priv/host_generic_regs.c - platform/external/valgrind - Git at Google


 /*---------------------------------------------------------------*/
 /*--- begin                               host_generic_regs.c ---*/
 /*---------------------------------------------------------------*/

 /*
    This file is part of Valgrind, a dynamic binary instrumentation
    framework.

    Copyright (C) 2004-2013 OpenWorks LLP
       info@open-works.net

    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 2 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, write to the Free Software
    Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
    02110-1301, USA.

    The GNU General Public License is contained in the file COPYING.

    Neither the names of the U.S. Department of Energy nor the
    University of California nor the names of its contributors may be
    used to endorse or promote products derived from this software
    without prior written permission.
 */

 #include "libvex_basictypes.h"
 #include "libvex.h"

 #include "main_util.h"
 #include "host_generic_regs.h"


 void ppHRegClass ( HRegClass hrc )
 {
    switch (hrc) {
       case HRcInt32:   vex_printf("HRcInt32"); break;
       case HRcInt64:   vex_printf("HRcInt64"); break;
       case HRcFlt32:   vex_printf("HRcFlt32"); break;
       case HRcFlt64:   vex_printf("HRcFlt64"); break;
       case HRcVec64:   vex_printf("HRcVec64"); break;
       case HRcVec128:  vex_printf("HRcVec128"); break;
       default: vpanic("ppHRegClass");
    }
 }

 /* Generic printing for registers. */
 void ppHReg ( HReg r )
 {
    const HChar* maybe_v = hregIsVirtual(r) ? "v" : "";
    Int    regNo   = hregNumber(r);
    switch (hregClass(r)) {
       case HRcInt32:   vex_printf("%%%sr%d", maybe_v, regNo); return;
       case HRcInt64:   vex_printf("%%%sR%d", maybe_v, regNo); return;
       case HRcFlt32:   vex_printf("%%%sF%d", maybe_v, regNo); return;
       case HRcFlt64:   vex_printf("%%%sD%d", maybe_v, regNo); return;
       case HRcVec64:   vex_printf("%%%sv%d", maybe_v, regNo); return;
       case HRcVec128:  vex_printf("%%%sV%d", maybe_v, regNo); return;
       default: vpanic("ppHReg");
    }
 }


 /*---------------------------------------------------------*/
 /*--- Helpers for recording reg usage (for reg-alloc)   ---*/
 /*---------------------------------------------------------*/

 void ppHRegUsage ( HRegUsage* tab )
 {
    Int    i;
    const HChar* str;
    vex_printf("HRegUsage {\n");
    for (i = 0; i < tab->n_used; i++) {
       switch (tab->mode[i]) {
          case HRmRead:   str = "Read   "; break;
          case HRmWrite:  str = "Write  "; break;
          case HRmModify: str = "Modify "; break;
          default: vpanic("ppHRegUsage");
       }
       vex_printf("   %s ", str);
       ppHReg(tab->hreg[i]);
       vex_printf("\n");
    }
    vex_printf("}\n");
 }


 /* Add a register to a usage table.  Combine incoming read uses with
    existing write uses into a modify use, and vice versa.  Do not
    create duplicate entries -- each reg should only be mentioned once.
 */
 void addHRegUse ( HRegUsage* tab, HRegMode mode, HReg reg )
 {
    Int i;
    /* Find it ... */
    for (i = 0; i < tab->n_used; i++)
       if (sameHReg(tab->hreg[i], reg))
          break;
    if (i == tab->n_used) {
       /* Not found, add new entry. */
       vassert(tab->n_used < N_HREG_USAGE);
       tab->hreg[tab->n_used] = reg;
       tab->mode[tab->n_used] = mode;
       tab->n_used++;
    } else {
       /* Found: combine or ignore. */
       /* This is a greatest-lower-bound operation in the poset:

             R   W
              \ /
               M

          Need to do: tab->mode[i] = GLB(tab->mode, mode).  In this
          case very simple -- if tab->mode[i] != mode then result must
          be M.
       */
       if (tab->mode[i] == mode) {
          /* duplicate, ignore */
       } else {
          tab->mode[i] = HRmModify;
       }
    }
 }


 /*---------------------------------------------------------*/
 /*--- Indicating register remappings (for reg-alloc)    ---*/
 /*---------------------------------------------------------*/

 void ppHRegRemap ( HRegRemap* map )
 {
    Int   i;
    vex_printf("HRegRemap {\n");
    for (i = 0; i < map->n_used; i++) {
       vex_printf("   ");
       ppHReg(map->orig[i]);
       vex_printf("  -->  ");
       ppHReg(map->replacement[i]);
       vex_printf("\n");
    }
    vex_printf("}\n");
 }


 void initHRegRemap ( HRegRemap* map )
 {
    map->n_used = 0;
 }


 void addToHRegRemap ( HRegRemap* map, HReg orig, HReg replacement )
 {
    Int i;
    for (i = 0; i < map->n_used; i++)
       if (sameHReg(map->orig[i], orig))
          vpanic("addToHRegMap: duplicate entry");
    if (!hregIsVirtual(orig))
       vpanic("addToHRegMap: orig is not a vreg");
    if (hregIsVirtual(replacement))
       vpanic("addToHRegMap: replacement is a vreg");

    vassert(map->n_used+1 < N_HREG_REMAP);
    map->orig[map->n_used]        = orig;
    map->replacement[map->n_used] = replacement;
    map->n_used++;
 }


 HReg lookupHRegRemap ( HRegRemap* map, HReg orig )
 {
    Int i;
    if (!hregIsVirtual(orig))
       return orig;
    for (i = 0; i < map->n_used; i++)
       if (sameHReg(map->orig[i], orig))
          return map->replacement[i];
    vpanic("lookupHRegRemap: not found");
 }

 /*---------------------------------------------------------*/
 /*--- Abstract instructions                             ---*/
 /*---------------------------------------------------------*/

 HInstrArray* newHInstrArray ( void )
 {
    HInstrArray* ha = LibVEX_Alloc(sizeof(HInstrArray));
    ha->arr_size = 4;
    ha->arr_used = 0;
    ha->arr      = LibVEX_Alloc(ha->arr_size * sizeof(HInstr*));
    ha->n_vregs  = 0;
    return ha;
 }

 void addHInstr ( HInstrArray* ha, HInstr* instr )
 {
    vassert(ha->arr_used <= ha->arr_size);
    if (ha->arr_used < ha->arr_size) {
       ha->arr[ha->arr_used] = instr;
       ha->arr_used++;
    } else {
       Int      i;
       HInstr** arr2 = LibVEX_Alloc(ha->arr_size * 2 * sizeof(HInstr*));
       for (i = 0; i < ha->arr_size; i++)
          arr2[i] = ha->arr[i];
       ha->arr_size *= 2;
       ha->arr = arr2;
       addHInstr(ha, instr);
    }
 }


 /*---------------------------------------------------------*/
 /*--- C-Call return-location actions                    ---*/
 /*---------------------------------------------------------*/

 void ppRetLoc ( RetLoc ska )
 {
    switch (ska.pri) {
       case RLPri_INVALID:
          vex_printf("RLPri_INVALID"); return;
       case RLPri_None:
          vex_printf("RLPri_None");    return;
       case RLPri_Int:
          vex_printf("RLPri_Int");     return;
       case RLPri_2Int:
          vex_printf("RLPri_2Int");    return;
       case RLPri_V128SpRel:
          vex_printf("RLPri_V128SpRel(%d)", ska.spOff); return;
       case RLPri_V256SpRel:
          vex_printf("RLPri_V256SpRel(%d)", ska.spOff); return;
       default:
          vpanic("ppRetLoc");
    }
 }


 /*---------------------------------------------------------------*/
 /*--- end                                 host_generic_regs.c ---*/
 /*---------------------------------------------------------------*/

	/---------------------------------------------------------------/
	/--- begin host_generic_regs.c ---/
	/---------------------------------------------------------------/

	/*
	This file is part of Valgrind, a dynamic binary instrumentation
	framework.

	Copyright (C) 2004-2013 OpenWorks LLP
	info@open-works.net

	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 2 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, write to the Free Software
	Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
	02110-1301, USA.

	The GNU General Public License is contained in the file COPYING.

	Neither the names of the U.S. Department of Energy nor the
	University of California nor the names of its contributors may be
	used to endorse or promote products derived from this software
	without prior written permission.
	*/

	#include "libvex_basictypes.h"
	#include "libvex.h"

	#include "main_util.h"
	#include "host_generic_regs.h"


	void ppHRegClass ( HRegClass hrc )
	{
	switch (hrc) {
	case HRcInt32: vex_printf("HRcInt32"); break;
	case HRcInt64: vex_printf("HRcInt64"); break;
	case HRcFlt32: vex_printf("HRcFlt32"); break;
	case HRcFlt64: vex_printf("HRcFlt64"); break;
	case HRcVec64: vex_printf("HRcVec64"); break;
	case HRcVec128: vex_printf("HRcVec128"); break;
	default: vpanic("ppHRegClass");
	}
	}

	/* Generic printing for registers. */
	void ppHReg ( HReg r )
	{
	const HChar* maybe_v = hregIsVirtual(r) ? "v" : "";
	Int regNo = hregNumber(r);
	switch (hregClass(r)) {
	case HRcInt32: vex_printf("%%%sr%d", maybe_v, regNo); return;
	case HRcInt64: vex_printf("%%%sR%d", maybe_v, regNo); return;
	case HRcFlt32: vex_printf("%%%sF%d", maybe_v, regNo); return;
	case HRcFlt64: vex_printf("%%%sD%d", maybe_v, regNo); return;
	case HRcVec64: vex_printf("%%%sv%d", maybe_v, regNo); return;
	case HRcVec128: vex_printf("%%%sV%d", maybe_v, regNo); return;
	default: vpanic("ppHReg");
	}
	}


	/---------------------------------------------------------/
	/--- Helpers for recording reg usage (for reg-alloc) ---/
	/---------------------------------------------------------/

	void ppHRegUsage ( HRegUsage* tab )
	{
	Int i;
	const HChar* str;
	vex_printf("HRegUsage {\n");
	for (i = 0; i < tab->n_used; i++) {
	switch (tab->mode[i]) {
	case HRmRead: str = "Read "; break;
	case HRmWrite: str = "Write "; break;
	case HRmModify: str = "Modify "; break;
	default: vpanic("ppHRegUsage");
	}
	vex_printf(" %s ", str);
	ppHReg(tab->hreg[i]);
	vex_printf("\n");
	}
	vex_printf("}\n");
	}


	/* Add a register to a usage table. Combine incoming read uses with
	existing write uses into a modify use, and vice versa. Do not
	create duplicate entries -- each reg should only be mentioned once.
	*/
	void addHRegUse ( HRegUsage* tab, HRegMode mode, HReg reg )
	{
	Int i;
	/* Find it ... */
	for (i = 0; i < tab->n_used; i++)
	if (sameHReg(tab->hreg[i], reg))
	break;
	if (i == tab->n_used) {
	/* Not found, add new entry. */
	vassert(tab->n_used < N_HREG_USAGE);
	tab->hreg[tab->n_used] = reg;
	tab->mode[tab->n_used] = mode;
	tab->n_used++;
	} else {
	/* Found: combine or ignore. */
	/* This is a greatest-lower-bound operation in the poset:

	R W
	\ /
	M

	Need to do: tab->mode[i] = GLB(tab->mode, mode). In this
	case very simple -- if tab->mode[i] != mode then result must
	be M.
	*/
	if (tab->mode[i] == mode) {
	/* duplicate, ignore */
	} else {
	tab->mode[i] = HRmModify;
	}
	}
	}


	/---------------------------------------------------------/
	/--- Indicating register remappings (for reg-alloc) ---/
	/---------------------------------------------------------/

	void ppHRegRemap ( HRegRemap* map )
	{
	Int i;
	vex_printf("HRegRemap {\n");
	for (i = 0; i < map->n_used; i++) {
	vex_printf(" ");
	ppHReg(map->orig[i]);
	vex_printf(" --> ");
	ppHReg(map->replacement[i]);
	vex_printf("\n");
	}
	vex_printf("}\n");
	}


	void initHRegRemap ( HRegRemap* map )
	{
	map->n_used = 0;
	}


	void addToHRegRemap ( HRegRemap* map, HReg orig, HReg replacement )
	{
	Int i;
	for (i = 0; i < map->n_used; i++)
	if (sameHReg(map->orig[i], orig))
	vpanic("addToHRegMap: duplicate entry");
	if (!hregIsVirtual(orig))
	vpanic("addToHRegMap: orig is not a vreg");
	if (hregIsVirtual(replacement))
	vpanic("addToHRegMap: replacement is a vreg");

	vassert(map->n_used+1 < N_HREG_REMAP);
	map->orig[map->n_used] = orig;
	map->replacement[map->n_used] = replacement;
	map->n_used++;
	}


	HReg lookupHRegRemap ( HRegRemap* map, HReg orig )
	{
	Int i;
	if (!hregIsVirtual(orig))
	return orig;
	for (i = 0; i < map->n_used; i++)
	if (sameHReg(map->orig[i], orig))
	return map->replacement[i];
	vpanic("lookupHRegRemap: not found");
	}

	/---------------------------------------------------------/
	/--- Abstract instructions ---/
	/---------------------------------------------------------/

	HInstrArray* newHInstrArray ( void )
	{
	HInstrArray* ha = LibVEX_Alloc(sizeof(HInstrArray));
	ha->arr_size = 4;
	ha->arr_used = 0;
	ha->arr = LibVEX_Alloc(ha->arr_size * sizeof(HInstr*));
	ha->n_vregs = 0;
	return ha;
	}

	void addHInstr ( HInstrArray* ha, HInstr* instr )
	{
	vassert(ha->arr_used <= ha->arr_size);
	if (ha->arr_used < ha->arr_size) {
	ha->arr[ha->arr_used] = instr;
	ha->arr_used++;
	} else {
	Int i;
	HInstr** arr2 = LibVEX_Alloc(ha->arr_size * 2 * sizeof(HInstr*));
	for (i = 0; i < ha->arr_size; i++)
	arr2[i] = ha->arr[i];
	ha->arr_size *= 2;
	ha->arr = arr2;
	addHInstr(ha, instr);
	}
	}


	/---------------------------------------------------------/
	/--- C-Call return-location actions ---/
	/---------------------------------------------------------/

	void ppRetLoc ( RetLoc ska )
	{
	switch (ska.pri) {
	case RLPri_INVALID:
	vex_printf("RLPri_INVALID"); return;
	case RLPri_None:
	vex_printf("RLPri_None"); return;
	case RLPri_Int:
	vex_printf("RLPri_Int"); return;
	case RLPri_2Int:
	vex_printf("RLPri_2Int"); return;
	case RLPri_V128SpRel:
	vex_printf("RLPri_V128SpRel(%d)", ska.spOff); return;
	case RLPri_V256SpRel:
	vex_printf("RLPri_V256SpRel(%d)", ska.spOff); return;
	default:
	vpanic("ppRetLoc");
	}
	}


	/---------------------------------------------------------------/
	/--- end host_generic_regs.c ---/
	/---------------------------------------------------------------/