Removed the passing of the mass through parameters. Now the mass is

determined by the area of the polygon

polygon_generator.cc

@@ -3,17 +3,23 @@
 #include <cassert>
 #include <cmath>
 
+#define MASS_COEF .1
+
 static double to_rad(double angle_in_deg) {
     static double PI_180 = M_PI / 180;
     return angle_in_deg * PI_180;
 }
 
-polygon poly_generate::rectangle(
-    double width, double height, double mass, std::string label) {
+polygon
+poly_generate::rectangle(double width, double height, std::string label) {
     assert(width > 0);
     assert(height > 0);
     static const double one_over_twelve = 1. / 12;
-    return polygon{{0, 0},
+
+    double mass = MASS_COEF * width * height;
+
+    return polygon{
+        {0, 0},
         0,
         {{-width / 2, -height / 2},
          {-width / 2, height / 2},
@@ -25,7 +31,8 @@ polygon poly_generate::rectangle(
 }
 
 polygon poly_generate::triangle(
-    double side1, double side2, double angle, double mass, std::string label) {
+    double side1, double side2, double angle, std::string label
+) {
     assert(side1 > 0);
     assert(side2 > 0);
     static const double one_over_36 = 1. / 36;
@@ -33,16 +40,21 @@ polygon poly_generate::triangle(
     base = side1;
     height = side2 * std::sin(to_rad(angle));
     vec2d points[] = {
-        {0, 0}, {side1, 0}, {side2 * std::cos(to_rad(angle)), height}};
+        {0, 0},
+        {side1, 0},
+        {side2 * std::cos(to_rad(angle)), height}};
 
     vec2d barycenter = {
         (points[0].x + points[1].x + points[2].x) / 3,
         (points[0].y + points[1].y + points[2].y) / 3,
     };
 
+    double mass = MASS_COEF * base * height * .5;
+
     for (unsigned int i = 0; i < 3; ++i)
         points[i] -= barycenter;
-    return polygon{{0, 0},
+    return polygon{
+        {0, 0},
         0,
         {std::begin(points), std::end(points)},
         one_over_36 * mass * base * std::pow(height, 3),
@@ -50,28 +62,6 @@ polygon poly_generate::triangle(
         label};
 }
 
-polygon poly_generate::regular(
-    double radius, uint n_sides, double mass, std::string label) {
-    assert(n_sides > 2);
-    std::vector<vec2d> points;
-    label += " ";
-    label += n_sides;
-    points.reserve(n_sides);
-    double theta = 2 * M_PI / n_sides;
-
-    for (uint i = 0; i < n_sides; i++)
-        points.push_back({radius * cos(i * theta), radius * sin(i * theta)});
-
-    double l = vec2d::norm(points[1] - points[0]);
-
-    double sin_, cos_;
-    sincos(M_PI / n_sides, &sin_, &cos_);
-    double cot = cos_ / sin_;
-
-    double inertia = mass * l * l / 24 * (1 + 3 * cot * cot);
-    return polygon{{0, 0}, 0, points, inertia, mass, label};
-}
-
 static double area_of_triangle(vec2d& a, vec2d& b, vec2d& c) {
     return std::abs(vec2d::cross(c - a, b - a)) / 2;
 }
@@ -80,23 +70,46 @@ static double area_of_poly(std::vector<vec2d>& points, vec2d& centroid) {
     double area = 0;
     for (int i = 0; i < points.size(); ++i)
         area += area_of_triangle(
-            centroid, points[i], points[(i + 1) % points.size()]);
+            centroid,
+            points[i],
+            points[(i + 1) % points.size()]
+        );
     return area;
 }
 
-static double intertia_of_polygon_subtriangle(double total_mass,
-    double total_area,
-    vec2d& centroid,
-    vec2d& p1,
-    vec2d& p2) {
+polygon poly_generate::regular(double radius, uint n_sides, std::string label) {
+    assert(n_sides > 2);
+    std::vector<vec2d> points;
+    points.reserve(n_sides);
+    double theta = 2 * M_PI / n_sides;
+
+
+    for (uint i = 0; i < n_sides; i++)
+        points.push_back({radius * cos(i * theta), radius * sin(i * theta)});
+
+    vec2d centroid = {0, 0};
+    double mass = MASS_COEF * area_of_poly(points, centroid);
+    double l = vec2d::norm(points[1] - points[0]);
+
+    double sin_, cos_;
+    sincos(M_PI / n_sides, &sin_, &cos_);
+    double cot = cos_ / sin_;
+
+    double inertia = mass * l * l / 24 * (1 + 3 * cot * cot);
+    return polygon{centroid, 0, points, inertia, mass, label};
+}
+
+static double intertia_of_polygon_subtriangle(
+    double total_mass, double total_area, vec2d& centroid, vec2d& p1, vec2d& p2
+) {
     double partial_area = area_of_triangle(centroid, p1, p2);
     double partial_mass = total_mass * partial_area / total_area;
 
     vec2d CA = p1 - centroid;
     vec2d AB = p2 - p1;
 
-    return partial_mass / 2 *
-           (vec2d::norm2(AB) / 3 + vec2d::dot(AB, CA) + vec2d::norm2(CA));
+    return partial_mass / 2
+         * (vec2d::norm2(AB) / 3 + vec2d::dot(AB, CA) + vec2d::norm2(CA));
 }
 
 static vec2d centroid(std::vector<vec2d>& points) {
@@ -107,15 +120,20 @@ static vec2d centroid(std::vector<vec2d>& points) {
     return vec2d{x, y} / points.size();
 }
 
-polygon poly_generate::general(
-    std::vector<vec2d> points, double mass, std::string label) {
+polygon poly_generate::general(std::vector<vec2d> points, std::string label) {
     double intertia = 0;
     vec2d c = centroid(points);
     double area = area_of_poly(points, c);
+    double mass = MASS_COEF * area;
 
     for (int i = 0; i < points.size(); ++i)
         intertia += intertia_of_polygon_subtriangle(
-            mass, area, c, points[i], points[(i + 1) % points.size()]);
+            mass,
+            area,
+            c,
+            points[i],
+            points[(i + 1) % points.size()]
+        );
 
     for (auto& p : points) // set the center of the polygon to it's centroid
         p -= c;

polygon_generator.h

@@ -7,31 +7,21 @@
 
 namespace poly_generate {
 
-    polygon rectangle(double width,
-        double height,
-        double mass = 1,
-        std::string label = "rectangle");
+    polygon
+    rectangle(double width, double height, std::string label = "rectangle");
 
-    inline polygon square(
-        double width, double mass = 1, std::string label = "square") {
+    inline polygon square(double width, std::string label = "square") {
         assert(width > 0);
-        return rectangle(width, width, mass, label);
+        return rectangle(width, width, label);
     };
 
-    polygon triangle(double side1,
-        double side2,
-        double angle,
-        double mass = 1,
-        std::string label = "triangle");
+    polygon triangle(
+        double side1, double side2, double angle, std::string label = "triangle"
+    );
 
-    polygon regular(double radius,
-        uint n_sides,
-        double mass = 1,
-        std::string label = "regular");
+    polygon regular(double radius, uint n_sides, std::string label = "regular");
 
-    polygon general(std::vector<vec2d> points,
-        double mass = 1,
-        std::string label = "general");
+    polygon general(std::vector<vec2d> points, std::string label = "general");
 
 }; // namespace poly_generate
 #endif

polygons.cc

@@ -22,22 +22,27 @@ void polygons_init_state() {
     int wall_thickness = 50;
     uint n = 0;
     // north wall
-    polygons[n++] = poly_generate::rectangle(width, wall_thickness, INFINITY)
+    polygons[n++] = poly_generate::rectangle(width, wall_thickness)
+                        .set_mass(INFINITY)
                         .set_center({width / 2., -wall_thickness / 2.});
     // south wall
-    polygons[n++] = poly_generate::rectangle(width, wall_thickness, INFINITY)
+    polygons[n++] = poly_generate::rectangle(width, wall_thickness)
+                        .set_mass(INFINITY)
                         .set_center({width / 2., height + wall_thickness / 2.});
     // west wall
-    polygons[n++] = poly_generate::rectangle(wall_thickness, height, INFINITY)
+    polygons[n++] = poly_generate::rectangle(wall_thickness, height)
+                        .set_mass(INFINITY)
                         .set_center({-wall_thickness / 2., height / 2.});
     // east wall
-    polygons[n++] = poly_generate::rectangle(wall_thickness, height, INFINITY)
+    polygons[n++] = poly_generate::rectangle(wall_thickness, height)
+                        .set_mass(INFINITY)
                         .set_center({width + wall_thickness / 2., height / 2.});
 
     // middle wall
-    polygons[n++] = poly_generate::rectangle(50, height / 2., INFINITY)
+    polygons[n++] = poly_generate::rectangle(50, height / 2.)
+                        .set_mass(INFINITY)
                         .set_center({25 + width * 1. / 2, height / 2.})
-                        .set_angle(0);
+                        .set_angle(30);
 
     polygons[n++] = poly_generate::regular(100, 3)
                         .set_center({100, 400})
@@ -50,15 +55,16 @@ void polygons_init_state() {
                         .set_speed({-200, -10});
 
     polygons[n++] = poly_generate::general(
-                        {{0, 0}, {100, 0}, {100, 100}, {50, 150}, {0, 100}},
-                        3
+                        {{0, 0}, {100, 0}, {100, 100}, {50, 150}, {0, 100}}
     )
                         .set_center({200, 600})
                         .set_angle(45)
                         .set_speed({10, 0});
 
     polygons[n++] = poly_generate::rectangle(100, 150).set_center({600, 200});
-    polygons[n++] = poly_generate::regular(50, 5).set_center({150, 150});
+    polygons[n++] = poly_generate::regular(50, 5)
+                        .set_center({150, 150})
+                        .set_speed({50, -50});
     polygons[n++] =
         poly_generate::general({{0, 0}, {50, 80}, {0, 160}, {-50, 80}})
             .set_center({700, 700})

polygons.h

@@ -71,6 +71,14 @@ class polygon {
 
     polygon& set_mass(double m) {
         mass = m;
+        // TODO: This is pretty shit, but it's good to make stuff work now,
+        // since the only time we change the mass of an object is the wall,
+        // otherwise we take the area and the polygon_generator module handles
+        // that. But what's to be done is to extract the intertia calcualtion to
+        // a new module so that we can import it here, and recalculate the
+        // intertia of the polygon if the mass changes.
+        if (m == INFINITY)
+            inertia = INFINITY;
         return *this;
     }
 
@@ -102,6 +110,7 @@ class polygon {
         os << "    angle: " << p.angle << std::endl;
         os << "    speed: " << p.speed << std::endl;
         os << "    angular speed: " << p.angular_speed << std::endl;
+        os << "    intertia: " << p.inertia << std::endl;
         return os;
     }
 };