--- old/src/hotspot/cpu/sparc/macroAssembler_sparc.hpp 2020-05-01 02:29:08.623748496 -0700 +++ /dev/null 2020-03-09 18:57:19.455001459 -0700 @@ -1,1348 +0,0 @@ -/* - * Copyright (c) 1997, 2019, Oracle and/or its affiliates. All rights reserved. - * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. - * - * This code is free software; you can redistribute it and/or modify it - * under the terms of the GNU General Public License version 2 only, as - * published by the Free Software Foundation. - * - * This code 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 - * version 2 for more details (a copy is included in the LICENSE file that - * accompanied this code). - * - * You should have received a copy of the GNU General Public License version - * 2 along with this work; if not, write to the Free Software Foundation, - * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. - * - * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA - * or visit www.oracle.com if you need additional information or have any - * questions. - * - */ - -#ifndef CPU_SPARC_MACROASSEMBLER_SPARC_HPP -#define CPU_SPARC_MACROASSEMBLER_SPARC_HPP - -#include "asm/assembler.hpp" -#include "utilities/macros.hpp" - -// promises that the system will not use traps 16-31 -#define ST_RESERVED_FOR_USER_0 0x10 - -class BiasedLockingCounters; - - -// Register aliases for parts of the system: - -// 64 bit values can be kept in g1-g5, o1-o5 and o7 and all 64 bits are safe -// across context switches in V8+ ABI. Of course, there are no 64 bit regs -// in V8 ABI. All 64 bits are preserved in V9 ABI for all registers. - -// g2-g4 are scratch registers called "application globals". Their -// meaning is reserved to the "compilation system"--which means us! -// They are are not supposed to be touched by ordinary C code, although -// highly-optimized C code might steal them for temps. They are safe -// across thread switches, and the ABI requires that they be safe -// across function calls. -// -// g1 and g3 are touched by more modules. V8 allows g1 to be clobbered -// across func calls, and V8+ also allows g5 to be clobbered across -// func calls. Also, g1 and g5 can get touched while doing shared -// library loading. -// -// We must not touch g7 (it is the thread-self register) and g6 is -// reserved for certain tools. g0, of course, is always zero. -// -// (Sources: SunSoft Compilers Group, thread library engineers.) - -// %%%% The interpreter should be revisited to reduce global scratch regs. - -// This global always holds the current JavaThread pointer: - -REGISTER_DECLARATION(Register, G2_thread , G2); -REGISTER_DECLARATION(Register, G6_heapbase , G6); - -// The following globals are part of the Java calling convention: - -REGISTER_DECLARATION(Register, G5_method , G5); -REGISTER_DECLARATION(Register, G5_megamorphic_method , G5_method); -REGISTER_DECLARATION(Register, G5_inline_cache_reg , G5_method); - -// The following globals are used for the new C1 & interpreter calling convention: -REGISTER_DECLARATION(Register, Gargs , G4); // pointing to the last argument - -// This local is used to preserve G2_thread in the interpreter and in stubs: -REGISTER_DECLARATION(Register, L7_thread_cache , L7); - -// These globals are used as scratch registers in the interpreter: - -REGISTER_DECLARATION(Register, Gframe_size , G1); // SAME REG as G1_scratch -REGISTER_DECLARATION(Register, G1_scratch , G1); // also SAME -REGISTER_DECLARATION(Register, G3_scratch , G3); -REGISTER_DECLARATION(Register, G4_scratch , G4); - -// These globals are used as short-lived scratch registers in the compiler: - -REGISTER_DECLARATION(Register, Gtemp , G5); - -// JSR 292 fixed register usages: -REGISTER_DECLARATION(Register, G5_method_type , G5); -REGISTER_DECLARATION(Register, G3_method_handle , G3); -REGISTER_DECLARATION(Register, L7_mh_SP_save , L7); - -// The compiler requires that G5_megamorphic_method is G5_inline_cache_klass, -// because a single patchable "set" instruction (NativeMovConstReg, -// or NativeMovConstPatching for compiler1) instruction -// serves to set up either quantity, depending on whether the compiled -// call site is an inline cache or is megamorphic. See the function -// CompiledIC::set_to_megamorphic. -// -// If a inline cache targets an interpreted method, then the -// G5 register will be used twice during the call. First, -// the call site will be patched to load a compiledICHolder -// into G5. (This is an ordered pair of ic_klass, method.) -// The c2i adapter will first check the ic_klass, then load -// G5_method with the method part of the pair just before -// jumping into the interpreter. -// -// Note that G5_method is only the method-self for the interpreter, -// and is logically unrelated to G5_megamorphic_method. -// -// Invariants on G2_thread (the JavaThread pointer): -// - it should not be used for any other purpose anywhere -// - it must be re-initialized by StubRoutines::call_stub() -// - it must be preserved around every use of call_VM - -// We can consider using g2/g3/g4 to cache more values than the -// JavaThread, such as the card-marking base or perhaps pointers into -// Eden. It's something of a waste to use them as scratch temporaries, -// since they are not supposed to be volatile. (Of course, if we find -// that Java doesn't benefit from application globals, then we can just -// use them as ordinary temporaries.) -// -// Since g1 and g5 (and/or g6) are the volatile (caller-save) registers, -// it makes sense to use them routinely for procedure linkage, -// whenever the On registers are not applicable. Examples: G5_method, -// G5_inline_cache_klass, and a double handful of miscellaneous compiler -// stubs. This means that compiler stubs, etc., should be kept to a -// maximum of two or three G-register arguments. - - -// stub frames - -REGISTER_DECLARATION(Register, Lentry_args , L0); // pointer to args passed to callee (interpreter) not stub itself - -// Interpreter frames - -REGISTER_DECLARATION(Register, Lesp , L0); // expression stack pointer -REGISTER_DECLARATION(Register, Lbcp , L1); // pointer to next bytecode -REGISTER_DECLARATION(Register, Lmethod , L2); -REGISTER_DECLARATION(Register, Llocals , L3); -REGISTER_DECLARATION(Register, Largs , L3); // pointer to locals for signature handler - // must match Llocals in asm interpreter -REGISTER_DECLARATION(Register, Lmonitors , L4); -REGISTER_DECLARATION(Register, Lbyte_code , L5); -// When calling out from the interpreter we record SP so that we can remove any extra stack -// space allocated during adapter transitions. This register is only live from the point -// of the call until we return. -REGISTER_DECLARATION(Register, Llast_SP , L5); -REGISTER_DECLARATION(Register, Lscratch , L5); -REGISTER_DECLARATION(Register, Lscratch2 , L6); -REGISTER_DECLARATION(Register, LcpoolCache , L6); // constant pool cache - -REGISTER_DECLARATION(Register, O5_savedSP , O5); -REGISTER_DECLARATION(Register, I5_savedSP , I5); // Saved SP before bumping for locals. This is simply - // a copy SP, so in 64-bit it's a biased value. The bias - // is added and removed as needed in the frame code. -REGISTER_DECLARATION(Register, IdispatchAddress , I3); // Register which saves the dispatch address for each bytecode -REGISTER_DECLARATION(Register, ImethodDataPtr , I2); // Pointer to the current method data - -// NOTE: Lscratch2 and LcpoolCache point to the same registers in -// the interpreter code. If Lscratch2 needs to be used for some -// purpose than LcpoolCache should be restore after that for -// the interpreter to work right -// (These assignments must be compatible with L7_thread_cache; see above.) - -// Lbcp points into the middle of the method object. - -// Exception processing -// These registers are passed into exception handlers. -// All exception handlers require the exception object being thrown. -// In addition, an nmethod's exception handler must be passed -// the address of the call site within the nmethod, to allow -// proper selection of the applicable catch block. -// (Interpreter frames use their own bcp() for this purpose.) -// -// The Oissuing_pc value is not always needed. When jumping to a -// handler that is known to be interpreted, the Oissuing_pc value can be -// omitted. An actual catch block in compiled code receives (from its -// nmethod's exception handler) the thrown exception in the Oexception, -// but it doesn't need the Oissuing_pc. -// -// If an exception handler (either interpreted or compiled) -// discovers there is no applicable catch block, it updates -// the Oissuing_pc to the continuation PC of its own caller, -// pops back to that caller's stack frame, and executes that -// caller's exception handler. Obviously, this process will -// iterate until the control stack is popped back to a method -// containing an applicable catch block. A key invariant is -// that the Oissuing_pc value is always a value local to -// the method whose exception handler is currently executing. -// -// Note: The issuing PC value is __not__ a raw return address (I7 value). -// It is a "return pc", the address __following__ the call. -// Raw return addresses are converted to issuing PCs by frame::pc(), -// or by stubs. Issuing PCs can be used directly with PC range tables. -// -REGISTER_DECLARATION(Register, Oexception , O0); // exception being thrown -REGISTER_DECLARATION(Register, Oissuing_pc , O1); // where the exception is coming from - -// Address is an abstraction used to represent a memory location. -// -// Note: A register location is represented via a Register, not -// via an address for efficiency & simplicity reasons. - -class Address { - private: - Register _base; // Base register. - RegisterOrConstant _index_or_disp; // Index register or constant displacement. - RelocationHolder _rspec; - - public: - Address() : _base(noreg), _index_or_disp(noreg) {} - - Address(Register base, RegisterOrConstant index_or_disp) - : _base(base), - _index_or_disp(index_or_disp) { - } - - Address(Register base, Register index) - : _base(base), - _index_or_disp(index) { - } - - Address(Register base, int disp) - : _base(base), - _index_or_disp(disp) { - } - -#ifdef ASSERT - // ByteSize is only a class when ASSERT is defined, otherwise it's an int. - Address(Register base, ByteSize disp) - : _base(base), - _index_or_disp(in_bytes(disp)) { - } -#endif - - // accessors - Register base() const { return _base; } - Register index() const { return _index_or_disp.as_register(); } - int disp() const { return _index_or_disp.as_constant(); } - - bool has_index() const { return _index_or_disp.is_register(); } - bool has_disp() const { return _index_or_disp.is_constant(); } - - bool uses(Register reg) const { return base() == reg || (has_index() && index() == reg); } - - const relocInfo::relocType rtype() { return _rspec.type(); } - const RelocationHolder& rspec() { return _rspec; } - - RelocationHolder rspec(int offset) const { - return offset == 0 ? _rspec : _rspec.plus(offset); - } - - inline bool is_simm13(int offset = 0); // check disp+offset for overflow - - Address plus_disp(int plusdisp) const { // bump disp by a small amount - assert(_index_or_disp.is_constant(), "must have a displacement"); - Address a(base(), disp() + plusdisp); - return a; - } - bool is_same_address(Address a) const { - // disregard _rspec - return base() == a.base() && (has_index() ? index() == a.index() : disp() == a.disp()); - } - - Address after_save() const { - Address a = (*this); - a._base = a._base->after_save(); - return a; - } - - Address after_restore() const { - Address a = (*this); - a._base = a._base->after_restore(); - return a; - } - - // Convert the raw encoding form into the form expected by the - // constructor for Address. - static Address make_raw(int base, int index, int scale, int disp, relocInfo::relocType disp_reloc); - - friend class Assembler; -}; - - -class AddressLiteral { - private: - address _address; - RelocationHolder _rspec; - - RelocationHolder rspec_from_rtype(relocInfo::relocType rtype, address addr) { - switch (rtype) { - case relocInfo::external_word_type: - return external_word_Relocation::spec(addr); - case relocInfo::internal_word_type: - return internal_word_Relocation::spec(addr); - case relocInfo::opt_virtual_call_type: - return opt_virtual_call_Relocation::spec(); - case relocInfo::static_call_type: - return static_call_Relocation::spec(); - case relocInfo::runtime_call_type: - return runtime_call_Relocation::spec(); - case relocInfo::none: - return RelocationHolder(); - default: - ShouldNotReachHere(); - return RelocationHolder(); - } - } - - protected: - // creation - AddressLiteral() : _address(NULL), _rspec(NULL) {} - - public: - AddressLiteral(address addr, RelocationHolder const& rspec) - : _address(addr), - _rspec(rspec) {} - - // Some constructors to avoid casting at the call site. - AddressLiteral(jobject obj, RelocationHolder const& rspec) - : _address((address) obj), - _rspec(rspec) {} - - AddressLiteral(intptr_t value, RelocationHolder const& rspec) - : _address((address) value), - _rspec(rspec) {} - - AddressLiteral(address addr, relocInfo::relocType rtype = relocInfo::none) - : _address((address) addr), - _rspec(rspec_from_rtype(rtype, (address) addr)) {} - - // Some constructors to avoid casting at the call site. - AddressLiteral(address* addr, relocInfo::relocType rtype = relocInfo::none) - : _address((address) addr), - _rspec(rspec_from_rtype(rtype, (address) addr)) {} - - AddressLiteral(bool* addr, relocInfo::relocType rtype = relocInfo::none) - : _address((address) addr), - _rspec(rspec_from_rtype(rtype, (address) addr)) {} - - AddressLiteral(const bool* addr, relocInfo::relocType rtype = relocInfo::none) - : _address((address) addr), - _rspec(rspec_from_rtype(rtype, (address) addr)) {} - - AddressLiteral(signed char* addr, relocInfo::relocType rtype = relocInfo::none) - : _address((address) addr), - _rspec(rspec_from_rtype(rtype, (address) addr)) {} - - AddressLiteral(int* addr, relocInfo::relocType rtype = relocInfo::none) - : _address((address) addr), - _rspec(rspec_from_rtype(rtype, (address) addr)) {} - - AddressLiteral(intptr_t addr, relocInfo::relocType rtype = relocInfo::none) - : _address((address) addr), - _rspec(rspec_from_rtype(rtype, (address) addr)) {} - - // 32-bit complains about a multiple declaration for int*. - AddressLiteral(intptr_t* addr, relocInfo::relocType rtype = relocInfo::none) - : _address((address) addr), - _rspec(rspec_from_rtype(rtype, (address) addr)) {} - - AddressLiteral(Metadata* addr, relocInfo::relocType rtype = relocInfo::none) - : _address((address) addr), - _rspec(rspec_from_rtype(rtype, (address) addr)) {} - - AddressLiteral(Metadata** addr, relocInfo::relocType rtype = relocInfo::none) - : _address((address) addr), - _rspec(rspec_from_rtype(rtype, (address) addr)) {} - - AddressLiteral(float* addr, relocInfo::relocType rtype = relocInfo::none) - : _address((address) addr), - _rspec(rspec_from_rtype(rtype, (address) addr)) {} - - AddressLiteral(double* addr, relocInfo::relocType rtype = relocInfo::none) - : _address((address) addr), - _rspec(rspec_from_rtype(rtype, (address) addr)) {} - - intptr_t value() const { return (intptr_t) _address; } - int low10() const; - - const relocInfo::relocType rtype() const { return _rspec.type(); } - const RelocationHolder& rspec() const { return _rspec; } - - RelocationHolder rspec(int offset) const { - return offset == 0 ? _rspec : _rspec.plus(offset); - } -}; - -// Convenience classes -class ExternalAddress: public AddressLiteral { - private: - static relocInfo::relocType reloc_for_target(address target) { - // Sometimes ExternalAddress is used for values which aren't - // exactly addresses, like the card table base. - // external_word_type can't be used for values in the first page - // so just skip the reloc in that case. - return external_word_Relocation::can_be_relocated(target) ? relocInfo::external_word_type : relocInfo::none; - } - - public: - ExternalAddress(address target) : AddressLiteral(target, reloc_for_target( target)) {} - ExternalAddress(Metadata** target) : AddressLiteral(target, reloc_for_target((address) target)) {} -}; - -inline Address RegisterImpl::address_in_saved_window() const { - return (Address(SP, (sp_offset_in_saved_window() * wordSize) + STACK_BIAS)); -} - - - -// Argument is an abstraction used to represent an outgoing -// actual argument or an incoming formal parameter, whether -// it resides in memory or in a register, in a manner consistent -// with the SPARC Application Binary Interface, or ABI. This is -// often referred to as the native or C calling convention. - -class Argument { - private: - int _number; - bool _is_in; - - public: - enum { - n_register_parameters = 6, // only 6 registers may contain integer parameters - n_float_register_parameters = 16 // Can have up to 16 floating registers - }; - - // creation - Argument(int number, bool is_in) : _number(number), _is_in(is_in) {} - - int number() const { return _number; } - bool is_in() const { return _is_in; } - bool is_out() const { return !is_in(); } - - Argument successor() const { return Argument(number() + 1, is_in()); } - Argument as_in() const { return Argument(number(), true ); } - Argument as_out() const { return Argument(number(), false); } - - // locating register-based arguments: - bool is_register() const { return _number < n_register_parameters; } - - // locating Floating Point register-based arguments: - bool is_float_register() const { return _number < n_float_register_parameters; } - - FloatRegister as_float_register() const { - assert(is_float_register(), "must be a register argument"); - return as_FloatRegister(( number() *2 ) + 1); - } - FloatRegister as_double_register() const { - assert(is_float_register(), "must be a register argument"); - return as_FloatRegister(( number() *2 )); - } - - Register as_register() const { - assert(is_register(), "must be a register argument"); - return is_in() ? as_iRegister(number()) : as_oRegister(number()); - } - - // locating memory-based arguments - Address as_address() const { - assert(!is_register(), "must be a memory argument"); - return address_in_frame(); - } - - // When applied to a register-based argument, give the corresponding address - // into the 6-word area "into which callee may store register arguments" - // (This is a different place than the corresponding register-save area location.) - Address address_in_frame() const; - - // debugging - const char* name() const; - - friend class Assembler; -}; - - -class RegistersForDebugging : public StackObj { - private: - static const RegistersForDebugging& _dummy; // not ODR-used so not defined - - public: - intptr_t i[8], l[8], o[8], g[8]; - float f[32]; - double d[32]; - - void print(outputStream* s); - - static int i_offset(int j) { return offset_of(RegistersForDebugging, i) + j * sizeof(_dummy.i[0]); } - static int l_offset(int j) { return offset_of(RegistersForDebugging, l) + j * sizeof(_dummy.l[0]); } - static int o_offset(int j) { return offset_of(RegistersForDebugging, o) + j * sizeof(_dummy.o[0]); } - static int g_offset(int j) { return offset_of(RegistersForDebugging, g) + j * sizeof(_dummy.g[0]); } - static int f_offset(int j) { return offset_of(RegistersForDebugging, f) + j * sizeof(_dummy.f[0]); } - static int d_offset(int j) { return offset_of(RegistersForDebugging, d) + (j / 2) * sizeof(_dummy.d[0]); } - - // gen asm code to save regs - static void save_registers(MacroAssembler* a); - - // restore global registers in case C code disturbed them - static void restore_registers(MacroAssembler* a, Register r); -}; - - -// MacroAssembler extends Assembler by a few frequently used macros. -// -// Most of the standard SPARC synthetic ops are defined here. -// Instructions for which a 'better' code sequence exists depending -// on arguments should also go in here. - -#define JMP2(r1, r2) jmp(r1, r2, __FILE__, __LINE__) -#define JMP(r1, off) jmp(r1, off, __FILE__, __LINE__) -#define JUMP(a, temp, off) jump(a, temp, off, __FILE__, __LINE__) -#define JUMPL(a, temp, d, off) jumpl(a, temp, d, off, __FILE__, __LINE__) - - -class MacroAssembler : public Assembler { - // code patchers need various routines like inv_wdisp() - friend class NativeInstruction; - friend class NativeGeneralJump; - friend class Relocation; - friend class Label; - - protected: - static int patched_branch(int dest_pos, int inst, int inst_pos); - static int branch_destination(int inst, int pos); - - // Support for VM calls - // This is the base routine called by the different versions of call_VM_leaf. The interpreter - // may customize this version by overriding it for its purposes (e.g., to save/restore - // additional registers when doing a VM call). - virtual void call_VM_leaf_base(Register thread_cache, address entry_point, int number_of_arguments); - - // - // It is imperative that all calls into the VM are handled via the call_VM macros. - // They make sure that the stack linkage is setup correctly. call_VM's correspond - // to ENTRY/ENTRY_X entry points while call_VM_leaf's correspond to LEAF entry points. - // - // This is the base routine called by the different versions of call_VM. The interpreter - // may customize this version by overriding it for its purposes (e.g., to save/restore - // additional registers when doing a VM call). - // - // A non-volatile java_thread_cache register should be specified so - // that the G2_thread value can be preserved across the call. - // (If java_thread_cache is noreg, then a slow get_thread call - // will re-initialize the G2_thread.) call_VM_base returns the register that contains the - // thread. - // - // If no last_java_sp is specified (noreg) than SP will be used instead. - - virtual void call_VM_base( - Register oop_result, // where an oop-result ends up if any; use noreg otherwise - Register java_thread_cache, // the thread if computed before ; use noreg otherwise - Register last_java_sp, // to set up last_Java_frame in stubs; use noreg otherwise - address entry_point, // the entry point - int number_of_arguments, // the number of arguments (w/o thread) to pop after call - bool check_exception=true // flag which indicates if exception should be checked - ); - - public: - MacroAssembler(CodeBuffer* code) : Assembler(code) {} - - // This routine should emit JVMTI PopFrame and ForceEarlyReturn handling code. - // The implementation is only non-empty for the InterpreterMacroAssembler, - // as only the interpreter handles and ForceEarlyReturn PopFrame requests. - virtual void check_and_handle_popframe(Register scratch_reg); - virtual void check_and_handle_earlyret(Register scratch_reg); - - // Support for NULL-checks - // - // Generates code that causes a NULL OS exception if the content of reg is NULL. - // If the accessed location is M[reg + offset] and the offset is known, provide the - // offset. No explicit code generation is needed if the offset is within a certain - // range (0 <= offset <= page_size). - // - // FIXME: Currently not done for SPARC - - void null_check(Register reg, int offset = -1); - static bool needs_explicit_null_check(intptr_t offset); - static bool uses_implicit_null_check(void* address); - - // support for delayed instructions - MacroAssembler* delayed() { Assembler::delayed(); return this; } - - // branches that use right instruction for v8 vs. v9 - inline void br( Condition c, bool a, Predict p, address d, relocInfo::relocType rt = relocInfo::none ); - inline void br( Condition c, bool a, Predict p, Label& L ); - - inline void fb( Condition c, bool a, Predict p, address d, relocInfo::relocType rt = relocInfo::none ); - inline void fb( Condition c, bool a, Predict p, Label& L ); - - // compares register with zero (32 bit) and branches (V9 and V8 instructions) - void cmp_zero_and_br( Condition c, Register s1, Label& L, bool a = false, Predict p = pn ); - // Compares a pointer register with zero and branches on (not)null. - // Does a test & branch on 32-bit systems and a register-branch on 64-bit. - void br_null ( Register s1, bool a, Predict p, Label& L ); - void br_notnull( Register s1, bool a, Predict p, Label& L ); - - // - // Compare registers and branch with nop in delay slot or cbcond without delay slot. - // - // ATTENTION: use these instructions with caution because cbcond instruction - // has very short distance: 512 instructions (2Kbyte). - - // Compare integer (32 bit) values (icc only). - void cmp_and_br_short(Register s1, Register s2, Condition c, Predict p, Label& L); - void cmp_and_br_short(Register s1, int simm13a, Condition c, Predict p, Label& L); - // Platform depending version for pointer compare (icc on !LP64 and xcc on LP64). - void cmp_and_brx_short(Register s1, Register s2, Condition c, Predict p, Label& L); - void cmp_and_brx_short(Register s1, int simm13a, Condition c, Predict p, Label& L); - - // Short branch version for compares a pointer pwith zero. - void br_null_short ( Register s1, Predict p, Label& L ); - void br_notnull_short( Register s1, Predict p, Label& L ); - - // unconditional short branch - void ba_short(Label& L); - - // Branch on icc.z (true or not). - void br_icc_zero(bool iszero, Predict p, Label &L); - - inline void bp( Condition c, bool a, CC cc, Predict p, address d, relocInfo::relocType rt = relocInfo::none ); - inline void bp( Condition c, bool a, CC cc, Predict p, Label& L ); - - // Branch that tests xcc in LP64 and icc in !LP64 - inline void brx( Condition c, bool a, Predict p, address d, relocInfo::relocType rt = relocInfo::none ); - inline void brx( Condition c, bool a, Predict p, Label& L ); - - // unconditional branch - inline void ba( Label& L ); - - // Branch that tests fp condition codes - inline void fbp( Condition c, bool a, CC cc, Predict p, address d, relocInfo::relocType rt = relocInfo::none ); - inline void fbp( Condition c, bool a, CC cc, Predict p, Label& L ); - - // Sparc shorthands(pp 85, V8 manual, pp 289 V9 manual) - inline void cmp( Register s1, Register s2 ); - inline void cmp( Register s1, int simm13a ); - - inline void jmp( Register s1, Register s2 ); - inline void jmp( Register s1, int simm13a, RelocationHolder const& rspec = RelocationHolder() ); - - // Check if the call target is out of wdisp30 range (relative to the code cache) - static inline bool is_far_target(address d); - inline void call( address d, relocInfo::relocType rt = relocInfo::runtime_call_type ); - inline void call( address d, RelocationHolder const& rspec); - - inline void call( Label& L, relocInfo::relocType rt = relocInfo::runtime_call_type ); - inline void call( Label& L, RelocationHolder const& rspec); - - inline void callr( Register s1, Register s2 ); - inline void callr( Register s1, int simm13a, RelocationHolder const& rspec = RelocationHolder() ); - - inline void tst( Register s ); - - inline void ret( bool trace = false ); - inline void retl( bool trace = false ); - - // Required platform-specific helpers for Label::patch_instructions. - // They _shadow_ the declarations in AbstractAssembler, which are undefined. - void pd_patch_instruction(address branch, address target, const char* file, int line); - - // sethi Macro handles optimizations and relocations -private: - void internal_sethi(const AddressLiteral& addrlit, Register d, bool ForceRelocatable); -public: - void sethi(const AddressLiteral& addrlit, Register d); - void patchable_sethi(const AddressLiteral& addrlit, Register d); - - // compute the number of instructions for a sethi/set - static int insts_for_sethi( address a, bool worst_case = false ); - static int worst_case_insts_for_set(); - - // set may be either setsw or setuw (high 32 bits may be zero or sign) -private: - void internal_set(const AddressLiteral& al, Register d, bool ForceRelocatable); - static int insts_for_internal_set(intptr_t value); -public: - void set(const AddressLiteral& addrlit, Register d); - void set(intptr_t value, Register d); - void set(address addr, Register d, RelocationHolder const& rspec); - static int insts_for_set(intptr_t value) { return insts_for_internal_set(value); } - - void patchable_set(const AddressLiteral& addrlit, Register d); - void patchable_set(intptr_t value, Register d); - void set64(jlong value, Register d, Register tmp); - static int insts_for_set64(jlong value); - - // sign-extend 32 to 64 - inline void signx( Register s, Register d ); - inline void signx( Register d ); - - inline void not1( Register s, Register d ); - inline void not1( Register d ); - - inline void neg( Register s, Register d ); - inline void neg( Register d ); - - inline void cas( Register s1, Register s2, Register d); - inline void casx( Register s1, Register s2, Register d); - // Functions for isolating 64 bit atomic swaps for LP64 - // cas_ptr will perform cas for 32 bit VM's and casx for 64 bit VM's - inline void cas_ptr( Register s1, Register s2, Register d); - - // Resolve a jobject or jweak - void resolve_jobject(Register value, Register tmp); - - // Functions for isolating 64 bit shifts for LP64 - inline void sll_ptr( Register s1, Register s2, Register d ); - inline void sll_ptr( Register s1, int imm6a, Register d ); - inline void sll_ptr( Register s1, RegisterOrConstant s2, Register d ); - inline void srl_ptr( Register s1, Register s2, Register d ); - inline void srl_ptr( Register s1, int imm6a, Register d ); - - // little-endian - inline void casl( Register s1, Register s2, Register d); - inline void casxl( Register s1, Register s2, Register d); - - inline void inc( Register d, int const13 = 1 ); - inline void inccc( Register d, int const13 = 1 ); - - inline void dec( Register d, int const13 = 1 ); - inline void deccc( Register d, int const13 = 1 ); - - using Assembler::add; - inline void add(Register s1, int simm13a, Register d, relocInfo::relocType rtype); - inline void add(Register s1, int simm13a, Register d, RelocationHolder const& rspec); - inline void add(Register s1, RegisterOrConstant s2, Register d, int offset = 0); - inline void add(const Address& a, Register d, int offset = 0); - - using Assembler::andn; - inline void andn( Register s1, RegisterOrConstant s2, Register d); - - inline void btst( Register s1, Register s2 ); - inline void btst( int simm13a, Register s ); - - inline void bset( Register s1, Register s2 ); - inline void bset( int simm13a, Register s ); - - inline void bclr( Register s1, Register s2 ); - inline void bclr( int simm13a, Register s ); - - inline void btog( Register s1, Register s2 ); - inline void btog( int simm13a, Register s ); - - inline void clr( Register d ); - - inline void clrb( Register s1, Register s2); - inline void clrh( Register s1, Register s2); - inline void clr( Register s1, Register s2); - inline void clrx( Register s1, Register s2); - - inline void clrb( Register s1, int simm13a); - inline void clrh( Register s1, int simm13a); - inline void clr( Register s1, int simm13a); - inline void clrx( Register s1, int simm13a); - - // copy & clear upper word - inline void clruw( Register s, Register d ); - // clear upper word - inline void clruwu( Register d ); - - using Assembler::ldsb; - using Assembler::ldsh; - using Assembler::ldsw; - using Assembler::ldub; - using Assembler::lduh; - using Assembler::lduw; - using Assembler::ldx; - using Assembler::ldd; - -#ifdef ASSERT - // ByteSize is only a class when ASSERT is defined, otherwise it's an int. - inline void ld(Register s1, ByteSize simm13a, Register d); -#endif - - inline void ld(Register s1, Register s2, Register d); - inline void ld(Register s1, int simm13a, Register d); - - inline void ldsb(const Address& a, Register d, int offset = 0); - inline void ldsh(const Address& a, Register d, int offset = 0); - inline void ldsw(const Address& a, Register d, int offset = 0); - inline void ldub(const Address& a, Register d, int offset = 0); - inline void lduh(const Address& a, Register d, int offset = 0); - inline void lduw(const Address& a, Register d, int offset = 0); - inline void ldx( const Address& a, Register d, int offset = 0); - inline void ld( const Address& a, Register d, int offset = 0); - inline void ldd( const Address& a, Register d, int offset = 0); - - inline void ldub(Register s1, RegisterOrConstant s2, Register d ); - inline void ldsb(Register s1, RegisterOrConstant s2, Register d ); - inline void lduh(Register s1, RegisterOrConstant s2, Register d ); - inline void ldsh(Register s1, RegisterOrConstant s2, Register d ); - inline void lduw(Register s1, RegisterOrConstant s2, Register d ); - inline void ldsw(Register s1, RegisterOrConstant s2, Register d ); - inline void ldx( Register s1, RegisterOrConstant s2, Register d ); - inline void ld( Register s1, RegisterOrConstant s2, Register d ); - inline void ldd( Register s1, RegisterOrConstant s2, Register d ); - - using Assembler::ldf; - inline void ldf(FloatRegisterImpl::Width w, Register s1, RegisterOrConstant s2, FloatRegister d); - inline void ldf(FloatRegisterImpl::Width w, const Address& a, FloatRegister d, int offset = 0); - - // little-endian - inline void lduwl(Register s1, Register s2, Register d); - inline void ldswl(Register s1, Register s2, Register d); - inline void ldxl( Register s1, Register s2, Register d); - inline void ldfl(FloatRegisterImpl::Width w, Register s1, Register s2, FloatRegister d); - - // membar psuedo instruction. takes into account target memory model. - inline void membar( Assembler::Membar_mask_bits const7a ); - - // returns if membar generates anything. - inline bool membar_has_effect( Assembler::Membar_mask_bits const7a ); - - // mov pseudo instructions - inline void mov( Register s, Register d); - - inline void mov_or_nop( Register s, Register d); - - inline void mov( int simm13a, Register d); - - using Assembler::prefetch; - inline void prefetch(const Address& a, PrefetchFcn F, int offset = 0); - - using Assembler::stb; - using Assembler::sth; - using Assembler::stw; - using Assembler::stx; - using Assembler::std; - -#ifdef ASSERT - // ByteSize is only a class when ASSERT is defined, otherwise it's an int. - inline void st(Register d, Register s1, ByteSize simm13a); -#endif - - inline void st(Register d, Register s1, Register s2); - inline void st(Register d, Register s1, int simm13a); - - inline void stb(Register d, const Address& a, int offset = 0 ); - inline void sth(Register d, const Address& a, int offset = 0 ); - inline void stw(Register d, const Address& a, int offset = 0 ); - inline void stx(Register d, const Address& a, int offset = 0 ); - inline void st( Register d, const Address& a, int offset = 0 ); - inline void std(Register d, const Address& a, int offset = 0 ); - - inline void stb(Register d, Register s1, RegisterOrConstant s2 ); - inline void sth(Register d, Register s1, RegisterOrConstant s2 ); - inline void stw(Register d, Register s1, RegisterOrConstant s2 ); - inline void stx(Register d, Register s1, RegisterOrConstant s2 ); - inline void std(Register d, Register s1, RegisterOrConstant s2 ); - inline void st( Register d, Register s1, RegisterOrConstant s2 ); - - using Assembler::stf; - inline void stf(FloatRegisterImpl::Width w, FloatRegister d, Register s1, RegisterOrConstant s2); - inline void stf(FloatRegisterImpl::Width w, FloatRegister d, const Address& a, int offset = 0); - - // Note: offset is added to s2. - using Assembler::sub; - inline void sub(Register s1, RegisterOrConstant s2, Register d, int offset = 0); - - using Assembler::swap; - inline void swap(const Address& a, Register d, int offset = 0); - - // address pseudos: make these names unlike instruction names to avoid confusion - inline intptr_t load_pc_address( Register reg, int bytes_to_skip ); - inline void load_contents(const AddressLiteral& addrlit, Register d, int offset = 0); - inline void load_bool_contents(const AddressLiteral& addrlit, Register d, int offset = 0); - inline void load_ptr_contents(const AddressLiteral& addrlit, Register d, int offset = 0); - inline void store_contents(Register s, const AddressLiteral& addrlit, Register temp, int offset = 0); - inline void store_ptr_contents(Register s, const AddressLiteral& addrlit, Register temp, int offset = 0); - inline void jumpl_to(const AddressLiteral& addrlit, Register temp, Register d, int offset = 0); - inline void jump_to(const AddressLiteral& addrlit, Register temp, int offset = 0); - inline void jump_indirect_to(Address& a, Register temp, int ld_offset = 0, int jmp_offset = 0); - - // ring buffer traceable jumps - - void jmp2( Register r1, Register r2, const char* file, int line ); - void jmp ( Register r1, int offset, const char* file, int line ); - - void jumpl(const AddressLiteral& addrlit, Register temp, Register d, int offset, const char* file, int line); - void jump (const AddressLiteral& addrlit, Register temp, int offset, const char* file, int line); - - - // argument pseudos: - - inline void load_argument( Argument& a, Register d ); - inline void store_argument( Register s, Argument& a ); - inline void store_ptr_argument( Register s, Argument& a ); - inline void store_float_argument( FloatRegister s, Argument& a ); - inline void store_double_argument( FloatRegister s, Argument& a ); - inline void store_long_argument( Register s, Argument& a ); - - // handy macros: - - inline void round_to( Register r, int modulus ); - - // -------------------------------------------------- - - // Functions for isolating 64 bit loads for LP64 - // ld_ptr will perform ld for 32 bit VM's and ldx for 64 bit VM's - // st_ptr will perform st for 32 bit VM's and stx for 64 bit VM's - inline void ld_ptr(Register s1, Register s2, Register d); - inline void ld_ptr(Register s1, int simm13a, Register d); - inline void ld_ptr(Register s1, RegisterOrConstant s2, Register d); - inline void ld_ptr(const Address& a, Register d, int offset = 0); - inline void st_ptr(Register d, Register s1, Register s2); - inline void st_ptr(Register d, Register s1, int simm13a); - inline void st_ptr(Register d, Register s1, RegisterOrConstant s2); - inline void st_ptr(Register d, const Address& a, int offset = 0); - -#ifdef ASSERT - // ByteSize is only a class when ASSERT is defined, otherwise it's an int. - inline void ld_ptr(Register s1, ByteSize simm13a, Register d); - inline void st_ptr(Register d, Register s1, ByteSize simm13a); -#endif - - // ld_long will perform ldd for 32 bit VM's and ldx for 64 bit VM's - // st_long will perform std for 32 bit VM's and stx for 64 bit VM's - inline void ld_long(Register s1, Register s2, Register d); - inline void ld_long(Register s1, int simm13a, Register d); - inline void ld_long(Register s1, RegisterOrConstant s2, Register d); - inline void ld_long(const Address& a, Register d, int offset = 0); - inline void st_long(Register d, Register s1, Register s2); - inline void st_long(Register d, Register s1, int simm13a); - inline void st_long(Register d, Register s1, RegisterOrConstant s2); - inline void st_long(Register d, const Address& a, int offset = 0); - - // Helpers for address formation. - // - They emit only a move if s2 is a constant zero. - // - If dest is a constant and either s1 or s2 is a register, the temp argument is required and becomes the result. - // - If dest is a register and either s1 or s2 is a non-simm13 constant, the temp argument is required and used to materialize the constant. - RegisterOrConstant regcon_andn_ptr(RegisterOrConstant s1, RegisterOrConstant s2, RegisterOrConstant d, Register temp = noreg); - RegisterOrConstant regcon_inc_ptr( RegisterOrConstant s1, RegisterOrConstant s2, RegisterOrConstant d, Register temp = noreg); - RegisterOrConstant regcon_sll_ptr( RegisterOrConstant s1, RegisterOrConstant s2, RegisterOrConstant d, Register temp = noreg); - - RegisterOrConstant ensure_simm13_or_reg(RegisterOrConstant src, Register temp) { - if (is_simm13(src.constant_or_zero())) - return src; // register or short constant - guarantee(temp != noreg, "constant offset overflow"); - set(src.as_constant(), temp); - return temp; - } - - // -------------------------------------------------- - - public: - // traps as per trap.h (SPARC ABI?) - - void breakpoint_trap(); - void breakpoint_trap(Condition c, CC cc); - - void safepoint_poll(Label& slow_path, bool a, Register thread_reg, Register temp_reg); - - // Stack frame creation/removal - void enter(); - void leave(); - - // Manipulation of C++ bools - // These are idioms to flag the need for care with accessing bools but on - // this platform we assume byte size - - inline void stbool(Register d, const Address& a); - inline void ldbool(const Address& a, Register d); - inline void movbool( bool boolconst, Register d); - - void resolve_oop_handle(Register result, Register tmp); - void load_mirror(Register mirror, Register method, Register tmp); - - // klass oop manipulations if compressed - void load_klass(Register src_oop, Register klass); - void store_klass(Register klass, Register dst_oop); - void store_klass_gap(Register s, Register dst_oop); - - // oop manipulations - void access_store_at(BasicType type, DecoratorSet decorators, - Register src, Address dst, Register tmp); - void access_load_at(BasicType type, DecoratorSet decorators, - Address src, Register dst, Register tmp); - - void load_heap_oop(const Address& s, Register d, - Register tmp = noreg, DecoratorSet decorators = 0); - void load_heap_oop(Register s1, Register s2, Register d, - Register tmp = noreg, DecoratorSet decorators = 0); - void load_heap_oop(Register s1, int simm13a, Register d, - Register tmp = noreg, DecoratorSet decorators = 0); - void load_heap_oop(Register s1, RegisterOrConstant s2, Register d, - Register tmp = noreg, DecoratorSet decorators = 0); - void store_heap_oop(Register d, Register s1, Register s2, - Register tmp = noreg, DecoratorSet decorators = 0); - void store_heap_oop(Register d, Register s1, int simm13a, - Register tmp = noreg, DecoratorSet decorators = 0); - void store_heap_oop(Register d, const Address& a, int offset = 0, - Register tmp = noreg, DecoratorSet decorators = 0); - - void encode_heap_oop(Register src, Register dst); - void encode_heap_oop(Register r) { - encode_heap_oop(r, r); - } - void decode_heap_oop(Register src, Register dst); - void decode_heap_oop(Register r) { - decode_heap_oop(r, r); - } - void encode_heap_oop_not_null(Register r); - void decode_heap_oop_not_null(Register r); - void encode_heap_oop_not_null(Register src, Register dst); - void decode_heap_oop_not_null(Register src, Register dst); - - void encode_klass_not_null(Register r); - void decode_klass_not_null(Register r); - void encode_klass_not_null(Register src, Register dst); - void decode_klass_not_null(Register src, Register dst); - - // Support for managing the JavaThread pointer (i.e.; the reference to - // thread-local information). - void get_thread(); // load G2_thread - void verify_thread(); // verify G2_thread contents - void save_thread (const Register threache); // save to cache - void restore_thread(const Register thread_cache); // restore from cache - - // Support for last Java frame (but use call_VM instead where possible) - void set_last_Java_frame(Register last_java_sp, Register last_Java_pc); - void reset_last_Java_frame(void); - - // Call into the VM. - // Passes the thread pointer (in O0) as a prepended argument. - // Makes sure oop return values are visible to the GC. - void call_VM(Register oop_result, address entry_point, int number_of_arguments = 0, bool check_exceptions = true); - void call_VM(Register oop_result, address entry_point, Register arg_1, bool check_exceptions = true); - void call_VM(Register oop_result, address entry_point, Register arg_1, Register arg_2, bool check_exceptions = true); - void call_VM(Register oop_result, address entry_point, Register arg_1, Register arg_2, Register arg_3, bool check_exceptions = true); - - // these overloadings are not presently used on SPARC: - void call_VM(Register oop_result, Register last_java_sp, address entry_point, int number_of_arguments = 0, bool check_exceptions = true); - void call_VM(Register oop_result, Register last_java_sp, address entry_point, Register arg_1, bool check_exceptions = true); - void call_VM(Register oop_result, Register last_java_sp, address entry_point, Register arg_1, Register arg_2, bool check_exceptions = true); - void call_VM(Register oop_result, Register last_java_sp, address entry_point, Register arg_1, Register arg_2, Register arg_3, bool check_exceptions = true); - - void call_VM_leaf(Register thread_cache, address entry_point, int number_of_arguments = 0); - void call_VM_leaf(Register thread_cache, address entry_point, Register arg_1); - void call_VM_leaf(Register thread_cache, address entry_point, Register arg_1, Register arg_2); - void call_VM_leaf(Register thread_cache, address entry_point, Register arg_1, Register arg_2, Register arg_3); - - void get_vm_result (Register oop_result); - void get_vm_result_2(Register metadata_result); - - // vm result is currently getting hijacked to for oop preservation - void set_vm_result(Register oop_result); - - // Emit the CompiledIC call idiom - void ic_call(address entry, bool emit_delay = true, jint method_index = 0); - - // if call_VM_base was called with check_exceptions=false, then call - // check_and_forward_exception to handle exceptions when it is safe - void check_and_forward_exception(Register scratch_reg); - - // Returns the byte size of the instructions generated by decode_klass_not_null(). - static int instr_size_for_decode_klass_not_null(); - - // if heap base register is used - reinit it with the correct value - void reinit_heapbase(); - - // Debugging - void _verify_oop(Register reg, const char * msg, const char * file, int line); - void _verify_oop_addr(Address addr, const char * msg, const char * file, int line); - - // TODO: verify_method and klass metadata (compare against vptr?) - void _verify_method_ptr(Register reg, const char * msg, const char * file, int line) {} - void _verify_klass_ptr(Register reg, const char * msg, const char * file, int line){} - -#define verify_oop(reg) _verify_oop(reg, "broken oop " #reg, __FILE__, __LINE__) -#define verify_oop_addr(addr) _verify_oop_addr(addr, "broken oop addr ", __FILE__, __LINE__) -#define verify_method_ptr(reg) _verify_method_ptr(reg, "broken method " #reg, __FILE__, __LINE__) -#define verify_klass_ptr(reg) _verify_klass_ptr(reg, "broken klass " #reg, __FILE__, __LINE__) - - void stop(const char* msg); // prints msg, dumps registers and stops execution - void warn(const char* msg); // prints msg, but don't stop - void untested(const char* what = ""); - void unimplemented(const char* what = ""); - void should_not_reach_here() { stop("should not reach here"); } - - // oops in code - AddressLiteral allocate_oop_address(jobject obj); // allocate_index - AddressLiteral constant_oop_address(jobject obj); // find_index - inline void set_oop (jobject obj, Register d); // uses allocate_oop_address - inline void set_oop_constant (jobject obj, Register d); // uses constant_oop_address - inline void set_oop (const AddressLiteral& obj_addr, Register d); // same as load_address - - // metadata in code that we have to keep track of - AddressLiteral allocate_metadata_address(Metadata* obj); // allocate_index - AddressLiteral constant_metadata_address(Metadata* obj); // find_index - inline void set_metadata (Metadata* obj, Register d); // uses allocate_metadata_address - inline void set_metadata_constant (Metadata* obj, Register d); // uses constant_metadata_address - inline void set_metadata (const AddressLiteral& obj_addr, Register d); // same as load_address - - void set_narrow_oop( jobject obj, Register d ); - void set_narrow_klass( Klass* k, Register d ); - - // nop padding - void align(int modulus); - - // declare a safepoint - void safepoint(); - - // factor out part of stop into subroutine to save space - void stop_subroutine(); - // factor out part of verify_oop into subroutine to save space - void verify_oop_subroutine(); - - // side-door communication with signalHandler in os_solaris.cpp - static address _verify_oop_implicit_branch[3]; - - int total_frame_size_in_bytes(int extraWords); - - // used when extraWords known statically - void save_frame(int extraWords = 0); - void save_frame_c1(int size_in_bytes); - // make a frame, and simultaneously pass up one or two register value - // into the new register window - void save_frame_and_mov(int extraWords, Register s1, Register d1, Register s2 = Register(), Register d2 = Register()); - - // give no. (outgoing) params, calc # of words will need on frame - void calc_mem_param_words(Register Rparam_words, Register Rresult); - - // used to calculate frame size dynamically - // result is in bytes and must be negated for save inst - void calc_frame_size(Register extraWords, Register resultReg); - - // calc and also save - void calc_frame_size_and_save(Register extraWords, Register resultReg); - - static void debug(char* msg, RegistersForDebugging* outWindow); - - // implementations of bytecodes used by both interpreter and compiler - - void lcmp( Register Ra_hi, Register Ra_low, - Register Rb_hi, Register Rb_low, - Register Rresult); - - void lneg( Register Rhi, Register Rlow ); - - void lshl( Register Rin_high, Register Rin_low, Register Rcount, - Register Rout_high, Register Rout_low, Register Rtemp ); - - void lshr( Register Rin_high, Register Rin_low, Register Rcount, - Register Rout_high, Register Rout_low, Register Rtemp ); - - void lushr( Register Rin_high, Register Rin_low, Register Rcount, - Register Rout_high, Register Rout_low, Register Rtemp ); - - void lcmp( Register Ra, Register Rb, Register Rresult); - - // Load and store values by size and signed-ness - void load_sized_value( Address src, Register dst, size_t size_in_bytes, bool is_signed); - void store_sized_value(Register src, Address dst, size_t size_in_bytes); - - void float_cmp( bool is_float, int unordered_result, - FloatRegister Fa, FloatRegister Fb, - Register Rresult); - - void save_all_globals_into_locals(); - void restore_globals_from_locals(); - - // These set the icc condition code to equal if the lock succeeded - // and notEqual if it failed and requires a slow case - void compiler_lock_object(Register Roop, Register Rmark, Register Rbox, - Register Rscratch, - BiasedLockingCounters* counters = NULL, - bool try_bias = UseBiasedLocking); - void compiler_unlock_object(Register Roop, Register Rmark, Register Rbox, - Register Rscratch, - bool try_bias = UseBiasedLocking); - - // Biased locking support - // Upon entry, lock_reg must point to the lock record on the stack, - // obj_reg must contain the target object, and mark_reg must contain - // the target object's header. - // Destroys mark_reg if an attempt is made to bias an anonymously - // biased lock. In this case a failure will go either to the slow - // case or fall through with the notEqual condition code set with - // the expectation that the slow case in the runtime will be called. - // In the fall-through case where the CAS-based lock is done, - // mark_reg is not destroyed. - void biased_locking_enter(Register obj_reg, Register mark_reg, Register temp_reg, - Label& done, Label* slow_case = NULL, - BiasedLockingCounters* counters = NULL); - // Upon entry, the base register of mark_addr must contain the oop. - // Destroys temp_reg. - - // If allow_delay_slot_filling is set to true, the next instruction - // emitted after this one will go in an annulled delay slot if the - // biased locking exit case failed. - void biased_locking_exit(Address mark_addr, Register temp_reg, Label& done, bool allow_delay_slot_filling = false); - - // allocation - void eden_allocate( - Register obj, // result: pointer to object after successful allocation - Register var_size_in_bytes, // object size in bytes if unknown at compile time; invalid otherwise - int con_size_in_bytes, // object size in bytes if known at compile time - Register t1, // temp register - Register t2, // temp register - Label& slow_case // continuation point if fast allocation fails - ); - void tlab_allocate( - Register obj, // result: pointer to object after successful allocation - Register var_size_in_bytes, // object size in bytes if unknown at compile time; invalid otherwise - int con_size_in_bytes, // object size in bytes if known at compile time - Register t1, // temp register - Label& slow_case // continuation point if fast allocation fails - ); - void zero_memory(Register base, Register index); - void incr_allocated_bytes(RegisterOrConstant size_in_bytes, - Register t1, Register t2); - - // interface method calling - void lookup_interface_method(Register recv_klass, - Register intf_klass, - RegisterOrConstant itable_index, - Register method_result, - Register temp_reg, Register temp2_reg, - Label& no_such_interface, - bool return_method = true); - - // virtual method calling - void lookup_virtual_method(Register recv_klass, - RegisterOrConstant vtable_index, - Register method_result); - - // Test sub_klass against super_klass, with fast and slow paths. - - // The fast path produces a tri-state answer: yes / no / maybe-slow. - // One of the three labels can be NULL, meaning take the fall-through. - // If super_check_offset is -1, the value is loaded up from super_klass. - // No registers are killed, except temp_reg and temp2_reg. - // If super_check_offset is not -1, temp2_reg is not used and can be noreg. - void check_klass_subtype_fast_path(Register sub_klass, - Register super_klass, - Register temp_reg, - Register temp2_reg, - Label* L_success, - Label* L_failure, - Label* L_slow_path, - RegisterOrConstant super_check_offset = RegisterOrConstant(-1)); - - // The rest of the type check; must be wired to a corresponding fast path. - // It does not repeat the fast path logic, so don't use it standalone. - // The temp_reg can be noreg, if no temps are available. - // It can also be sub_klass or super_klass, meaning it's OK to kill that one. - // Updates the sub's secondary super cache as necessary. - void check_klass_subtype_slow_path(Register sub_klass, - Register super_klass, - Register temp_reg, - Register temp2_reg, - Register temp3_reg, - Register temp4_reg, - Label* L_success, - Label* L_failure); - - // Simplified, combined version, good for typical uses. - // Falls through on failure. - void check_klass_subtype(Register sub_klass, - Register super_klass, - Register temp_reg, - Register temp2_reg, - Label& L_success); - - // method handles (JSR 292) - // offset relative to Gargs of argument at tos[arg_slot]. - // (arg_slot == 0 means the last argument, not the first). - RegisterOrConstant argument_offset(RegisterOrConstant arg_slot, - Register temp_reg, - int extra_slot_offset = 0); - // Address of Gargs and argument_offset. - Address argument_address(RegisterOrConstant arg_slot, - Register temp_reg = noreg, - int extra_slot_offset = 0); - - // Stack overflow checking - - // Note: this clobbers G3_scratch - void bang_stack_with_offset(int offset); - - // Writes to stack successive pages until offset reached to check for - // stack overflow + shadow pages. Clobbers tsp and scratch registers. - void bang_stack_size(Register Rsize, Register Rtsp, Register Rscratch); - - // Check for reserved stack access in method being exited (for JIT) - void reserved_stack_check(); - - virtual RegisterOrConstant delayed_value_impl(intptr_t* delayed_value_addr, Register tmp, int offset); - - void verify_tlab(); - - Condition negate_condition(Condition cond); - - // Helper functions for statistics gathering. - // Conditionally (non-atomically) increments passed counter address, preserving condition codes. - void cond_inc(Condition cond, address counter_addr, Register Rtemp1, Register Rtemp2); - // Unconditional increment. - void inc_counter(address counter_addr, Register Rtmp1, Register Rtmp2); - void inc_counter(int* counter_addr, Register Rtmp1, Register Rtmp2); - - // Use BIS for zeroing - void bis_zeroing(Register to, Register count, Register temp, Label& Ldone); - - // Update CRC-32[C] with a byte value according to constants in table - void update_byte_crc32(Register crc, Register val, Register table); - - // Reverse byte order of lower 32 bits, assuming upper 32 bits all zeros - void reverse_bytes_32(Register src, Register dst, Register tmp); - void movitof_revbytes(Register src, FloatRegister dst, Register tmp1, Register tmp2); - void movftoi_revbytes(FloatRegister src, Register dst, Register tmp1, Register tmp2); - - // CRC32 code for java.util.zip.CRC32::updateBytes0() intrinsic. - void kernel_crc32(Register crc, Register buf, Register len, Register table); - // Fold 128-bit data chunk - void fold_128bit_crc32(Register xcrc_hi, Register xcrc_lo, Register xK_hi, Register xK_lo, Register xtmp_hi, Register xtmp_lo, Register buf, int offset); - void fold_128bit_crc32(Register xcrc_hi, Register xcrc_lo, Register xK_hi, Register xK_lo, Register xtmp_hi, Register xtmp_lo, Register xbuf_hi, Register xbuf_lo); - // Fold 8-bit data - void fold_8bit_crc32(Register xcrc, Register table, Register xtmp, Register tmp); - void fold_8bit_crc32(Register crc, Register table, Register tmp); - // CRC32C code for java.util.zip.CRC32C::updateBytes/updateDirectByteBuffer intrinsic. - void kernel_crc32c(Register crc, Register buf, Register len, Register table); - -}; - -/** - * class SkipIfEqual: - * - * Instantiating this class will result in assembly code being output that will - * jump around any code emitted between the creation of the instance and it's - * automatic destruction at the end of a scope block, depending on the value of - * the flag passed to the constructor, which will be checked at run-time. - */ -class SkipIfEqual : public StackObj { - private: - MacroAssembler* _masm; - Label _label; - - public: - // 'temp' is a temp register that this object can use (and trash) - SkipIfEqual(MacroAssembler*, Register temp, - const bool* flag_addr, Assembler::Condition condition); - ~SkipIfEqual(); -}; - -#endif // CPU_SPARC_MACROASSEMBLER_SPARC_HPP