const std = @import("std"); const ecs = @import("ecs"); const Registry = @import("ecs").Registry; const Velocity = struct { x: f32, y: f32 }; const Position = struct { x: f32 = 0, y: f32 = 0 }; const Empty = struct {}; const BigOne = struct { pos: Position, vel: Velocity, accel: Velocity }; test "entity traits" { const traits = ecs.EntityTraitsType(.large).init(); } test "Registry" { var reg = Registry.init(std.testing.allocator); defer reg.deinit(); var e1 = reg.create(); reg.addTypes(e1, .{Empty, Position}); reg.add(e1, BigOne{ .pos = Position{ .x = 5, .y = 5 }, .vel = Velocity{ .x = 5, .y = 5 }, .accel = Velocity{ .x = 5, .y = 5 } }); std.testing.expect(reg.has(Empty, e1)); std.testing.expect(reg.has(Position, e1)); std.testing.expect(reg.has(BigOne, e1)); reg.remove(Empty, e1); std.testing.expect(!reg.has(Empty, e1)); } test "context get/set/unset" { var reg = Registry.init(std.testing.allocator); defer reg.deinit(); var ctx = reg.getContext(Position); std.testing.expectEqual(ctx, null); var pos = Position{ .x = 5, .y = 5 }; reg.setContext(&pos); ctx = reg.getContext(Position); std.testing.expectEqual(ctx.?, &pos); reg.unsetContext(Position); ctx = reg.getContext(Position); std.testing.expectEqual(ctx, null); } // this test should fail test "context not pointer" { var reg = Registry.init(std.testing.allocator); defer reg.deinit(); var pos = Position{ .x = 5, .y = 5 }; // reg.setContext(pos); } test "context get/set/unset" { const SomeType = struct { dummy: u1 }; var reg = Registry.init(std.testing.allocator); defer reg.deinit(); var ctx = reg.getContext(SomeType); std.testing.expectEqual(ctx, null); var pos = SomeType{ .dummy = 0 }; reg.setContext(&pos); ctx = reg.getContext(SomeType); std.testing.expectEqual(ctx.?, &pos); reg.unsetContext(SomeType); ctx = reg.getContext(SomeType); std.testing.expectEqual(ctx, null); } test "singletons" { var reg = Registry.init(std.testing.allocator); defer reg.deinit(); var pos = Position{ .x = 5, .y = 5 }; reg.singletons.add(pos); std.testing.expect(reg.singletons.has(Position)); std.testing.expectEqual(reg.singletons.get(Position).*, pos); reg.singletons.remove(Position); std.testing.expect(!reg.singletons.has(Position)); } test "destroy" { var reg = Registry.init(std.testing.allocator); defer reg.deinit(); var i = @as(u8, 0); while (i < 255) : (i += 1) { const e = reg.create(); reg.add(e, Position{ .x = @intToFloat(f32, i), .y = @intToFloat(f32, i) }); } reg.destroy(3); reg.destroy(4); i = 0; while (i < 6) : (i += 1) { if (i != 3 and i != 4) std.testing.expectEqual(Position{ .x = @intToFloat(f32, i), .y = @intToFloat(f32, i) }, reg.getConst(Position, i)); } } test "remove all" { var reg = Registry.init(std.testing.allocator); defer reg.deinit(); var e = reg.create(); reg.add(e, Position{ .x = 1, .y = 1 }); reg.addTyped(u32, e, 666); std.testing.expect(reg.has(Position, e)); std.testing.expect(reg.has(u32, e)); reg.removeAll(e); std.testing.expect(!reg.has(Position, e)); std.testing.expect(!reg.has(u32, e)); }