target/hexagon/gen_printinsn.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


 ##
 ##     Generate data for printing each instruction (format string + operands)
 ##
 def regprinter(m):
     str = m.group(1)
     str += ":".join(["%d"] * len(m.group(2)))
     str += m.group(3)
     if ("S" in m.group(1)) and (len(m.group(2)) == 1):
         str += "/%s"
     elif ("C" in m.group(1)) and (len(m.group(2)) == 1):
         str += "/%s"
     return str


 def spacify(s):
     # Regular expression that matches any operator that contains '=' character:
     opswithequal_re = "[-+^&|!<>=]?="
     # Regular expression that matches any assignment operator.
     assignment_re = "[-+^&|]?="

     # Out of the operators that contain the = sign, if the operator is also an
     # assignment, spaces will be added around it, unless it's enclosed within
     # parentheses, or spaces are already present.

     equals = re.compile(opswithequal_re)
     assign = re.compile(assignment_re)

     slen = len(s)
     paren_count = {}
     i = 0
     pc = 0
     while i < slen:
         c = s[i]
         if c == "(":
             pc += 1
         elif c == ")":
             pc -= 1
         paren_count[i] = pc
         i += 1

     # Iterate over all operators that contain the equal sign. If any
     # match is also an assignment operator, add spaces around it if
     # the parenthesis count is 0.
     pos = 0
     out = []
     for m in equals.finditer(s):
         ms = m.start()
         me = m.end()
         # t is the string that matched opswithequal_re.
         t = m.string[ms:me]
         out += s[pos:ms]
         pos = me
         if paren_count[ms] == 0:
             # Check if the entire string t is an assignment.
             am = assign.match(t)
             if am and len(am.group(0)) == me - ms:
                 # Don't add spaces if they are already there.
                 if ms > 0 and s[ms - 1] != " ":
                     out.append(" ")
                 out += t
                 if me < slen and s[me] != " ":
                     out.append(" ")
                 continue
         # If this is not an assignment, just append it to the output
         # string.
         out += t

     # Append the remaining part of the string.
     out += s[pos : len(s)]
     return "".join(out)


 def main():
     hex_common.read_semantics_file(sys.argv[1])
     hex_common.read_attribs_file(sys.argv[2])

     immext_casere = re.compile(r"IMMEXT\(([A-Za-z])")

     with open(sys.argv[3], "w") as f:
         for tag in hex_common.tags:
             if not hex_common.behdict[tag]:
                 continue
             extendable_upper_imm = False
             extendable_lower_imm = False
             m = immext_casere.search(hex_common.semdict[tag])
             if m:
                 if m.group(1).isupper():
                     extendable_upper_imm = True
                 else:
                     extendable_lower_imm = True
             beh = hex_common.behdict[tag]
             beh = hex_common.regre.sub(regprinter, beh)
             beh = hex_common.absimmre.sub(r"#%s0x%x", beh)
             beh = hex_common.relimmre.sub(r"PC+%s%d", beh)
             beh = spacify(beh)
             # Print out a literal "%s" at the end, used to match empty string
             # so C won't complain at us
             if "A_VECX" in hex_common.attribdict[tag]:
                 macname = "DEF_VECX_PRINTINFO"
             else:
                 macname = "DEF_PRINTINFO"
             f.write(f'{macname}({tag},"{beh}%s"')
             regs_or_imms = hex_common.reg_or_immre.findall(hex_common.behdict[tag])
             ri = 0
             seenregs = {}
             for allregs, a, b, c, d, allimm, immlett, bits, immshift in regs_or_imms:
                 if a:
                     # register
                     if b in seenregs:
                         regno = seenregs[b]
                     else:
                         regno = ri
                     if len(b) == 1:
                         f.write(f", insn->regno[{regno}]")
                         if "S" in a:
                             f.write(f", sreg2str(insn->regno[{regno}])")
                         elif "C" in a:
                             f.write(f", creg2str(insn->regno[{regno}])")
                     elif len(b) == 2:
                         f.write(f", insn->regno[{regno}] + 1" f", insn->regno[{regno}]")
                     else:
                         print("Put some stuff to handle quads here")
                     if b not in seenregs:
                         seenregs[b] = ri
                         ri += 1
                 else:
                     # immediate
                     if immlett.isupper():
                         if extendable_upper_imm:
                             if immlett in "rR":
                                 f.write(',insn->extension_valid?"##":""')
                             else:
                                 f.write(',insn->extension_valid?"#":""')
                         else:
                             f.write(',""')
                         ii = 1
                     else:
                         if extendable_lower_imm:
                             if immlett in "rR":
                                 f.write(',insn->extension_valid?"##":""')
                             else:
                                 f.write(',insn->extension_valid?"#":""')
                         else:
                             f.write(',""')
                         ii = 0
                     f.write(f", insn->immed[{ii}]")
             # append empty string so there is at least one more arg
             f.write(',"")\n')


 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


	##
	## Generate data for printing each instruction (format string + operands)
	##
	def regprinter(m):
	str = m.group(1)
	str += ":".join(["%d"] * len(m.group(2)))
	str += m.group(3)
	if ("S" in m.group(1)) and (len(m.group(2)) == 1):
	str += "/%s"
	elif ("C" in m.group(1)) and (len(m.group(2)) == 1):
	str += "/%s"
	return str


	def spacify(s):
	# Regular expression that matches any operator that contains '=' character:
	opswithequal_re = "[-+^&\|!<>=]?="
	# Regular expression that matches any assignment operator.
	assignment_re = "[-+^&\|]?="

	# Out of the operators that contain the = sign, if the operator is also an
	# assignment, spaces will be added around it, unless it's enclosed within
	# parentheses, or spaces are already present.

	equals = re.compile(opswithequal_re)
	assign = re.compile(assignment_re)

	slen = len(s)
	paren_count = {}
	i = 0
	pc = 0
	while i < slen:
	c = s[i]
	if c == "(":
	pc += 1
	elif c == ")":
	pc -= 1
	paren_count[i] = pc
	i += 1

	# Iterate over all operators that contain the equal sign. If any
	# match is also an assignment operator, add spaces around it if
	# the parenthesis count is 0.
	pos = 0
	out = []
	for m in equals.finditer(s):
	ms = m.start()
	me = m.end()
	# t is the string that matched opswithequal_re.
	t = m.string[ms:me]
	out += s[pos:ms]
	pos = me
	if paren_count[ms] == 0:
	# Check if the entire string t is an assignment.
	am = assign.match(t)
	if am and len(am.group(0)) == me - ms:
	# Don't add spaces if they are already there.
	if ms > 0 and s[ms - 1] != " ":
	out.append(" ")
	out += t
	if me < slen and s[me] != " ":
	out.append(" ")
	continue
	# If this is not an assignment, just append it to the output
	# string.
	out += t

	# Append the remaining part of the string.
	out += s[pos : len(s)]
	return "".join(out)


	def main():
	hex_common.read_semantics_file(sys.argv[1])
	hex_common.read_attribs_file(sys.argv[2])

	immext_casere = re.compile(r"IMMEXT\(([A-Za-z])")

	with open(sys.argv[3], "w") as f:
	for tag in hex_common.tags:
	if not hex_common.behdict[tag]:
	continue
	extendable_upper_imm = False
	extendable_lower_imm = False
	m = immext_casere.search(hex_common.semdict[tag])
	if m:
	if m.group(1).isupper():
	extendable_upper_imm = True
	else:
	extendable_lower_imm = True
	beh = hex_common.behdict[tag]
	beh = hex_common.regre.sub(regprinter, beh)
	beh = hex_common.absimmre.sub(r"#%s0x%x", beh)
	beh = hex_common.relimmre.sub(r"PC+%s%d", beh)
	beh = spacify(beh)
	# Print out a literal "%s" at the end, used to match empty string
	# so C won't complain at us
	if "A_VECX" in hex_common.attribdict[tag]:
	macname = "DEF_VECX_PRINTINFO"
	else:
	macname = "DEF_PRINTINFO"
	f.write(f'{macname}({tag},"{beh}%s"')
	regs_or_imms = hex_common.reg_or_immre.findall(hex_common.behdict[tag])
	ri = 0
	seenregs = {}
	for allregs, a, b, c, d, allimm, immlett, bits, immshift in regs_or_imms:
	if a:
	# register
	if b in seenregs:
	regno = seenregs[b]
	else:
	regno = ri
	if len(b) == 1:
	f.write(f", insn->regno[{regno}]")
	if "S" in a:
	f.write(f", sreg2str(insn->regno[{regno}])")
	elif "C" in a:
	f.write(f", creg2str(insn->regno[{regno}])")
	elif len(b) == 2:
	f.write(f", insn->regno[{regno}] + 1" f", insn->regno[{regno}]")
	else:
	print("Put some stuff to handle quads here")
	if b not in seenregs:
	seenregs[b] = ri
	ri += 1
	else:
	# immediate
	if immlett.isupper():
	if extendable_upper_imm:
	if immlett in "rR":
	f.write(',insn->extension_valid?"##":""')
	else:
	f.write(',insn->extension_valid?"#":""')
	else:
	f.write(',""')
	ii = 1
	else:
	if extendable_lower_imm:
	if immlett in "rR":
	f.write(',insn->extension_valid?"##":""')
	else:
	f.write(',insn->extension_valid?"#":""')
	else:
	f.write(',""')
	ii = 0
	f.write(f", insn->immed[{ii}]")
	# append empty string so there is at least one more arg
	f.write(',"")\n')


	if __name__ == "__main__":
	main()