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* version 2 for more details (a copy is included in the LICENSE file that
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#ifndef SHARE_C1_C1_FRAMEMAP_HPP
#define SHARE_C1_C1_FRAMEMAP_HPP
#include "asm/macroAssembler.hpp"
#include "c1/c1_Defs.hpp"
#include "c1/c1_LIR.hpp"
#include "code/vmreg.hpp"
#include "memory/allocation.hpp"
#include "runtime/frame.hpp"
#include "runtime/synchronizer.hpp"
#include "utilities/globalDefinitions.hpp"
#include "utilities/macros.hpp"
class ciMethod;
class CallingConvention;
//--------------------------------------------------------
// FrameMap
//--------------------------------------------------------
// This class is responsible of mapping items (locals, monitors, spill
// slots and registers to their frame location
//
// The monitors are specified by a consecutive index, although each monitor entry
// occupies two words. The monitor_index is 0.._num_monitors
// The spill index is similar to local index; it is in range 0..(open)
//
// The CPU registers are mapped using a fixed table; register with number 0
// is the most used one.
// stack grow direction --> SP
// +----------+---+----------+-------+------------------------+-----+
// |arguments | x | monitors | spill | reserved argument area | ABI |
// +----------+---+----------+-------+------------------------+-----+
//
// x = ABI area (SPARC) or return adress and link (i486)
// ABI = ABI area (SPARC) or nothing (i486)
class LIR_OprDesc;
typedef LIR_OprDesc* LIR_Opr;
class FrameMap : public CompilationResourceObj {
public:
enum {
nof_cpu_regs = pd_nof_cpu_regs_frame_map,
nof_fpu_regs = pd_nof_fpu_regs_frame_map,
nof_cpu_regs_reg_alloc = pd_nof_cpu_regs_reg_alloc,
nof_fpu_regs_reg_alloc = pd_nof_fpu_regs_reg_alloc,
max_nof_caller_save_cpu_regs = pd_nof_caller_save_cpu_regs_frame_map,
nof_caller_save_fpu_regs = pd_nof_caller_save_fpu_regs_frame_map,
spill_slot_size_in_bytes = 4
};
#include CPU_HEADER(c1_FrameMap)
friend class LIR_OprDesc;
private:
static bool _init_done;
static Register _cpu_rnr2reg [nof_cpu_regs];
static int _cpu_reg2rnr [nof_cpu_regs];
static LIR_Opr _caller_save_cpu_regs [max_nof_caller_save_cpu_regs];
static LIR_Opr _caller_save_fpu_regs [nof_caller_save_fpu_regs];
int _framesize;
int _argcount;
int _num_monitors;
int _num_spills;
int _reserved_argument_area_size;
int _oop_map_arg_count;
CallingConvention* _incoming_arguments;
intArray* _argument_locations;
void check_spill_index (int spill_index) const { assert(spill_index >= 0, "bad index"); }
void check_monitor_index (int monitor_index) const { assert(monitor_index >= 0 &&
monitor_index < _num_monitors, "bad index"); }
static Register cpu_rnr2reg (int rnr) {
assert(_init_done, "tables not initialized");
debug_only(cpu_range_check(rnr);)
return _cpu_rnr2reg[rnr];
}
static int cpu_reg2rnr (Register reg) {
assert(_init_done, "tables not initialized");
debug_only(cpu_range_check(reg->encoding());)
return _cpu_reg2rnr[reg->encoding()];
}
static void map_register(int rnr, Register reg) {
debug_only(cpu_range_check(rnr);)
debug_only(cpu_range_check(reg->encoding());)
_cpu_rnr2reg[rnr] = reg;
_cpu_reg2rnr[reg->encoding()] = rnr;
}
void update_reserved_argument_area_size (int size) {
assert(size >= 0, "check");
_reserved_argument_area_size = MAX2(_reserved_argument_area_size, size);
}
protected:
#ifndef PRODUCT
static void cpu_range_check (int rnr) { assert(0 <= rnr && rnr < nof_cpu_regs, "cpu register number is too big"); }
static void fpu_range_check (int rnr) { assert(0 <= rnr && rnr < nof_fpu_regs, "fpu register number is too big"); }
#endif
ByteSize sp_offset_for_monitor_base(const int idx) const;
Address make_new_address(ByteSize sp_offset) const;
ByteSize sp_offset_for_slot(const int idx) const;
ByteSize sp_offset_for_double_slot(const int idx) const;
ByteSize sp_offset_for_spill(const int idx) const;
ByteSize sp_offset_for_monitor_lock(int monitor_index) const;
ByteSize sp_offset_for_monitor_object(int monitor_index) const;
VMReg sp_offset2vmreg(ByteSize offset) const;
// platform dependent hook used to check that frame is properly
// addressable on the platform. Used by sparc to verify that all
// stack addresses are expressable in a simm13.
bool validate_frame();
static LIR_Opr map_to_opr(BasicType type, VMRegPair* reg, bool incoming);
public:
// Opr representing the stack_pointer on this platform
static LIR_Opr stack_pointer();
// JSR 292
static LIR_Opr method_handle_invoke_SP_save_opr();
static BasicTypeArray* signature_type_array_for(const ciMethod* method);
// for outgoing calls, these also update the reserved area to
// include space for arguments and any ABI area.
CallingConvention* c_calling_convention(const BasicTypeArray* signature);
CallingConvention* java_calling_convention(const BasicTypeArray* signature, bool outgoing);
// deopt support
ByteSize sp_offset_for_orig_pc() { return sp_offset_for_monitor_base(_num_monitors); }
static LIR_Opr as_opr(Register r) {
return LIR_OprFact::single_cpu(cpu_reg2rnr(r));
}
static LIR_Opr as_oop_opr(Register r) {
return LIR_OprFact::single_cpu_oop(cpu_reg2rnr(r));
}
static LIR_Opr as_metadata_opr(Register r) {
return LIR_OprFact::single_cpu_metadata(cpu_reg2rnr(r));
}
static LIR_Opr as_address_opr(Register r) {
return LIR_OprFact::single_cpu_address(cpu_reg2rnr(r));
}
FrameMap(ciMethod* method, int monitors, int reserved_argument_area_size);
bool finalize_frame(int nof_slots);
int reserved_argument_area_size () const { return _reserved_argument_area_size; }
int framesize () const { assert(_framesize != -1, "hasn't been calculated"); return _framesize; }
ByteSize framesize_in_bytes () const { return in_ByteSize(framesize() * 4); }
int num_monitors () const { return _num_monitors; }
int num_spills () const { assert(_num_spills >= 0, "not set"); return _num_spills; }
int argcount () const { assert(_argcount >= 0, "not set"); return _argcount; }
int oop_map_arg_count() const { return _oop_map_arg_count; }
CallingConvention* incoming_arguments() const { return _incoming_arguments; }
// convenience routines
Address address_for_slot(int index, int sp_adjust = 0) const {
return make_new_address(sp_offset_for_slot(index) + in_ByteSize(sp_adjust));
}
Address address_for_double_slot(int index, int sp_adjust = 0) const {
return make_new_address(sp_offset_for_double_slot(index) + in_ByteSize(sp_adjust));
}
Address address_for_monitor_lock(int monitor_index) const {
return make_new_address(sp_offset_for_monitor_lock(monitor_index));
}
Address address_for_monitor_object(int monitor_index) const {
return make_new_address(sp_offset_for_monitor_object(monitor_index));
}
// Creates Location describing desired slot and returns it via pointer
// to Location object. Returns true if the stack frame offset was legal
// (as defined by Location::legal_offset_in_bytes()), false otherwise.
// Do not use the returned location if this returns false.
bool location_for_sp_offset(ByteSize byte_offset_from_sp,
Location::Type loc_type, Location* loc) const;
bool location_for_monitor_lock (int monitor_index, Location* loc) const {
return location_for_sp_offset(sp_offset_for_monitor_lock(monitor_index), Location::normal, loc);
}
bool location_for_monitor_object(int monitor_index, Location* loc) const {
return location_for_sp_offset(sp_offset_for_monitor_object(monitor_index), Location::oop, loc);
}
bool locations_for_slot (int index, Location::Type loc_type,
Location* loc, Location* second = NULL) const;
VMReg slot_regname(int index) const {
return sp_offset2vmreg(sp_offset_for_slot(index));
}
VMReg monitor_object_regname(int monitor_index) const {
return sp_offset2vmreg(sp_offset_for_monitor_object(monitor_index));
}
VMReg regname(LIR_Opr opr) const;
static LIR_Opr caller_save_cpu_reg_at(int i) {
assert(i >= 0 && i < max_nof_caller_save_cpu_regs, "out of bounds");
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