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SearchAndSortMethods.cpp
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246 lines (191 loc) · 7.36 KB
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#include "AlgorithmVisualizer.h"
#include "BubbleSort.h"
#include "SelectionSort.h"
#include "InsertionSort.h"
#include "MergeSort.h"
#include "QuickSort.h"
#include <thread>
#include <chrono>
#include <algorithm>
#include <iostream>
using namespace std;
void AlgorithmVisualizer::runLinearSearch(sf::RenderWindow& window, sf::Font& font) {
promptForInput(window, font);
int target = promptForTarget(window, font);
sf::Text prompt("Linear Search", font, 24);
prompt.setPosition(50, 50);
stats.startTimer();
bool found = false;
int position = -1;
for (int i = 0; i < data.size(); ++i) {
displayArray(window, data, i);
if (data[i] == target) {
found = true;
position = 1;
break;
}
this_thread::sleep_for(chrono::milliseconds(1000));
}
stats.stopTimer();
sf::Text result(found ? "Element found at position: " + std::to_string(position) : "Element not found.", font, 24);
result.setPosition(50, 200);
sf::Text executionTime("Execution Time: " + std::to_string(stats.getExecutionTime()) + " seconds", font, 20);
executionTime.setPosition(50, 250);
sf::Text complexity("Time Complexity: O(n), Space Complexity: O(1)", font, 20);
complexity.setPosition(50, 300);\
window.clear();
window.draw(prompt);
window.draw(result);
window.draw(executionTime);
window.draw(complexity);
window.display();
this_thread::sleep_for(chrono::seconds(5));
}
void AlgorithmVisualizer::runBinarySearch(sf::RenderWindow& window, sf::Font& font) {
promptForInput(window, font);
sort(data.begin(), data.end());
int target = promptForTarget(window, font);
sf::Text prompt("Binary Search", font, 24);
prompt.setPosition(50, 50);
stats.startTimer();
bool found = false;
int left = 0, right = data.size() - 1;
int mid = -1;
while (left <= right) {
mid = left + (right - left) / 2;
displayArray(window, data, mid);
if (data[mid] == target) {
found = true;
break;
} else if (data[mid] < target) {
left = mid + 1;
} else {
right = mid - 1;
}
std::this_thread::sleep_for(std::chrono::milliseconds(1000));
}
stats.stopTimer();
sf::Text result(found ? "Element found at position " + std::to_string(mid) : "Element not found", font, 20);
result.setPosition(50, 200);
sf::Text executionTime("Execution Time: " + std::to_string(stats.getExecutionTime()) + " seconds", font, 20);
executionTime.setPosition(50, 250);
sf::Text complexity("Time Complexity: O(log n), Space Complexity: O(1)", font, 20);
complexity.setPosition(50, 300);
window.clear();
window.draw(prompt);
window.draw(result);
window.draw(executionTime);
window.draw(complexity);
window.display();
std::this_thread::sleep_for(std::chrono::seconds(5));
}
void AlgorithmVisualizer::runBubbleSort(sf::RenderWindow& window, sf::Font& font) {
BubbleSort bubbleSort;
promptForInput(window, font);
sf::Text prompt("Bubble Sort", font, 24);
prompt.setPosition(50, 50);
stats.startTimer();
bubbleSort.sortWithVisualization(data, window, *this);
stats.stopTimer();
sf::Text result("Bubble Sort Complete!", font, 24);
result.setPosition(50, 500);
sf::Text executionTime("Execution Time: " + std::to_string(stats.getExecutionTime()) + " seconds", font, 20);
executionTime.setPosition(50, 250);
sf::Text complexity("Time Complexity: O(n^2), Space Complexity: O(1)", font, 20);
complexity.setPosition(50, 300);
window.clear();
window.draw(prompt);
window.draw(result);
window.draw(executionTime);
window.draw(complexity);
window.display();
std::this_thread::sleep_for(std::chrono::seconds(5));
}
void AlgorithmVisualizer::runSelectionSort(sf::RenderWindow& window, sf::Font& font) {
SelectionSort selectionSort;
promptForInput(window, font);
sf::Text prompt("Selection Sort", font, 24);
prompt.setPosition(50, 50);
stats.startTimer();
selectionSort.sortWithVisualization(data, window, *this);
stats.stopTimer();
sf::Text result("Selection Sort Complete!", font, 24);
result.setPosition(50, 500);
sf::Text executionTime("Execution Time: " + std::to_string(stats.getExecutionTime()) + " seconds", font, 20);
executionTime.setPosition(50, 250);
sf::Text complexity("Time Complexity: O(n^2), Space Complexity: O(1)", font, 20);
complexity.setPosition(50, 300);
window.clear();
window.draw(prompt);
window.draw(result);
window.draw(executionTime);
window.draw(complexity);
window.display();
this_thread::sleep_for(chrono::seconds(5));
}
void AlgorithmVisualizer::runInsertionSort(sf::RenderWindow& window, sf::Font& font) {
InsertionSort insertionSort;
promptForInput(window, font);
sf::Text prompt("Insertion Sort", font, 24);
prompt.setPosition(50, 50);
stats.startTimer();
insertionSort.sortWithVisualization(data, window, *this);
stats.stopTimer();
sf::Text result("Insertion Sort Complete!", font, 24);
result.setPosition(50, 500);
sf::Text executionTime("Execution Time: " + std::to_string(stats.getExecutionTime()) + " seconds", font, 20);
executionTime.setPosition(50, 250);
sf::Text complexity("Time Complexity: O(n^2), Space Complexity: O(1)", font, 20);
complexity.setPosition(50, 300);
window.clear();
window.draw(prompt);
window.draw(result);
window.draw(executionTime);
window.draw(complexity);
window.display();
this_thread::sleep_for(chrono::seconds(5));
}
void AlgorithmVisualizer::runMergeSort(sf::RenderWindow& window, sf::Font& font) {
MergeSort mergeSort;
promptForInput(window, font);
sf::Text prompt("Merge Sort", font, 24);
prompt.setPosition(50, 50);
stats.startTimer();
mergeSort.sortWithVisualization(data, window, *this);
stats.stopTimer();
sf::Text result("Merge Sort Complete!", font, 24);
result.setPosition(50, 500);
sf::Text executionTime("Execution Time: " + std::to_string(stats.getExecutionTime()) + " seconds", font, 20);
executionTime.setPosition(50, 250);
sf::Text complexity("Time Complexity: O(n log n), Space Complexity: O(n)", font, 20);
complexity.setPosition(50, 300);
window.clear();
window.draw(prompt);
window.draw(result);
window.draw(executionTime);
window.draw(complexity);
window.display();
this_thread::sleep_for(chrono::seconds(5));
}
void AlgorithmVisualizer::runQuickSort(sf::RenderWindow& window, sf::Font& font) {
QuickSort quickSort;
promptForInput(window, font);
sf::Text prompt("Quick Sort", font, 24);
prompt.setPosition(50, 50);
stats.startTimer();
quickSort.sortWithVisualization(data, window, *this);
stats.stopTimer();
sf::Text result("Quick Sort Complete!", font, 24);
result.setPosition(50, 500);
sf::Text executionTime("Execution Time: " + std::to_string(stats.getExecutionTime()) + " seconds", font, 20);
executionTime.setPosition(50, 250);
sf::Text complexity("Time Complexity: O(n log n), Space Complexity: O(log n)", font, 20);
complexity.setPosition(50, 300);
window.clear();
window.draw(prompt);
window.draw(result);
window.draw(executionTime);
window.draw(complexity);
window.display();
this_thread::sleep_for(chrono::seconds(5));
}