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|
/* Read the GIMPLE representation from a file stream.
Copyright 2009, 2010 Free Software Foundation, Inc.
Contributed by Kenneth Zadeck <zadeck@naturalbridge.com>
Re-implemented by Diego Novillo <dnovillo@google.com>
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#include "config.h"
#include "system.h"
#include "coretypes.h"
#include "tm.h"
#include "toplev.h"
#include "tree.h"
#include "expr.h"
#include "flags.h"
#include "params.h"
#include "input.h"
#include "hashtab.h"
#include "basic-block.h"
#include "tree-flow.h"
#include "tree-pass.h"
#include "cgraph.h"
#include "function.h"
#include "ggc.h"
#include "diagnostic.h"
#include "libfuncs.h"
#include "except.h"
#include "debug.h"
#include "vec.h"
#include "timevar.h"
#include "output.h"
#include "ipa-utils.h"
#include "data-streamer.h"
#include "gimple-streamer.h"
#include "lto-streamer.h"
#include "tree-streamer.h"
#include "tree-pass.h"
#include "streamer-hooks.h"
/* The table to hold the file names. */
static htab_t file_name_hash_table;
/* Check that tag ACTUAL has one of the given values. NUM_TAGS is the
number of valid tag values to check. */
void
lto_tag_check_set (enum LTO_tags actual, int ntags, ...)
{
va_list ap;
int i;
va_start (ap, ntags);
for (i = 0; i < ntags; i++)
if ((unsigned) actual == va_arg (ap, unsigned))
{
va_end (ap);
return;
}
va_end (ap);
internal_error ("bytecode stream: unexpected tag %s", lto_tag_name (actual));
}
/* Read LENGTH bytes from STREAM to ADDR. */
void
lto_input_data_block (struct lto_input_block *ib, void *addr, size_t length)
{
size_t i;
unsigned char *const buffer = (unsigned char *const) addr;
for (i = 0; i < length; i++)
buffer[i] = streamer_read_uchar (ib);
}
/* Lookup STRING in file_name_hash_table. If found, return the existing
string, otherwise insert STRING as the canonical version. */
static const char *
canon_file_name (const char *string)
{
void **slot;
struct string_slot s_slot;
size_t len = strlen (string);
s_slot.s = string;
s_slot.len = len;
slot = htab_find_slot (file_name_hash_table, &s_slot, INSERT);
if (*slot == NULL)
{
char *saved_string;
struct string_slot *new_slot;
saved_string = (char *) xmalloc (len + 1);
new_slot = XCNEW (struct string_slot);
memcpy (saved_string, string, len + 1);
new_slot->s = saved_string;
new_slot->len = len;
*slot = new_slot;
return saved_string;
}
else
{
struct string_slot *old_slot = (struct string_slot *) *slot;
return old_slot->s;
}
}
/* Clear the line info stored in DATA_IN. */
static void
clear_line_info (struct data_in *data_in)
{
if (data_in->current_file)
linemap_add (line_table, LC_LEAVE, false, NULL, 0);
data_in->current_file = NULL;
data_in->current_line = 0;
data_in->current_col = 0;
}
/* Read a location bitpack from input block IB. */
static location_t
lto_input_location_bitpack (struct data_in *data_in, struct bitpack_d *bp)
{
bool file_change, line_change, column_change;
unsigned len;
bool prev_file = data_in->current_file != NULL;
if (bp_unpack_value (bp, 1))
return UNKNOWN_LOCATION;
file_change = bp_unpack_value (bp, 1);
if (file_change)
data_in->current_file = canon_file_name
(string_for_index (data_in,
bp_unpack_var_len_unsigned (bp),
&len));
line_change = bp_unpack_value (bp, 1);
if (line_change)
data_in->current_line = bp_unpack_var_len_unsigned (bp);
column_change = bp_unpack_value (bp, 1);
if (column_change)
data_in->current_col = bp_unpack_var_len_unsigned (bp);
if (file_change)
{
if (prev_file)
linemap_add (line_table, LC_LEAVE, false, NULL, 0);
linemap_add (line_table, LC_ENTER, false, data_in->current_file,
data_in->current_line);
}
else if (line_change)
linemap_line_start (line_table, data_in->current_line, data_in->current_col);
return linemap_position_for_column (line_table, data_in->current_col);
}
/* Read a location from input block IB.
If the input_location streamer hook exists, call it.
Otherwise, proceed with reading the location from the
expanded location bitpack. */
location_t
lto_input_location (struct lto_input_block *ib, struct data_in *data_in)
{
if (streamer_hooks.input_location)
return streamer_hooks.input_location (ib, data_in);
else
{
struct bitpack_d bp;
bp = streamer_read_bitpack (ib);
return lto_input_location_bitpack (data_in, &bp);
}
}
/* Read a reference to a tree node from DATA_IN using input block IB.
TAG is the expected node that should be found in IB, if TAG belongs
to one of the indexable trees, expect to read a reference index to
be looked up in one of the symbol tables, otherwise read the pysical
representation of the tree using stream_read_tree. FN is the
function scope for the read tree. */
tree
lto_input_tree_ref (struct lto_input_block *ib, struct data_in *data_in,
struct function *fn, enum LTO_tags tag)
{
unsigned HOST_WIDE_INT ix_u;
tree result = NULL_TREE;
lto_tag_check_range (tag, LTO_field_decl_ref, LTO_global_decl_ref);
switch (tag)
{
case LTO_type_ref:
ix_u = streamer_read_uhwi (ib);
result = lto_file_decl_data_get_type (data_in->file_data, ix_u);
break;
case LTO_ssa_name_ref:
ix_u = streamer_read_uhwi (ib);
result = VEC_index (tree, SSANAMES (fn), ix_u);
break;
case LTO_field_decl_ref:
ix_u = streamer_read_uhwi (ib);
result = lto_file_decl_data_get_field_decl (data_in->file_data, ix_u);
break;
case LTO_function_decl_ref:
ix_u = streamer_read_uhwi (ib);
result = lto_file_decl_data_get_fn_decl (data_in->file_data, ix_u);
break;
case LTO_type_decl_ref:
ix_u = streamer_read_uhwi (ib);
result = lto_file_decl_data_get_type_decl (data_in->file_data, ix_u);
break;
case LTO_namespace_decl_ref:
ix_u = streamer_read_uhwi (ib);
result = lto_file_decl_data_get_namespace_decl (data_in->file_data, ix_u);
break;
case LTO_global_decl_ref:
case LTO_result_decl_ref:
case LTO_const_decl_ref:
case LTO_imported_decl_ref:
case LTO_label_decl_ref:
case LTO_translation_unit_decl_ref:
ix_u = streamer_read_uhwi (ib);
result = lto_file_decl_data_get_var_decl (data_in->file_data, ix_u);
break;
default:
gcc_unreachable ();
}
gcc_assert (result);
return result;
}
/* Read and return a double-linked list of catch handlers from input
block IB, using descriptors in DATA_IN. */
static struct eh_catch_d *
lto_input_eh_catch_list (struct lto_input_block *ib, struct data_in *data_in,
eh_catch *last_p)
{
eh_catch first;
enum LTO_tags tag;
*last_p = first = NULL;
tag = streamer_read_record_start (ib);
while (tag)
{
tree list;
eh_catch n;
lto_tag_check_range (tag, LTO_eh_catch, LTO_eh_catch);
/* Read the catch node. */
n = ggc_alloc_cleared_eh_catch_d ();
n->type_list = stream_read_tree (ib, data_in);
n->filter_list = stream_read_tree (ib, data_in);
n->label = stream_read_tree (ib, data_in);
/* Register all the types in N->FILTER_LIST. */
for (list = n->filter_list; list; list = TREE_CHAIN (list))
add_type_for_runtime (TREE_VALUE (list));
/* Chain N to the end of the list. */
if (*last_p)
(*last_p)->next_catch = n;
n->prev_catch = *last_p;
*last_p = n;
/* Set the head of the list the first time through the loop. */
if (first == NULL)
first = n;
tag = streamer_read_record_start (ib);
}
return first;
}
/* Read and return EH region IX from input block IB, using descriptors
in DATA_IN. */
static eh_region
input_eh_region (struct lto_input_block *ib, struct data_in *data_in, int ix)
{
enum LTO_tags tag;
eh_region r;
/* Read the region header. */
tag = streamer_read_record_start (ib);
if (tag == LTO_null)
return NULL;
r = ggc_alloc_cleared_eh_region_d ();
r->index = streamer_read_hwi (ib);
gcc_assert (r->index == ix);
/* Read all the region pointers as region numbers. We'll fix up
the pointers once the whole array has been read. */
r->outer = (eh_region) (intptr_t) streamer_read_hwi (ib);
r->inner = (eh_region) (intptr_t) streamer_read_hwi (ib);
r->next_peer = (eh_region) (intptr_t) streamer_read_hwi (ib);
switch (tag)
{
case LTO_ert_cleanup:
r->type = ERT_CLEANUP;
break;
case LTO_ert_try:
{
struct eh_catch_d *last_catch;
r->type = ERT_TRY;
r->u.eh_try.first_catch = lto_input_eh_catch_list (ib, data_in,
&last_catch);
r->u.eh_try.last_catch = last_catch;
break;
}
case LTO_ert_allowed_exceptions:
{
tree l;
r->type = ERT_ALLOWED_EXCEPTIONS;
r->u.allowed.type_list = stream_read_tree (ib, data_in);
r->u.allowed.label = stream_read_tree (ib, data_in);
r->u.allowed.filter = streamer_read_uhwi (ib);
for (l = r->u.allowed.type_list; l ; l = TREE_CHAIN (l))
add_type_for_runtime (TREE_VALUE (l));
}
break;
case LTO_ert_must_not_throw:
r->type = ERT_MUST_NOT_THROW;
r->u.must_not_throw.failure_decl = stream_read_tree (ib, data_in);
r->u.must_not_throw.failure_loc = lto_input_location (ib, data_in);
break;
default:
gcc_unreachable ();
}
r->landing_pads = (eh_landing_pad) (intptr_t) streamer_read_hwi (ib);
return r;
}
/* Read and return EH landing pad IX from input block IB, using descriptors
in DATA_IN. */
static eh_landing_pad
input_eh_lp (struct lto_input_block *ib, struct data_in *data_in, int ix)
{
enum LTO_tags tag;
eh_landing_pad lp;
/* Read the landing pad header. */
tag = streamer_read_record_start (ib);
if (tag == LTO_null)
return NULL;
lto_tag_check_range (tag, LTO_eh_landing_pad, LTO_eh_landing_pad);
lp = ggc_alloc_cleared_eh_landing_pad_d ();
lp->index = streamer_read_hwi (ib);
gcc_assert (lp->index == ix);
lp->next_lp = (eh_landing_pad) (intptr_t) streamer_read_hwi (ib);
lp->region = (eh_region) (intptr_t) streamer_read_hwi (ib);
lp->post_landing_pad = stream_read_tree (ib, data_in);
return lp;
}
/* After reading the EH regions, pointers to peer and children regions
are region numbers. This converts all these region numbers into
real pointers into the rematerialized regions for FN. ROOT_REGION
is the region number for the root EH region in FN. */
static void
fixup_eh_region_pointers (struct function *fn, HOST_WIDE_INT root_region)
{
unsigned i;
VEC(eh_region,gc) *eh_array = fn->eh->region_array;
VEC(eh_landing_pad,gc) *lp_array = fn->eh->lp_array;
eh_region r;
eh_landing_pad lp;
gcc_assert (eh_array && lp_array);
gcc_assert (root_region >= 0);
fn->eh->region_tree = VEC_index (eh_region, eh_array, root_region);
#define FIXUP_EH_REGION(r) (r) = VEC_index (eh_region, eh_array, \
(HOST_WIDE_INT) (intptr_t) (r))
#define FIXUP_EH_LP(p) (p) = VEC_index (eh_landing_pad, lp_array, \
(HOST_WIDE_INT) (intptr_t) (p))
/* Convert all the index numbers stored in pointer fields into
pointers to the corresponding slots in the EH region array. */
FOR_EACH_VEC_ELT (eh_region, eh_array, i, r)
{
/* The array may contain NULL regions. */
if (r == NULL)
continue;
gcc_assert (i == (unsigned) r->index);
FIXUP_EH_REGION (r->outer);
FIXUP_EH_REGION (r->inner);
FIXUP_EH_REGION (r->next_peer);
FIXUP_EH_LP (r->landing_pads);
}
/* Convert all the index numbers stored in pointer fields into
pointers to the corresponding slots in the EH landing pad array. */
FOR_EACH_VEC_ELT (eh_landing_pad, lp_array, i, lp)
{
/* The array may contain NULL landing pads. */
if (lp == NULL)
continue;
gcc_assert (i == (unsigned) lp->index);
FIXUP_EH_LP (lp->next_lp);
FIXUP_EH_REGION (lp->region);
}
#undef FIXUP_EH_REGION
#undef FIXUP_EH_LP
}
/* Initialize EH support. */
void
lto_init_eh (void)
{
static bool eh_initialized_p = false;
if (eh_initialized_p)
return;
/* Contrary to most other FEs, we only initialize EH support when at
least one of the files in the set contains exception regions in
it. Since this happens much later than the call to init_eh in
lang_dependent_init, we have to set flag_exceptions and call
init_eh again to initialize the EH tables. */
flag_exceptions = 1;
init_eh ();
eh_initialized_p = true;
}
/* Read the exception table for FN from IB using the data descriptors
in DATA_IN. */
static void
input_eh_regions (struct lto_input_block *ib, struct data_in *data_in,
struct function *fn)
{
HOST_WIDE_INT i, root_region, len;
enum LTO_tags tag;
tag = streamer_read_record_start (ib);
if (tag == LTO_null)
return;
lto_tag_check_range (tag, LTO_eh_table, LTO_eh_table);
/* If the file contains EH regions, then it was compiled with
-fexceptions. In that case, initialize the backend EH
machinery. */
lto_init_eh ();
gcc_assert (fn->eh);
root_region = streamer_read_hwi (ib);
gcc_assert (root_region == (int) root_region);
/* Read the EH region array. */
len = streamer_read_hwi (ib);
gcc_assert (len == (int) len);
if (len > 0)
{
VEC_safe_grow (eh_region, gc, fn->eh->region_array, len);
for (i = 0; i < len; i++)
{
eh_region r = input_eh_region (ib, data_in, i);
VEC_replace (eh_region, fn->eh->region_array, i, r);
}
}
/* Read the landing pads. */
len = streamer_read_hwi (ib);
gcc_assert (len == (int) len);
if (len > 0)
{
VEC_safe_grow (eh_landing_pad, gc, fn->eh->lp_array, len);
for (i = 0; i < len; i++)
{
eh_landing_pad lp = input_eh_lp (ib, data_in, i);
VEC_replace (eh_landing_pad, fn->eh->lp_array, i, lp);
}
}
/* Read the runtime type data. */
len = streamer_read_hwi (ib);
gcc_assert (len == (int) len);
if (len > 0)
{
VEC_safe_grow (tree, gc, fn->eh->ttype_data, len);
for (i = 0; i < len; i++)
{
tree ttype = stream_read_tree (ib, data_in);
VEC_replace (tree, fn->eh->ttype_data, i, ttype);
}
}
/* Read the table of action chains. */
len = streamer_read_hwi (ib);
gcc_assert (len == (int) len);
if (len > 0)
{
if (targetm.arm_eabi_unwinder)
{
VEC_safe_grow (tree, gc, fn->eh->ehspec_data.arm_eabi, len);
for (i = 0; i < len; i++)
{
tree t = stream_read_tree (ib, data_in);
VEC_replace (tree, fn->eh->ehspec_data.arm_eabi, i, t);
}
}
else
{
VEC_safe_grow (uchar, gc, fn->eh->ehspec_data.other, len);
for (i = 0; i < len; i++)
{
uchar c = streamer_read_uchar (ib);
VEC_replace (uchar, fn->eh->ehspec_data.other, i, c);
}
}
}
/* Reconstruct the EH region tree by fixing up the peer/children
pointers. */
fixup_eh_region_pointers (fn, root_region);
tag = streamer_read_record_start (ib);
lto_tag_check_range (tag, LTO_null, LTO_null);
}
/* Make a new basic block with index INDEX in function FN. */
static basic_block
make_new_block (struct function *fn, unsigned int index)
{
basic_block bb = alloc_block ();
bb->index = index;
SET_BASIC_BLOCK_FOR_FUNCTION (fn, index, bb);
bb->il.gimple = ggc_alloc_cleared_gimple_bb_info ();
n_basic_blocks_for_function (fn)++;
bb->flags = 0;
set_bb_seq (bb, gimple_seq_alloc ());
return bb;
}
/* Read the CFG for function FN from input block IB. */
static void
input_cfg (struct lto_input_block *ib, struct function *fn,
int count_materialization_scale)
{
unsigned int bb_count;
basic_block p_bb;
unsigned int i;
int index;
init_empty_tree_cfg_for_function (fn);
init_ssa_operands ();
profile_status_for_function (fn) = streamer_read_enum (ib, profile_status_d,
PROFILE_LAST);
bb_count = streamer_read_uhwi (ib);
last_basic_block_for_function (fn) = bb_count;
if (bb_count > VEC_length (basic_block, basic_block_info_for_function (fn)))
VEC_safe_grow_cleared (basic_block, gc,
basic_block_info_for_function (fn), bb_count);
if (bb_count > VEC_length (basic_block, label_to_block_map_for_function (fn)))
VEC_safe_grow_cleared (basic_block, gc,
label_to_block_map_for_function (fn), bb_count);
index = streamer_read_hwi (ib);
while (index != -1)
{
basic_block bb = BASIC_BLOCK_FOR_FUNCTION (fn, index);
unsigned int edge_count;
if (bb == NULL)
bb = make_new_block (fn, index);
edge_count = streamer_read_uhwi (ib);
/* Connect up the CFG. */
for (i = 0; i < edge_count; i++)
{
unsigned int dest_index;
unsigned int edge_flags;
basic_block dest;
int probability;
gcov_type count;
edge e;
dest_index = streamer_read_uhwi (ib);
probability = (int) streamer_read_hwi (ib);
count = ((gcov_type) streamer_read_hwi (ib) * count_materialization_scale
+ REG_BR_PROB_BASE / 2) / REG_BR_PROB_BASE;
edge_flags = streamer_read_uhwi (ib);
dest = BASIC_BLOCK_FOR_FUNCTION (fn, dest_index);
if (dest == NULL)
dest = make_new_block (fn, dest_index);
e = make_edge (bb, dest, edge_flags);
e->probability = probability;
e->count = count;
}
index = streamer_read_hwi (ib);
}
p_bb = ENTRY_BLOCK_PTR_FOR_FUNCTION(fn);
index = streamer_read_hwi (ib);
while (index != -1)
{
basic_block bb = BASIC_BLOCK_FOR_FUNCTION (fn, index);
bb->prev_bb = p_bb;
p_bb->next_bb = bb;
p_bb = bb;
index = streamer_read_hwi (ib);
}
}
/* Read the SSA names array for function FN from DATA_IN using input
block IB. */
static void
input_ssa_names (struct lto_input_block *ib, struct data_in *data_in,
struct function *fn)
{
unsigned int i, size;
size = streamer_read_uhwi (ib);
init_ssanames (fn, size);
i = streamer_read_uhwi (ib);
while (i)
{
tree ssa_name, name;
bool is_default_def;
/* Skip over the elements that had been freed. */
while (VEC_length (tree, SSANAMES (fn)) < i)
VEC_quick_push (tree, SSANAMES (fn), NULL_TREE);
is_default_def = (streamer_read_uchar (ib) != 0);
name = stream_read_tree (ib, data_in);
ssa_name = make_ssa_name_fn (fn, name, gimple_build_nop ());
if (is_default_def)
set_default_def (SSA_NAME_VAR (ssa_name), ssa_name);
i = streamer_read_uhwi (ib);
}
}
/* Go through all NODE edges and fixup call_stmt pointers
so they point to STMTS. */
static void
fixup_call_stmt_edges_1 (struct cgraph_node *node, gimple *stmts)
{
struct cgraph_edge *cedge;
for (cedge = node->callees; cedge; cedge = cedge->next_callee)
cedge->call_stmt = stmts[cedge->lto_stmt_uid];
for (cedge = node->indirect_calls; cedge; cedge = cedge->next_callee)
cedge->call_stmt = stmts[cedge->lto_stmt_uid];
}
/* Fixup call_stmt pointers in NODE and all clones. */
static void
fixup_call_stmt_edges (struct cgraph_node *orig, gimple *stmts)
{
struct cgraph_node *node;
while (orig->clone_of)
orig = orig->clone_of;
fixup_call_stmt_edges_1 (orig, stmts);
if (orig->clones)
for (node = orig->clones; node != orig;)
{
fixup_call_stmt_edges_1 (node, stmts);
if (node->clones)
node = node->clones;
else if (node->next_sibling_clone)
node = node->next_sibling_clone;
else
{
while (node != orig && !node->next_sibling_clone)
node = node->clone_of;
if (node != orig)
node = node->next_sibling_clone;
}
}
}
/* Input the base body of struct function FN from DATA_IN
using input block IB. */
static void
input_struct_function_base (struct function *fn, struct data_in *data_in,
struct lto_input_block *ib)
{
struct bitpack_d bp;
int len;
/* Read the static chain and non-local goto save area. */
fn->static_chain_decl = stream_read_tree (ib, data_in);
fn->nonlocal_goto_save_area = stream_read_tree (ib, data_in);
/* Read all the local symbols. */
len = streamer_read_hwi (ib);
if (len > 0)
{
int i;
VEC_safe_grow (tree, gc, fn->local_decls, len);
for (i = 0; i < len; i++)
{
tree t = stream_read_tree (ib, data_in);
VEC_replace (tree, fn->local_decls, i, t);
}
}
/* Input the function start and end loci. */
fn->function_start_locus = lto_input_location (ib, data_in);
fn->function_end_locus = lto_input_location (ib, data_in);
/* Input the current IL state of the function. */
fn->curr_properties = streamer_read_uhwi (ib);
/* Read all the attributes for FN. */
bp = streamer_read_bitpack (ib);
fn->is_thunk = bp_unpack_value (&bp, 1);
fn->has_local_explicit_reg_vars = bp_unpack_value (&bp, 1);
fn->after_tree_profile = bp_unpack_value (&bp, 1);
fn->returns_pcc_struct = bp_unpack_value (&bp, 1);
fn->returns_struct = bp_unpack_value (&bp, 1);
fn->can_throw_non_call_exceptions = bp_unpack_value (&bp, 1);
fn->always_inline_functions_inlined = bp_unpack_value (&bp, 1);
fn->after_inlining = bp_unpack_value (&bp, 1);
fn->stdarg = bp_unpack_value (&bp, 1);
fn->has_nonlocal_label = bp_unpack_value (&bp, 1);
fn->calls_alloca = bp_unpack_value (&bp, 1);
fn->calls_setjmp = bp_unpack_value (&bp, 1);
fn->va_list_fpr_size = bp_unpack_value (&bp, 8);
fn->va_list_gpr_size = bp_unpack_value (&bp, 8);
}
/* Read the body of function FN_DECL from DATA_IN using input block IB. */
static void
input_function (tree fn_decl, struct data_in *data_in,
struct lto_input_block *ib)
{
struct function *fn;
enum LTO_tags tag;
gimple *stmts;
basic_block bb;
struct cgraph_node *node;
tree args, narg, oarg;
fn = DECL_STRUCT_FUNCTION (fn_decl);
tag = streamer_read_record_start (ib);
clear_line_info (data_in);
gimple_register_cfg_hooks ();
lto_tag_check (tag, LTO_function);
input_struct_function_base (fn, data_in, ib);
/* Read all function arguments. We need to re-map them here to the
arguments of the merged function declaration. */
args = stream_read_tree (ib, data_in);
for (oarg = args, narg = DECL_ARGUMENTS (fn_decl);
oarg && narg;
oarg = TREE_CHAIN (oarg), narg = TREE_CHAIN (narg))
{
unsigned ix;
bool res;
res = streamer_tree_cache_lookup (data_in->reader_cache, oarg, &ix);
gcc_assert (res);
/* Replace the argument in the streamer cache. */
streamer_tree_cache_insert_at (data_in->reader_cache, narg, ix);
}
gcc_assert (!oarg && !narg);
/* Read all the SSA names. */
input_ssa_names (ib, data_in, fn);
/* Read the exception handling regions in the function. */
input_eh_regions (ib, data_in, fn);
/* Read the tree of lexical scopes for the function. */
DECL_INITIAL (fn_decl) = stream_read_tree (ib, data_in);
gcc_assert (DECL_INITIAL (fn_decl));
DECL_SAVED_TREE (fn_decl) = NULL_TREE;
node = cgraph_get_create_node (fn_decl);
/* Read all the basic blocks. */
tag = streamer_read_record_start (ib);
while (tag)
{
input_bb (ib, tag, data_in, fn,
node->count_materialization_scale);
tag = streamer_read_record_start (ib);
}
/* Fix up the call statements that are mentioned in the callgraph
edges. */
set_gimple_stmt_max_uid (cfun, 0);
FOR_ALL_BB (bb)
{
gimple_stmt_iterator gsi;
for (gsi = gsi_start_bb (bb); !gsi_end_p (gsi); gsi_next (&gsi))
{
gimple stmt = gsi_stmt (gsi);
gimple_set_uid (stmt, inc_gimple_stmt_max_uid (cfun));
}
}
stmts = (gimple *) xcalloc (gimple_stmt_max_uid (fn), sizeof (gimple));
FOR_ALL_BB (bb)
{
gimple_stmt_iterator bsi = gsi_start_bb (bb);
while (!gsi_end_p (bsi))
{
gimple stmt = gsi_stmt (bsi);
/* If we're recompiling LTO objects with debug stmts but
we're not supposed to have debug stmts, remove them now.
We can't remove them earlier because this would cause uid
mismatches in fixups, but we can do it at this point, as
long as debug stmts don't require fixups. */
if (!MAY_HAVE_DEBUG_STMTS && is_gimple_debug (stmt))
{
gimple_stmt_iterator gsi = bsi;
gsi_next (&bsi);
gsi_remove (&gsi, true);
}
else
{
gsi_next (&bsi);
stmts[gimple_uid (stmt)] = stmt;
}
}
}
/* Set the gimple body to the statement sequence in the entry
basic block. FIXME lto, this is fairly hacky. The existence
of a gimple body is used by the cgraph routines, but we should
really use the presence of the CFG. */
{
edge_iterator ei = ei_start (ENTRY_BLOCK_PTR->succs);
gimple_set_body (fn_decl, bb_seq (ei_edge (ei)->dest));
}
fixup_call_stmt_edges (node, stmts);
execute_all_ipa_stmt_fixups (node, stmts);
update_ssa (TODO_update_ssa_only_virtuals);
free_dominance_info (CDI_DOMINATORS);
free_dominance_info (CDI_POST_DOMINATORS);
free (stmts);
}
/* Read initializer expressions for public statics. DATA_IN is the
file being read. IB is the input block used for reading. */
static void
input_alias_pairs (struct lto_input_block *ib, struct data_in *data_in)
{
tree var;
clear_line_info (data_in);
var = stream_read_tree (ib, data_in);
while (var)
{
const char *orig_name, *new_name;
alias_pair *p;
p = VEC_safe_push (alias_pair, gc, alias_pairs, NULL);
p->decl = var;
p->target = stream_read_tree (ib, data_in);
/* If the target is a static object, we may have registered a
new name for it to avoid clashes between statics coming from
different files. In that case, use the new name. */
orig_name = IDENTIFIER_POINTER (p->target);
new_name = lto_get_decl_name_mapping (data_in->file_data, orig_name);
if (strcmp (orig_name, new_name) != 0)
p->target = get_identifier (new_name);
var = stream_read_tree (ib, data_in);
}
}
/* Read the body from DATA for function FN_DECL and fill it in.
FILE_DATA are the global decls and types. SECTION_TYPE is either
LTO_section_function_body or LTO_section_static_initializer. If
section type is LTO_section_function_body, FN must be the decl for
that function. */
static void
lto_read_body (struct lto_file_decl_data *file_data, tree fn_decl,
const char *data, enum lto_section_type section_type)
{
const struct lto_function_header *header;
struct data_in *data_in;
int32_t cfg_offset;
int32_t main_offset;
int32_t string_offset;
struct lto_input_block ib_cfg;
struct lto_input_block ib_main;
header = (const struct lto_function_header *) data;
cfg_offset = sizeof (struct lto_function_header);
main_offset = cfg_offset + header->cfg_size;
string_offset = main_offset + header->main_size;
LTO_INIT_INPUT_BLOCK (ib_cfg,
data + cfg_offset,
0,
header->cfg_size);
LTO_INIT_INPUT_BLOCK (ib_main,
data + main_offset,
0,
header->main_size);
data_in = lto_data_in_create (file_data, data + string_offset,
header->string_size, NULL);
/* Make sure the file was generated by the exact same compiler. */
lto_check_version (header->lto_header.major_version,
header->lto_header.minor_version);
if (section_type == LTO_section_function_body)
{
struct function *fn = DECL_STRUCT_FUNCTION (fn_decl);
struct lto_in_decl_state *decl_state;
struct cgraph_node *node = cgraph_get_node (fn_decl);
gcc_checking_assert (node);
push_cfun (fn);
init_tree_ssa (fn);
/* Use the function's decl state. */
decl_state = lto_get_function_in_decl_state (file_data, fn_decl);
gcc_assert (decl_state);
file_data->current_decl_state = decl_state;
input_cfg (&ib_cfg, fn, node->count_materialization_scale);
/* Set up the struct function. */
input_function (fn_decl, data_in, &ib_main);
/* We should now be in SSA. */
cfun->gimple_df->in_ssa_p = true;
/* Restore decl state */
file_data->current_decl_state = file_data->global_decl_state;
pop_cfun ();
}
else
{
input_alias_pairs (&ib_main, data_in);
}
clear_line_info (data_in);
lto_data_in_delete (data_in);
}
/* Read the body of FN_DECL using DATA. FILE_DATA holds the global
decls and types. */
void
lto_input_function_body (struct lto_file_decl_data *file_data,
tree fn_decl, const char *data)
{
current_function_decl = fn_decl;
lto_read_body (file_data, fn_decl, data, LTO_section_function_body);
}
/* Read in VAR_DECL using DATA. FILE_DATA holds the global decls and
types. */
void
lto_input_constructors_and_inits (struct lto_file_decl_data *file_data,
const char *data)
{
lto_read_body (file_data, NULL, data, LTO_section_static_initializer);
}
/* Read the physical representation of a tree node with tag TAG from
input block IB using the per-file context in DATA_IN. */
static tree
lto_read_tree (struct lto_input_block *ib, struct data_in *data_in,
enum LTO_tags tag)
{
/* Instantiate a new tree node. */
tree result = streamer_alloc_tree (ib, data_in, tag);
/* Enter RESULT in the reader cache. This will make RESULT
available so that circular references in the rest of the tree
structure can be resolved in subsequent calls to stream_read_tree. */
streamer_tree_cache_append (data_in->reader_cache, result);
/* Read all the bitfield values in RESULT. Note that for LTO, we
only write language-independent bitfields, so no more unpacking is
needed. */
streamer_read_tree_bitfields (ib, result);
/* Read all the pointer fields in RESULT. */
streamer_read_tree_body (ib, data_in, result);
/* Read any LTO-specific data not read by the tree streamer. */
if (DECL_P (result)
&& TREE_CODE (result) != FUNCTION_DECL
&& TREE_CODE (result) != TRANSLATION_UNIT_DECL)
DECL_INITIAL (result) = stream_read_tree (ib, data_in);
/* We should never try to instantiate an MD or NORMAL builtin here. */
if (TREE_CODE (result) == FUNCTION_DECL)
gcc_assert (!streamer_handle_as_builtin_p (result));
/* end_marker = */ streamer_read_uchar (ib);
#ifdef LTO_STREAMER_DEBUG
/* Remove the mapping to RESULT's original address set by
streamer_alloc_tree. */
lto_orig_address_remove (result);
#endif
return result;
}
/* Read a tree from input block IB using the per-file context in
DATA_IN. This context is used, for example, to resolve references
to previously read nodes. */
tree
lto_input_tree (struct lto_input_block *ib, struct data_in *data_in)
{
enum LTO_tags tag;
tree result;
tag = streamer_read_record_start (ib);
gcc_assert ((unsigned) tag < (unsigned) LTO_NUM_TAGS);
if (tag == LTO_null)
result = NULL_TREE;
else if (tag >= LTO_field_decl_ref && tag <= LTO_global_decl_ref)
{
/* If TAG is a reference to an indexable tree, the next value
in IB is the index into the table where we expect to find
that tree. */
result = lto_input_tree_ref (ib, data_in, cfun, tag);
}
else if (tag == LTO_tree_pickle_reference)
{
/* If TAG is a reference to a previously read tree, look it up in
the reader cache. */
result = streamer_get_pickled_tree (ib, data_in);
}
else if (tag == LTO_builtin_decl)
{
/* If we are going to read a built-in function, all we need is
the code and class. */
result = streamer_get_builtin_tree (ib, data_in);
}
else if (tag == lto_tree_code_to_tag (INTEGER_CST))
{
/* For integer constants we only need the type and its hi/low
words. */
result = streamer_read_integer_cst (ib, data_in);
}
else
{
/* Otherwise, materialize a new node from IB. */
result = lto_read_tree (ib, data_in, tag);
}
return result;
}
/* Input toplevel asms. */
void
lto_input_toplevel_asms (struct lto_file_decl_data *file_data, int order_base)
{
size_t len;
const char *data = lto_get_section_data (file_data, LTO_section_asm,
NULL, &len);
const struct lto_asm_header *header = (const struct lto_asm_header *) data;
int32_t string_offset;
struct data_in *data_in;
struct lto_input_block ib;
tree str;
if (! data)
return;
string_offset = sizeof (*header) + header->main_size;
LTO_INIT_INPUT_BLOCK (ib,
data + sizeof (*header),
0,
header->main_size);
data_in = lto_data_in_create (file_data, data + string_offset,
header->string_size, NULL);
/* Make sure the file was generated by the exact same compiler. */
lto_check_version (header->lto_header.major_version,
header->lto_header.minor_version);
while ((str = streamer_read_string_cst (data_in, &ib)))
{
struct cgraph_asm_node *node = cgraph_add_asm_node (str);
node->order = streamer_read_hwi (&ib) + order_base;
if (node->order >= cgraph_order)
cgraph_order = node->order + 1;
}
clear_line_info (data_in);
lto_data_in_delete (data_in);
lto_free_section_data (file_data, LTO_section_asm, NULL, data, len);
}
/* Initialization for the LTO reader. */
void
lto_reader_init (void)
{
lto_streamer_init ();
file_name_hash_table = htab_create (37, hash_string_slot_node,
eq_string_slot_node, free);
}
/* Create a new data_in object for FILE_DATA. STRINGS is the string
table to use with LEN strings. RESOLUTIONS is the vector of linker
resolutions (NULL if not using a linker plugin). */
struct data_in *
lto_data_in_create (struct lto_file_decl_data *file_data, const char *strings,
unsigned len,
VEC(ld_plugin_symbol_resolution_t,heap) *resolutions)
{
struct data_in *data_in = XCNEW (struct data_in);
data_in->file_data = file_data;
data_in->strings = strings;
data_in->strings_len = len;
data_in->globals_resolution = resolutions;
data_in->reader_cache = streamer_tree_cache_create ();
return data_in;
}
/* Remove DATA_IN. */
void
lto_data_in_delete (struct data_in *data_in)
{
VEC_free (ld_plugin_symbol_resolution_t, heap, data_in->globals_resolution);
streamer_tree_cache_delete (data_in->reader_cache);
free (data_in->labels);
free (data_in);
}
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