hotspot/src/share/vm/adlc/formssel.hpp
changeset 1 489c9b5090e2
child 1495 128fe18951ed
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/hotspot/src/share/vm/adlc/formssel.hpp	Sat Dec 01 00:00:00 2007 +0000
@@ -0,0 +1,1045 @@
+/*
+ * Copyright 1998-2007 Sun Microsystems, Inc.  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 Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
+ * CA 95054 USA or visit www.sun.com if you need additional information or
+ * have any questions.
+ *
+ */
+
+// FORMSSEL.HPP - ADL Parser Instruction Selection Forms Classes
+
+// Class List
+class Form;
+class InstructForm;
+class MachNodeForm;
+class OperandForm;
+class OpClassForm;
+class AttributeForm;
+class RegisterForm;
+class PipelineForm;
+class SourceForm;
+class EncodeForm;
+class Component;
+class Constraint;
+class Predicate;
+class MatchRule;
+class Attribute;
+class Effect;
+class ExpandRule;
+class RewriteRule;
+class ConstructRule;
+class FormatRule;
+class Peephole;
+class EncClass;
+class Interface;
+class RegInterface;
+class ConstInterface;
+class MemInterface;
+class CondInterface;
+class Opcode;
+class InsEncode;
+class RegDef;
+class RegClass;
+class AllocClass;
+class ResourceForm;
+class PipeDesc;
+class PipeClass;
+class PeepMatch;
+class PeepConstraint;
+class PeepReplace;
+class MatchList;
+
+class ArchDesc;
+
+//==============================Instructions===================================
+//------------------------------InstructForm-----------------------------------
+class InstructForm : public Form {
+private:
+  bool          _ideal_only;       // Not a user-defined instruction
+  // Members used for tracking CISC-spilling
+  uint          _cisc_spill_operand;// Which operand may cisc-spill
+  void           set_cisc_spill_operand(uint op_index) { _cisc_spill_operand = op_index; }
+  bool          _is_cisc_alternate;
+  InstructForm  *_cisc_spill_alternate;// cisc possible replacement
+  const char    *_cisc_reg_mask_name;
+  InstructForm  *_short_branch_form;
+  bool           _is_short_branch;
+  uint           _alignment;
+
+public:
+  // Public Data
+  const char    *_ident;           // Name of this instruction
+  NameList       _parameters;      // Locally defined names
+  FormDict       _localNames;      // Table of operands & their types
+  MatchRule     *_matrule;         // Matching rule for this instruction
+  Opcode        *_opcode;          // Encoding of the opcode for instruction
+  char          *_size;            // Size of instruction
+  InsEncode     *_insencode;       // Encoding class instruction belongs to
+  Attribute     *_attribs;         // List of Attribute rules
+  Predicate     *_predicate;       // Predicate test for this instruction
+  FormDict       _effects;         // Dictionary of effect rules
+  ExpandRule    *_exprule;         // Expand rule for this instruction
+  RewriteRule   *_rewrule;         // Rewrite rule for this instruction
+  FormatRule    *_format;          // Format for assembly generation
+  Peephole      *_peephole;        // List of peephole rules for instruction
+  const char    *_ins_pipe;        // Instruction Scheduline description class
+
+  uint          *_uniq_idx;        // Indexes of unique operands
+  uint           _num_uniq;        // Number  of unique operands
+  ComponentList  _components;      // List of Components matches MachNode's
+                                   // operand structure
+
+  // Public Methods
+  InstructForm(const char *id, bool ideal_only = false);
+  InstructForm(const char *id, InstructForm *instr, MatchRule *rule);
+  ~InstructForm();
+
+  // Dynamic type check
+  virtual InstructForm *is_instruction() const;
+
+  virtual bool        ideal_only() const;
+
+  // This instruction sets a result
+  virtual bool        sets_result() const;
+  // This instruction needs projections for additional DEFs or KILLs
+  virtual bool        needs_projections();
+  // This instruction needs extra nodes for temporary inputs
+  virtual bool        has_temps();
+  // This instruction defines or kills more than one object
+  virtual uint        num_defs_or_kills();
+  // This instruction has an expand rule?
+  virtual bool        expands() const ;
+  // Return this instruction's first peephole rule, or NULL
+  virtual Peephole   *peepholes() const;
+  // Add a peephole rule to this instruction
+  virtual void        append_peephole(Peephole *peep);
+
+  virtual bool        is_pinned(FormDict &globals); // should be pinned inside block
+  virtual bool        is_projection(FormDict &globals); // node requires projection
+  virtual bool        is_parm(FormDict &globals); // node matches ideal 'Parm'
+  // ideal opcode enumeration
+  virtual const char *ideal_Opcode(FormDict &globals)  const;
+  virtual int         is_expensive() const;     // node matches ideal 'CosD'
+  virtual int         is_empty_encoding() const; // _size=0 and/or _insencode empty
+  virtual int         is_tls_instruction() const; // tlsLoadP rule or ideal ThreadLocal
+  virtual int         is_ideal_copy() const;    // node matches ideal 'Copy*'
+  virtual bool        is_ideal_unlock() const;  // node matches ideal 'Unlock'
+  virtual bool        is_ideal_call_leaf() const; // node matches ideal 'CallLeaf'
+  virtual bool        is_ideal_if()   const;    // node matches ideal 'If'
+  virtual bool        is_ideal_fastlock() const; // node matches 'FastLock'
+  virtual bool        is_ideal_membar() const;  // node matches ideal 'MemBarXXX'
+  virtual bool        is_ideal_loadPC() const;  // node matches ideal 'LoadPC'
+  virtual bool        is_ideal_box() const;     // node matches ideal 'Box'
+  virtual bool        is_ideal_goto() const;    // node matches ideal 'Goto'
+  virtual bool        is_ideal_branch() const;  // "" 'If' | 'Goto' | 'LoopEnd' | 'Jump'
+  virtual bool        is_ideal_jump() const;    // node matches ideal 'Jump'
+  virtual bool        is_ideal_return() const;  // node matches ideal 'Return'
+  virtual bool        is_ideal_halt() const;    // node matches ideal 'Halt'
+  virtual bool        is_ideal_safepoint() const; // node matches 'SafePoint'
+  virtual bool        is_ideal_nop() const;     // node matches 'Nop'
+  virtual bool        is_ideal_control() const; // control node
+
+  virtual Form::CallType is_ideal_call() const; // matches ideal 'Call'
+  virtual Form::DataType is_ideal_load() const; // node matches ideal 'LoadXNode'
+  virtual Form::DataType is_ideal_store() const;// node matches ideal 'StoreXNode'
+          bool        is_ideal_mem() const { return is_ideal_load() != Form::none || is_ideal_store() != Form::none; }
+  virtual uint        two_address(FormDict &globals); // output reg must match input reg
+  // when chaining a constant to an instruction, return 'true' and set opType
+  virtual Form::DataType is_chain_of_constant(FormDict &globals);
+  virtual Form::DataType is_chain_of_constant(FormDict &globals, const char * &opType);
+  virtual Form::DataType is_chain_of_constant(FormDict &globals, const char * &opType, const char * &result_type);
+
+  // Check if a simple chain rule
+  virtual bool        is_simple_chain_rule(FormDict &globals) const;
+
+  // check for structural rematerialization
+  virtual bool        rematerialize(FormDict &globals, RegisterForm *registers);
+
+  // loads from memory, so must check for anti-dependence
+  virtual bool        needs_anti_dependence_check(FormDict &globals) const;
+  virtual int         memory_operand(FormDict &globals) const;
+          bool        is_wide_memory_kill(FormDict &globals) const;
+
+  enum memory_operand_type {
+    NO_MEMORY_OPERAND = -1,
+    MANY_MEMORY_OPERANDS = 999999
+  };
+
+
+  // This instruction captures the machine-independent bottom_type
+  // Expected use is for pointer vs oop determination for LoadP
+  virtual bool        captures_bottom_type() const;
+
+  virtual const char *cost();      // Access ins_cost attribute
+  virtual uint        num_opnds(); // Count of num_opnds for MachNode class
+  virtual uint        num_post_match_opnds();
+  virtual uint        num_consts(FormDict &globals) const;// Constants in match rule
+  // Constants in match rule with specified type
+  virtual uint        num_consts(FormDict &globals, Form::DataType type) const;
+
+  // Return the register class associated with 'leaf'.
+  virtual const char *out_reg_class(FormDict &globals);
+
+  // number of ideal node inputs to skip
+  virtual uint        oper_input_base(FormDict &globals);
+
+  // Does this instruction need a base-oop edge?
+  int needs_base_oop_edge(FormDict &globals) const;
+
+  // Build instruction predicates.  If the user uses the same operand name
+  // twice, we need to check that the operands are pointer-eequivalent in
+  // the DFA during the labeling process.
+  Predicate *build_predicate();
+
+  virtual void        build_components(); // top-level operands
+  // Return zero-based position in component list; -1 if not in list.
+  virtual int         operand_position(const char *name, int usedef);
+  virtual int         operand_position_format(const char *name);
+
+  // Return zero-based position in component list; -1 if not in list.
+  virtual int         label_position();
+  virtual int         method_position();
+  // Return number of relocation entries needed for this instruction.
+  virtual uint        reloc(FormDict &globals);
+
+  const char         *reduce_result();
+  // Return the name of the operand on the right hand side of the binary match
+  // Return NULL if there is no right hand side
+  const char         *reduce_right(FormDict &globals)  const;
+  const char         *reduce_left(FormDict &globals)   const;
+
+  // Base class for this instruction, MachNode except for calls
+  virtual const char *mach_base_class()  const;
+
+  // Check if this instruction can cisc-spill to 'alternate'
+  bool                cisc_spills_to(ArchDesc &AD, InstructForm *alternate);
+  InstructForm       *cisc_spill_alternate() { return _cisc_spill_alternate; }
+  uint                cisc_spill_operand() const { return _cisc_spill_operand; }
+  bool                is_cisc_alternate() const { return _is_cisc_alternate; }
+  void                set_cisc_alternate(bool val) { _is_cisc_alternate = val; }
+  const char         *cisc_reg_mask_name() const { return _cisc_reg_mask_name; }
+  void                set_cisc_reg_mask_name(const char *rm_name) { _cisc_reg_mask_name = rm_name; }
+  // Output cisc-method prototypes and method bodies
+  void                declare_cisc_version(ArchDesc &AD, FILE *fp_cpp);
+  bool                define_cisc_version (ArchDesc &AD, FILE *fp_cpp);
+
+  bool                check_branch_variant(ArchDesc &AD, InstructForm *short_branch);
+
+  bool                is_short_branch() { return _is_short_branch; }
+  void                set_short_branch(bool val) { _is_short_branch = val; }
+
+  InstructForm       *short_branch_form() { return _short_branch_form; }
+  bool                has_short_branch_form() { return _short_branch_form != NULL; }
+  // Output short branch prototypes and method bodies
+  void                declare_short_branch_methods(FILE *fp_cpp);
+  bool                define_short_branch_methods(FILE *fp_cpp);
+
+  uint                alignment() { return _alignment; }
+  void                set_alignment(uint val) { _alignment = val; }
+
+  // Seach through operands to determine operands unique positions.
+  void                set_unique_opnds();
+  uint                num_unique_opnds() { return _num_uniq; }
+  uint                unique_opnds_idx(int idx) {
+                        if( _uniq_idx != NULL && idx > 0 )
+                          return _uniq_idx[idx];
+                        else
+                          return idx;
+                      }
+
+  // Operands which are only KILLs aren't part of the input array and
+  // require special handling in some cases.  Their position in this
+  // operand list is higher than the number of unique operands.
+  bool is_noninput_operand(uint idx) {
+    return (idx >= num_unique_opnds());
+  }
+
+  // --------------------------- FILE *output_routines
+  //
+  // Generate the format call for the replacement variable
+  void                rep_var_format(FILE *fp, const char *rep_var);
+  // Generate index values needed for determing the operand position
+  void                index_temps   (FILE *fp, FormDict &globals, const char *prefix = "", const char *receiver = "");
+  // ---------------------------
+
+  virtual bool verify();           // Check consistency after parsing
+
+  virtual void dump();             // Debug printer
+  virtual void output(FILE *fp);   // Write to output files
+};
+
+//------------------------------EncodeForm-------------------------------------
+class EncodeForm : public Form {
+private:
+
+public:
+  // Public Data
+  NameList  _eclasses;            // List of encode class names
+  Dict      _encClass;            // Map encode class names to EncClass objects
+
+  // Public Methods
+  EncodeForm();
+  ~EncodeForm();
+
+  EncClass   *add_EncClass(const char *className);
+  EncClass   *encClass(const char *className);
+
+  const char *encClassPrototype(const char *className);
+  const char *encClassBody(const char *className);
+
+  void dump();                     // Debug printer
+  void output(FILE *fp);           // Write info to output files
+};
+
+//------------------------------EncClass---------------------------------------
+class EncClass : public Form {
+public:
+  // NameList for parameter type and name
+  NameList       _parameter_type;
+  NameList       _parameter_name;
+
+  // Breakdown the encoding into strings separated by $replacement_variables
+  // There is an entry in _strings, perhaps NULL, that precedes each _rep_vars
+  NameList       _code;            // Strings passed through to tty->print
+  NameList       _rep_vars;        // replacement variables
+
+  NameList       _parameters;      // Locally defined names
+  FormDict       _localNames;      // Table of components & their types
+
+public:
+  // Public Data
+  const char    *_name;            // encoding class name
+
+  // Public Methods
+  EncClass(const char *name);
+  ~EncClass();
+
+  // --------------------------- Parameters
+  // Add a parameter <type,name> pair
+  void add_parameter(const char *parameter_type, const char *parameter_name);
+  // Verify operand types in parameter list
+  bool check_parameter_types(FormDict &globals);
+  // Obtain the zero-based index corresponding to a replacement variable
+  int         rep_var_index(const char *rep_var);
+  int         num_args() { return _parameter_name.count(); }
+
+  // --------------------------- Code Block
+  // Add code
+  void add_code(const char *string_preceeding_replacement_var);
+  // Add a replacement variable or one of its subfields
+  // Subfields are stored with a leading '$'
+  void add_rep_var(char *replacement_var);
+
+  bool verify();
+  void dump();
+  void output(FILE *fp);
+};
+
+//------------------------------MachNode---------------------------------------
+class MachNodeForm: public Form {
+private:
+
+public:
+  char          *_ident;           // Name of this instruction
+  const char    *_machnode_pipe;   // Instruction Scheduline description class
+
+  // Public Methods
+  MachNodeForm(char *id);
+  ~MachNodeForm();
+
+  virtual MachNodeForm *is_machnode() const;
+
+  void dump();                     // Debug printer
+  void output(FILE *fp);           // Write info to output files
+};
+
+//------------------------------Opcode-----------------------------------------
+class Opcode : public Form {
+private:
+
+public:
+  // Public Data
+  // Strings representing instruction opcodes, user defines placement in emit
+  char *_primary;
+  char *_secondary;
+  char *_tertiary;
+
+  enum opcode_type {
+    NOT_AN_OPCODE = -1,
+    PRIMARY   = 1,
+    SECONDARY = 2,
+    TERTIARY  = 3
+  };
+
+  // Public Methods
+  Opcode(char *primary, char *secondary, char *tertiary);
+  ~Opcode();
+
+  static Opcode::opcode_type as_opcode_type(const char *designator);
+
+  void dump();
+  void output(FILE *fp);
+
+  // --------------------------- FILE *output_routines
+  void print_opcode(FILE *fp, Opcode::opcode_type desired_opcode);
+};
+
+//------------------------------InsEncode--------------------------------------
+class InsEncode : public Form {
+private:
+  // Public Data (access directly only for reads)
+  // The encodings can only have the values predefined by the ADLC:
+  // blank, RegReg, RegMem, MemReg, ...
+  NameList    _encoding;
+  // NameList    _parameter;
+  // The parameters for each encoding are preceeded by a NameList::_signal
+  // and follow the parameters for the previous encoding.
+
+  // char *_encode;                  // Type of instruction encoding
+
+public:
+  // Public Methods
+  InsEncode();
+  ~InsEncode();
+
+  // Add "encode class name" and its parameters
+  NameAndList  *add_encode(char *encode_method_name);
+  // Parameters are added to the returned "NameAndList" by the parser
+
+  // Access the list of encodings
+  void          reset();
+  const char   *encode_class_iter();
+
+  // Returns the number of arguments to the current encoding in the iteration
+  int current_encoding_num_args() {
+    return ((NameAndList*)_encoding.current())->count();
+  }
+
+  // --------------------------- Parameters
+  // The following call depends upon position within encode_class_iteration
+  //
+  // Obtain parameter name from zero based index
+  const char   *rep_var_name(InstructForm &inst, uint param_no);
+  // ---------------------------
+
+  void dump();
+  void output(FILE *fp);
+};
+
+//------------------------------Effect-----------------------------------------
+class Effect : public Form {
+private:
+
+public:
+  // Public Data
+  const char  *_name;            // Pre-defined name for effect
+  int         _use_def;          // Enumeration value of effect
+
+  // Public Methods
+  Effect(const char *name);      // Constructor
+  ~Effect();                     // Destructor
+
+  // Dynamic type check
+  virtual Effect *is_effect() const;
+
+  // Return 'true' if this use def info equals the parameter
+  bool  is(int use_def_kill_enum) const;
+  // Return 'true' if this use def info is a superset of parameter
+  bool  isa(int use_def_kill_enum) const;
+
+  void dump();                   // Debug printer
+  void output(FILE *fp);         // Write info to output files
+};
+
+//------------------------------ExpandRule-------------------------------------
+class ExpandRule : public Form {
+private:
+  NameList _expand_instrs;        // ordered list of instructions and operands
+
+public:
+  // Public Data
+  NameList _newopers;             // List of newly created operands
+  Dict     _newopconst;           // Map new operands to their constructors
+
+  void     add_instruction(NameAndList *instruction_name_and_operand_list);
+  void     reset_instructions();
+  NameAndList *iter_instructions();
+
+  // Public Methods
+  ExpandRule();                   // Constructor
+  ~ExpandRule();                  // Destructor
+
+  void dump();                    // Debug printer
+  void output(FILE *fp);          // Write info to output files
+};
+
+//------------------------------RewriteRule------------------------------------
+class RewriteRule : public Form {
+private:
+
+public:
+  // Public Data
+  SourceForm     *_condition;      // Rewrite condition code
+  InstructForm   *_instrs;         // List of instructions to expand to
+  OperandForm    *_opers;          // List of operands generated by expand
+  char           *_tempParams;     // Hold string until parser is finished.
+  char           *_tempBlock;      // Hold string until parser is finished.
+
+  // Public Methods
+  RewriteRule(char* params, char* block) ;
+  ~RewriteRule();                  // Destructor
+  void dump();                     // Debug printer
+  void output(FILE *fp);           // Write info to output files
+};
+
+
+//==============================Operands=======================================
+//------------------------------OpClassForm------------------------------------
+class OpClassForm : public Form {
+public:
+  // Public Data
+  const char    *_ident;           // Name of this operand
+  NameList       _oplst;           // List of operand forms included in class
+
+  // Public Methods
+  OpClassForm(const char *id);
+  ~OpClassForm();
+
+  // dynamic type check
+  virtual OpClassForm         *is_opclass() const;
+  virtual Form::InterfaceType  interface_type(FormDict &globals) const;
+  virtual bool                 stack_slots_only(FormDict &globals) const;
+
+  virtual bool                 is_cisc_mem(FormDict &globals) const;
+
+
+  // Min and Max opcodes of operands in this operand class
+  int _minCode;
+  int _maxCode;
+
+  virtual bool ideal_only() const;
+  virtual void dump();             // Debug printer
+  virtual void output(FILE *fp);   // Write to output files
+};
+
+//------------------------------OperandForm------------------------------------
+class OperandForm : public OpClassForm {
+private:
+  bool         _ideal_only; // Not a user-defined instruction
+
+public:
+  // Public Data
+  NameList       _parameters; // Locally defined names
+  FormDict       _localNames; // Table of components & their types
+  MatchRule     *_matrule;    // Matching rule for this operand
+  Interface     *_interface;  // Encoding interface for this operand
+  Attribute     *_attribs;    // List of Attribute rules
+  Predicate     *_predicate;  // Predicate test for this operand
+  Constraint    *_constraint; // Constraint Rule for this operand
+  ConstructRule *_construct;  // Construction of operand data after matching
+  FormatRule    *_format;     // Format for assembly generation
+  NameList       _classes;    // List of opclasses which contain this oper
+
+  ComponentList _components;  //
+
+  // Public Methods
+  OperandForm(const char *id);
+  OperandForm(const char *id, bool ideal_only);
+  ~OperandForm();
+
+  // Dynamic type check
+  virtual OperandForm *is_operand() const;
+
+  virtual bool        ideal_only() const;
+  virtual Form::InterfaceType interface_type(FormDict &globals) const;
+  virtual bool                 stack_slots_only(FormDict &globals) const;
+
+  virtual const char *cost();  // Access ins_cost attribute
+  virtual uint        num_leaves() const;// Leaves in complex operand
+  // Constants in operands' match rules
+  virtual uint        num_consts(FormDict &globals) const;
+  // Constants in operand's match rule with specified type
+  virtual uint        num_consts(FormDict &globals, Form::DataType type) const;
+  // Pointer Constants in operands' match rules
+  virtual uint        num_const_ptrs(FormDict &globals) const;
+  // The number of input edges in the machine world == num_leaves - num_consts
+  virtual uint        num_edges(FormDict &globals) const;
+
+  // Check if this operand is usable for cisc-spilling
+  virtual bool        is_cisc_reg(FormDict &globals) const;
+
+  // node matches ideal 'Bool', grab condition codes from the ideal world
+  virtual bool        is_ideal_bool()  const;
+
+  // Has an integer constant suitable for spill offsets
+  bool has_conI(FormDict &globals) const {
+    return (num_consts(globals,idealI) == 1) && !is_ideal_bool(); }
+  bool has_conL(FormDict &globals) const {
+    return (num_consts(globals,idealL) == 1) && !is_ideal_bool(); }
+
+  // Node is user-defined operand for an sRegX
+  virtual Form::DataType is_user_name_for_sReg() const;
+
+  // Return ideal type, if there is a single ideal type for this operand
+  virtual const char *ideal_type(FormDict &globals, RegisterForm *registers = NULL) const;
+  // If there is a single ideal type for this interface field, return it.
+  virtual const char *interface_ideal_type(FormDict   &globals,
+                                           const char *field_name) const;
+
+  // Return true if this operand represents a bound register class
+  bool is_bound_register() const;
+
+  // Return the Register class for this operand.  Returns NULL if
+  // operand isn't a register form.
+  RegClass* get_RegClass() const;
+
+  virtual       bool  is_interface_field(const char   *field_name,
+                                         const char   * &value) const;
+
+  // If this operand has a single ideal type, return its type
+  virtual Form::DataType simple_type(FormDict &globals) const;
+  // If this operand is an ideal constant, return its type
+  virtual Form::DataType is_base_constant(FormDict &globals) const;
+
+  // "true" if this operand is a simple type that is swallowed
+  virtual bool        swallowed(FormDict &globals) const;
+
+  // Return register class name if a constraint specifies the register class.
+  virtual const char *constrained_reg_class() const;
+  // Return the register class associated with 'leaf'.
+  virtual const char *in_reg_class(uint leaf, FormDict &globals);
+
+  // Build component list from MatchRule and operand's parameter list
+  virtual void        build_components(); // top-level operands
+
+  // Return zero-based position in component list; -1 if not in list.
+  virtual int         operand_position(const char *name, int usedef);
+
+  // Return zero-based position in component list; -1 if not in list.
+  virtual int         constant_position(FormDict &globals, const Component *comp);
+  virtual int         constant_position(FormDict &globals, const char *local_name);
+  // Return the operand form corresponding to the given index, else NULL.
+  virtual OperandForm *constant_operand(FormDict &globals, uint const_index);
+
+  // Return zero-based position in component list; -1 if not in list.
+  virtual int         register_position(FormDict &globals, const char *regname);
+
+  const char         *reduce_result() const;
+  // Return the name of the operand on the right hand side of the binary match
+  // Return NULL if there is no right hand side
+  const char         *reduce_right(FormDict &globals)  const;
+  const char         *reduce_left(FormDict &globals)   const;
+
+
+  // --------------------------- FILE *output_routines
+  //
+  // Output code for disp_is_oop, if true.
+  void                disp_is_oop(FILE *fp, FormDict &globals);
+  // Generate code for internal and external format methods
+  void                int_format(FILE *fp, FormDict &globals, uint index);
+  void                ext_format(FILE *fp, FormDict &globals, uint index);
+  void                format_constant(FILE *fp, uint con_index, uint con_type);
+  // Output code to access the value of the index'th constant
+  void                access_constant(FILE *fp, FormDict &globals,
+                                      uint con_index);
+  // ---------------------------
+
+
+  virtual void dump();             // Debug printer
+  virtual void output(FILE *fp);   // Write to output files
+};
+
+//------------------------------Constraint-------------------------------------
+class Constraint : public Form {
+private:
+
+public:
+  const char      *_func;          // Constraint function
+  const char      *_arg;           // function's argument
+
+  // Public Methods
+  Constraint(const char *func, const char *arg); // Constructor
+  ~Constraint();
+
+  bool stack_slots_only() const;
+
+  void dump();                     // Debug printer
+  void output(FILE *fp);           // Write info to output files
+};
+
+//------------------------------Predicate--------------------------------------
+class Predicate : public Form {
+private:
+
+public:
+  // Public Data
+  char *_pred;                     // C++ source string for predicate
+
+  // Public Methods
+  Predicate(char *pr);
+  ~Predicate();
+
+  void dump();
+  void output(FILE *fp);
+};
+
+//------------------------------Interface--------------------------------------
+class Interface : public Form {
+private:
+
+public:
+  // Public Data
+  const char *_name;               // String representing the interface name
+
+  // Public Methods
+  Interface(const char *name);
+  ~Interface();
+
+  virtual Form::InterfaceType interface_type(FormDict &globals) const;
+
+  RegInterface   *is_RegInterface();
+  MemInterface   *is_MemInterface();
+  ConstInterface *is_ConstInterface();
+  CondInterface  *is_CondInterface();
+
+
+  void dump();
+  void output(FILE *fp);
+};
+
+//------------------------------RegInterface-----------------------------------
+class RegInterface : public Interface {
+private:
+
+public:
+  // Public Methods
+  RegInterface();
+  ~RegInterface();
+
+  void dump();
+  void output(FILE *fp);
+};
+
+//------------------------------ConstInterface---------------------------------
+class ConstInterface : public Interface {
+private:
+
+public:
+  // Public Methods
+  ConstInterface();
+  ~ConstInterface();
+
+  void dump();
+  void output(FILE *fp);
+};
+
+//------------------------------MemInterface-----------------------------------
+class MemInterface : public Interface {
+private:
+
+public:
+  // Public Data
+  char *_base;                     // Base address
+  char *_index;                    // index
+  char *_scale;                    // scaling factor
+  char *_disp;                     // displacement
+
+  // Public Methods
+  MemInterface(char *base, char *index, char *scale, char *disp);
+  ~MemInterface();
+
+  void dump();
+  void output(FILE *fp);
+};
+
+//------------------------------CondInterface----------------------------------
+class CondInterface : public Interface {
+private:
+
+public:
+  const char *_equal;
+  const char *_not_equal;
+  const char *_less;
+  const char *_greater_equal;
+  const char *_less_equal;
+  const char *_greater;
+
+  // Public Methods
+  CondInterface(char *equal, char *not_equal, char *less, char *greater_equal,
+                char *less_equal, char *greater);
+  ~CondInterface();
+
+  void dump();
+  void output(FILE *fp);
+};
+
+//------------------------------ConstructRule----------------------------------
+class ConstructRule : public Form {
+private:
+
+public:
+  // Public Data
+  char *_expr;                     // String representing the match expression
+  char *_construct;                // String representing C++ constructor code
+
+  // Public Methods
+  ConstructRule(char *cnstr);
+  ~ConstructRule();
+
+  void dump();
+  void output(FILE *fp);
+};
+
+
+//==============================Shared=========================================
+//------------------------------AttributeForm----------------------------------
+class AttributeForm : public Form {
+private:
+  // counters for unique instruction or operand ID
+  static int   _insId;             // user-defined machine instruction types
+  static int   _opId;              // user-defined operand types
+
+  int  id;                         // hold type for this object
+
+public:
+  // Public Data
+  char *_attrname;                 // Name of attribute
+  int   _atype;                    // Either INS_ATTR or OP_ATTR
+  char *_attrdef;                  // C++ source which evaluates to constant
+
+  // Public Methods
+  AttributeForm(char *attr, int type, char *attrdef);
+  ~AttributeForm();
+
+  // Dynamic type check
+  virtual AttributeForm *is_attribute() const;
+
+  int  type() { return id;}        // return this object's "id"
+
+  static const char* _ins_cost;        // "ins_cost"
+  static const char* _ins_pc_relative; // "ins_pc_relative"
+  static const char* _op_cost;         // "op_cost"
+
+  void dump();                     // Debug printer
+  void output(FILE *fp);           // Write output files
+};
+
+//------------------------------Component--------------------------------------
+class Component : public Form {
+private:
+
+public:
+  // Public Data
+  const char *_name;              // Name of this component
+  const char *_type;              // Type of this component
+  int         _usedef;            // Value of component
+
+  // Public Methods
+  Component(const char *name, const char *type, int usedef);
+  ~Component();
+
+
+  // Return 'true' if this use def info equals the parameter
+  bool  is(int use_def_kill_enum) const;
+  // Return 'true' if this use def info is a superset of parameter
+  bool  isa(int use_def_kill_enum) const;
+  int   promote_use_def_info(int new_use_def);
+  const char *base_type(FormDict &globals);
+  // Form::DataType is_base_constant(FormDict &globals);
+
+  void dump();                     // Debug printer
+  void output(FILE *fp);           // Write to output files
+
+public:
+  // Implementation depends upon working bit intersection and union.
+  enum use_def_enum {
+    INVALID = 0x0,
+    USE     = 0x1,
+    DEF     = 0x2, USE_DEF   = 0x3,
+    KILL    = 0x4, USE_KILL  = 0x5,
+    SYNTHETIC = 0x8,
+    TEMP = USE | SYNTHETIC
+  };
+};
+
+
+//------------------------------MatchNode--------------------------------------
+class MatchNode : public Form {
+private:
+
+public:
+  // Public Data
+  const char  *_result;            // The name of the output of this node
+  const char  *_name;              // The name that appeared in the match rule
+  const char  *_opType;            // The Operation/Type matched
+  MatchNode   *_lChild;            // Left child in expression tree
+  MatchNode   *_rChild;            // Right child in expression tree
+  int         _numleaves;          // Sum of numleaves for all direct children
+  ArchDesc    &_AD;                // Reference to ArchDesc object
+  char        *_internalop;        // String representing internal operand
+  int         _commutative_id;     // id of commutative operation
+
+  // Public Methods
+  MatchNode(ArchDesc &ad, const char *result = 0, const char *expr = 0,
+            const char *opType=0, MatchNode *lChild=NULL,
+            MatchNode *rChild=NULL);
+  MatchNode(ArchDesc &ad, MatchNode& mNode); // Shallow copy constructor;
+  MatchNode(ArchDesc &ad, MatchNode& mNode, int clone); // Construct clone
+  ~MatchNode();
+
+  // return 0 if not found:
+  // return 1 if found and position is incremented by operand offset in rule
+  bool       find_name(const char *str, int &position) const;
+  bool       find_type(const char *str, int &position) const;
+  void       append_components(FormDict &locals, ComponentList &components,
+                               bool def_flag) const;
+  bool       base_operand(uint &position, FormDict &globals,
+                         const char * &result, const char * &name,
+                         const char * &opType) const;
+  // recursive count on operands
+  uint       num_consts(FormDict &globals) const;
+  uint       num_const_ptrs(FormDict &globals) const;
+  // recursive count of constants with specified type
+  uint       num_consts(FormDict &globals, Form::DataType type) const;
+  // uint       num_consts() const;   // Local inspection only
+  int        needs_ideal_memory_edge(FormDict &globals) const;
+  int        needs_base_oop_edge() const;
+
+  // Help build instruction predicates.  Search for operand names.
+  void count_instr_names( Dict &names );
+  int build_instr_pred( char *buf, const char *name, int cnt );
+  void build_internalop( );
+
+  // Return the name of the operands associated with reducing to this operand:
+  // The result type, plus the left and right sides of the binary match
+  // Return NULL if there is no left or right hand side
+  bool       sets_result()   const;    // rule "Set"s result of match
+  const char *reduce_right(FormDict &globals)  const;
+  const char *reduce_left (FormDict &globals)  const;
+
+  // Recursive version of check in MatchRule
+  int        cisc_spill_match(FormDict &globals, RegisterForm *registers,
+                              MatchNode *mRule2, const char * &operand,
+                              const char * &reg_type);
+  int        cisc_spill_merge(int left_result, int right_result);
+
+  bool       equivalent(FormDict &globals, MatchNode *mNode2);
+
+  void       count_commutative_op(int& count);
+  void       swap_commutative_op(bool atroot, int count);
+
+  void dump();
+  void output(FILE *fp);
+};
+
+//------------------------------MatchRule--------------------------------------
+class MatchRule : public MatchNode {
+private:
+
+public:
+  // Public Data
+  const char *_machType;            // Machine type index
+  int         _depth;               // Expression tree depth
+  char       *_construct;           // String representing C++ constructor code
+  int         _numchilds;           // Number of direct children
+  MatchRule  *_next;                // Pointer to next match rule
+
+  // Public Methods
+  MatchRule(ArchDesc &ad);
+  MatchRule(ArchDesc &ad, MatchRule* mRule); // Shallow copy constructor;
+  MatchRule(ArchDesc &ad, MatchNode* mroot, int depth, char* construct, int numleaves);
+  ~MatchRule();
+
+  void       append_components(FormDict &locals, ComponentList &components) const;
+  // Recursive call on all operands' match rules in my match rule.
+  bool       base_operand(uint &position, FormDict &globals,
+                         const char * &result, const char * &name,
+                         const char * &opType) const;
+
+
+  bool       is_base_register(FormDict &globals) const;
+  Form::DataType is_base_constant(FormDict &globals) const;
+  bool       is_chain_rule(FormDict &globals) const;
+  int        is_ideal_copy() const;
+  int        is_expensive() const;     // node matches ideal 'CosD'
+  bool       is_ideal_unlock() const;
+  bool       is_ideal_call_leaf() const;
+  bool       is_ideal_if()   const;    // node matches ideal 'If'
+  bool       is_ideal_fastlock() const; // node matches ideal 'FastLock'
+  bool       is_ideal_jump()   const;  // node matches ideal 'Jump'
+  bool       is_ideal_membar() const;  // node matches ideal 'MemBarXXX'
+  bool       is_ideal_loadPC() const;  // node matches ideal 'LoadPC'
+  bool       is_ideal_box() const;     // node matches ideal 'Box'
+  bool       is_ideal_goto() const;    // node matches ideal 'Goto'
+  bool       is_ideal_loopEnd() const; // node matches ideal 'LoopEnd'
+  bool       is_ideal_bool() const;    // node matches ideal 'Bool'
+  Form::DataType is_ideal_load() const;// node matches ideal 'LoadXNode'
+  Form::DataType is_ideal_store() const;// node matches ideal 'StoreXNode'
+
+  // Check if 'mRule2' is a cisc-spill variant of this MatchRule
+  int        cisc_spill_match(FormDict &globals, RegisterForm *registers,
+                              MatchRule *mRule2, const char * &operand,
+                              const char * &reg_type);
+
+  // Check if 'mRule2' is equivalent to this MatchRule
+  bool       equivalent(FormDict &globals, MatchRule *mRule2);
+
+  void       swap_commutative_op(const char* instr_ident, int count, int& match_rules_cnt);
+
+  void dump();
+  void output(FILE *fp);
+};
+
+//------------------------------Attribute--------------------------------------
+class Attribute : public Form {
+private:
+
+public:
+  // Public Data
+  char *_ident;                    // Name of predefined attribute
+  char *_val;                      // C++ source which evaluates to constant
+  int   _atype;                    // Either INS_ATTR or OP_ATTR
+  int   int_val(ArchDesc &ad);     // Return atoi(_val), ensuring syntax.
+
+  // Public Methods
+  Attribute(char *id, char* val, int type);
+  ~Attribute();
+
+  void dump();
+  void output(FILE *fp);
+};
+
+//------------------------------FormatRule-------------------------------------
+class FormatRule : public Form {
+private:
+
+public:
+  // Public Data
+  // There is an entry in _strings, perhaps NULL, that precedes each _rep_vars
+  NameList  _strings;              // Strings passed through to tty->print
+  NameList  _rep_vars;             // replacement variables
+  char     *_temp;                 // String representing the assembly code
+
+  // Public Methods
+  FormatRule(char *temp);
+  ~FormatRule();
+
+  void dump();
+  void output(FILE *fp);
+};