sim/ppc/gen-semantics.c - binutils-gdb - Git at Google

 /*  This file is part of the program psim.

     Copyright (C) 1994-1997, Andrew Cagney <cagney@highland.com.au>

     This program 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 of the License, or
     (at your option) any later version.

     This program 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 this program; if not, see <http://www.gnu.org/licenses/>.

     */


 #include "misc.h"
 #include "lf.h"
 #include "table.h"
 #include "filter.h"

 #include "ld-decode.h"
 #include "ld-cache.h"
 #include "ld-insn.h"

 #include "igen.h"

 #include "gen-semantics.h"
 #include "gen-icache.h"
 #include "gen-idecode.h"


 static void
 print_semantic_function_header(lf *file,
 			       const char *basename,
 			       insn_bits *expanded_bits,
 			       int is_function_definition)
 {
   int indent;
   lf_printf(file, "\n");
   lf_print_function_type(file, SEMANTIC_FUNCTION_TYPE, "PSIM_EXTERN_SEMANTICS",
 			 (is_function_definition ? "\n" : " "));
   indent = print_function_name(file,
 			       basename,
 			       expanded_bits,
 			       function_name_prefix_semantics);
   if (is_function_definition)
     lf_indent(file, +indent);
   else
     lf_printf(file, "\n");
   lf_printf(file, "(%s)", SEMANTIC_FUNCTION_FORMAL);
   if (is_function_definition)
     lf_indent(file, -indent);
   else
     lf_printf(file, ";");
   lf_printf(file, "\n");
 }

 void
 print_semantic_declaration(insn_table *entry,
 			   lf *file,
 			   void *data,
 			   insn *instruction,
 			   int depth)
 {
   if (generate_expanded_instructions) {
     ASSERT(entry->nr_insn == 1);
     print_semantic_function_header(file,
 				   instruction->file_entry->fields[insn_name],
 				   entry->expanded_bits,
 				   0/* is not function definition*/);
   }
   else {
     print_semantic_function_header(file,
 				   instruction->file_entry->fields[insn_name],
 				   NULL,
 				   0/* is not function definition*/);
   }
 }


 /* generate the semantics.c file */


 void
 print_idecode_illegal(lf *file,
 		      const char *result)
 {
   if ((code & generate_jumps))
     lf_printf(file, "goto %s_illegal;\n", (code & generate_with_icache) ? "icache" : "semantic");
   else if ((code & generate_with_icache))
     lf_printf(file, "%s icache_illegal(%s);\n", result, ICACHE_FUNCTION_ACTUAL);
   else
     lf_printf(file, "%s semantic_illegal(%s);\n", result, SEMANTIC_FUNCTION_ACTUAL);
 }


 void
 print_semantic_body(lf *file,
 		    insn *instruction,
 		    insn_bits *expanded_bits,
 		    opcode_field *opcodes)
 {
   print_itrace(file, instruction->file_entry, 0/*put_value_in_cache*/);

   /* validate the instruction, if a cache this has already been done */
   if (!(code & generate_with_icache))
     print_idecode_validate(file, instruction, opcodes);

   /* generate the profiling call - this is delayed until after the
      instruction has been verified */
   lf_printf(file, "\n");
   lf_printf(file, "/* monitoring: */\n");
   lf_printf(file, "if (WITH_MON & MONITOR_INSTRUCTION_ISSUE) {\n");
   lf_printf(file, "  mon_issue(");
   print_function_name(file,
 		      instruction->file_entry->fields[insn_name],
 		      NULL,
 		      function_name_prefix_itable);
   lf_printf(file, ", processor, cia);\n");
   lf_printf(file, "}\n");

   /* generate the code (or at least something */
   lf_printf(file, "\n");
   lf_printf(file, "/* semantics: */\n");
   lf_printf(file, "nia = cia + %d;\n", insn_bit_size / 8);
   if (instruction->file_entry->annex != NULL) {
     /* true code */
     table_entry_print_cpp_line_nr(file, instruction->file_entry);
     lf_printf(file, "{\n");
     lf_indent(file, +2);
     lf_print__c_code(file, instruction->file_entry->annex);
     lf_indent(file, -2);
     lf_printf(file, "}\n");
     lf_print__internal_reference(file);
   }
   else if (it_is("nop", instruction->file_entry->fields[insn_flags])) {
     lf_print__internal_reference(file);
   }
   else {
     /* abort so it is implemented now */
     table_entry_print_cpp_line_nr(file, instruction->file_entry);
     lf_putstr(file, "error(\"%s:%d:0x%08lx:%s unimplemented\\n\",\n");
     lf_printf(file, "      itable[MY_INDEX].file, itable[MY_INDEX].line_nr, (long)cia, itable[MY_INDEX].name);\n");
     lf_print__internal_reference(file);
   }
 }

 static void
 print_c_semantic(lf *file,
 		 insn *instruction,
 		 insn_bits *expanded_bits,
 		 opcode_field *opcodes,
 		 cache_table *cache_rules)
 {

   lf_printf(file, "{\n");
   lf_indent(file, +2);

   print_my_defines(file, expanded_bits, instruction->file_entry);
   lf_printf(file, "\n");
   print_icache_body(file,
 		    instruction,
 		    expanded_bits,
 		    cache_rules,
 		    ((code & generate_with_direct_access)
 		     ? define_variables
 		     : declare_variables),
 		    ((code & generate_with_icache)
 		     ? get_values_from_icache
 		     : do_not_use_icache));

   lf_printf(file, "unsigned_word nia;\n");
   print_semantic_body(file,
 		      instruction,
 		      expanded_bits,
 		      opcodes);
   lf_printf(file, "return nia;\n");

   /* generate something to clean up any #defines created for the cache */
   if (code & generate_with_direct_access)
     print_icache_body(file,
 		      instruction,
 		      expanded_bits,
 		      cache_rules,
 		      undef_variables,
 		      ((code & generate_with_icache)
 		       ? get_values_from_icache
 		       : do_not_use_icache));

   lf_indent(file, -2);
   lf_printf(file, "}\n");
 }

 static void
 print_c_semantic_function(lf *file,
 			  insn *instruction,
 			  insn_bits *expanded_bits,
 			  opcode_field *opcodes,
 			  cache_table *cache_rules)
 {
   /* build the semantic routine to execute the instruction */
   print_semantic_function_header(file,
 				 instruction->file_entry->fields[insn_name],
 				 expanded_bits,
 				 1/*is-function-definition*/);
   print_c_semantic(file,
 		   instruction,
 		   expanded_bits,
 		   opcodes,
 		   cache_rules);
 }

 void
 print_semantic_definition(insn_table *entry,
 			  lf *file,
 			  void *data,
 			  insn *instruction,
 			  int depth)
 {
   cache_table *cache_rules = (cache_table*)data;
   if (generate_expanded_instructions) {
     ASSERT(entry->nr_insn == 1
 	   && entry->opcode == NULL
 	   && entry->parent != NULL
 	   && entry->parent->opcode != NULL);
     ASSERT(entry->nr_insn == 1
 	   && entry->opcode == NULL
 	   && entry->parent != NULL
 	   && entry->parent->opcode != NULL
 	   && entry->parent->opcode_rule != NULL);
     print_c_semantic_function(file,
 			      entry->insns,
 			      entry->expanded_bits,
 			      entry->parent->opcode,
 			      cache_rules);
   }
   else {
     print_c_semantic_function(file, instruction,
 			      NULL, NULL,
 			      cache_rules);
   }
 }
	/* This file is part of the program psim.

	Copyright (C) 1994-1997, Andrew Cagney <cagney@highland.com.au>

	This program 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 of the License, or
	(at your option) any later version.

	This program 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 this program; if not, see <http://www.gnu.org/licenses/>.

	*/



	#include "misc.h"
	#include "lf.h"
	#include "table.h"
	#include "filter.h"

	#include "ld-decode.h"
	#include "ld-cache.h"
	#include "ld-insn.h"

	#include "igen.h"

	#include "gen-semantics.h"
	#include "gen-icache.h"
	#include "gen-idecode.h"


	static void
	print_semantic_function_header(lf *file,
	const char *basename,
	insn_bits *expanded_bits,
	int is_function_definition)
	{
	int indent;
	lf_printf(file, "\n");
	lf_print_function_type(file, SEMANTIC_FUNCTION_TYPE, "PSIM_EXTERN_SEMANTICS",
	(is_function_definition ? "\n" : " "));
	indent = print_function_name(file,
	basename,
	expanded_bits,
	function_name_prefix_semantics);
	if (is_function_definition)
	lf_indent(file, +indent);
	else
	lf_printf(file, "\n");
	lf_printf(file, "(%s)", SEMANTIC_FUNCTION_FORMAL);
	if (is_function_definition)
	lf_indent(file, -indent);
	else
	lf_printf(file, ";");
	lf_printf(file, "\n");
	}

	void
	print_semantic_declaration(insn_table *entry,
	lf *file,
	void *data,
	insn *instruction,
	int depth)
	{
	if (generate_expanded_instructions) {
	ASSERT(entry->nr_insn == 1);
	print_semantic_function_header(file,
	instruction->file_entry->fields[insn_name],
	entry->expanded_bits,
	0/* is not function definition*/);
	}
	else {
	print_semantic_function_header(file,
	instruction->file_entry->fields[insn_name],
	NULL,
	0/* is not function definition*/);
	}
	}



	/* generate the semantics.c file */


	void
	print_idecode_illegal(lf *file,
	const char *result)
	{
	if ((code & generate_jumps))
	lf_printf(file, "goto %s_illegal;\n", (code & generate_with_icache) ? "icache" : "semantic");
	else if ((code & generate_with_icache))
	lf_printf(file, "%s icache_illegal(%s);\n", result, ICACHE_FUNCTION_ACTUAL);
	else
	lf_printf(file, "%s semantic_illegal(%s);\n", result, SEMANTIC_FUNCTION_ACTUAL);
	}


	void
	print_semantic_body(lf *file,
	insn *instruction,
	insn_bits *expanded_bits,
	opcode_field *opcodes)
	{
	print_itrace(file, instruction->file_entry, 0/put_value_in_cache/);

	/* validate the instruction, if a cache this has already been done */
	if (!(code & generate_with_icache))
	print_idecode_validate(file, instruction, opcodes);

	/* generate the profiling call - this is delayed until after the
	instruction has been verified */
	lf_printf(file, "\n");
	lf_printf(file, "/* monitoring: */\n");
	lf_printf(file, "if (WITH_MON & MONITOR_INSTRUCTION_ISSUE) {\n");
	lf_printf(file, " mon_issue(");
	print_function_name(file,
	instruction->file_entry->fields[insn_name],
	NULL,
	function_name_prefix_itable);
	lf_printf(file, ", processor, cia);\n");
	lf_printf(file, "}\n");

	/* generate the code (or at least something */
	lf_printf(file, "\n");
	lf_printf(file, "/* semantics: */\n");
	lf_printf(file, "nia = cia + %d;\n", insn_bit_size / 8);
	if (instruction->file_entry->annex != NULL) {
	/* true code */
	table_entry_print_cpp_line_nr(file, instruction->file_entry);
	lf_printf(file, "{\n");
	lf_indent(file, +2);
	lf_print__c_code(file, instruction->file_entry->annex);
	lf_indent(file, -2);
	lf_printf(file, "}\n");
	lf_print__internal_reference(file);
	}
	else if (it_is("nop", instruction->file_entry->fields[insn_flags])) {
	lf_print__internal_reference(file);
	}
	else {
	/* abort so it is implemented now */
	table_entry_print_cpp_line_nr(file, instruction->file_entry);
	lf_putstr(file, "error(\"%s:%d:0x%08lx:%s unimplemented\\n\",\n");
	lf_printf(file, " itable[MY_INDEX].file, itable[MY_INDEX].line_nr, (long)cia, itable[MY_INDEX].name);\n");
	lf_print__internal_reference(file);
	}
	}

	static void
	print_c_semantic(lf *file,
	insn *instruction,
	insn_bits *expanded_bits,
	opcode_field *opcodes,
	cache_table *cache_rules)
	{

	lf_printf(file, "{\n");
	lf_indent(file, +2);

	print_my_defines(file, expanded_bits, instruction->file_entry);
	lf_printf(file, "\n");
	print_icache_body(file,
	instruction,
	expanded_bits,
	cache_rules,
	((code & generate_with_direct_access)
	? define_variables
	: declare_variables),
	((code & generate_with_icache)
	? get_values_from_icache
	: do_not_use_icache));

	lf_printf(file, "unsigned_word nia;\n");
	print_semantic_body(file,
	instruction,
	expanded_bits,
	opcodes);
	lf_printf(file, "return nia;\n");

	/* generate something to clean up any #defines created for the cache */
	if (code & generate_with_direct_access)
	print_icache_body(file,
	instruction,
	expanded_bits,
	cache_rules,
	undef_variables,
	((code & generate_with_icache)
	? get_values_from_icache
	: do_not_use_icache));

	lf_indent(file, -2);
	lf_printf(file, "}\n");
	}

	static void
	print_c_semantic_function(lf *file,
	insn *instruction,
	insn_bits *expanded_bits,
	opcode_field *opcodes,
	cache_table *cache_rules)
	{
	/* build the semantic routine to execute the instruction */
	print_semantic_function_header(file,
	instruction->file_entry->fields[insn_name],
	expanded_bits,
	1/is-function-definition/);
	print_c_semantic(file,
	instruction,
	expanded_bits,
	opcodes,
	cache_rules);
	}

	void
	print_semantic_definition(insn_table *entry,
	lf *file,
	void *data,
	insn *instruction,
	int depth)
	{
	cache_table cache_rules = (cache_table)data;
	if (generate_expanded_instructions) {
	ASSERT(entry->nr_insn == 1
	&& entry->opcode == NULL
	&& entry->parent != NULL
	&& entry->parent->opcode != NULL);
	ASSERT(entry->nr_insn == 1
	&& entry->opcode == NULL
	&& entry->parent != NULL
	&& entry->parent->opcode != NULL
	&& entry->parent->opcode_rule != NULL);
	print_c_semantic_function(file,
	entry->insns,
	entry->expanded_bits,
	entry->parent->opcode,
	cache_rules);
	}
	else {
	print_c_semantic_function(file, instruction,
	NULL, NULL,
	cache_rules);
	}
	}