@IMSoP I made a list of candidates for macros but am not sure if I already didn't go wild cause it's easy to qualify huge part of standard library functions as macros if you take a compiler interaction with as their attribute
Given that and taking a look at Rusts macros it's possible to plan a few steps of introducing them: 1. add macros call syntax with minimum macros asset which operates on ast like `assert|isset|unset|empty` 2. introduce simple macros which are easy to alias from a functions `exit|die|halt` 3. introduce mini language similar to Rusts for defining user macros allowing to polyfill future macros which don't operate on ast and are jsut a simple aliases to functions which interact with compiler like `compact|extract|trace|dump`
@bwoebi regarding your example of macro for query parameters escaping that could be done by passing an encaps_list like sql!("SELECT * FROM {$id}"); where the macro implementation decides how to interpolate encapsed vars, right? I think it's sufficient enough
@bwoebi well the exclamation mark says something weird happens so if you think about why $id is escaped underneath instead of a normal interpolation it's because it's used inside a magic macro call
trying to hide the magic a bit behind a string is not that nice - and obviously has the unpleasant side effect of having to escaping double quotes within the string :-)
For example I can imagine lightweight FFI macros - like doing ffi!(some_ffi_func(&$bar)) takes the contents of $bar and passes a pointer to it to the "some_ffi_func" ffi function
One thing I'm not sure if going the Rusty way of macros with mini language for suctom macros then it's obvoius you wanna resolve the macros and see how they resolve. Given that how could macros like halt!; resolve?
With the ffi example you'd also want to be able to see how it resolves into what
One thing about macros which I also like is that it could potentially free up some function names not for it's reuse but for optimised lookup on runtime since I believe those should be non namespaced symbols
IMO ideally would be to have as many macros as needed to write a short program without standard librarian functions, but I'm a weirdo :P
I mean kind of like with error/exception handling and autoload etc.
so include "macros.php"; should load all macros into PHP and if there's anything inside in "macros.php" what is not a macro it should be executed after all macros definition read, right?
@SebastianBergmann this might be related to pcov (which does not yet support PHP 8 officially). With a debug build, I'm hitting the unreachable assertion in zend_compare(), because the types of op1 and op2 are IS_CALLABLE.
@Jeeves We should hit #80000 bug on bugtrack till PHP 8.0 release, cause now it looks like we're close to 8.0 with #798... :D
Some macros won't be able to substitute I guess. For instance debug_zval_dump!($var) cause it's not possible to resolve into ast which doesn't impact refcount
I'd apply the same to exit!, die! and halt! - imo they could resolve into themselves only
like unresolvable ones
We also cannot resolve unset($var)
so we should emit code fragments in those cases and substitute for user-defined, so we're doing both
@bwoebi when you say emiting code fragments you mean emiting op codes, right?
The only thing I'm unsure is if it'd be possible to parse anything what just match parentheses, and then parse for instance a custom arguments section behind it. I guess it won't be possible
@bwoebi I thought it'd be possible to parse named arguments like for instance for trace!(limit: 1) macro but also for instance for sql!(SELECT * FROM users WHERE id=$id, compat: 'mariadb');
@brzuchal I think any attempt to make such matching generally useful for most use cases without having to resort to custom token parsing is going to be sort of complex. But we can though accomodate for simple cases where we just translate a few passed (positional/named) args to the macro inputs, defaulting to exprs. then have a more complex matching which is like what Rust has - and as a third option raw token stream parsing.
i.e. ensure the simplest syntax can be just written as ($target, $limit = 1) => ...
with optional restrictions on what the allowed contents are, like ($target:identifier, $limit:integral_number = 1) => ...
@bwoebi this makes sense, for instnace ($assertion, $msg, $throw) => ... when used for declaring assert macro could be invoked as assert!(true, msg: 'error!'); or assert!(false, throw: new Exception('error'));
and the third stage could be literally just ($tokens:tokens) => { /* parse raw tokens here and emit an AST */ }
I.e. the central goal should be that the code the user writes does not have to look more complicated than it needs to be for the use case the syntax is covering
Yeah, don't know. I think it would be best to actually start with just implementing some macros, simple ones and more complicated ones and then ask for a few examples what people do like, what alternative suggestions they have
Hard to decide on what syntaxes are easiest to work with with just a couple minimal examples
also, we should allow for right-associative macros on statement level, which parse like T_IDENTIFIER '!' optional_parens_with_expr semicolon_or_block with optional_parens_with_expr: %empty | '(' token_stream_with_matching_parens ')'; semicolon_or_block: ';' | '{' token_stream_with_matching_curly_braces '}';
then we could actually do constructs like if! ($foo) { some_statement(); }
and only enforce parens for macro usage within expressions
It needs to be a macros DSL (within macro!(...). Meaning, the contents of what's within the parens is just read as a raw token stream, and only then, if the macro impl wants the tokens pre-parsed as AST (e.g. literal or expr), it's actually parsed
> This is because in a macro, you can use interchangeable braces ({ and }), square brackets ([ and ]), and parentheses (( and )). Not only that, you can use them when calling the macro. You have probably already used the vec![] macro and the format!() macro, and we saw the lazy_static!{} macro in the last chapter.
In Rust it's possible to interchange braces, parens and brackets
@Danack Sorry I never saw your message. Thanks for the response though. I figured it out, it was a variable in a method that I didn't realize was loading all the users along with a team.
!stmt $vector = new \Ds\Vector();
foreach ($args as $arg) {
!stmt $vector->push(%$arg);
}
!stmt return $vector;
return !scopeWrap $stmt;
and then $vector = vec!(1, 2, 3) is substituted to $vector = function() { $vector = new Ds\Vector; $vector->push(1); $vector->push(2); $vector->push(3); return $vector; }
with scopewrap! just being a way to do (function() { $stmtList })();
(bah I'm prefixing the ! all the time)
I think stmt! prefixing would be quite nice to distinguish to-ast-transformed code and actual macro-code
I like the wrap scope, but am missing population to actually a $stmt, or is it that all statements produced in the scope of macro are wrapped into $stmt ?
@bwoebi I'll try to think over that map, but need to rest now, my head explodes
a warp! could potentially return a (function() {})() instead of statements flush! which would be possible to use in statement context, not in expression context
@Tiffany Not really, it's just the nth time someone comes up with this proposal on internals and every single time it seems like people don't make any damn effort to look up prior discussions
btw. @brzuchal one use case for macros I had in mind … !async function foo($bla) { the method body } … which would essentially wrap the whole function in return \Amp\call(function() use ($bla) { the method body });
If we support casting, it should probably be __toScalar and ignore that string is considered scalar (it's not, it has dimension just like an array...). The engine can take it from int|float|bool to whatever the cast was actually intended to be. This helps with consistency instead of having 3 separate casts.
which could evaluate to $dummy = new class(function() { doCleanup(); }) { function __construct($cb) { $this->cb = $cb; } function __destruct() { $this->cb(); } };
cause you need to track if it started inside () and then terminate on matching ) or inside {} then terminate on matching ; or if used in a list foo(true, say_my_name! $foo, 1); on matching ,
@LeviMorrison Yeah ambiguity and the lack of a fixed closing tag makes it more likely to cause issues in the long-term IMO. Especially based on the number of places it can be used.
"Turns out this causes all kinds of technical problems we didn't realize/mention before" seems like an entirely valid reason to change our minds. The question is, who gets to make that call given that we're this close to deadline and we have no BDFL?
Could the release managers be empowered to decide what to do here? (Extend deadline for voting, revote after the deadline, just disqualify @@ and #[] wins by default, etc.)
(FTR, I don't feel strongly enough about any of the syntaxes to have a secret agenda. I just want a good result with a process that people can accept in the end.)
@cmb I've got the code in front of me and yes, but the 2 and 5 variant are the same just the 2 one has default values, and I'm not sure there is an interest in not allowing the user to change only some of the arguments and let the others to be defaults
@moliata Not sure what was decided but my impression was that everybody wants to get rid of them but we just haven't decided on how to do it (everything at once or just remove it from the code you're working on).
Erf, no idea what correspond to what tbh, I think we use K&R? But the code of PHP is pretty vast and was written by a bazillion people, also extensions are another beast