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cfg.rs
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cfg.rs
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//! The representation of a `#[doc(cfg(...))]` attribute.
// FIXME: Once the portability lint RFC is implemented (see tracking issue #41619),
// switch to use those structures instead.
use std::fmt::{self, Write};
use std::mem;
use std::ops;
use rustc_ast::{LitKind, MetaItem, MetaItemKind, NestedMetaItem};
use rustc_feature::Features;
use rustc_session::parse::ParseSess;
use rustc_span::symbol::{sym, Symbol};
use rustc_span::Span;
use crate::html::escape::Escape;
#[cfg(test)]
mod tests;
#[derive(Clone, Debug, PartialEq, Eq, Hash)]
crate enum Cfg {
/// Accepts all configurations.
True,
/// Denies all configurations.
False,
/// A generic configuration option, e.g., `test` or `target_os = "linux"`.
Cfg(Symbol, Option<Symbol>),
/// Negates a configuration requirement, i.e., `not(x)`.
Not(Box<Cfg>),
/// Union of a list of configuration requirements, i.e., `any(...)`.
Any(Vec<Cfg>),
/// Intersection of a list of configuration requirements, i.e., `all(...)`.
All(Vec<Cfg>),
}
#[derive(PartialEq, Debug)]
crate struct InvalidCfgError {
crate msg: &'static str,
crate span: Span,
}
impl Cfg {
/// Parses a `NestedMetaItem` into a `Cfg`.
fn parse_nested(nested_cfg: &NestedMetaItem) -> Result<Cfg, InvalidCfgError> {
match nested_cfg {
NestedMetaItem::MetaItem(ref cfg) => Cfg::parse(cfg),
NestedMetaItem::Literal(ref lit) => {
Err(InvalidCfgError { msg: "unexpected literal", span: lit.span })
}
}
}
/// Parses a `MetaItem` into a `Cfg`.
///
/// The `MetaItem` should be the content of the `#[cfg(...)]`, e.g., `unix` or
/// `target_os = "redox"`.
///
/// If the content is not properly formatted, it will return an error indicating what and where
/// the error is.
crate fn parse(cfg: &MetaItem) -> Result<Cfg, InvalidCfgError> {
let name = match cfg.ident() {
Some(ident) => ident.name,
None => {
return Err(InvalidCfgError {
msg: "expected a single identifier",
span: cfg.span,
});
}
};
match cfg.kind {
MetaItemKind::Word => Ok(Cfg::Cfg(name, None)),
MetaItemKind::NameValue(ref lit) => match lit.kind {
LitKind::Str(value, _) => Ok(Cfg::Cfg(name, Some(value))),
_ => Err(InvalidCfgError {
// FIXME: if the main #[cfg] syntax decided to support non-string literals,
// this should be changed as well.
msg: "value of cfg option should be a string literal",
span: lit.span,
}),
},
MetaItemKind::List(ref items) => {
let mut sub_cfgs = items.iter().map(Cfg::parse_nested);
match name {
sym::all => sub_cfgs.fold(Ok(Cfg::True), |x, y| Ok(x? & y?)),
sym::any => sub_cfgs.fold(Ok(Cfg::False), |x, y| Ok(x? | y?)),
sym::not => {
if sub_cfgs.len() == 1 {
Ok(!sub_cfgs.next().unwrap()?)
} else {
Err(InvalidCfgError { msg: "expected 1 cfg-pattern", span: cfg.span })
}
}
_ => Err(InvalidCfgError { msg: "invalid predicate", span: cfg.span }),
}
}
}
}
/// Checks whether the given configuration can be matched in the current session.
///
/// Equivalent to `attr::cfg_matches`.
// FIXME: Actually make use of `features`.
crate fn matches(&self, parse_sess: &ParseSess, features: Option<&Features>) -> bool {
match *self {
Cfg::False => false,
Cfg::True => true,
Cfg::Not(ref child) => !child.matches(parse_sess, features),
Cfg::All(ref sub_cfgs) => {
sub_cfgs.iter().all(|sub_cfg| sub_cfg.matches(parse_sess, features))
}
Cfg::Any(ref sub_cfgs) => {
sub_cfgs.iter().any(|sub_cfg| sub_cfg.matches(parse_sess, features))
}
Cfg::Cfg(name, value) => parse_sess.config.contains(&(name, value)),
}
}
/// Whether the configuration consists of just `Cfg` or `Not`.
fn is_simple(&self) -> bool {
match *self {
Cfg::False | Cfg::True | Cfg::Cfg(..) | Cfg::Not(..) => true,
Cfg::All(..) | Cfg::Any(..) => false,
}
}
/// Whether the configuration consists of just `Cfg`, `Not` or `All`.
fn is_all(&self) -> bool {
match *self {
Cfg::False | Cfg::True | Cfg::Cfg(..) | Cfg::Not(..) | Cfg::All(..) => true,
Cfg::Any(..) => false,
}
}
/// Renders the configuration for human display, as a short HTML description.
pub(crate) fn render_short_html(&self) -> String {
let mut msg = Display(self, Format::ShortHtml).to_string();
if self.should_capitalize_first_letter() {
if let Some(i) = msg.find(|c: char| c.is_ascii_alphanumeric()) {
msg[i..i + 1].make_ascii_uppercase();
}
}
msg
}
/// Renders the configuration for long display, as a long HTML description.
pub(crate) fn render_long_html(&self) -> String {
let on = if self.should_use_with_in_description() { "with" } else { "on" };
let mut msg = format!(
"This is supported {} <strong>{}</strong>",
on,
Display(self, Format::LongHtml)
);
if self.should_append_only_to_description() {
msg.push_str(" only");
}
msg.push('.');
msg
}
/// Renders the configuration for long display, as a long plain text description.
pub(crate) fn render_long_plain(&self) -> String {
let on = if self.should_use_with_in_description() { "with" } else { "on" };
let mut msg = format!("This is supported {} {}", on, Display(self, Format::LongPlain));
if self.should_append_only_to_description() {
msg.push_str(" only");
}
msg
}
fn should_capitalize_first_letter(&self) -> bool {
match *self {
Cfg::False | Cfg::True | Cfg::Not(..) => true,
Cfg::Any(ref sub_cfgs) | Cfg::All(ref sub_cfgs) => {
sub_cfgs.first().map(Cfg::should_capitalize_first_letter).unwrap_or(false)
}
Cfg::Cfg(name, _) => name == sym::debug_assertions || name == sym::target_endian,
}
}
fn should_append_only_to_description(&self) -> bool {
match *self {
Cfg::False | Cfg::True => false,
Cfg::Any(..) | Cfg::All(..) | Cfg::Cfg(..) => true,
Cfg::Not(box Cfg::Cfg(..)) => true,
Cfg::Not(..) => false,
}
}
fn should_use_with_in_description(&self) -> bool {
matches!(self, Cfg::Cfg(sym::target_feature, _))
}
/// Attempt to simplify this cfg by assuming that `assume` is already known to be true, will
/// return `None` if simplification managed to completely eliminate any requirements from this
/// `Cfg`.
///
/// See `tests::test_simplify_with` for examples.
pub(crate) fn simplify_with(&self, assume: &Cfg) -> Option<Cfg> {
if self == assume {
return None;
}
if let Cfg::All(a) = self {
let mut sub_cfgs: Vec<Cfg> = if let Cfg::All(b) = assume {
a.iter().filter(|a| !b.contains(a)).cloned().collect()
} else {
a.iter().filter(|&a| a != assume).cloned().collect()
};
let len = sub_cfgs.len();
return match len {
0 => None,
1 => sub_cfgs.pop(),
_ => Some(Cfg::All(sub_cfgs)),
};
} else if let Cfg::All(b) = assume {
if b.contains(self) {
return None;
}
}
Some(self.clone())
}
}
impl ops::Not for Cfg {
type Output = Cfg;
fn not(self) -> Cfg {
match self {
Cfg::False => Cfg::True,
Cfg::True => Cfg::False,
Cfg::Not(cfg) => *cfg,
s => Cfg::Not(Box::new(s)),
}
}
}
impl ops::BitAndAssign for Cfg {
fn bitand_assign(&mut self, other: Cfg) {
match (self, other) {
(&mut Cfg::False, _) | (_, Cfg::True) => {}
(s, Cfg::False) => *s = Cfg::False,
(s @ &mut Cfg::True, b) => *s = b,
(&mut Cfg::All(ref mut a), Cfg::All(ref mut b)) => {
for c in b.drain(..) {
if !a.contains(&c) {
a.push(c);
}
}
}
(&mut Cfg::All(ref mut a), ref mut b) => {
if !a.contains(b) {
a.push(mem::replace(b, Cfg::True));
}
}
(s, Cfg::All(mut a)) => {
let b = mem::replace(s, Cfg::True);
if !a.contains(&b) {
a.push(b);
}
*s = Cfg::All(a);
}
(s, b) => {
if *s != b {
let a = mem::replace(s, Cfg::True);
*s = Cfg::All(vec![a, b]);
}
}
}
}
}
impl ops::BitAnd for Cfg {
type Output = Cfg;
fn bitand(mut self, other: Cfg) -> Cfg {
self &= other;
self
}
}
impl ops::BitOrAssign for Cfg {
fn bitor_assign(&mut self, other: Cfg) {
match (self, other) {
(&mut Cfg::True, _) | (_, Cfg::False) => {}
(s, Cfg::True) => *s = Cfg::True,
(s @ &mut Cfg::False, b) => *s = b,
(&mut Cfg::Any(ref mut a), Cfg::Any(ref mut b)) => {
for c in b.drain(..) {
if !a.contains(&c) {
a.push(c);
}
}
}
(&mut Cfg::Any(ref mut a), ref mut b) => {
if !a.contains(b) {
a.push(mem::replace(b, Cfg::True));
}
}
(s, Cfg::Any(mut a)) => {
let b = mem::replace(s, Cfg::True);
if !a.contains(&b) {
a.push(b);
}
*s = Cfg::Any(a);
}
(s, b) => {
if *s != b {
let a = mem::replace(s, Cfg::True);
*s = Cfg::Any(vec![a, b]);
}
}
}
}
}
impl ops::BitOr for Cfg {
type Output = Cfg;
fn bitor(mut self, other: Cfg) -> Cfg {
self |= other;
self
}
}
#[derive(Clone, Copy)]
enum Format {
LongHtml,
LongPlain,
ShortHtml,
}
impl Format {
fn is_long(self) -> bool {
match self {
Format::LongHtml | Format::LongPlain => true,
Format::ShortHtml => false,
}
}
fn is_html(self) -> bool {
match self {
Format::LongHtml | Format::ShortHtml => true,
Format::LongPlain => false,
}
}
}
/// Pretty-print wrapper for a `Cfg`. Also indicates what form of rendering should be used.
struct Display<'a>(&'a Cfg, Format);
fn write_with_opt_paren<T: fmt::Display>(
fmt: &mut fmt::Formatter<'_>,
has_paren: bool,
obj: T,
) -> fmt::Result {
if has_paren {
fmt.write_char('(')?;
}
obj.fmt(fmt)?;
if has_paren {
fmt.write_char(')')?;
}
Ok(())
}
impl<'a> fmt::Display for Display<'a> {
fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {
match *self.0 {
Cfg::Not(ref child) => match **child {
Cfg::Any(ref sub_cfgs) => {
let separator =
if sub_cfgs.iter().all(Cfg::is_simple) { " nor " } else { ", nor " };
for (i, sub_cfg) in sub_cfgs.iter().enumerate() {
fmt.write_str(if i == 0 { "neither " } else { separator })?;
write_with_opt_paren(fmt, !sub_cfg.is_all(), Display(sub_cfg, self.1))?;
}
Ok(())
}
ref simple @ Cfg::Cfg(..) => write!(fmt, "non-{}", Display(simple, self.1)),
ref c => write!(fmt, "not ({})", Display(c, self.1)),
},
Cfg::Any(ref sub_cfgs) => {
let separator = if sub_cfgs.iter().all(Cfg::is_simple) { " or " } else { ", or " };
let short_longhand = self.1.is_long() && {
let all_crate_features = sub_cfgs
.iter()
.all(|sub_cfg| matches!(sub_cfg, Cfg::Cfg(sym::feature, Some(_))));
let all_target_features = sub_cfgs
.iter()
.all(|sub_cfg| matches!(sub_cfg, Cfg::Cfg(sym::target_feature, Some(_))));
if all_crate_features {
fmt.write_str("crate features ")?;
true
} else if all_target_features {
fmt.write_str("target features ")?;
true
} else {
false
}
};
for (i, sub_cfg) in sub_cfgs.iter().enumerate() {
if i != 0 {
fmt.write_str(separator)?;
}
if let (true, Cfg::Cfg(_, Some(feat))) = (short_longhand, sub_cfg) {
if self.1.is_html() {
write!(fmt, "<code>{}</code>", feat)?;
} else {
write!(fmt, "`{}`", feat)?;
}
} else {
write_with_opt_paren(fmt, !sub_cfg.is_all(), Display(sub_cfg, self.1))?;
}
}
Ok(())
}
Cfg::All(ref sub_cfgs) => {
let short_longhand = self.1.is_long() && {
let all_crate_features = sub_cfgs
.iter()
.all(|sub_cfg| matches!(sub_cfg, Cfg::Cfg(sym::feature, Some(_))));
let all_target_features = sub_cfgs
.iter()
.all(|sub_cfg| matches!(sub_cfg, Cfg::Cfg(sym::target_feature, Some(_))));
if all_crate_features {
fmt.write_str("crate features ")?;
true
} else if all_target_features {
fmt.write_str("target features ")?;
true
} else {
false
}
};
for (i, sub_cfg) in sub_cfgs.iter().enumerate() {
if i != 0 {
fmt.write_str(" and ")?;
}
if let (true, Cfg::Cfg(_, Some(feat))) = (short_longhand, sub_cfg) {
if self.1.is_html() {
write!(fmt, "<code>{}</code>", feat)?;
} else {
write!(fmt, "`{}`", feat)?;
}
} else {
write_with_opt_paren(fmt, !sub_cfg.is_simple(), Display(sub_cfg, self.1))?;
}
}
Ok(())
}
Cfg::True => fmt.write_str("everywhere"),
Cfg::False => fmt.write_str("nowhere"),
Cfg::Cfg(name, value) => {
let human_readable = match (name, value) {
(sym::unix, None) => "Unix",
(sym::windows, None) => "Windows",
(sym::debug_assertions, None) => "debug-assertions enabled",
(sym::target_os, Some(os)) => match &*os.as_str() {
"android" => "Android",
"dragonfly" => "DragonFly BSD",
"emscripten" => "Emscripten",
"freebsd" => "FreeBSD",
"fuchsia" => "Fuchsia",
"haiku" => "Haiku",
"hermit" => "HermitCore",
"illumos" => "illumos",
"ios" => "iOS",
"l4re" => "L4Re",
"linux" => "Linux",
"macos" => "macOS",
"netbsd" => "NetBSD",
"openbsd" => "OpenBSD",
"redox" => "Redox",
"solaris" => "Solaris",
"wasi" => "WASI",
"windows" => "Windows",
_ => "",
},
(sym::target_arch, Some(arch)) => match &*arch.as_str() {
"aarch64" => "AArch64",
"arm" => "ARM",
"asmjs" => "JavaScript",
"mips" => "MIPS",
"mips64" => "MIPS-64",
"msp430" => "MSP430",
"powerpc" => "PowerPC",
"powerpc64" => "PowerPC-64",
"s390x" => "s390x",
"sparc64" => "SPARC64",
"wasm32" | "wasm64" => "WebAssembly",
"x86" => "x86",
"x86_64" => "x86-64",
_ => "",
},
(sym::target_vendor, Some(vendor)) => match &*vendor.as_str() {
"apple" => "Apple",
"pc" => "PC",
"sun" => "Sun",
"fortanix" => "Fortanix",
_ => "",
},
(sym::target_env, Some(env)) => match &*env.as_str() {
"gnu" => "GNU",
"msvc" => "MSVC",
"musl" => "musl",
"newlib" => "Newlib",
"uclibc" => "uClibc",
"sgx" => "SGX",
_ => "",
},
(sym::target_endian, Some(endian)) => return write!(fmt, "{}-endian", endian),
(sym::target_pointer_width, Some(bits)) => return write!(fmt, "{}-bit", bits),
(sym::target_feature, Some(feat)) => match self.1 {
Format::LongHtml => {
return write!(fmt, "target feature <code>{}</code>", feat);
}
Format::LongPlain => return write!(fmt, "target feature `{}`", feat),
Format::ShortHtml => return write!(fmt, "<code>{}</code>", feat),
},
(sym::feature, Some(feat)) => match self.1 {
Format::LongHtml => {
return write!(fmt, "crate feature <code>{}</code>", feat);
}
Format::LongPlain => return write!(fmt, "crate feature `{}`", feat),
Format::ShortHtml => return write!(fmt, "<code>{}</code>", feat),
},
_ => "",
};
if !human_readable.is_empty() {
fmt.write_str(human_readable)
} else if let Some(v) = value {
if self.1.is_html() {
write!(
fmt,
r#"<code>{}="{}"</code>"#,
Escape(&name.as_str()),
Escape(&v.as_str())
)
} else {
write!(fmt, r#"`{}="{}"`"#, name, v)
}
} else if self.1.is_html() {
write!(fmt, "<code>{}</code>", Escape(&name.as_str()))
} else {
write!(fmt, "`{}`", name)
}
}
}
}
}