vendor/rustfix-0.8.1/src/lib.rs - toolchain/rustc - Git at Google

 //! Library for applying diagnostic suggestions to source code.
 //!
 //! This is a low-level library. You pass it the [JSON output] from `rustc`,
 //! and you can then use it to apply suggestions to in-memory strings.
 //! This library doesn't execute commands, or read or write from the filesystem.
 //!
 //! If you are looking for the [`cargo fix`] implementation, the core of it is
 //! located in [`cargo::ops::fix`].
 //!
 //! [`cargo fix`]: https://doc.rust-lang.org/cargo/commands/cargo-fix.html
 //! [`cargo::ops::fix`]: https://github.com/rust-lang/cargo/blob/master/src/cargo/ops/fix.rs
 //! [JSON output]: diagnostics
 //!
 //! The general outline of how to use this library is:
 //!
 //! 1. Call `rustc` and collect the JSON data.
 //! 2. Pass the json data to [`get_suggestions_from_json`].
 //! 3. Create a [`CodeFix`] with the source of a file to modify.
 //! 4. Call [`CodeFix::apply`] to apply a change.
 //! 5. Call [`CodeFix::finish`] to get the result and write it back to disk.

 use std::collections::HashSet;
 use std::ops::Range;

 pub mod diagnostics;
 mod error;
 mod replace;

 use diagnostics::Diagnostic;
 use diagnostics::DiagnosticSpan;
 pub use error::Error;

 /// A filter to control which suggestion should be applied.
 #[derive(Debug, Clone, Copy)]
 pub enum Filter {
     /// For [`diagnostics::Applicability::MachineApplicable`] only.
     MachineApplicableOnly,
     /// Everything is included. YOLO!
     Everything,
 }

 /// Collects code [`Suggestion`]s from one or more compiler diagnostic lines.
 ///
 /// Fails if any of diagnostic line `input` is not a valid [`Diagnostic`] JSON.
 ///
 /// * `only` --- only diagnostics with code in a set of error codes would be collected.
 pub fn get_suggestions_from_json<S: ::std::hash::BuildHasher>(
     input: &str,
     only: &HashSet<String, S>,
     filter: Filter,
 ) -> serde_json::error::Result<Vec<Suggestion>> {
     let mut result = Vec::new();
     for cargo_msg in serde_json::Deserializer::from_str(input).into_iter::<Diagnostic>() {
         // One diagnostic line might have multiple suggestions
         result.extend(collect_suggestions(&cargo_msg?, only, filter));
     }
     Ok(result)
 }

 #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)]
 pub struct LinePosition {
     pub line: usize,
     pub column: usize,
 }

 impl std::fmt::Display for LinePosition {
     fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
         write!(f, "{}:{}", self.line, self.column)
     }
 }

 #[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)]
 pub struct LineRange {
     pub start: LinePosition,
     pub end: LinePosition,
 }

 impl std::fmt::Display for LineRange {
     fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
         write!(f, "{}-{}", self.start, self.end)
     }
 }

 /// An error/warning and possible solutions for fixing it
 #[derive(Debug, Clone, Hash, PartialEq, Eq)]
 pub struct Suggestion {
     pub message: String,
     pub snippets: Vec<Snippet>,
     pub solutions: Vec<Solution>,
 }

 /// Solution to a diagnostic item.
 #[derive(Debug, Clone, Hash, PartialEq, Eq)]
 pub struct Solution {
     /// The error message of the diagnostic item.
     pub message: String,
     /// Possible solutions to fix the error.
     pub replacements: Vec<Replacement>,
 }

 /// Represents code that will get replaced.
 #[derive(Debug, Clone, Hash, PartialEq, Eq)]
 pub struct Snippet {
     pub file_name: String,
     pub line_range: LineRange,
     pub range: Range<usize>,
 }

 /// Represents a replacement of a `snippet`.
 #[derive(Debug, Clone, Hash, PartialEq, Eq)]
 pub struct Replacement {
     /// Code snippet that gets replaced.
     pub snippet: Snippet,
     /// The replacement of the snippet.
     pub replacement: String,
 }

 /// Converts a [`DiagnosticSpan`] to a [`Snippet`].
 fn span_to_snippet(span: &DiagnosticSpan) -> Snippet {
     Snippet {
         file_name: span.file_name.clone(),
         line_range: LineRange {
             start: LinePosition {
                 line: span.line_start,
                 column: span.column_start,
             },
             end: LinePosition {
                 line: span.line_end,
                 column: span.column_end,
             },
         },
         range: (span.byte_start as usize)..(span.byte_end as usize),
     }
 }

 /// Converts a [`DiagnosticSpan`] into a [`Replacement`].
 fn collect_span(span: &DiagnosticSpan) -> Option<Replacement> {
     let snippet = span_to_snippet(span);
     let replacement = span.suggested_replacement.clone()?;
     Some(Replacement {
         snippet,
         replacement,
     })
 }

 /// Collects code [`Suggestion`]s from a single compiler diagnostic line.
 ///
 /// * `only` --- only diagnostics with code in a set of error codes would be collected.
 pub fn collect_suggestions<S: ::std::hash::BuildHasher>(
     diagnostic: &Diagnostic,
     only: &HashSet<String, S>,
     filter: Filter,
 ) -> Option<Suggestion> {
     if !only.is_empty() {
         if let Some(ref code) = diagnostic.code {
             if !only.contains(&code.code) {
                 // This is not the code we are looking for
                 return None;
             }
         } else {
             // No code, probably a weird builtin warning/error
             return None;
         }
     }

     let snippets = diagnostic.spans.iter().map(span_to_snippet).collect();

     let solutions: Vec<_> = diagnostic
         .children
         .iter()
         .filter_map(|child| {
             let replacements: Vec<_> = child
                 .spans
                 .iter()
                 .filter(|span| {
                     use crate::diagnostics::Applicability::*;
                     use crate::Filter::*;

                     match (filter, &span.suggestion_applicability) {
                         (MachineApplicableOnly, Some(MachineApplicable)) => true,
                         (MachineApplicableOnly, _) => false,
                         (Everything, _) => true,
                     }
                 })
                 .filter_map(collect_span)
                 .collect();
             if !replacements.is_empty() {
                 Some(Solution {
                     message: child.message.clone(),
                     replacements,
                 })
             } else {
                 None
             }
         })
         .collect();

     if solutions.is_empty() {
         None
     } else {
         Some(Suggestion {
             message: diagnostic.message.clone(),
             snippets,
             solutions,
         })
     }
 }

 /// Represents a code fix. This doesn't write to disks but is only in memory.
 ///
 /// The general way to use this is:
 ///
 /// 1. Feeds the source of a file to [`CodeFix::new`].
 /// 2. Calls [`CodeFix::apply`] to apply suggestions to the source code.
 /// 3. Calls [`CodeFix::finish`] to get the "fixed" code.
 pub struct CodeFix {
     data: replace::Data,
     /// Whether or not the data has been modified.
     modified: bool,
 }

 impl CodeFix {
     /// Creates a `CodeFix` with the source of a file to modify.
     pub fn new(s: &str) -> CodeFix {
         CodeFix {
             data: replace::Data::new(s.as_bytes()),
             modified: false,
         }
     }

     /// Applies a suggestion to the code.
     pub fn apply(&mut self, suggestion: &Suggestion) -> Result<(), Error> {
         for sol in &suggestion.solutions {
             for r in &sol.replacements {
                 self.data
                     .replace_range(r.snippet.range.clone(), r.replacement.as_bytes())?;
                 self.modified = true;
             }
         }
         Ok(())
     }

     /// Gets the result of the "fixed" code.
     pub fn finish(&self) -> Result<String, Error> {
         Ok(String::from_utf8(self.data.to_vec())?)
     }

     /// Returns whether or not the data has been modified.
     pub fn modified(&self) -> bool {
         self.modified
     }
 }

 /// Applies multiple `suggestions` to the given `code`.
 pub fn apply_suggestions(code: &str, suggestions: &[Suggestion]) -> Result<String, Error> {
     let mut fix = CodeFix::new(code);
     for suggestion in suggestions.iter().rev() {
         fix.apply(suggestion)?;
     }
     fix.finish()
 }
	//! Library for applying diagnostic suggestions to source code.
	//!
	//! This is a low-level library. You pass it the [JSON output] from `rustc`,
	//! and you can then use it to apply suggestions to in-memory strings.
	//! This library doesn't execute commands, or read or write from the filesystem.
	//!
	//! If you are looking for the [`cargo fix`] implementation, the core of it is
	//! located in [`cargo::ops::fix`].
	//!
	//! [`cargo fix`]: https://doc.rust-lang.org/cargo/commands/cargo-fix.html
	//! [`cargo::ops::fix`]: https://github.com/rust-lang/cargo/blob/master/src/cargo/ops/fix.rs
	//! [JSON output]: diagnostics
	//!
	//! The general outline of how to use this library is:
	//!
	//! 1. Call `rustc` and collect the JSON data.
	//! 2. Pass the json data to [`get_suggestions_from_json`].
	//! 3. Create a [`CodeFix`] with the source of a file to modify.
	//! 4. Call [`CodeFix::apply`] to apply a change.
	//! 5. Call [`CodeFix::finish`] to get the result and write it back to disk.

	use std::collections::HashSet;
	use std::ops::Range;

	pub mod diagnostics;
	mod error;
	mod replace;

	use diagnostics::Diagnostic;
	use diagnostics::DiagnosticSpan;
	pub use error::Error;

	/// A filter to control which suggestion should be applied.
	#[derive(Debug, Clone, Copy)]
	pub enum Filter {
	/// For [`diagnostics::Applicability::MachineApplicable`] only.
	MachineApplicableOnly,
	/// Everything is included. YOLO!
	Everything,
	}

	/// Collects code [`Suggestion`]s from one or more compiler diagnostic lines.
	///
	/// Fails if any of diagnostic line `input` is not a valid [`Diagnostic`] JSON.
	///
	/// * `only` --- only diagnostics with code in a set of error codes would be collected.
	pub fn get_suggestions_from_json<S: ::std::hash::BuildHasher>(
	input: &str,
	only: &HashSet<String, S>,
	filter: Filter,
	) -> serde_json::error::Result<Vec<Suggestion>> {
	let mut result = Vec::new();
	for cargo_msg in serde_json::Deserializer::from_str(input).into_iter::<Diagnostic>() {
	// One diagnostic line might have multiple suggestions
	result.extend(collect_suggestions(&cargo_msg?, only, filter));
	}
	Ok(result)
	}

	#[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)]
	pub struct LinePosition {
	pub line: usize,
	pub column: usize,
	}

	impl std::fmt::Display for LinePosition {
	fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
	write!(f, "{}:{}", self.line, self.column)
	}
	}

	#[derive(Debug, Copy, Clone, Hash, PartialEq, Eq)]
	pub struct LineRange {
	pub start: LinePosition,
	pub end: LinePosition,
	}

	impl std::fmt::Display for LineRange {
	fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
	write!(f, "{}-{}", self.start, self.end)
	}
	}

	/// An error/warning and possible solutions for fixing it
	#[derive(Debug, Clone, Hash, PartialEq, Eq)]
	pub struct Suggestion {
	pub message: String,
	pub snippets: Vec<Snippet>,
	pub solutions: Vec<Solution>,
	}

	/// Solution to a diagnostic item.
	#[derive(Debug, Clone, Hash, PartialEq, Eq)]
	pub struct Solution {
	/// The error message of the diagnostic item.
	pub message: String,
	/// Possible solutions to fix the error.
	pub replacements: Vec<Replacement>,
	}

	/// Represents code that will get replaced.
	#[derive(Debug, Clone, Hash, PartialEq, Eq)]
	pub struct Snippet {
	pub file_name: String,
	pub line_range: LineRange,
	pub range: Range<usize>,
	}

	/// Represents a replacement of a `snippet`.
	#[derive(Debug, Clone, Hash, PartialEq, Eq)]
	pub struct Replacement {
	/// Code snippet that gets replaced.
	pub snippet: Snippet,
	/// The replacement of the snippet.
	pub replacement: String,
	}

	/// Converts a [`DiagnosticSpan`] to a [`Snippet`].
	fn span_to_snippet(span: &DiagnosticSpan) -> Snippet {
	Snippet {
	file_name: span.file_name.clone(),
	line_range: LineRange {
	start: LinePosition {
	line: span.line_start,
	column: span.column_start,
	},
	end: LinePosition {
	line: span.line_end,
	column: span.column_end,
	},
	},
	range: (span.byte_start as usize)..(span.byte_end as usize),
	}
	}

	/// Converts a [`DiagnosticSpan`] into a [`Replacement`].
	fn collect_span(span: &DiagnosticSpan) -> Option<Replacement> {
	let snippet = span_to_snippet(span);
	let replacement = span.suggested_replacement.clone()?;
	Some(Replacement {
	snippet,
	replacement,
	})
	}

	/// Collects code [`Suggestion`]s from a single compiler diagnostic line.
	///
	/// * `only` --- only diagnostics with code in a set of error codes would be collected.
	pub fn collect_suggestions<S: ::std::hash::BuildHasher>(
	diagnostic: &Diagnostic,
	only: &HashSet<String, S>,
	filter: Filter,
	) -> Option<Suggestion> {
	if !only.is_empty() {
	if let Some(ref code) = diagnostic.code {
	if !only.contains(&code.code) {
	// This is not the code we are looking for
	return None;
	}
	} else {
	// No code, probably a weird builtin warning/error
	return None;
	}
	}

	let snippets = diagnostic.spans.iter().map(span_to_snippet).collect();

	let solutions: Vec<_> = diagnostic
	.children
	.iter()
	.filter_map(\|child\| {
	let replacements: Vec<_> = child
	.spans
	.iter()
	.filter(\|span\| {
	use crate::diagnostics::Applicability::*;
	use crate::Filter::*;

	match (filter, &span.suggestion_applicability) {
	(MachineApplicableOnly, Some(MachineApplicable)) => true,
	(MachineApplicableOnly, _) => false,
	(Everything, _) => true,
	}
	})
	.filter_map(collect_span)
	.collect();
	if !replacements.is_empty() {
	Some(Solution {
	message: child.message.clone(),
	replacements,
	})
	} else {
	None
	}
	})
	.collect();

	if solutions.is_empty() {
	None
	} else {
	Some(Suggestion {
	message: diagnostic.message.clone(),
	snippets,
	solutions,
	})
	}
	}

	/// Represents a code fix. This doesn't write to disks but is only in memory.
	///
	/// The general way to use this is:
	///
	/// 1. Feeds the source of a file to [`CodeFix::new`].
	/// 2. Calls [`CodeFix::apply`] to apply suggestions to the source code.
	/// 3. Calls [`CodeFix::finish`] to get the "fixed" code.
	pub struct CodeFix {
	data: replace::Data,
	/// Whether or not the data has been modified.
	modified: bool,
	}

	impl CodeFix {
	/// Creates a `CodeFix` with the source of a file to modify.
	pub fn new(s: &str) -> CodeFix {
	CodeFix {
	data: replace::Data::new(s.as_bytes()),
	modified: false,
	}
	}

	/// Applies a suggestion to the code.
	pub fn apply(&mut self, suggestion: &Suggestion) -> Result<(), Error> {
	for sol in &suggestion.solutions {
	for r in &sol.replacements {
	self.data
	.replace_range(r.snippet.range.clone(), r.replacement.as_bytes())?;
	self.modified = true;
	}
	}
	Ok(())
	}

	/// Gets the result of the "fixed" code.
	pub fn finish(&self) -> Result<String, Error> {
	Ok(String::from_utf8(self.data.to_vec())?)
	}

	/// Returns whether or not the data has been modified.
	pub fn modified(&self) -> bool {
	self.modified
	}
	}

	/// Applies multiple `suggestions` to the given `code`.
	pub fn apply_suggestions(code: &str, suggestions: &[Suggestion]) -> Result<String, Error> {
	let mut fix = CodeFix::new(code);
	for suggestion in suggestions.iter().rev() {
	fix.apply(suggestion)?;
	}
	fix.finish()
	}