target/hexagon/gen_helper_protos.py - third_party/qemu - Git at Google

 #!/usr/bin/env python3

 ##
 ##  Copyright(c) 2019-2023 Qualcomm Innovation Center, Inc. All Rights Reserved.
 ##
 ##  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, see <http://www.gnu.org/licenses/>.
 ##

 import sys
 import re
 import string
 import hex_common

 ##
 ## Helpers for gen_helper_prototype
 ##
 def_helper_types = {
     "N": "s32",
     "O": "s32",
     "P": "s32",
     "M": "s32",
     "C": "s32",
     "R": "s32",
     "V": "ptr",
     "Q": "ptr",
 }

 def_helper_types_pair = {
     "R": "s64",
     "C": "s64",
     "S": "s64",
     "G": "s64",
     "V": "ptr",
     "Q": "ptr",
 }


 def gen_def_helper_opn(f, tag, regtype, regid, i):
     if hex_common.is_pair(regid):
         f.write(f", {def_helper_types_pair[regtype]}")
     elif hex_common.is_single(regid):
         f.write(f", {def_helper_types[regtype]}")
     else:
         hex_common.bad_register(regtype, regid)


 ##
 ## Generate the DEF_HELPER prototype for an instruction
 ##     For A2_add: Rd32=add(Rs32,Rt32)
 ##     We produce:
 ##         DEF_HELPER_3(A2_add, s32, env, s32, s32)
 ##
 def gen_helper_prototype(f, tag, tagregs, tagimms):
     regs = tagregs[tag]
     imms = tagimms[tag]

     numresults = 0
     numscalarresults = 0
     numscalarreadwrite = 0
     for regtype, regid in regs:
         if hex_common.is_written(regid):
             numresults += 1
             if hex_common.is_scalar_reg(regtype):
                 numscalarresults += 1
         if hex_common.is_readwrite(regid):
             if hex_common.is_scalar_reg(regtype):
                 numscalarreadwrite += 1

     if numscalarresults > 1:
         ## The helper is bogus when there is more than one result
         f.write(f"DEF_HELPER_1({tag}, void, env)\n")
     else:
         ## Figure out how many arguments the helper will take
         if numscalarresults == 0:
             def_helper_size = len(regs) + len(imms) + numscalarreadwrite + 1
             if hex_common.need_pkt_has_multi_cof(tag):
                 def_helper_size += 1
             if hex_common.need_pkt_need_commit(tag):
                 def_helper_size += 1
             if hex_common.need_part1(tag):
                 def_helper_size += 1
             if hex_common.need_slot(tag):
                 def_helper_size += 1
             if hex_common.need_PC(tag):
                 def_helper_size += 1
             if hex_common.helper_needs_next_PC(tag):
                 def_helper_size += 1
             if hex_common.need_condexec_reg(tag, regs):
                 def_helper_size += 1
             f.write(f"DEF_HELPER_{def_helper_size}({tag}")
             ## The return type is void
             f.write(", void")
         else:
             def_helper_size = len(regs) + len(imms) + numscalarreadwrite
             if hex_common.need_pkt_has_multi_cof(tag):
                 def_helper_size += 1
             if hex_common.need_pkt_need_commit(tag):
                 def_helper_size += 1
             if hex_common.need_part1(tag):
                 def_helper_size += 1
             if hex_common.need_slot(tag):
                 def_helper_size += 1
             if hex_common.need_PC(tag):
                 def_helper_size += 1
             if hex_common.need_condexec_reg(tag, regs):
                 def_helper_size += 1
             if hex_common.helper_needs_next_PC(tag):
                 def_helper_size += 1
             f.write(f"DEF_HELPER_{def_helper_size}({tag}")

         ## Generate the qemu DEF_HELPER type for each result
         ## Iterate over this list twice
         ## - Emit the scalar result
         ## - Emit the vector result
         i = 0
         for regtype, regid in regs:
             if hex_common.is_written(regid):
                 if not hex_common.is_hvx_reg(regtype):
                     gen_def_helper_opn(f, tag, regtype, regid, i)
                 i += 1

         ## Put the env between the outputs and inputs
         f.write(", env")
         i += 1

         # Second pass
         for regtype, regid in regs:
             if hex_common.is_written(regid):
                 if hex_common.is_hvx_reg(regtype):
                     gen_def_helper_opn(f, tag, regtype, regid, i)
                     i += 1

         ## For conditional instructions, we pass in the destination register
         if "A_CONDEXEC" in hex_common.attribdict[tag]:
             for regtype, regid in regs:
                 if hex_common.is_writeonly(regid) and not hex_common.is_hvx_reg(
                     regtype
                 ):
                     gen_def_helper_opn(f, tag, regtype, regid, i)
                     i += 1

         ## Generate the qemu type for each input operand (regs and immediates)
         for regtype, regid in regs:
             if hex_common.is_read(regid):
                 if hex_common.is_hvx_reg(regtype) and hex_common.is_readwrite(regid):
                     continue
                 gen_def_helper_opn(f, tag, regtype, regid, i)
                 i += 1
         for immlett, bits, immshift in imms:
             f.write(", s32")

         ## Add the arguments for the instruction pkt_has_multi_cof,
         ## pkt_needs_commit, PC, next_PC, slot, and part1 (if needed)
         if hex_common.need_pkt_has_multi_cof(tag):
             f.write(", i32")
         if hex_common.need_pkt_need_commit(tag):
             f.write(', i32')
         if hex_common.need_PC(tag):
             f.write(", i32")
         if hex_common.helper_needs_next_PC(tag):
             f.write(", i32")
         if hex_common.need_slot(tag):
             f.write(", i32")
         if hex_common.need_part1(tag):
             f.write(" , i32")
         f.write(")\n")


 def main():
     hex_common.read_semantics_file(sys.argv[1])
     hex_common.read_attribs_file(sys.argv[2])
     hex_common.read_overrides_file(sys.argv[3])
     hex_common.read_overrides_file(sys.argv[4])
     ## Whether or not idef-parser is enabled is
     ## determined by the number of arguments to
     ## this script:
     ##
     ##   5 args. -> not enabled,
     ##   6 args. -> idef-parser enabled.
     ##
     ## The 6:th arg. then holds a list of the successfully
     ## parsed instructions.
     is_idef_parser_enabled = len(sys.argv) > 6
     if is_idef_parser_enabled:
         hex_common.read_idef_parser_enabled_file(sys.argv[5])
     hex_common.calculate_attribs()
     tagregs = hex_common.get_tagregs()
     tagimms = hex_common.get_tagimms()

     output_file = sys.argv[-1]
     with open(output_file, "w") as f:
         for tag in hex_common.tags:
             ## Skip the priv instructions
             if "A_PRIV" in hex_common.attribdict[tag]:
                 continue
             ## Skip the guest instructions
             if "A_GUEST" in hex_common.attribdict[tag]:
                 continue
             ## Skip the diag instructions
             if tag == "Y6_diag":
                 continue
             if tag == "Y6_diag0":
                 continue
             if tag == "Y6_diag1":
                 continue

             if hex_common.skip_qemu_helper(tag):
                 continue
             if hex_common.is_idef_parser_enabled(tag):
                 continue

             gen_helper_prototype(f, tag, tagregs, tagimms)


 if __name__ == "__main__":
     main()
	#!/usr/bin/env python3

	##
	## Copyright(c) 2019-2023 Qualcomm Innovation Center, Inc. All Rights Reserved.
	##
	## 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, see <http://www.gnu.org/licenses/>.
	##

	import sys
	import re
	import string
	import hex_common

	##
	## Helpers for gen_helper_prototype
	##
	def_helper_types = {
	"N": "s32",
	"O": "s32",
	"P": "s32",
	"M": "s32",
	"C": "s32",
	"R": "s32",
	"V": "ptr",
	"Q": "ptr",
	}

	def_helper_types_pair = {
	"R": "s64",
	"C": "s64",
	"S": "s64",
	"G": "s64",
	"V": "ptr",
	"Q": "ptr",
	}


	def gen_def_helper_opn(f, tag, regtype, regid, i):
	if hex_common.is_pair(regid):
	f.write(f", {def_helper_types_pair[regtype]}")
	elif hex_common.is_single(regid):
	f.write(f", {def_helper_types[regtype]}")
	else:
	hex_common.bad_register(regtype, regid)


	##
	## Generate the DEF_HELPER prototype for an instruction
	## For A2_add: Rd32=add(Rs32,Rt32)
	## We produce:
	## DEF_HELPER_3(A2_add, s32, env, s32, s32)
	##
	def gen_helper_prototype(f, tag, tagregs, tagimms):
	regs = tagregs[tag]
	imms = tagimms[tag]

	numresults = 0
	numscalarresults = 0
	numscalarreadwrite = 0
	for regtype, regid in regs:
	if hex_common.is_written(regid):
	numresults += 1
	if hex_common.is_scalar_reg(regtype):
	numscalarresults += 1
	if hex_common.is_readwrite(regid):
	if hex_common.is_scalar_reg(regtype):
	numscalarreadwrite += 1

	if numscalarresults > 1:
	## The helper is bogus when there is more than one result
	f.write(f"DEF_HELPER_1({tag}, void, env)\n")
	else:
	## Figure out how many arguments the helper will take
	if numscalarresults == 0:
	def_helper_size = len(regs) + len(imms) + numscalarreadwrite + 1
	if hex_common.need_pkt_has_multi_cof(tag):
	def_helper_size += 1
	if hex_common.need_pkt_need_commit(tag):
	def_helper_size += 1
	if hex_common.need_part1(tag):
	def_helper_size += 1
	if hex_common.need_slot(tag):
	def_helper_size += 1
	if hex_common.need_PC(tag):
	def_helper_size += 1
	if hex_common.helper_needs_next_PC(tag):
	def_helper_size += 1
	if hex_common.need_condexec_reg(tag, regs):
	def_helper_size += 1
	f.write(f"DEF_HELPER_{def_helper_size}({tag}")
	## The return type is void
	f.write(", void")
	else:
	def_helper_size = len(regs) + len(imms) + numscalarreadwrite
	if hex_common.need_pkt_has_multi_cof(tag):
	def_helper_size += 1
	if hex_common.need_pkt_need_commit(tag):
	def_helper_size += 1
	if hex_common.need_part1(tag):
	def_helper_size += 1
	if hex_common.need_slot(tag):
	def_helper_size += 1
	if hex_common.need_PC(tag):
	def_helper_size += 1
	if hex_common.need_condexec_reg(tag, regs):
	def_helper_size += 1
	if hex_common.helper_needs_next_PC(tag):
	def_helper_size += 1
	f.write(f"DEF_HELPER_{def_helper_size}({tag}")

	## Generate the qemu DEF_HELPER type for each result
	## Iterate over this list twice
	## - Emit the scalar result
	## - Emit the vector result
	i = 0
	for regtype, regid in regs:
	if hex_common.is_written(regid):
	if not hex_common.is_hvx_reg(regtype):
	gen_def_helper_opn(f, tag, regtype, regid, i)
	i += 1

	## Put the env between the outputs and inputs
	f.write(", env")
	i += 1

	# Second pass
	for regtype, regid in regs:
	if hex_common.is_written(regid):
	if hex_common.is_hvx_reg(regtype):
	gen_def_helper_opn(f, tag, regtype, regid, i)
	i += 1

	## For conditional instructions, we pass in the destination register
	if "A_CONDEXEC" in hex_common.attribdict[tag]:
	for regtype, regid in regs:
	if hex_common.is_writeonly(regid) and not hex_common.is_hvx_reg(
	regtype
	):
	gen_def_helper_opn(f, tag, regtype, regid, i)
	i += 1

	## Generate the qemu type for each input operand (regs and immediates)
	for regtype, regid in regs:
	if hex_common.is_read(regid):
	if hex_common.is_hvx_reg(regtype) and hex_common.is_readwrite(regid):
	continue
	gen_def_helper_opn(f, tag, regtype, regid, i)
	i += 1
	for immlett, bits, immshift in imms:
	f.write(", s32")

	## Add the arguments for the instruction pkt_has_multi_cof,
	## pkt_needs_commit, PC, next_PC, slot, and part1 (if needed)
	if hex_common.need_pkt_has_multi_cof(tag):
	f.write(", i32")
	if hex_common.need_pkt_need_commit(tag):
	f.write(', i32')
	if hex_common.need_PC(tag):
	f.write(", i32")
	if hex_common.helper_needs_next_PC(tag):
	f.write(", i32")
	if hex_common.need_slot(tag):
	f.write(", i32")
	if hex_common.need_part1(tag):
	f.write(" , i32")
	f.write(")\n")


	def main():
	hex_common.read_semantics_file(sys.argv[1])
	hex_common.read_attribs_file(sys.argv[2])
	hex_common.read_overrides_file(sys.argv[3])
	hex_common.read_overrides_file(sys.argv[4])
	## Whether or not idef-parser is enabled is
	## determined by the number of arguments to
	## this script:
	##
	## 5 args. -> not enabled,
	## 6 args. -> idef-parser enabled.
	##
	## The 6:th arg. then holds a list of the successfully
	## parsed instructions.
	is_idef_parser_enabled = len(sys.argv) > 6
	if is_idef_parser_enabled:
	hex_common.read_idef_parser_enabled_file(sys.argv[5])
	hex_common.calculate_attribs()
	tagregs = hex_common.get_tagregs()
	tagimms = hex_common.get_tagimms()

	output_file = sys.argv[-1]
	with open(output_file, "w") as f:
	for tag in hex_common.tags:
	## Skip the priv instructions
	if "A_PRIV" in hex_common.attribdict[tag]:
	continue
	## Skip the guest instructions
	if "A_GUEST" in hex_common.attribdict[tag]:
	continue
	## Skip the diag instructions
	if tag == "Y6_diag":
	continue
	if tag == "Y6_diag0":
	continue
	if tag == "Y6_diag1":
	continue

	if hex_common.skip_qemu_helper(tag):
	continue
	if hex_common.is_idef_parser_enabled(tag):
	continue

	gen_helper_prototype(f, tag, tagregs, tagimms)


	if __name__ == "__main__":
	main()