121 lines
3.4 KiB
Rust
121 lines
3.4 KiB
Rust
// xfail-boot
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// xfail-stage0
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// This test checks that destructors run in the right order. Because
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// stateful objects can't have destructors, we have the destructors
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// record their expected order into a channel when they execute (so
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// the object becomes 'io' rather than 'state'). Then each test case
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// asserts that the channel produces values in ascending order.
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//
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// FIXME: Write an int->str function and concatenate the whole failure
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// message into a single log statement (or, even better, a print).
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//
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// FIXME: check_order should take only 1 line in a test, not 2+a block
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// block. Since destructor-having objects can't refer to mutable state
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// (like the port), we'd need a with-like construct to do the same for
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// stateful objects within a scope.
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//
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// FIXME #21: Each test should execute in its own task, so it can fail
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// independently, writing its error message to a channel that the
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// parent task aggregates.
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type order_info = rec(int order, str msg);
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io fn check_order(port[order_info] expected_p) {
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chan(expected_p) <| rec(order=-1, msg="");
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let mutable int actual = 0;
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auto expected <- expected_p; // FIXME #121: Workaround for while(true) bug.
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auto done = -1; // FIXME: Workaround for typechecking bug.
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while(expected.order != done) {
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if (expected.order != actual) {
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log expected.order;
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log " != ";
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log actual;
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log expected.msg;
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fail;
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}
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actual += 1;
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expected <- expected_p;
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}
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}
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obj dorder(chan[order_info] expected, int order, str message) {
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drop {
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expected <| rec(order=order, msg=message);
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}
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}
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io fn test_simple() {
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let port[order_info] tracker_p = port();
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auto tracker = chan(tracker_p);
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dorder(tracker, 1, "Reverse decl order");
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dorder(tracker, 0, "Reverse decl order");
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check_order(tracker_p);
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}
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io fn test_block() {
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let port[order_info] tracker_p = port();
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auto tracker = chan(tracker_p);
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{
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dorder(tracker, 2, "Before block");
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{
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dorder(tracker, 0, "Inside block");
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}
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dorder(tracker, 1, "After block");
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}
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check_order(tracker_p);
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}
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io fn test_decl_v_init() {
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let port[order_info] tracker_p = port();
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auto tracker = chan(tracker_p);
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{
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auto var1;
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auto var2;
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var2 = dorder(tracker, 0, "decl, not init");
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var1 = dorder(tracker, 1, "decl, not init");
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}
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check_order(tracker_p);
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}
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io fn test_overwritten_obj() {
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let port[order_info] tracker_p = port();
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auto tracker = chan(tracker_p);
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{
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auto var1 = dorder(tracker, 0, "overwritten object destroyed first");
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auto var2 = dorder(tracker, 2, "destroyed at end of scope");
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var1 = dorder(tracker, 3, "overwriter deleted in rev decl order");
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{
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dorder(tracker, 1, "overwritten object destroyed before end of scope");
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}
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}
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check_order(tracker_p);
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}
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// Used to embed dorder objects into an expression. Note that the
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// parameters don't get destroyed.
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fn combine_dorders(dorder d1, dorder d2) -> int {
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ret 1;
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}
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io fn test_expression_destroyed_right_to_left() {
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let port[order_info] tracker_p = port();
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auto tracker = chan(tracker_p);
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{
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combine_dorders(dorder(tracker, 4, ""), dorder(tracker, 3, ""))
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/ combine_dorders(dorder(tracker, 2, ""), dorder(tracker, 1, ""));
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{
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dorder(tracker, 0,
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"expression objects live to end of block, not statement");
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}
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}
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check_order(tracker_p);
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}
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io fn main() {
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test_simple();
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test_block();
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test_decl_v_init();
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test_overwritten_obj();
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test_expression_destroyed_right_to_left();
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}
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