CSES - Datatähti 2025 alku

CSES - Datatähti 2025 alku - Results

Submission details
Task:	Robotti
Sender:	Kivvil
Submission time:	2024-11-01 21:15:17 +0200
Language:	Rust (2021)
Status:	READY
Result:	0

Feedback
group	verdict	score
#1	WRONG ANSWER	0
#2	WRONG ANSWER	0

Test results
test	verdict	time	group
#1	ACCEPTED	0.00 s	1, 2	details
#2	ACCEPTED	0.00 s	1, 2	details
#3	WRONG ANSWER	0.00 s	1, 2	details
#4	ACCEPTED	0.00 s	1, 2	details
#5	WRONG ANSWER	0.00 s	1, 2	details
#6	WRONG ANSWER	0.00 s	1, 2	details
#7	WRONG ANSWER	0.00 s	1, 2	details
#8	ACCEPTED	0.00 s	1, 2	details
#9	ACCEPTED	0.00 s	1, 2	details
#10	WRONG ANSWER	0.00 s	1, 2	details
#11	WRONG ANSWER	0.00 s	1, 2	details
#12	WRONG ANSWER	0.00 s	2	details
#13	WRONG ANSWER	0.00 s	2	details
#14	WRONG ANSWER	0.01 s	2	details
#15	WRONG ANSWER	0.04 s	2	details
#16	WRONG ANSWER	0.00 s	2	details
#17	ACCEPTED	0.00 s	2	details
#18	WRONG ANSWER	0.05 s	2	details
#19	TIME LIMIT EXCEEDED	--	2	details
#20	ACCEPTED	0.01 s	2	details
#21	WRONG ANSWER	0.00 s	2	details
#22	WRONG ANSWER	0.01 s	2	details
#23	TIME LIMIT EXCEEDED	--	2	details
#24	WRONG ANSWER	0.01 s	2	details

Compiler report

warning: field `kartan_pituus` is never read
  --> input/code.rs:17:5
   |
15 | struct Rakennus {
   |        -------- field in this struct
16 |     kolikot: Vec<Kolikko>,
17 |     kartan_pituus: usize,
   |     ^^^^^^^^^^^^^
   |
   = note: `#[warn(dead_code)]` on by default

warning: variants `Tyhja` and `Kolikko` are never constructed
   --> input/code.rs:185:5
    |
184 | enum Huone {
    |      ----- variants in this enum
185 |     Tyhja,
    |     ^^^^^
186 |     Kolikko,
    |     ^^^^^^^

warning: associated function `from_char` is never used
   --> input/code.rs:195:8
    |
194 | impl Huone {
    | ---------- associated function in this implementation
195 |     fn from_char(character: char) -> Self {
    |        ^^^^^^^^^

warning: 3 warnings emitted

Code

use std::vec::Vec;
 
fn main() {
    let mut stdin_lines = std::io::stdin().lines();
 
    // Luetaan vain kartta huoneista, ei tarvita ensimmäistä riviä, joten skipataan se.
    let _ = stdin_lines.next();
    let rivi = stdin_lines.next().unwrap().unwrap();
    let mut rakennus = Rakennus::new(rivi);
 
    let (askeleet, kolikot) = rakennus.pelaa();
    println!("{} {}", askeleet, kolikot);
}
 
struct Rakennus {
    kolikot: Vec<Kolikko>,
    kartan_pituus: usize,
    // Indeksi huoneet-vektoriin, jossa robotti sijaitsee
    robotti_indeksi: usize,
 
    // Edellinen indeksi kolikot-vektoriin, jossa kolikko on sijainnut.
    edellinen_kolikkoindeksi: usize,
 
    keratyt_kolikot: u32,
    askeleet: u32,
}
 
impl Rakennus {
    fn new(syote: String) -> Self {
        Self {
            kolikot: {
                let mut kolikot = vec![];
                for (indeksi, merkki) in syote.chars().enumerate() {
                    if merkki == '*' {
                        kolikot.push(Kolikko {
                            keratty: false,
                            indeksi,
                        });
                    }
                }
                kolikot
            },
            robotti_indeksi: syote.find("R").unwrap(),
            edellinen_kolikkoindeksi: 0,
            keratyt_kolikot: 0,
            askeleet: 0,
            kartan_pituus: syote.len(),
        }
    }
 
    // Pelaa peliä. Palauttaa tuplen, jossa ensimmäinen askelten määrä ja toinen kerättyjen
    // kolikoiden määrä
    fn pelaa(&mut self) -> (u32, u32) {
        // self.tulosta_huoneet();
        self.pelaa_inner();
        (self.askeleet, self.keratyt_kolikot)
    }
 
    // Funktio, joka pelaa peliä yksi kolikon keräys kerrallaan
    fn pelaa_inner(&mut self) {
        {
            let lahin_kolikko = match self.etsi_ensimmainen_kolikko() {
                Some(kolikko) => kolikko,
                None => {
                    return;
                }
            };
            println!("Lahin kolikko: {}", lahin_kolikko);
 
            self.askeleet += (self.robotti_indeksi as i32
                - self.kolikot[lahin_kolikko].indeksi as i32)
                .abs() as u32;
            self.keratyt_kolikot += 1;
            self.robotti_indeksi = self.kolikot[lahin_kolikko].indeksi;
            self.kolikot[lahin_kolikko].keratty = true;
            self.edellinen_kolikkoindeksi = lahin_kolikko;
        }
        // self.tulosta_huoneet();
        loop {
            let lahin_kolikko = match self.etsi_lahin_kolikko() {
                Some(kolikko) => kolikko,
                None => {
                    return;
                }
            };
 
            self.askeleet += (self.robotti_indeksi as i32
                - self.kolikot[lahin_kolikko].indeksi as i32)
                .abs() as u32;
            self.keratyt_kolikot += 1;
            self.robotti_indeksi = self.kolikot[lahin_kolikko].indeksi;
            self.kolikot[lahin_kolikko].keratty = true;
            self.edellinen_kolikkoindeksi = lahin_kolikko;
            // self.tulosta_huoneet();
        }
    }
 
    fn etsi_ensimmainen_kolikko(&self) -> Option<usize> {
        let kolikko_oikealla_indeksi = self
            .kolikot
            .iter()
            .position(|kolikko| kolikko.indeksi > self.robotti_indeksi)?;
        if kolikko_oikealla_indeksi == 0 {
            return Some(kolikko_oikealla_indeksi);
        }
        let kolikko_vasemmalla_indeksi = kolikko_oikealla_indeksi - 1;
 
        let etaisyys_oikealle =
            self.kolikot[kolikko_oikealla_indeksi].indeksi - self.robotti_indeksi;
        let etaisyys_vasemmalle =
            self.robotti_indeksi - self.kolikot[kolikko_vasemmalla_indeksi].indeksi;
 
        if etaisyys_vasemmalle > etaisyys_oikealle {
            Some(kolikko_oikealla_indeksi)
        } else if etaisyys_oikealle > etaisyys_vasemmalle {
            Some(kolikko_vasemmalla_indeksi)
        } else {
            None
        }
    }
 
    // Etsii lahimman kolikon ja jos löytyy, palauttaa indeksin kolikot-vektoriin
    fn etsi_lahin_kolikko(&self) -> Option<usize> {
        let kolikko_indeksi_vasemmalla = self.etsi_kolikko_vasemmalla();
        let kolikko_indeksi_oikealla = self.etsi_kolikko_oikealla();
        if let None = kolikko_indeksi_vasemmalla {
            return kolikko_indeksi_oikealla;
        }
        if let None = kolikko_indeksi_oikealla {
            return kolikko_indeksi_vasemmalla;
        }
 
        let kolikko_vasemmalla = &self.kolikot[kolikko_indeksi_vasemmalla.unwrap()];
        let kolikko_oikealla = &self.kolikot[kolikko_indeksi_oikealla.unwrap()];
 
        let etaisyys_vasemmalle = self.robotti_indeksi - kolikko_vasemmalla.indeksi;
        let etaisyys_oikealle = kolikko_oikealla.indeksi - self.robotti_indeksi;
 
        if etaisyys_vasemmalle > etaisyys_oikealle {
            Some(kolikko_indeksi_oikealla.unwrap())
        } else if etaisyys_oikealle > etaisyys_vasemmalle {
            Some(kolikko_indeksi_vasemmalla.unwrap())
        } else {
            None
        }
    }
 
    fn etsi_kolikko_oikealla(&self) -> Option<usize> {
        match self.kolikot[self.edellinen_kolikkoindeksi..self.kolikot.len()]
            .iter()
            .position(|kolikko| !kolikko.keratty)
        {
            Some(pos) => Some(pos + self.edellinen_kolikkoindeksi),
            None => None,
        }
    }
 
    fn etsi_kolikko_vasemmalla(&self) -> Option<usize> {
        match self.kolikot[0..=self.edellinen_kolikkoindeksi]
            .iter()
            .rev()
            .position(|kolikko| !kolikko.keratty)
        {
            Some(pos) => Some(self.edellinen_kolikkoindeksi - pos),
            None => None,
        }
    }
 
    // fn tulosta_huoneet(&self) {
    //     let mut string = self
    //         .huoneet
    //         .iter()
    //         .map(|huone| match huone {
    //             Huone::Tyhja => ".",
    //             Huone::Kolikko => "*",
    //         })
    //         .collect::<String>();
    //     string.replace_range(self.robotti_indeksi..self.robotti_indeksi + 1, "R");
    //     println!("Huoneet: {}", string);
    // }
}
 
#[derive(PartialEq, Eq)]
enum Huone {
    Tyhja,
    Kolikko,
}
 
struct Kolikko {
    keratty: bool,
    indeksi: usize,
}
 
impl Huone {
    fn from_char(character: char) -> Self {
        match character {
            '*' => Huone::Kolikko,
            '.' => Huone::Tyhja,
            'R' => Huone::Tyhja,
            _ => panic!("Viallinen merkki stdin:ssa"),
        }
    }
}

Test details

Test 1

Group: 1, 2

Verdict: ACCEPTED

input
`1 R` view save

correct output
`0 0` view save

user output
`0 0` view save

Test 2

Group: 1, 2

Verdict: ACCEPTED

input
`10 ...R......` view save

correct output
`0 0` view save

user output
`0 0` view save

Test 3

Group: 1, 2

Verdict: WRONG ANSWER

input
`10 .R...*` view save

correct output
`12 5` view save

user output
`Lahin kolikko: 1 12 5` view save

Test 4

Group: 1, 2

Verdict: ACCEPTED

input
`10 *R****` view save

correct output
`0 0` view save

user output
`0 0` view save

Test 5

Group: 1, 2

Verdict: WRONG ANSWER

input
`1000 R................................` view save

correct output
`947 9` view save

user output
`Lahin kolikko: 0 947 9` view save

Test 6

Group: 1, 2

Verdict: WRONG ANSWER

input
`1000 .................................` view save

correct output
`886 9` view save

user output
`0 0` view save

Test 7

Group: 1, 2

Verdict: WRONG ANSWER

input
`1000 .........................` view save

correct output
`1287 400` view save

user output
`Lahin kolikko: 279 1287 400` view save

Test 8

Group: 1, 2

Verdict: ACCEPTED

input
`1000 **********.***************...` view save

correct output
`0 0` view save

user output
`0 0` view save

Test 9

Group: 1, 2

Verdict: ACCEPTED

input
`1000 ******************************...` view save

correct output
`0 0` view save

user output
`0 0` view save

Test 10

Group: 1, 2

Verdict: WRONG ANSWER

input
`1000 R*****************************...` view save

correct output
`999 999` view save

user output
`Lahin kolikko: 0 999 999` view save

Test 11

Group: 1, 2

Verdict: WRONG ANSWER

input
`1000 ******************************...` view save

correct output
`999 999` view save

user output
`0 0` view save

Test 12

Group: 2

Verdict: WRONG ANSWER

input
`10000 .......*...................*...` view save

correct output
`10971 999` view save

user output
`Lahin kolikko: 98 10971 999` view save

Test 13

Group: 2

Verdict: WRONG ANSWER

input
`10000 ...........................` view save

correct output
`9999 999` view save

user output
`0 0` view save

Test 14

Group: 2

Verdict: WRONG ANSWER

input
`10000 ...............*.....` view save

correct output
`18766 5000` view save

user output
`Lahin kolikko: 658 18766 5000` view save

Test 15

Group: 2

Verdict: WRONG ANSWER

input
`10000 R*****************************...` view save

correct output
`9999 9999` view save

user output
`Lahin kolikko: 0 9999 9999` view save

Test 16

Group: 2

Verdict: WRONG ANSWER

input
`10000 ******************************...` view save

correct output
`9999 9999` view save

user output
`0 0` view save

Test 17

Group: 2

Verdict: ACCEPTED

input
`200000 .................................` view save

correct output
`0 0` view save

user output
`0 0` view save

Test 18

Group: 2

Verdict: WRONG ANSWER

input
`200000 .................................` view save

correct output
`299934 10000` view save

user output
`Lahin kolikko: 5052 299934 10000` view save

Test 19

Group: 2

Verdict: TIME LIMIT EXCEEDED

input
`200000 ............*...*....` view save

correct output
`299998 100000` view save

user output
(empty)

Test 20

Group: 2

Verdict: ACCEPTED

input
`200000 ******************************...` view save

correct output
`0 0` view save

user output
`0 0` view save

Test 21

Group: 2

Verdict: WRONG ANSWER

input
`200000 R................................` view save

correct output
`133765 3` view save

user output
`Lahin kolikko: 0 133765 3` view save

Test 22

Group: 2

Verdict: WRONG ANSWER

input
`200000 R................................` view save

correct output
`199982 5000` view save

user output
`Lahin kolikko: 0 199982 5000` view save

Test 23

Group: 2

Verdict: TIME LIMIT EXCEEDED

input
`200000 R*****************************...` view save

correct output
`199999 199999` view save

user output
(empty)

Test 24

Group: 2

Verdict: WRONG ANSWER

input
`200000 ******************************...` view save

correct output
`199999 199999` view save

user output
`0 0` view save

Datatähti 2025 alku

Robotti

Compiler report

Code

Test details

Test 1

Test 2

Test 3

Test 4

Test 5

Test 6

Test 7

Test 8

Test 9

Test 10

Test 11

Test 12

Test 13

Test 14

Test 15

Test 16

Test 17

Test 18

Test 19

Test 20

Test 21

Test 22

Test 23

Test 24

Tasks

Submissions (Kivvil)