remove output

src/main.rs

@@ -21,12 +21,9 @@ fn main() {
     let disease = Disease::new(20, 10, 5, String::from("Covid 44"));
     let mut population = Population::new(20, 10, 5, 1000, 1000, disease);
     //population.change_disease(disease);
-    println!("Before Filling");
-    //population.display();
-    population.generate();
     println!("After Filling");
     //population.display();
-    println!("After Propagation");
+    //population.display();
     let mut stats: [i32; 4];
     // = [0,0,0,0];
     let mut counter: u32 = 0;

src/population.rs

@@ -15,6 +15,7 @@ pub struct Population {
     pub height: i32,
     pub age: i32,
     pub plague: Disease,
+    pub size: usize,
 }
 
 pub fn human_idx(x: i32, y: i32, width: i32) -> usize {
@@ -30,19 +31,36 @@ impl Population {
         height: i32,
         plague: Disease,
     ) -> Self {
+        let mut rng = rand::thread_rng();
+
+        let size: usize = (width * height) as usize;
+
         let mut the_humans: Vec<Human> = vec![
             Human {
                 x: 0,
                 y: 0,
                 present_state: State::Normal
             };
-            (width * height) as usize
+            size
         ];
         for x in 0..width {
             for y in 0..height {
                 let idx = human_idx(x, y, width);
-                the_humans[idx].x = x;
+                let mut present_state = State::Normal;
-                the_humans[idx].y = y;
+                if (start_infected_ratio > 0)
+                    && (rng.gen_range(0..CORRECTED_PERCENTAGE) <= start_infected_ratio)
+                {
+                    present_state = State::Infected;
+                } else if (start_immune_ratio > 0)
+                    && (rng.gen_range(0..CORRECTED_PERCENTAGE) <= start_immune_ratio)
+                {
+                    present_state = State::Immune;
+                } else if (start_dead_ratio > 0)
+                    && (rng.gen_range(0..CORRECTED_PERCENTAGE) <= start_dead_ratio)
+                {
+                    present_state = State::Dead;
+                }
+                the_humans[idx] = Human{x: x, y: y, present_state: present_state};
             }
         }
         Self {
@@ -54,35 +72,12 @@ impl Population {
             plague: plague,
             age: 0,
             humans: the_humans,
+            size: size,
         }
     }
     // pub fn change_disease(&mut self, plague:Disease){
     //     self.plague = plague;
     // }
-    pub fn generate(&mut self) {
-        //The ratios will not be exact, for example someone who wants 100% infected 100% immune and 100% dead, he will have 100% dead because they are overwriting each others
-        //Maybe consider limiting the total to not exceed 100 in the view
-        //Other thing, there will always be more of the last one because someone who is already infected for example could be then put to immune or dead
-        //One solution to this issue would be to have if else else statements but in this case for example 20% would be lower with the last because its 20% on the remaining population and not of the all
-        //In other words I did it that way but it can be changed just its not the right method to have perfect ratios
-        let mut rng = rand::thread_rng();
-
-        for x in self.humans.iter_mut() {
-            if (self.start_infected_ratio) > 0
-                && (rng.gen_range(0..CORRECTED_PERCENTAGE) <= self.start_infected_ratio as i32)
-            {
-                x.present_state = State::Infected;
-            } else if self.start_immune_ratio > 0
-                && rng.gen_range(0..CORRECTED_PERCENTAGE) <= self.start_immune_ratio as i32
-            {
-                x.present_state = State::Immune;
-            } else if self.start_dead_ratio > 0
-                && rng.gen_range(0..CORRECTED_PERCENTAGE) <= self.start_dead_ratio as i32
-            {
-                x.present_state = State::Dead;
-            }
-        }
-    }
 
     fn is_inside(&self, pos: &Point) -> bool {
         if pos.x >= 0 && pos.x < self.width && pos.y >= 0 && pos.y < self.height {
@@ -107,15 +102,15 @@ impl Population {
 
     pub fn propagate(&mut self) -> [i32; 4] {
         let mut people_to_check: Vec<Point> =
-            Vec::with_capacity((self.width * self.height) as usize);
+            Vec::with_capacity(self.size);
         let mut possible_infected: Vec<Point> =
-            Vec::with_capacity((self.width * self.height) as usize);
+            Vec::with_capacity(self.size);
         let mut people_to_infect: Vec<Point> =
-            Vec::with_capacity((self.width * self.height) as usize);
+            Vec::with_capacity(self.size);
         let mut people_to_cure: Vec<Point> =
-            Vec::with_capacity((self.width * self.height) as usize);
+            Vec::with_capacity(self.size);
         let mut people_to_kill: Vec<Point> =
-            Vec::with_capacity((self.width * self.height) as usize);
+            Vec::with_capacity(self.size);
         let mut stats: [i32; 4] = [0, 0, 0, 0];
         // stats[0] Normal stats[1] Infected stats[2] Immune stats[3] Dead
 
@@ -242,7 +237,7 @@ impl Population {
         }
         assert_eq!(
             stats[0] + stats[1] + stats[2] + stats[3],
-            self.humans.len() as i32
+            self.size as i32
         );
         stats
     }
@@ -370,12 +365,6 @@ mod tests {
         let (width, height) = (5, 7);
         let population = Population::new(20, 10, 5, 5, 7, disease);
         assert_eq!(population.humans.len(), 5 * 7);
-        for human in population.humans.iter() {
-            assert!(
-                human.present_state == State::Normal,
-                "all humans should be normal"
-            );
-        }
         for h in population.humans.iter() {
             let idx = human_idx(h.x, h.y, width);
             assert_eq!(population.humans[idx].x, h.x, "coordinates should match");
@@ -388,9 +377,8 @@ mod tests {
     fn population_gen() {
         let disease = Disease::new(20, 10, 5, String::from("Covid 44"));
         let (width, height) = (5, 7);
-        let mut population = Population::new(20, 10, 5, 5, 7, disease);
+        let population = Population::new(20, 10, 5, 5, 7, disease);
 
-        population.generate();
         let stats: Stats = humans_stats(&population.humans);
         println!("Stats: {:?}", stats);
 
@@ -409,28 +397,24 @@ mod tests {
 
         disease = Disease::new(0, 0, 0, String::from("Test"));
         population = Population::new(0, 0, 0, width, height, disease);
-        population.generate();
         stats = humans_stats(&population.humans);
         println!("should be normal: {:?}", stats);
         assert_eq!(stats.normal, width * height);
 
         disease = Disease::new(0, 0, 0, String::from("Test"));
         population = Population::new(100, 0, 0, width, height, disease);
-        population.generate();
         stats = humans_stats(&population.humans);
         println!("should be infected: {:?}", stats);
         assert_eq!(stats.infected, width * height);
 
         disease = Disease::new(0, 0, 0, String::from("Test"));
         population = Population::new(0, 100, 0, width, height, disease);
-        population.generate();
         stats = humans_stats(&population.humans);
         println!("should be immune: {:?}", stats);
         assert_eq!(stats.immune, width * height);
 
         disease = Disease::new(0, 0, 0, String::from("Test"));
         population = Population::new(0, 0, 100, width, height, disease);
-        population.generate();
         stats = humans_stats(&population.humans);
         println!("should be dead: {:?}", stats);
         assert_eq!(stats.dead, width * height);
@@ -456,16 +440,10 @@ mod tests {
         let mut stats: Stats;
         let mut propagate_stats: [i32; 4];
 
-        // start with normal population
+        // infect every one
         stats = humans_stats(&population.humans);
         println!("stats after init: {:?}", stats);
-        assert_eq!(stats.normal, 100);
+        assert_eq!(stats.infected, 100, "everybody should be infected");
-
-        // infect every one
-        population.generate();
-        stats = humans_stats(&population.humans);
-        println!("stats after generate: {:?}", stats);
-        assert_eq!(stats.infected, 100);
 
         // kill every one
         propagate_stats = population.propagate();
@@ -665,6 +643,27 @@ mod tests {
         }
     }
 
+    #[parameterized(infection_start = {0, 50, 100})]
+    fn propagate_harmless(infection_start: i32) {
+        let disease: Disease = Disease::new(0, 0, 0, String::from("Harmless"));
+        let (width, height) = (100, 100);
+        let mut population: Population = Population::new(infection_start, 0, 0, width, height, disease);
+        let stats_before: Stats;
+        let stats_after: Stats;
+
+        stats_before = humans_stats(&population.humans);
+        let should_be_infected = population.size as i32 * infection_start / 100;
+        let tolerance = (should_be_infected as f32 * 0.20) as i32;
+        println!("{:?}", stats_before);
+        assert!(stats_before.infected <= should_be_infected + tolerance, "{} infected, should be less than {}", stats_before.infected, should_be_infected + tolerance);
+        assert!(stats_before.infected >= should_be_infected - tolerance, "{} infected, should be more than {}", stats_before.infected, should_be_infected - tolerance);
+
+        population.propagate();
+
+        stats_after = humans_stats(&population.humans);
+        assert_eq!(stats_before.infected, stats_after.infected, "no one should have been infected");
+    }
+
     #[parameterized(infection_rate = {0, 100, 0}, death_rate = {0, 0, 100}, infected_expected = {0, 1, 0})]
     fn propagate_test(infection_rate: i32, death_rate: i32, infected_expected: i32) {
         let disease: Disease;
@@ -681,9 +680,8 @@ mod tests {
         disease = Disease::new(infection_rate, 0, death_rate, String::from("Test"));
         population = Population::new(start_infected, 0, 0, width, height, disease);
 
-        population.generate();
         stats = humans_stats(&population.humans);
-        println!("Population after generate: {:?}", stats);
+        println!("Population after init: {:?}", stats);
 
         // total * proba - 20% < infected < total * proba + 20%
         let infected_at_start_proba = width * height * start_infected / 100;