target/hexagon/gen_analyze_funcs.py - qemu - Git at Google

 #!/usr/bin/env python3

 ##
 ##  Copyright(c) 2022-2023 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_analyze_func
 ##
 def is_predicated(tag):
     return "A_CONDEXEC" in hex_common.attribdict[tag]


 def analyze_opn_old(f, tag, regtype, regid, regno):
     regN = f"{regtype}{regid}N"
     predicated = "true" if is_predicated(tag) else "false"
     if regtype == "R":
         if regid in {"ss", "tt"}:
             f.write(f"//    const int {regN} = insn->regno[{regno}];\n")
         elif regid in {"dd", "ee", "xx", "yy"}:
             f.write(f"    const int {regN} = insn->regno[{regno}];\n")
             f.write(f"    ctx_log_reg_write_pair(ctx, {regN}, {predicated});\n")
         elif regid in {"s", "t", "u", "v"}:
             f.write(f"//    const int {regN} = insn->regno[{regno}];\n")
         elif regid in {"d", "e", "x", "y"}:
             f.write(f"    const int {regN} = insn->regno[{regno}];\n")
             f.write(f"    ctx_log_reg_write(ctx, {regN}, {predicated});\n")
         else:
             print("Bad register parse: ", regtype, regid)
     elif regtype == "P":
         if regid in {"s", "t", "u", "v"}:
             f.write(f"//    const int {regN} = insn->regno[{regno}];\n")
         elif regid in {"d", "e", "x"}:
             f.write(f"    const int {regN} = insn->regno[{regno}];\n")
             f.write(f"    ctx_log_pred_write(ctx, {regN});\n")
         else:
             print("Bad register parse: ", regtype, regid)
     elif regtype == "C":
         if regid == "ss":
             f.write(
                 f"//    const int {regN} = insn->regno[{regno}] " "+ HEX_REG_SA0;\n"
             )
         elif regid == "dd":
             f.write(f"    const int {regN} = insn->regno[{regno}] " "+ HEX_REG_SA0;\n")
             f.write(f"    ctx_log_reg_write_pair(ctx, {regN}, {predicated});\n")
         elif regid == "s":
             f.write(
                 f"//    const int {regN} = insn->regno[{regno}] " "+ HEX_REG_SA0;\n"
             )
         elif regid == "d":
             f.write(f"    const int {regN} = insn->regno[{regno}] " "+ HEX_REG_SA0;\n")
             f.write(f"    ctx_log_reg_write(ctx, {regN}, {predicated});\n")
         else:
             print("Bad register parse: ", regtype, regid)
     elif regtype == "M":
         if regid == "u":
             f.write(f"//    const int {regN} = insn->regno[{regno}];\n")
         else:
             print("Bad register parse: ", regtype, regid)
     elif regtype == "V":
         newv = "EXT_DFL"
         if hex_common.is_new_result(tag):
             newv = "EXT_NEW"
         elif hex_common.is_tmp_result(tag):
             newv = "EXT_TMP"
         if regid in {"dd", "xx"}:
             f.write(f"    const int {regN} = insn->regno[{regno}];\n")
             f.write(
                 f"    ctx_log_vreg_write_pair(ctx, {regN}, {newv}, " f"{predicated});\n"
             )
         elif regid in {"uu", "vv"}:
             f.write(f"//    const int {regN} = insn->regno[{regno}];\n")
         elif regid in {"s", "u", "v", "w"}:
             f.write(f"//    const int {regN} = insn->regno[{regno}];\n")
         elif regid in {"d", "x", "y"}:
             f.write(f"    const int {regN} = insn->regno[{regno}];\n")
             f.write(f"    ctx_log_vreg_write(ctx, {regN}, {newv}, " f"{predicated});\n")
         else:
             print("Bad register parse: ", regtype, regid)
     elif regtype == "Q":
         if regid in {"d", "e", "x"}:
             f.write(f"    const int {regN} = insn->regno[{regno}];\n")
             f.write(f"    ctx_log_qreg_write(ctx, {regN});\n")
         elif regid in {"s", "t", "u", "v"}:
             f.write(f"//    const int {regN} = insn->regno[{regno}];\n")
         else:
             print("Bad register parse: ", regtype, regid)
     elif regtype == "G":
         if regid in {"dd"}:
             f.write(f"//    const int {regN} = insn->regno[{regno}];\n")
         elif regid in {"d"}:
             f.write(f"//    const int {regN} = insn->regno[{regno}];\n")
         elif regid in {"ss"}:
             f.write(f"//    const int {regN} = insn->regno[{regno}];\n")
         elif regid in {"s"}:
             f.write(f"//    const int {regN} = insn->regno[{regno}];\n")
         else:
             print("Bad register parse: ", regtype, regid)
     elif regtype == "S":
         if regid in {"dd"}:
             f.write(f"//    const int {regN} = insn->regno[{regno}];\n")
         elif regid in {"d"}:
             f.write(f"//    const int {regN} = insn->regno[{regno}];\n")
         elif regid in {"ss"}:
             f.write(f"//    const int {regN} = insn->regno[{regno}];\n")
         elif regid in {"s"}:
             f.write(f"//    const int {regN} = insn->regno[{regno}];\n")
         else:
             print("Bad register parse: ", regtype, regid)
     else:
         print("Bad register parse: ", regtype, regid)


 def analyze_opn_new(f, tag, regtype, regid, regno):
     regN = f"{regtype}{regid}N"
     if regtype == "N":
         if regid in {"s", "t"}:
             f.write(f"//    const int {regN} = insn->regno[{regno}];\n")
         else:
             print("Bad register parse: ", regtype, regid)
     elif regtype == "P":
         if regid in {"t", "u", "v"}:
             f.write(f"//    const int {regN} = insn->regno[{regno}];\n")
         else:
             print("Bad register parse: ", regtype, regid)
     elif regtype == "O":
         if regid == "s":
             f.write(f"//    const int {regN} = insn->regno[{regno}];\n")
         else:
             print("Bad register parse: ", regtype, regid)
     else:
         print("Bad register parse: ", regtype, regid)


 def analyze_opn(f, tag, regtype, regid, toss, numregs, i):
     if hex_common.is_pair(regid):
         analyze_opn_old(f, tag, regtype, regid, i)
     elif hex_common.is_single(regid):
         if hex_common.is_old_val(regtype, regid, tag):
             analyze_opn_old(f, tag, regtype, regid, i)
         elif hex_common.is_new_val(regtype, regid, tag):
             analyze_opn_new(f, tag, regtype, regid, i)
         else:
             print("Bad register parse: ", regtype, regid, toss, numregs)
     else:
         print("Bad register parse: ", regtype, regid, toss, numregs)


 ##
 ## Generate the code to analyze the instruction
 ##     For A2_add: Rd32=add(Rs32,Rt32), { RdV=RsV+RtV;}
 ##     We produce:
 ##     static void analyze_A2_add(DisasContext *ctx)
 ##     {
 ##         Insn *insn G_GNUC_UNUSED = ctx->insn;
 ##         const int RdN = insn->regno[0];
 ##         ctx_log_reg_write(ctx, RdN, false);
 ##     //    const int RsN = insn->regno[1];
 ##     //    const int RtN = insn->regno[2];
 ##     }
 ##
 def gen_analyze_func(f, tag, regs, imms):
     f.write(f"static void analyze_{tag}(DisasContext *ctx)\n")
     f.write("{\n")

     f.write("    Insn *insn G_GNUC_UNUSED = ctx->insn;\n")

     i = 0
     ## Analyze all the registers
     for regtype, regid, toss, numregs in regs:
         analyze_opn(f, tag, regtype, regid, toss, numregs, i)
         i += 1

     has_generated_helper = not hex_common.skip_qemu_helper(
         tag
     ) and not hex_common.is_idef_parser_enabled(tag)
     if has_generated_helper and "A_SCALAR_LOAD" in hex_common.attribdict[tag]:
         f.write("    ctx->need_pkt_has_store_s1 = true;\n")

     f.write("}\n\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()

     with open(sys.argv[-1], "w") as f:
         f.write("#ifndef HEXAGON_TCG_FUNCS_H\n")
         f.write("#define HEXAGON_TCG_FUNCS_H\n\n")

         for tag in hex_common.tags:
             gen_analyze_func(f, tag, tagregs[tag], tagimms[tag])

         f.write("#endif    /* HEXAGON_TCG_FUNCS_H */\n")


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

	##
	## Copyright(c) 2022-2023 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_analyze_func
	##
	def is_predicated(tag):
	return "A_CONDEXEC" in hex_common.attribdict[tag]


	def analyze_opn_old(f, tag, regtype, regid, regno):
	regN = f"{regtype}{regid}N"
	predicated = "true" if is_predicated(tag) else "false"
	if regtype == "R":
	if regid in {"ss", "tt"}:
	f.write(f"// const int {regN} = insn->regno[{regno}];\n")
	elif regid in {"dd", "ee", "xx", "yy"}:
	f.write(f" const int {regN} = insn->regno[{regno}];\n")
	f.write(f" ctx_log_reg_write_pair(ctx, {regN}, {predicated});\n")
	elif regid in {"s", "t", "u", "v"}:
	f.write(f"// const int {regN} = insn->regno[{regno}];\n")
	elif regid in {"d", "e", "x", "y"}:
	f.write(f" const int {regN} = insn->regno[{regno}];\n")
	f.write(f" ctx_log_reg_write(ctx, {regN}, {predicated});\n")
	else:
	print("Bad register parse: ", regtype, regid)
	elif regtype == "P":
	if regid in {"s", "t", "u", "v"}:
	f.write(f"// const int {regN} = insn->regno[{regno}];\n")
	elif regid in {"d", "e", "x"}:
	f.write(f" const int {regN} = insn->regno[{regno}];\n")
	f.write(f" ctx_log_pred_write(ctx, {regN});\n")
	else:
	print("Bad register parse: ", regtype, regid)
	elif regtype == "C":
	if regid == "ss":
	f.write(
	f"// const int {regN} = insn->regno[{regno}] " "+ HEX_REG_SA0;\n"
	)
	elif regid == "dd":
	f.write(f" const int {regN} = insn->regno[{regno}] " "+ HEX_REG_SA0;\n")
	f.write(f" ctx_log_reg_write_pair(ctx, {regN}, {predicated});\n")
	elif regid == "s":
	f.write(
	f"// const int {regN} = insn->regno[{regno}] " "+ HEX_REG_SA0;\n"
	)
	elif regid == "d":
	f.write(f" const int {regN} = insn->regno[{regno}] " "+ HEX_REG_SA0;\n")
	f.write(f" ctx_log_reg_write(ctx, {regN}, {predicated});\n")
	else:
	print("Bad register parse: ", regtype, regid)
	elif regtype == "M":
	if regid == "u":
	f.write(f"// const int {regN} = insn->regno[{regno}];\n")
	else:
	print("Bad register parse: ", regtype, regid)
	elif regtype == "V":
	newv = "EXT_DFL"
	if hex_common.is_new_result(tag):
	newv = "EXT_NEW"
	elif hex_common.is_tmp_result(tag):
	newv = "EXT_TMP"
	if regid in {"dd", "xx"}:
	f.write(f" const int {regN} = insn->regno[{regno}];\n")
	f.write(
	f" ctx_log_vreg_write_pair(ctx, {regN}, {newv}, " f"{predicated});\n"
	)
	elif regid in {"uu", "vv"}:
	f.write(f"// const int {regN} = insn->regno[{regno}];\n")
	elif regid in {"s", "u", "v", "w"}:
	f.write(f"// const int {regN} = insn->regno[{regno}];\n")
	elif regid in {"d", "x", "y"}:
	f.write(f" const int {regN} = insn->regno[{regno}];\n")
	f.write(f" ctx_log_vreg_write(ctx, {regN}, {newv}, " f"{predicated});\n")
	else:
	print("Bad register parse: ", regtype, regid)
	elif regtype == "Q":
	if regid in {"d", "e", "x"}:
	f.write(f" const int {regN} = insn->regno[{regno}];\n")
	f.write(f" ctx_log_qreg_write(ctx, {regN});\n")
	elif regid in {"s", "t", "u", "v"}:
	f.write(f"// const int {regN} = insn->regno[{regno}];\n")
	else:
	print("Bad register parse: ", regtype, regid)
	elif regtype == "G":
	if regid in {"dd"}:
	f.write(f"// const int {regN} = insn->regno[{regno}];\n")
	elif regid in {"d"}:
	f.write(f"// const int {regN} = insn->regno[{regno}];\n")
	elif regid in {"ss"}:
	f.write(f"// const int {regN} = insn->regno[{regno}];\n")
	elif regid in {"s"}:
	f.write(f"// const int {regN} = insn->regno[{regno}];\n")
	else:
	print("Bad register parse: ", regtype, regid)
	elif regtype == "S":
	if regid in {"dd"}:
	f.write(f"// const int {regN} = insn->regno[{regno}];\n")
	elif regid in {"d"}:
	f.write(f"// const int {regN} = insn->regno[{regno}];\n")
	elif regid in {"ss"}:
	f.write(f"// const int {regN} = insn->regno[{regno}];\n")
	elif regid in {"s"}:
	f.write(f"// const int {regN} = insn->regno[{regno}];\n")
	else:
	print("Bad register parse: ", regtype, regid)
	else:
	print("Bad register parse: ", regtype, regid)


	def analyze_opn_new(f, tag, regtype, regid, regno):
	regN = f"{regtype}{regid}N"
	if regtype == "N":
	if regid in {"s", "t"}:
	f.write(f"// const int {regN} = insn->regno[{regno}];\n")
	else:
	print("Bad register parse: ", regtype, regid)
	elif regtype == "P":
	if regid in {"t", "u", "v"}:
	f.write(f"// const int {regN} = insn->regno[{regno}];\n")
	else:
	print("Bad register parse: ", regtype, regid)
	elif regtype == "O":
	if regid == "s":
	f.write(f"// const int {regN} = insn->regno[{regno}];\n")
	else:
	print("Bad register parse: ", regtype, regid)
	else:
	print("Bad register parse: ", regtype, regid)


	def analyze_opn(f, tag, regtype, regid, toss, numregs, i):
	if hex_common.is_pair(regid):
	analyze_opn_old(f, tag, regtype, regid, i)
	elif hex_common.is_single(regid):
	if hex_common.is_old_val(regtype, regid, tag):
	analyze_opn_old(f, tag, regtype, regid, i)
	elif hex_common.is_new_val(regtype, regid, tag):
	analyze_opn_new(f, tag, regtype, regid, i)
	else:
	print("Bad register parse: ", regtype, regid, toss, numregs)
	else:
	print("Bad register parse: ", regtype, regid, toss, numregs)


	##
	## Generate the code to analyze the instruction
	## For A2_add: Rd32=add(Rs32,Rt32), { RdV=RsV+RtV;}
	## We produce:
	## static void analyze_A2_add(DisasContext *ctx)
	## {
	## Insn *insn G_GNUC_UNUSED = ctx->insn;
	## const int RdN = insn->regno[0];
	## ctx_log_reg_write(ctx, RdN, false);
	## // const int RsN = insn->regno[1];
	## // const int RtN = insn->regno[2];
	## }
	##
	def gen_analyze_func(f, tag, regs, imms):
	f.write(f"static void analyze_{tag}(DisasContext *ctx)\n")
	f.write("{\n")

	f.write(" Insn *insn G_GNUC_UNUSED = ctx->insn;\n")

	i = 0
	## Analyze all the registers
	for regtype, regid, toss, numregs in regs:
	analyze_opn(f, tag, regtype, regid, toss, numregs, i)
	i += 1

	has_generated_helper = not hex_common.skip_qemu_helper(
	tag
	) and not hex_common.is_idef_parser_enabled(tag)
	if has_generated_helper and "A_SCALAR_LOAD" in hex_common.attribdict[tag]:
	f.write(" ctx->need_pkt_has_store_s1 = true;\n")

	f.write("}\n\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()

	with open(sys.argv[-1], "w") as f:
	f.write("#ifndef HEXAGON_TCG_FUNCS_H\n")
	f.write("#define HEXAGON_TCG_FUNCS_H\n\n")

	for tag in hex_common.tags:
	gen_analyze_func(f, tag, tagregs[tag], tagimms[tag])

	f.write("#endif /* HEXAGON_TCG_FUNCS_H */\n")


	if __name__ == "__main__":
	main()