compiler/rustc_middle/src/middle/limits.rs - toolchain/rustc - Git at Google

 //! Registering limits:
 //! * recursion_limit,
 //! * move_size_limit, and
 //! * type_length_limit
 //!
 //! There are various parts of the compiler that must impose arbitrary limits
 //! on how deeply they recurse to prevent stack overflow. Users can override
 //! this via an attribute on the crate like `#![recursion_limit="22"]`. This pass
 //! just peeks and looks for that attribute.

 use crate::error::LimitInvalid;
 use crate::query::Providers;
 use rustc_ast::Attribute;
 use rustc_session::Session;
 use rustc_session::{Limit, Limits};
 use rustc_span::symbol::{sym, Symbol};

 use std::num::IntErrorKind;

 pub fn provide(providers: &mut Providers) {
     providers.limits = |tcx, ()| Limits {
         recursion_limit: get_recursion_limit(tcx.hir().krate_attrs(), tcx.sess),
         move_size_limit: get_limit(
             tcx.hir().krate_attrs(),
             tcx.sess,
             sym::move_size_limit,
             tcx.sess.opts.unstable_opts.move_size_limit.unwrap_or(0),
         ),
         type_length_limit: get_limit(
             tcx.hir().krate_attrs(),
             tcx.sess,
             sym::type_length_limit,
             1048576,
         ),
     }
 }

 pub fn get_recursion_limit(krate_attrs: &[Attribute], sess: &Session) -> Limit {
     get_limit(krate_attrs, sess, sym::recursion_limit, 128)
 }

 fn get_limit(krate_attrs: &[Attribute], sess: &Session, name: Symbol, default: usize) -> Limit {
     for attr in krate_attrs {
         if !attr.has_name(name) {
             continue;
         }

         if let Some(s) = attr.value_str() {
             match s.as_str().parse() {
                 Ok(n) => return Limit::new(n),
                 Err(e) => {
                     let value_span = attr
                         .meta()
                         .and_then(|meta| meta.name_value_literal_span())
                         .unwrap_or(attr.span);

                     let error_str = match e.kind() {
                         IntErrorKind::PosOverflow => "`limit` is too large",
                         IntErrorKind::Empty => "`limit` must be a non-negative integer",
                         IntErrorKind::InvalidDigit => "not a valid integer",
                         IntErrorKind::NegOverflow => {
                             bug!("`limit` should never negatively overflow")
                         }
                         IntErrorKind::Zero => bug!("zero is a valid `limit`"),
                         kind => bug!("unimplemented IntErrorKind variant: {:?}", kind),
                     };
                     sess.dcx().emit_err(LimitInvalid { span: attr.span, value_span, error_str });
                 }
             }
         }
     }
     return Limit::new(default);
 }
	//! Registering limits:
	//! * recursion_limit,
	//! * move_size_limit, and
	//! * type_length_limit
	//!
	//! There are various parts of the compiler that must impose arbitrary limits
	//! on how deeply they recurse to prevent stack overflow. Users can override
	//! this via an attribute on the crate like `#![recursion_limit="22"]`. This pass
	//! just peeks and looks for that attribute.

	use crate::error::LimitInvalid;
	use crate::query::Providers;
	use rustc_ast::Attribute;
	use rustc_session::Session;
	use rustc_session::{Limit, Limits};
	use rustc_span::symbol::{sym, Symbol};

	use std::num::IntErrorKind;

	pub fn provide(providers: &mut Providers) {
	providers.limits = \|tcx, ()\| Limits {
	recursion_limit: get_recursion_limit(tcx.hir().krate_attrs(), tcx.sess),
	move_size_limit: get_limit(
	tcx.hir().krate_attrs(),
	tcx.sess,
	sym::move_size_limit,
	tcx.sess.opts.unstable_opts.move_size_limit.unwrap_or(0),
	),
	type_length_limit: get_limit(
	tcx.hir().krate_attrs(),
	tcx.sess,
	sym::type_length_limit,
	1048576,
	),
	}
	}

	pub fn get_recursion_limit(krate_attrs: &[Attribute], sess: &Session) -> Limit {
	get_limit(krate_attrs, sess, sym::recursion_limit, 128)
	}

	fn get_limit(krate_attrs: &[Attribute], sess: &Session, name: Symbol, default: usize) -> Limit {
	for attr in krate_attrs {
	if !attr.has_name(name) {
	continue;
	}

	if let Some(s) = attr.value_str() {
	match s.as_str().parse() {
	Ok(n) => return Limit::new(n),
	Err(e) => {
	let value_span = attr
	.meta()
	.and_then(\|meta\| meta.name_value_literal_span())
	.unwrap_or(attr.span);

	let error_str = match e.kind() {
	IntErrorKind::PosOverflow => "`limit` is too large",
	IntErrorKind::Empty => "`limit` must be a non-negative integer",
	IntErrorKind::InvalidDigit => "not a valid integer",
	IntErrorKind::NegOverflow => {
	bug!("`limit` should never negatively overflow")
	}
	IntErrorKind::Zero => bug!("zero is a valid `limit`"),
	kind => bug!("unimplemented IntErrorKind variant: {:?}", kind),
	};
	sess.dcx().emit_err(LimitInvalid { span: attr.span, value_span, error_str });
	}
	}
	}
	}
	return Limit::new(default);
	}