style: aplicar fixes de clang-tidy (todo excepto uppercase-literal-suffix)

Corregidos ~2570 issues automáticamente con clang-tidy --fix-errors más ajustes manuales posteriores: - modernize: designated-initializers, trailing-return-type, use-auto, avoid-c-arrays (→ std::array<>), use-ranges, use-emplace, deprecated-headers, use-equals-default, pass-by-value, return-braced-init-list, use-default-member-init - readability: math-missing-parentheses, implicit-bool-conversion, braces-around-statements, isolate-declaration, use-std-min-max, identifier-naming, else-after-return, redundant-casting, convert-member-functions-to-static, make-member-function-const, static-accessed-through-instance - performance: avoid-endl, unnecessary-value-param, type-promotion, inefficient-vector-operation - dead code: XOR_KEY (orphan tras eliminar encryptData/decryptData), dead stores en engine.cpp y png_shape.cpp - NOLINT justificado en 10 funciones con alta complejidad cognitiva (initialize, render, main, processEvents, update×3, performDemoAction, randomizeOnDemoStart, renderDebugHUD, AppLogo::update) Compilación: gcc -Wall sin warnings. clang-tidy: 0 issues. Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
2026-03-21 10:52:07 +01:00
parent 4801f287df
commit c9bcce6f9b
71 changed files with 3469 additions and 2838 deletions
--- a/source/shapes/torus_shape.hpp
+++ b/source/shapes/torus_shape.hpp
@@ -6,18 +6,18 @@
 // Comportamiento: Superficie toroidal con rotación triple (X, Y, Z)
 // Ecuaciones: x = (R + r*cos(v))*cos(u), y = (R + r*cos(v))*sin(u), z = r*sin(v)
 class TorusShape : public Shape {
-private:
-    float angle_x_ = 0.0f;           // Ángulo de rotación en eje X (rad)
-    float angle_y_ = 0.0f;           // Ángulo de rotación en eje Y (rad)
-    float angle_z_ = 0.0f;           // Ángulo de rotación en eje Z (rad)
-    float major_radius_ = 0.0f;      // Radio mayor R (del centro al tubo)
-    float minor_radius_ = 0.0f;      // Radio menor r (grosor del tubo)
-    int num_points_ = 0;             // Cantidad de puntos generados
+    private:
+        float angle_x_ = 0.0f;       // Ángulo de rotación en eje X (rad)
+        float angle_y_ = 0.0f;       // Ángulo de rotación en eje Y (rad)
+        float angle_z_ = 0.0f;       // Ángulo de rotación en eje Z (rad)
+        float major_radius_ = 0.0f;  // Radio mayor R (del centro al tubo)
+        float minor_radius_ = 0.0f;  // Radio menor r (grosor del tubo)
+        int num_points_ = 0;         // Cantidad de puntos generados

-public:
-    void generatePoints(int num_points, float screen_width, float screen_height) override;
-    void update(float delta_time, float screen_width, float screen_height) override;
-    void getPoint3D(int index, float& x, float& y, float& z) const override;
-    const char* getName() const override { return "TORUS"; }
-    float getScaleFactor(float screen_height) const override;
+    public:
+        void generatePoints(int num_points, float screen_width, float screen_height) override;
+        void update(float delta_time, float screen_width, float screen_height) override;
+        void getPoint3D(int index, float& x, float& y, float& z) const override;
+        const char* getName() const override { return "TORUS"; }
+        float getScaleFactor(float screen_height) const override;
 };