Positional container: performance tests

cpp/test/collision_performance.cpp

@@ -2,14 +2,12 @@
 #include <chrono>
 #include <iostream>
 #include <iomanip>
-
+#include <random>
+#include <algorithm>
+#include <set>
 
 #include "positional_container.hpp"
 
-// TODO: Add necessary includes for collision testing
-// #include "collision_shapes.hpp"
-// #include "entities.hpp"
-
 /**
  * @file collision_performance.cpp
  * @brief Performance tests for collision detection systems
@@ -83,48 +81,171 @@ void benchmark_function(const std::string& name, int iterations, Func func) {
  */
 class Dummy {
 public:
-    Dummy() : m_Position(0.0f, 0.0f) {}
-    Dummy(float x, float y) : m_Position(x, y) {}
-    Dummy(WorldPos pos) : m_Position(pos) {}
+    Dummy() : m_Position{0.0f, 0.0f}, m_Id(next_id++) {}
+    Dummy(float x, float y) : m_Position{x, y}, m_Id(next_id++) {}
+    Dummy(WorldPos pos) : m_Position(pos), m_Id(next_id++) {}
     
     WorldPos GetPosition() const { return m_Position; }
     void SetPosition(WorldPos pos) { m_Position = pos; }
+    int GetId() const { return m_Id; }
     
 private:
     WorldPos m_Position;
+    int m_Id;
+    static int next_id;
 };
 
-// Example test function 1
-void test_function_1() {
-  
-    PositionalContainer<Dummy> pos_cont{WorldSize{10.0f, 10.0f}, 10}; 
-    SimpleContainer<Dummy> simp_cont; 
+int Dummy::next_id = 0;
 
-    // TODO: Implement actual collision test
-    volatile int sum = 0;
-    for (int i = 0; i < 1000; ++i) {
-        sum += i;
-    }
+/**
+ * @brief Helper function to generate random float in range [min, max]
+ */
+float random_float(std::mt19937& gen, float min, float max) {
+    std::uniform_real_distribution<float> dist(min, max);
+    return dist(gen);
 }
 
-// Example test function 2
-void test_function_2() {
-    // TODO: Implement actual collision test
-    volatile int product = 1;
-    for (int i = 1; i < 100; ++i) {
-        product *= (i % 10 + 1);
+/**
+ * @brief Compare two sets of weak_ptrs by comparing the IDs of the objects they point to
+ */
+bool compare_results(const std::vector<std::weak_ptr<Dummy>>& a, 
+                    const std::vector<std::weak_ptr<Dummy>>& b) {
+    std::set<int> ids_a, ids_b;
+    
+    for (const auto& weak : a) {
+        if (auto shared = weak.lock()) {
+            ids_a.insert(shared->GetId());
+        }
     }
+    
+    for (const auto& weak : b) {
+        if (auto shared = weak.lock()) {
+            ids_b.insert(shared->GetId());
+        }
+    }
+    
+    return ids_a == ids_b;
 }
 
-TEST(CollisionPerformance, CompareAlgorithms) {
+TEST(CollisionPerformance, CompareContainers) {
     std::cout << "\n=== Collision Performance Comparison ===\n" << std::endl;
     
-    const int iterations = 10000;
+    // Configuration
+    const int NUM_OBJECTS = 1000;
+    const int NUM_LOOKUPS = 100;
+    const float WORLD_SIZE = 1000.0f;
+    const float LOOKUP_RADIUS = 50.0f;
+    const size_t CHUNKS = 20;
     
-    benchmark_function("Algorithm 1 (test_function_1)", iterations, test_function_1);
-    benchmark_function("Algorithm 2 (test_function_2)", iterations, test_function_2);
+    // Random number generator
+    std::random_device rd;
+    std::mt19937 gen(rd());
+    
+    // Create containers
+    PositionalContainer<Dummy> pos_cont{WorldSize{WORLD_SIZE, WORLD_SIZE}, CHUNKS};
+    SimpleContainer<Dummy> simp_cont;
+    
+    // Create and add dummy objects with random positions
+    std::vector<std::shared_ptr<Dummy>> objects;
+    objects.reserve(NUM_OBJECTS);
+    
+    std::cout << "Creating " << NUM_OBJECTS << " objects with random positions..." << std::endl;
+    for (int i = 0; i < NUM_OBJECTS; ++i) {
+        float x = random_float(gen, 10.0f, WORLD_SIZE - 10.0f);
+        float y = random_float(gen, 10.0f, WORLD_SIZE - 10.0f);
+        auto obj = std::make_shared<Dummy>(x, y);
+        objects.push_back(obj);
+        pos_cont.Add(obj);
+        simp_cont.Add(obj);
+    }
+    std::cout << "Objects created and added to containers." << std::endl;
+    
+    // Generate random lookup positions
+    std::vector<WorldPos> lookup_positions;
+    lookup_positions.reserve(NUM_LOOKUPS);
+    for (int i = 0; i < NUM_LOOKUPS; ++i) {
+        float x = random_float(gen, 0.0f, WORLD_SIZE);
+        float y = random_float(gen, 0.0f, WORLD_SIZE);
+        lookup_positions.push_back(WorldPos{x, y});
+    }
+    
+    // Benchmark SimpleContainer
+    double simple_total_time = 0.0;
+    std::vector<std::vector<std::weak_ptr<Dummy>>> simple_results;
+    simple_results.reserve(NUM_LOOKUPS);
+    
+    std::cout << "\nBenchmarking SimpleContainer with " << NUM_LOOKUPS << " lookups..." << std::endl;
+    for (const auto& pos : lookup_positions) {
+        auto start = PerformanceTimer::Clock::now();
+        auto result = simp_cont.Get(pos, LOOKUP_RADIUS);
+        auto end = PerformanceTimer::Clock::now();
+        
+        PerformanceTimer::Duration duration = end - start;
+        simple_total_time += duration.count();
+        simple_results.push_back(result);
+    }
+    
+    double simple_avg_time = simple_total_time / NUM_LOOKUPS;
+    std::cout << std::fixed << std::setprecision(6)
+              << "[BENCHMARK] SimpleContainer:\n"
+              << "  Total time: " << simple_total_time << " ms\n"
+              << "  Average time per lookup: " << simple_avg_time << " ms\n"
+              << "  Throughput: " << (NUM_LOOKUPS / (simple_total_time / 1000.0)) 
+              << " lookups/sec" << std::endl;
+    
+    // Benchmark PositionalContainer
+    double positional_total_time = 0.0;
+    std::vector<std::vector<std::weak_ptr<Dummy>>> positional_results;
+    positional_results.reserve(NUM_LOOKUPS);
+    
+    std::cout << "\nBenchmarking PositionalContainer with " << NUM_LOOKUPS << " lookups..." << std::endl;
+    for (const auto& pos : lookup_positions) {
+        auto start = PerformanceTimer::Clock::now();
+        auto result = pos_cont.Get(pos, LOOKUP_RADIUS);
+        auto end = PerformanceTimer::Clock::now();
+        
+        PerformanceTimer::Duration duration = end - start;
+        positional_total_time += duration.count();
+        positional_results.push_back(result);
+    }
+    
+    double positional_avg_time = positional_total_time / NUM_LOOKUPS;
+    std::cout << std::fixed << std::setprecision(6)
+              << "[BENCHMARK] PositionalContainer:\n"
+              << "  Total time: " << positional_total_time << " ms\n"
+              << "  Average time per lookup: " << positional_avg_time << " ms\n"
+              << "  Throughput: " << (NUM_LOOKUPS / (positional_total_time / 1000.0)) 
+              << " lookups/sec" << std::endl;
+    
+    // Verify results match
+    std::cout << "\nVerifying results correctness..." << std::endl;
+    int mismatches = 0;
+    for (size_t i = 0; i < NUM_LOOKUPS; ++i) {
+        if (!compare_results(simple_results[i], positional_results[i])) {
+            mismatches++;
+            std::cout << "Mismatch at lookup " << i 
+                     << " (pos: " << lookup_positions[i] << ")" << std::endl;
+        }
+    }
+    
+    if (mismatches == 0) {
+        std::cout << "✓ All " << NUM_LOOKUPS << " lookups produced identical results!" << std::endl;
+    } else {
+        std::cout << "✗ Found " << mismatches << " mismatches out of " 
+                 << NUM_LOOKUPS << " lookups" << std::endl;
+    }
+    
+    // Performance comparison
+    std::cout << "\n=== Performance Summary ===\n";
+    double speedup = simple_avg_time / positional_avg_time;
+    std::cout << std::fixed << std::setprecision(2)
+              << "PositionalContainer is " << speedup << "x "
+              << (speedup > 1.0 ? "faster" : "slower") 
+              << " than SimpleContainer" << std::endl;
     
     std::cout << "\n======================================\n" << std::endl;
     
-    SUCCEED();
+    // Assertions
+    EXPECT_EQ(mismatches, 0) << "Results should match between containers";
+    EXPECT_GT(speedup, 1.0) << "PositionalContainer should be faster than SimpleContainer";
 }