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rust/src/librustc/middle/trans/controlflow.rs
Michael Woerister 302486e49b debuginfo: Make sure that all calls to drop glue are associated with debug locations. 
This commit makes rustc emit debug locations for all call
and invoke statements in LLVM IR, if they are contained
within a function that debuginfo is enabled for. This is
important because LLVM does not handle the case where a
function body containing debuginfo is inlined into another
function with debuginfo, but the inlined call statement
does not have a debug location. In this case, LLVM will
not know where (in terms of source code coordinates) the
function was inlined to and we end up with some statements
still linked to the source locations in there original,
non-inlined function without any indication that they are
indeed an inline-copy. Later, when generating DWARF from
the IR, LLVM will interpret this as corrupt IR and abort.

Unfortunately, the undesirable case described above can
still occur when using LTO. If there is a crate compiled
without debuginfo calling into a crate compiled with
debuginfo, we again end up with the conditions triggering
the error. This is why some LTO tests still fail with the
dreaded assertion, if the standard library was built with
debuginfo enabled.
That is, `RUSTFLAGS_STAGE2=-g make rustc-stage2` will
succeed but `RUSTFLAGS_STAGE2=-g make check` will still
fail after this commit has been merged. This is a problem
that has to be dealt with separately.

Fixes #17201
Fixes #15816
Fixes #15156
2014-09-25 14:17:14 +02:00

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// Copyright 2012 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
use llvm::*;
use driver::config::FullDebugInfo;
use middle::def;
use middle::lang_items::{FailFnLangItem, FailBoundsCheckFnLangItem};
use middle::trans::_match;
use middle::trans::adt;
use middle::trans::base::*;
use middle::trans::build::*;
use middle::trans::callee;
use middle::trans::cleanup::CleanupMethods;
use middle::trans::cleanup;
use middle::trans::common::*;
use middle::trans::consts;
use middle::trans::datum;
use middle::trans::debuginfo;
use middle::trans::expr;
use middle::trans::meth;
use middle::trans::type_::Type;
use middle::trans;
use middle::ty;
use middle::typeck::MethodCall;
use util::ppaux::Repr;
use util::ppaux;
use syntax::ast;
use syntax::ast::Ident;
use syntax::ast_util;
use syntax::codemap::Span;
use syntax::parse::token::InternedString;
use syntax::parse::token;
use syntax::visit::Visitor;
pub fn trans_stmt<'blk, 'tcx>(cx: Block<'blk, 'tcx>,
s: &ast::Stmt)
-> Block<'blk, 'tcx> {
let _icx = push_ctxt("trans_stmt");
let fcx = cx.fcx;
debug!("trans_stmt({})", s.repr(cx.tcx()));
if cx.sess().asm_comments() {
add_span_comment(cx, s.span, s.repr(cx.tcx()).as_slice());
}
let mut bcx = cx;
let id = ast_util::stmt_id(s);
let cleanup_debug_loc =
debuginfo::get_cleanup_debug_loc_for_ast_node(id, s.span, false);
fcx.push_ast_cleanup_scope(cleanup_debug_loc);
match s.node {
ast::StmtExpr(ref e, _) | ast::StmtSemi(ref e, _) => {
bcx = trans_stmt_semi(bcx, &**e);
}
ast::StmtDecl(ref d, _) => {
match d.node {
ast::DeclLocal(ref local) => {
bcx = init_local(bcx, &**local);
if cx.sess().opts.debuginfo == FullDebugInfo {
trans::debuginfo::create_local_var_metadata(bcx,
&**local);
}
}
// Inner items are visited by `trans_item`/`trans_meth`.
ast::DeclItem(_) => {},
}
}
ast::StmtMac(..) => cx.tcx().sess.bug("unexpanded macro")
}
bcx = fcx.pop_and_trans_ast_cleanup_scope(bcx, ast_util::stmt_id(s));
return bcx;
}
pub fn trans_stmt_semi<'blk, 'tcx>(cx: Block<'blk, 'tcx>, e: &ast::Expr)
-> Block<'blk, 'tcx> {
let _icx = push_ctxt("trans_stmt_semi");
let ty = expr_ty(cx, e);
if ty::type_needs_drop(cx.tcx(), ty) {
expr::trans_to_lvalue(cx, e, "stmt").bcx
} else {
expr::trans_into(cx, e, expr::Ignore)
}
}
pub fn trans_block<'blk, 'tcx>(bcx: Block<'blk, 'tcx>,
b: &ast::Block,
mut dest: expr::Dest)
-> Block<'blk, 'tcx> {
let _icx = push_ctxt("trans_block");
let fcx = bcx.fcx;
let mut bcx = bcx;
let cleanup_debug_loc =
debuginfo::get_cleanup_debug_loc_for_ast_node(b.id, b.span, true);
fcx.push_ast_cleanup_scope(cleanup_debug_loc);
for s in b.stmts.iter() {
bcx = trans_stmt(bcx, &**s);
}
if dest != expr::Ignore {
let block_ty = node_id_type(bcx, b.id);
if b.expr.is_none() || type_is_zero_size(bcx.ccx(), block_ty) {
dest = expr::Ignore;
}
}
match b.expr {
Some(ref e) => {
bcx = expr::trans_into(bcx, &**e, dest);
}
None => {
assert!(dest == expr::Ignore || bcx.unreachable.get());
}
}
bcx = fcx.pop_and_trans_ast_cleanup_scope(bcx, b.id);
return bcx;
}
pub fn trans_if<'blk, 'tcx>(bcx: Block<'blk, 'tcx>,
if_id: ast::NodeId,
cond: &ast::Expr,
thn: &ast::Block,
els: Option<&ast::Expr>,
dest: expr::Dest)
-> Block<'blk, 'tcx> {
debug!("trans_if(bcx={}, if_id={}, cond={}, thn={:?}, dest={})",
bcx.to_str(), if_id, bcx.expr_to_string(cond), thn.id,
dest.to_string(bcx.ccx()));
let _icx = push_ctxt("trans_if");
let mut bcx = bcx;
let cond_val = unpack_result!(bcx, expr::trans(bcx, cond).to_llbool());
// Drop branches that are known to be impossible
if is_const(cond_val) && !is_undef(cond_val) {
if const_to_uint(cond_val) == 1 {
match els {
Some(elexpr) => {
let mut trans = TransItemVisitor { ccx: bcx.fcx.ccx };
trans.visit_expr(&*elexpr);
}
None => {}
}
// if true { .. } [else { .. }]
bcx = trans_block(bcx, &*thn, dest);
trans::debuginfo::clear_source_location(bcx.fcx);
} else {
let mut trans = TransItemVisitor { ccx: bcx.fcx.ccx } ;
trans.visit_block(&*thn);
match els {
// if false { .. } else { .. }
Some(elexpr) => {
bcx = expr::trans_into(bcx, &*elexpr, dest);
trans::debuginfo::clear_source_location(bcx.fcx);
}
// if false { .. }
None => { }
}
}
return bcx;
}
let name = format!("then-block-{}-", thn.id);
let then_bcx_in = bcx.fcx.new_id_block(name.as_slice(), thn.id);
let then_bcx_out = trans_block(then_bcx_in, &*thn, dest);
trans::debuginfo::clear_source_location(bcx.fcx);
let next_bcx;
match els {
Some(elexpr) => {
let else_bcx_in = bcx.fcx.new_id_block("else-block", elexpr.id);
let else_bcx_out = expr::trans_into(else_bcx_in, &*elexpr, dest);
next_bcx = bcx.fcx.join_blocks(if_id,
[then_bcx_out, else_bcx_out]);
CondBr(bcx, cond_val, then_bcx_in.llbb, else_bcx_in.llbb);
}
None => {
next_bcx = bcx.fcx.new_id_block("next-block", if_id);
Br(then_bcx_out, next_bcx.llbb);
CondBr(bcx, cond_val, then_bcx_in.llbb, next_bcx.llbb);
}
}
// Clear the source location because it is still set to whatever has been translated
// right before.
trans::debuginfo::clear_source_location(next_bcx.fcx);
next_bcx
}
pub fn trans_while<'blk, 'tcx>(bcx: Block<'blk, 'tcx>,
loop_id: ast::NodeId,
cond: &ast::Expr,
body: &ast::Block)
-> Block<'blk, 'tcx> {
let _icx = push_ctxt("trans_while");
let fcx = bcx.fcx;
// bcx
// |
// cond_bcx_in <--------+
// | |
// cond_bcx_out |
// | | |
// | body_bcx_in |
// cleanup_blk | |
// | body_bcx_out --+
// next_bcx_in
let next_bcx_in = fcx.new_id_block("while_exit", loop_id);
let cond_bcx_in = fcx.new_id_block("while_cond", cond.id);
let body_bcx_in = fcx.new_id_block("while_body", body.id);
fcx.push_loop_cleanup_scope(loop_id, [next_bcx_in, cond_bcx_in]);
Br(bcx, cond_bcx_in.llbb);
// compile the block where we will handle loop cleanups
let cleanup_llbb = fcx.normal_exit_block(loop_id, cleanup::EXIT_BREAK);
// compile the condition
let Result {bcx: cond_bcx_out, val: cond_val} =
expr::trans(cond_bcx_in, cond).to_llbool();
CondBr(cond_bcx_out, cond_val, body_bcx_in.llbb, cleanup_llbb);
// loop body:
let body_bcx_out = trans_block(body_bcx_in, body, expr::Ignore);
Br(body_bcx_out, cond_bcx_in.llbb);
fcx.pop_loop_cleanup_scope(loop_id);
return next_bcx_in;
}
/// Translates a `for` loop.
pub fn trans_for<'blk, 'tcx>(mut bcx: Block<'blk, 'tcx>,
loop_info: NodeInfo,
pat: &ast::Pat,
head: &ast::Expr,
body: &ast::Block)
-> Block<'blk, 'tcx> {
let _icx = push_ctxt("trans_for");
// bcx
// |
// loopback_bcx_in <-------+
// | |
// loopback_bcx_out |
// | | |
// | body_bcx_in |
// cleanup_blk | |
// | body_bcx_out --+
// next_bcx_in
// Codegen the head to create the iterator value.
let iterator_datum =
unpack_datum!(bcx, expr::trans_to_lvalue(bcx, head, "for_head"));
let iterator_type = node_id_type(bcx, head.id);
debug!("iterator type is {}, datum type is {}",
ppaux::ty_to_string(bcx.tcx(), iterator_type),
ppaux::ty_to_string(bcx.tcx(), iterator_datum.ty));
let lliterator = load_ty(bcx, iterator_datum.val, iterator_datum.ty);
// Create our basic blocks and set up our loop cleanups.
let next_bcx_in = bcx.fcx.new_id_block("for_exit", loop_info.id);
let loopback_bcx_in = bcx.fcx.new_id_block("for_loopback", head.id);
let body_bcx_in = bcx.fcx.new_id_block("for_body", body.id);
bcx.fcx.push_loop_cleanup_scope(loop_info.id,
[next_bcx_in, loopback_bcx_in]);
Br(bcx, loopback_bcx_in.llbb);
let cleanup_llbb = bcx.fcx.normal_exit_block(loop_info.id,
cleanup::EXIT_BREAK);
// Set up the method call (to `.next()`).
let method_call = MethodCall::expr(loop_info.id);
let method_type = loopback_bcx_in.tcx()
.method_map
.borrow()
.get(&method_call)
.ty;
let method_type = monomorphize_type(loopback_bcx_in, method_type);
let method_result_type = ty::ty_fn_ret(method_type);
let option_cleanup_scope = body_bcx_in.fcx.push_custom_cleanup_scope();
let option_cleanup_scope_id = cleanup::CustomScope(option_cleanup_scope);
// Compile the method call (to `.next()`).
let mut loopback_bcx_out = loopback_bcx_in;
let option_datum =
unpack_datum!(loopback_bcx_out,
datum::lvalue_scratch_datum(loopback_bcx_out,
method_result_type,
"loop_option",
false,
option_cleanup_scope_id,
(),
|(), bcx, lloption| {
let Result {
bcx: bcx,
val: _
} = callee::trans_call_inner(bcx,
Some(loop_info),
method_type,
|bcx, arg_cleanup_scope| {
meth::trans_method_callee(
bcx,
method_call,
None,
arg_cleanup_scope)
},
callee::ArgVals([lliterator]),
Some(expr::SaveIn(lloption)));
bcx
}));
// Check the discriminant; if the `None` case, exit the loop.
let option_representation = adt::represent_type(loopback_bcx_out.ccx(),
method_result_type);
let lldiscriminant = adt::trans_get_discr(loopback_bcx_out,
&*option_representation,
option_datum.val,
None);
let i1_type = Type::i1(loopback_bcx_out.ccx());
let llcondition = Trunc(loopback_bcx_out, lldiscriminant, i1_type);
CondBr(loopback_bcx_out, llcondition, body_bcx_in.llbb, cleanup_llbb);
// Now we're in the body. Unpack the `Option` value into the programmer-
// supplied pattern.
let llpayload = adt::trans_field_ptr(body_bcx_in,
&*option_representation,
option_datum.val,
1,
0);
let binding_cleanup_scope = body_bcx_in.fcx.push_custom_cleanup_scope();
let binding_cleanup_scope_id =
cleanup::CustomScope(binding_cleanup_scope);
let mut body_bcx_out =
_match::store_for_loop_binding(body_bcx_in,
pat,
llpayload,
binding_cleanup_scope_id);
// Codegen the body.
body_bcx_out = trans_block(body_bcx_out, body, expr::Ignore);
body_bcx_out =
body_bcx_out.fcx
.pop_and_trans_custom_cleanup_scope(body_bcx_out,
binding_cleanup_scope);
body_bcx_out =
body_bcx_out.fcx
.pop_and_trans_custom_cleanup_scope(body_bcx_out,
option_cleanup_scope);
Br(body_bcx_out, loopback_bcx_in.llbb);
// Codegen cleanups and leave.
next_bcx_in.fcx.pop_loop_cleanup_scope(loop_info.id);
next_bcx_in
}
pub fn trans_loop<'blk, 'tcx>(bcx: Block<'blk, 'tcx>,
loop_id: ast::NodeId,
body: &ast::Block)
-> Block<'blk, 'tcx> {
let _icx = push_ctxt("trans_loop");
let fcx = bcx.fcx;
// bcx
// |
// body_bcx_in
// |
// body_bcx_out
//
// next_bcx
//
// Links between body_bcx_in and next_bcx are created by
// break statements.
let next_bcx_in = bcx.fcx.new_id_block("loop_exit", loop_id);
let body_bcx_in = bcx.fcx.new_id_block("loop_body", body.id);
fcx.push_loop_cleanup_scope(loop_id, [next_bcx_in, body_bcx_in]);
Br(bcx, body_bcx_in.llbb);
let body_bcx_out = trans_block(body_bcx_in, body, expr::Ignore);
Br(body_bcx_out, body_bcx_in.llbb);
fcx.pop_loop_cleanup_scope(loop_id);
if ty::type_is_bot(node_id_type(bcx, loop_id)) {
Unreachable(next_bcx_in);
}
return next_bcx_in;
}
pub fn trans_break_cont<'blk, 'tcx>(bcx: Block<'blk, 'tcx>,
expr_id: ast::NodeId,
opt_label: Option<Ident>,
exit: uint)
-> Block<'blk, 'tcx> {
let _icx = push_ctxt("trans_break_cont");
let fcx = bcx.fcx;
if bcx.unreachable.get() {
return bcx;
}
// Locate loop that we will break to
let loop_id = match opt_label {
None => fcx.top_loop_scope(),
Some(_) => {
match bcx.tcx().def_map.borrow().find(&expr_id) {
Some(&def::DefLabel(loop_id)) => loop_id,
ref r => {
bcx.tcx().sess.bug(format!("{:?} in def-map for label",
r).as_slice())
}
}
}
};
// Generate appropriate cleanup code and branch
let cleanup_llbb = fcx.normal_exit_block(loop_id, exit);
Br(bcx, cleanup_llbb);
Unreachable(bcx); // anything afterwards should be ignored
return bcx;
}
pub fn trans_break<'blk, 'tcx>(bcx: Block<'blk, 'tcx>,
expr_id: ast::NodeId,
label_opt: Option<Ident>)
-> Block<'blk, 'tcx> {
return trans_break_cont(bcx, expr_id, label_opt, cleanup::EXIT_BREAK);
}
pub fn trans_cont<'blk, 'tcx>(bcx: Block<'blk, 'tcx>,
expr_id: ast::NodeId,
label_opt: Option<Ident>)
-> Block<'blk, 'tcx> {
return trans_break_cont(bcx, expr_id, label_opt, cleanup::EXIT_LOOP);
}
pub fn trans_ret<'blk, 'tcx>(bcx: Block<'blk, 'tcx>,
e: Option<&ast::Expr>)
-> Block<'blk, 'tcx> {
let _icx = push_ctxt("trans_ret");
let fcx = bcx.fcx;
let mut bcx = bcx;
let dest = match (fcx.llretslotptr.get(), e) {
(Some(_), Some(e)) => {
let ret_ty = expr_ty(bcx, &*e);
expr::SaveIn(fcx.get_ret_slot(bcx, ret_ty, "ret_slot"))
}
_ => expr::Ignore,
};
match e {
Some(x) => {
bcx = expr::trans_into(bcx, &*x, dest);
match dest {
expr::SaveIn(slot) if fcx.needs_ret_allocas => {
Store(bcx, slot, fcx.llretslotptr.get().unwrap());
}
_ => {}
}
}
_ => {}
}
let cleanup_llbb = fcx.return_exit_block();
Br(bcx, cleanup_llbb);
Unreachable(bcx);
return bcx;
}
pub fn trans_fail<'blk, 'tcx>(bcx: Block<'blk, 'tcx>,
sp: Span,
fail_str: InternedString)
-> Block<'blk, 'tcx> {
let ccx = bcx.ccx();
let _icx = push_ctxt("trans_fail_value");
let v_str = C_str_slice(ccx, fail_str);
let loc = bcx.sess().codemap().lookup_char_pos(sp.lo);
let filename = token::intern_and_get_ident(loc.file.name.as_slice());
let filename = C_str_slice(ccx, filename);
let line = C_int(ccx, loc.line as int);
let expr_file_line_const = C_struct(ccx, &[v_str, filename, line], false);
let expr_file_line = consts::const_addr_of(ccx, expr_file_line_const, ast::MutImmutable);
let args = vec!(expr_file_line);
let did = langcall(bcx, Some(sp), "", FailFnLangItem);
let bcx = callee::trans_lang_call(bcx,
did,
args.as_slice(),
Some(expr::Ignore)).bcx;
Unreachable(bcx);
return bcx;
}
pub fn trans_fail_bounds_check<'blk, 'tcx>(bcx: Block<'blk, 'tcx>,
sp: Span,
index: ValueRef,
len: ValueRef)
-> Block<'blk, 'tcx> {
let ccx = bcx.ccx();
let _icx = push_ctxt("trans_fail_bounds_check");
// Extract the file/line from the span
let loc = bcx.sess().codemap().lookup_char_pos(sp.lo);
let filename = token::intern_and_get_ident(loc.file.name.as_slice());
// Invoke the lang item
let filename = C_str_slice(ccx, filename);
let line = C_int(ccx, loc.line as int);
let file_line_const = C_struct(ccx, &[filename, line], false);
let file_line = consts::const_addr_of(ccx, file_line_const, ast::MutImmutable);
let args = vec!(file_line, index, len);
let did = langcall(bcx, Some(sp), "", FailBoundsCheckFnLangItem);
let bcx = callee::trans_lang_call(bcx,
did,
args.as_slice(),
Some(expr::Ignore)).bcx;
Unreachable(bcx);
return bcx;
}
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