gcc/config/i386/x86-tune-sched-core.c - gcc - Git at Google

 /* Scheduler hooks for IA-32 which implement bdver1-4 specific logic.
    Copyright (C) 1988-2021 Free Software Foundation, Inc.

 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/>.  */

 #define IN_TARGET_CODE 1

 #include "config.h"
 #include "system.h"
 #include "coretypes.h"
 #include "backend.h"
 #include "rtl.h"
 #include "tree.h"
 #include "cfghooks.h"
 #include "tm_p.h"
 #include "insn-config.h"
 #include "insn-attr.h"
 #include "recog.h"
 #include "target.h"
 #include "rtl-iter.h"
 #include "regset.h"
 #include "sched-int.h"


 /* Model decoder of Core 2/i7.
    Below hooks for multipass scheduling (see haifa-sched.c:max_issue)
    track the instruction fetch block boundaries and make sure that long
    (9+ bytes) instructions are assigned to D0.  */

 /* Maximum length of an insn that can be handled by
    a secondary decoder unit.  '8' for Core 2/i7.  */
 static int core2i7_secondary_decoder_max_insn_size;

 /* Ifetch block size, i.e., number of bytes decoder reads per cycle.
    '16' for Core 2/i7.  */
 static int core2i7_ifetch_block_size;

 /* Maximum number of instructions decoder can handle per cycle.
    '6' for Core 2/i7.  */
 static int core2i7_ifetch_block_max_insns;

 typedef struct ix86_first_cycle_multipass_data_ *
   ix86_first_cycle_multipass_data_t;
 typedef const struct ix86_first_cycle_multipass_data_ *
   const_ix86_first_cycle_multipass_data_t;

 /* A variable to store target state across calls to max_issue within
    one cycle.  */
 static struct ix86_first_cycle_multipass_data_ _ix86_first_cycle_multipass_data,
   *ix86_first_cycle_multipass_data = &_ix86_first_cycle_multipass_data;

 /* Initialize DATA.  */
 static void
 core2i7_first_cycle_multipass_init (void *_data)
 {
   ix86_first_cycle_multipass_data_t data
     = (ix86_first_cycle_multipass_data_t) _data;

   data->ifetch_block_len = 0;
   data->ifetch_block_n_insns = 0;
   data->ready_try_change = NULL;
   data->ready_try_change_size = 0;
 }

 /* Advancing the cycle; reset ifetch block counts.  */
 static void
 core2i7_dfa_post_advance_cycle (void)
 {
   ix86_first_cycle_multipass_data_t data = ix86_first_cycle_multipass_data;

   gcc_assert (data->ifetch_block_n_insns <= core2i7_ifetch_block_max_insns);

   data->ifetch_block_len = 0;
   data->ifetch_block_n_insns = 0;
 }

 /* Filter out insns from ready_try that the core will not be able to issue
    on current cycle due to decoder.  */
 static void
 core2i7_first_cycle_multipass_filter_ready_try
 (const_ix86_first_cycle_multipass_data_t data,
  signed char *ready_try, int n_ready, bool first_cycle_insn_p)
 {
   while (n_ready--)
     {
       rtx_insn *insn;
       int insn_size;

       if (ready_try[n_ready])
 	continue;

       insn = get_ready_element (n_ready);
       insn_size = ix86_min_insn_size (insn);

       if (/* If this is a too long an insn for a secondary decoder ...  */
 	  (!first_cycle_insn_p
 	   && insn_size > core2i7_secondary_decoder_max_insn_size)
 	  /* ... or it would not fit into the ifetch block ...  */
 	  || data->ifetch_block_len + insn_size > core2i7_ifetch_block_size
 	  /* ... or the decoder is full already ...  */
 	  || data->ifetch_block_n_insns + 1 > core2i7_ifetch_block_max_insns)
 	/* ... mask the insn out.  */
 	{
 	  ready_try[n_ready] = 1;

 	  if (data->ready_try_change)
 	    bitmap_set_bit (data->ready_try_change, n_ready);
 	}
     }
 }

 /* Prepare for a new round of multipass lookahead scheduling.  */
 static void
 core2i7_first_cycle_multipass_begin (void *_data,
 				     signed char *ready_try, int n_ready,
 				     bool first_cycle_insn_p)
 {
   ix86_first_cycle_multipass_data_t data
     = (ix86_first_cycle_multipass_data_t) _data;
   const_ix86_first_cycle_multipass_data_t prev_data
     = ix86_first_cycle_multipass_data;

   /* Restore the state from the end of the previous round.  */
   data->ifetch_block_len = prev_data->ifetch_block_len;
   data->ifetch_block_n_insns = prev_data->ifetch_block_n_insns;

   /* Filter instructions that cannot be issued on current cycle due to
      decoder restrictions.  */
   core2i7_first_cycle_multipass_filter_ready_try (data, ready_try, n_ready,
 						  first_cycle_insn_p);
 }

 /* INSN is being issued in current solution.  Account for its impact on
    the decoder model.  */
 static void
 core2i7_first_cycle_multipass_issue (void *_data,
 				     signed char *ready_try, int n_ready,
 				     rtx_insn *insn, const void *_prev_data)
 {
   ix86_first_cycle_multipass_data_t data
     = (ix86_first_cycle_multipass_data_t) _data;
   const_ix86_first_cycle_multipass_data_t prev_data
     = (const_ix86_first_cycle_multipass_data_t) _prev_data;

   int insn_size = ix86_min_insn_size (insn);

   data->ifetch_block_len = prev_data->ifetch_block_len + insn_size;
   data->ifetch_block_n_insns = prev_data->ifetch_block_n_insns + 1;
   gcc_assert (data->ifetch_block_len <= core2i7_ifetch_block_size
 	      && data->ifetch_block_n_insns <= core2i7_ifetch_block_max_insns);

   /* Allocate or resize the bitmap for storing INSN's effect on ready_try.  */
   if (!data->ready_try_change)
     {
       data->ready_try_change = sbitmap_alloc (n_ready);
       data->ready_try_change_size = n_ready;
     }
   else if (data->ready_try_change_size < n_ready)
     {
       data->ready_try_change = sbitmap_resize (data->ready_try_change,
 					       n_ready, 0);
       data->ready_try_change_size = n_ready;
     }
   bitmap_clear (data->ready_try_change);

   /* Filter out insns from ready_try that the core will not be able to issue
      on current cycle due to decoder.  */
   core2i7_first_cycle_multipass_filter_ready_try (data, ready_try, n_ready,
 						  false);
 }

 /* Revert the effect on ready_try.  */
 static void
 core2i7_first_cycle_multipass_backtrack (const void *_data,
 					 signed char *ready_try,
 					 int n_ready ATTRIBUTE_UNUSED)
 {
   const_ix86_first_cycle_multipass_data_t data
     = (const_ix86_first_cycle_multipass_data_t) _data;
   unsigned int i = 0;
   sbitmap_iterator sbi;

   gcc_assert (bitmap_last_set_bit (data->ready_try_change) < n_ready);
   EXECUTE_IF_SET_IN_BITMAP (data->ready_try_change, 0, i, sbi)
     {
       ready_try[i] = 0;
     }
 }

 /* Save the result of multipass lookahead scheduling for the next round.  */
 static void
 core2i7_first_cycle_multipass_end (const void *_data)
 {
   const_ix86_first_cycle_multipass_data_t data
     = (const_ix86_first_cycle_multipass_data_t) _data;
   ix86_first_cycle_multipass_data_t next_data
     = ix86_first_cycle_multipass_data;

   if (data != NULL)
     {
       next_data->ifetch_block_len = data->ifetch_block_len;
       next_data->ifetch_block_n_insns = data->ifetch_block_n_insns;
     }
 }

 /* Deallocate target data.  */
 static void
 core2i7_first_cycle_multipass_fini (void *_data)
 {
   ix86_first_cycle_multipass_data_t data
     = (ix86_first_cycle_multipass_data_t) _data;

   if (data->ready_try_change)
     {
       sbitmap_free (data->ready_try_change);
       data->ready_try_change = NULL;
       data->ready_try_change_size = 0;
     }
 }

 void
 ix86_core2i7_init_hooks (void)
 {
   targetm.sched.dfa_post_advance_cycle
     = core2i7_dfa_post_advance_cycle;
   targetm.sched.first_cycle_multipass_init
     = core2i7_first_cycle_multipass_init;
   targetm.sched.first_cycle_multipass_begin
     = core2i7_first_cycle_multipass_begin;
   targetm.sched.first_cycle_multipass_issue
     = core2i7_first_cycle_multipass_issue;
   targetm.sched.first_cycle_multipass_backtrack
     = core2i7_first_cycle_multipass_backtrack;
   targetm.sched.first_cycle_multipass_end
     = core2i7_first_cycle_multipass_end;
   targetm.sched.first_cycle_multipass_fini
     = core2i7_first_cycle_multipass_fini;

   /* Set decoder parameters.  */
   core2i7_secondary_decoder_max_insn_size = 8;
   core2i7_ifetch_block_size = 16;
   core2i7_ifetch_block_max_insns = 6;
 }
	/* Scheduler hooks for IA-32 which implement bdver1-4 specific logic.
	Copyright (C) 1988-2021 Free Software Foundation, Inc.

	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/>. */

	#define IN_TARGET_CODE 1

	#include "config.h"
	#include "system.h"
	#include "coretypes.h"
	#include "backend.h"
	#include "rtl.h"
	#include "tree.h"
	#include "cfghooks.h"
	#include "tm_p.h"
	#include "insn-config.h"
	#include "insn-attr.h"
	#include "recog.h"
	#include "target.h"
	#include "rtl-iter.h"
	#include "regset.h"
	#include "sched-int.h"


	/* Model decoder of Core 2/i7.
	Below hooks for multipass scheduling (see haifa-sched.c:max_issue)
	track the instruction fetch block boundaries and make sure that long
	(9+ bytes) instructions are assigned to D0. */

	/* Maximum length of an insn that can be handled by
	a secondary decoder unit. '8' for Core 2/i7. */
	static int core2i7_secondary_decoder_max_insn_size;

	/* Ifetch block size, i.e., number of bytes decoder reads per cycle.
	'16' for Core 2/i7. */
	static int core2i7_ifetch_block_size;

	/* Maximum number of instructions decoder can handle per cycle.
	'6' for Core 2/i7. */
	static int core2i7_ifetch_block_max_insns;

	typedef struct ix86_first_cycle_multipass_data_ *
	ix86_first_cycle_multipass_data_t;
	typedef const struct ix86_first_cycle_multipass_data_ *
	const_ix86_first_cycle_multipass_data_t;

	/* A variable to store target state across calls to max_issue within
	one cycle. */
	static struct ix86_first_cycle_multipass_data_ _ix86_first_cycle_multipass_data,
	*ix86_first_cycle_multipass_data = &_ix86_first_cycle_multipass_data;

	/* Initialize DATA. */
	static void
	core2i7_first_cycle_multipass_init (void *_data)
	{
	ix86_first_cycle_multipass_data_t data
	= (ix86_first_cycle_multipass_data_t) _data;

	data->ifetch_block_len = 0;
	data->ifetch_block_n_insns = 0;
	data->ready_try_change = NULL;
	data->ready_try_change_size = 0;
	}

	/* Advancing the cycle; reset ifetch block counts. */
	static void
	core2i7_dfa_post_advance_cycle (void)
	{
	ix86_first_cycle_multipass_data_t data = ix86_first_cycle_multipass_data;

	gcc_assert (data->ifetch_block_n_insns <= core2i7_ifetch_block_max_insns);

	data->ifetch_block_len = 0;
	data->ifetch_block_n_insns = 0;
	}

	/* Filter out insns from ready_try that the core will not be able to issue
	on current cycle due to decoder. */
	static void
	core2i7_first_cycle_multipass_filter_ready_try
	(const_ix86_first_cycle_multipass_data_t data,
	signed char *ready_try, int n_ready, bool first_cycle_insn_p)
	{
	while (n_ready--)
	{
	rtx_insn *insn;
	int insn_size;

	if (ready_try[n_ready])
	continue;

	insn = get_ready_element (n_ready);
	insn_size = ix86_min_insn_size (insn);

	if (/* If this is a too long an insn for a secondary decoder ... */
	(!first_cycle_insn_p
	&& insn_size > core2i7_secondary_decoder_max_insn_size)
	/* ... or it would not fit into the ifetch block ... */
	\|\| data->ifetch_block_len + insn_size > core2i7_ifetch_block_size
	/* ... or the decoder is full already ... */
	\|\| data->ifetch_block_n_insns + 1 > core2i7_ifetch_block_max_insns)
	/* ... mask the insn out. */
	{
	ready_try[n_ready] = 1;

	if (data->ready_try_change)
	bitmap_set_bit (data->ready_try_change, n_ready);
	}
	}
	}

	/* Prepare for a new round of multipass lookahead scheduling. */
	static void
	core2i7_first_cycle_multipass_begin (void *_data,
	signed char *ready_try, int n_ready,
	bool first_cycle_insn_p)
	{
	ix86_first_cycle_multipass_data_t data
	= (ix86_first_cycle_multipass_data_t) _data;
	const_ix86_first_cycle_multipass_data_t prev_data
	= ix86_first_cycle_multipass_data;

	/* Restore the state from the end of the previous round. */
	data->ifetch_block_len = prev_data->ifetch_block_len;
	data->ifetch_block_n_insns = prev_data->ifetch_block_n_insns;

	/* Filter instructions that cannot be issued on current cycle due to
	decoder restrictions. */
	core2i7_first_cycle_multipass_filter_ready_try (data, ready_try, n_ready,
	first_cycle_insn_p);
	}

	/* INSN is being issued in current solution. Account for its impact on
	the decoder model. */
	static void
	core2i7_first_cycle_multipass_issue (void *_data,
	signed char *ready_try, int n_ready,
	rtx_insn insn, const void _prev_data)
	{
	ix86_first_cycle_multipass_data_t data
	= (ix86_first_cycle_multipass_data_t) _data;
	const_ix86_first_cycle_multipass_data_t prev_data
	= (const_ix86_first_cycle_multipass_data_t) _prev_data;

	int insn_size = ix86_min_insn_size (insn);

	data->ifetch_block_len = prev_data->ifetch_block_len + insn_size;
	data->ifetch_block_n_insns = prev_data->ifetch_block_n_insns + 1;
	gcc_assert (data->ifetch_block_len <= core2i7_ifetch_block_size
	&& data->ifetch_block_n_insns <= core2i7_ifetch_block_max_insns);

	/* Allocate or resize the bitmap for storing INSN's effect on ready_try. */
	if (!data->ready_try_change)
	{
	data->ready_try_change = sbitmap_alloc (n_ready);
	data->ready_try_change_size = n_ready;
	}
	else if (data->ready_try_change_size < n_ready)
	{
	data->ready_try_change = sbitmap_resize (data->ready_try_change,
	n_ready, 0);
	data->ready_try_change_size = n_ready;
	}
	bitmap_clear (data->ready_try_change);

	/* Filter out insns from ready_try that the core will not be able to issue
	on current cycle due to decoder. */
	core2i7_first_cycle_multipass_filter_ready_try (data, ready_try, n_ready,
	false);
	}

	/* Revert the effect on ready_try. */
	static void
	core2i7_first_cycle_multipass_backtrack (const void *_data,
	signed char *ready_try,
	int n_ready ATTRIBUTE_UNUSED)
	{
	const_ix86_first_cycle_multipass_data_t data
	= (const_ix86_first_cycle_multipass_data_t) _data;
	unsigned int i = 0;
	sbitmap_iterator sbi;

	gcc_assert (bitmap_last_set_bit (data->ready_try_change) < n_ready);
	EXECUTE_IF_SET_IN_BITMAP (data->ready_try_change, 0, i, sbi)
	{
	ready_try[i] = 0;
	}
	}

	/* Save the result of multipass lookahead scheduling for the next round. */
	static void
	core2i7_first_cycle_multipass_end (const void *_data)
	{
	const_ix86_first_cycle_multipass_data_t data
	= (const_ix86_first_cycle_multipass_data_t) _data;
	ix86_first_cycle_multipass_data_t next_data
	= ix86_first_cycle_multipass_data;

	if (data != NULL)
	{
	next_data->ifetch_block_len = data->ifetch_block_len;
	next_data->ifetch_block_n_insns = data->ifetch_block_n_insns;
	}
	}

	/* Deallocate target data. */
	static void
	core2i7_first_cycle_multipass_fini (void *_data)
	{
	ix86_first_cycle_multipass_data_t data
	= (ix86_first_cycle_multipass_data_t) _data;

	if (data->ready_try_change)
	{
	sbitmap_free (data->ready_try_change);
	data->ready_try_change = NULL;
	data->ready_try_change_size = 0;
	}
	}

	void
	ix86_core2i7_init_hooks (void)
	{
	targetm.sched.dfa_post_advance_cycle
	= core2i7_dfa_post_advance_cycle;
	targetm.sched.first_cycle_multipass_init
	= core2i7_first_cycle_multipass_init;
	targetm.sched.first_cycle_multipass_begin
	= core2i7_first_cycle_multipass_begin;
	targetm.sched.first_cycle_multipass_issue
	= core2i7_first_cycle_multipass_issue;
	targetm.sched.first_cycle_multipass_backtrack
	= core2i7_first_cycle_multipass_backtrack;
	targetm.sched.first_cycle_multipass_end
	= core2i7_first_cycle_multipass_end;
	targetm.sched.first_cycle_multipass_fini
	= core2i7_first_cycle_multipass_fini;

	/* Set decoder parameters. */
	core2i7_secondary_decoder_max_insn_size = 8;
	core2i7_ifetch_block_size = 16;
	core2i7_ifetch_block_max_insns = 6;
	}