/*
- * Copyright (C) 1995-2008 University of Karlsruhe. All right reserved.
+ * Copyright (C) 1995-2011 University of Karlsruhe. All right reserved.
*
* This file is part of libFirm.
*
* @brief Memory disambiguator
* @author Michael Beck
* @date 27.12.2006
- * @version $Id$
*/
#include "config.h"
/** The global memory disambiguator options. */
static unsigned global_mem_disamgig_opt = aa_opt_no_opt;
-/* Returns a human readable name for an alias relation. */
-const char *get_ir_alias_relation_name(ir_alias_relation rel) {
+const char *get_ir_alias_relation_name(ir_alias_relation rel)
+{
#define X(a) case a: return #a
switch (rel) {
X(ir_no_alias);
X(ir_may_alias);
X(ir_sure_alias);
- default: assert(0); return "UNKNOWN";
+ default:
+ panic("UNKNOWN alias relation");
}
#undef X
}
-/* Get the memory disambiguator options for a graph. */
-unsigned get_irg_memory_disambiguator_options(const ir_graph *irg) {
+unsigned get_irg_memory_disambiguator_options(const ir_graph *irg)
+{
unsigned opt = irg->mem_disambig_opt;
if (opt & aa_opt_inherited)
return global_mem_disamgig_opt;
return opt;
-} /* get_irg_memory_disambiguator_options */
+}
-/* Set the memory disambiguator options for a graph. */
-void set_irg_memory_disambiguator_options(ir_graph *irg, unsigned options) {
+void set_irg_memory_disambiguator_options(ir_graph *irg, unsigned options)
+{
irg->mem_disambig_opt = options & ~aa_opt_inherited;
-} /* set_irg_memory_disambiguator_options */
+}
-/* Set the global disambiguator options for all graphs not having local options. */
-void set_irp_memory_disambiguator_options(unsigned options) {
+void set_irp_memory_disambiguator_options(unsigned options)
+{
global_mem_disamgig_opt = options;
-} /* set_irp_memory_disambiguator_options */
+}
+
+ir_storage_class_class_t get_base_sc(ir_storage_class_class_t x)
+{
+ return x & ~ir_sc_modifiers;
+}
/**
* Find the base address and entity of an Sel node.
*
* @return the base address.
*/
-static ir_node *find_base_adr(const ir_node *sel, ir_entity **pEnt) {
+static ir_node *find_base_adr(const ir_node *sel, ir_entity **pEnt)
+{
ir_node *ptr = get_Sel_ptr(sel);
while (is_Sel(ptr)) {
}
*pEnt = get_Sel_entity(sel);
return ptr;
-} /* find_base_adr */
+}
/**
* Check if a given Const node is greater or equal a given size.
*
* @return ir_no_alias if the Const is greater, ir_may_alias else
*/
-static ir_alias_relation check_const(const ir_node *cns, int size) {
- tarval *tv = get_Const_tarval(cns);
- tarval *tv_size;
+static ir_alias_relation check_const(const ir_node *cns, int size)
+{
+ ir_tarval *tv = get_Const_tarval(cns);
+ ir_tarval *tv_size;
if (size == 0)
return tarval_is_null(tv) ? ir_may_alias : ir_no_alias;
tv_size = new_tarval_from_long(size, get_tarval_mode(tv));
- return tarval_cmp(tv_size, tv) & (pn_Cmp_Eq|pn_Cmp_Lt) ? ir_no_alias : ir_may_alias;
-} /* check_const */
+ return tarval_cmp(tv_size, tv) & (ir_relation_less_equal) ? ir_no_alias : ir_may_alias;
+}
/**
* Treat idx1 and idx2 as integer indexes and check if they differ always more than size.
* ir_no_alias iff they ALWAYS differ more than size
* ir_may_alias else
*/
-static ir_alias_relation different_index(const ir_node *idx1, const ir_node *idx2, int size) {
+static ir_alias_relation different_index(const ir_node *idx1, const ir_node *idx2, int size)
+{
if (idx1 == idx2)
return ir_sure_alias;
if (is_Const(idx1) && is_Const(idx2)) {
/* both are const, we can compare them */
- tarval *tv1 = get_Const_tarval(idx1);
- tarval *tv2 = get_Const_tarval(idx2);
- tarval *tv, *tv_size;
+ ir_tarval *tv1 = get_Const_tarval(idx1);
+ ir_tarval *tv2 = get_Const_tarval(idx2);
+ ir_tarval *tv, *tv_size;
ir_mode *m1, *m2;
if (size == 0)
if (get_mode_sign(m1) != get_mode_sign(m2)) {
/* find the signed */
if (mode_is_signed(m2)) {
- tarval *t = tv1;
+ ir_tarval *t = tv1;
ir_mode *tm = m1;
tv1 = tv2; m1 = m2;
tv2 = t; m2 = tm;
}
/* m1 is now the signed one */
- if (tarval_cmp(tv1, get_tarval_null(m1)) & (pn_Cmp_Eq|pn_Cmp_Gt)) {
+ if (!tarval_is_negative(tv1)) {
/* tv1 is signed, but >= 0, simply cast into unsigned */
tv1 = tarval_convert_to(tv1, m2);
} else {
tv_size = new_tarval_from_long(size, m2);
- if (tarval_cmp(tv2, tv_size) & (pn_Cmp_Eq|pn_Cmp_Gt)) {
+ if (tarval_cmp(tv2, tv_size) & (ir_relation_greater_equal)) {
/* tv1 is negative and tv2 >= tv_size, so the difference is bigger than size */
return ir_no_alias;
}
tv1 = tarval_convert_to(tv1, m2);
/* now we can compare without overflow */
- return tarval_cmp(tv1, tv2) & (pn_Cmp_Eq|pn_Cmp_Gt) ? ir_no_alias : ir_may_alias;
+ return tarval_cmp(tv1, tv2) & (ir_relation_greater_equal) ? ir_no_alias : ir_may_alias;
}
}
}
- if (tarval_cmp(tv1, tv2) == pn_Cmp_Gt) {
- tarval *t = tv1;
+ if (tarval_cmp(tv1, tv2) == ir_relation_greater) {
+ ir_tarval *t = tv1;
tv1 = tv2;
tv2 = t;
}
/* tv1 is now the "smaller" one */
tv = tarval_sub(tv2, tv1, NULL);
tv_size = new_tarval_from_long(size, get_tarval_mode(tv));
- return tarval_cmp(tv_size, tv) & (pn_Cmp_Eq|pn_Cmp_Lt) ? ir_no_alias : ir_may_alias;
+ return tarval_cmp(tv_size, tv) & (ir_relation_less_equal) ? ir_no_alias : ir_may_alias;
}
/* Note: we rely here on the fact that normalization puts constants on the RIGHT side */
}
return ir_may_alias;
-} /* different_index */
+}
/**
- * Two Sel addresses have the same base address, check if there offsets are
+ * Two Sel addresses have the same base address, check if their offsets are
* different.
*
* @param adr1 The first address.
* @param adr2 The second address.
*/
-static ir_alias_relation different_sel_offsets(const ir_node *sel1, const ir_node *sel2) {
+static ir_alias_relation different_sel_offsets(const ir_node *sel1, const ir_node *sel2)
+{
/* seems to be broken */
(void) sel1;
(void) sel2;
(void) different_index;
#endif
return ir_may_alias;
-} /* different_sel_offsets */
+}
/**
* Determine the alias relation by checking if adr1 and adr2 are pointer
{
ir_entity *ent1 = NULL, *ent2 = NULL;
- if (is_Global(adr1))
- ent1 = get_Global_entity(adr1);
+ if (is_SymConst_addr_ent(adr1))
+ ent1 = get_SymConst_entity(adr1);
else if (is_Sel(adr1))
ent1 = get_Sel_entity(adr1);
- if (is_Global(adr2))
- ent2 = get_Global_entity(adr2);
+ if (is_SymConst_addr_ent(adr2))
+ ent2 = get_SymConst_entity(adr2);
else if (is_Sel(adr2))
ent2 = get_Sel_entity(adr2);
}
}
return ir_may_alias;
-} /* different_types */
+}
/**
* Returns non-zero if a node is a result on a malloc-like routine.
*
* @param node the Proj node to test
*/
-static int is_malloc_Result(const ir_node *node) {
+static int is_malloc_Result(const ir_node *node)
+{
node = get_Proj_pred(node);
if (! is_Proj(node))
return 0;
if (! is_Call(node))
return 0;
node = get_Call_ptr(node);
- if (is_Global(node)) {
- ir_entity *ent = get_Global_entity(node);
+ if (is_SymConst_addr_ent(node)) {
+ ir_entity *ent = get_SymConst_entity(node);
if (get_entity_additional_properties(ent) & mtp_property_malloc)
return 1;
return 0;
}
return 0;
-} /* is_malloc_Result */
+}
-/**
- * Classify a base pointer.
- *
- * @param irg the graph of the pointer
- * @param irn the node representing the base address
- * @param ent the base entity of the base address iff any
- */
-ir_storage_class_class_t classify_pointer(const ir_graph *irg, const ir_node *irn, const ir_entity *ent)
+ir_storage_class_class_t classify_pointer(const ir_node *irn,
+ const ir_entity *ent)
{
+ ir_graph *irg = get_irn_irg(irn);
ir_storage_class_class_t res = ir_sc_pointer;
- if (is_Global(irn)) {
- ir_entity *entity = get_Global_entity(irn);
- res = ir_sc_globalvar;
+ if (is_SymConst_addr_ent(irn)) {
+ ir_entity *entity = get_SymConst_entity(irn);
+ ir_type *owner = get_entity_owner(entity);
+ res = owner == get_tls_type() ? ir_sc_tls : ir_sc_globalvar;
if (! (get_entity_usage(entity) & ir_usage_address_taken))
res |= ir_sc_modifier_nottaken;
} else if (irn == get_irg_frame(irg)) {
res = ir_sc_localvar;
if (ent != NULL && !(get_entity_usage(ent) & ir_usage_address_taken))
res |= ir_sc_modifier_nottaken;
- } else if (irn == get_irg_tls(irg)) {
- res = ir_sc_tls;
- if (ent != NULL && !(get_entity_usage(ent) & ir_usage_address_taken))
- res |= ir_sc_modifier_nottaken;
} else if (is_Proj(irn) && is_malloc_Result(irn)) {
return ir_sc_malloced;
} else if (is_Const(irn)) {
/**
* If adr represents a Bitfield Sel, skip it
*/
-static const ir_node *skip_Bitfield_Sels(const ir_node *adr) {
+static const ir_node *skip_Bitfield_Sels(const ir_node *adr)
+{
if (is_Sel(adr)) {
ir_entity *ent = get_Sel_entity(adr);
ir_type *bf_type = get_entity_type(ent);
/**
* Determine the alias relation between two addresses.
*
- * @param irg the graph of both memory operations
* @param addr1 pointer address of the first memory operation
* @param mode1 the mode of the accessed data through addr1
* @param addr2 pointer address of the second memory operation
* @return found memory relation
*/
static ir_alias_relation _get_alias_relation(
- const ir_graph *irg,
const ir_node *adr1, const ir_mode *mode1,
const ir_node *adr2, const ir_mode *mode2)
{
const ir_node *base2;
const ir_node *orig_adr1 = adr1;
const ir_node *orig_adr2 = adr2;
+ ir_graph *irg;
unsigned mode_size;
ir_storage_class_class_t class1, class2, mod1, mod2;
int have_const_offsets;
if (adr1 == adr2)
return ir_sure_alias;
+ irg = get_irn_irg(adr1);
options = get_irg_memory_disambiguator_options(irg);
/* The Armageddon switch */
while (is_Add(adr1)) {
ir_node *add_right = get_Add_right(adr1);
if (is_Const(add_right) && !mode_is_reference(get_irn_mode(add_right))) {
- tarval *tv = get_Const_tarval(add_right);
+ ir_tarval *tv = get_Const_tarval(add_right);
offset1 += get_tarval_long(tv);
adr1 = get_Add_left(adr1);
} else if (mode_is_reference(get_irn_mode(add_right))) {
while (is_Add(adr2)) {
ir_node *add_right = get_Add_right(adr2);
if (is_Const(add_right) && !mode_is_reference(get_irn_mode(add_right))) {
- tarval *tv = get_Const_tarval(add_right);
+ ir_tarval *tv = get_Const_tarval(add_right);
offset2 += get_tarval_long(tv);
adr2 = get_Add_left(adr2);
} else if (mode_is_reference(get_irn_mode(add_right))) {
/*
* Bitfields can be constructed as Sels from its base address.
* As they have different entities, the disambiguator would find that they are
- * alias free. While this is true for it's values, it is false for the addresses
+ * alias free. While this is true for its values, it is false for the addresses
* (strictly speaking, the Sel's are NOT the addresses of the bitfields).
* So, skip those bitfield selecting Sel's.
*/
return different_sel_offsets(adr1, adr2);
}
- mod1 = classify_pointer(irg, base1, ent1);
- mod2 = classify_pointer(irg, base2, ent2);
+ mod1 = classify_pointer(base1, ent1);
+ mod2 = classify_pointer(base2, ent2);
- class1 = GET_BASE_SC(mod1);
- class2 = GET_BASE_SC(mod2);
+ class1 = get_base_sc(mod1);
+ class2 = get_base_sc(mod2);
+
+ /* struct-access cannot alias with variables */
+ if (ent1 == NULL && ent2 != NULL && is_compound_type(get_entity_owner(ent2))
+ && (class1 == ir_sc_globalvar || class1 == ir_sc_localvar || class1 == ir_sc_tls || class1 == ir_sc_globaladdr)) {
+ return ir_no_alias;
+ }
+ if (ent2 == NULL && ent1 != NULL && is_compound_type(get_entity_owner(ent1))
+ && (class2 == ir_sc_globalvar || class2 == ir_sc_localvar || class2 == ir_sc_tls || class2 == ir_sc_globaladdr)) {
+ return ir_no_alias;
+ }
if (class1 == ir_sc_pointer || class2 == ir_sc_pointer) {
/* swap pointer class to class1 */
ir_storage_class_class_t temp = mod1;
mod1 = mod2;
mod2 = temp;
- class1 = GET_BASE_SC(mod1);
- class2 = GET_BASE_SC(mod2);
+ class1 = get_base_sc(mod1);
+ class2 = get_base_sc(mod2);
}
/* a pointer and an object whose address was never taken */
if (mod2 & ir_sc_modifier_nottaken) {
/* for some reason CSE didn't happen yet for the 2 SymConsts... */
return ir_may_alias;
} else if (class1 == ir_sc_globaladdr) {
- tarval *tv = get_Const_tarval(base1);
- offset1 += get_tarval_long(tv);
- tv = get_Const_tarval(base2);
- offset2 += get_tarval_long(tv);
+ ir_tarval *tv = get_Const_tarval(base1);
+ offset1 += get_tarval_long(tv);
+ tv = get_Const_tarval(base2);
+ offset2 += get_tarval_long(tv);
if ((unsigned long)labs(offset2 - offset1) >= mode_size)
return ir_no_alias;
/* do we have a language specific memory disambiguator? */
if (language_disambuigator != NULL) {
- ir_alias_relation rel = language_disambuigator(irg, orig_adr1, mode1, orig_adr2, mode2);
+ ir_alias_relation rel = language_disambuigator(orig_adr1, mode1, orig_adr2, mode2);
if (rel != ir_may_alias)
return rel;
}
/* access points-to information here */
return ir_may_alias;
-} /* _get_alias_relation */
+}
-/*
- * Determine the alias relation between two addresses.
- */
ir_alias_relation get_alias_relation(
- const ir_graph *irg,
const ir_node *adr1, const ir_mode *mode1,
const ir_node *adr2, const ir_mode *mode2)
{
- ir_alias_relation rel = _get_alias_relation(irg, adr1, mode1, adr2, mode2);
+ ir_alias_relation rel = _get_alias_relation(adr1, mode1, adr2, mode2);
DB((dbg, LEVEL_1, "alias(%+F, %+F) = %s\n", adr1, adr2, get_ir_alias_relation_name(rel)));
return rel;
-} /* get_alias_relation */
+}
-/* Set a source language specific memory disambiguator function. */
-void set_language_memory_disambiguator(DISAMBIGUATOR_FUNC func) {
+void set_language_memory_disambiguator(DISAMBIGUATOR_FUNC func)
+{
language_disambuigator = func;
-} /* set_language_memory_disambiguator */
+}
/** The result cache for the memory disambiguator. */
static set *result_cache = NULL;
/** An entry in the relation cache. */
typedef struct mem_disambig_entry {
- const ir_node *adr1; /**< The first address. */
- const ir_mode *mode1; /**< The first address mode. */
- const ir_node *adr2; /**< The second address. */
- const ir_mode *mode2; /**< The second address mode. */
+ const ir_node *adr1; /**< The first address. */
+ const ir_mode *mode1; /**< The first address mode. */
+ const ir_node *adr2; /**< The second address. */
+ const ir_mode *mode2; /**< The second address mode. */
ir_alias_relation result; /**< The alias relation result. */
} mem_disambig_entry;
-#define HASH_ENTRY(adr1, adr2) (HASH_PTR(adr1) ^ HASH_PTR(adr2))
+#define HASH_ENTRY(adr1, adr2) (hash_ptr(adr1) ^ hash_ptr(adr2))
/**
* Compare two relation cache entries.
*/
-static int cmp_mem_disambig_entry(const void *elt, const void *key, size_t size) {
- const mem_disambig_entry *p1 = elt;
- const mem_disambig_entry *p2 = key;
+static int cmp_mem_disambig_entry(const void *elt, const void *key, size_t size)
+{
+ const mem_disambig_entry *p1 = (const mem_disambig_entry*) elt;
+ const mem_disambig_entry *p2 = (const mem_disambig_entry*) key;
(void) size;
return p1->adr1 == p2->adr1 && p1->adr2 == p2->adr2 &&
p1->mode1 == p2->mode1 && p1->mode2 == p2->mode2;
-} /* cmp_mem_disambig_entry */
+}
-/**
- * Initialize the relation cache.
- */
-void mem_disambig_init(void) {
+void mem_disambig_init(void)
+{
result_cache = new_set(cmp_mem_disambig_entry, 8);
-} /* mem_disambig_init */
+}
-/*
- * Determine the alias relation between two addresses.
- */
ir_alias_relation get_alias_relation_ex(
- const ir_graph *irg,
const ir_node *adr1, const ir_mode *mode1,
const ir_node *adr2, const ir_mode *mode2)
{
key.adr2 = adr2;
key.mode1 = mode1;
key.mode2 = mode2;
- entry = set_find(result_cache, &key, sizeof(key), HASH_ENTRY(adr1, adr2));
+ entry = set_find(mem_disambig_entry, result_cache, &key, sizeof(key), HASH_ENTRY(adr1, adr2));
if (entry != NULL)
return entry->result;
- key.result = get_alias_relation(irg, adr1, mode1, adr2, mode2);
+ key.result = get_alias_relation(adr1, mode1, adr2, mode2);
- set_insert(result_cache, &key, sizeof(key), HASH_ENTRY(adr1, adr2));
+ (void)set_insert(mem_disambig_entry, result_cache, &key, sizeof(key), HASH_ENTRY(adr1, adr2));
return key.result;
-} /* get_alias_relation_ex */
+}
-/* Free the relation cache. */
-void mem_disambig_term(void) {
+void mem_disambig_term(void)
+{
if (result_cache != NULL) {
del_set(result_cache);
result_cache = NULL;
}
-} /* mem_disambig_term */
+}
/**
* Check the mode of a Load/Store with the mode of the entity
*
* @return non-zero if the Load/Store is a hidden cast, zero else
*/
-static int is_hidden_cast(const ir_mode *mode, const ir_mode *ent_mode) {
+static int is_hidden_cast(const ir_mode *mode, const ir_mode *ent_mode)
+{
if (ent_mode == NULL)
return false;
if (ent_mode != mode) {
if (ent_mode == NULL ||
get_mode_size_bits(ent_mode) != get_mode_size_bits(mode) ||
- get_mode_sort(ent_mode) != get_mode_sort(mode) ||
get_mode_arithmetic(ent_mode) != irma_twos_complement ||
get_mode_arithmetic(mode) != irma_twos_complement)
return true;
}
return false;
-} /* is_hidden_cast */
+}
/**
* Determine the usage state of a node (or its successor Sels).
*
* @param irn the node
*/
-static ir_entity_usage determine_entity_usage(const ir_node *irn, ir_entity *entity) {
+static ir_entity_usage determine_entity_usage(const ir_node *irn, ir_entity *entity)
+{
int i;
ir_mode *emode, *mode;
ir_node *value;
ir_type *tp;
- ir_entity_usage res = 0;
+ unsigned res = 0;
for (i = get_irn_n_outs(irn) - 1; i >= 0; --i) {
ir_node *succ = get_irn_out(irn, i);
res |= determine_entity_usage(succ, entity);
break;
case iro_Sel: {
- ir_entity *entity = get_Sel_entity(succ);
+ ir_entity *sel_entity = get_Sel_entity(succ);
/* this analysis can't handle unions correctly */
- if (is_Union_type(get_entity_owner(entity))) {
+ if (is_Union_type(get_entity_owner(sel_entity))) {
res |= ir_usage_unknown;
break;
}
/* Check the successor of irn. */
- res |= determine_entity_usage(succ, entity);
+ res |= determine_entity_usage(succ, sel_entity);
break;
}
}
}
- return res;
+ return (ir_entity_usage) res;
}
/**
* Update the usage flags of all frame entities.
*/
-static void analyse_irg_entity_usage(ir_graph *irg) {
+static void analyse_irg_entity_usage(ir_graph *irg)
+{
ir_type *ft = get_irg_frame_type(irg);
ir_node *irg_frame;
- int i, j, k, static_link_arg;
+ size_t i, n;
+ int j, k, static_link_arg;
+
+ assure_irg_properties(irg, IR_GRAPH_PROPERTY_CONSISTENT_OUTS);
/* set initial state to not_taken, as this is the "smallest" state */
- for (i = get_class_n_members(ft) - 1; i >= 0; --i) {
+ for (i = 0, n = get_class_n_members(ft); i < n; ++i) {
ir_entity *ent = get_class_member(ft, i);
/* methods can only be analyzed globally */
if (! is_method_entity(ent)) {
- ir_entity_usage flags = 0;
+ ir_entity_usage flags = ir_usage_none;
if (get_entity_linkage(ent) & IR_LINKAGE_HIDDEN_USER)
flags = ir_usage_unknown;
set_entity_usage(ent, flags);
}
}
- assure_irg_outs(irg);
-
irg_frame = get_irg_frame(irg);
- for (i = get_irn_n_outs(irg_frame) - 1; i >= 0; --i) {
- ir_node *succ = get_irn_out(irg_frame, i);
+ for (j = get_irn_n_outs(irg_frame) - 1; j >= 0; --j) {
+ ir_node *succ = get_irn_out(irg_frame, j);
ir_entity *entity;
- ir_entity_usage flags;
+ unsigned flags;
if (!is_Sel(succ))
continue;
entity = get_Sel_entity(succ);
flags = get_entity_usage(entity);
flags |= determine_entity_usage(succ, entity);
- set_entity_usage(entity, flags);
+ set_entity_usage(entity, (ir_entity_usage) flags);
}
/* check inner functions accessing outer frame */
static_link_arg = 0;
- for (i = get_class_n_members(ft) - 1; i >= 0; --i) {
+ for (i = 0, n = get_class_n_members(ft); i < n; ++i) {
ir_entity *ent = get_class_member(ft, i);
ir_graph *inner_irg;
ir_node *args;
if (get_entity_owner(entity) == ft) {
/* found an access to the outer frame */
- ir_entity_usage flags;
+ unsigned flags;
flags = get_entity_usage(entity);
flags |= determine_entity_usage(succ, entity);
- set_entity_usage(entity, flags);
+ set_entity_usage(entity, (ir_entity_usage) flags);
}
}
}
}
}
-
/* now computed */
- irg->entity_usage_state = ir_entity_usage_computed;
-}
-
-ir_entity_usage_computed_state get_irg_entity_usage_state(const ir_graph *irg) {
- return irg->entity_usage_state;
-}
-
-void set_irg_entity_usage_state(ir_graph *irg, ir_entity_usage_computed_state state) {
- irg->entity_usage_state = state;
+ add_irg_properties(irg, IR_GRAPH_PROPERTY_CONSISTENT_ENTITY_USAGE);
}
void assure_irg_entity_usage_computed(ir_graph *irg)
{
- if (irg->entity_usage_state != ir_entity_usage_not_computed)
+ if (irg_has_properties(irg, IR_GRAPH_PROPERTY_CONSISTENT_ENTITY_USAGE))
return;
analyse_irg_entity_usage(irg);
*/
static void init_entity_usage(ir_type *tp)
{
- int i;
+ size_t i, n;
/* We have to be conservative: All external visible entities are unknown */
- for (i = get_compound_n_members(tp) - 1; i >= 0; --i) {
- ir_entity *ent = get_compound_member(tp, i);
- ir_entity_usage flags = ir_usage_none;
+ for (i = 0, n = get_compound_n_members(tp); i < n; ++i) {
+ ir_entity *ent = get_compound_member(tp, i);
+ unsigned flags = ir_usage_none;
- if (! (get_entity_linkage(ent) & IR_LINKAGE_LOCAL)) {
+ if (entity_is_externally_visible(ent)) {
flags |= ir_usage_unknown;
}
- set_entity_usage(ent, flags);
+ set_entity_usage(ent, (ir_entity_usage) flags);
}
}
*/
static void check_initializer_nodes(ir_initializer_t *initializer)
{
- unsigned i;
- ir_node *n;
+ size_t i;
+ ir_node *n;
switch (initializer->kind) {
case IR_INITIALIZER_CONST:
/* let's check if it's an address */
n = initializer->consti.value;
- if (is_Global(n)) {
- ir_entity *ent = get_Global_entity(n);
+ if (is_SymConst_addr_ent(n)) {
+ ir_entity *ent = get_SymConst_entity(n);
set_entity_usage(ent, ir_usage_unknown);
}
return;
return;
}
panic("invalid initializer found");
-} /* check_initializer_nodes */
+}
/**
* Mark all entities used in the initializer for the given entity as unknown
*/
static void check_initializer(ir_entity *ent)
{
- ir_node *n;
- int i;
-
/* Beware: Methods are always initialized with "themself". This does not
* count as a taken address.
* TODO: this initialisation with "themself" is wrong and should be removed
if (ent->initializer != NULL) {
check_initializer_nodes(ent->initializer);
- } else if (entity_has_compound_ent_values(ent)) {
- for (i = get_compound_ent_n_values(ent) - 1; i >= 0; --i) {
- n = get_compound_ent_value(ent, i);
-
- /* let's check if it's an address */
- if (is_Global(n)) {
- ir_entity *ent = get_Global_entity(n);
- set_entity_usage(ent, ir_usage_unknown);
- }
- }
}
}
*
* @param tp a compound type
*/
-static void check_initializers(ir_type *tp) {
- int i;
+static void check_initializers(ir_type *tp)
+{
+ size_t i, n;
- for (i = get_compound_n_members(tp) - 1; i >= 0; --i) {
+ for (i = 0, n = get_compound_n_members(tp); i < n; ++i) {
ir_entity *ent = get_compound_member(tp, i);
check_initializer(ent);
}
-} /* check_initializers */
+}
#ifdef DEBUG_libfirm
/**
*
* @param tp a compound type
*/
-static void print_entity_usage_flags(ir_type *tp) {
- int i;
- for (i = get_compound_n_members(tp) - 1; i >= 0; --i) {
+static void print_entity_usage_flags(const ir_type *tp)
+{
+ size_t i, n;
+ for (i = 0, n = get_compound_n_members(tp); i < n; ++i) {
ir_entity *ent = get_compound_member(tp, i);
ir_entity_usage flags = get_entity_usage(ent);
/**
* Post-walker: check for global entity address
*/
-static void check_global_address(ir_node *irn, void *env) {
- ir_node *tls = env;
+static void check_global_address(ir_node *irn, void *data)
+{
ir_entity *ent;
- ir_entity_usage flags;
+ unsigned flags;
+ (void) data;
- if (is_Global(irn)) {
+ if (is_SymConst_addr_ent(irn)) {
/* A global. */
- ent = get_Global_entity(irn);
- } else if (is_Sel(irn) && get_Sel_ptr(irn) == tls) {
- /* A TLS variable. */
- ent = get_Sel_entity(irn);
+ ent = get_SymConst_entity(irn);
} else
return;
flags = get_entity_usage(ent);
flags |= determine_entity_usage(irn, ent);
- set_entity_usage(ent, flags);
-} /* check_global_address */
+ set_entity_usage(ent, (ir_entity_usage) flags);
+}
/**
* Update the entity usage flags of all global entities.
*/
-static void analyse_irp_globals_entity_usage(void) {
- int i;
+static void analyse_irp_globals_entity_usage(void)
+{
+ size_t i, n;
ir_segment_t s;
for (s = IR_SEGMENT_FIRST; s <= IR_SEGMENT_LAST; ++s) {
check_initializers(type);
}
- for (i = get_irp_n_irgs() - 1; i >= 0; --i) {
+ for (i = 0, n = get_irp_n_irgs(); i < n; ++i) {
ir_graph *irg = get_irp_irg(i);
assure_irg_outs(irg);
- irg_walk_graph(irg, NULL, check_global_address, get_irg_tls(irg));
+ irg_walk_graph(irg, NULL, check_global_address, NULL);
}
#ifdef DEBUG_libfirm
if (firm_dbg_get_mask(dbg) & LEVEL_1) {
- ir_segment_t s;
for (s = IR_SEGMENT_FIRST; s <= IR_SEGMENT_LAST; ++s) {
print_entity_usage_flags(get_segment_type(s));
}
irp->globals_entity_usage_state = ir_entity_usage_computed;
}
-/* Returns the current address taken state of the globals. */
-ir_entity_usage_computed_state get_irp_globals_entity_usage_state(void) {
+ir_entity_usage_computed_state get_irp_globals_entity_usage_state(void)
+{
return irp->globals_entity_usage_state;
}
-/* Sets the current address taken state of the graph. */
-void set_irp_globals_entity_usage_state(ir_entity_usage_computed_state state) {
+void set_irp_globals_entity_usage_state(ir_entity_usage_computed_state state)
+{
irp->globals_entity_usage_state = state;
}
-/* Assure that the address taken flag is computed for the globals. */
-void assure_irp_globals_entity_usage_computed(void) {
+void assure_irp_globals_entity_usage_computed(void)
+{
if (irp->globals_entity_usage_state != ir_entity_usage_not_computed)
return;
analyse_irp_globals_entity_usage();
}
-void firm_init_memory_disambiguator(void) {
+void firm_init_memory_disambiguator(void)
+{
FIRM_DBG_REGISTER(dbg, "firm.ana.irmemory");
FIRM_DBG_REGISTER(dbgcall, "firm.opt.cc");
}
*/
static ir_type *clone_type_and_cache(ir_type *tp)
{
- ir_type *res;
- pmap_entry *e = pmap_find(mtp_map, tp);
+ ir_type *res = pmap_get(ir_type, mtp_map, tp);
- if (e)
- return e->value;
-
- res = clone_type_method(tp);
- pmap_insert(mtp_map, tp, res);
+ if (res == NULL) {
+ res = clone_type_method(tp);
+ pmap_insert(mtp_map, tp, res);
+ }
return res;
-} /* clone_type_and_cache */
+}
/**
* Walker: clone all call types of Calls to methods having the
* mtp_property_private property set.
*/
-static void update_calls_to_private(ir_node *call, void *env) {
+static void update_calls_to_private(ir_node *call, void *env)
+{
(void) env;
if (is_Call(call)) {
ir_node *ptr = get_Call_ptr(call);
if (get_entity_additional_properties(ent) & mtp_property_private) {
if ((get_method_additional_properties(ctp) & mtp_property_private) == 0) {
ctp = clone_type_and_cache(ctp);
- set_method_additional_property(ctp, mtp_property_private);
+ add_method_additional_properties(ctp, mtp_property_private);
set_Call_type(call, ctp);
DB((dbgcall, LEVEL_1, "changed call to private method %+F using cloned type %+F\n", ent, ctp));
}
}
}
}
-} /* update_calls_to_private */
+}
-/* Mark all private methods, i.e. those of which all call sites are known. */
void mark_private_methods(void)
{
- int i;
+ size_t i, n;
int changed = 0;
assure_irp_globals_entity_usage_computed();
mtp_map = pmap_create();
/* first step: change the calling conventions of the local non-escaped entities */
- for (i = get_irp_n_irgs() - 1; i >= 0; --i) {
+ for (i = 0, n = get_irp_n_irgs(); i < n; ++i) {
ir_graph *irg = get_irp_irg(i);
ir_entity *ent = get_irg_entity(irg);
ir_entity_usage flags = get_entity_usage(ent);
- ir_linkage linkage = get_entity_linkage(ent);
- if ((linkage & IR_LINKAGE_LOCAL) &&
- !(linkage & IR_LINKAGE_HIDDEN_USER) &&
- !(flags & ir_usage_address_taken)) {
+ if (!(flags & ir_usage_address_taken) && !entity_is_externally_visible(ent)) {
ir_type *mtp = get_entity_type(ent);
- set_entity_additional_property(ent, mtp_property_private);
+ add_entity_additional_properties(ent, mtp_property_private);
DB((dbgcall, LEVEL_1, "found private method %+F\n", ent));
if ((get_method_additional_properties(mtp) & mtp_property_private) == 0) {
/* need a new type */
mtp = clone_type_and_cache(mtp);
- set_method_additional_property(mtp, mtp_property_private);
+ add_method_additional_properties(mtp, mtp_property_private);
set_entity_type(ent, mtp);
DB((dbgcall, LEVEL_2, "changed entity type of %+F to %+F\n", ent, mtp));
changed = 1;
all_irg_walk(NULL, update_calls_to_private, NULL);
pmap_destroy(mtp_map);
-} /* mark_private_methods */
+}
-/* create a pass for mark_private_methods() */
-ir_prog_pass_t *mark_private_methods_pass(const char *name) {
+ir_prog_pass_t *mark_private_methods_pass(const char *name)
+{
return def_prog_pass(name ? name : "mark_private_methods", mark_private_methods);
-} /* mark_private_methods_pass */
+}