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mirror of https://github.com/janet-lang/janet synced 2024-11-28 11:09:54 +00:00

Change semantics of bracketed tuple equality.

Comparison between different bracket and normal tuples
will now take into account the delimiter type. This solves strange
non-locality issues in the compiler due to this false equality, and is
more consistent with Janet's otherwise strong equality philosophy.
This commit is contained in:
Calvin Rose 2023-03-03 18:24:02 -06:00
parent 75229332c8
commit aa5c987a94
5 changed files with 11 additions and 4 deletions

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@ -2,6 +2,8 @@
All notable changes to this project will be documented in this file.
## ??? - Unreleased
- Change semantics around bracket tuples to no longer be equal to regular tuples.
- Add `index` argument to `ffi/write` for symmetry with `ffi/read`.
- Add `buffer/push-at`
- Add `ffi/pointer-buffer` to convert pointers to buffers the cannot be reallocated. This
allows easier manipulation of FFI memory, memory mapped files, and buffer memory shared between threads.

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@ -1517,7 +1517,7 @@ JANET_CORE_FN(cfun_ffi_pointer_buffer,
"Create a buffer from a pointer. The underlying memory of the buffer will not be "
"reallocated or freed by the garbage collector, allowing unmanaged, mutable memory "
"to be manipulated with buffer functions. Attempts to resize or extend the buffer "
"beyond it's initial capacity will raise an error. As with many FFI functions, it is memory "
"beyond its initial capacity will raise an error. As with many FFI functions, this is memory "
"unsafe and can potentially allow out of bounds memory access. Returns a new buffer.") {
janet_sandbox_assert(JANET_SANDBOX_FFI);
janet_arity(argc, 2, 4);

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@ -272,6 +272,7 @@ int janet_equals(Janet x, Janet y) {
const Janet *t1 = janet_unwrap_tuple(x);
const Janet *t2 = janet_unwrap_tuple(y);
if (t1 == t2) break;
if (JANET_TUPLE_FLAG_BRACKETCTOR & (janet_tuple_flag(t1) ^ janet_tuple_flag(t2))) return 0;
if (janet_tuple_hash(t1) != janet_tuple_hash(t2)) return 0;
if (janet_tuple_length(t1) != janet_tuple_length(t2)) return 0;
push_traversal_node(janet_tuple_head(t1), janet_tuple_head(t2), 0);
@ -321,6 +322,7 @@ int32_t janet_hash(Janet x) {
break;
case JANET_TUPLE:
hash = janet_tuple_hash(janet_unwrap_tuple(x));
hash += (janet_tuple_flag(janet_unwrap_tuple(x)) & JANET_TUPLE_FLAG_BRACKETCTOR) ? 1 : 0;
break;
case JANET_STRUCT:
hash = janet_struct_hash(janet_unwrap_struct(x));
@ -412,6 +414,9 @@ int janet_compare(Janet x, Janet y) {
case JANET_TUPLE: {
const Janet *lhs = janet_unwrap_tuple(x);
const Janet *rhs = janet_unwrap_tuple(y);
if (JANET_TUPLE_FLAG_BRACKETCTOR & (janet_tuple_flag(lhs) ^ janet_tuple_flag(rhs))) {
return (janet_tuple_flag(lhs) & JANET_TUPLE_FLAG_BRACKETCTOR) ? 1 : -1;
}
push_traversal_node(janet_tuple_head(lhs), janet_tuple_head(rhs), 1);
break;
}

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@ -228,7 +228,7 @@
(assert (= 14 (sum (map inc @[1 2 3 4]))) "sum map")
(def myfun (juxt + - * /))
(assert (= '[2 -2 2 0.5] (myfun 2)) "juxt")
(assert (= [2 -2 2 0.5] (myfun 2)) "juxt")
# Case statements
(assert

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@ -41,10 +41,10 @@
# Looping idea
(def xs
(seq [x :in '[-1 0 1] y :in '[-1 0 1] :when (not= x y 0)] (tuple x y)))
(seq [x :in [-1 0 1] y :in [-1 0 1] :when (not= x y 0)] (tuple x y)))
(def txs (apply tuple xs))
(assert (= txs '[[-1 -1] [-1 0] [-1 1] [0 -1] [0 1] [1 -1] [1 0] [1 1]]) "nested seq")
(assert (= txs [[-1 -1] [-1 0] [-1 1] [0 -1] [0 1] [1 -1] [1 0] [1 1]]) "nested seq")
# Generators
(def gen (generate [x :range [0 100] :when (pos? (% x 4))] x))