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Auto merge of #91359 - dtolnay:args, r=Mark-Simulacrum 

Emit simpler code from format_args

I made this PR so that `cargo expand` dumps a less overwhelming amount of formatting-related code.

<br>

`println!("rust")` **Before:**

```rust
{
    ::std::io::_print(::core::fmt::Arguments::new_v1(&["rust\n"],
                                                     &match () {
                                                          _args => [],
                                                      }));
};
```

**After:**

```rust
{ ::std::io::_print(::core::fmt::Arguments::new_v1(&["rust\n"], &[])); };
```

`println!("{}", x)` **Before:**

```rust
{
    ::std::io::_print(::core::fmt::Arguments::new_v1(
        &["", "\n"],
        &match (&x,) {
            _args => [::core::fmt::ArgumentV1::new(
                _args.0,
                ::core::fmt::Display::fmt,
            )],
        },
    ));
};
```

**After:**

```rust
{
    ::std::io::_print(::core::fmt::Arguments::new_v1(
        &["", "\n"],
        &[::core::fmt::ArgumentV1::new(&x, ::core::fmt::Display::fmt)],
    ));
};
```
This commit is contained in:
bors 2022-01-21 06:20:18 +00:00
parent 523be2e05d 7ee21e3de1
commit 0bcacb391b
11 changed files with 128 additions and 96 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

14
compiler/rustc_ast/src/ast.rs
View File

@ -39,6 +39,7 @@ use rustc_span::{Span, DUMMY_SP};
use std::cmp::Ordering;
use std::convert::TryFrom;
use std::fmt;
use std::mem;
#[cfg(test)]
mod tests;
@ -1276,6 +1277,19 @@ impl Expr {
ExprKind::Err => ExprPrecedence::Err,
}
}
pub fn take(&mut self) -> Self {
mem::replace(
self,
Expr {
id: DUMMY_NODE_ID,
kind: ExprKind::Err,
span: DUMMY_SP,
attrs: ThinVec::new(),
tokens: None,
},
)
}
}
/// Limit types of a range (inclusive or exclusive)

144
compiler/rustc_builtin_macros/src/format.rs
View File

@ -11,6 +11,7 @@ use rustc_expand::base::{self, *};
use rustc_parse_format as parse;
use rustc_span::symbol::{sym, Ident, Symbol};
use rustc_span::{MultiSpan, Span};
use smallvec::SmallVec;
use std::borrow::Cow;
use std::collections::hash_map::Entry;
@ -744,78 +745,95 @@ impl<'a, 'b> Context<'a, 'b> {
/// Actually builds the expression which the format_args! block will be
/// expanded to.
fn into_expr(self) -> P<ast::Expr> {
let mut args = Vec::with_capacity(
let mut original_args = self.args;
let mut fmt_args = Vec::with_capacity(
self.arg_unique_types.iter().map(|v| v.len()).sum::<usize>() + self.count_args.len(),
);
let mut heads = Vec::with_capacity(self.args.len());
// First, build up the static array which will become our precompiled
// format "string"
let pieces = self.ecx.expr_vec_slice(self.fmtsp, self.str_pieces);
// Before consuming the expressions, we have to remember spans for
// count arguments as they are now generated separate from other
// arguments, hence have no access to the `P<ast::Expr>`'s.
let spans_pos: Vec<_> = self.args.iter().map(|e| e.span).collect();
// Right now there is a bug such that for the expression:
// foo(bar(&1))
// the lifetime of `1` doesn't outlast the call to `bar`, so it's not
// valid for the call to `foo`. To work around this all arguments to the
// format! string are shoved into locals. Furthermore, we shove the address
// of each variable because we don't want to move out of the arguments
// passed to this function.
for (i, e) in self.args.into_iter().enumerate() {
for arg_ty in self.arg_unique_types[i].iter() {
args.push(Context::format_arg(self.ecx, self.macsp, e.span, arg_ty, i));
}
// use the arg span for `&arg` so that borrowck errors
// point to the specific expression passed to the macro
// (the span is otherwise unavailable in MIR)
heads.push(self.ecx.expr_addr_of(e.span.with_ctxt(self.macsp.ctxt()), e));
// We need to construct a &[ArgumentV1] to pass into the fmt::Arguments
// constructor. In general the expressions in this slice might be
// permuted from their order in original_args (such as in the case of
// "{1} {0}"), or may have multiple entries referring to the same
// element of original_args ("{0} {0}").
//
// The following vector has one item per element of our output slice,
// identifying the index of which element of original_args it's passing,
// and that argument's type.
let mut fmt_arg_index_and_ty = SmallVec::<[(usize, &ArgumentType); 8]>::new();
for (i, unique_types) in self.arg_unique_types.iter().enumerate() {
fmt_arg_index_and_ty.extend(unique_types.iter().map(|ty| (i, ty)));
}
for index in self.count_args {
let span = spans_pos[index];
args.push(Context::format_arg(self.ecx, self.macsp, span, &Count, index));
fmt_arg_index_and_ty.extend(self.count_args.iter().map(|&i| (i, &Count)));
// Figure out whether there are permuted or repeated elements. If not,
// we can generate simpler code.
//
// The sequence has no indices out of order or repeated if: for every
// adjacent pair of elements, the first one's index is less than the
// second one's index.
let nicely_ordered =
fmt_arg_index_and_ty.array_windows().all(|[(i, _i_ty), (j, _j_ty)]| i < j);
// We want to emit:
//
// [ArgumentV1::new(&$arg0, …), ArgumentV1::new(&$arg1, …), …]
//
// However, it's only legal to do so if $arg0, $arg1, … were written in
// exactly that order by the programmer. When arguments are permuted, we
// want them evaluated in the order written by the programmer, not in
// the order provided to fmt::Arguments. When arguments are repeated, we
// want the expression evaluated only once.
//
// Thus in the not nicely ordered case we emit the following instead:
//
// match (&$arg0, &$arg1, …) {
// _args => [ArgumentV1::new(_args.$i, …), ArgumentV1::new(_args.$j, …), …]
// }
//
// for the sequence of indices $i, $j, … governed by fmt_arg_index_and_ty.
for (arg_index, arg_ty) in fmt_arg_index_and_ty {
let e = &mut original_args[arg_index];
let span = e.span;
let arg = if nicely_ordered {
let expansion_span = e.span.with_ctxt(self.macsp.ctxt());
// The indices are strictly ordered so e has not been taken yet.
self.ecx.expr_addr_of(expansion_span, P(e.take()))
} else {
let def_site = self.ecx.with_def_site_ctxt(span);
let args_tuple = self.ecx.expr_ident(def_site, Ident::new(sym::_args, def_site));
let member = Ident::new(sym::integer(arg_index), def_site);
self.ecx.expr(def_site, ast::ExprKind::Field(args_tuple, member))
};
fmt_args.push(Context::format_arg(self.ecx, self.macsp, span, arg_ty, arg));
}
let args_array = self.ecx.expr_vec(self.macsp, args);
let args_array = self.ecx.expr_vec(self.macsp, fmt_args);
let args_slice = self.ecx.expr_addr_of(
self.macsp,
if nicely_ordered {
args_array
} else {
// In the !nicely_ordered case, none of the exprs were moved
// away in the previous loop.
//
// This uses the arg span for `&arg` so that borrowck errors
// point to the specific expression passed to the macro (the
// span is otherwise unavailable in the MIR used by borrowck).
let heads = original_args
.into_iter()
.map(|e| self.ecx.expr_addr_of(e.span.with_ctxt(self.macsp.ctxt()), e))
.collect();
// Constructs an AST equivalent to:
//
// match (&arg0, &arg1) {
// (tmp0, tmp1) => args_array
// }
//
// It was:
//
// let tmp0 = &arg0;
// let tmp1 = &arg1;
// args_array
//
// Because of #11585 the new temporary lifetime rule, the enclosing
// statements for these temporaries become the let's themselves.
// If one or more of them are RefCell's, RefCell borrow() will also
// end there; they don't last long enough for args_array to use them.
// The match expression solves the scope problem.
//
// Note, it may also very well be transformed to:
//
// match arg0 {
// ref tmp0 => {
// match arg1 => {
// ref tmp1 => args_array } } }
//
// But the nested match expression is proved to perform not as well
// as series of let's; the first approach does.
let args_match = {
let pat = self.ecx.pat_ident(self.macsp, Ident::new(sym::_args, self.macsp));
let arm = self.ecx.arm(self.macsp, pat, args_array);
let head = self.ecx.expr(self.macsp, ast::ExprKind::Tup(heads));
self.ecx.expr_match(self.macsp, head, vec![arm])
};
let args_slice = self.ecx.expr_addr_of(self.macsp, args_match);
let pat = self.ecx.pat_ident(self.macsp, Ident::new(sym::_args, self.macsp));
let arm = self.ecx.arm(self.macsp, pat, args_array);
let head = self.ecx.expr(self.macsp, ast::ExprKind::Tup(heads));
self.ecx.expr_match(self.macsp, head, vec![arm])
},
);
// Now create the fmt::Arguments struct with all our locals we created.
let (fn_name, fn_args) = if self.all_pieces_simple {
@ -848,11 +866,9 @@ impl<'a, 'b> Context<'a, 'b> {
macsp: Span,
mut sp: Span,
ty: &ArgumentType,
arg_index: usize,
arg: P<ast::Expr>,
) -> P<ast::Expr> {
sp = ecx.with_def_site_ctxt(sp);
let arg = ecx.expr_ident(sp, Ident::new(sym::_args, sp));
let arg = ecx.expr(sp, ast::ExprKind::Field(arg, Ident::new(sym::integer(arg_index), sp)));
let trait_ = match *ty {
Placeholder(trait_) if trait_ == "<invalid>" => return DummyResult::raw_expr(sp, true),
Placeholder(trait_) => trait_,

2
compiler/rustc_builtin_macros/src/lib.rs
View File

@ -2,10 +2,12 @@
//! injecting code into the crate before it is lowered to HIR.
#![doc(html_root_url = "https://doc.rust-lang.org/nightly/nightly-rustc/")]
#![feature(array_windows)]
#![feature(box_patterns)]
#![feature(bool_to_option)]
#![feature(crate_visibility_modifier)]
#![feature(decl_macro)]
#![feature(is_sorted)]
#![feature(nll)]
#![feature(proc_macro_internals)]
#![feature(proc_macro_quote)]

7
src/test/pretty/dollar-crate.pp
View File

@ -9,10 +9,5 @@ extern crate std;
// pp-exact:dollar-crate.pp
fn main() {
{
::std::io::_print(::core::fmt::Arguments::new_v1(&["rust\n"],
&match () {
_args => [],
}));
};
{ ::std::io::_print(::core::fmt::Arguments::new_v1(&["rust\n"], &[])); };
}

11
src/test/pretty/issue-4264.pp
View File

@ -41,16 +41,7 @@ pub fn bar() ({
[&str; 1])
as
&[&str; 1]),
(&(match (()
as
())
{
_args
=>
([]
as
[ArgumentV1; 0]),
}
(&([]
as
[ArgumentV1; 0])
as

6
src/test/run-make-fulldeps/coverage-reports/expected_show_coverage.closure.txt
View File

@ -29,8 +29,8 @@
29| 1| some_string = Some(String::from("the string content"));
30| 1| let
31| 1| a
32| 1| =
33| 1| ||
32| | =
33| | ||
34| 0| {
35| 0| let mut countdown = 0;
36| 0| if is_false {
@ -173,7 +173,7 @@
169| | ;
170| |
171| 1| let short_used_not_covered_closure_line_break_no_block_embedded_branch =
172| 1| | _unused_arg: u8 |
172| | | _unused_arg: u8 |
173| 0| println!(
174| 0| "not called: {}",
175| 0| if is_true { "check" } else { "me" }

7
src/test/ui/attributes/key-value-expansion.stderr
View File

@ -18,11 +18,8 @@ LL | bug!();
error: unexpected token: `{
let res =
::alloc::fmt::format(::core::fmt::Arguments::new_v1(&[""],
&match (&"u8",) {
_args =>
[::core::fmt::ArgumentV1::new(_args.0,
::core::fmt::Display::fmt)],
}));
&[::core::fmt::ArgumentV1::new(&"u8",
::core::fmt::Display::fmt)]));
res
}.as_str()`
--> $DIR/key-value-expansion.rs:48:23

2
src/test/ui/closures/print/closure-print-generic-trim-off-verbose-2.stderr
View File

@ -9,7 +9,7 @@ LL | let c1 : () = c;
| expected due to this
|
= note: expected unit type `()`
found closure `[mod1::f<T>::{closure#0} closure_substs=(unavailable) substs=[T, _#22t, extern "rust-call" fn(()), _#23t]]`
found closure `[mod1::f<T>::{closure#0} closure_substs=(unavailable) substs=[T, _#19t, extern "rust-call" fn(()), _#20t]]`
help: use parentheses to call this closure
|
LL | let c1 : () = c();

2
src/test/ui/closures/print/closure-print-generic-verbose-2.stderr
View File

@ -9,7 +9,7 @@ LL | let c1 : () = c;
| expected due to this
|
= note: expected unit type `()`
found closure `[f<T>::{closure#0} closure_substs=(unavailable) substs=[T, _#22t, extern "rust-call" fn(()), _#23t]]`
found closure `[f<T>::{closure#0} closure_substs=(unavailable) substs=[T, _#19t, extern "rust-call" fn(()), _#20t]]`
help: use parentheses to call this closure
|
LL | let c1 : () = c();

18
src/test/ui/issues/issue-69455.stderr
View File

@ -1,8 +1,16 @@
error[E0284]: type annotations needed: cannot satisfy `<u64 as Test<_>>::Output == _`
--> $DIR/issue-69455.rs:29:26
error[E0282]: type annotations needed
--> $DIR/issue-69455.rs:29:5
|
LL | type Output;
| ------------ `<Self as Test<Rhs>>::Output` defined here
...
LL | println!("{}", 23u64.test(xs.iter().sum()));
| ^^^^ cannot satisfy `<u64 as Test<_>>::Output == _`
| ^^^^^^^^^^^^^^^---------------------------^
| | |
| | this method call resolves to `<Self as Test<Rhs>>::Output`
| cannot infer type for type parameter `T` declared on the associated function `new`
|
= note: this error originates in the macro `$crate::format_args_nl` (in Nightly builds, run with -Z macro-backtrace for more info)
error[E0283]: type annotations needed
--> $DIR/issue-69455.rs:29:26
@ -25,5 +33,5 @@ LL | println!("{}", 23u64.test(xs.iter().sum::<S>()));
error: aborting due to 2 previous errors
Some errors have detailed explanations: E0283, E0284.
For more information about an error, try `rustc --explain E0283`.
Some errors have detailed explanations: E0282, E0283.
For more information about an error, try `rustc --explain E0282`.

11
src/tools/clippy/tests/ui/to_string_in_display.stderr
View File

@ -6,5 +6,14 @@ LL | write!(f, "{}", self.to_string())
|
= note: `-D clippy::to-string-in-display` implied by `-D warnings`
error: aborting due to previous error
error: unnecessary use of `to_string`
--> $DIR/to_string_in_display.rs:55:50
|
LL | Self::E(string) => write!(f, "E {}", string.to_string()),
| ^^^^^^^^^^^^^^^^^^
|
= note: `-D clippy::unnecessary-to-owned` implied by `-D warnings`
= note: this error originates in the macro `$crate::format_args` (in Nightly builds, run with -Z macro-backtrace for more info)
error: aborting due to 2 previous errors