godot/tests/test_vector.h

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/*  test_vector.h                                                        */
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#ifndef TEST_VECTOR_H
#define TEST_VECTOR_H

#include "core/templates/vector.h"

#include "tests/test_macros.h"

namespace TestVector {

TEST_CASE("[Vector] Push back and append") {
	Vector<int> vector;
	vector.push_back(0);
	vector.push_back(1);
	vector.push_back(2);
	vector.push_back(3);
	// Alias for `push_back`.
	vector.append(4);

	CHECK(vector[0] == 0);
	CHECK(vector[1] == 1);
	CHECK(vector[2] == 2);
	CHECK(vector[3] == 3);
	CHECK(vector[4] == 4);
}

TEST_CASE("[Vector] Append array") {
	Vector<int> vector;
	vector.push_back(1);
	vector.push_back(2);

	Vector<int> vector_other;
	vector_other.push_back(128);
	vector_other.push_back(129);
	vector.append_array(vector_other);

	CHECK(vector.size() == 4);
	CHECK(vector[0] == 1);
	CHECK(vector[1] == 2);
	CHECK(vector[2] == 128);
	CHECK(vector[3] == 129);
}

TEST_CASE("[Vector] Insert") {
	Vector<int> vector;
	vector.insert(0, 2);
	vector.insert(0, 8);
	vector.insert(2, 5);
	vector.insert(1, 5);
	vector.insert(0, -2);

	CHECK(vector.size() == 5);
	CHECK(vector[0] == -2);
	CHECK(vector[1] == 8);
	CHECK(vector[2] == 5);
	CHECK(vector[3] == 2);
	CHECK(vector[4] == 5);
}

TEST_CASE("[Vector] Ordered insert") {
	Vector<int> vector;
	vector.ordered_insert(2);
	vector.ordered_insert(8);
	vector.ordered_insert(5);
	vector.ordered_insert(5);
	vector.ordered_insert(-2);

	CHECK(vector.size() == 5);
	CHECK(vector[0] == -2);
	CHECK(vector[1] == 2);
	CHECK(vector[2] == 5);
	CHECK(vector[3] == 5);
	CHECK(vector[4] == 8);
}

TEST_CASE("[Vector] Insert + Ordered insert") {
	Vector<int> vector;
	vector.ordered_insert(2);
	vector.ordered_insert(8);
	vector.insert(0, 5);
	vector.ordered_insert(5);
	vector.insert(1, -2);

	CHECK(vector.size() == 5);
	CHECK(vector[0] == 5);
	CHECK(vector[1] == -2);
	CHECK(vector[2] == 2);
	CHECK(vector[3] == 5);
	CHECK(vector[4] == 8);
}

TEST_CASE("[Vector] Fill large array and modify it") {
	Vector<int> vector;
	vector.resize(1'000'000);
	vector.fill(0x60d07);

	vector.write[200] = 0;
	CHECK(vector.size() == 1'000'000);
	CHECK(vector[0] == 0x60d07);
	CHECK(vector[200] == 0);
	CHECK(vector[499'999] == 0x60d07);
	CHECK(vector[999'999] == 0x60d07);
	vector.remove(200);
	CHECK(vector[200] == 0x60d07);

	vector.clear();
	CHECK(vector.size() == 0);
}

TEST_CASE("[Vector] Copy creation") {
	Vector<int> vector;
	vector.push_back(0);
	vector.push_back(1);
	vector.push_back(2);
	vector.push_back(3);
	vector.push_back(4);

	Vector<int> vector_other = Vector<int>(vector);
	vector_other.remove(0);
	CHECK(vector_other[0] == 1);
	CHECK(vector_other[1] == 2);
	CHECK(vector_other[2] == 3);
	CHECK(vector_other[3] == 4);

	// Make sure the original vector isn't modified.
	CHECK(vector[0] == 0);
	CHECK(vector[1] == 1);
	CHECK(vector[2] == 2);
	CHECK(vector[3] == 3);
	CHECK(vector[4] == 4);
}

TEST_CASE("[Vector] Duplicate") {
	Vector<int> vector;
	vector.push_back(0);
	vector.push_back(1);
	vector.push_back(2);
	vector.push_back(3);
	vector.push_back(4);

	Vector<int> vector_other = vector.duplicate();
	vector_other.remove(0);
	CHECK(vector_other[0] == 1);
	CHECK(vector_other[1] == 2);
	CHECK(vector_other[2] == 3);
	CHECK(vector_other[3] == 4);

	// Make sure the original vector isn't modified.
	CHECK(vector[0] == 0);
	CHECK(vector[1] == 1);
	CHECK(vector[2] == 2);
	CHECK(vector[3] == 3);
	CHECK(vector[4] == 4);
}

TEST_CASE("[Vector] Get, set") {
	Vector<int> vector;
	vector.push_back(0);
	vector.push_back(1);
	vector.push_back(2);
	vector.push_back(3);
	vector.push_back(4);

	CHECK(vector.get(0) == 0);
	CHECK(vector.get(1) == 1);
	vector.set(2, 256);
	CHECK(vector.get(2) == 256);
	CHECK(vector.get(3) == 3);

	ERR_PRINT_OFF;
	// Invalid (but should not crash): setting out of bounds.
	vector.set(6, 500);
	ERR_PRINT_ON;

	CHECK(vector.get(4) == 4);
}

TEST_CASE("[Vector] To byte array") {
	Vector<int> vector;
	vector.push_back(0);
	vector.push_back(-1);
	vector.push_back(2008);
	vector.push_back(999999999);

	Vector<uint8_t> byte_array = vector.to_byte_array();
	CHECK(byte_array.size() == 16);
	// vector[0]
	CHECK(byte_array[0] == 0);
	CHECK(byte_array[1] == 0);
	CHECK(byte_array[2] == 0);
	CHECK(byte_array[3] == 0);

	// vector[1]
	CHECK(byte_array[4] == 255);
	CHECK(byte_array[5] == 255);
	CHECK(byte_array[6] == 255);
	CHECK(byte_array[7] == 255);

	// vector[2]
	CHECK(byte_array[8] == 216);
	CHECK(byte_array[9] == 7);
	CHECK(byte_array[10] == 0);
	CHECK(byte_array[11] == 0);

	// vector[3]
	CHECK(byte_array[12] == 255);
	CHECK(byte_array[13] == 201);
	CHECK(byte_array[14] == 154);
	CHECK(byte_array[15] == 59);
}

TEST_CASE("[Vector] Subarray") {
	Vector<int> vector;
	vector.push_back(0);
	vector.push_back(1);
	vector.push_back(2);
	vector.push_back(3);
	vector.push_back(4);

	Vector<int> subarray1 = vector.subarray(1, 2);
	CHECK(subarray1.size() == 2);
	CHECK(subarray1[0] == 1);
	CHECK(subarray1[1] == 2);

	Vector<int> subarray2 = vector.subarray(1, -1);
	CHECK(subarray2.size() == 4);
	CHECK(subarray2[0] == 1);
	CHECK(subarray2[1] == 2);
	CHECK(subarray2[2] == 3);
	CHECK(subarray2[3] == 4);

	Vector<int> subarray3 = vector.subarray(-2, -1);
	CHECK(subarray3.size() == 2);
	CHECK(subarray3[0] == 3);
	CHECK(subarray3[1] == 4);

	Vector<int> subarray4 = vector.subarray(-3, 3);
	CHECK(subarray4.size() == 2);
	CHECK(subarray4[0] == 2);
	CHECK(subarray4[1] == 3);
}

TEST_CASE("[Vector] Find, has") {
	Vector<int> vector;
	vector.push_back(3);
	vector.push_back(1);
	vector.push_back(4);
	vector.push_back(0);
	vector.push_back(2);

	CHECK(vector[0] == 3);
	CHECK(vector[1] == 1);
	CHECK(vector[2] == 4);
	CHECK(vector[3] == 0);
	CHECK(vector[4] == 2);

	CHECK(vector.find(0) == 3);
	CHECK(vector.find(1) == 1);
	CHECK(vector.find(2) == 4);
	CHECK(vector.find(3) == 0);
	CHECK(vector.find(4) == 2);

	CHECK(vector.find(-1) == -1);
	CHECK(vector.find(5) == -1);

	CHECK(vector.has(0));
	CHECK(vector.has(1));
	CHECK(vector.has(2));
	CHECK(vector.has(3));
	CHECK(vector.has(4));

	CHECK(!vector.has(-1));
	CHECK(!vector.has(5));
}

TEST_CASE("[Vector] Remove") {
	Vector<int> vector;
	vector.push_back(0);
	vector.push_back(1);
	vector.push_back(2);
	vector.push_back(3);
	vector.push_back(4);

	vector.remove(0);

	CHECK(vector[0] == 1);
	CHECK(vector[1] == 2);
	CHECK(vector[2] == 3);
	CHECK(vector[3] == 4);

	vector.remove(2);

	CHECK(vector[0] == 1);
	CHECK(vector[1] == 2);
	CHECK(vector[2] == 4);

	vector.remove(1);

	CHECK(vector[0] == 1);
	CHECK(vector[1] == 4);

	vector.remove(0);

	CHECK(vector[0] == 4);
}

TEST_CASE("[Vector] Remove and find") {
	Vector<int> vector;
	vector.push_back(0);
	vector.push_back(1);
	vector.push_back(2);
	vector.push_back(3);
	vector.push_back(4);

	CHECK(vector.size() == 5);

	vector.remove(0);

	CHECK(vector.size() == 4);

	CHECK(vector.find(0) == -1);
	CHECK(vector.find(1) != -1);
	CHECK(vector.find(2) != -1);
	CHECK(vector.find(3) != -1);
	CHECK(vector.find(4) != -1);

	vector.remove(vector.find(3));

	CHECK(vector.size() == 3);

	CHECK(vector.find(3) == -1);
	CHECK(vector.find(1) != -1);
	CHECK(vector.find(2) != -1);
	CHECK(vector.find(4) != -1);

	vector.remove(vector.find(2));

	CHECK(vector.size() == 2);

	CHECK(vector.find(2) == -1);
	CHECK(vector.find(1) != -1);
	CHECK(vector.find(4) != -1);

	vector.remove(vector.find(4));

	CHECK(vector.size() == 1);

	CHECK(vector.find(4) == -1);
	CHECK(vector.find(1) != -1);

	vector.remove(0);

	CHECK(vector.is_empty());
	CHECK(vector.size() == 0);
}

TEST_CASE("[Vector] Erase") {
	Vector<int> vector;
	vector.push_back(1);
	vector.push_back(3);
	vector.push_back(0);
	vector.push_back(2);
	vector.push_back(4);

	CHECK(vector.find(2) == 3);

	vector.erase(2);

	CHECK(vector.find(2) == -1);
	CHECK(vector.size() == 4);
}

TEST_CASE("[Vector] Size, resize, reserve") {
	Vector<int> vector;
	CHECK(vector.is_empty());
	CHECK(vector.size() == 0);

	vector.resize(10);

	CHECK(vector.size() == 10);

	vector.resize(5);

	CHECK(vector.size() == 5);

	vector.remove(0);
	vector.remove(0);
	vector.remove(0);

	CHECK(vector.size() == 2);

	vector.clear();

	CHECK(vector.size() == 0);
	CHECK(vector.is_empty());

	vector.push_back(0);
	vector.push_back(0);
	vector.push_back(0);

	CHECK(vector.size() == 3);

	vector.push_back(0);

	CHECK(vector.size() == 4);
}

TEST_CASE("[Vector] Sort") {
	Vector<int> vector;
	vector.push_back(2);
	vector.push_back(8);
	vector.push_back(-4);
	vector.push_back(5);
	vector.sort();

	CHECK(vector.size() == 4);
	CHECK(vector[0] == -4);
	CHECK(vector[1] == 2);
	CHECK(vector[2] == 5);
	CHECK(vector[3] == 8);
}

TEST_CASE("[Vector] Sort custom") {
	Vector<String> vector;
	vector.push_back("world");
	vector.push_back("World");
	vector.push_back("Hello");
	vector.push_back("10Hello");
	vector.push_back("12Hello");
	vector.push_back("01Hello");
	vector.push_back("1Hello");
	vector.push_back(".Hello");
	vector.sort_custom<NaturalNoCaseComparator>();

	CHECK(vector.size() == 8);
	CHECK(vector[0] == ".Hello");
	CHECK(vector[1] == "01Hello");
	CHECK(vector[2] == "1Hello");
	CHECK(vector[3] == "10Hello");
	CHECK(vector[4] == "12Hello");
	CHECK(vector[5] == "Hello");
	CHECK(vector[6] == "world");
	CHECK(vector[7] == "World");
}

TEST_CASE("[Vector] Search") {
	Vector<int> vector;
	vector.push_back(1);
	vector.push_back(2);
	vector.push_back(3);
	vector.push_back(5);
	vector.push_back(8);
	CHECK(vector.bsearch(2, true) == 1);
	CHECK(vector.bsearch(2, false) == 2);
	CHECK(vector.bsearch(5, true) == 3);
	CHECK(vector.bsearch(5, false) == 4);
}

TEST_CASE("[Vector] Operators") {
	Vector<int> vector;
	vector.push_back(2);
	vector.push_back(8);
	vector.push_back(-4);
	vector.push_back(5);

	Vector<int> vector_other;
	vector_other.push_back(2);
	vector_other.push_back(8);
	vector_other.push_back(-4);
	vector_other.push_back(5);

	CHECK(vector == vector_other);

	vector_other.push_back(10);
	CHECK(vector != vector_other);
}

} // namespace TestVector

#endif // TEST_VECTOR_H