compiler/rustc_const_eval/src/const_eval/error.rs - toolchain/rustc - Git at Google

 use std::mem;

 use rustc_errors::{DiagArgName, DiagArgValue, DiagMessage, Diagnostic, IntoDiagArg};
 use rustc_hir::CRATE_HIR_ID;
 use rustc_middle::mir::interpret::Provenance;
 use rustc_middle::mir::AssertKind;
 use rustc_middle::query::TyCtxtAt;
 use rustc_middle::ty::TyCtxt;
 use rustc_middle::ty::{layout::LayoutError, ConstInt};
 use rustc_span::{Span, Symbol, DUMMY_SP};

 use super::CompileTimeInterpreter;
 use crate::errors::{self, FrameNote, ReportErrorExt};
 use crate::interpret::{ErrorHandled, Frame, InterpError, InterpErrorInfo, MachineStopType};

 /// The CTFE machine has some custom error kinds.
 #[derive(Clone, Debug)]
 pub enum ConstEvalErrKind {
     ConstAccessesMutGlobal,
     ModifiedGlobal,
     RecursiveStatic,
     AssertFailure(AssertKind<ConstInt>),
     Panic { msg: Symbol, line: u32, col: u32, file: Symbol },
 }

 impl MachineStopType for ConstEvalErrKind {
     fn diagnostic_message(&self) -> DiagMessage {
         use crate::fluent_generated::*;
         use ConstEvalErrKind::*;
         match self {
             ConstAccessesMutGlobal => const_eval_const_accesses_mut_global,
             ModifiedGlobal => const_eval_modified_global,
             Panic { .. } => const_eval_panic,
             RecursiveStatic => const_eval_recursive_static,
             AssertFailure(x) => x.diagnostic_message(),
         }
     }
     fn add_args(self: Box<Self>, adder: &mut dyn FnMut(DiagArgName, DiagArgValue)) {
         use ConstEvalErrKind::*;
         match *self {
             RecursiveStatic | ConstAccessesMutGlobal | ModifiedGlobal => {}
             AssertFailure(kind) => kind.add_args(adder),
             Panic { msg, line, col, file } => {
                 adder("msg".into(), msg.into_diag_arg());
                 adder("file".into(), file.into_diag_arg());
                 adder("line".into(), line.into_diag_arg());
                 adder("col".into(), col.into_diag_arg());
             }
         }
     }
 }

 /// The errors become [`InterpError::MachineStop`] when being raised.
 impl<'tcx> Into<InterpErrorInfo<'tcx>> for ConstEvalErrKind {
     fn into(self) -> InterpErrorInfo<'tcx> {
         err_machine_stop!(self).into()
     }
 }

 pub fn get_span_and_frames<'tcx, 'mir>(
     tcx: TyCtxtAt<'tcx>,
     stack: &[Frame<'mir, 'tcx, impl Provenance, impl Sized>],
 ) -> (Span, Vec<errors::FrameNote>)
 where
     'tcx: 'mir,
 {
     let mut stacktrace = Frame::generate_stacktrace_from_stack(stack);
     // Filter out `requires_caller_location` frames.
     stacktrace.retain(|frame| !frame.instance.def.requires_caller_location(*tcx));
     let span = stacktrace.first().map(|f| f.span).unwrap_or(tcx.span);

     let mut frames = Vec::new();

     // Add notes to the backtrace. Don't print a single-line backtrace though.
     if stacktrace.len() > 1 {
         // Helper closure to print duplicated lines.
         let mut add_frame = |mut frame: errors::FrameNote| {
             frames.push(errors::FrameNote { times: 0, ..frame.clone() });
             // Don't print [... additional calls ...] if the number of lines is small
             if frame.times < 3 {
                 let times = frame.times;
                 frame.times = 0;
                 frames.extend(std::iter::repeat(frame).take(times as usize));
             } else {
                 frames.push(frame);
             }
         };

         let mut last_frame: Option<errors::FrameNote> = None;
         for frame_info in &stacktrace {
             let frame = frame_info.as_note(*tcx);
             match last_frame.as_mut() {
                 Some(last_frame)
                     if last_frame.span == frame.span
                         && last_frame.where_ == frame.where_
                         && last_frame.instance == frame.instance =>
                 {
                     last_frame.times += 1;
                 }
                 Some(last_frame) => {
                     add_frame(mem::replace(last_frame, frame));
                 }
                 None => {
                     last_frame = Some(frame);
                 }
             }
         }
         if let Some(frame) = last_frame {
             add_frame(frame);
         }
     }

     (span, frames)
 }

 /// Create a diagnostic for a const eval error.
 ///
 /// This will use the `mk` function for creating the error which will get passed labels according to
 /// the `InterpError` and the span and a stacktrace of current execution according to
 /// `get_span_and_frames`.
 pub(super) fn report<'tcx, C, F, E>(
     tcx: TyCtxt<'tcx>,
     error: InterpError<'tcx>,
     span: Option<Span>,
     get_span_and_frames: C,
     mk: F,
 ) -> ErrorHandled
 where
     C: FnOnce() -> (Span, Vec<FrameNote>),
     F: FnOnce(Span, Vec<FrameNote>) -> E,
     E: Diagnostic<'tcx>,
 {
     // Special handling for certain errors
     match error {
         // Don't emit a new diagnostic for these errors, they are already reported elsewhere or
         // should remain silent.
         err_inval!(Layout(LayoutError::Unknown(_))) | err_inval!(TooGeneric) => {
             ErrorHandled::TooGeneric(span.unwrap_or(DUMMY_SP))
         }
         err_inval!(AlreadyReported(guar)) => ErrorHandled::Reported(guar, span.unwrap_or(DUMMY_SP)),
         err_inval!(Layout(LayoutError::ReferencesError(guar))) => {
             ErrorHandled::Reported(guar.into(), span.unwrap_or(DUMMY_SP))
         }
         // Report remaining errors.
         _ => {
             let (our_span, frames) = get_span_and_frames();
             let span = span.unwrap_or(our_span);
             let err = mk(span, frames);
             let mut err = tcx.dcx().create_err(err);

             let msg = error.diagnostic_message();
             error.add_args(&mut err);

             // Use *our* span to label the interp error
             err.span_label(our_span, msg);
             ErrorHandled::Reported(err.emit().into(), span)
         }
     }
 }

 /// Emit a lint from a const-eval situation.
 // Even if this is unused, please don't remove it -- chances are we will need to emit a lint during const-eval again in the future!
 pub(super) fn lint<'tcx, 'mir, L>(
     tcx: TyCtxtAt<'tcx>,
     machine: &CompileTimeInterpreter<'mir, 'tcx>,
     lint: &'static rustc_session::lint::Lint,
     decorator: impl FnOnce(Vec<errors::FrameNote>) -> L,
 ) where
     L: for<'a> rustc_errors::LintDiagnostic<'a, ()>,
 {
     let (span, frames) = get_span_and_frames(tcx, &machine.stack);

     tcx.emit_node_span_lint(
         lint,
         // We use the root frame for this so the crate that defines the const defines whether the
         // lint is emitted.
         machine.stack.first().and_then(|frame| frame.lint_root()).unwrap_or(CRATE_HIR_ID),
         span,
         decorator(frames),
     );
 }
	use std::mem;

	use rustc_errors::{DiagArgName, DiagArgValue, DiagMessage, Diagnostic, IntoDiagArg};
	use rustc_hir::CRATE_HIR_ID;
	use rustc_middle::mir::interpret::Provenance;
	use rustc_middle::mir::AssertKind;
	use rustc_middle::query::TyCtxtAt;
	use rustc_middle::ty::TyCtxt;
	use rustc_middle::ty::{layout::LayoutError, ConstInt};
	use rustc_span::{Span, Symbol, DUMMY_SP};

	use super::CompileTimeInterpreter;
	use crate::errors::{self, FrameNote, ReportErrorExt};
	use crate::interpret::{ErrorHandled, Frame, InterpError, InterpErrorInfo, MachineStopType};

	/// The CTFE machine has some custom error kinds.
	#[derive(Clone, Debug)]
	pub enum ConstEvalErrKind {
	ConstAccessesMutGlobal,
	ModifiedGlobal,
	RecursiveStatic,
	AssertFailure(AssertKind<ConstInt>),
	Panic { msg: Symbol, line: u32, col: u32, file: Symbol },
	}

	impl MachineStopType for ConstEvalErrKind {
	fn diagnostic_message(&self) -> DiagMessage {
	use crate::fluent_generated::*;
	use ConstEvalErrKind::*;
	match self {
	ConstAccessesMutGlobal => const_eval_const_accesses_mut_global,
	ModifiedGlobal => const_eval_modified_global,
	Panic { .. } => const_eval_panic,
	RecursiveStatic => const_eval_recursive_static,
	AssertFailure(x) => x.diagnostic_message(),
	}
	}
	fn add_args(self: Box<Self>, adder: &mut dyn FnMut(DiagArgName, DiagArgValue)) {
	use ConstEvalErrKind::*;
	match *self {
	RecursiveStatic \| ConstAccessesMutGlobal \| ModifiedGlobal => {}
	AssertFailure(kind) => kind.add_args(adder),
	Panic { msg, line, col, file } => {
	adder("msg".into(), msg.into_diag_arg());
	adder("file".into(), file.into_diag_arg());
	adder("line".into(), line.into_diag_arg());
	adder("col".into(), col.into_diag_arg());
	}
	}
	}
	}

	/// The errors become [`InterpError::MachineStop`] when being raised.
	impl<'tcx> Into<InterpErrorInfo<'tcx>> for ConstEvalErrKind {
	fn into(self) -> InterpErrorInfo<'tcx> {
	err_machine_stop!(self).into()
	}
	}

	pub fn get_span_and_frames<'tcx, 'mir>(
	tcx: TyCtxtAt<'tcx>,
	stack: &[Frame<'mir, 'tcx, impl Provenance, impl Sized>],
	) -> (Span, Vec<errors::FrameNote>)
	where
	'tcx: 'mir,
	{
	let mut stacktrace = Frame::generate_stacktrace_from_stack(stack);
	// Filter out `requires_caller_location` frames.
	stacktrace.retain(\|frame\| !frame.instance.def.requires_caller_location(*tcx));
	let span = stacktrace.first().map(\|f\| f.span).unwrap_or(tcx.span);

	let mut frames = Vec::new();

	// Add notes to the backtrace. Don't print a single-line backtrace though.
	if stacktrace.len() > 1 {
	// Helper closure to print duplicated lines.
	let mut add_frame = \|mut frame: errors::FrameNote\| {
	frames.push(errors::FrameNote { times: 0, ..frame.clone() });
	// Don't print [... additional calls ...] if the number of lines is small
	if frame.times < 3 {
	let times = frame.times;
	frame.times = 0;
	frames.extend(std::iter::repeat(frame).take(times as usize));
	} else {
	frames.push(frame);
	}
	};

	let mut last_frame: Option<errors::FrameNote> = None;
	for frame_info in &stacktrace {
	let frame = frame_info.as_note(*tcx);
	match last_frame.as_mut() {
	Some(last_frame)
	if last_frame.span == frame.span
	&& last_frame.where_ == frame.where_
	&& last_frame.instance == frame.instance =>
	{
	last_frame.times += 1;
	}
	Some(last_frame) => {
	add_frame(mem::replace(last_frame, frame));
	}
	None => {
	last_frame = Some(frame);
	}
	}
	}
	if let Some(frame) = last_frame {
	add_frame(frame);
	}
	}

	(span, frames)
	}

	/// Create a diagnostic for a const eval error.
	///
	/// This will use the `mk` function for creating the error which will get passed labels according to
	/// the `InterpError` and the span and a stacktrace of current execution according to
	/// `get_span_and_frames`.
	pub(super) fn report<'tcx, C, F, E>(
	tcx: TyCtxt<'tcx>,
	error: InterpError<'tcx>,
	span: Option<Span>,
	get_span_and_frames: C,
	mk: F,
	) -> ErrorHandled
	where
	C: FnOnce() -> (Span, Vec<FrameNote>),
	F: FnOnce(Span, Vec<FrameNote>) -> E,
	E: Diagnostic<'tcx>,
	{
	// Special handling for certain errors
	match error {
	// Don't emit a new diagnostic for these errors, they are already reported elsewhere or
	// should remain silent.
	err_inval!(Layout(LayoutError::Unknown(_))) \| err_inval!(TooGeneric) => {
	ErrorHandled::TooGeneric(span.unwrap_or(DUMMY_SP))
	}
	err_inval!(AlreadyReported(guar)) => ErrorHandled::Reported(guar, span.unwrap_or(DUMMY_SP)),
	err_inval!(Layout(LayoutError::ReferencesError(guar))) => {
	ErrorHandled::Reported(guar.into(), span.unwrap_or(DUMMY_SP))
	}
	// Report remaining errors.
	_ => {
	let (our_span, frames) = get_span_and_frames();
	let span = span.unwrap_or(our_span);
	let err = mk(span, frames);
	let mut err = tcx.dcx().create_err(err);

	let msg = error.diagnostic_message();
	error.add_args(&mut err);

	// Use our span to label the interp error
	err.span_label(our_span, msg);
	ErrorHandled::Reported(err.emit().into(), span)
	}
	}
	}

	/// Emit a lint from a const-eval situation.
	// Even if this is unused, please don't remove it -- chances are we will need to emit a lint during const-eval again in the future!
	pub(super) fn lint<'tcx, 'mir, L>(
	tcx: TyCtxtAt<'tcx>,
	machine: &CompileTimeInterpreter<'mir, 'tcx>,
	lint: &'static rustc_session::lint::Lint,
	decorator: impl FnOnce(Vec<errors::FrameNote>) -> L,
	) where
	L: for<'a> rustc_errors::LintDiagnostic<'a, ()>,
	{
	let (span, frames) = get_span_and_frames(tcx, &machine.stack);

	tcx.emit_node_span_lint(
	lint,
	// We use the root frame for this so the crate that defines the const defines whether the
	// lint is emitted.
	machine.stack.first().and_then(\|frame\| frame.lint_root()).unwrap_or(CRATE_HIR_ID),
	span,
	decorator(frames),
	);
	}