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Auto merge of #59693 - nnethercote:64-bit-Spans, r=petrochenkov
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Increase `Span` from 4 bytes to 8 bytes.

This increases the size of some important types, such as `ast::Expr` and
`mir::Statement`. However, it drastically reduces how much the interner
is used, and the fields are more natural sizes that don't require bit
operations to extract.

As a result, instruction counts drop across a range of workloads, by as
much as 10% for `script-servo` incremental builds.

Peak memory usage goes up a little for some cases, but down by more for
some other cases -- as much as 18% for non-incremental builds of
`packed-simd`.

The commit also:
- removes the `repr(packed)`, because it has negligible effect, but can
  cause undefined behaviour;
- replaces explicit impls of common traits (`Copy`, `PartialEq`, etc.)
  with derived ones.

r? @petrochenkov
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bors committed Apr 14, 2019
2 parents ee621f4 + fd7f605 commit c7aa8af
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Showing 4 changed files with 90 additions and 103 deletions.
2 changes: 1 addition & 1 deletion src/librustc/mir/mod.rs
Original file line number Diff line number Diff line change
Expand Up @@ -1735,7 +1735,7 @@ pub struct Statement<'tcx> {

// `Statement` is used a lot. Make sure it doesn't unintentionally get bigger.
#[cfg(target_arch = "x86_64")]
static_assert!(MEM_SIZE_OF_STATEMENT: mem::size_of::<Statement<'_>>() == 48);
static_assert!(MEM_SIZE_OF_STATEMENT: mem::size_of::<Statement<'_>>() == 56);

impl<'tcx> Statement<'tcx> {
/// Changes a statement to a nop. This is both faster than deleting instructions and avoids
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2 changes: 1 addition & 1 deletion src/libsyntax/ast.rs
Original file line number Diff line number Diff line change
Expand Up @@ -946,7 +946,7 @@ pub struct Expr {

// `Expr` is used a lot. Make sure it doesn't unintentionally get bigger.
#[cfg(target_arch = "x86_64")]
static_assert!(MEM_SIZE_OF_EXPR: std::mem::size_of::<Expr>() == 88);
static_assert!(MEM_SIZE_OF_EXPR: std::mem::size_of::<Expr>() == 96);

impl Expr {
/// Whether this expression would be valid somewhere that expects a value; for example, an `if`
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3 changes: 3 additions & 0 deletions src/libsyntax_pos/hygiene.rs
Original file line number Diff line number Diff line change
Expand Up @@ -218,14 +218,17 @@ pub fn clear_markings() {
}

impl SyntaxContext {
#[inline]
pub const fn empty() -> Self {
SyntaxContext(0)
}

#[inline]
crate fn as_u32(self) -> u32 {
self.0
}

#[inline]
crate fn from_u32(raw: u32) -> SyntaxContext {
SyntaxContext(raw)
}
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186 changes: 85 additions & 101 deletions src/libsyntax_pos/span_encoding.rs
Original file line number Diff line number Diff line change
Expand Up @@ -9,122 +9,106 @@ use crate::{BytePos, SpanData};
use crate::hygiene::SyntaxContext;

use rustc_data_structures::fx::FxHashMap;
use std::hash::{Hash, Hasher};

/// A compressed span.
/// Contains either fields of `SpanData` inline if they are small, or index into span interner.
/// The primary goal of `Span` is to be as small as possible and fit into other structures
/// (that's why it uses `packed` as well). Decoding speed is the second priority.
/// See `SpanData` for the info on span fields in decoded representation.
#[repr(packed)]
pub struct Span(u32);

impl Copy for Span {}
impl Clone for Span {
#[inline]
fn clone(&self) -> Span {
*self
}
}
impl PartialEq for Span {
#[inline]
fn eq(&self, other: &Span) -> bool {
let a = self.0;
let b = other.0;
a == b
}
}
impl Eq for Span {}
impl Hash for Span {
#[inline]
fn hash<H: Hasher>(&self, state: &mut H) {
let a = self.0;
a.hash(state)
}
///
/// `SpanData` is 12 bytes, which is a bit too big to stick everywhere. `Span`
/// is a form that only takes up 8 bytes, with less space for the length and
/// context. The vast majority (99.9%+) of `SpanData` instances will fit within
/// those 8 bytes; any `SpanData` whose fields don't fit into a `Span` are
/// stored in a separate interner table, and the `Span` will index into that
/// table. Interning is rare enough that the cost is low, but common enough
/// that the code is exercised regularly.
///
/// An earlier version of this code used only 4 bytes for `Span`, but that was
/// slower because only 80--90% of spans could be stored inline (even less in
/// very large crates) and so the interner was used a lot more.
///
/// Inline (compressed) format:
/// - `span.base_or_index == span_data.lo`
/// - `span.len_or_tag == len == span_data.hi - span_data.lo` (must be `<= MAX_LEN`)
/// - `span.ctxt == span_data.ctxt` (must be `<= MAX_CTXT`)
///
/// Interned format:
/// - `span.base_or_index == index` (indexes into the interner table)
/// - `span.len_or_tag == LEN_TAG` (high bit set, all other bits are zero)
/// - `span.ctxt == 0`
///
/// The inline form uses 0 for the tag value (rather than 1) so that we don't
/// need to mask out the tag bit when getting the length, and so that the
/// dummy span can be all zeroes.
///
/// Notes about the choice of field sizes:
/// - `base` is 32 bits in both `Span` and `SpanData`, which means that `base`
/// values never cause interning. The number of bits needed for `base`
/// depends on the crate size. 32 bits allows up to 4 GiB of code in a crate.
/// `script-servo` is the largest crate in `rustc-perf`, requiring 26 bits
/// for some spans.
/// - `len` is 15 bits in `Span` (a u16, minus 1 bit for the tag) and 32 bits
/// in `SpanData`, which means that large `len` values will cause interning.
/// The number of bits needed for `len` does not depend on the crate size.
/// The most common number of bits for `len` are 0--7, with a peak usually at
/// 3 or 4, and then it drops off quickly from 8 onwards. 15 bits is enough
/// for 99.99%+ of cases, but larger values (sometimes 20+ bits) might occur
/// dozens of times in a typical crate.
/// - `ctxt` is 16 bits in `Span` and 32 bits in `SpanData`, which means that
/// large `ctxt` values will cause interning. The number of bits needed for
/// `ctxt` values depend partly on the crate size and partly on the form of
/// the code. No crates in `rustc-perf` need more than 15 bits for `ctxt`,
/// but larger crates might need more than 16 bits.
///
#[derive(Clone, Copy, Eq, PartialEq, Hash)]
pub struct Span {
base_or_index: u32,
len_or_tag: u16,
ctxt_or_zero: u16
}

const LEN_TAG: u16 = 0b1000_0000_0000_0000;
const MAX_LEN: u32 = 0b0111_1111_1111_1111;
const MAX_CTXT: u32 = 0b1111_1111_1111_1111;

/// Dummy span, both position and length are zero, syntax context is zero as well.
/// This span is kept inline and encoded with format 0.
pub const DUMMY_SP: Span = Span(0);
pub const DUMMY_SP: Span = Span { base_or_index: 0, len_or_tag: 0, ctxt_or_zero: 0 };

impl Span {
#[inline]
pub fn new(lo: BytePos, hi: BytePos, ctxt: SyntaxContext) -> Self {
encode(&match lo <= hi {
true => SpanData { lo, hi, ctxt },
false => SpanData { lo: hi, hi: lo, ctxt },
})
pub fn new(mut lo: BytePos, mut hi: BytePos, ctxt: SyntaxContext) -> Self {
if lo > hi {
std::mem::swap(&mut lo, &mut hi);
}

let (base, len, ctxt2) = (lo.0, hi.0 - lo.0, ctxt.as_u32());

if len <= MAX_LEN && ctxt2 <= MAX_CTXT {
// Inline format.
Span { base_or_index: base, len_or_tag: len as u16, ctxt_or_zero: ctxt2 as u16 }
} else {
// Interned format.
let index = with_span_interner(|interner| interner.intern(&SpanData { lo, hi, ctxt }));
Span { base_or_index: index, len_or_tag: LEN_TAG, ctxt_or_zero: 0 }
}
}

#[inline]
pub fn data(self) -> SpanData {
decode(self)
if self.len_or_tag != LEN_TAG {
// Inline format.
debug_assert!(self.len_or_tag as u32 <= MAX_LEN);
SpanData {
lo: BytePos(self.base_or_index),
hi: BytePos(self.base_or_index + self.len_or_tag as u32),
ctxt: SyntaxContext::from_u32(self.ctxt_or_zero as u32),
}
} else {
// Interned format.
debug_assert!(self.ctxt_or_zero == 0);
let index = self.base_or_index;
with_span_interner(|interner| *interner.get(index))
}
}
}

// Tags
const TAG_INLINE: u32 = 0;
const TAG_INTERNED: u32 = 1;
const TAG_MASK: u32 = 1;

// Fields indexes
const BASE_INDEX: usize = 0;
const LEN_INDEX: usize = 1;
const CTXT_INDEX: usize = 2;

// Tag = 0, inline format.
// -------------------------------------------------------------
// | base 31:7 | len 6:1 | ctxt (currently 0 bits) | tag 0:0 |
// -------------------------------------------------------------
// Since there are zero bits for ctxt, only SpanData with a 0 SyntaxContext
// can be inline.
const INLINE_SIZES: [u32; 3] = [25, 6, 0];
const INLINE_OFFSETS: [u32; 3] = [7, 1, 1];

// Tag = 1, interned format.
// ------------------------
// | index 31:1 | tag 0:0 |
// ------------------------
const INTERNED_INDEX_SIZE: u32 = 31;
const INTERNED_INDEX_OFFSET: u32 = 1;

#[inline]
fn encode(sd: &SpanData) -> Span {
let (base, len, ctxt) = (sd.lo.0, sd.hi.0 - sd.lo.0, sd.ctxt.as_u32());

let val = if (base >> INLINE_SIZES[BASE_INDEX]) == 0 &&
(len >> INLINE_SIZES[LEN_INDEX]) == 0 &&
(ctxt >> INLINE_SIZES[CTXT_INDEX]) == 0 {
(base << INLINE_OFFSETS[BASE_INDEX]) | (len << INLINE_OFFSETS[LEN_INDEX]) |
(ctxt << INLINE_OFFSETS[CTXT_INDEX]) | TAG_INLINE
} else {
let index = with_span_interner(|interner| interner.intern(sd));
(index << INTERNED_INDEX_OFFSET) | TAG_INTERNED
};
Span(val)
}

#[inline]
fn decode(span: Span) -> SpanData {
let val = span.0;

// Extract a field at position `pos` having size `size`.
let extract = |pos: u32, size: u32| {
let mask = ((!0u32) as u64 >> (32 - size)) as u32; // Can't shift u32 by 32
(val >> pos) & mask
};

let (base, len, ctxt) = if val & TAG_MASK == TAG_INLINE {(
extract(INLINE_OFFSETS[BASE_INDEX], INLINE_SIZES[BASE_INDEX]),
extract(INLINE_OFFSETS[LEN_INDEX], INLINE_SIZES[LEN_INDEX]),
extract(INLINE_OFFSETS[CTXT_INDEX], INLINE_SIZES[CTXT_INDEX]),
)} else {
let index = extract(INTERNED_INDEX_OFFSET, INTERNED_INDEX_SIZE);
return with_span_interner(|interner| *interner.get(index));
};
SpanData { lo: BytePos(base), hi: BytePos(base + len), ctxt: SyntaxContext::from_u32(ctxt) }
}

#[derive(Default)]
pub struct SpanInterner {
spans: FxHashMap<SpanData, u32>,
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