godot/tests/core/io/test_file_access.h

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/*  test_file_access.h                                                    */
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#ifndef TEST_FILE_ACCESS_H
#define TEST_FILE_ACCESS_H

#include "core/io/file_access.h"
#include "tests/test_macros.h"
#include "tests/test_utils.h"

namespace TestFileAccess {

TEST_CASE("[FileAccess] CSV read") {
	Ref<FileAccess> f = FileAccess::open(TestUtils::get_data_path("testdata.csv"), FileAccess::READ);
	REQUIRE(f.is_valid());

	Vector<String> header = f->get_csv_line(); // Default delimiter: ",".
	REQUIRE(header.size() == 4);

	Vector<String> row1 = f->get_csv_line(","); // Explicit delimiter, should be the same.
	REQUIRE(row1.size() == 4);
	CHECK(row1[0] == "GOOD_MORNING");
	CHECK(row1[1] == "Good Morning");
	CHECK(row1[2] == "Guten Morgen");
	CHECK(row1[3] == "Bonjour");

	Vector<String> row2 = f->get_csv_line();
	REQUIRE(row2.size() == 4);
	CHECK(row2[0] == "GOOD_EVENING");
	CHECK(row2[1] == "Good Evening");
	CHECK(row2[2].is_empty()); // Use case: not yet translated!
	// https://github.com/godotengine/godot/issues/44269
	CHECK_MESSAGE(row2[2] != "\"", "Should not parse empty string as a single double quote.");
	CHECK(row2[3] == "\"\""); // Intentionally testing only escaped double quotes.

	Vector<String> row3 = f->get_csv_line();
	REQUIRE(row3.size() == 6);
	CHECK(row3[0] == "Without quotes");
	CHECK(row3[1] == "With, comma");
	CHECK(row3[2] == "With \"inner\" quotes");
	CHECK(row3[3] == "With \"inner\", quotes\",\" and comma");
	CHECK(row3[4] == "With \"inner\nsplit\" quotes and\nline breaks");
	CHECK(row3[5] == "With \\nnewline chars"); // Escaped, not an actual newline.

	Vector<String> row4 = f->get_csv_line("~"); // Custom delimiter, makes inline commas easier.
	REQUIRE(row4.size() == 3);
	CHECK(row4[0] == "Some other");
	CHECK(row4[1] == "delimiter");
	CHECK(row4[2] == "should still work, shouldn't it?");

	Vector<String> row5 = f->get_csv_line("\t"); // Tab separated variables.
	REQUIRE(row5.size() == 3);
	CHECK(row5[0] == "What about");
	CHECK(row5[1] == "tab separated");
	CHECK(row5[2] == "lines, good?");
}

TEST_CASE("[FileAccess] Get as UTF-8 String") {
	Ref<FileAccess> f_lf = FileAccess::open(TestUtils::get_data_path("line_endings_lf.test.txt"), FileAccess::READ);
	REQUIRE(!f_lf.is_null());
	String s_lf = f_lf->get_as_utf8_string();
	f_lf->seek(0);
	String s_lf_nocr = f_lf->get_as_utf8_string(true);
	CHECK(s_lf == "Hello darkness\nMy old friend\nI've come to talk\nWith you again\n");
	CHECK(s_lf_nocr == "Hello darkness\nMy old friend\nI've come to talk\nWith you again\n");

	Ref<FileAccess> f_crlf = FileAccess::open(TestUtils::get_data_path("line_endings_crlf.test.txt"), FileAccess::READ);
	REQUIRE(!f_crlf.is_null());
	String s_crlf = f_crlf->get_as_utf8_string();
	f_crlf->seek(0);
	String s_crlf_nocr = f_crlf->get_as_utf8_string(true);
	CHECK(s_crlf == "Hello darkness\r\nMy old friend\r\nI've come to talk\r\nWith you again\r\n");
	CHECK(s_crlf_nocr == "Hello darkness\nMy old friend\nI've come to talk\nWith you again\n");

	Ref<FileAccess> f_cr = FileAccess::open(TestUtils::get_data_path("line_endings_cr.test.txt"), FileAccess::READ);
	REQUIRE(!f_cr.is_null());
	String s_cr = f_cr->get_as_utf8_string();
	f_cr->seek(0);
	String s_cr_nocr = f_cr->get_as_utf8_string(true);
	CHECK(s_cr == "Hello darkness\rMy old friend\rI've come to talk\rWith you again\r");
	CHECK(s_cr_nocr == "Hello darknessMy old friendI've come to talkWith you again");
}

TEST_CASE("[FileAccess] Get/Store floating point values") {
	// BigEndian Hex: 0x40490E56
	// LittleEndian Hex: 0x560E4940
	float value = 3.1415f;

	SUBCASE("Little Endian") {
		const String file_path = TestUtils::get_data_path("floating_point_little_endian.bin");
		const String file_path_new = TestUtils::get_data_path("floating_point_little_endian_new.bin");

		Ref<FileAccess> f = FileAccess::open(file_path, FileAccess::READ);
		REQUIRE(f.is_valid());
		CHECK_EQ(f->get_float(), value);

		Ref<FileAccess> fw = FileAccess::open(file_path_new, FileAccess::WRITE);
		REQUIRE(fw.is_valid());
		fw->store_float(value);
		fw->close();

		CHECK_EQ(FileAccess::get_sha256(file_path_new), FileAccess::get_sha256(file_path));

		DirAccess::remove_file_or_error(file_path_new);
	}

	SUBCASE("Big Endian") {
		const String file_path = TestUtils::get_data_path("floating_point_big_endian.bin");
		const String file_path_new = TestUtils::get_data_path("floating_point_big_endian_new.bin");

		Ref<FileAccess> f = FileAccess::open(file_path, FileAccess::READ);
		REQUIRE(f.is_valid());
		f->set_big_endian(true);
		CHECK_EQ(f->get_float(), value);

		Ref<FileAccess> fw = FileAccess::open(file_path_new, FileAccess::WRITE);
		REQUIRE(fw.is_valid());
		fw->set_big_endian(true);
		fw->store_float(value);
		fw->close();

		CHECK_EQ(FileAccess::get_sha256(file_path_new), FileAccess::get_sha256(file_path));

		DirAccess::remove_file_or_error(file_path_new);
	}
}

TEST_CASE("[FileAccess] Get/Store floating point half precision values") {
	// IEEE 754 half-precision binary floating-point format:
	// sign exponent (5 bits)    fraction (10 bits)
	//  0        01101               0101010101
	// BigEndian Hex: 0x3555
	// LittleEndian Hex: 0x5535
	float value = 0.33325195f;

	SUBCASE("Little Endian") {
		const String file_path = TestUtils::get_data_path("half_precision_floating_point_little_endian.bin");
		const String file_path_new = TestUtils::get_data_path("half_precision_floating_point_little_endian_new.bin");

		Ref<FileAccess> f = FileAccess::open(file_path, FileAccess::READ);
		REQUIRE(f.is_valid());
		CHECK_EQ(f->get_half(), value);

		Ref<FileAccess> fw = FileAccess::open(file_path_new, FileAccess::WRITE);
		REQUIRE(fw.is_valid());
		fw->store_half(value);
		fw->close();

		CHECK_EQ(FileAccess::get_sha256(file_path_new), FileAccess::get_sha256(file_path));

		DirAccess::remove_file_or_error(file_path_new);
	}

	SUBCASE("Big Endian") {
		const String file_path = TestUtils::get_data_path("half_precision_floating_point_big_endian.bin");
		const String file_path_new = TestUtils::get_data_path("half_precision_floating_point_big_endian_new.bin");

		Ref<FileAccess> f = FileAccess::open(file_path, FileAccess::READ);
		REQUIRE(f.is_valid());
		f->set_big_endian(true);
		CHECK_EQ(f->get_half(), value);

		Ref<FileAccess> fw = FileAccess::open(file_path_new, FileAccess::WRITE);
		REQUIRE(fw.is_valid());
		fw->set_big_endian(true);
		fw->store_half(value);
		fw->close();

		CHECK_EQ(FileAccess::get_sha256(file_path_new), FileAccess::get_sha256(file_path));

		DirAccess::remove_file_or_error(file_path_new);
	}
}

} // namespace TestFileAccess

#endif // TEST_FILE_ACCESS_H