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150 lines
5.8 KiB
Zig
150 lines
5.8 KiB
Zig
//
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// The functionality of the standard library is becoming increasingly
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// important in Zig. On the one hand, it is helpful to look at how
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// the individual functions are implemented. Because this is wonderfully
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// suitable as a template for your own functions. On the other hand,
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// these standard functions are part of the basic equipment of Zig.
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//
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// This means that they are always available on every system.
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// Therefore it is worthwhile to deal with them also in Ziglings.
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// It's a great way to learn important skills. For example, it is
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// often necessary to process large amounts of data from files.
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// And for this sequential reading and processing, Zig provides some
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// useful functions, which we will take a closer look at in the coming
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// exercises.
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//
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// A nice example of this has been published on the Zig homepage,
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// replacing the somewhat dusty 'Hello world!
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//
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// Nothing against 'Hello world!', but it just doesn't do justice
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// to the elegance of Zig and that's a pity, if someone takes a short,
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// first look at the homepage and doesn't get 'enchanted'. And for that
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// the present example is simply better suited and we will therefore
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// use it as an introduction to tokenizing, because it is wonderfully
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// suited to understand the basic principles.
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//
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// In the following exercises we will also read and process data from
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// large files and at the latest then it will be clear to everyone how
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// useful all this is.
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//
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// Let's start with the analysis of the example from the Zig homepage
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// and explain the most important things.
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//
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// const std = @import("std");
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//
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// // Here a function from the Standard library is defined,
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// // which transfers numbers from a string into the respective
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// // integer values.
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// const parseInt = std.fmt.parseInt;
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//
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// // Defining a test case
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// test "parse integers" {
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//
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// // Four numbers are passed in a string.
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// // Please note that the individual values are separated
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// // either by a space or a comma.
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// const input = "123 67 89,99";
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//
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// // In order to be able to process the input values,
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// // memory is required. An allocator is defined here for
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// // this purpose.
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// const ally = std.testing.allocator;
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//
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// // The allocator is used to initialize an array into which
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// // the numbers are stored.
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// var list = std.ArrayList(u32).init(ally);
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//
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// // This way you can never forget what is urgently needed
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// // and the compiler doesn't grumble either.
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// defer list.deinit();
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//
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// // Now it gets exciting:
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// // A standard tokenizer is called (Zig has several) and
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// // used to locate the positions of the respective separators
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// // (we remember, space and comma) and pass them to an iterator.
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// var it = std.mem.tokenize(u8, input, " ,");
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//
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// // The iterator can now be processed in a loop and the
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// // individual numbers can be transferred.
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// while (it.next()) |num| {
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// // But be careful: The numbers are still only available
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// // as strings. This is where the integer parser comes
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// // into play, converting them into real integer values.
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// const n = try parseInt(u32, num, 10);
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//
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// // Finally the individual values are stored in the array.
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// try list.append(n);
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// }
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//
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// // For the subsequent test, a second static array is created,
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// // which is directly filled with the expected values.
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// const expected = [_]u32{ 123, 67, 89, 99 };
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//
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// // Now the numbers converted from the string can be compared
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// // with the expected ones, so that the test is completed
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// // successfully.
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// for (expected, list.items) |exp, actual| {
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// try std.testing.expectEqual(exp, actual);
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// }
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// }
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//
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// So much for the example from the homepage.
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// Let's summarize the basic steps again:
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//
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// - We have a set of data in sequential order, separated from each other
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// by means of various characters.
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//
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// - For further processing, for example in an array, this data must be
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// read in, separated and, if necessary, converted into the target format.
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//
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// - We need a buffer that is large enough to hold the data.
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//
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// - This buffer can be created either statically at compile time, if the
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// amount of data is already known, or dynamically at runtime by using
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// a memory allocator.
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//
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// - The data are divided by means of Tokenizer at the respective
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// separators and stored in the reserved memory. This usually also
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// includes conversion to the target format.
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//
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// - Now the data can be conveniently processed further in the correct format.
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//
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// These steps are basically always the same.
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// Whether the data is read from a file or entered by the user via the
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// keyboard, for example, is irrelevant. Only subtleties are distinguished
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// and that's why Zig has different tokenizers. But more about this in
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// later exercises.
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//
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// Now we also want to write a small program to tokenize some data,
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// after all we need some practice. Suppose we want to count the words
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// of this little poem:
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//
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// My name is Ozymandias, King of Kings;
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// Look on my Works, ye Mighty, and despair!
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// by Percy Bysshe Shelley
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//
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//
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const std = @import("std");
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const print = std.debug.print;
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pub fn main() !void {
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// our input
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const poem =
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\\My name is Ozymandias, King of Kings;
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\\Look on my Works, ye Mighty, and despair!
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;
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// now the tokenizer, but what do we need here?
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var it = std.mem.tokenize(u8, poem, ???);
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// print all words and count them
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var cnt: usize = 0;
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while (it.next()) |word| {
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cnt += 1;
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print("{s}\n", .{word});
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}
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// print the result
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print("This little poem has {d} words!\n", .{cnt});
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}
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