tests(solve): add test cases for naive and stupid solver

src/game/mod.rs

@@ -29,7 +29,6 @@ where
     step: usize,
     solution: Option<WordData>,
     wordlist: &'wl WL,
-    finished: bool,
     responses: Vec<GuessResponse>,
     // TODO: keep track of the letters the user has tried
 }
@@ -50,8 +49,8 @@ impl<'wl, WL: WordList> Game<'wl, WL> {
     ///
     /// # Errors
     ///
-    /// This function will return an error if .
-    pub(crate) fn build(
+    /// No Errors
+    pub fn build(
         length: usize,
         precompute: bool,
         max_steps: usize,
@@ -70,13 +69,17 @@ impl<'wl, WL: WordList> Game<'wl, WL> {
                 None
             },
             wordlist: wlist,
-            finished: false,
             responses: Vec::new(),
         };
 
         Ok(game)
     }
 
+    /// set a solution, can be used for testing
+    pub fn set_solution(&mut self, sol: Option<WordData>) {
+        self.solution = sol;
+    }
+
     /// Make a new guess
     ///
     /// The word will be evaluated against the [solution](Game::solution) of the [Game].
@@ -93,7 +96,7 @@ impl<'wl, WL: WordList> Game<'wl, WL> {
         if guess.len() != self.length {
             return Err(GameError::GuessHasWrongLength(guess.len()));
         }
-        if self.finished || self.step > self.max_steps {
+        if self.finished() || self.step > self.max_steps {
             return Err(GameError::TryingToPlayAFinishedGame);
         }
         if self.wordlist.get_word(&guess).is_none() {
@@ -110,7 +113,6 @@ impl<'wl, WL: WordList> Game<'wl, WL> {
             panic!("there is neither an evaluation nor a predefined solution for this guess");
         }
         self.responses.push(response.clone());
-        self.finished = response.finished();
         Ok(response)
     }
 
@@ -145,7 +147,17 @@ impl<'wl, WL: WordList> Game<'wl, WL> {
     }
 
     pub fn finished(&self) -> bool {
-        self.finished
+        if self.responses().is_empty() {
+            return false;
+        }
+        self.responses().last().unwrap().finished()
+    }
+
+    pub fn won(&self) -> bool {
+        if self.responses().is_empty() {
+            return false;
+        }
+        self.responses().last().unwrap().won()
     }
 
     pub fn max_steps(&self) -> usize {
@@ -182,7 +194,7 @@ impl<'wl, WL: WordList> Game<'wl, WL> {
 /// # use anyhow::Result;
 /// # fn main() -> Result<()> {
 /// let wl = BuiltinWList::default();
-/// let game: Game<_> = GameBuilder::new(&wl)
+/// let game: Game<_> = GameBuilder::new(&wl, true)
 ///     .build()?;
 /// # Ok(())
 /// # }

tests/solver.rs

@@ -0,0 +1,69 @@
+use wordle_analyzer::game::Game;
+use wordle_analyzer::solve::{AnyBuiltinSolver, NaiveSolver, Solver, StupidSolver};
+use wordle_analyzer::wlist::builtin::BuiltinWList;
+use wordle_analyzer::wlist::word::Word;
+use wordle_analyzer::wlist::WordList;
+
+fn wordlist() -> impl WordList {
+    BuiltinWList::default()
+}
+
+#[test]
+fn test_build_builtin_solvers() {
+    let wl = wordlist();
+    let stupid_solver =
+        AnyBuiltinSolver::Stupid(StupidSolver::build(&wl).expect("could not build naive solver"));
+    let naive_solver =
+        AnyBuiltinSolver::Naive(NaiveSolver::build(&wl).expect("could not build naive solver"));
+}
+
+#[test]
+fn test_naive_play_predetermined_game() -> anyhow::Result<()> {
+    let wl = wordlist();
+    let sl =
+        AnyBuiltinSolver::Naive(NaiveSolver::build(&wl).expect("could not build naive solver"));
+    let mut game = Game::build(5, false, 6, &wl, false)?;
+    game.set_solution(Some(("nines".into(), 0.002))); // The accuracy is made up but shouldn't
+                                                      // matter
+    sl.make_a_move(&mut game)?;
+    assert_eq!(
+        game.responses().last().unwrap().guess(),
+        &Word::from("which")
+    );
+    sl.make_a_move(&mut game)?;
+    assert_eq!(
+        game.responses().last().unwrap().guess(),
+        &Word::from("their")
+    );
+    sl.make_a_move(&mut game)?;
+    assert_eq!(
+        game.responses().last().unwrap().guess(),
+        &Word::from("being")
+    );
+    sl.make_a_move(&mut game)?;
+    assert_eq!(
+        game.responses().last().unwrap().guess(),
+        &Word::from("since")
+    );
+    sl.make_a_move(&mut game)?;
+    assert_eq!(
+        game.responses().last().unwrap().guess(),
+        &Word::from("lines")
+    );
+    sl.make_a_move(&mut game)?;
+    assert_eq!(
+        game.responses().last().unwrap().guess(),
+        &Word::from("mines")
+    );
+    sl.make_a_move(&mut game)?;
+    assert_eq!(
+        game.responses().last().unwrap().guess(),
+        &Word::from("wines")
+    );
+
+    // naive is at the moment too bad to solve "nines"
+    assert!(game.finished());
+    assert!(!game.won());
+
+    Ok(())
+}