// // A union lets you store different types and sizes of data at // the same memory address. How is this possible? The compiler // sets aside enough memory for the largest thing you might want // to store. // // In this example, an instance of Foo always takes up u64 of // space in memory even if you're currently storing a u8. // // const Foo = union { // small: u8, // medium: u32, // large: u64, // }; // // The syntax looks just like a struct, but a Foo can only hold a // small OR a medium OR a large value. Once a field becomes // active, the other inactive fields cannot be accessed. To // change active fields, assign a whole new instance: // // var f = Foo{ .small = 5 }; // f.small += 5; // OKAY // f.medium = 5432; // ERROR! // f = Foo{ .medium = 5432 }; // OKAY // // Unions can save space in memory because they let you "re-use" // a space in memory. They also provide a sort of primitive // polymorphism. Here fooBar() can take a Foo no matter what size // of unsigned integer it holds: // // fn fooBar(f: Foo) void { ... } // // Oh, but how does fooBar() know which field is active? Zig has // a neat way of keeping track, but for now, we'll just have to // do it manually. // // Let's see if we can get this program working! // const std = @import("std"); // We've just started writing a simple ecosystem simulation. // Insects will be represented by either bees or ants. Bees store // the number of flowers they've visited that day and ants just // store whether or not they're still alive. const Insect = union { flowers_visited: u16, still_alive: bool, }; // Since we need to specify the type of insect, we'll use an // enum (remember those?). const AntOrBee = enum { a, b }; pub fn main() void { // We'll just make one bee and one ant to test them out: var ant = Insect{ .still_alive = true }; var bee = Insect{ .flowers_visited = 15 }; std.debug.print("Insect report! ", .{}); // Oops! We've made a mistake here. printInsect(ant, AntOrBee.a); printInsect(bee, AntOrBee.b); std.debug.print("\n", .{}); } // Eccentric Doctor Zoraptera says that we can only use one // function to print our insects. Doctor Z is small and sometimes // inscrutable but we do not question her. fn printInsect(insect: Insect, what_it_is: AntOrBee) void { switch (what_it_is) { .a => std.debug.print("Ant alive is: {}. ", .{insect.still_alive}), .b => std.debug.print("Bee visited {} flowers. ", .{insect.flowers_visited}), } }