#!/usr/bin/env python3
##
## Copyright(c) 2019-2021 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
behdict = {} # tag ->behavior
semdict = {} # tag -> semantics
attribdict = {} # tag -> attributes
macros = {} # macro -> macro information...
attribinfo = {} # Register information and misc
tags = [] # list of all tags
overrides = {} # tags with helper overrides
# We should do this as a hash for performance,
# but to keep order let's keep it as a list.
def uniquify(seq):
seen = set()
seen_add = seen.add
return [x for x in seq if x not in seen and not seen_add(x)]
regre = re.compile(
r"((?<!DUP)[MNORCPQXSGVZA])([stuvwxyzdefg]+)([.]?[LlHh]?)(\d+S?)")
immre = re.compile(r"[#]([rRsSuUm])(\d+)(?:[:](\d+))?")
reg_or_immre = \
re.compile(r"(((?<!DUP)[MNRCOPQXSGVZA])([stuvwxyzdefg]+)" + \
"([.]?[LlHh]?)(\d+S?))|([#]([rRsSuUm])(\d+)[:]?(\d+)?)")
relimmre = re.compile(r"[#]([rR])(\d+)(?:[:](\d+))?")
absimmre = re.compile(r"[#]([sSuUm])(\d+)(?:[:](\d+))?")
finished_macros = set()
def expand_macro_attribs(macro,allmac_re):
if macro.key not in finished_macros:
# Get a list of all things that might be macros
l = allmac_re.findall(macro.beh)
for submacro in l:
if not submacro: continue
if not macros[submacro]:
raise Exception("Couldn't find macro: <%s>" % l)
macro.attribs |= expand_macro_attribs(
macros[submacro], allmac_re)
finished_macros.add(macro.key)
return macro.attribs
# When qemu needs an attribute that isn't in the imported files,
# we'll add it here.
def add_qemu_macro_attrib(name, attrib):
macros[name].attribs.add(attrib)
immextre = re.compile(r'f(MUST_)?IMMEXT[(]([UuSsRr])')
def calculate_attribs():
add_qemu_macro_attrib('fREAD_PC', 'A_IMPLICIT_READS_PC')
add_qemu_macro_attrib('fTRAP', 'A_IMPLICIT_READS_PC')
add_qemu_macro_attrib('fWRITE_P0', 'A_WRITES_PRED_REG')
add_qemu_macro_attrib('fWRITE_P1', 'A_WRITES_PRED_REG')
add_qemu_macro_attrib('fWRITE_P2', 'A_WRITES_PRED_REG')
add_qemu_macro_attrib('fWRITE_P3', 'A_WRITES_PRED_REG')
add_qemu_macro_attrib('fSET_OVERFLOW', 'A_IMPLICIT_WRITES_USR')
add_qemu_macro_attrib('fSET_LPCFG', 'A_IMPLICIT_WRITES_USR')
# Recurse down macros, find attributes from sub-macros
macroValues = list(macros.values())
allmacros_restr = "|".join(set([ m.re.pattern for m in macroValues ]))
allmacros_re = re.compile(allmacros_restr)
for macro in macroValues:
expand_macro_attribs(macro,allmacros_re)
# Append attributes to all instructions
for tag in tags:
for macname in allmacros_re.findall(semdict[tag]):
if not macname: continue
macro = macros[macname]
attribdict[tag] |= set(macro.attribs)
# Figure out which instructions write predicate registers
tagregs = get_tagregs()
for tag in tags:
regs = tagregs[tag]
for regtype, regid, toss, numregs in regs:
if regtype == "P" and is_written(regid):
attribdict[tag].add('A_WRITES_PRED_REG')
def SEMANTICS(tag, beh, sem):
#print tag,beh,sem
behdict[tag] = beh
semdict[tag] = sem
attribdict[tag] = set()
tags.append(tag) # dicts have no order, this is for order
def ATTRIBUTES(tag, attribstring):
attribstring = \
attribstring.replace("ATTRIBS","").replace("(","").replace(")","")
if not attribstring:
return
attribs = attribstring.split(",")
for attrib in attribs:
attribdict[tag].add(attrib.strip())
class Macro(object):
__slots__ = ['key','name', 'beh', 'attribs', 're']
def __init__(self, name, beh, attribs):
self.key = name
self.name = name
self.beh = beh
self.attribs = set(attribs)
self.re = re.compile("\\b" + name + "\\b")
def MACROATTRIB(macname,beh,attribstring):
attribstring = attribstring.replace("(","").replace(")","")
if attribstring:
attribs = attribstring.split(",")
else:
attribs = []
macros[macname] = Macro(macname,beh,attribs)
def compute_tag_regs(tag):
return uniquify(regre.findall(behdict[tag]))
def compute_tag_immediates(tag):
return uniquify(immre.findall(behdict[tag]))
##
## tagregs is the main data structure we'll use
## tagregs[tag] will contain the registers used by an instruction
## Within each entry, we'll use the regtype and regid fields
## regtype can be one of the following
## C control register
## N new register value
## P predicate register
## R GPR register
## M modifier register
## Q HVX predicate vector
## V HVX vector register
## O HVX new vector register
## regid can be one of the following
## d, e destination register
## dd destination register pair
## s, t, u, v, w source register
## ss, tt, uu, vv source register pair
## x, y read-write register
## xx, yy read-write register pair
##
def get_tagregs():
return dict(zip(tags, list(map(compute_tag_regs, tags))))
def get_tagimms():
return dict(zip(tags, list(map(compute_tag_immediates, tags))))
def is_pair(regid):
return len(regid) == 2
def is_single(regid):
return len(regid) == 1
def is_written(regid):
return regid[0] in "dexy"
def is_writeonly(regid):
return regid[0] in "de"
def is_read(regid):
return regid[0] in "stuvwxy"
def is_readwrite(regid):
return regid[0] in "xy"
def is_scalar_reg(regtype):
return regtype in "RPC"
def is_hvx_reg(regtype):
return regtype in "VQ"
def is_old_val(regtype, regid, tag):
return regtype+regid+'V' in semdict[tag]
def is_new_val(regtype, regid, tag):
return regtype+regid+'N' in semdict[tag]
def need_slot(tag):
if ('A_CONDEXEC' in attribdict[tag] or
'A_STORE' in attribdict[tag] or
'A_LOAD' in attribdict[tag]):
return 1
else:
return 0
def need_part1(tag):
return re.compile(r"fPART1").search(semdict[tag])
def need_ea(tag):
return re.compile(r"\bEA\b").search(semdict[tag])
def skip_qemu_helper(tag):
return tag in overrides.keys()
def is_tmp_result(tag):
return ('A_CVI_TMP' in attribdict[tag] or
'A_CVI_TMP_DST' in attribdict[tag])
def is_new_result(tag):
return ('A_CVI_NEW' in attribdict[tag])
def imm_name(immlett):
return "%siV" % immlett
def read_semantics_file(name):
eval_line = ""
for line in open(name, 'rt').readlines():
if not line.startswith("#"):
eval_line += line
if line.endswith("\\\n"):
eval_line.rstrip("\\\n")
else:
eval(eval_line.strip())
eval_line = ""
def read_attribs_file(name):
attribre = re.compile(r'DEF_ATTRIB\(([A-Za-z0-9_]+), ([^,]*), ' +
r'"([A-Za-z0-9_\.]*)", "([A-Za-z0-9_\.]*)"\)')
for line in open(name, 'rt').readlines():
if not attribre.match(line):
continue
(attrib_base,descr,rreg,wreg) = attribre.findall(line)[0]
attrib_base = 'A_' + attrib_base
attribinfo[attrib_base] = {'rreg':rreg, 'wreg':wreg, 'descr':descr}
def read_overrides_file(name):
overridere = re.compile("#define fGEN_TCG_([A-Za-z0-9_]+)\(.*")
for line in open(name, 'rt').readlines():
if not overridere.match(line):
continue
tag = overridere.findall(line)[0]
overrides[tag] = True
