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#ifndef SHARE_COMPILER_OOPMAP_HPP
#define SHARE_COMPILER_OOPMAP_HPP
#include "code/compressedStream.hpp"
#include "code/vmreg.hpp"
#include "memory/allocation.hpp"
#include "oops/oopsHierarchy.hpp"
// Interface for generating the frame map for compiled code. A frame map
// describes for a specific pc whether each register and frame stack slot is:
// Oop - A GC root for current frame
// Dead - Dead; can be Zapped for debugging
// CalleeXX - Callee saved; also describes which caller register is saved
// DerivedXX - A derived oop; original oop is described.
//
// OopMapValue describes a single OopMap entry
class frame;
class RegisterMap;
class OopClosure;
class OopMapValue: public StackObj {
friend class VMStructs;
private:
short _value;
int value() const { return _value; }
void set_value(int value) { _value = value; }
short _content_reg;
public:
// Constants
enum { type_bits = 2,
register_bits = BitsPerShort - type_bits };
enum { type_shift = 0,
register_shift = type_bits };
enum { type_mask = right_n_bits(type_bits),
type_mask_in_place = type_mask << type_shift,
register_mask = right_n_bits(register_bits),
register_mask_in_place = register_mask << register_shift };
enum oop_types {
oop_value,
narrowoop_value,
callee_saved_value,
derived_oop_value,
unused_value = -1 // Only used as a sentinel value
};
// Constructors
OopMapValue () { set_value(0); set_content_reg(VMRegImpl::Bad()); }
OopMapValue (VMReg reg, oop_types t, VMReg reg2) {
set_reg_type(reg, t);
set_content_reg(reg2);
}
private:
void set_reg_type(VMReg p, oop_types t) {
set_value((p->value() << register_shift) | t);
assert(reg() == p, "sanity check" );
assert(type() == t, "sanity check" );
}
void set_content_reg(VMReg r) {
if (is_callee_saved()) {
// This can never be a stack location, so we don't need to transform it.
assert(r->is_reg(), "Trying to callee save a stack location");
} else if (is_derived_oop()) {
assert (r->is_valid(), "must have a valid VMReg");
} else {
assert (!r->is_valid(), "valid VMReg not allowed");
}
_content_reg = r->value();
}
public:
// Archiving
void write_on(CompressedWriteStream* stream) {
stream->write_int(value());
if(is_callee_saved() || is_derived_oop()) {
stream->write_int(content_reg()->value());
}
}
void read_from(CompressedReadStream* stream) {
set_value(stream->read_int());
if (is_callee_saved() || is_derived_oop()) {
set_content_reg(VMRegImpl::as_VMReg(stream->read_int(), true));
}
}
// Querying
bool is_oop() { return mask_bits(value(), type_mask_in_place) == oop_value; }
bool is_narrowoop() { return mask_bits(value(), type_mask_in_place) == narrowoop_value; }
bool is_callee_saved() { return mask_bits(value(), type_mask_in_place) == callee_saved_value; }
bool is_derived_oop() { return mask_bits(value(), type_mask_in_place) == derived_oop_value; }
VMReg reg() const { return VMRegImpl::as_VMReg(mask_bits(value(), register_mask_in_place) >> register_shift); }
oop_types type() const { return (oop_types)mask_bits(value(), type_mask_in_place); }
static bool legal_vm_reg_name(VMReg p) {
return (p->value() == (p->value() & register_mask));
}
VMReg content_reg() const { return VMRegImpl::as_VMReg(_content_reg, true); }
// Physical location queries
bool is_register_loc() { return reg()->is_reg(); }
bool is_stack_loc() { return reg()->is_stack(); }
// Returns offset from sp.
int stack_offset() {
assert(is_stack_loc(), "must be stack location");
return reg()->reg2stack();
}
void print_on(outputStream* st) const;
void print() const;
};
class OopMap: public ResourceObj {
friend class OopMapStream;
friend class VMStructs;
private:
int _pc_offset; // offset in the code that this OopMap corresponds to
int _omv_count; // number of OopMapValues in the stream
CompressedWriteStream* _write_stream;
debug_only( OopMapValue::oop_types* _locs_used; int _locs_length;)
// Accessors
int omv_count() const { return _omv_count; }
void set_omv_count(int value) { _omv_count = value; }
void increment_count() { _omv_count++; }
CompressedWriteStream* write_stream() const { return _write_stream; }
void set_write_stream(CompressedWriteStream* value) { _write_stream = value; }
private:
enum DeepCopyToken { _deep_copy_token };
OopMap(DeepCopyToken, OopMap* source); // used only by deep_copy
void set_xxx(VMReg reg, OopMapValue::oop_types x, VMReg optional);
public:
OopMap(int frame_size, int arg_count);
// pc-offset handling
int offset() const { return _pc_offset; }
void set_offset(int o) { _pc_offset = o; }
int count() const { return _omv_count; }
int data_size() const { return write_stream()->position(); }
address data() const { return write_stream()->buffer(); }
// Check to avoid double insertion
debug_only(OopMapValue::oop_types locs_used( int indx ) { return _locs_used[indx]; })
// Construction
// frame_size units are stack-slots (4 bytes) NOT intptr_t; we can name odd
// slots to hold 4-byte values like ints and floats in the LP64 build.
void set_oop ( VMReg local);
void set_narrowoop(VMReg local);
void set_callee_saved( VMReg local, VMReg caller_machine_register );
void set_derived_oop ( VMReg local, VMReg derived_from_local_register );
int heap_size() const;
void copy_data_to(address addr) const;
OopMap* deep_copy();
bool legal_vm_reg_name(VMReg local) {
return OopMapValue::legal_vm_reg_name(local);
}
// Printing
void print_on(outputStream* st) const;
void print() const;
bool equals(const OopMap* other) const;
};
class OopMapSet : public ResourceObj {
friend class VMStructs;
private:
int _om_count;
int _om_size;
OopMap** _om_data;
int om_count() const { return _om_count; }
void set_om_count(int value) { _om_count = value; }
void increment_count() { _om_count++; }
int om_size() const { return _om_size; }
void set_om_size(int value) { _om_size = value; }
OopMap** om_data() const { return _om_data; }
void set_om_data(OopMap** value) { _om_data = value; }
void grow_om_data();
void set(int index,OopMap* value) { assert((index == 0) || ((index > 0) && (index < om_size())),"bad index"); _om_data[index] = value; }
public:
OopMapSet();
// returns the number of OopMaps in this OopMapSet
int size() const { return _om_count; }
// returns the OopMap at a given index
OopMap* at(int index) const { assert((index >= 0) && (index <= om_count()),"bad index"); return _om_data[index]; }
// Collect OopMaps.
void add_gc_map(int pc, OopMap* map);
// Returns the only oop map. Used for reconstructing
// Adapter frames during deoptimization
OopMap* singular_oop_map();
// returns OopMap in that is anchored to the pc
OopMap* find_map_at_offset(int pc_offset) const;
int heap_size() const;
// Methods oops_do() and all_do() filter out NULL oops and
// oop == CompressedOops::base() before passing oops
// to closures.
// Iterates through frame for a compiled method
static void oops_do (const frame* fr,
const RegisterMap* reg_map, OopClosure* f);
static void update_register_map(const frame* fr, RegisterMap *reg_map);
// Iterates through frame for a compiled method for dead ones and values, too
static void all_do(const frame* fr, const RegisterMap* reg_map,
OopClosure* oop_fn,
void derived_oop_fn(oop* base, oop* derived),
OopClosure* value_fn);
// Printing
void print_on(outputStream* st) const;
void print() const;
};
class ImmutableOopMapBuilder;
class ImmutableOopMap {
friend class OopMapStream;
friend class VMStructs;
#ifdef ASSERT
friend class ImmutableOopMapBuilder;
#endif
private:
int _count; // contains the number of entries in this OopMap
address data_addr() const { return (address) this + sizeof(ImmutableOopMap); }
public:
ImmutableOopMap(const OopMap* oopmap);
int count() const { return _count; }
#ifdef ASSERT
int nr_of_bytes() const; // this is an expensive operation, only used in debug builds
#endif
// Printing
void print_on(outputStream* st) const;
void print() const;
};
class ImmutableOopMapSet;
class ImmutableOopMap;
class OopMapSet;
class ImmutableOopMapPair {
friend class VMStructs;
private:
int _pc_offset; // program counter offset from the beginning of the method
int _oopmap_offset; // offset in the data in the ImmutableOopMapSet where the ImmutableOopMap is located
public:
ImmutableOopMapPair(int pc_offset, int oopmap_offset) : _pc_offset(pc_offset), _oopmap_offset(oopmap_offset) {
assert(pc_offset >= 0 && oopmap_offset >= 0, "check");
}
const ImmutableOopMap* get_from(const ImmutableOopMapSet* set) const;
int pc_offset() const { return _pc_offset; }
int oopmap_offset() const { return _oopmap_offset; }
};
class ImmutableOopMapSet {
friend class VMStructs;
private:
int _count; // nr of ImmutableOopMapPairs in the Set
int _size; // nr of bytes including ImmutableOopMapSet itself
address data() const { return (address) this + sizeof(*this) + sizeof(ImmutableOopMapPair) * _count; }
public:
ImmutableOopMapSet(const OopMapSet* oopmap_set, int size) : _count(oopmap_set->size()), _size(size) {}
ImmutableOopMap* oopmap_at_offset(int offset) const {
assert(offset >= 0 && offset < _size, "must be within boundaries");
address addr = data() + offset;
return (ImmutableOopMap*) addr;
}
ImmutableOopMapPair* get_pairs() const { return (ImmutableOopMapPair*) ((address) this + sizeof(*this)); }
static ImmutableOopMapSet* build_from(const OopMapSet* oopmap_set);
const ImmutableOopMap* find_map_at_offset(int pc_offset) const;
const ImmutableOopMapPair* pair_at(int index) const { assert(index >= 0 && index < _count, "check"); return &get_pairs()[index]; }
int count() const { return _count; }
int nr_of_bytes() const { return _size; }
void print_on(outputStream* st) const;
void print() const;
};
class OopMapStream : public StackObj {
private:
CompressedReadStream* _stream;
int _size;
int _position;
bool _valid_omv;
OopMapValue _omv;
void find_next();
public:
OopMapStream(OopMap* oop_map);
OopMapStream(const ImmutableOopMap* oop_map);
bool is_done() { if(!_valid_omv) { find_next(); } return !_valid_omv; }
void next() { find_next(); }
OopMapValue current() { return _omv; }
#ifdef ASSERT
int stream_position() const { return _stream->position(); }
#endif
};
class ImmutableOopMapBuilder {
private:
class Mapping;
private:
const OopMapSet* _set;
const OopMap* _empty;
const OopMap* _last;
int _empty_offset;
int _last_offset;
int _offset;
int _required;
Mapping* _mapping;
ImmutableOopMapSet* _new_set;
/* Used for bookkeeping when building ImmutableOopMaps */
class Mapping : public ResourceObj {
public:
enum kind_t { OOPMAP_UNKNOWN = 0, OOPMAP_NEW = 1, OOPMAP_EMPTY = 2, OOPMAP_DUPLICATE = 3 };
kind_t _kind;
int _offset;
int _size;
const OopMap* _map;
const OopMap* _other;
Mapping() : _kind(OOPMAP_UNKNOWN), _offset(-1), _size(-1), _map(NULL) {}
void set(kind_t kind, int offset, int size, const OopMap* map = 0, const OopMap* other = 0) {
_kind = kind;
_offset = offset;
_size = size;
_map = map;
_other = other;
}
};
public:
ImmutableOopMapBuilder(const OopMapSet* set);
int heap_size();
ImmutableOopMapSet* build();
ImmutableOopMapSet* generate_into(address buffer);
private:
bool is_empty(const OopMap* map) const {
return map->count() == 0;
}
bool is_last_duplicate(const OopMap* map) {
if (_last != NULL && _last->count() > 0 && _last->equals(map)) {
return true;
}
return false;
}
#ifdef ASSERT
void verify(address buffer, int size, const ImmutableOopMapSet* set);
#endif
bool has_empty() const {
return _empty_offset != -1;
}
int size_for(const OopMap* map) const;
void fill_pair(ImmutableOopMapPair* pair, const OopMap* map, int offset, const ImmutableOopMapSet* set);
int fill_map(ImmutableOopMapPair* pair, const OopMap* map, int offset, const ImmutableOopMapSet* set);
void fill(ImmutableOopMapSet* set, int size);
};
// Derived pointer support. This table keeps track of all derived points on a
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