2, 54, 26, 48, 8, 3, 63, 54, 19, 25,
        ];
        assert_eq!(namer.name_base.to_vec(), base_name_vec);
    }

    #[test]
    fn prop_test() {
        let team = TeamNamer::new_unchecked("x");
        let namer = Namer::new_from_team_namer_unchecked(&team, "x");
        
        let prop_vec: Vec<u32> = vec![57, 53, 66, 72, 70, 71, 61, 344];
        assert_eq!(namer.name_prop.to_vec(), prop_vec);
    }
}
一波 2024-03-02 00:08:56 +08:00			`#[cfg(feature = "simd")]`
			`use std::simd::u8x64;`
稍微改进一点点 2024-03-01 21:57:29 +08:00
lv1 debug 2024-02-28 21:49:09 +08:00			`use tracing::warn;`

Fix calculation start point in cacl function 2024-02-29 01:13:59 +08:00			`#[inline(always)]`
修复了一些傻子问题 2024-02-28 22:22:47 +08:00			`pub fn median<T>(x: T, y: T, z: T) -> T`
			`where`
			`T: std::cmp::Ord + std::marker::Copy,`
			`{`
整！ 2024-02-28 19:04:57 +08:00			`x.max(y).max(x.min(y).min(z))`
			`}`

fixed！ 321000/s 2024-02-29 19:49:49 +08:00			`#[derive(Debug, Clone)]`
			`pub struct TeamNamer {`
			`pub team: String,`
			`pub val: [u8; 256],`
			`}`

			`impl TeamNamer {`
			`/// 方便使用的 new`
			`/// 会检查长度是否超过 256`
			`#[inline(always)]`
			`pub fn new(team: &str) -> Option<Self> {`
			`if team.len() > 256 {`
			`warn!("Team too long({}): {}", team.len(), team);`
			`return None;`
			`}`
			`Some(Self::new_unchecked(team))`
			`}`
			`#[inline(always)]`
			`pub fn new_unchecked(team: &str) -> Self {`
			`let team_bytes = team.as_bytes();`
			`let mut val: [u8; 256] = (0..=255).collect::<Vec<u8>>().try_into().unwrap();`
			`let mut s = 0_u8;`
			`let t_len = team.len() + 1;`
			`for i in 0..256 {`
			`if (i % t_len) != 0 {`
			`s = s.wrapping_add(team_bytes[(i % t_len) - 1]);`
			`}`
			`s = s.wrapping_add(val[i]);`
			`val.swap(i, s as usize);`
			`}`
			`Self {`
			`team: team.to_string(),`
			`val,`
			`}`
			`}`
			`#[inline(always)]`
			`pub fn clone_vals(&self) -> [u8; 256] {`
			`self.val.clone()`
			`}`
			`}`

lv1 debug 2024-02-28 21:49:09 +08:00			`#[derive(Debug, Clone)]`
			`pub struct Namer {`
修复了一些傻子问题 2024-02-28 22:22:47 +08:00			`pub name: String,`
			`pub team: String,`
			`pub val: [u8; 256],`
			`pub name_base: [u8; 128],`
			`pub name_prop: [u32; 8],`
			`pub skl_id: [u8; 40],`
			`pub skl_freq: [u8; 40],`
整！ 2024-02-28 19:04:57 +08:00			`}`
更换成 js 版本 2024-02-28 19:18:30 +08:00
lv1 debug 2024-02-28 21:49:09 +08:00			`impl Namer {`
fixed！ 321000/s 2024-02-29 19:49:49 +08:00			`/// 最完整的、最简单的 new`
			`/// 可以直接丢一个 name 进来`
就这样了（瘫倒 2024-02-29 01:59:03 +08:00			`#[inline(always)]`
fixed！ 321000/s 2024-02-29 19:49:49 +08:00			`pub fn new(full_name: &String) -> Option<Self> {`
			`// name@team`
			`// name`
			`let (name, team) = full_name.split_once('@').unwrap_or((full_name, ""));`
			`if name.len() > 256 {`
			`warn!("Name too long({}): {}", name.len(), name);`
			`return None;`
			`}`
			`if team.len() > 256 {`
			`warn!("Team too long({}): {}", team.len(), team);`
			`return None;`
			`}`
			`Some(Self::new_raw_unchecked(name, team))`
			`}`
			`/// 用起来也很方便的`
			`/// 只不过是需要分别输入, 也挺好用的`
			`/// 包括了长度检测`
			`#[inline(always)]`
			`pub fn new_raw(name: &str, team: &str) -> Option<Self> {`
			`if name.len() > 256 {`
			`warn!("Name too long({}): {}", name.len(), name);`
			`return None;`
修复了一些傻子问题 2024-02-28 22:22:47 +08:00			`}`
fixed！ 321000/s 2024-02-29 19:49:49 +08:00			`if team.len() > 256 {`
			`warn!("Team too long({}): {}", team.len(), team);`
			`return None;`
			`}`
			`Some(Self::new_raw_unchecked(name, team))`
			`}`
			`/// 不带检查长度的 new`
			`/// 依然可以传一个完整的进来`
			`#[inline(always)]`
			`pub fn new_unchecked(full_name: &str) -> Self {`
			`let (name, team) = full_name.split_once('@').unwrap_or((full_name, ""));`
			`Self::new_raw_unchecked(name, team)`
			`}`
			`/// 大部分情况下的实际调用 p1`
			`/// p2 是 new_from_team_namer_unchecked`
			`/// 实际上还是个包装`
			`#[inline(always)]`
			`pub fn new_raw_unchecked(name: &str, team: &str) -> Self {`
			`let team_namer = TeamNamer::new_unchecked(team);`
			`Self::new_from_team_namer_unchecked(&team_namer, name)`
			`}`
			`/// 带检查长度的 from namer`
			`/// 我其实也不知道为啥要有他, 就带上了吧`
			`#[inline(always)]`
			`pub fn new_from_team_namer(team_namer: &TeamNamer, name: &str) -> Option<Self> {`
			`if name.len() > 256 {`
			`warn!("Name too long({}): {}", name.len(), name);`
			`return None;`
			`}`
			`Some(Self::new_from_team_namer_unchecked(team_namer, name))`
			`}`
			`/// 实际 new 实现`
			`#[inline(always)]`
			`pub fn new_from_team_namer_unchecked(team_namer: &TeamNamer, name: &str) -> Self {`
			`let mut val: [u8; 256] = team_namer.clone_vals();`
			`// let mut val: [u8; 256] = (0..=255).collect::<Vec<u8>>().try_into().unwrap();`
修复了一些傻子问题 2024-02-28 22:22:47 +08:00			`let mut name_base = [0_u8; 128];`
			`let mut name_prop = [0_u32; 8];`
go! 2024-02-28 23:33:59 +08:00			`let skl_id = [0_u8; 40];`
			`let skl_freq = [0_u8; 40];`
更换成 js 版本 2024-02-28 19:18:30 +08:00
修复了一些傻子问题 2024-02-28 22:22:47 +08:00			`let name_bytes = name.as_bytes();`
似乎能行（ 2024-03-01 22:38:29 +08:00			`// let mut name_bytes = name.as_bytes().to_vec();`
			`// name_bytes.insert(0, 0);`
fixed！ 321000/s 2024-02-29 19:49:49 +08:00			`let name_len = name_bytes.len();`
似乎能行（ 2024-03-01 22:38:29 +08:00			`let b_name_len = name_len + 1;`
修复了一些傻子问题 2024-02-28 22:22:47 +08:00			`// 转到 256 长度的 u8 数组`
似乎能行（ 2024-03-01 22:38:29 +08:00			`// let name_bytes = {`
			`// let mut bytes = [0_u8; 256];`
			`// for i in 0..name_len {`
			`// bytes[i + 1] = name_bytes[i];`
			`// }`
			`// bytes`
			`// };`
fixed！ 321000/s 2024-02-29 19:49:49 +08:00			`// // 计算`
			`// for i in 0..256 {`
			`// s += team_bytes[i % (team_len + 1)] as u32 + val[i] as u32;`
			`// s %= 256;`
			`// let tmp = val[i];`
			`// val[i] = val[s as usize];`
			`// val[s as usize] = tmp;`
			`// }`
			`// s = 0;`
似乎能行（ 2024-03-01 22:38:29 +08:00			`// cpp 实现`
先存一份能跑的（panic 2024-02-29 21:55:15 +08:00			`/*`
			`for (int _ = 0; _ < 2; _++) {`
			`for (int i = s = 0, j = 0; i < N; i++, j++) {`
			`s += name[j];`
			`s += val[i];`
			`std::swap(val[i], val[s]);`
			`if (j == len) j = -1;`
			`}`
			`} */`
fixed！ 321000/s 2024-02-29 19:49:49 +08:00			`for _ in 0..2 {`
似乎能行（ 2024-03-01 22:38:29 +08:00			`// 手动处理 0 的问题`
			`// 手动swap`
			`let mut s = 0_u8;`
			`val.swap(s as usize, 0);`
			`for i in 0..256 {`
			`// s = s.wrapping_add(name_bytes[i % name_len]);`
一波 2024-03-02 00:08:56 +08:00			`s = s.wrapping_add(match i % b_name_len {`
			`0 => 0,`
			`k => name_bytes[k - 1],`
			`});`
似乎能行（ 2024-03-01 22:38:29 +08:00			`s = s.wrapping_add(val[i]);`
			`val.swap(i, s as usize);`
fixed！ 321000/s 2024-02-29 19:49:49 +08:00			`}`
修复了一些傻子问题 2024-02-28 22:22:47 +08:00			`}`
先存一份能跑的（panic 2024-02-29 21:55:15 +08:00			`// for i in 0..256 {`
			`// let m = ((val[i] as u32 * 181) + 160) % 256;`
			`// if m >= 89 && m < 217 {`
			`// name_base[s as usize] = (m & 63) as u8;`
			`// s += 1;`
			`// }`
			`// }`
			`// for _ in 0..2 {`
			`// for i in 0..256 {`
			`// if i < name_len {`
			`// s = s.overflowing_add(name_bytes[i]).0;`
			`// }`
			`// s = s.overflowing_add(val[i]).0;`
			`// val.swap(i, s as usize);`
			`// }`
			`// }`
			`/*`
			`#define median(x, y, z) std::max(std::min(x, y), std::min(std::max(x, y), z))`
			`#define LIM 96`
			`#define WK(x) val[i + x] = val[i + x] * 181 + 160;`
稍微改进一点点 2024-03-01 21:57:29 +08:00			`#define a name_base`
			`for (int i = 0; i < LIM; i += 8) {`
			`WK(0) WK(1) WK(2) WK(3) WK(4) WK(5) WK(6) WK(7)`
			`}`
			`for (int i = 0; i < LIM && q_len < 30; i++)`
			`if (val[i] >= 89 && val[i] < 217) a[++q_len] = val[i] & 63;`
先存一份能跑的（panic 2024-02-29 21:55:15 +08:00
稍微改进一点点 2024-03-01 21:57:29 +08:00			`if (q_len < 30) {`
			`for (int i = LIM; i < N; i += 8) {`
			`WK(0) WK(1) WK(2) WK(3) WK(4) WK(5) WK(6) WK(7)`
			`}`
			`for (int i = LIM; i < N && q_len < 30; i++)`
			`if (val[i] >= 89 && val[i] < 217) a[++q_len] = val[i] & 63;`
			`}*/`
一波 2024-03-02 00:08:56 +08:00			`// simd 优化`
			`#[cfg(feature = "simd")]`
			`{`
			`let mut simd_val = val.clone();`
			`let x_a = u8x64::splat(181);`
			`let x_b = u8x64::splat(160);`
			`for i in (0..256).step_by(64) {`
			`// 一次性加载4个数字`
			`let mut x = u8x64::from_slice(&simd_val[i..]);`
			`x = x * x_a + x_b;`
			`x.copy_to_slice(&mut simd_val[i..]);`
			`}`

			`let mut mod_count = 0;`
			`for i in 0..256 {`
			`let k = simd_val[i];`
			`if k >= 89 && k < 217 {`
Fixed (30 -> 31) 2024-03-02 00:50:45 +08:00			`name_base[mod_count as usize] = (k & 63) as u8;`
一波 2024-03-02 00:08:56 +08:00			`mod_count += 1;`
			`}`
Fixed (30 -> 31) 2024-03-02 00:50:45 +08:00			`if mod_count >= 31 {`
一波 2024-03-02 00:08:56 +08:00			`break;`
			`}`
			`}`
Fixed (30 -> 31) 2024-03-02 00:50:45 +08:00			`if mod_count < 31 {`
啊？ 2024-03-02 00:38:51 +08:00			`// println!("mod_count: {}", mod_count);`
			`// for i in (96..256).step_by(64) {`
			`// // 一次性加载4个数字`
			`// let mut x = u8x64::from_slice(&simd_val[i..]);`
			`// x = x * x_a + x_b;`
			`// x.copy_to_slice(&mut simd_val[i..]);`
			`// }`
一波 2024-03-02 00:08:56 +08:00			`for i in 96..256 {`
			`let k = simd_val[i];`
			`if k >= 89 && k < 217 {`
Fixed (30 -> 31) 2024-03-02 00:50:45 +08:00			`name_base[mod_count as usize] = (k & 63) as u8;`
一波 2024-03-02 00:08:56 +08:00			`mod_count += 1;`
			`}`
			`if mod_count >= 30 {`
			`break;`
			`}`
			`}`
			`}`
			`}`

			`#[cfg(not(feature = "simd"))]`
			`{`
			`let mut s = 0;`
			`for i in 0..256 {`
			`let m = ((val[i] as u32 * 181) + 160) % 256;`
			`if m >= 89 && m < 217 {`
			`name_base[s as usize] = (m & 63) as u8;`
			`s += 1;`
			`}`
修复了一些傻子问题 2024-02-28 22:22:47 +08:00			`}`
			`}`
更换成 js 版本 2024-02-28 19:18:30 +08:00
go! 2024-02-28 23:33:59 +08:00			`// 计算 name_prop`
修复了一些傻子问题 2024-02-28 22:22:47 +08:00			`let mut prop_cnt = 0;`
一波 2024-03-02 00:08:56 +08:00			`let mut prop_name = name_base[0..32].to_vec();`
修复了一些傻子问题 2024-02-28 22:22:47 +08:00			`for i in (10..31).step_by(3) {`
一波 2024-03-02 00:08:56 +08:00			`prop_name[i..i + 3].sort_unstable();`
			`let med = median(prop_name[i], prop_name[i + 1], prop_name[i + 2]);`
Fix calculation start point in cacl function 2024-02-29 01:13:59 +08:00			`name_prop[prop_cnt] = med as u32;`
修复了一些傻子问题 2024-02-28 22:22:47 +08:00			`prop_cnt += 1;`
			`}`
一波 2024-03-02 00:08:56 +08:00			`prop_name[0..10].sort_unstable();`
修复了一些傻子问题 2024-02-28 22:22:47 +08:00			`name_prop[prop_cnt] = 154;`
			`prop_cnt += 1;`
			`for i in 3..7 {`
一波 2024-03-02 00:08:56 +08:00			`name_prop[prop_cnt - 1] += prop_name[i] as u32;`
修复了一些傻子问题 2024-02-28 22:22:47 +08:00			`}`
			`for i in 0..7 {`
			`name_prop[i] += 36;`
			`}`
啊？ 2024-03-02 00:38:51 +08:00			`/*`
			`st[0] = 154 + a[3] + a[4] + a[5] + a[6];`
			`st[1] = median(prop_name[10], prop_name[11], prop_name[12]) + 36;`
			`st[2] = median(prop_name[13], prop_name[14], prop_name[15]) + 36;`
			`st[3] = median(prop_name[16], prop_name[17], prop_name[18]) + 36;`
			`st[4] = median(prop_name[19], prop_name[20], prop_name[21]) + 36;`
			`st[5] = median(prop_name[22], prop_name[23], prop_name[24]) + 36;`
			`st[6] = median(prop_name[25], prop_name[26], prop_name[27]) + 36;`
			`st[7] = median(prop_name[28], prop_name[29], prop_name[30]) + 36; */`
			`// name_prop[0] = 154 + prop_name[3] as u32 + prop_name[4] as u32 + prop_name[5] as u32 + prop_name[6] as u32;`
			`// name_prop[1] = median(prop_name[10], prop_name[11], prop_name[12]) as u32 + 36;`
			`// name_prop[2] = median(prop_name[13], prop_name[14], prop_name[15]) as u32 + 36;`
			`// name_prop[3] = median(prop_name[16], prop_name[17], prop_name[18]) as u32 + 36;`
			`// name_prop[4] = median(prop_name[19], prop_name[20], prop_name[21]) as u32 + 36;`
			`// name_prop[5] = median(prop_name[22], prop_name[23], prop_name[24]) as u32 + 36;`
			`// name_prop[6] = median(prop_name[25], prop_name[26], prop_name[27]) as u32 + 36;`
			`// name_prop[7] = median(prop_name[28], prop_name[29], prop_name[30]) as u32 + 36;`
更换成 js 版本 2024-02-28 19:18:30 +08:00
就这样了（瘫倒 2024-02-29 01:59:03 +08:00			`Self {`
修复了一些傻子问题 2024-02-28 22:22:47 +08:00			`name: name.to_string(),`
fixed！ 321000/s 2024-02-29 19:49:49 +08:00			`team: team_namer.team.clone(),`
修复了一些傻子问题 2024-02-28 22:22:47 +08:00			`val,`
			`name_base,`
			`name_prop,`
			`skl_id,`
			`skl_freq,`
就这样了（瘫倒 2024-02-29 01:59:03 +08:00			`}`
修复了一些傻子问题 2024-02-28 22:22:47 +08:00			`}`
更换成 js 版本 2024-02-28 19:18:30 +08:00
就这样了（瘫倒 2024-02-29 01:59:03 +08:00			`#[inline(always)]`
			`pub fn get_property(&self) -> f32 {`
			`// 除 prop[7] 外加起来 + prop[7] / 3`
			`let sum1 = self.name_prop[0..7].iter().sum::<u32>();`
			`let sum2 = self.name_prop[7] as u32;`
			`sum1 as f32 + (sum2 as f32 / 3_f32)`
			`}`
整！ 2024-02-28 19:04:57 +08:00			`}`
lv1 debug 2024-02-28 21:49:09 +08:00
fixed！ 321000/s 2024-02-29 19:49:49 +08:00			`#[cfg(test)]`
			`mod test {`
			`use super::*;`
lv1 debug 2024-02-28 21:49:09 +08:00
fixed！ 321000/s 2024-02-29 19:49:49 +08:00			`#[test]`
Fixed (30 -> 31) 2024-03-02 00:50:45 +08:00			`fn new_test() {`
			`let namer = Namer::new(&"x@x".to_string());`
			`assert!(namer.is_some());`
			`let namer = namer.unwrap();`
			`assert_eq!(namer.name, "x");`
			`assert_eq!(namer.team, "x");`
			`}`

			`#[test]`
			`fn val_test() {`
fixed！ 321000/s 2024-02-29 19:49:49 +08:00			`let team = TeamNamer::new_unchecked("x");`
			`let namer = Namer::new_from_team_namer_unchecked(&team, "x");`
go! 2024-02-28 23:33:59 +08:00
fixed！ 321000/s 2024-02-29 19:49:49 +08:00			`let val_vec: Vec<u8> = vec![`
			`225, 96, 49, 232, 20, 47, 115, 245, 234, 23, 111, 178, 231, 100, 118, 197, 42, 98, 137,`
			`196, 209, 86, 114, 184, 167, 129, 164, 239, 205, 211, 82, 173, 189, 153, 198, 67, 4, 3,`
			`90, 52, 128, 134, 176, 145, 85, 9, 250, 30, 63, 247, 240, 17, 215, 200, 78, 188, 132,`
			`117, 10, 45, 162, 79, 123, 73, 109, 91, 57, 210, 22, 175, 107, 203, 103, 32, 83, 70,`
			`242, 75, 220, 140, 148, 15, 138, 44, 228, 43, 105, 199, 99, 116, 97, 69, 80, 172, 230,`
			`25, 224, 33, 31, 135, 235, 74, 193, 238, 233, 88, 216, 204, 24, 163, 141, 6, 201, 26,`
			`38, 21, 186, 237, 101, 206, 212, 76, 144, 219, 149, 169, 202, 110, 41, 166, 139, 194,`
			`168, 34, 142, 147, 187, 108, 223, 94, 5, 243, 226, 60, 40, 102, 51, 87, 61, 236, 46,`
			`159, 64, 227, 113, 190, 81, 127, 65, 8, 183, 253, 150, 249, 229, 37, 156, 182, 180,`
			`246, 124, 244, 174, 122, 89, 120, 160, 35, 143, 11, 14, 151, 133, 27, 177, 251, 221,`
			`207, 58, 29, 131, 119, 171, 157, 93, 185, 48, 112, 192, 191, 66, 106, 39, 59, 92, 19,`
			`1, 155, 254, 84, 222, 165, 54, 121, 13, 50, 36, 130, 95, 161, 213, 170, 28, 241, 71,`
			`53, 68, 218, 0, 252, 16, 136, 179, 158, 248, 2, 154, 12, 125, 126, 255, 18, 146, 104,`
			`77, 152, 208, 214, 72, 55, 195, 62, 7, 217, 56, 181,`
			`];`
			`assert_eq!(namer.val.to_vec(), val_vec);`
Fixed (30 -> 31) 2024-03-02 00:50:45 +08:00			`}`

			`#[test]`
			`fn base_name_test() {`
			`let team = TeamNamer::new_unchecked("x");`
			`let namer = Namer::new_from_team_namer_unchecked(&team, "x");`

			`let base_name_vec: Vec<u8> = vec![`
			`53, 0, 40, 4, 58, 61, 37, 46, 56, 51, 21, 20, 27, 17, 15, 26, 13, 30, 52, 63, 36, 30,`
			`57, 34, 22, 37, 35, 6, 12, 25, 50, 49, 59, 23, 49, 27, 51, 58, 39, 28, 60, 20, 31, 36,`
			`41, 11, 7, 29, 24, 24, 61, 62, 57, 4, 28, 48, 55, 50, 38, 29, 10, 40, 42, 15, 23, 47,`
			`42, 62, 47, 1, 60, 5, 43, 21, 1, 46, 45, 9, 9, 14, 38, 13, 56, 0, 31, 59, 39, 6, 35,`
			`41, 55, 5, 34, 3, 7, 33, 33, 45, 16, 16, 32, 43, 18, 44, 22, 14, 17, 10, 11, 53, 18,`
			`44, 19, 52, 2, 32, 12, 8, 2, 54, 26, 48, 8, 3, 63, 54, 19, 25,`
			`];`
fixed！ 321000/s 2024-02-29 19:49:49 +08:00			`assert_eq!(namer.name_base.to_vec(), base_name_vec);`
			`}`
Fixed (30 -> 31) 2024-03-02 00:50:45 +08:00
			`#[test]`
			`fn prop_test() {`
			`let team = TeamNamer::new_unchecked("x");`
			`let namer = Namer::new_from_team_namer_unchecked(&team, "x");`

			`let prop_vec: Vec<u32> = vec![57, 53, 66, 72, 70, 71, 61, 344];`
			`assert_eq!(namer.name_prop.to_vec(), prop_vec);`
			`}`
fixed！ 321000/s 2024-02-29 19:49:49 +08:00			`}`