diff options
Diffstat (limited to 'src/crepe/api/AI.cpp')
-rw-r--r-- | src/crepe/api/AI.cpp | 33 |
1 files changed, 21 insertions, 12 deletions
diff --git a/src/crepe/api/AI.cpp b/src/crepe/api/AI.cpp index 2195249..2fedaf4 100644 --- a/src/crepe/api/AI.cpp +++ b/src/crepe/api/AI.cpp @@ -8,8 +8,9 @@ namespace crepe { AI::AI(game_object_id_t id, float max_force) : Component(id), max_force(max_force) {} -void AI::make_circle_path(float radius, const vec2 & center, float start_angle, - bool clockwise) { +void AI::make_circle_path( + float radius, const vec2 & center, float start_angle, bool clockwise +) { if (radius <= 0) { throw std::runtime_error("Radius must be greater than 0"); } @@ -25,19 +26,25 @@ void AI::make_circle_path(float radius, const vec2 & center, float start_angle, if (clockwise) { for (float i = start_angle; i < 2 * M_PI + start_angle; i += step) { - path.push_back(vec2{static_cast<float>(center.x + radius * cos(i)), - static_cast<float>(center.y + radius * sin(i))}); + path.push_back(vec2 { + static_cast<float>(center.x + radius * cos(i)), + static_cast<float>(center.y + radius * sin(i)) + }); } } else { for (float i = start_angle; i > start_angle - 2 * M_PI; i -= step) { - path.push_back(vec2{static_cast<float>(center.x + radius * cos(i)), - static_cast<float>(center.y + radius * sin(i))}); + path.push_back(vec2 { + static_cast<float>(center.x + radius * cos(i)), + static_cast<float>(center.y + radius * sin(i)) + }); } } } -void AI::make_oval_path(float radius_x, float radius_y, const vec2 & center, float start_angle, - bool clockwise, float rotation) { +void AI::make_oval_path( + float radius_x, float radius_y, const vec2 & center, float start_angle, bool clockwise, + float rotation +) { if (radius_x <= 0 && radius_y <= 0) { throw std::runtime_error("Radius must be greater than 0"); } @@ -73,14 +80,16 @@ void AI::make_oval_path(float radius_x, float radius_y, const vec2 & center, flo if (clockwise) { for (float i = start_angle; i < 2 * M_PI + start_angle; i += step) { - vec2 point = {static_cast<float>(center.x + radius_x * cos(i)), - static_cast<float>(center.y + radius_y * sin(i))}; + vec2 point + = {static_cast<float>(center.x + radius_x * cos(i)), + static_cast<float>(center.y + radius_y * sin(i))}; path.push_back(rotate_point(point, center)); } } else { for (float i = start_angle; i > start_angle - 2 * M_PI; i -= step) { - vec2 point = {static_cast<float>(center.x + radius_x * cos(i)), - static_cast<float>(center.y + radius_y * sin(i))}; + vec2 point + = {static_cast<float>(center.x + radius_x * cos(i)), + static_cast<float>(center.y + radius_y * sin(i))}; path.push_back(rotate_point(point, center)); } } |