gcc/ipa-icf-gimple.h - gcc - Git at Google

 /* Interprocedural semantic function equality pass
    Copyright (C) 2014-2021 Free Software Foundation, Inc.

    Contributed by Jan Hubicka <hubicka@ucw.cz> and Martin Liska <mliska@suse.cz>

 This file is part of GCC.

 GCC is free software; you can redistribute it and/or modify it under
 the terms of the GNU General Public License as published by the Free
 Software Foundation; either version 3, or (at your option) any later
 version.

 GCC 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
 for more details.

 You should have received a copy of the GNU General Public License
 along with GCC; see the file COPYING3.  If not see
 <http://www.gnu.org/licenses/>.  */

 /* Gimple identical code folding (class func_checker) is an infrastructure
    capable of comparing two given functions. The class compares every
    gimple statement and uses many dictionaries to map source and target
    SSA_NAMEs, declarations and other components.

    To use the infrastructure, create an instance of func_checker and call
    a comparison function based on type of gimple statement.  */

 /* Prints string STRING to a FILE with a given number of SPACE_COUNT.  */
 #define FPUTS_SPACES(file, space_count, string) \
   fprintf (file, "%*s" string, space_count, " ");

 /* fprintf function wrapper that transforms given FORMAT to follow given
    number for SPACE_COUNT and call fprintf for a FILE.  */
 #define FPRINTF_SPACES(file, space_count, format, ...) \
   fprintf (file, "%*s" format, space_count, " ", ##__VA_ARGS__);

 /* Logs a MESSAGE to dump_file if exists and returns false. FUNC is name
    of function and LINE is location in the source file.  */

 static inline bool
 return_false_with_message_1 (const char *message, const char *filename,
 			     const char *func, unsigned int line)
 {
   if (dump_file && (dump_flags & TDF_DETAILS))
     fprintf (dump_file, "  false returned: '%s' in %s at %s:%u\n", message, func,
 	     filename, line);
   return false;
 }

 /* Logs a MESSAGE to dump_file if exists and returns false.  */
 #define return_false_with_msg(message) \
   return_false_with_message_1 (message, __FILE__, __func__, __LINE__)

 /* Return false and log that false value is returned.  */
 #define return_false() return_false_with_msg ("")

 /* Logs return value if RESULT is false. FUNC is name of function and LINE
    is location in the source file.  */

 static inline bool
 return_with_result (bool result, const char *filename,
 		    const char *func, unsigned int line)
 {
   if (!result && dump_file && (dump_flags & TDF_DETAILS))
     fprintf (dump_file, "  false returned: '' in %s at %s:%u\n", func,
 	     filename, line);

   return result;
 }

 /* Logs return value if RESULT is false.  */
 #define return_with_debug(result) return_with_result \
   (result, __FILE__, __func__, __LINE__)

 /* Verbose logging function logging statements S1 and S2 of a CODE.
    FUNC is name of function and LINE is location in the source file.  */

 static inline bool
 return_different_stmts_1 (gimple *s1, gimple *s2, const char *code,
 			  const char *func, unsigned int line)
 {
   if (dump_file && (dump_flags & TDF_DETAILS))
     {
       fprintf (dump_file, "  different statement for code: %s (%s:%u):\n",
 	       code, func, line);

       print_gimple_stmt (dump_file, s1, 3, TDF_DETAILS);
       print_gimple_stmt (dump_file, s2, 3, TDF_DETAILS);
     }

   return false;
 }

 /* Verbose logging function logging statements S1 and S2 of a CODE.  */
 #define return_different_stmts(s1, s2, code) \
   return_different_stmts_1 (s1, s2, code, __func__, __LINE__)

 namespace ipa_icf_gimple {

 /* Basic block struct for semantic equality pass.  */
 class sem_bb
 {
 public:
   sem_bb (basic_block bb_, unsigned nondbg_stmt_count_, unsigned edge_count_):
     bb (bb_), nondbg_stmt_count (nondbg_stmt_count_), edge_count (edge_count_) {}

   /* Basic block the structure belongs to.  */
   basic_block bb;

   /* Number of non-debug statements in the basic block.  */
   unsigned nondbg_stmt_count;

   /* Number of edges connected to the block.  */
   unsigned edge_count;
 };

 /* A class aggregating all connections and semantic equivalents
    for a given pair of semantic function candidates.  */
 class func_checker : ao_compare
 {
 public:
   /* Default constructor.  */
   func_checker ():
     m_source_func_decl (NULL_TREE), m_target_func_decl (NULL_TREE),
     m_ignored_source_nodes (NULL), m_ignored_target_nodes (NULL),
     m_ignore_labels (false), m_tbaa (true)
   {
     m_source_ssa_names.create (0);
     m_target_ssa_names.create (0);
   }

   /* Initialize internal structures for a given SOURCE_FUNC_DECL and
      TARGET_FUNC_DECL. Strict polymorphic comparison is processed if
      an option COMPARE_POLYMORPHIC is true. For special cases, one can
      set IGNORE_LABELS to skip label comparison.
      Similarly, IGNORE_SOURCE_DECLS and IGNORE_TARGET_DECLS are sets
      of declarations that can be skipped.  */
   func_checker (tree source_func_decl, tree target_func_decl,
 		bool ignore_labels = false,
 		bool tbaa = true,
 		hash_set<symtab_node *> *ignored_source_nodes = NULL,
 		hash_set<symtab_node *> *ignored_target_nodes = NULL);

   /* Memory release routine.  */
   virtual ~func_checker ();

   /* Function visits all gimple labels and creates corresponding
      mapping between basic blocks and labels.  */
   void parse_labels (sem_bb *bb);

   /* Basic block equivalence comparison function that returns true if
      basic blocks BB1 and BB2 correspond.  */
   bool compare_bb (sem_bb *bb1, sem_bb *bb2);

   /* Verifies that trees T1 and T2 are equivalent from perspective of ICF.  */
   bool compare_ssa_name (const_tree t1, const_tree t2);

   /* Verification function for edges E1 and E2.  */
   bool compare_edge (edge e1, edge e2);

   /* Verifies for given GIMPLEs S1 and S2 that
      call statements are semantically equivalent.  */
   bool compare_gimple_call (gcall *s1, gcall *s2);

   /* Verifies for given GIMPLEs S1 and S2 that
      assignment statements are semantically equivalent.  */
   bool compare_gimple_assign (gimple *s1, gimple *s2);

   /* Verifies for given GIMPLEs S1 and S2 that
      condition statements are semantically equivalent.  */
   bool compare_gimple_cond (gimple *s1, gimple *s2);

   /* Verifies for given GIMPLE_LABEL stmts S1 and S2 that
      label statements are semantically equivalent.  */
   bool compare_gimple_label (const glabel *s1, const glabel *s2);

   /* Verifies for given GIMPLE_SWITCH stmts S1 and S2 that
      switch statements are semantically equivalent.  */
   bool compare_gimple_switch (const gswitch *s1, const gswitch *s2);

   /* Verifies for given GIMPLE_RETURN stmts S1 and S2 that
      return statements are semantically equivalent.  */
   bool compare_gimple_return (const greturn *s1, const greturn *s2);

   /* Verifies for given GIMPLEs S1 and S2 that
      goto statements are semantically equivalent.  */
   bool compare_gimple_goto (gimple *s1, gimple *s2);

   /* Verifies for given GIMPLE_RESX stmts S1 and S2 that
      resx statements are semantically equivalent.  */
   bool compare_gimple_resx (const gresx *s1, const gresx *s2);

   /* Verifies for given GIMPLE_ASM stmts S1 and S2 that ASM statements
      are equivalent.
      For the beginning, the pass only supports equality for
      '__asm__ __volatile__ ("", "", "", "memory")'.  */
   bool compare_gimple_asm (const gasm *s1, const gasm *s2);

   /* Verification function for declaration trees T1 and T2.  */
   bool compare_decl (const_tree t1, const_tree t2);

   /* Compute hash map MAP that determines loads and stores of STMT.  */
   enum operand_access_type {OP_MEMORY, OP_NORMAL};
   typedef hash_set<tree> operand_access_type_map;

   /* Function responsible for comparison of various operands T1 and T2.
      If these components, from functions FUNC1 and FUNC2, are equal, true
      is returned.  */
   bool compare_operand (tree t1, tree t2, operand_access_type type);

   /* Compares GIMPLE ASM inputs (or outputs) where we iterate tree chain
      and compare both TREE_PURPOSEs and TREE_VALUEs.  */
   bool compare_asm_inputs_outputs (tree t1, tree t2,
 				   operand_access_type_map *map);

   /* Verifies that trees T1 and T2, representing function declarations
      are equivalent from perspective of ICF.  */
   bool compare_function_decl (tree t1, tree t2);

   /* Verifies that trees T1 and T2 do correspond.  */
   bool compare_variable_decl (const_tree t1, const_tree t2);

   /* Compare loop information for basic blocks BB1 and BB2.  */
   bool compare_loops (basic_block bb1, basic_block bb2);

   /* Return true if types are compatible for polymorphic call analysis.
      COMPARE_PTR indicates if polymorphic type comparison should be
      done for pointers, too.  */
   static bool compatible_polymorphic_types_p (tree t1, tree t2,
 					      bool compare_ptr);

   /* Return true if types are compatible from perspective of ICF.
      FIRST_ARGUMENT indicates if the comparison is called for
      first parameter of a function.  */
   static bool compatible_types_p (tree t1, tree t2);

   /* Compute hash map determining access types of operands.  */
   static void classify_operands (const gimple *stmt,
 				 operand_access_type_map *map);

   /* Return access type of a given operand.  */
   static operand_access_type get_operand_access_type
 		 (operand_access_type_map *map, tree);
 private:
   /* Vector mapping source SSA names to target ones.  */
   vec <int> m_source_ssa_names;

   /* Vector mapping target SSA names to source ones.  */
   vec <int> m_target_ssa_names;

   /* Source TREE function declaration.  */
   tree m_source_func_decl;

   /* Target TREE function declaration.  */
   tree m_target_func_decl;

   /* Source symbol nodes that should be skipped by
      declaration comparison.  */
   hash_set<symtab_node *> *m_ignored_source_nodes;

   /* Target symbol nodes that should be skipped by
      declaration comparison.  */
   hash_set<symtab_node *> *m_ignored_target_nodes;

   /* Source to target edge map.  */
   hash_map <edge, edge> m_edge_map;

   /* Source to target declaration map.  */
   hash_map <const_tree, const_tree> m_decl_map;

   /* Label to basic block index mapping.  */
   hash_map <const_tree, int> m_label_bb_map;

   /* Flag if ignore labels in comparison.  */
   bool m_ignore_labels;

   /* Flag if we should compare type based alias analysis info.  */
   bool m_tbaa;

 public:
   /* Return true if two operands are equal.  The flags fields can be used
      to specify OEP flags described above.  */
   virtual bool operand_equal_p (const_tree, const_tree, unsigned int flags);

   /* Generate a hash value for an expression.  This can be used iteratively
      by passing a previous result as the HSTATE argument.  */
   virtual void hash_operand (const_tree, inchash::hash &, unsigned flags);
   void hash_operand (const_tree, inchash::hash &, unsigned flags,
 		     operand_access_type access);
 };

 } // ipa_icf_gimple namespace
	/* Interprocedural semantic function equality pass
	Copyright (C) 2014-2021 Free Software Foundation, Inc.

	Contributed by Jan Hubicka <hubicka@ucw.cz> and Martin Liska <mliska@suse.cz>

	This file is part of GCC.

	GCC is free software; you can redistribute it and/or modify it under
	the terms of the GNU General Public License as published by the Free
	Software Foundation; either version 3, or (at your option) any later
	version.

	GCC 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
	for more details.

	You should have received a copy of the GNU General Public License
	along with GCC; see the file COPYING3. If not see
	<http://www.gnu.org/licenses/>. */

	/* Gimple identical code folding (class func_checker) is an infrastructure
	capable of comparing two given functions. The class compares every
	gimple statement and uses many dictionaries to map source and target
	SSA_NAMEs, declarations and other components.

	To use the infrastructure, create an instance of func_checker and call
	a comparison function based on type of gimple statement. */

	/* Prints string STRING to a FILE with a given number of SPACE_COUNT. */
	#define FPUTS_SPACES(file, space_count, string) \
	fprintf (file, "%*s" string, space_count, " ");

	/* fprintf function wrapper that transforms given FORMAT to follow given
	number for SPACE_COUNT and call fprintf for a FILE. */
	#define FPRINTF_SPACES(file, space_count, format, ...) \
	fprintf (file, "%*s" format, space_count, " ", ##__VA_ARGS__);

	/* Logs a MESSAGE to dump_file if exists and returns false. FUNC is name
	of function and LINE is location in the source file. */

	static inline bool
	return_false_with_message_1 (const char message, const char filename,
	const char *func, unsigned int line)
	{
	if (dump_file && (dump_flags & TDF_DETAILS))
	fprintf (dump_file, " false returned: '%s' in %s at %s:%u\n", message, func,
	filename, line);
	return false;
	}

	/* Logs a MESSAGE to dump_file if exists and returns false. */
	#define return_false_with_msg(message) \
	return_false_with_message_1 (message, __FILE__, __func__, __LINE__)

	/* Return false and log that false value is returned. */
	#define return_false() return_false_with_msg ("")

	/* Logs return value if RESULT is false. FUNC is name of function and LINE
	is location in the source file. */

	static inline bool
	return_with_result (bool result, const char *filename,
	const char *func, unsigned int line)
	{
	if (!result && dump_file && (dump_flags & TDF_DETAILS))
	fprintf (dump_file, " false returned: '' in %s at %s:%u\n", func,
	filename, line);

	return result;
	}

	/* Logs return value if RESULT is false. */
	#define return_with_debug(result) return_with_result \
	(result, __FILE__, __func__, __LINE__)

	/* Verbose logging function logging statements S1 and S2 of a CODE.
	FUNC is name of function and LINE is location in the source file. */

	static inline bool
	return_different_stmts_1 (gimple s1, gimple s2, const char *code,
	const char *func, unsigned int line)
	{
	if (dump_file && (dump_flags & TDF_DETAILS))
	{
	fprintf (dump_file, " different statement for code: %s (%s:%u):\n",
	code, func, line);

	print_gimple_stmt (dump_file, s1, 3, TDF_DETAILS);
	print_gimple_stmt (dump_file, s2, 3, TDF_DETAILS);
	}

	return false;
	}

	/* Verbose logging function logging statements S1 and S2 of a CODE. */
	#define return_different_stmts(s1, s2, code) \
	return_different_stmts_1 (s1, s2, code, __func__, __LINE__)

	namespace ipa_icf_gimple {

	/* Basic block struct for semantic equality pass. */
	class sem_bb
	{
	public:
	sem_bb (basic_block bb_, unsigned nondbg_stmt_count_, unsigned edge_count_):
	bb (bb_), nondbg_stmt_count (nondbg_stmt_count_), edge_count (edge_count_) {}

	/* Basic block the structure belongs to. */
	basic_block bb;

	/* Number of non-debug statements in the basic block. */
	unsigned nondbg_stmt_count;

	/* Number of edges connected to the block. */
	unsigned edge_count;
	};

	/* A class aggregating all connections and semantic equivalents
	for a given pair of semantic function candidates. */
	class func_checker : ao_compare
	{
	public:
	/* Default constructor. */
	func_checker ():
	m_source_func_decl (NULL_TREE), m_target_func_decl (NULL_TREE),
	m_ignored_source_nodes (NULL), m_ignored_target_nodes (NULL),
	m_ignore_labels (false), m_tbaa (true)
	{
	m_source_ssa_names.create (0);
	m_target_ssa_names.create (0);
	}

	/* Initialize internal structures for a given SOURCE_FUNC_DECL and
	TARGET_FUNC_DECL. Strict polymorphic comparison is processed if
	an option COMPARE_POLYMORPHIC is true. For special cases, one can
	set IGNORE_LABELS to skip label comparison.
	Similarly, IGNORE_SOURCE_DECLS and IGNORE_TARGET_DECLS are sets
	of declarations that can be skipped. */
	func_checker (tree source_func_decl, tree target_func_decl,
	bool ignore_labels = false,
	bool tbaa = true,
	hash_set<symtab_node > ignored_source_nodes = NULL,
	hash_set<symtab_node > ignored_target_nodes = NULL);

	/* Memory release routine. */
	virtual ~func_checker ();

	/* Function visits all gimple labels and creates corresponding
	mapping between basic blocks and labels. */
	void parse_labels (sem_bb *bb);

	/* Basic block equivalence comparison function that returns true if
	basic blocks BB1 and BB2 correspond. */
	bool compare_bb (sem_bb bb1, sem_bb bb2);

	/* Verifies that trees T1 and T2 are equivalent from perspective of ICF. */
	bool compare_ssa_name (const_tree t1, const_tree t2);

	/* Verification function for edges E1 and E2. */
	bool compare_edge (edge e1, edge e2);

	/* Verifies for given GIMPLEs S1 and S2 that
	call statements are semantically equivalent. */
	bool compare_gimple_call (gcall s1, gcall s2);

	/* Verifies for given GIMPLEs S1 and S2 that
	assignment statements are semantically equivalent. */
	bool compare_gimple_assign (gimple s1, gimple s2);

	/* Verifies for given GIMPLEs S1 and S2 that
	condition statements are semantically equivalent. */
	bool compare_gimple_cond (gimple s1, gimple s2);

	/* Verifies for given GIMPLE_LABEL stmts S1 and S2 that
	label statements are semantically equivalent. */
	bool compare_gimple_label (const glabel s1, const glabel s2);

	/* Verifies for given GIMPLE_SWITCH stmts S1 and S2 that
	switch statements are semantically equivalent. */
	bool compare_gimple_switch (const gswitch s1, const gswitch s2);

	/* Verifies for given GIMPLE_RETURN stmts S1 and S2 that
	return statements are semantically equivalent. */
	bool compare_gimple_return (const greturn s1, const greturn s2);

	/* Verifies for given GIMPLEs S1 and S2 that
	goto statements are semantically equivalent. */
	bool compare_gimple_goto (gimple s1, gimple s2);

	/* Verifies for given GIMPLE_RESX stmts S1 and S2 that
	resx statements are semantically equivalent. */
	bool compare_gimple_resx (const gresx s1, const gresx s2);

	/* Verifies for given GIMPLE_ASM stmts S1 and S2 that ASM statements
	are equivalent.
	For the beginning, the pass only supports equality for
	'__asm__ __volatile__ ("", "", "", "memory")'. */
	bool compare_gimple_asm (const gasm s1, const gasm s2);

	/* Verification function for declaration trees T1 and T2. */
	bool compare_decl (const_tree t1, const_tree t2);

	/* Compute hash map MAP that determines loads and stores of STMT. */
	enum operand_access_type {OP_MEMORY, OP_NORMAL};
	typedef hash_set<tree> operand_access_type_map;

	/* Function responsible for comparison of various operands T1 and T2.
	If these components, from functions FUNC1 and FUNC2, are equal, true
	is returned. */
	bool compare_operand (tree t1, tree t2, operand_access_type type);

	/* Compares GIMPLE ASM inputs (or outputs) where we iterate tree chain
	and compare both TREE_PURPOSEs and TREE_VALUEs. */
	bool compare_asm_inputs_outputs (tree t1, tree t2,
	operand_access_type_map *map);

	/* Verifies that trees T1 and T2, representing function declarations
	are equivalent from perspective of ICF. */
	bool compare_function_decl (tree t1, tree t2);

	/* Verifies that trees T1 and T2 do correspond. */
	bool compare_variable_decl (const_tree t1, const_tree t2);

	/* Compare loop information for basic blocks BB1 and BB2. */
	bool compare_loops (basic_block bb1, basic_block bb2);

	/* Return true if types are compatible for polymorphic call analysis.
	COMPARE_PTR indicates if polymorphic type comparison should be
	done for pointers, too. */
	static bool compatible_polymorphic_types_p (tree t1, tree t2,
	bool compare_ptr);

	/* Return true if types are compatible from perspective of ICF.
	FIRST_ARGUMENT indicates if the comparison is called for
	first parameter of a function. */
	static bool compatible_types_p (tree t1, tree t2);

	/* Compute hash map determining access types of operands. */
	static void classify_operands (const gimple *stmt,
	operand_access_type_map *map);

	/* Return access type of a given operand. */
	static operand_access_type get_operand_access_type
	(operand_access_type_map *map, tree);
	private:
	/* Vector mapping source SSA names to target ones. */
	vec <int> m_source_ssa_names;

	/* Vector mapping target SSA names to source ones. */
	vec <int> m_target_ssa_names;

	/* Source TREE function declaration. */
	tree m_source_func_decl;

	/* Target TREE function declaration. */
	tree m_target_func_decl;

	/* Source symbol nodes that should be skipped by
	declaration comparison. */
	hash_set<symtab_node > m_ignored_source_nodes;

	/* Target symbol nodes that should be skipped by
	declaration comparison. */
	hash_set<symtab_node > m_ignored_target_nodes;

	/* Source to target edge map. */
	hash_map <edge, edge> m_edge_map;

	/* Source to target declaration map. */
	hash_map <const_tree, const_tree> m_decl_map;

	/* Label to basic block index mapping. */
	hash_map <const_tree, int> m_label_bb_map;

	/* Flag if ignore labels in comparison. */
	bool m_ignore_labels;

	/* Flag if we should compare type based alias analysis info. */
	bool m_tbaa;

	public:
	/* Return true if two operands are equal. The flags fields can be used
	to specify OEP flags described above. */
	virtual bool operand_equal_p (const_tree, const_tree, unsigned int flags);

	/* Generate a hash value for an expression. This can be used iteratively
	by passing a previous result as the HSTATE argument. */
	virtual void hash_operand (const_tree, inchash::hash &, unsigned flags);
	void hash_operand (const_tree, inchash::hash &, unsigned flags,
	operand_access_type access);
	};

	} // ipa_icf_gimple namespace