/* * Copyright 1997-2007 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. * */ // FORMS.HPP - ADL Parser Generic and Utility Forms Classes #define TRUE 1 #define FALSE 0 // DEFINITIONS OF LEGAL ATTRIBUTE TYPES #define INS_ATTR 0 #define OP_ATTR 1 // DEFINITIONS OF LEGAL CONSTRAINT TYPES // 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 PipeClassForm; class PeepMatch; class PeepConstraint; class PeepReplace; class MatchList; class ArchDesc; //------------------------------FormDict--------------------------------------- // Dictionary containing Forms, and objects derived from forms class FormDict { private: Dict _form; // map names, char*, to their Form* or NULL // Disable public use of constructor, copy-ctor, operator =, operator == FormDict( ); FormDict &operator =( const FormDict & ); // == compares two dictionaries; they must have the same keys (their keys // must match using CmpKey) and they must have the same values (pointer // comparison). If so 1 is returned, if not 0 is returned. bool operator ==(const FormDict &d) const; // Compare dictionaries for equal public: // cmp is a key comparision routine. hash is a routine to hash a key. // FormDict( CmpKey cmp, Hash hash ); FormDict( CmpKey cmp, Hash hash, Arena *arena ); FormDict( const FormDict & fd ); // Deep-copy guts ~FormDict(); // Return # of key-value pairs in dict int Size(void) const; // Insert inserts the given key-value pair into the dictionary. The prior // value of the key is returned; NULL if the key was not previously defined. const Form *Insert(const char *name, Form *form); // A new key-value // Find finds the value of a given key; or NULL if not found. // The dictionary is NOT changed. const Form *operator [](const char *name) const; // Do a lookup void dump(); }; // ***** Master Class for ADL Parser Forms ***** //------------------------------Form------------------------------------------- class Form { public: static Arena *arena; // arena used by forms private: static Arena *generate_arena(); // allocate arena used by forms protected: int _ftype; // Indicator for derived class type public: // Public Data Form *_next; // Next pointer for form lists long _linenum; // Line number for debugging // Dynamic type check for common forms. virtual OpClassForm *is_opclass() const; virtual OperandForm *is_operand() const; virtual InstructForm *is_instruction() const; virtual MachNodeForm *is_machnode() const; virtual AttributeForm *is_attribute() const; virtual Effect *is_effect() const; virtual ResourceForm *is_resource() const; virtual PipeClassForm *is_pipeclass() const; // Check if this form is an operand usable for cisc-spilling virtual bool is_cisc_reg(FormDict &globals) const { return false; } virtual bool is_cisc_mem(FormDict &globals) const { return false; } // Public Methods Form(int formType=0, int line=0) : _next(NULL), _linenum(line), _ftype(formType) { }; ~Form() {}; virtual bool ideal_only() const { assert(0,"Check of ideal status on non-instruction/operand form.\n"); return FALSE; } // Check constraints after parsing virtual bool verify() { return true; } virtual void dump() { output(stderr); } // Debug printer // Write info to output files virtual void output(FILE *fp) { fprintf(fp,"Form Output"); } public: // ADLC types, match the last character on ideal operands and instructions enum DataType { none = 0, // Not a simple type idealI = 1, // Integer type idealP = 2, // Pointer types, oop(s) idealL = 3, // Long type idealF = 4, // Float type idealD = 5, // Double type idealB = 6, // Byte type idealC = 7, // Char type idealS = 8, // String type idealN = 9 // Narrow oop types }; // Convert ideal name to a DataType, return DataType::none if not a 'ConX' Form::DataType ideal_to_const_type(const char *ideal_type_name) const; // Convert ideal name to a DataType, return DataType::none if not a 'sRegX Form::DataType ideal_to_sReg_type(const char *name) const; // Convert ideal name to a DataType, return DataType::none if not a 'RegX Form::DataType ideal_to_Reg_type(const char *name) const; // Convert ideal name to a DataType, return DataType::none if not a 'LoadX Form::DataType is_load_from_memory(const char *opType) const; // Convert ideal name to a DataType, return DataType::none if not a 'StoreX Form::DataType is_store_to_memory(const char *opType) const; // ADLC call types, matched with ideal world enum CallType { invalid_type = 0, // invalid call type JAVA_STATIC = 1, // monomorphic entry JAVA_DYNAMIC = 2, // possibly megamorphic, inline cache call JAVA_COMPILED = 3, // callee will be compiled java JAVA_INTERP = 4, // callee will be executed by interpreter JAVA_NATIVE = 5, // native entrypoint JAVA_RUNTIME = 6, // runtime entrypoint JAVA_LEAF = 7 // calling leaf }; // Interface types for operands and operand classes enum InterfaceType { no_interface = 0, // unknown or inconsistent interface type constant_interface = 1, // interface to constants register_interface = 2, // interface to registers memory_interface = 3, // interface to memory conditional_interface = 4 // interface for condition codes }; virtual Form::InterfaceType interface_type(FormDict &globals) const; enum CiscSpillInfo { Not_cisc_spillable = AdlcVMDeps::Not_cisc_spillable, Maybe_cisc_spillable = 0, Is_cisc_spillable = 1 // ... }; // LEGAL FORM TYPES enum { INS, OPER, OPCLASS, SRC, ADEF, REG, PIPE, CNST, PRED, ATTR, MAT, ENC, FOR, EXP, REW, EFF, RDEF, RCL, ACL, RES, PCL, PDEF, REGL, RESL, STAL, COMP, PEEP, RESO }; }; //------------------------------FormList--------------------------------------- class FormList { private: Form *_root; Form *_tail; Form *_cur; int _justReset; // Set immediately after reset Form *_cur2; // Nested iterator int _justReset2; public: void addForm(Form * entry) { if (_tail==NULL) { _root = _tail = _cur = entry;} else { _tail->_next = entry; _tail = entry;} }; Form * current() { return _cur; }; Form * iter() { if (_justReset) _justReset = 0; else if (_cur) _cur = _cur->_next; return _cur;}; void reset() { if (_root) {_cur = _root; _justReset = 1;} }; // Second iterator, state is internal Form * current2(){ return _cur2; }; Form * iter2() { if (_justReset2) _justReset2 = 0; else if (_cur2) _cur2 = _cur2->_next; return _cur2;}; void reset2() { if (_root) {_cur2 = _root; _justReset2 = 1;} }; int count() { int count = 0; reset(); for( Form *cur; (cur = iter()) != NULL; ) { ++count; }; return count; } void dump() { reset(); Form *cur; for(; (cur = iter()) != NULL; ) { cur->dump(); }; } bool verify() { bool verified = true; reset(); Form *cur; for(; (cur = iter()) != NULL; ) { if ( ! cur->verify() ) verified = false; }; return verified; } void output(FILE* fp) { reset(); Form *cur; for( ; (cur = iter()) != NULL; ) { cur->output(fp); }; } FormList() { _justReset = 1; _justReset2 = 1; _root = NULL; _tail = NULL; _cur = NULL; _cur2 = NULL;}; ~FormList(); }; //------------------------------NameList--------------------------------------- // Extendable list of pointers, class NameList { friend class PreserveIter; private: int _cur; // Insert next entry here; count of entries int _max; // Number of spaces allocated const char **_names; // Array of names protected: int _iter; // position during iteration bool _justReset; // Set immediately after reset public: static const char *_signal; // reserved user-defined string enum { Not_in_list = -1 }; void addName(const char *name); void add_signal(); void clear(); // Remove all entries int count() const; void reset(); // Reset iteration const char *iter(); // after reset(), first element : else next const char *current(); // return current element in iteration. bool current_is_signal(); // Return 'true' if current entry is signal bool is_signal(const char *entry); // Return true if entry is a signal bool search(const char *); // Search for a name in the list int index(const char *); // Return index of name in list const char *name (intptr_t index);// Return name at index in list void dump(); // output to stderr void output(FILE *fp); // Output list of names to 'fp' NameList(); ~NameList(); }; // Convenience class to preserve iteration state since iterators are // internal instead of being external. class PreserveIter { private: NameList* _list; int _iter; bool _justReset; public: PreserveIter(NameList* nl) { _list = nl; _iter = _list->_iter; _justReset = _list->_justReset; } ~PreserveIter() { _list->_iter = _iter; _list->_justReset = _justReset; } }; //------------------------------NameAndList------------------------------------ // Storage for a name and an associated list of names class NameAndList { private: const char *_name; NameList _list; public: NameAndList(char *name); ~NameAndList(); // Add to entries in list void add_entry(const char *entry); // Access the name and its associated list. const char *name() const; void reset(); const char *iter(); int count() { return _list.count(); } // Return the "index" entry in the list, zero-based const char *operator[](int index); void dump(); // output to stderr void output(FILE *fp); // Output list of names to 'fp' }; //------------------------------ComponentList--------------------------------- // Component lists always have match rule operands first, followed by parameter // operands which do not appear in the match list (in order of declaration). class ComponentList : private NameList { private: int _matchcnt; // Count of match rule operands public: // This is a batch program. (And I have a destructor bug!) void operator delete( void *ptr ) {} void insert(Component *component, bool mflag); void insert(const char *name, const char *opType, int usedef, bool mflag); int count(); int match_count() { return _matchcnt; } // Get count of match rule opers Component *iter(); // after reset(), first element : else next Component *match_iter(); // after reset(), first element : else next Component *post_match_iter(); // after reset(), first element : else next void reset(); // Reset iteration Component *current(); // return current element in iteration. // Return element at "position", else NULL Component *operator[](int position); Component *at(int position) { return (*this)[position]; } // Return first component having this name. const Component *search(const char *name); // Return number of USEs + number of DEFs int num_operands(); // Return zero-based position in list; -1 if not in list. int operand_position(const char *name, int usedef); // Find position for this name, regardless of use/def information int operand_position(const char *name); // Find position for this name when looked up for output via "format" int operand_position_format(const char *name); // Find position for the Label when looked up for output via "format" int label_position(); // Find position for the Method when looked up for output via "format" int method_position(); void dump(); // output to stderr void output(FILE *fp); // Output list of names to 'fp' ComponentList(); ~ComponentList(); }; //------------------------------SourceForm------------------------------------- class SourceForm : public Form { private: public: // Public Data char *_code; // Buffer for storing code text // Public Methods SourceForm(char* code); ~SourceForm(); virtual const char* classname() { return "SourceForm"; } void dump(); // Debug printer void output(FILE *fp); // Write output files }; class HeaderForm : public SourceForm { public: HeaderForm(char* code) : SourceForm(code) { } virtual const char* classname() { return "HeaderForm"; } }; class PreHeaderForm : public SourceForm { public: PreHeaderForm(char* code) : SourceForm(code) { } virtual const char* classname() { return "PreHeaderForm"; } }; //------------------------------Expr------------------------------------------ #define STRING_BUFFER_LENGTH 2048 // class Expr represents integer expressions containing constants and addition // Value must be in range zero through maximum positive integer. 32bits. // Expected use: instruction and operand costs class Expr { public: enum { Zero = 0, Max = 0x7fffffff }; const char *_external_name; // if !NULL, then print this instead of _expr const char *_expr; int _min_value; int _max_value; Expr(); Expr(const char *cost); Expr(const char *name, const char *expression, int min_value, int max_value); Expr *clone() const; bool is_unknown() const { return (this == Expr::get_unknown()); } bool is_zero() const { return (_min_value == Expr::Zero && _max_value == Expr::Zero); } bool less_than_or_equal(const Expr *c) const { return (_max_value <= c->_min_value); } void add(const Expr *c); void add(const char *c); void add(const char *c, ArchDesc &AD); // check if 'c' is defined in .ad void set_external_name(const char *name) { _external_name = name; } const char *as_string() const { return (_external_name != NULL ? _external_name : _expr); } void print() const; void print_define(FILE *fp) const; void print_assert(FILE *fp) const; static Expr *get_unknown(); // Returns pointer to shared unknown cost instance static char *buffer() { return &external_buffer[0]; } static bool init_buffers(); // Fill buffers with 0 static bool check_buffers(); // if buffer use may have overflowed, assert private: static Expr *_unknown_expr; static char string_buffer[STRING_BUFFER_LENGTH]; static char external_buffer[STRING_BUFFER_LENGTH]; static bool _init_buffers; const char *compute_expr(const Expr *c1, const Expr *c2); // cost as string after adding 'c1' and 'c2' int compute_min (const Expr *c1, const Expr *c2); // minimum after adding 'c1' and 'c2' int compute_max (const Expr *c1, const Expr *c2); // maximum after adding 'c1' and 'c2' const char *compute_external(const Expr *c1, const Expr *c2); // external name after adding 'c1' and 'c2' }; //------------------------------ExprDict--------------------------------------- // Dictionary containing Exprs class ExprDict { private: Dict _expr; // map names, char*, to their Expr* or NULL NameList _defines; // record the order of definitions entered with define call // Disable public use of constructor, copy-ctor, operator =, operator == ExprDict( ); ExprDict( const ExprDict & ); // Deep-copy guts ExprDict &operator =( const ExprDict & ); // == compares two dictionaries; they must have the same keys (their keys // must match using CmpKey) and they must have the same values (pointer // comparison). If so 1 is returned, if not 0 is returned. bool operator ==(const ExprDict &d) const; // Compare dictionaries for equal public: // cmp is a key comparision routine. hash is a routine to hash a key. ExprDict( CmpKey cmp, Hash hash, Arena *arena ); ~ExprDict(); // Return # of key-value pairs in dict int Size(void) const; // define inserts the given key-value pair into the dictionary, // and records the name in order for later output, ... const Expr *define(const char *name, Expr *expr); // Insert inserts the given key-value pair into the dictionary. The prior // value of the key is returned; NULL if the key was not previously defined. const Expr *Insert(const char *name, Expr *expr); // A new key-value // Find finds the value of a given key; or NULL if not found. // The dictionary is NOT changed. const Expr *operator [](const char *name) const; // Do a lookup void print_defines(FILE *fp); void print_asserts(FILE *fp); void dump(); };