Currently, the compiler (like @typeName) writes it `fn(...) Type` but
zig fmt writes it `fn (...) Type` (notice the space after `fn`).
This inconsistency is now resolved and function types are consistently
written the zig fmt way. Before this there were more `fn (...) Type`
occurrences than `fn(...) Type` already.
This change implements the following syntax into the compiler:
```zig
const x: u32, var y, foo.bar = .{ 1, 2, 3 };
```
A destructure expression may only appear within a block (i.e. not at
comtainer scope). The LHS consists of a sequence of comma-separated var
decls and/or lvalue expressions. The RHS is a normal expression.
A new result location type, `destructure`, is used, which contains
result pointers for each component of the destructure. This means that
when the RHS is a more complicated expression, peer type resolution is
not used: each result value is individually destructured and written to
the result pointers. RLS is always used for destructure expressions,
meaning every `const` on the LHS of such an expression creates a true
stack allocation.
Aside from anonymous array literals, Sema is capable of destructuring
the following types:
* Tuples
* Arrays
* Vectors
A destructure may be prefixed with the `comptime` keyword, in which case
the entire destructure is evaluated at comptime: this means all `var`s
in the LHS are `comptime var`s, every lvalue expression is evaluated at
comptime, and the RHS is evaluated at comptime. If every LHS is a
`const`, this is not allowed: as with single declarations, the user
should instead mark the RHS as `comptime`.
There are a few subtleties in the grammar changes here. For one thing,
if every LHS is an lvalue expression (rather than a var decl), a
destructure is considered an expression. This makes, for instance,
`if (cond) x, y = .{ 1, 2 };` valid Zig code. A destructure is allowed
in almost every context where a standard assignment expression is
permitted. The exception is `switch` prongs, which cannot be
destructures as the comma is ambiguous with the end of the prong.
A follow-up commit will begin utilizing this syntax in the Zig compiler.
Resolves: #498
The following cast builtins did not previously work on vectors, and have
been made to:
* `@floatCast`
* `@ptrFromInt`
* `@intFromPtr`
* `@floatFromInt`
* `@intFromFloat`
* `@intFromBool`
Resolves: #16267
There are a couple concepts here worth understanding:
Key.UnionType - This type is available *before* resolving the union's
fields. The enum tag type, number of fields, and field names, field
types, and field alignments are not available with this.
InternPool.UnionType - This one can be obtained from the above type with
`InternPool.loadUnionType` which asserts that the union's enum tag type
has been resolved. This one has all the information available.
Additionally:
* ZIR: Turn an unused bit into `any_aligned_fields` flag to help
semantic analysis know whether a union has explicit alignment on any
fields (usually not).
* Sema: delete `resolveTypeRequiresComptime` which had the same type
signature and near-duplicate logic to `typeRequiresComptime`.
- Make opaque types not report comptime-only (this was inconsistent
between the two implementations of this function).
* Implement accepted proposal #12556 which is a breaking change.
The main motivation for this change is eliminating the `block_ptr`
result location and corresponding `store_to_block_ptr` ZIR instruction.
This is achieved through a simple pass over the AST before AstGen which
determines, for AST nodes which have a choice on whether to provide a
result location, which choice to make, based on whether the result
pointer is consumed non-trivially.
This eliminates so much logic from AstGen that we almost break even on
line count! AstGen no longer has to worry about instruction rewriting
based on whether or not a result location was consumed: it always knows
what to do ahead of time, which simplifies a *lot* of logic. This also
incidentally fixes a few random AstGen bugs related to result location
handling, leading to the changes in `test/` and `lib/std/`.
This opens the door to future RLS improvements by making them much
easier to implement correctly, and fixes many bugs. Most ZIR is made
more compact after this commit, mainly due to not having redundant
`store_to_block_ptr` instructions lying around, but also due to a few
bugs in the old system which are implicitly fixed here.
Some builtin types have a special InternPool index (e.g.
`.type_info_type`) so that AstGen can refer to them before semantic
analysis. Unfortunately, this previously led to a second index existing
to refer to the type once it was resolved, complicating Sema by having
the concept of an "unresolved" type index.
This change makes Sema modify these InternPool indices in-place to
contain the expanded representation when resolved. The analysis of the
corresponding decls is caught in `Module.semaDecl`, and a field is set
on Sema telling it which index to place struct/union/enum types at. This
system could break if `std.builtin` contained complex decls which
evaluate multiple struct types, but this will be caught by the
assertions in `InternPool.resolveBuiltinType`.
The AstGen result types which were disabled in 6917a8c have been
re-enabled.
Resolves: #16603
The panic handler decl_val was previously given a `unneeded` source
location, which was then added to the reference trace, resulting in a
crash if the source location was used in the reference trace. This
commit makes two trivial changes:
* Don't add unneeded source locations to the ref table (panic in debug, silently ignore in release)
* Pass a real source location when analyzing the panic handler
The changes to result locations and generic calls has caused mild
changes to some compile errors. Some are slightly better, some slightly
worse, but none of the changes are major.
This change allows the following types to appear in extern structs:
* Zero-bit integers
* void
* zero-sized structs and packed structs
* enums with zero-bit backing integers
* arrays of any length with zero-size elements
Currently, in a debug build of the compiler, `@embedFile("")` is a crash;
in a release build the compiler, `@embedFile("")` is "error: unable to open '': OutOfMemory".
Fixes#16311
The actual cause of #16311 is the `start_is_zero` special case:
```zig
const range_len = if (end_val == .none or start_is_zero)
end_val
else
try parent_gz.addPlNode(.sub, input, Zir.Inst.Bin{
.lhs = end_val,
.rhs = start_val,
});
```
It only happens if the range start is 0. In that case we would not perform any type checking.
Only in the other cases coincidentally `.sub` performs type checking in Sema, but the errors are still rather poor:
```
$ zig test x.zig
x.zig:9:15: error: invalid operands to binary expression: 'Pointer' and 'Pointer'
for ("abc".."def") |val| {
~~~~~^~~~~~~
```
Note how it's the same as if I use `-`:
```
x.zig:9:11: error: invalid operands to binary expression: 'Pointer' and 'Pointer'
"abc" - "def";
~~~~~~^~~~~~~
```
Now after this PR, the errors are much clearer for both range start and end:
```
x.zig:9:10: error: expected type 'usize', found '*const [3:0]u8'
for ("abc".."def") |val| {
^~~~~
```
This is why I decided to use `.ty` instead of `.coerced_ty` for both range start and end rather than
just perform type checking in that `end_val == .none or start_is_zero` case.
Now you can add new calling conventions that you confirmed to work with
variadic functions simply in a single place and the rest will work
automatically.
Most of this migration was performed automatically with `zig fmt`. There
were a few exceptions which I had to manually fix:
* `@alignCast` and `@addrSpaceCast` cannot be automatically rewritten
* `@truncate`'s fixup is incorrect for vectors
* Test cases are not formatted, and their error locations change
Opaque and `noreturn` makes sense since they don't represent real
values, but `null` and `undefined` are perfectly normal
comptime-only values.
Closes#16088
