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android / toolchain / rustc / 5139364148b53d79de1b5e778004d41a6a33a4a2 / . / compiler / rustc_session / src / errors.rs
blob: 31094e0d2666971c08007a4d54889dbf5dac1c34 [file] [log] [blame]
use std::num::NonZeroU32;
use crate::parse::ParseSess;
use rustc_ast::token;
use rustc_ast::util::literal::LitError;
use rustc_errors::{error_code, DiagnosticMessage, EmissionGuarantee, IntoDiagnostic, MultiSpan};
use rustc_macros::Diagnostic;
use rustc_span::{BytePos, Span, Symbol};
use rustc_target::spec::{SplitDebuginfo, StackProtector, TargetTriple};
pub struct FeatureGateError {
pub span: MultiSpan,
pub explain: DiagnosticMessage,
}
impl<'a, T: EmissionGuarantee> IntoDiagnostic<'a, T> for FeatureGateError {
#[track_caller]
fn into_diagnostic(
self,
handler: &'a rustc_errors::Handler,
) -> rustc_errors::DiagnosticBuilder<'a, T> {
let mut diag = handler.struct_diagnostic(self.explain);
diag.set_span(self.span);
diag.code(error_code!(E0658));
diag
}
}
#[derive(Subdiagnostic)]
#[note(session_feature_diagnostic_for_issue)]
pub struct FeatureDiagnosticForIssue {
pub n: NonZeroU32,
}
#[derive(Subdiagnostic)]
#[help(session_feature_diagnostic_help)]
pub struct FeatureDiagnosticHelp {
pub feature: Symbol,
}
#[derive(Subdiagnostic)]
#[help(session_cli_feature_diagnostic_help)]
pub struct CliFeatureDiagnosticHelp {
pub feature: Symbol,
}
#[derive(Diagnostic)]
#[diag(session_not_circumvent_feature)]
pub struct NotCircumventFeature;
#[derive(Diagnostic)]
#[diag(session_linker_plugin_lto_windows_not_supported)]
pub struct LinkerPluginToWindowsNotSupported;
#[derive(Diagnostic)]
#[diag(session_profile_use_file_does_not_exist)]
pub struct ProfileUseFileDoesNotExist<'a> {
pub path: &'a std::path::Path,
}
#[derive(Diagnostic)]
#[diag(session_profile_sample_use_file_does_not_exist)]
pub struct ProfileSampleUseFileDoesNotExist<'a> {
pub path: &'a std::path::Path,
}
#[derive(Diagnostic)]
#[diag(session_target_requires_unwind_tables)]
pub struct TargetRequiresUnwindTables;
#[derive(Diagnostic)]
#[diag(session_instrumentation_not_supported)]
pub struct InstrumentationNotSupported {
pub us: String,
}
#[derive(Diagnostic)]
#[diag(session_sanitizer_not_supported)]
pub struct SanitizerNotSupported {
pub us: String,
}
#[derive(Diagnostic)]
#[diag(session_sanitizers_not_supported)]
pub struct SanitizersNotSupported {
pub us: String,
}
#[derive(Diagnostic)]
#[diag(session_cannot_mix_and_match_sanitizers)]
pub struct CannotMixAndMatchSanitizers {
pub first: String,
pub second: String,
}
#[derive(Diagnostic)]
#[diag(session_cannot_enable_crt_static_linux)]
pub struct CannotEnableCrtStaticLinux;
#[derive(Diagnostic)]
#[diag(session_sanitizer_cfi_requires_lto)]
pub struct SanitizerCfiRequiresLto;
#[derive(Diagnostic)]
#[diag(session_sanitizer_cfi_requires_single_codegen_unit)]
pub struct SanitizerCfiRequiresSingleCodegenUnit;
#[derive(Diagnostic)]
#[diag(session_sanitizer_cfi_canonical_jump_tables_requires_cfi)]
pub struct SanitizerCfiCanonicalJumpTablesRequiresCfi;
#[derive(Diagnostic)]
#[diag(session_sanitizer_cfi_generalize_pointers_requires_cfi)]
pub struct SanitizerCfiGeneralizePointersRequiresCfi;
#[derive(Diagnostic)]
#[diag(session_sanitizer_cfi_normalize_integers_requires_cfi)]
pub struct SanitizerCfiNormalizeIntegersRequiresCfi;
#[derive(Diagnostic)]
#[diag(session_split_lto_unit_requires_lto)]
pub struct SplitLtoUnitRequiresLto;
#[derive(Diagnostic)]
#[diag(session_unstable_virtual_function_elimination)]
pub struct UnstableVirtualFunctionElimination;
#[derive(Diagnostic)]
#[diag(session_unsupported_dwarf_version)]
pub struct UnsupportedDwarfVersion {
pub dwarf_version: u32,
}
#[derive(Diagnostic)]
#[diag(session_target_stack_protector_not_supported)]
pub struct StackProtectorNotSupportedForTarget<'a> {
pub stack_protector: StackProtector,
pub target_triple: &'a TargetTriple,
}
#[derive(Diagnostic)]
#[diag(session_branch_protection_requires_aarch64)]
pub(crate) struct BranchProtectionRequiresAArch64;
#[derive(Diagnostic)]
#[diag(session_split_debuginfo_unstable_platform)]
pub struct SplitDebugInfoUnstablePlatform {
pub debuginfo: SplitDebuginfo,
}
#[derive(Diagnostic)]
#[diag(session_file_is_not_writeable)]
pub struct FileIsNotWriteable<'a> {
pub file: &'a std::path::Path,
}
#[derive(Diagnostic)]
#[diag(session_file_write_fail)]
pub(crate) struct FileWriteFail<'a> {
pub path: &'a std::path::Path,
pub err: String,
}
#[derive(Diagnostic)]
#[diag(session_crate_name_does_not_match)]
pub struct CrateNameDoesNotMatch {
#[primary_span]
pub span: Span,
pub s: Symbol,
pub name: Symbol,
}
#[derive(Diagnostic)]
#[diag(session_crate_name_invalid)]
pub struct CrateNameInvalid<'a> {
pub s: &'a str,
}
#[derive(Diagnostic)]
#[diag(session_crate_name_empty)]
pub struct CrateNameEmpty {
#[primary_span]
pub span: Option<Span>,
}
#[derive(Diagnostic)]
#[diag(session_invalid_character_in_create_name)]
pub struct InvalidCharacterInCrateName {
#[primary_span]
pub span: Option<Span>,
pub character: char,
pub crate_name: Symbol,
#[subdiagnostic]
pub crate_name_help: Option<InvalidCrateNameHelp>,
}
#[derive(Subdiagnostic)]
pub enum InvalidCrateNameHelp {
#[help(session_invalid_character_in_create_name_help)]
AddCrateName,
}
#[derive(Subdiagnostic)]
#[multipart_suggestion(session_expr_parentheses_needed, applicability = "machine-applicable")]
pub struct ExprParenthesesNeeded {
#[suggestion_part(code = "(")]
pub left: Span,
#[suggestion_part(code = ")")]
pub right: Span,
}
impl ExprParenthesesNeeded {
pub fn surrounding(s: Span) -> Self {
ExprParenthesesNeeded { left: s.shrink_to_lo(), right: s.shrink_to_hi() }
}
}
#[derive(Diagnostic)]
#[diag(session_skipping_const_checks)]
pub struct SkippingConstChecks {
#[subdiagnostic]
pub unleashed_features: Vec<UnleashedFeatureHelp>,
}
#[derive(Subdiagnostic)]
pub enum UnleashedFeatureHelp {
#[help(session_unleashed_feature_help_named)]
Named {
#[primary_span]
span: Span,
gate: Symbol,
},
#[help(session_unleashed_feature_help_unnamed)]
Unnamed {
#[primary_span]
span: Span,
},
}
#[derive(Diagnostic)]
#[diag(session_invalid_literal_suffix)]
pub(crate) struct InvalidLiteralSuffix<'a> {
#[primary_span]
#[label]
pub span: Span,
// FIXME(#100717)
pub kind: &'a str,
pub suffix: Symbol,
}
#[derive(Diagnostic)]
#[diag(session_invalid_int_literal_width)]
#[help]
pub(crate) struct InvalidIntLiteralWidth {
#[primary_span]
pub span: Span,
pub width: String,
}
#[derive(Diagnostic)]
#[diag(session_invalid_num_literal_base_prefix)]
#[note]
pub(crate) struct InvalidNumLiteralBasePrefix {
#[primary_span]
#[suggestion(applicability = "maybe-incorrect", code = "{fixed}")]
pub span: Span,
pub fixed: String,
}
#[derive(Diagnostic)]
#[diag(session_invalid_num_literal_suffix)]
#[help]
pub(crate) struct InvalidNumLiteralSuffix {
#[primary_span]
#[label]
pub span: Span,
pub suffix: String,
}
#[derive(Diagnostic)]
#[diag(session_invalid_float_literal_width)]
#[help]
pub(crate) struct InvalidFloatLiteralWidth {
#[primary_span]
pub span: Span,
pub width: String,
}
#[derive(Diagnostic)]
#[diag(session_invalid_float_literal_suffix)]
#[help]
pub(crate) struct InvalidFloatLiteralSuffix {
#[primary_span]
#[label]
pub span: Span,
pub suffix: String,
}
#[derive(Diagnostic)]
#[diag(session_int_literal_too_large)]
#[note]
pub(crate) struct IntLiteralTooLarge {
#[primary_span]
pub span: Span,
pub limit: String,
}
#[derive(Diagnostic)]
#[diag(session_hexadecimal_float_literal_not_supported)]
pub(crate) struct HexadecimalFloatLiteralNotSupported {
#[primary_span]
#[label(session_not_supported)]
pub span: Span,
}
#[derive(Diagnostic)]
#[diag(session_octal_float_literal_not_supported)]
pub(crate) struct OctalFloatLiteralNotSupported {
#[primary_span]
#[label(session_not_supported)]
pub span: Span,
}
#[derive(Diagnostic)]
#[diag(session_binary_float_literal_not_supported)]
pub(crate) struct BinaryFloatLiteralNotSupported {
#[primary_span]
#[label(session_not_supported)]
pub span: Span,
}
#[derive(Diagnostic)]
#[diag(session_nul_in_c_str)]
pub(crate) struct NulInCStr {
#[primary_span]
pub span: Span,
}
pub fn report_lit_error(sess: &ParseSess, err: LitError, lit: token::Lit, span: Span) {
// Checks if `s` looks like i32 or u1234 etc.
fn looks_like_width_suffix(first_chars: &[char], s: &str) -> bool {
s.len() > 1 && s.starts_with(first_chars) && s[1..].chars().all(|c| c.is_ascii_digit())
}
// Try to lowercase the prefix if the prefix and suffix are valid.
fn fix_base_capitalisation(prefix: &str, suffix: &str) -> Option<String> {
let mut chars = suffix.chars();
let base_char = chars.next().unwrap();
let base = match base_char {
'B' => 2,
'O' => 8,
'X' => 16,
_ => return None,
};
// check that the suffix contains only base-appropriate characters
let valid = prefix == "0"
&& chars
.filter(|c| *c != '_')
.take_while(|c| *c != 'i' && *c != 'u')
.all(|c| c.to_digit(base).is_some());
valid.then(|| format!("0{}{}", base_char.to_ascii_lowercase(), &suffix[1..]))
}
let token::Lit { kind, symbol, suffix, .. } = lit;
match err {
// `LexerError` is an error, but it was already reported
// by lexer, so here we don't report it the second time.
LitError::LexerError => {}
LitError::InvalidSuffix => {
if let Some(suffix) = suffix {
sess.emit_err(InvalidLiteralSuffix { span, kind: kind.descr(), suffix });
}
}
LitError::InvalidIntSuffix => {
let suf = suffix.expect("suffix error with no suffix");
let suf = suf.as_str();
if looks_like_width_suffix(&['i', 'u'], suf) {
// If it looks like a width, try to be helpful.
sess.emit_err(InvalidIntLiteralWidth { span, width: suf[1..].into() });
} else if let Some(fixed) = fix_base_capitalisation(symbol.as_str(), suf) {
sess.emit_err(InvalidNumLiteralBasePrefix { span, fixed });
} else {
sess.emit_err(InvalidNumLiteralSuffix { span, suffix: suf.to_string() });
}
}
LitError::InvalidFloatSuffix => {
let suf = suffix.expect("suffix error with no suffix");
let suf = suf.as_str();
if looks_like_width_suffix(&['f'], suf) {
// If it looks like a width, try to be helpful.
sess.emit_err(InvalidFloatLiteralWidth { span, width: suf[1..].to_string() });
} else {
sess.emit_err(InvalidFloatLiteralSuffix { span, suffix: suf.to_string() });
}
}
LitError::NonDecimalFloat(base) => {
match base {
16 => sess.emit_err(HexadecimalFloatLiteralNotSupported { span }),
8 => sess.emit_err(OctalFloatLiteralNotSupported { span }),
2 => sess.emit_err(BinaryFloatLiteralNotSupported { span }),
_ => unreachable!(),
};
}
LitError::IntTooLarge(base) => {
let max = u128::MAX;
let limit = match base {
2 => format!("{max:#b}"),
8 => format!("{max:#o}"),
16 => format!("{max:#x}"),
_ => format!("{max}"),
};
sess.emit_err(IntLiteralTooLarge { span, limit });
}
LitError::NulInCStr(range) => {
let lo = BytePos(span.lo().0 + range.start as u32 + 2);
let hi = BytePos(span.lo().0 + range.end as u32 + 2);
let span = span.with_lo(lo).with_hi(hi);
sess.emit_err(NulInCStr { span });
}
}
}
#[derive(Diagnostic)]
#[diag(session_optimization_fuel_exhausted)]
pub struct OptimisationFuelExhausted {
pub msg: String,
}
#[derive(Diagnostic)]
#[diag(session_incompatible_linker_flavor)]
#[note]
pub struct IncompatibleLinkerFlavor {
pub flavor: &'static str,
pub compatible_list: String,
}