use std::collections::BTreeSet;
use std::fmt::{Display, Write as _};
use std::fs;
use std::io::{self, Write as _};
use std::path::{Path, PathBuf};
use rustc_abi::Size;
use rustc_ast::InlineAsmTemplatePiece;
use rustc_middle::mir::interpret::{
AllocBytes, AllocId, Allocation, GlobalAlloc, Pointer, Provenance, alloc_range,
read_target_uint,
};
use rustc_middle::mir::visit::Visitor;
use rustc_middle::mir::*;
use tracing::trace;
use super::graphviz::write_mir_fn_graphviz;
use crate::mir::interpret::ConstAllocation;
const INDENT: &str = " ";
pub(crate) const ALIGN: usize = 40;
pub enum PassWhere {
BeforeCFG,
AfterCFG,
BeforeBlock(BasicBlock),
BeforeLocation(Location),
AfterLocation(Location),
AfterTerminator(BasicBlock),
}
#[derive(Copy, Clone)]
pub struct PrettyPrintMirOptions {
pub include_extra_comments: bool,
}
impl PrettyPrintMirOptions {
pub fn from_cli(tcx: TyCtxt<'_>) -> Self {
Self { include_extra_comments: tcx.sess.opts.unstable_opts.mir_include_spans.is_enabled() }
}
}
#[inline]
pub fn dump_mir<'tcx, F>(
tcx: TyCtxt<'tcx>,
pass_num: bool,
pass_name: &str,
disambiguator: &dyn Display,
body: &Body<'tcx>,
extra_data: F,
) where
F: FnMut(PassWhere, &mut dyn io::Write) -> io::Result<()>,
{
dump_mir_with_options(
tcx,
pass_num,
pass_name,
disambiguator,
body,
extra_data,
PrettyPrintMirOptions::from_cli(tcx),
);
}
#[inline]
pub fn dump_mir_with_options<'tcx, F>(
tcx: TyCtxt<'tcx>,
pass_num: bool,
pass_name: &str,
disambiguator: &dyn Display,
body: &Body<'tcx>,
extra_data: F,
options: PrettyPrintMirOptions,
) where
F: FnMut(PassWhere, &mut dyn io::Write) -> io::Result<()>,
{
if !dump_enabled(tcx, pass_name, body.source.def_id()) {
return;
}
dump_matched_mir_node(tcx, pass_num, pass_name, disambiguator, body, extra_data, options);
}
pub fn dump_enabled(tcx: TyCtxt<'_>, pass_name: &str, def_id: DefId) -> bool {
let Some(ref filters) = tcx.sess.opts.unstable_opts.dump_mir else {
return false;
};
let node_path = ty::print::with_forced_impl_filename_line!(tcx.def_path_str(def_id));
filters.split('|').any(|or_filter| {
or_filter.split('&').all(|and_filter| {
let and_filter_trimmed = and_filter.trim();
and_filter_trimmed == "all"
|| pass_name.contains(and_filter_trimmed)
|| node_path.contains(and_filter_trimmed)
})
})
}
fn dump_matched_mir_node<'tcx, F>(
tcx: TyCtxt<'tcx>,
pass_num: bool,
pass_name: &str,
disambiguator: &dyn Display,
body: &Body<'tcx>,
mut extra_data: F,
options: PrettyPrintMirOptions,
) where
F: FnMut(PassWhere, &mut dyn io::Write) -> io::Result<()>,
{
let _: io::Result<()> = try {
let mut file = create_dump_file(tcx, "mir", pass_num, pass_name, disambiguator, body)?;
let def_path =
ty::print::with_forced_impl_filename_line!(tcx.def_path_str(body.source.def_id()));
write!(file, "// MIR for `{def_path}")?;
match body.source.promoted {
None => write!(file, "`")?,
Some(promoted) => write!(file, "::{promoted:?}`")?,
}
writeln!(file, " {disambiguator} {pass_name}")?;
if let Some(ref layout) = body.coroutine_layout_raw() {
writeln!(file, "/* coroutine_layout = {layout:#?} */")?;
}
writeln!(file)?;
extra_data(PassWhere::BeforeCFG, &mut file)?;
write_user_type_annotations(tcx, body, &mut file)?;
write_mir_fn(tcx, body, &mut extra_data, &mut file, options)?;
extra_data(PassWhere::AfterCFG, &mut file)?;
};
if tcx.sess.opts.unstable_opts.dump_mir_graphviz {
let _: io::Result<()> = try {
let mut file = create_dump_file(tcx, "dot", pass_num, pass_name, disambiguator, body)?;
write_mir_fn_graphviz(tcx, body, false, &mut file)?;
};
}
}
fn dump_path<'tcx>(
tcx: TyCtxt<'tcx>,
extension: &str,
pass_num: bool,
pass_name: &str,
disambiguator: &dyn Display,
body: &Body<'tcx>,
) -> PathBuf {
let source = body.source;
let promotion_id = match source.promoted {
Some(id) => format!("-{id:?}"),
None => String::new(),
};
let pass_num = if tcx.sess.opts.unstable_opts.dump_mir_exclude_pass_number {
String::new()
} else if pass_num {
format!(".{:03}-{:03}", body.phase.phase_index(), body.pass_count)
} else {
".-------".to_string()
};
let crate_name = tcx.crate_name(source.def_id().krate);
let item_name = tcx.def_path(source.def_id()).to_filename_friendly_no_crate();
let shim_disambiguator = match source.instance {
ty::InstanceKind::DropGlue(_, Some(ty)) => {
let mut s = ".".to_owned();
s.extend(ty.to_string().chars().filter_map(|c| match c {
' ' => None,
':' | '<' | '>' => Some('_'),
c => Some(c),
}));
s
}
ty::InstanceKind::AsyncDropGlueCtorShim(_, Some(ty)) => {
let mut s = ".".to_owned();
s.extend(ty.to_string().chars().filter_map(|c| match c {
' ' => None,
':' | '<' | '>' => Some('_'),
c => Some(c),
}));
s
}
_ => String::new(),
};
let mut file_path = PathBuf::new();
file_path.push(Path::new(&tcx.sess.opts.unstable_opts.dump_mir_dir));
let file_name = format!(
"{crate_name}.{item_name}{shim_disambiguator}{promotion_id}{pass_num}.{pass_name}.{disambiguator}.{extension}",
);
file_path.push(&file_name);
file_path
}
pub fn create_dump_file<'tcx>(
tcx: TyCtxt<'tcx>,
extension: &str,
pass_num: bool,
pass_name: &str,
disambiguator: &dyn Display,
body: &Body<'tcx>,
) -> io::Result<io::BufWriter<fs::File>> {
let file_path = dump_path(tcx, extension, pass_num, pass_name, disambiguator, body);
if let Some(parent) = file_path.parent() {
fs::create_dir_all(parent).map_err(|e| {
io::Error::new(
e.kind(),
format!("IO error creating MIR dump directory: {parent:?}; {e}"),
)
})?;
}
fs::File::create_buffered(&file_path).map_err(|e| {
io::Error::new(e.kind(), format!("IO error creating MIR dump file: {file_path:?}; {e}"))
})
}
pub fn write_mir_pretty<'tcx>(
tcx: TyCtxt<'tcx>,
single: Option<DefId>,
w: &mut dyn io::Write,
) -> io::Result<()> {
let options = PrettyPrintMirOptions::from_cli(tcx);
writeln!(w, "// WARNING: This output format is intended for human consumers only")?;
writeln!(w, "// and is subject to change without notice. Knock yourself out.")?;
let mut first = true;
for def_id in dump_mir_def_ids(tcx, single) {
if first {
first = false;
} else {
writeln!(w)?;
}
let render_body = |w: &mut dyn io::Write, body| -> io::Result<()> {
write_mir_fn(tcx, body, &mut |_, _| Ok(()), w, options)?;
for body in tcx.promoted_mir(def_id) {
writeln!(w)?;
write_mir_fn(tcx, body, &mut |_, _| Ok(()), w, options)?;
}
Ok(())
};
if tcx.is_const_fn(def_id) {
render_body(w, tcx.optimized_mir(def_id))?;
writeln!(w)?;
writeln!(w, "// MIR FOR CTFE")?;
write_mir_fn(tcx, tcx.mir_for_ctfe(def_id), &mut |_, _| Ok(()), w, options)?;
} else {
let instance_mir = tcx.instance_mir(ty::InstanceKind::Item(def_id));
render_body(w, instance_mir)?;
}
}
Ok(())
}
pub fn write_mir_fn<'tcx, F>(
tcx: TyCtxt<'tcx>,
body: &Body<'tcx>,
extra_data: &mut F,
w: &mut dyn io::Write,
options: PrettyPrintMirOptions,
) -> io::Result<()>
where
F: FnMut(PassWhere, &mut dyn io::Write) -> io::Result<()>,
{
write_mir_intro(tcx, body, w, options)?;
for block in body.basic_blocks.indices() {
extra_data(PassWhere::BeforeBlock(block), w)?;
write_basic_block(tcx, block, body, extra_data, w, options)?;
if block.index() + 1 != body.basic_blocks.len() {
writeln!(w)?;
}
}
writeln!(w, "}}")?;
write_allocations(tcx, body, w)?;
Ok(())
}
fn write_scope_tree(
tcx: TyCtxt<'_>,
body: &Body<'_>,
scope_tree: &FxHashMap<SourceScope, Vec<SourceScope>>,
w: &mut dyn io::Write,
parent: SourceScope,
depth: usize,
options: PrettyPrintMirOptions,
) -> io::Result<()> {
let indent = depth * INDENT.len();
for var_debug_info in &body.var_debug_info {
if var_debug_info.source_info.scope != parent {
continue;
}
let indented_debug_info = format!("{0:1$}debug {2:?};", INDENT, indent, var_debug_info);
if options.include_extra_comments {
writeln!(
w,
"{0:1$} // in {2}",
indented_debug_info,
ALIGN,
comment(tcx, var_debug_info.source_info),
)?;
} else {
writeln!(w, "{indented_debug_info}")?;
}
}
for (local, local_decl) in body.local_decls.iter_enumerated() {
if (1..body.arg_count + 1).contains(&local.index()) {
continue;
}
if local_decl.source_info.scope != parent {
continue;
}
let mut_str = local_decl.mutability.prefix_str();
let mut indented_decl = ty::print::with_no_trimmed_paths!(format!(
"{0:1$}let {2}{3:?}: {4}",
INDENT, indent, mut_str, local, local_decl.ty
));
if let Some(user_ty) = &local_decl.user_ty {
for user_ty in user_ty.projections() {
write!(indented_decl, " as {user_ty:?}").unwrap();
}
}
indented_decl.push(';');
let local_name = if local == RETURN_PLACE { " return place" } else { "" };
if options.include_extra_comments {
writeln!(
w,
"{0:1$} //{2} in {3}",
indented_decl,
ALIGN,
local_name,
comment(tcx, local_decl.source_info),
)?;
} else {
writeln!(w, "{indented_decl}",)?;
}
}
let Some(children) = scope_tree.get(&parent) else {
return Ok(());
};
for &child in children {
let child_data = &body.source_scopes[child];
assert_eq!(child_data.parent_scope, Some(parent));
let (special, span) = if let Some((callee, callsite_span)) = child_data.inlined {
(
format!(
" (inlined {}{})",
if callee.def.requires_caller_location(tcx) { "#[track_caller] " } else { "" },
callee
),
Some(callsite_span),
)
} else {
(String::new(), None)
};
let indented_header = format!("{0:1$}scope {2}{3} {{", "", indent, child.index(), special);
if options.include_extra_comments {
if let Some(span) = span {
writeln!(
w,
"{0:1$} // at {2}",
indented_header,
ALIGN,
tcx.sess.source_map().span_to_embeddable_string(span),
)?;
} else {
writeln!(w, "{indented_header}")?;
}
} else {
writeln!(w, "{indented_header}")?;
}
write_scope_tree(tcx, body, scope_tree, w, child, depth + 1, options)?;
writeln!(w, "{0:1$}}}", "", depth * INDENT.len())?;
}
Ok(())
}
impl Debug for VarDebugInfo<'_> {
fn fmt(&self, fmt: &mut Formatter<'_>) -> fmt::Result {
if let Some(box VarDebugInfoFragment { ty, ref projection }) = self.composite {
pre_fmt_projection(&projection[..], fmt)?;
write!(fmt, "({}: {})", self.name, ty)?;
post_fmt_projection(&projection[..], fmt)?;
} else {
write!(fmt, "{}", self.name)?;
}
write!(fmt, " => {:?}", self.value)
}
}
fn write_mir_intro<'tcx>(
tcx: TyCtxt<'tcx>,
body: &Body<'_>,
w: &mut dyn io::Write,
options: PrettyPrintMirOptions,
) -> io::Result<()> {
write_mir_sig(tcx, body, w)?;
writeln!(w, "{{")?;
let mut scope_tree: FxHashMap<SourceScope, Vec<SourceScope>> = Default::default();
for (index, scope_data) in body.source_scopes.iter().enumerate() {
if let Some(parent) = scope_data.parent_scope {
scope_tree.entry(parent).or_default().push(SourceScope::new(index));
} else {
assert_eq!(index, OUTERMOST_SOURCE_SCOPE.index());
}
}
write_scope_tree(tcx, body, &scope_tree, w, OUTERMOST_SOURCE_SCOPE, 1, options)?;
writeln!(w)?;
if let Some(coverage_info_hi) = &body.coverage_info_hi {
write_coverage_info_hi(coverage_info_hi, w)?;
}
if let Some(function_coverage_info) = &body.function_coverage_info {
write_function_coverage_info(function_coverage_info, w)?;
}
Ok(())
}
fn write_coverage_info_hi(
coverage_info_hi: &coverage::CoverageInfoHi,
w: &mut dyn io::Write,
) -> io::Result<()> {
let coverage::CoverageInfoHi {
num_block_markers: _,
branch_spans,
mcdc_degraded_branch_spans,
mcdc_spans,
} = coverage_info_hi;
let mut did_print = false;
for coverage::BranchSpan { span, true_marker, false_marker } in branch_spans {
writeln!(
w,
"{INDENT}coverage branch {{ true: {true_marker:?}, false: {false_marker:?} }} => {span:?}",
)?;
did_print = true;
}
for coverage::MCDCBranchSpan { span, true_marker, false_marker, .. } in
mcdc_degraded_branch_spans
{
writeln!(
w,
"{INDENT}coverage branch {{ true: {true_marker:?}, false: {false_marker:?} }} => {span:?}",
)?;
did_print = true;
}
for (
coverage::MCDCDecisionSpan { span, end_markers, decision_depth, num_conditions: _ },
conditions,
) in mcdc_spans
{
let num_conditions = conditions.len();
writeln!(
w,
"{INDENT}coverage mcdc decision {{ num_conditions: {num_conditions:?}, end: {end_markers:?}, depth: {decision_depth:?} }} => {span:?}"
)?;
for coverage::MCDCBranchSpan { span, condition_info, true_marker, false_marker } in
conditions
{
writeln!(
w,
"{INDENT}coverage mcdc branch {{ condition_id: {:?}, true: {true_marker:?}, false: {false_marker:?} }} => {span:?}",
condition_info.condition_id
)?;
}
did_print = true;
}
if did_print {
writeln!(w)?;
}
Ok(())
}
fn write_function_coverage_info(
function_coverage_info: &coverage::FunctionCoverageInfo,
w: &mut dyn io::Write,
) -> io::Result<()> {
let coverage::FunctionCoverageInfo { body_span, expressions, mappings, .. } =
function_coverage_info;
writeln!(w, "{INDENT}coverage body span: {body_span:?}")?;
for (id, expression) in expressions.iter_enumerated() {
writeln!(w, "{INDENT}coverage {id:?} => {expression:?};")?;
}
for coverage::Mapping { kind, source_region } in mappings {
writeln!(w, "{INDENT}coverage {kind:?} => {source_region:?};")?;
}
writeln!(w)?;
Ok(())
}
fn write_mir_sig(tcx: TyCtxt<'_>, body: &Body<'_>, w: &mut dyn io::Write) -> io::Result<()> {
use rustc_hir::def::DefKind;
trace!("write_mir_sig: {:?}", body.source.instance);
let def_id = body.source.def_id();
let kind = tcx.def_kind(def_id);
let is_function = match kind {
DefKind::Fn | DefKind::AssocFn | DefKind::Ctor(..) | DefKind::SyntheticCoroutineBody => {
true
}
_ => tcx.is_closure_like(def_id),
};
match (kind, body.source.promoted) {
(_, Some(_)) => write!(w, "const ")?, (DefKind::Const | DefKind::AssocConst, _) => write!(w, "const ")?,
(DefKind::Static { safety: _, mutability: hir::Mutability::Not, nested: false }, _) => {
write!(w, "static ")?
}
(DefKind::Static { safety: _, mutability: hir::Mutability::Mut, nested: false }, _) => {
write!(w, "static mut ")?
}
(_, _) if is_function => write!(w, "fn ")?,
(DefKind::AnonConst | DefKind::InlineConst, _) => {} _ => bug!("Unexpected def kind {:?}", kind),
}
ty::print::with_forced_impl_filename_line! {
write!(w, "{}", tcx.def_path_str(def_id))?
}
if let Some(p) = body.source.promoted {
write!(w, "::{p:?}")?;
}
if body.source.promoted.is_none() && is_function {
write!(w, "(")?;
for (i, arg) in body.args_iter().enumerate() {
if i != 0 {
write!(w, ", ")?;
}
write!(w, "{:?}: {}", Place::from(arg), body.local_decls[arg].ty)?;
}
write!(w, ") -> {}", body.return_ty())?;
} else {
assert_eq!(body.arg_count, 0);
write!(w, ": {} =", body.return_ty())?;
}
if let Some(yield_ty) = body.yield_ty() {
writeln!(w)?;
writeln!(w, "yields {yield_ty}")?;
}
write!(w, " ")?;
Ok(())
}
fn write_user_type_annotations(
tcx: TyCtxt<'_>,
body: &Body<'_>,
w: &mut dyn io::Write,
) -> io::Result<()> {
if !body.user_type_annotations.is_empty() {
writeln!(w, "| User Type Annotations")?;
}
for (index, annotation) in body.user_type_annotations.iter_enumerated() {
writeln!(
w,
"| {:?}: user_ty: {}, span: {}, inferred_ty: {}",
index.index(),
annotation.user_ty,
tcx.sess.source_map().span_to_embeddable_string(annotation.span),
with_no_trimmed_paths!(format!("{}", annotation.inferred_ty)),
)?;
}
if !body.user_type_annotations.is_empty() {
writeln!(w, "|")?;
}
Ok(())
}
pub fn dump_mir_def_ids(tcx: TyCtxt<'_>, single: Option<DefId>) -> Vec<DefId> {
if let Some(i) = single {
vec![i]
} else {
tcx.mir_keys(()).iter().map(|def_id| def_id.to_def_id()).collect()
}
}
fn write_basic_block<'tcx, F>(
tcx: TyCtxt<'tcx>,
block: BasicBlock,
body: &Body<'tcx>,
extra_data: &mut F,
w: &mut dyn io::Write,
options: PrettyPrintMirOptions,
) -> io::Result<()>
where
F: FnMut(PassWhere, &mut dyn io::Write) -> io::Result<()>,
{
let data = &body[block];
let cleanup_text = if data.is_cleanup { " (cleanup)" } else { "" };
writeln!(w, "{INDENT}{block:?}{cleanup_text}: {{")?;
let mut current_location = Location { block, statement_index: 0 };
for statement in &data.statements {
extra_data(PassWhere::BeforeLocation(current_location), w)?;
let indented_body = format!("{INDENT}{INDENT}{statement:?};");
if options.include_extra_comments {
writeln!(
w,
"{:A$} // {}{}",
indented_body,
if tcx.sess.verbose_internals() {
format!("{current_location:?}: ")
} else {
String::new()
},
comment(tcx, statement.source_info),
A = ALIGN,
)?;
} else {
writeln!(w, "{indented_body}")?;
}
write_extra(
tcx,
w,
|visitor| {
visitor.visit_statement(statement, current_location);
},
options,
)?;
extra_data(PassWhere::AfterLocation(current_location), w)?;
current_location.statement_index += 1;
}
extra_data(PassWhere::BeforeLocation(current_location), w)?;
if data.terminator.is_some() {
let indented_terminator = format!("{0}{0}{1:?};", INDENT, data.terminator().kind);
if options.include_extra_comments {
writeln!(
w,
"{:A$} // {}{}",
indented_terminator,
if tcx.sess.verbose_internals() {
format!("{current_location:?}: ")
} else {
String::new()
},
comment(tcx, data.terminator().source_info),
A = ALIGN,
)?;
} else {
writeln!(w, "{indented_terminator}")?;
}
write_extra(
tcx,
w,
|visitor| {
visitor.visit_terminator(data.terminator(), current_location);
},
options,
)?;
}
extra_data(PassWhere::AfterLocation(current_location), w)?;
extra_data(PassWhere::AfterTerminator(block), w)?;
writeln!(w, "{INDENT}}}")
}
impl Debug for Statement<'_> {
fn fmt(&self, fmt: &mut Formatter<'_>) -> fmt::Result {
use self::StatementKind::*;
match self.kind {
Assign(box (ref place, ref rv)) => write!(fmt, "{place:?} = {rv:?}"),
FakeRead(box (ref cause, ref place)) => {
write!(fmt, "FakeRead({cause:?}, {place:?})")
}
Retag(ref kind, ref place) => write!(
fmt,
"Retag({}{:?})",
match kind {
RetagKind::FnEntry => "[fn entry] ",
RetagKind::TwoPhase => "[2phase] ",
RetagKind::Raw => "[raw] ",
RetagKind::Default => "",
},
place,
),
StorageLive(ref place) => write!(fmt, "StorageLive({place:?})"),
StorageDead(ref place) => write!(fmt, "StorageDead({place:?})"),
SetDiscriminant { ref place, variant_index } => {
write!(fmt, "discriminant({place:?}) = {variant_index:?}")
}
Deinit(ref place) => write!(fmt, "Deinit({place:?})"),
PlaceMention(ref place) => {
write!(fmt, "PlaceMention({place:?})")
}
AscribeUserType(box (ref place, ref c_ty), ref variance) => {
write!(fmt, "AscribeUserType({place:?}, {variance:?}, {c_ty:?})")
}
Coverage(ref kind) => write!(fmt, "Coverage::{kind:?}"),
Intrinsic(box ref intrinsic) => write!(fmt, "{intrinsic}"),
ConstEvalCounter => write!(fmt, "ConstEvalCounter"),
Nop => write!(fmt, "nop"),
}
}
}
impl Display for NonDivergingIntrinsic<'_> {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
match self {
Self::Assume(op) => write!(f, "assume({op:?})"),
Self::CopyNonOverlapping(CopyNonOverlapping { src, dst, count }) => {
write!(f, "copy_nonoverlapping(dst = {dst:?}, src = {src:?}, count = {count:?})")
}
}
}
}
impl<'tcx> Debug for TerminatorKind<'tcx> {
fn fmt(&self, fmt: &mut Formatter<'_>) -> fmt::Result {
self.fmt_head(fmt)?;
let successor_count = self.successors().count();
let labels = self.fmt_successor_labels();
assert_eq!(successor_count, labels.len());
let show_unwind = !matches!(self.unwind(), None | Some(UnwindAction::Cleanup(_)));
let fmt_unwind = |fmt: &mut Formatter<'_>| -> fmt::Result {
write!(fmt, "unwind ")?;
match self.unwind() {
None | Some(UnwindAction::Cleanup(_)) => unreachable!(),
Some(UnwindAction::Continue) => write!(fmt, "continue"),
Some(UnwindAction::Unreachable) => write!(fmt, "unreachable"),
Some(UnwindAction::Terminate(reason)) => {
write!(fmt, "terminate({})", reason.as_short_str())
}
}
};
match (successor_count, show_unwind) {
(0, false) => Ok(()),
(0, true) => {
write!(fmt, " -> ")?;
fmt_unwind(fmt)
}
(1, false) => write!(fmt, " -> {:?}", self.successors().next().unwrap()),
_ => {
write!(fmt, " -> [")?;
for (i, target) in self.successors().enumerate() {
if i > 0 {
write!(fmt, ", ")?;
}
write!(fmt, "{}: {:?}", labels[i], target)?;
}
if show_unwind {
write!(fmt, ", ")?;
fmt_unwind(fmt)?;
}
write!(fmt, "]")
}
}
}
}
impl<'tcx> TerminatorKind<'tcx> {
pub fn fmt_head<W: fmt::Write>(&self, fmt: &mut W) -> fmt::Result {
use self::TerminatorKind::*;
match self {
Goto { .. } => write!(fmt, "goto"),
SwitchInt { discr, .. } => write!(fmt, "switchInt({discr:?})"),
Return => write!(fmt, "return"),
CoroutineDrop => write!(fmt, "coroutine_drop"),
UnwindResume => write!(fmt, "resume"),
UnwindTerminate(reason) => {
write!(fmt, "terminate({})", reason.as_short_str())
}
Yield { value, resume_arg, .. } => write!(fmt, "{resume_arg:?} = yield({value:?})"),
Unreachable => write!(fmt, "unreachable"),
Drop { place, .. } => write!(fmt, "drop({place:?})"),
Call { func, args, destination, .. } => {
write!(fmt, "{destination:?} = ")?;
write!(fmt, "{func:?}(")?;
for (index, arg) in args.iter().map(|a| &a.node).enumerate() {
if index > 0 {
write!(fmt, ", ")?;
}
write!(fmt, "{arg:?}")?;
}
write!(fmt, ")")
}
TailCall { func, args, .. } => {
write!(fmt, "tailcall {func:?}(")?;
for (index, arg) in args.iter().enumerate() {
if index > 0 {
write!(fmt, ", ")?;
}
write!(fmt, "{:?}", arg)?;
}
write!(fmt, ")")
}
Assert { cond, expected, msg, .. } => {
write!(fmt, "assert(")?;
if !expected {
write!(fmt, "!")?;
}
write!(fmt, "{cond:?}, ")?;
msg.fmt_assert_args(fmt)?;
write!(fmt, ")")
}
FalseEdge { .. } => write!(fmt, "falseEdge"),
FalseUnwind { .. } => write!(fmt, "falseUnwind"),
InlineAsm { template, ref operands, options, .. } => {
write!(fmt, "asm!(\"{}\"", InlineAsmTemplatePiece::to_string(template))?;
for op in operands {
write!(fmt, ", ")?;
let print_late = |&late| if late { "late" } else { "" };
match op {
InlineAsmOperand::In { reg, value } => {
write!(fmt, "in({reg}) {value:?}")?;
}
InlineAsmOperand::Out { reg, late, place: Some(place) } => {
write!(fmt, "{}out({}) {:?}", print_late(late), reg, place)?;
}
InlineAsmOperand::Out { reg, late, place: None } => {
write!(fmt, "{}out({}) _", print_late(late), reg)?;
}
InlineAsmOperand::InOut {
reg,
late,
in_value,
out_place: Some(out_place),
} => {
write!(
fmt,
"in{}out({}) {:?} => {:?}",
print_late(late),
reg,
in_value,
out_place
)?;
}
InlineAsmOperand::InOut { reg, late, in_value, out_place: None } => {
write!(fmt, "in{}out({}) {:?} => _", print_late(late), reg, in_value)?;
}
InlineAsmOperand::Const { value } => {
write!(fmt, "const {value:?}")?;
}
InlineAsmOperand::SymFn { value } => {
write!(fmt, "sym_fn {value:?}")?;
}
InlineAsmOperand::SymStatic { def_id } => {
write!(fmt, "sym_static {def_id:?}")?;
}
InlineAsmOperand::Label { target_index } => {
write!(fmt, "label {target_index}")?;
}
}
}
write!(fmt, ", options({options:?}))")
}
}
}
pub fn fmt_successor_labels(&self) -> Vec<Cow<'static, str>> {
use self::TerminatorKind::*;
match *self {
Return
| TailCall { .. }
| UnwindResume
| UnwindTerminate(_)
| Unreachable
| CoroutineDrop => vec![],
Goto { .. } => vec!["".into()],
SwitchInt { ref targets, .. } => targets
.values
.iter()
.map(|&u| Cow::Owned(u.to_string()))
.chain(iter::once("otherwise".into()))
.collect(),
Call { target: Some(_), unwind: UnwindAction::Cleanup(_), .. } => {
vec!["return".into(), "unwind".into()]
}
Call { target: Some(_), unwind: _, .. } => vec!["return".into()],
Call { target: None, unwind: UnwindAction::Cleanup(_), .. } => vec!["unwind".into()],
Call { target: None, unwind: _, .. } => vec![],
Yield { drop: Some(_), .. } => vec!["resume".into(), "drop".into()],
Yield { drop: None, .. } => vec!["resume".into()],
Drop { unwind: UnwindAction::Cleanup(_), .. } => vec!["return".into(), "unwind".into()],
Drop { unwind: _, .. } => vec!["return".into()],
Assert { unwind: UnwindAction::Cleanup(_), .. } => {
vec!["success".into(), "unwind".into()]
}
Assert { unwind: _, .. } => vec!["success".into()],
FalseEdge { .. } => vec!["real".into(), "imaginary".into()],
FalseUnwind { unwind: UnwindAction::Cleanup(_), .. } => {
vec!["real".into(), "unwind".into()]
}
FalseUnwind { unwind: _, .. } => vec!["real".into()],
InlineAsm { asm_macro, options, ref targets, unwind, .. } => {
let mut vec = Vec::with_capacity(targets.len() + 1);
if !asm_macro.diverges(options) {
vec.push("return".into());
}
vec.resize(targets.len(), "label".into());
if let UnwindAction::Cleanup(_) = unwind {
vec.push("unwind".into());
}
vec
}
}
}
}
impl<'tcx> Debug for Rvalue<'tcx> {
fn fmt(&self, fmt: &mut Formatter<'_>) -> fmt::Result {
use self::Rvalue::*;
match *self {
Use(ref place) => write!(fmt, "{place:?}"),
Repeat(ref a, b) => {
write!(fmt, "[{a:?}; ")?;
pretty_print_const(b, fmt, false)?;
write!(fmt, "]")
}
Len(ref a) => write!(fmt, "Len({a:?})"),
Cast(ref kind, ref place, ref ty) => {
with_no_trimmed_paths!(write!(fmt, "{place:?} as {ty} ({kind:?})"))
}
BinaryOp(ref op, box (ref a, ref b)) => write!(fmt, "{op:?}({a:?}, {b:?})"),
UnaryOp(ref op, ref a) => write!(fmt, "{op:?}({a:?})"),
Discriminant(ref place) => write!(fmt, "discriminant({place:?})"),
NullaryOp(ref op, ref t) => {
let t = with_no_trimmed_paths!(format!("{}", t));
match op {
NullOp::SizeOf => write!(fmt, "SizeOf({t})"),
NullOp::AlignOf => write!(fmt, "AlignOf({t})"),
NullOp::OffsetOf(fields) => write!(fmt, "OffsetOf({t}, {fields:?})"),
NullOp::UbChecks => write!(fmt, "UbChecks()"),
}
}
ThreadLocalRef(did) => ty::tls::with(|tcx| {
let muta = tcx.static_mutability(did).unwrap().prefix_str();
write!(fmt, "&/*tls*/ {}{}", muta, tcx.def_path_str(did))
}),
Ref(region, borrow_kind, ref place) => {
let kind_str = match borrow_kind {
BorrowKind::Shared => "",
BorrowKind::Fake(FakeBorrowKind::Deep) => "fake ",
BorrowKind::Fake(FakeBorrowKind::Shallow) => "fake shallow ",
BorrowKind::Mut { .. } => "mut ",
};
let print_region = ty::tls::with(|tcx| {
tcx.sess.verbose_internals() || tcx.sess.opts.unstable_opts.identify_regions
});
let region = if print_region {
let mut region = region.to_string();
if !region.is_empty() {
region.push(' ');
}
region
} else {
String::new()
};
write!(fmt, "&{region}{kind_str}{place:?}")
}
CopyForDeref(ref place) => write!(fmt, "deref_copy {place:#?}"),
RawPtr(mutability, ref place) => {
write!(fmt, "&raw {mut_str} {place:?}", mut_str = mutability.ptr_str())
}
Aggregate(ref kind, ref places) => {
let fmt_tuple = |fmt: &mut Formatter<'_>, name: &str| {
let mut tuple_fmt = fmt.debug_tuple(name);
for place in places {
tuple_fmt.field(place);
}
tuple_fmt.finish()
};
match **kind {
AggregateKind::Array(_) => write!(fmt, "{places:?}"),
AggregateKind::Tuple => {
if places.is_empty() {
write!(fmt, "()")
} else {
fmt_tuple(fmt, "")
}
}
AggregateKind::Adt(adt_did, variant, args, _user_ty, _) => {
ty::tls::with(|tcx| {
let variant_def = &tcx.adt_def(adt_did).variant(variant);
let args = tcx.lift(args).expect("could not lift for printing");
let name = FmtPrinter::print_string(tcx, Namespace::ValueNS, |cx| {
cx.print_def_path(variant_def.def_id, args)
})?;
match variant_def.ctor_kind() {
Some(CtorKind::Const) => fmt.write_str(&name),
Some(CtorKind::Fn) => fmt_tuple(fmt, &name),
None => {
let mut struct_fmt = fmt.debug_struct(&name);
for (field, place) in iter::zip(&variant_def.fields, places) {
struct_fmt.field(field.name.as_str(), place);
}
struct_fmt.finish()
}
}
})
}
AggregateKind::Closure(def_id, args)
| AggregateKind::CoroutineClosure(def_id, args) => ty::tls::with(|tcx| {
let name = if tcx.sess.opts.unstable_opts.span_free_formats {
let args = tcx.lift(args).unwrap();
format!("{{closure@{}}}", tcx.def_path_str_with_args(def_id, args),)
} else {
let span = tcx.def_span(def_id);
format!(
"{{closure@{}}}",
tcx.sess.source_map().span_to_diagnostic_string(span)
)
};
let mut struct_fmt = fmt.debug_struct(&name);
if let Some(def_id) = def_id.as_local()
&& let Some(upvars) = tcx.upvars_mentioned(def_id)
{
for (&var_id, place) in iter::zip(upvars.keys(), places) {
let var_name = tcx.hir().name(var_id);
struct_fmt.field(var_name.as_str(), place);
}
} else {
for (index, place) in places.iter().enumerate() {
struct_fmt.field(&format!("{index}"), place);
}
}
struct_fmt.finish()
}),
AggregateKind::Coroutine(def_id, _) => ty::tls::with(|tcx| {
let name = format!("{{coroutine@{:?}}}", tcx.def_span(def_id));
let mut struct_fmt = fmt.debug_struct(&name);
if let Some(def_id) = def_id.as_local()
&& let Some(upvars) = tcx.upvars_mentioned(def_id)
{
for (&var_id, place) in iter::zip(upvars.keys(), places) {
let var_name = tcx.hir().name(var_id);
struct_fmt.field(var_name.as_str(), place);
}
} else {
for (index, place) in places.iter().enumerate() {
struct_fmt.field(&format!("{index}"), place);
}
}
struct_fmt.finish()
}),
AggregateKind::RawPtr(pointee_ty, mutability) => {
let kind_str = match mutability {
Mutability::Mut => "mut",
Mutability::Not => "const",
};
with_no_trimmed_paths!(write!(fmt, "*{kind_str} {pointee_ty} from "))?;
fmt_tuple(fmt, "")
}
}
}
ShallowInitBox(ref place, ref ty) => {
with_no_trimmed_paths!(write!(fmt, "ShallowInitBox({place:?}, {ty})"))
}
}
}
}
impl<'tcx> Debug for Operand<'tcx> {
fn fmt(&self, fmt: &mut Formatter<'_>) -> fmt::Result {
use self::Operand::*;
match *self {
Constant(ref a) => write!(fmt, "{a:?}"),
Copy(ref place) => write!(fmt, "copy {place:?}"),
Move(ref place) => write!(fmt, "move {place:?}"),
}
}
}
impl<'tcx> Debug for ConstOperand<'tcx> {
fn fmt(&self, fmt: &mut Formatter<'_>) -> fmt::Result {
write!(fmt, "{self}")
}
}
impl<'tcx> Display for ConstOperand<'tcx> {
fn fmt(&self, fmt: &mut Formatter<'_>) -> fmt::Result {
match self.ty().kind() {
ty::FnDef(..) => {}
_ => write!(fmt, "const ")?,
}
Display::fmt(&self.const_, fmt)
}
}
impl Debug for Place<'_> {
fn fmt(&self, fmt: &mut Formatter<'_>) -> fmt::Result {
self.as_ref().fmt(fmt)
}
}
impl Debug for PlaceRef<'_> {
fn fmt(&self, fmt: &mut Formatter<'_>) -> fmt::Result {
pre_fmt_projection(self.projection, fmt)?;
write!(fmt, "{:?}", self.local)?;
post_fmt_projection(self.projection, fmt)
}
}
fn pre_fmt_projection(projection: &[PlaceElem<'_>], fmt: &mut Formatter<'_>) -> fmt::Result {
for &elem in projection.iter().rev() {
match elem {
ProjectionElem::OpaqueCast(_)
| ProjectionElem::Subtype(_)
| ProjectionElem::Downcast(_, _)
| ProjectionElem::Field(_, _) => {
write!(fmt, "(")?;
}
ProjectionElem::Deref => {
write!(fmt, "(*")?;
}
ProjectionElem::Index(_)
| ProjectionElem::ConstantIndex { .. }
| ProjectionElem::Subslice { .. } => {}
}
}
Ok(())
}
fn post_fmt_projection(projection: &[PlaceElem<'_>], fmt: &mut Formatter<'_>) -> fmt::Result {
for &elem in projection.iter() {
match elem {
ProjectionElem::OpaqueCast(ty) => {
write!(fmt, " as {ty})")?;
}
ProjectionElem::Subtype(ty) => {
write!(fmt, " as subtype {ty})")?;
}
ProjectionElem::Downcast(Some(name), _index) => {
write!(fmt, " as {name})")?;
}
ProjectionElem::Downcast(None, index) => {
write!(fmt, " as variant#{index:?})")?;
}
ProjectionElem::Deref => {
write!(fmt, ")")?;
}
ProjectionElem::Field(field, ty) => {
with_no_trimmed_paths!(write!(fmt, ".{:?}: {})", field.index(), ty)?);
}
ProjectionElem::Index(ref index) => {
write!(fmt, "[{index:?}]")?;
}
ProjectionElem::ConstantIndex { offset, min_length, from_end: false } => {
write!(fmt, "[{offset:?} of {min_length:?}]")?;
}
ProjectionElem::ConstantIndex { offset, min_length, from_end: true } => {
write!(fmt, "[-{offset:?} of {min_length:?}]")?;
}
ProjectionElem::Subslice { from, to: 0, from_end: true } => {
write!(fmt, "[{from:?}:]")?;
}
ProjectionElem::Subslice { from: 0, to, from_end: true } => {
write!(fmt, "[:-{to:?}]")?;
}
ProjectionElem::Subslice { from, to, from_end: true } => {
write!(fmt, "[{from:?}:-{to:?}]")?;
}
ProjectionElem::Subslice { from, to, from_end: false } => {
write!(fmt, "[{from:?}..{to:?}]")?;
}
}
}
Ok(())
}
fn write_extra<'tcx, F>(
tcx: TyCtxt<'tcx>,
write: &mut dyn io::Write,
mut visit_op: F,
options: PrettyPrintMirOptions,
) -> io::Result<()>
where
F: FnMut(&mut ExtraComments<'tcx>),
{
if options.include_extra_comments {
let mut extra_comments = ExtraComments { tcx, comments: vec![] };
visit_op(&mut extra_comments);
for comment in extra_comments.comments {
writeln!(write, "{:A$} // {}", "", comment, A = ALIGN)?;
}
}
Ok(())
}
struct ExtraComments<'tcx> {
tcx: TyCtxt<'tcx>,
comments: Vec<String>,
}
impl<'tcx> ExtraComments<'tcx> {
fn push(&mut self, lines: &str) {
for line in lines.split('\n') {
self.comments.push(line.to_string());
}
}
}
fn use_verbose(ty: Ty<'_>, fn_def: bool) -> bool {
match *ty.kind() {
ty::Int(_) | ty::Uint(_) | ty::Bool | ty::Char | ty::Float(_) => false,
ty::Tuple(g_args) if g_args.is_empty() => false,
ty::Tuple(g_args) => g_args.iter().any(|g_arg| use_verbose(g_arg, fn_def)),
ty::Array(ty, _) => use_verbose(ty, fn_def),
ty::FnDef(..) => fn_def,
_ => true,
}
}
impl<'tcx> Visitor<'tcx> for ExtraComments<'tcx> {
fn visit_const_operand(&mut self, constant: &ConstOperand<'tcx>, _location: Location) {
let ConstOperand { span, user_ty, const_ } = constant;
if use_verbose(const_.ty(), true) {
self.push("mir::ConstOperand");
self.push(&format!(
"+ span: {}",
self.tcx.sess.source_map().span_to_embeddable_string(*span)
));
if let Some(user_ty) = user_ty {
self.push(&format!("+ user_ty: {user_ty:?}"));
}
let fmt_val = |val: ConstValue<'tcx>, ty: Ty<'tcx>| {
let tcx = self.tcx;
rustc_data_structures::make_display(move |fmt| {
pretty_print_const_value_tcx(tcx, val, ty, fmt)
})
};
let fmt_valtree = |valtree: &ty::ValTree<'tcx>| match valtree {
ty::ValTree::Leaf(leaf) => format!("Leaf({leaf:?})"),
ty::ValTree::Branch(_) => "Branch(..)".to_string(),
};
let val = match const_ {
Const::Ty(_, ct) => match ct.kind() {
ty::ConstKind::Param(p) => format!("ty::Param({p})"),
ty::ConstKind::Unevaluated(uv) => {
format!("ty::Unevaluated({}, {:?})", self.tcx.def_path_str(uv.def), uv.args,)
}
ty::ConstKind::Value(_, val) => format!("ty::Valtree({})", fmt_valtree(&val)),
ty::ConstKind::Error(_) => "Error".to_string(),
ty::ConstKind::Placeholder(_)
| ty::ConstKind::Infer(_)
| ty::ConstKind::Expr(_)
| ty::ConstKind::Bound(..) => bug!("unexpected MIR constant: {:?}", const_),
},
Const::Unevaluated(uv, _) => {
format!(
"Unevaluated({}, {:?}, {:?})",
self.tcx.def_path_str(uv.def),
uv.args,
uv.promoted,
)
}
Const::Val(val, ty) => format!("Value({})", fmt_val(*val, *ty)),
};
self.push(&format!("+ const_: Const {{ ty: {}, val: {} }}", const_.ty(), val));
}
}
fn visit_rvalue(&mut self, rvalue: &Rvalue<'tcx>, location: Location) {
self.super_rvalue(rvalue, location);
if let Rvalue::Aggregate(kind, _) = rvalue {
match **kind {
AggregateKind::Closure(def_id, args) => {
self.push("closure");
self.push(&format!("+ def_id: {def_id:?}"));
self.push(&format!("+ args: {args:#?}"));
}
AggregateKind::Coroutine(def_id, args) => {
self.push("coroutine");
self.push(&format!("+ def_id: {def_id:?}"));
self.push(&format!("+ args: {args:#?}"));
self.push(&format!("+ kind: {:?}", self.tcx.coroutine_kind(def_id)));
}
AggregateKind::Adt(_, _, _, Some(user_ty), _) => {
self.push("adt");
self.push(&format!("+ user_ty: {user_ty:?}"));
}
_ => {}
}
}
}
}
fn comment(tcx: TyCtxt<'_>, SourceInfo { span, scope }: SourceInfo) -> String {
let location = tcx.sess.source_map().span_to_embeddable_string(span);
format!("scope {} at {}", scope.index(), location,)
}
pub fn write_allocations<'tcx>(
tcx: TyCtxt<'tcx>,
body: &Body<'_>,
w: &mut dyn io::Write,
) -> io::Result<()> {
fn alloc_ids_from_alloc(
alloc: ConstAllocation<'_>,
) -> impl DoubleEndedIterator<Item = AllocId> + '_ {
alloc.inner().provenance().ptrs().values().map(|p| p.alloc_id())
}
fn alloc_id_from_const_val(val: ConstValue<'_>) -> Option<AllocId> {
match val {
ConstValue::Scalar(interpret::Scalar::Ptr(ptr, _)) => Some(ptr.provenance.alloc_id()),
ConstValue::Scalar(interpret::Scalar::Int { .. }) => None,
ConstValue::ZeroSized => None,
ConstValue::Slice { .. } => {
None
}
ConstValue::Indirect { alloc_id, .. } => {
Some(alloc_id)
}
}
}
struct CollectAllocIds(BTreeSet<AllocId>);
impl<'tcx> Visitor<'tcx> for CollectAllocIds {
fn visit_const_operand(&mut self, c: &ConstOperand<'tcx>, _: Location) {
match c.const_ {
Const::Ty(_, _) | Const::Unevaluated(..) => {}
Const::Val(val, _) => {
if let Some(id) = alloc_id_from_const_val(val) {
self.0.insert(id);
}
}
}
}
}
let mut visitor = CollectAllocIds(Default::default());
visitor.visit_body(body);
let mut seen = visitor.0;
let mut todo: Vec<_> = seen.iter().copied().collect();
while let Some(id) = todo.pop() {
let mut write_allocation_track_relocs =
|w: &mut dyn io::Write, alloc: ConstAllocation<'tcx>| -> io::Result<()> {
for id in alloc_ids_from_alloc(alloc).rev() {
if seen.insert(id) {
todo.push(id);
}
}
write!(w, "{}", display_allocation(tcx, alloc.inner()))
};
write!(w, "\n{id:?}")?;
match tcx.try_get_global_alloc(id) {
None => write!(w, " (deallocated)")?,
Some(GlobalAlloc::Function { instance, .. }) => write!(w, " (fn: {instance})")?,
Some(GlobalAlloc::VTable(ty, dyn_ty)) => {
write!(w, " (vtable: impl {dyn_ty} for {ty})")?
}
Some(GlobalAlloc::Static(did)) if !tcx.is_foreign_item(did) => {
match tcx.eval_static_initializer(did) {
Ok(alloc) => {
write!(w, " (static: {}, ", tcx.def_path_str(did))?;
write_allocation_track_relocs(w, alloc)?;
}
Err(_) => write!(
w,
" (static: {}, error during initializer evaluation)",
tcx.def_path_str(did)
)?,
}
}
Some(GlobalAlloc::Static(did)) => {
write!(w, " (extern static: {})", tcx.def_path_str(did))?
}
Some(GlobalAlloc::Memory(alloc)) => {
write!(w, " (")?;
write_allocation_track_relocs(w, alloc)?
}
}
writeln!(w)?;
}
Ok(())
}
pub fn display_allocation<'a, 'tcx, Prov: Provenance, Extra, Bytes: AllocBytes>(
tcx: TyCtxt<'tcx>,
alloc: &'a Allocation<Prov, Extra, Bytes>,
) -> RenderAllocation<'a, 'tcx, Prov, Extra, Bytes> {
RenderAllocation { tcx, alloc }
}
#[doc(hidden)]
pub struct RenderAllocation<'a, 'tcx, Prov: Provenance, Extra, Bytes: AllocBytes> {
tcx: TyCtxt<'tcx>,
alloc: &'a Allocation<Prov, Extra, Bytes>,
}
impl<'a, 'tcx, Prov: Provenance, Extra, Bytes: AllocBytes> std::fmt::Display
for RenderAllocation<'a, 'tcx, Prov, Extra, Bytes>
{
fn fmt(&self, w: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
let RenderAllocation { tcx, alloc } = *self;
write!(w, "size: {}, align: {})", alloc.size().bytes(), alloc.align.bytes())?;
if alloc.size() == Size::ZERO {
return write!(w, " {{}}");
}
if tcx.sess.opts.unstable_opts.dump_mir_exclude_alloc_bytes {
return write!(w, " {{ .. }}");
}
writeln!(w, " {{")?;
write_allocation_bytes(tcx, alloc, w, " ")?;
write!(w, "}}")?;
Ok(())
}
}
fn write_allocation_endline(w: &mut dyn std::fmt::Write, ascii: &str) -> std::fmt::Result {
for _ in 0..(BYTES_PER_LINE - ascii.chars().count()) {
write!(w, " ")?;
}
writeln!(w, " │ {ascii}")
}
const BYTES_PER_LINE: usize = 16;
fn write_allocation_newline(
w: &mut dyn std::fmt::Write,
mut line_start: Size,
ascii: &str,
pos_width: usize,
prefix: &str,
) -> Result<Size, std::fmt::Error> {
write_allocation_endline(w, ascii)?;
line_start += Size::from_bytes(BYTES_PER_LINE);
write!(w, "{}0x{:02$x} │ ", prefix, line_start.bytes(), pos_width)?;
Ok(line_start)
}
pub fn write_allocation_bytes<'tcx, Prov: Provenance, Extra, Bytes: AllocBytes>(
tcx: TyCtxt<'tcx>,
alloc: &Allocation<Prov, Extra, Bytes>,
w: &mut dyn std::fmt::Write,
prefix: &str,
) -> std::fmt::Result {
let num_lines = alloc.size().bytes_usize().saturating_sub(BYTES_PER_LINE);
let pos_width = hex_number_length(alloc.size().bytes());
if num_lines > 0 {
write!(w, "{}0x{:02$x} │ ", prefix, 0, pos_width)?;
} else {
write!(w, "{prefix}")?;
}
let mut i = Size::ZERO;
let mut line_start = Size::ZERO;
let ptr_size = tcx.data_layout.pointer_size;
let mut ascii = String::new();
let oversized_ptr = |target: &mut String, width| {
if target.len() > width {
write!(target, " ({} ptr bytes)", ptr_size.bytes()).unwrap();
}
};
while i < alloc.size() {
if i != line_start {
write!(w, " ")?;
}
if let Some(prov) = alloc.provenance().get_ptr(i) {
assert!(alloc.init_mask().is_range_initialized(alloc_range(i, ptr_size)).is_ok());
let j = i.bytes_usize();
let offset = alloc
.inspect_with_uninit_and_ptr_outside_interpreter(j..j + ptr_size.bytes_usize());
let offset = read_target_uint(tcx.data_layout.endian, offset).unwrap();
let offset = Size::from_bytes(offset);
let provenance_width = |bytes| bytes * 3;
let ptr = Pointer::new(prov, offset);
let mut target = format!("{ptr:?}");
if target.len() > provenance_width(ptr_size.bytes_usize() - 1) {
target = format!("{ptr:#?}");
}
if ((i - line_start) + ptr_size).bytes_usize() > BYTES_PER_LINE {
let remainder = Size::from_bytes(BYTES_PER_LINE) - (i - line_start);
let overflow = ptr_size - remainder;
let remainder_width = provenance_width(remainder.bytes_usize()) - 2;
let overflow_width = provenance_width(overflow.bytes_usize() - 1) + 1;
ascii.push('╾'); for _ in 1..remainder.bytes() {
ascii.push('─'); }
if overflow_width > remainder_width && overflow_width >= target.len() {
write!(w, "╾{0:─^1$}", "", remainder_width)?;
line_start =
write_allocation_newline(w, line_start, &ascii, pos_width, prefix)?;
ascii.clear();
write!(w, "{target:─^overflow_width$}╼")?;
} else {
oversized_ptr(&mut target, remainder_width);
write!(w, "╾{target:─^remainder_width$}")?;
line_start =
write_allocation_newline(w, line_start, &ascii, pos_width, prefix)?;
write!(w, "{0:─^1$}╼", "", overflow_width)?;
ascii.clear();
}
for _ in 0..overflow.bytes() - 1 {
ascii.push('─');
}
ascii.push('╼'); i += ptr_size;
continue;
} else {
let provenance_width = provenance_width(ptr_size.bytes_usize() - 1);
oversized_ptr(&mut target, provenance_width);
ascii.push('╾');
write!(w, "╾{target:─^provenance_width$}╼")?;
for _ in 0..ptr_size.bytes() - 2 {
ascii.push('─');
}
ascii.push('╼');
i += ptr_size;
}
} else if let Some(prov) = alloc.provenance().get(i, &tcx) {
assert!(
alloc.init_mask().is_range_initialized(alloc_range(i, Size::from_bytes(1))).is_ok()
);
ascii.push('━'); let j = i.bytes_usize();
let c = alloc.inspect_with_uninit_and_ptr_outside_interpreter(j..j + 1)[0];
write!(w, "╾{c:02x}{prov:#?} (1 ptr byte)╼")?;
i += Size::from_bytes(1);
} else if alloc
.init_mask()
.is_range_initialized(alloc_range(i, Size::from_bytes(1)))
.is_ok()
{
let j = i.bytes_usize();
let c = alloc.inspect_with_uninit_and_ptr_outside_interpreter(j..j + 1)[0];
write!(w, "{c:02x}")?;
if c.is_ascii_control() || c >= 0x80 {
ascii.push('.');
} else {
ascii.push(char::from(c));
}
i += Size::from_bytes(1);
} else {
write!(w, "__")?;
ascii.push('░');
i += Size::from_bytes(1);
}
if i == line_start + Size::from_bytes(BYTES_PER_LINE) && i != alloc.size() {
line_start = write_allocation_newline(w, line_start, &ascii, pos_width, prefix)?;
ascii.clear();
}
}
write_allocation_endline(w, &ascii)?;
Ok(())
}
fn pretty_print_byte_str(fmt: &mut Formatter<'_>, byte_str: &[u8]) -> fmt::Result {
write!(fmt, "b\"{}\"", byte_str.escape_ascii())
}
fn comma_sep<'tcx>(
tcx: TyCtxt<'tcx>,
fmt: &mut Formatter<'_>,
elems: Vec<(ConstValue<'tcx>, Ty<'tcx>)>,
) -> fmt::Result {
let mut first = true;
for (ct, ty) in elems {
if !first {
fmt.write_str(", ")?;
}
pretty_print_const_value_tcx(tcx, ct, ty, fmt)?;
first = false;
}
Ok(())
}
fn pretty_print_const_value_tcx<'tcx>(
tcx: TyCtxt<'tcx>,
ct: ConstValue<'tcx>,
ty: Ty<'tcx>,
fmt: &mut Formatter<'_>,
) -> fmt::Result {
use crate::ty::print::PrettyPrinter;
if tcx.sess.verbose_internals() {
fmt.write_str(&format!("ConstValue({ct:?}: {ty})"))?;
return Ok(());
}
let u8_type = tcx.types.u8;
match (ct, ty.kind()) {
(_, ty::Ref(_, inner_ty, _)) if matches!(inner_ty.kind(), ty::Str) => {
if let Some(data) = ct.try_get_slice_bytes_for_diagnostics(tcx) {
fmt.write_str(&format!("{:?}", String::from_utf8_lossy(data)))?;
return Ok(());
}
}
(_, ty::Ref(_, inner_ty, _)) if matches!(inner_ty.kind(), ty::Slice(t) if *t == u8_type) => {
if let Some(data) = ct.try_get_slice_bytes_for_diagnostics(tcx) {
pretty_print_byte_str(fmt, data)?;
return Ok(());
}
}
(ConstValue::Indirect { alloc_id, offset }, ty::Array(t, n)) if *t == u8_type => {
let n = n.try_to_target_usize(tcx).unwrap();
let alloc = tcx.global_alloc(alloc_id).unwrap_memory();
let range = AllocRange { start: offset, size: Size::from_bytes(n) };
let byte_str = alloc.inner().get_bytes_strip_provenance(&tcx, range).unwrap();
fmt.write_str("*")?;
pretty_print_byte_str(fmt, byte_str)?;
return Ok(());
}
(_, ty::Array(..) | ty::Tuple(..) | ty::Adt(..)) if !ty.has_non_region_param() => {
let ct = tcx.lift(ct).unwrap();
let ty = tcx.lift(ty).unwrap();
if let Some(contents) = tcx.try_destructure_mir_constant_for_user_output(ct, ty) {
let fields: Vec<(ConstValue<'_>, Ty<'_>)> = contents.fields.to_vec();
match *ty.kind() {
ty::Array(..) => {
fmt.write_str("[")?;
comma_sep(tcx, fmt, fields)?;
fmt.write_str("]")?;
}
ty::Tuple(..) => {
fmt.write_str("(")?;
comma_sep(tcx, fmt, fields)?;
if contents.fields.len() == 1 {
fmt.write_str(",")?;
}
fmt.write_str(")")?;
}
ty::Adt(def, _) if def.variants().is_empty() => {
fmt.write_str(&format!("{{unreachable(): {ty}}}"))?;
}
ty::Adt(def, args) => {
let variant_idx = contents
.variant
.expect("destructed mir constant of adt without variant idx");
let variant_def = &def.variant(variant_idx);
let args = tcx.lift(args).unwrap();
let mut cx = FmtPrinter::new(tcx, Namespace::ValueNS);
cx.print_alloc_ids = true;
cx.print_value_path(variant_def.def_id, args)?;
fmt.write_str(&cx.into_buffer())?;
match variant_def.ctor_kind() {
Some(CtorKind::Const) => {}
Some(CtorKind::Fn) => {
fmt.write_str("(")?;
comma_sep(tcx, fmt, fields)?;
fmt.write_str(")")?;
}
None => {
fmt.write_str(" {{ ")?;
let mut first = true;
for (field_def, (ct, ty)) in iter::zip(&variant_def.fields, fields)
{
if !first {
fmt.write_str(", ")?;
}
write!(fmt, "{}: ", field_def.name)?;
pretty_print_const_value_tcx(tcx, ct, ty, fmt)?;
first = false;
}
fmt.write_str(" }}")?;
}
}
}
_ => unreachable!(),
}
return Ok(());
}
}
(ConstValue::Scalar(scalar), _) => {
let mut cx = FmtPrinter::new(tcx, Namespace::ValueNS);
cx.print_alloc_ids = true;
let ty = tcx.lift(ty).unwrap();
cx.pretty_print_const_scalar(scalar, ty)?;
fmt.write_str(&cx.into_buffer())?;
return Ok(());
}
(ConstValue::ZeroSized, ty::FnDef(d, s)) => {
let mut cx = FmtPrinter::new(tcx, Namespace::ValueNS);
cx.print_alloc_ids = true;
cx.print_value_path(*d, s)?;
fmt.write_str(&cx.into_buffer())?;
return Ok(());
}
_ => {}
}
write!(fmt, "{ct:?}: {ty}")
}
pub(crate) fn pretty_print_const_value<'tcx>(
ct: ConstValue<'tcx>,
ty: Ty<'tcx>,
fmt: &mut Formatter<'_>,
) -> fmt::Result {
ty::tls::with(|tcx| {
let ct = tcx.lift(ct).unwrap();
let ty = tcx.lift(ty).unwrap();
pretty_print_const_value_tcx(tcx, ct, ty, fmt)
})
}
fn hex_number_length(x: u64) -> usize {
if x == 0 {
return 1;
}
let mut length = 0;
let mut x_left = x;
while x_left > 0 {
x_left /= 16;
length += 1;
}
length
}