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112 lines
3.7 KiB
Zig
112 lines
3.7 KiB
Zig
//
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// A big advantage of Zig is the integration of its own test system.
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// This allows the philosophy of Test Driven Development (TDD) to be
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// implemented perfectly. Zig even goes one step further than other
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// languages, the tests can be included directly in the source file.
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//
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// This has several advantages. On the one hand it is much clearer to
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// have everything in one file, both the source code and the associated
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// test code. On the other hand, it is much easier for third parties
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// to understand what exactly a function is supposed to do if they can
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// simply look at the test inside the source and compare both.
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//
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// Especially if you want to understand how e.g. the standard library
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// of Zig works, this approach is very helpful. Furthermore it is very
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// practical, if you want to report a bug to the Zig community, to
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// illustrate it with a small example including a test.
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//
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// Therefore, in this exercise we will deal with the basics of testing
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// in Zig. Basically, tests work as follows: you pass certain parameters
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// to a function, for which you get a return - the result. This is then
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// compared with the EXPECTED value. If both values match, the test is
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// passed, otherwise an error message is displayed.
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//
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// testing.expect(foo(param1, param2) == expected);
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//
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// Also other comparisons are possible, deviations or also errors can
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// be provoked, which must lead to an appropriate behavior of the
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// function, so that the test is passed.
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//
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// Tests can be run via Zig build system or applied directly to
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// individual modules using "zig test xyz.zig".
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//
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// Both can be used script-driven to execute tests automatically, e.g.
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// after checking into a Git repository. Something we also make extensive
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// use of here at Ziglings.
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//
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const std = @import("std");
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const testing = std.testing;
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// This is a simple function
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// that builds a sum from the
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// passed parameters and returns.
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fn add(a: f16, b: f16) f16 {
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return a + b;
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}
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// The associated test.
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// It always starts with the keyword "test",
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// followed by a description of the tasks
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// of the test. This is followed by the
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// test cases in curly brackets.
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test "add" {
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// The first test checks if the sum
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// of '41' and '1' gives '42', which
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// is correct.
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try testing.expect(add(41, 1) == 42);
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// Another way to perform this test
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// is as follows:
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try testing.expectEqual(add(41, 1), 42);
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// This time a test with the addition
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// of a negative number:
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try testing.expect(add(5, -4) == 1);
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// And a floating point operation:
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try testing.expect(add(1.5, 1.5) == 3);
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}
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// Another simple function
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// that returns the result
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// of subtracting the two
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// parameters.
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fn sub(a: f16, b: f16) f16 {
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return a - b;
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}
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// The corresponding test
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// is not much different
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// from the previous one.
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// Except that it contains
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// an error that you need
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// to correct.
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test "sub" {
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try testing.expect(sub(10, 5) == 6);
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try testing.expect(sub(3, 1.5) == 1.5);
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}
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// This function divides the
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// numerator by the denominator.
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// Here it is important that the
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// denominator must not be zero.
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// This is checked and if it
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// occurs an error is returned.
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fn divide(a: f16, b: f16) !f16 {
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if (b == 0) return error.DivisionByZero;
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return a / b;
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}
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test "divide" {
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try testing.expect(divide(2, 2) catch unreachable == 1);
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try testing.expect(divide(-1, -1) catch unreachable == 1);
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try testing.expect(divide(10, 2) catch unreachable == 5);
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try testing.expect(divide(1, 3) catch unreachable == 0.3333333333333333);
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// Now we test if the function returns an error
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// if we pass a zero as denominator.
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// But which error needs to be tested?
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try testing.expectError(error.???, divide(15, 0));
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}
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