const std = @import("std"); const warn = std.debug.warn; const ecs = @import("ecs"); const Registry = @import("ecs").Registry; const Velocity = struct { x: f32 = 0, y: f32 = 0 }; const Position = struct { x: f32 = 0, y: f32 = 0 }; const Empty = struct {}; const Sprite = struct { x: f32 = 0 }; const Transform = struct { x: f32 = 0 }; const Renderable = struct { x: f32 = 0 }; const Rotation = struct { x: f32 = 0 }; fn printStore(store: var, name: []const u8) void { warn("--- {} ---\n", .{name}); for (store.set.dense.items) |e, i| { warn("{:3.0}", .{e}); warn(" ({d:3.0})", .{store.instances.items[i]}); } warn("\n", .{}); } test "nested OwningGroups add/remove components" { var reg = Registry.init(std.testing.allocator); defer reg.deinit(); var group1 = reg.group(.{Sprite}, .{Renderable}, .{}); var group2 = reg.group(.{ Sprite, Transform }, .{Renderable}, .{}); var group3 = reg.group(.{ Sprite, Transform }, .{ Renderable, Rotation }, .{}); std.testing.expect(!reg.sortable(Sprite)); std.testing.expect(!reg.sortable(Transform)); std.testing.expect(reg.sortable(Renderable)); var e1 = reg.create(); reg.addTypes(e1, .{ Sprite, Renderable, Rotation }); std.testing.expectEqual(group1.len(), 1); std.testing.expectEqual(group2.len(), 0); std.testing.expectEqual(group3.len(), 0); reg.add(e1, Transform{}); std.testing.expectEqual(group3.len(), 1); reg.remove(Sprite, e1); std.testing.expectEqual(group1.len(), 0); std.testing.expectEqual(group2.len(), 0); std.testing.expectEqual(group3.len(), 0); } test "nested OwningGroups entity order" { var reg = Registry.init(std.testing.allocator); defer reg.deinit(); var group1 = reg.group(.{Sprite}, .{Renderable}, .{}); var group2 = reg.group(.{ Sprite, Transform }, .{Renderable}, .{}); var i: usize = 0; while (i < 5) : (i += 1) { var e = reg.create(); reg.add(e, Sprite{ .x = @intToFloat(f32, i) }); reg.add(e, Renderable{ .x = @intToFloat(f32, i) }); } std.testing.expectEqual(group1.len(), 5); std.testing.expectEqual(group2.len(), 0); var sprite_store = reg.assure(Sprite); var transform_store = reg.assure(Transform); // printStore(sprite_store, "Sprite"); reg.add(1, Transform{.x = 1}); // printStore(sprite_store, "Sprite"); // printStore(transform_store, "Transform"); // warn("group2.current: {}\n", .{group2.group_data.current}); }