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/* Callgraph based analysis of static variables.

   Copyright (C) 2004, 2005, 2007, 2008, 2009, 2010

   Free Software Foundation, Inc.

   Contributed by Kenneth Zadeck <zadeck@naturalbridge.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/>.  */

/* This file gathers information about how variables whose scope is

   confined to the compilation unit are used.

   There are two categories of information produced by this pass:

   1) The addressable (TREE_ADDRESSABLE) bit and readonly

   (TREE_READONLY) bit associated with these variables is properly set

   based on scanning all of the code withing the compilation unit.

   2) The transitive call site specific clobber effects are computed

   for the variables whose scope is contained within this compilation

   unit.

   First each function and static variable initialization is analyzed

   to determine which local static variables are either read, written,

   or have their address taken.  Any local static that has its address

   taken is removed from consideration.  Once the local read and

   writes are determined, a transitive closure of this information is

   performed over the call graph to determine the worst case set of

   side effects of each call.  In later parts of the compiler, these

   local and global sets are examined to make the call clobbering less

   traumatic, promote some statics to registers, and improve aliasing

   information.

   Currently must be run after inlining decisions have been made since

   otherwise, the local sets will not contain information that is

   consistent with post inlined state.  The global sets are not prone

   to this problem since they are by definition transitive.  */

#include "config.h"

#include "system.h"

#include "coretypes.h"

#include "tm.h"

#include "tree.h"

#include "tree-flow.h"

#include "tree-inline.h"

#include "tree-pass.h"

#include "langhooks.h"

#include "pointer-set.h"

#include "splay-tree.h"

#include "ggc.h"

#include "ipa-utils.h"

#include "ipa-reference.h"

#include "gimple.h"

#include "cgraph.h"

#include "output.h"

#include "flags.h"

#include "timevar.h"

#include "diagnostic.h"

#include "langhooks.h"

#include "lto-streamer.h"

static void add_new_function (struct cgraph_node *node,

                              void *data ATTRIBUTE_UNUSED);

static void remove_node_data (struct cgraph_node *node,

                              void *data ATTRIBUTE_UNUSED);

static void duplicate_node_data (struct cgraph_node *src,

                                 struct cgraph_node *dst,

                                 void *data ATTRIBUTE_UNUSED);

/* The static variables defined within the compilation unit that are

   loaded or stored directly by function that owns this structure.  */

struct ipa_reference_local_vars_info_d

{

  bitmap statics_read;

  bitmap statics_written;

  /* Set when this function calls another function external to the

     compilation unit or if the function has a asm clobber of memory.

     In general, such calls are modeled as reading and writing all

     variables (both bits on) but sometime there are attributes on the

     called function so we can do better.  */

  bool calls_read_all;

  bool calls_write_all;

};

/* Statics that are read and written by some set of functions. The

   local ones are based on the loads and stores local to the function.

   The global ones are based on the local info as well as the

   transitive closure of the functions that are called.  The

   structures are separated to allow the global structures to be

   shared between several functions since every function within a

   strongly connected component will have the same information.  This

   sharing saves both time and space in the computation of the vectors

   as well as their translation from decl_uid form to ann_uid

   form.  */

struct ipa_reference_global_vars_info_d

{

  bitmap statics_read;

  bitmap statics_written;

  bitmap statics_not_read;

  bitmap statics_not_written;

};

typedef struct ipa_reference_local_vars_info_d *ipa_reference_local_vars_info_t;

typedef struct ipa_reference_global_vars_info_d *ipa_reference_global_vars_info_t;

struct ipa_reference_vars_info_d

{

  ipa_reference_local_vars_info_t local;

  ipa_reference_global_vars_info_t global;

};

typedef struct ipa_reference_vars_info_d *ipa_reference_vars_info_t;

/* This splay tree contains all of the static variables that are

   being considered by the compilation level alias analysis.  For

   module_at_a_time compilation, this is the set of static but not

   public variables.  Any variables that either have their address

   taken or participate in otherwise unsavory operations are deleted

   from this list.  */

static GTY((param1_is(int), param2_is(tree)))

     splay_tree reference_vars_to_consider;

/* This bitmap is used to knock out the module static variables whose

   addresses have been taken and passed around.  */

static bitmap module_statics_escape;

/* This bitmap is used to knock out the module static variables that

   are not readonly.  */

static bitmap module_statics_written;

/* A bit is set for every module static we are considering.  This is

   ored into the local info when asm code is found that clobbers all

   memory. */

static bitmap all_module_statics;

static struct pointer_set_t *visited_nodes;

/* Obstack holding bitmaps of local analysis (live from analysis to

   propagation)  */

static bitmap_obstack local_info_obstack;

/* Obstack holding global analysis live forever.  */

static bitmap_obstack global_info_obstack;

/* Holders of ipa cgraph hooks: */

static struct cgraph_node_hook_list *function_insertion_hook_holder;

static struct cgraph_2node_hook_list *node_duplication_hook_holder;

static struct cgraph_node_hook_list *node_removal_hook_holder;

enum initialization_status_t

{

  UNINITIALIZED,

  RUNNING,

  FINISHED

};

tree memory_identifier_string;

/* Vector where the reference var infos are actually stored. */

DEF_VEC_P (ipa_reference_vars_info_t);

DEF_VEC_ALLOC_P (ipa_reference_vars_info_t, heap);

static VEC (ipa_reference_vars_info_t, heap) *ipa_reference_vars_vector;

/* Return the ipa_reference_vars structure starting from the cgraph NODE.  */

static inline ipa_reference_vars_info_t

get_reference_vars_info (struct cgraph_node *node)

{

  if (!ipa_reference_vars_vector

      || VEC_length (ipa_reference_vars_info_t, ipa_reference_vars_vector) <= (unsigned int)node->uid)

    return NULL;

  return VEC_index (ipa_reference_vars_info_t, ipa_reference_vars_vector, node->uid);

}

/* Return the ipa_reference_vars structure starting from the cgraph NODE.  */

static inline void

set_reference_vars_info (struct cgraph_node *node, ipa_reference_vars_info_t info)

{

  if (!ipa_reference_vars_vector

      || VEC_length (ipa_reference_vars_info_t, ipa_reference_vars_vector) <= (unsigned int)node->uid)

     VEC_safe_grow_cleared (ipa_reference_vars_info_t, heap, ipa_reference_vars_vector, node->uid + 1);

  VEC_replace (ipa_reference_vars_info_t, ipa_reference_vars_vector, node->uid, info);

}

/* Get a bitmap that contains all of the locally referenced static

   variables for function FN.  */

static ipa_reference_local_vars_info_t

get_local_reference_vars_info (struct cgraph_node *fn)

{

  ipa_reference_vars_info_t info = get_reference_vars_info (fn);

  if (info)

    return info->local;

  else

    /* This phase was not run.  */

    return NULL;

}

/* Get a bitmap that contains all of the globally referenced static

   variables for function FN.  */

static ipa_reference_global_vars_info_t

get_global_reference_vars_info (struct cgraph_node *fn)

{

  ipa_reference_vars_info_t info = get_reference_vars_info (fn);

  if (info)

    return info->global;

  else

    /* This phase was not run.  */

    return NULL;

}

/* Return a bitmap indexed by VAR_DECL uid for the static variables

   that are read during the execution of the function FN.  Returns

   NULL if no data is available.  */

bitmap

ipa_reference_get_read_global (struct cgraph_node *fn)

{

  ipa_reference_global_vars_info_t g = get_global_reference_vars_info (fn);

  if (g)

    return g->statics_read;

  else

    return NULL;

}

/* Return a bitmap indexed by VAR_DECL uid for the static variables

   that are written during the execution of the function FN.  Note

   that variables written may or may not be read during the function

   call.  Returns NULL if no data is available.  */

bitmap

ipa_reference_get_written_global (struct cgraph_node *fn)

{

  ipa_reference_global_vars_info_t g = get_global_reference_vars_info (fn);

  if (g)

    return g->statics_written;

  else

    return NULL;

}

/* Return a bitmap indexed by_DECL_UID uid for the static variables

   that are not read during the execution of the function FN.  Returns

   NULL if no data is available.  */

bitmap

ipa_reference_get_not_read_global (struct cgraph_node *fn)

{

  ipa_reference_global_vars_info_t g = get_global_reference_vars_info (fn);

  if (g)

    return g->statics_not_read;

  else

    return NULL;

}

/* Return a bitmap indexed by DECL_UID uid for the static variables

   that are not written during the execution of the function FN.  Note

   that variables written may or may not be read during the function

   call.  Returns NULL if no data is available.  */

bitmap

ipa_reference_get_not_written_global (struct cgraph_node *fn)

{

  ipa_reference_global_vars_info_t g = get_global_reference_vars_info (fn);

  if (g)

    return g->statics_not_written;

  else

    return NULL;

}

/* Add VAR to all_module_statics and the two

   reference_vars_to_consider* sets.  */

static inline void

add_static_var (tree var)

{

  int uid = DECL_UID (var);

  gcc_assert (TREE_CODE (var) == VAR_DECL);

  if (!bitmap_bit_p (all_module_statics, uid))

    {

      splay_tree_insert (reference_vars_to_consider,

                         uid, (splay_tree_value)var);

      bitmap_set_bit (all_module_statics, uid);

    }

}

/* Return true if the variable T is the right kind of static variable to

   perform compilation unit scope escape analysis.  */

static inline bool

has_proper_scope_for_analysis (tree t)

{

  /* If the variable has the "used" attribute, treat it as if it had a

     been touched by the devil.  */

  if (DECL_PRESERVE_P (t))

    return false;

  /* Do not want to do anything with volatile except mark any

     function that uses one to be not const or pure.  */

  if (TREE_THIS_VOLATILE (t))

    return false;

  /* Do not care about a local automatic that is not static.  */

  if (!TREE_STATIC (t) && !DECL_EXTERNAL (t))

    return false;

  /* FIXME: for LTO we should include PUBLIC vars too.  This is bit difficult

     as summarie would need unsharing.  */

  if (DECL_EXTERNAL (t) || TREE_PUBLIC (t))

    return false;

  /* We cannot touch decls where the type needs constructing.  */

  if (TYPE_NEEDS_CONSTRUCTING (TREE_TYPE (t)))

    return false;

  /* This is a variable we care about.  Check if we have seen it

     before, and if not add it the set of variables we care about.  */

  if (!bitmap_bit_p (all_module_statics, DECL_UID (t)))

    add_static_var (t);

  return true;

}

/* Mark tree T as having address taken.  */

static void

mark_address_taken (tree x)

{

  if (TREE_CODE (x) == VAR_DECL

      && module_statics_escape && has_proper_scope_for_analysis (x))

    bitmap_set_bit (module_statics_escape, DECL_UID (x));

}

/* Wrapper around mark_address_taken for the stmt walker.  */

static bool

mark_address (gimple stmt ATTRIBUTE_UNUSED, tree addr,

              void *data ATTRIBUTE_UNUSED)

{

  while (handled_component_p (addr))

    addr = TREE_OPERAND (addr, 0);

  mark_address_taken (addr);

  return false;

}

/* Mark load of T.  */

static bool

mark_load (gimple stmt ATTRIBUTE_UNUSED, tree t, void *data)

{

  ipa_reference_local_vars_info_t local = (ipa_reference_local_vars_info_t)data;

  if (TREE_CODE (t) == VAR_DECL

      && has_proper_scope_for_analysis (t))

    bitmap_set_bit (local->statics_read, DECL_UID (t));

  return false;

}

/* Mark store of T.  */

static bool

mark_store (gimple stmt ATTRIBUTE_UNUSED, tree t, void *data)

{

  ipa_reference_local_vars_info_t local = (ipa_reference_local_vars_info_t)data;

  if (TREE_CODE (t) == VAR_DECL

      && has_proper_scope_for_analysis (t))

    {

      if (local)

        bitmap_set_bit (local->statics_written, DECL_UID (t));

      /* Mark the write so we can tell which statics are

         readonly.  */

      if (module_statics_written)

        bitmap_set_bit (module_statics_written, DECL_UID (t));

    }

  return false;

}

/* Look for memory clobber and set read_all/write_all if present.  */

static void

check_asm_memory_clobber (ipa_reference_local_vars_info_t local, gimple stmt)

{

  size_t i;

  tree op;

  for (i = 0; i < gimple_asm_nclobbers (stmt); i++)

    {

      op = gimple_asm_clobber_op (stmt, i);

      if (simple_cst_equal(TREE_VALUE (op), memory_identifier_string) == 1)

        {

          /* Abandon all hope, ye who enter here. */

          local->calls_read_all = true;

          local->calls_write_all = true;

        }

    }

}

/* Look for external calls and set read_all/write_all correspondingly.  */

static void

check_call (ipa_reference_local_vars_info_t local, gimple stmt)

{

  int flags = gimple_call_flags (stmt);

  tree callee_t = gimple_call_fndecl (stmt);

  /* Process indirect calls.  All direct calles are handled at propagation

     time.  */

  if (!callee_t)

    {

      if (flags & ECF_CONST)

        ;

      else if (flags & ECF_PURE)

        local->calls_read_all = true;

      else

        {

          local->calls_read_all = true;

          /* When function does not reutrn, it is safe to ignore anythign it writes

             to, because the effect will never happen.  */

          if ((flags & (ECF_NOTHROW | ECF_NORETURN))

              != (ECF_NOTHROW | ECF_NORETURN))

            local->calls_write_all = true;

        }

    }

}

/* TP is the part of the tree currently under the microscope.

   WALK_SUBTREES is part of the walk_tree api but is unused here.

   DATA is cgraph_node of the function being walked.  */

static tree

scan_stmt_for_static_refs (gimple_stmt_iterator *gsip,

                           struct cgraph_node *fn)

{

  gimple stmt = gsi_stmt (*gsip);

  ipa_reference_local_vars_info_t local = NULL;

  if (is_gimple_debug (stmt))

    return NULL;

  if (fn)

    local = get_reference_vars_info (fn)->local;

  /* Look for direct loads and stores.  */

  walk_stmt_load_store_addr_ops (stmt, local, mark_load, mark_store,

                                 mark_address);

  if (is_gimple_call (stmt))

    check_call (local, stmt);

  else if (gimple_code (stmt) == GIMPLE_ASM)

    check_asm_memory_clobber (local, stmt);

  return NULL;

}

/* Call-back to scan variable initializers for static references.

   Called using walk_tree.  */

static tree

scan_initializer_for_static_refs (tree *tp, int *walk_subtrees,

                                  void *data ATTRIBUTE_UNUSED)

{

  tree t = *tp;

  if (TREE_CODE (t) == ADDR_EXPR)

    {

      mark_address_taken (get_base_var (t));

      *walk_subtrees = 0;

    }

  /* Save some cycles by not walking types and declaration as we

     won't find anything useful there anyway.  */

  else if (IS_TYPE_OR_DECL_P (*tp))

    *walk_subtrees = 0;

  return NULL;

}

/* Lookup the tree node for the static variable that has UID.  */

static tree

get_static_decl (int index)

{

  splay_tree_node stn =

    splay_tree_lookup (reference_vars_to_consider, index);

  if (stn)

    return (tree)stn->value;

  return NULL;

}

/* Lookup the tree node for the static variable that has UID and

   convert the name to a string for debugging.  */

static const char *

get_static_name (int index)

{

  splay_tree_node stn =

    splay_tree_lookup (reference_vars_to_consider, index);

  if (stn)

    return lang_hooks.decl_printable_name ((tree)(stn->value), 2);

  return NULL;

}

/* Or in all of the bits from every callee of X into X_GLOBAL, the caller's cycle,

   bit vector.  There are several cases to check to avoid the sparse

   bitmap oring.  */

static void

propagate_bits (ipa_reference_global_vars_info_t x_global, struct cgraph_node *x)

{

  struct cgraph_edge *e;

  for (e = x->callees; e; e = e->next_callee)

    {

      struct cgraph_node *y = e->callee;

      /* Only look into nodes we can propagate something.  */

      if (cgraph_function_body_availability (e->callee) > AVAIL_OVERWRITABLE)

        {

          if (get_reference_vars_info (y))

            {

              ipa_reference_vars_info_t y_info

                = get_reference_vars_info (y);

              ipa_reference_global_vars_info_t y_global = y_info->global;

              /* Calls in current cycle do not have global computed yet.  */

              if (!y_info->global)

                continue;

              if (x_global->statics_read

                  != all_module_statics)

                {

                  if (y_global->statics_read

                      == all_module_statics)

                    {

                      BITMAP_FREE (x_global->statics_read);

                      x_global->statics_read

                        = all_module_statics;

                    }

                  /* Skip bitmaps that are pointer equal to node's bitmap

                     (no reason to spin within the cycle).  */

                  else if (x_global->statics_read

                           != y_global->statics_read)

                    bitmap_ior_into (x_global->statics_read,

                                     y_global->statics_read);

                }

              if (x_global->statics_written

                  != all_module_statics)

                {

                  if (y_global->statics_written

                      == all_module_statics)

                    {

                      BITMAP_FREE (x_global->statics_written);

                      x_global->statics_written

                        = all_module_statics;

                    }

                  /* Skip bitmaps that are pointer equal to node's bitmap

                     (no reason to spin within the cycle).  */

                  else if (x_global->statics_written

                           != y_global->statics_written)

                    bitmap_ior_into (x_global->statics_written,

                                     y_global->statics_written);

                }

            }

          else

            gcc_unreachable ();

        }

    }

}

/* The init routine for analyzing global static variable usage.  See

   comments at top for description.  */

static void

ipa_init (void)

{

  static bool init_p = false;

  if (init_p)

    return;

  init_p = true;

  memory_identifier_string = build_string(7, "memory");

  reference_vars_to_consider =

    splay_tree_new_ggc (splay_tree_compare_ints);

  bitmap_obstack_initialize (&local_info_obstack);

  bitmap_obstack_initialize (&global_info_obstack);

  module_statics_escape = BITMAP_ALLOC (&local_info_obstack);

  module_statics_written = BITMAP_ALLOC (&local_info_obstack);

  all_module_statics = BITMAP_ALLOC (&global_info_obstack);

  /* There are some shared nodes, in particular the initializers on

     static declarations.  We do not need to scan them more than once

     since all we would be interested in are the addressof

     operations.  */

  visited_nodes = pointer_set_create ();

  function_insertion_hook_holder =

      cgraph_add_function_insertion_hook (&add_new_function, NULL);

  node_removal_hook_holder =

      cgraph_add_node_removal_hook (&remove_node_data, NULL);

  node_duplication_hook_holder =

      cgraph_add_node_duplication_hook (&duplicate_node_data, NULL);

}

/* Check out the rhs of a static or global initialization VNODE to see

   if any of them contain addressof operations.  Note that some of

   these variables may  not even be referenced in the code in this

   compilation unit but their right hand sides may contain references

   to variables defined within this unit.  */

static void

analyze_variable (struct varpool_node *vnode)

{

  struct walk_stmt_info wi;

  tree global = vnode->decl;

  memset (&wi, 0, sizeof (wi));

  wi.pset = visited_nodes;

  walk_tree (&DECL_INITIAL (global), scan_initializer_for_static_refs,

             &wi, wi.pset);

}

/* Set up the persistent info for FN.  */

static ipa_reference_local_vars_info_t

init_function_info (struct cgraph_node *fn)

{

  ipa_reference_vars_info_t info

    = XCNEW (struct ipa_reference_vars_info_d);

  ipa_reference_local_vars_info_t l

    = XCNEW (struct ipa_reference_local_vars_info_d);

  /* Add the info to the tree's annotation.  */

  set_reference_vars_info (fn, info);

  info->local = l;

  l->statics_read = BITMAP_ALLOC (&local_info_obstack);

  l->statics_written = BITMAP_ALLOC (&local_info_obstack);

  return l;

}

/* This is the main routine for finding the reference patterns for

   global variables within a function FN.  */

static void

analyze_function (struct cgraph_node *fn)

{

  tree decl = fn->decl;

  struct function *this_cfun = DECL_STRUCT_FUNCTION (decl);

  basic_block this_block;

#ifdef ENABLE_CHECKING

  tree step;

#endif

  ipa_reference_local_vars_info_t local;

  if (dump_file)

    fprintf (dump_file, "\n local analysis of %s\n", cgraph_node_name (fn));

  push_cfun (DECL_STRUCT_FUNCTION (decl));

  current_function_decl = decl;

  init_function_info (fn);

  FOR_EACH_BB_FN (this_block, this_cfun)

    {

      gimple_stmt_iterator gsi;

      gimple phi;

      tree op;

      use_operand_p use;

      ssa_op_iter iter;

      /* Find the addresses taken in phi node arguments.  */

      for (gsi = gsi_start_phis (this_block);

           !gsi_end_p (gsi);

           gsi_next (&gsi))

        {

          phi = gsi_stmt (gsi);

          FOR_EACH_PHI_ARG (use, phi, iter, SSA_OP_USE)

            {

              op = USE_FROM_PTR (use);

              if (TREE_CODE (op) == ADDR_EXPR)

                mark_address_taken (get_base_var (op));

            }

        }

      for (gsi = gsi_start_bb (this_block); !gsi_end_p (gsi); gsi_next (&gsi))

        scan_stmt_for_static_refs (&gsi, fn);

    }

  local = get_reference_vars_info (fn)->local;

  if ((flags_from_decl_or_type (decl) & (ECF_NOTHROW | ECF_NORETURN))

      == (ECF_NOTHROW | ECF_NORETURN))

    {

      local->calls_write_all = false;

      bitmap_clear (local->statics_written);

    }

  /* Free bitmaps of direct references if we can not use them anyway.  */

  if (local->calls_write_all)

    BITMAP_FREE (local->statics_written);

  if (local->calls_read_all)

    BITMAP_FREE (local->statics_read);

#ifdef ENABLE_CHECKING

  /* Verify that all local initializers was expanded by gimplifier.  */

  for (step = DECL_STRUCT_FUNCTION (decl)->local_decls;

       step;

       step = TREE_CHAIN (step))

    {

      tree var = TREE_VALUE (step);

      if (TREE_CODE (var) == VAR_DECL

          && DECL_INITIAL (var)

          && !TREE_STATIC (var))

        gcc_unreachable ();

    }

#endif

  pop_cfun ();

  current_function_decl = NULL;

}

/* Remove local data associated with function FN.  */

static void

clean_function_local_data (struct cgraph_node *fn)