6939203: JSR 292 needs method handle constants
Summary: Add new CP types CONSTANT_MethodHandle, CONSTANT_MethodType; extend 'ldc' bytecode.
Reviewed-by: twisti, never
/*
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#ifndef CC_INTERP
// All the necessary definitions used for (bytecode) template generation. Instead of
// spreading the implementation functionality for each bytecode in the interpreter
// and the snippet generator, a template is assigned to each bytecode which can be
// used to generate the bytecode's implementation if needed.
// A Template describes the properties of a code template for a given bytecode
// and provides a generator to generate the code template.
class Template VALUE_OBJ_CLASS_SPEC {
private:
enum Flags {
uses_bcp_bit, // set if template needs the bcp pointing to bytecode
does_dispatch_bit, // set if template dispatches on its own
calls_vm_bit, // set if template calls the vm
wide_bit // set if template belongs to a wide instruction
};
typedef void (*generator)(int arg);
int _flags; // describes interpreter template properties (bcp unknown)
TosState _tos_in; // tos cache state before template execution
TosState _tos_out; // tos cache state after template execution
generator _gen; // template code generator
int _arg; // argument for template code generator
void initialize(int flags, TosState tos_in, TosState tos_out, generator gen, int arg);
friend class TemplateTable;
public:
Bytecodes::Code bytecode() const;
bool is_valid() const { return _gen != NULL; }
bool uses_bcp() const { return (_flags & (1 << uses_bcp_bit )) != 0; }
bool does_dispatch() const { return (_flags & (1 << does_dispatch_bit)) != 0; }
bool calls_vm() const { return (_flags & (1 << calls_vm_bit )) != 0; }
bool is_wide() const { return (_flags & (1 << wide_bit )) != 0; }
TosState tos_in() const { return _tos_in; }
TosState tos_out() const { return _tos_out; }
void generate(InterpreterMacroAssembler* masm);
};
// The TemplateTable defines all Templates and provides accessor functions
// to get the template for a given bytecode.
class TemplateTable: AllStatic {
public:
enum Operation { add, sub, mul, div, rem, _and, _or, _xor, shl, shr, ushr };
enum Condition { equal, not_equal, less, less_equal, greater, greater_equal };
enum CacheByte { f1_byte = 1, f2_byte = 2, f1_oop = 0x11 }; // byte_no codes
private:
static bool _is_initialized; // true if TemplateTable has been initialized
static Template _template_table [Bytecodes::number_of_codes];
static Template _template_table_wide[Bytecodes::number_of_codes];
static Template* _desc; // the current template to be generated
static Bytecodes::Code bytecode() { return _desc->bytecode(); }
static BarrierSet* _bs; // Cache the barrier set.
public:
//%note templates_1
static InterpreterMacroAssembler* _masm; // the assembler used when generating templates
private:
// special registers
static inline Address at_bcp(int offset);
// helpers
static void unimplemented_bc();
static void patch_bytecode(Bytecodes::Code bc, Register scratch1,
Register scratch2, bool load_bc_in_scratch = true);
// C calls
static void call_VM(Register oop_result, address entry_point);
static void call_VM(Register oop_result, address entry_point, Register arg_1);
static void call_VM(Register oop_result, address entry_point, Register arg_1, Register arg_2);
static void call_VM(Register oop_result, address entry_point, Register arg_1, Register arg_2, Register arg_3);
// these overloadings are not presently used on SPARC:
static void call_VM(Register oop_result, Register last_java_sp, address entry_point);
static void call_VM(Register oop_result, Register last_java_sp, address entry_point, Register arg_1);
static void call_VM(Register oop_result, Register last_java_sp, address entry_point, Register arg_1, Register arg_2);
static void call_VM(Register oop_result, Register last_java_sp, address entry_point, Register arg_1, Register arg_2, Register arg_3);
// bytecodes
static void nop();
static void aconst_null();
static void iconst(int value);
static void lconst(int value);
static void fconst(int value);
static void dconst(int value);
static void bipush();
static void sipush();
static void ldc(bool wide);
static void ldc2_w();
static void fast_aldc(bool wide);
static void locals_index(Register reg, int offset = 1);
static void iload();
static void fast_iload();
static void fast_iload2();
static void fast_icaload();
static void lload();
static void fload();
static void dload();
static void aload();
static void locals_index_wide(Register reg);
static void wide_iload();
static void wide_lload();
static void wide_fload();
static void wide_dload();
static void wide_aload();
static void iaload();
static void laload();
static void faload();
static void daload();
static void aaload();
static void baload();
static void caload();
static void saload();
static void iload(int n);
static void lload(int n);
static void fload(int n);
static void dload(int n);
static void aload(int n);
static void aload_0();
static void istore();
static void lstore();
static void fstore();
static void dstore();
static void astore();
static void wide_istore();
static void wide_lstore();
static void wide_fstore();
static void wide_dstore();
static void wide_astore();
static void iastore();
static void lastore();
static void fastore();
static void dastore();
static void aastore();
static void bastore();
static void castore();
static void sastore();
static void istore(int n);
static void lstore(int n);
static void fstore(int n);
static void dstore(int n);
static void astore(int n);
static void pop();
static void pop2();
static void dup();
static void dup_x1();
static void dup_x2();
static void dup2();
static void dup2_x1();
static void dup2_x2();
static void swap();
static void iop2(Operation op);
static void lop2(Operation op);
static void fop2(Operation op);
static void dop2(Operation op);
static void idiv();
static void irem();
static void lmul();
static void ldiv();
static void lrem();
static void lshl();
static void lshr();
static void lushr();
static void ineg();
static void lneg();
static void fneg();
static void dneg();
static void iinc();
static void wide_iinc();
static void convert();
static void lcmp();
static void float_cmp (bool is_float, int unordered_result);
static void float_cmp (int unordered_result);
static void double_cmp(int unordered_result);
static void count_calls(Register method, Register temp);
static void branch(bool is_jsr, bool is_wide);
static void if_0cmp (Condition cc);
static void if_icmp (Condition cc);
static void if_nullcmp(Condition cc);
static void if_acmp (Condition cc);
static void _goto();
static void jsr();
static void ret();
static void wide_ret();
static void goto_w();
static void jsr_w();
static void tableswitch();
static void lookupswitch();
static void fast_linearswitch();
static void fast_binaryswitch();
static void _return(TosState state);
static void resolve_cache_and_index(int byte_no, // one of 1,2,11
Register result , // either noreg or output for f1/f2
Register cache, // output for CP cache
Register index, // output for CP index
size_t index_size); // one of 1,2,4
static void load_invoke_cp_cache_entry(int byte_no,
Register method,
Register itable_index,
Register flags,
bool is_invokevirtual,
bool is_virtual_final,
bool is_invokedynamic);
static void load_field_cp_cache_entry(Register obj,
Register cache,
Register index,
Register offset,
Register flags,
bool is_static);
static void invokevirtual(int byte_no);
static void invokespecial(int byte_no);
static void invokestatic(int byte_no);
static void invokeinterface(int byte_no);
static void invokedynamic(int byte_no);
static void fast_invokevfinal(int byte_no);
static void getfield_or_static(int byte_no, bool is_static);
static void putfield_or_static(int byte_no, bool is_static);
static void getfield(int byte_no);
static void putfield(int byte_no);
static void getstatic(int byte_no);
static void putstatic(int byte_no);
static void pop_and_check_object(Register obj);
static void _new();
static void newarray();
static void anewarray();
static void arraylength();
static void checkcast();
static void instanceof();
static void athrow();
static void monitorenter();
static void monitorexit();
static void wide();
static void multianewarray();
static void fast_xaccess(TosState state);
static void fast_accessfield(TosState state);
static void fast_storefield(TosState state);
static void _breakpoint();
static void shouldnotreachhere();
// jvmti support
static void jvmti_post_field_access(Register cache, Register index, bool is_static, bool has_tos);
static void jvmti_post_field_mod(Register cache, Register index, bool is_static);
static void jvmti_post_fast_field_mod();
// debugging of TemplateGenerator
static void transition(TosState tos_in, TosState tos_out);// checks if in/out states expected by template generator correspond to table entries
// initialization helpers
static void def(Bytecodes::Code code, int flags, TosState in, TosState out, void (*gen)( ), char filler );
static void def(Bytecodes::Code code, int flags, TosState in, TosState out, void (*gen)(int arg ), int arg );
static void def(Bytecodes::Code code, int flags, TosState in, TosState out, void (*gen)(bool arg ), bool arg );
static void def(Bytecodes::Code code, int flags, TosState in, TosState out, void (*gen)(TosState tos), TosState tos);
static void def(Bytecodes::Code code, int flags, TosState in, TosState out, void (*gen)(Operation op), Operation op);
static void def(Bytecodes::Code code, int flags, TosState in, TosState out, void (*gen)(Condition cc), Condition cc);
friend class Template;
// InterpreterMacroAssembler::is_a(), etc., need TemplateTable::call_VM().
friend class InterpreterMacroAssembler;
public:
// Initialization
static void initialize();
static void pd_initialize();
// Templates
static Template* template_for (Bytecodes::Code code) { Bytecodes::check (code); return &_template_table [code]; }
static Template* template_for_wide(Bytecodes::Code code) { Bytecodes::wide_check(code); return &_template_table_wide[code]; }
// Platform specifics
#include "incls/_templateTable_pd.hpp.incl"
};
#endif /* !CC_INTERP */