const std = @import("std"); const zls = @import("zls"); const builtin = @import("builtin"); const Ast = std.zig.Ast; const ComptimeInterpreter = zls.ComptimeInterpreter; const InternPool = zls.InternPool; const Index = InternPool.Index; const Key = InternPool.Key; const allocator: std.mem.Allocator = std.testing.allocator; test "ComptimeInterpreter - call return primitive type" { try testCallCheck( \\pub fn Foo() type { \\ return bool; \\} , &.{}, .{ .simple = .bool }); try testCallCheck( \\pub fn Foo() type { \\ return u32; \\} , &.{}, .{ .int_type = .{ .signedness = .unsigned, .bits = 32 } }); try testCallCheck( \\pub fn Foo() type { \\ return i128; \\} , &.{}, .{ .int_type = .{ .signedness = .signed, .bits = 128 } }); try testCallCheck( \\pub fn Foo() type { \\ const alpha = i128; \\ return alpha; \\} , &.{}, .{ .int_type = .{ .signedness = .signed, .bits = 128 } }); } test "ComptimeInterpreter - call return struct" { var result = try testCall( \\pub fn Foo() type { \\ return struct { \\ slay: bool, \\ var abc = 123; \\ }; \\} , &.{}); defer result.deinit(); const struct_info = result.key.struct_type; try std.testing.expectEqual(Index.none, struct_info.backing_int_ty); try std.testing.expectEqual(std.builtin.Type.ContainerLayout.Auto, struct_info.layout); try std.testing.expectEqual(@as(usize, 1), struct_info.fields.len); // try std.testing.expectEqualStrings("slay", struct_info.fields[0].name); // try std.testing.expect(struct_info.fields[0].ty != .none); // TODO check for bool } test "ComptimeInterpreter - call comptime argument" { const source = \\pub fn Foo(comptime my_arg: bool) type { \\ var abc = z: {break :z if (!my_arg) 123 else 0;}; \\ if (abc == 123) return u69; \\ return u8; \\} ; var result1 = try testCall(source, &.{ Value{ .ty = .{ .simple = .bool }, .val = .{ .simple = .bool_true }, }, }); defer result1.deinit(); try std.testing.expectEqual(Key{ .int_type = .{ .signedness = .unsigned, .bits = 8 } }, result1.key); var result2 = try testCall(source, &.{ Value{ .ty = .{ .simple = .bool }, .val = .{ .simple = .bool_false }, }, }); defer result2.deinit(); try std.testing.expectEqual(Key{ .int_type = .{ .signedness = .unsigned, .bits = 69 } }, result2.key); } // // Helper functions // const CallResult = struct { interpreter: ComptimeInterpreter, key: Key, pub fn deinit(self: *CallResult) void { self.interpreter.deinit(); } }; const Value = struct { ty: Key, val: Key, }; fn testCall(source: []const u8, arguments: []const Value) !CallResult { var config = zls.Config{}; var doc_store = zls.DocumentStore{ .allocator = allocator, .config = &config, }; defer doc_store.deinit(); const test_uri: []const u8 = switch (builtin.os.tag) { .windows => "file:///C:\\test.zig", else => "file:///test.zig", }; const handle = try doc_store.openDocument(test_uri, source); var interpreter = ComptimeInterpreter{ .allocator = allocator, .arena = std.heap.ArenaAllocator.init(allocator), .document_store = &doc_store, .uri = handle.uri, }; errdefer interpreter.deinit(); _ = try interpreter.interpret(0, .none, .{}); var args = try allocator.alloc(ComptimeInterpreter.Value, arguments.len); defer allocator.free(args); for (arguments) |argument, i| { args[i] = .{ .interpreter = &interpreter, .node_idx = 0, .ty = try interpreter.ip.get(interpreter.allocator, argument.ty), .val = try interpreter.ip.get(interpreter.allocator, argument.val), }; } const func_node = for (handle.tree.nodes.items(.tag)) |tag, i| { if (tag == .fn_decl) break @intCast(Ast.Node.Index, i); } else unreachable; const call_result = try interpreter.call(.none, func_node, args, .{}); try std.testing.expectEqual(Key{ .simple = .type }, interpreter.ip.indexToKey(call_result.result.value.ty)); return CallResult{ .interpreter = interpreter, .key = interpreter.ip.indexToKey(call_result.result.value.val), }; } fn testCallCheck( source: []const u8, arguments: []const Value, expected: Key, ) !void { var result = try testCall(source, arguments); defer result.deinit(); try std.testing.expectEqual(expected, result.key); }