# It finds .csv files in the directory isatables/
# then goes through the categories and creates svp64 CSV augmentation
# tables on a per-opcode basis
-
+#
+# NOTE: this program is effectively part of the Simple-V Specification.
+# it encapsulates the relationships of what can be SVP64-encoded and
+# holds all of the information on how to encode and decode SVP64.
+# By auto-generating tables that go into the Simple-V Specification
+# this program *is* the specification. do not be confused just because
+# it is in python: if you do not understand please ask questions and
+# help create patches with explanatory comments.
+
+import argparse
import csv
+import enum
import os
from os.path import dirname, join
from glob import glob
+from collections import defaultdict
from collections import OrderedDict
from openpower.decoder.power_svp64 import SVP64RM
from openpower.decoder.power_enums import find_wiki_file, get_csv
+from openpower.util import log
+
+
+# Ignore those containing: valid test sprs
+def glob_valid_csvs(root):
+ def check_csv(fname):
+ _, name = os.path.split(fname)
+ if '-' in name:
+ return False
+ if 'valid' in fname:
+ return False
+ if 'test' in fname:
+ return False
+ if fname.endswith('insndb.csv'):
+ return False
+ if fname.endswith('sprs.csv'):
+ return False
+ if fname.endswith('minor_19_valid.csv'):
+ return False
+ if 'RM' in fname:
+ return False
+ return True
+
+ yield from filter(check_csv, glob(root))
# Write an array of dictionaries to the CSV file name:
def create_key(row):
+ """ create an equivalent of a database key by which it is possible
+ to easily categorise an instruction. later this category is used
+ to decide what kind of EXTRA encoding is to be done because the
+ key contains the total number of input and output registers
+ """
res = OrderedDict()
#print ("row", row)
for key in keycolumns:
def tformat(d):
- return ' | '.join(d) + " |"
+ return "| " + ' | '.join(d) + " |"
def keyname(row):
+ """converts a key into a readable string. anything null or zero
+ is skipped, shortening the readable string
+ """
res = []
if row['unit'] != 'OTHER':
res.append(row['unit'])
return '-'.join(res)
-def process_csvs():
+class Format(enum.Enum):
+ BINUTILS = enum.auto()
+ VHDL = enum.auto()
+
+ @classmethod
+ def _missing_(cls, value):
+ return {
+ "binutils": Format.BINUTILS,
+ "vhdl": Format.VHDL,
+ }[value.lower()]
+
+ def __str__(self):
+ return self.name.lower()
+
+ def declarations(self, values, lens):
+ def declaration_binutils(value, width):
+ yield f"/* TODO: implement binutils declaration (value={value!r}, width={width!r}) */"
+
+ def declaration_vhdl(value, width):
+ yield f" type sv_{value}_rom_array_t is " \
+ f"array(0 to {width}) of sv_decode_rom_t;"
+
+ for value in values:
+ if value not in lens:
+ todo = [f"TODO {value} (or no SVP64 augmentation)"]
+ todo = self.wrap_comment(todo)
+ yield from map(lambda line: f" {line}", todo)
+ else:
+ width = lens[value]
+ yield from {
+ Format.BINUTILS: declaration_binutils,
+ Format.VHDL: declaration_vhdl,
+ }[self](value, width)
+
+ def definitions(self, entries_svp64, fullcols):
+ def definitions_vhdl():
+ for (value, entries) in entries_svp64.items():
+ yield ""
+ yield f" constant sv_{value}_decode_rom_array :"
+ yield f" sv_{value}_rom_array_t := ("
+ yield f" -- {' '.join(fullcols)}"
+
+ for (op, insn, row) in entries:
+ yield f" {op:>13} => ({', '.join(row)}), -- {insn}"
+
+ yield f" {'others':>13} => sv_illegal_inst"
+ yield " );"
+ yield ""
+
+ def definitions_binutils():
+ yield f"/* TODO: implement binutils definitions */"
+
+ yield from {
+ Format.BINUTILS: definitions_binutils,
+ Format.VHDL: definitions_vhdl,
+ }[self]()
+
+ def wrap_comment(self, lines):
+ def wrap_comment_binutils(lines):
+ lines = tuple(lines)
+ if len(lines) == 1:
+ yield f"/* {lines[0]} */"
+ else:
+ yield "/*"
+ yield from map(lambda line: f" * {line}", lines)
+ yield " */"
+
+ def wrap_comment_vhdl(lines):
+ yield from map(lambda line: f"-- {line}", lines)
+
+ yield from {
+ Format.BINUTILS: wrap_comment_binutils,
+ Format.VHDL: wrap_comment_vhdl,
+ }[self](lines)
+
+
+def read_csvs():
csvs = {}
csvs_svp64 = {}
bykey = {}
insns = {} # dictionary of CSV row, by instruction
insn_to_csv = {}
- print("# OpenPOWER ISA register 'profile's")
- print('')
- print("this page is auto-generated, do not edit")
- print("created by http://libre-soc.org/openpower/sv_analysis.py")
- print('')
-
# Expand that (all .csv files)
pth = find_wiki_file("*.csv")
# Ignore those containing: valid test sprs
- for fname in glob(pth):
- print("sv analysis checking", fname)
- _, name = os.path.split(fname)
- if '-' in name:
- continue
- if 'valid' in fname:
- continue
- if 'test' in fname:
- continue
- if fname.endswith('sprs.csv'):
- continue
- if fname.endswith('minor_19_valid.csv'):
- continue
- if 'RM' in fname:
- continue
+ for fname in glob_valid_csvs(pth):
csvname = os.path.split(fname)[1]
csvname_ = csvname.split(".")[0]
# csvname is something like: minor_59.csv, fname the whole path
for row in csv:
if blank_key(row):
continue
- print("row", row)
+ #print("row", row)
insn_name = row['comment']
condition = row['CONDITIONS']
# skip instructions that are not suitable
continue # skip pseudo-alias lxxxbr
if insn_name in ['mcrxr', 'mcrxrx', 'darn']:
continue
- if insn_name in ['bctar', 'bcctr']:
+ if insn_name in ['bctar', 'bcctr']: # for now. TODO
continue
if 'rfid' in insn_name:
continue
- if insn_name in ['setvl', ]: # SVP64 opcodes
+ if 'addpcis' in insn_name: # skip for now
continue
+ # sv.bc is being classified as 2P-2S-1D by mistake due to SPRs
+ if insn_name.startswith('bc'):
+ # whoops: remove out reg (SPRs CTR etc)
+ row['in1'] = 'NONE'
+ row['in2'] = 'NONE'
+ row['in3'] = 'NONE'
+ row['out'] = 'NONE'
+
insns[(insn_name, condition)] = row # accumulate csv data
insn_to_csv[insn_name] = csvname_ # CSV file name by instruction
dkey = create_key(row)
key = tuple(dkey.values())
- # print("key=", key)
+ #print("key=", key, dkey)
dictkeys[key] = dkey
primarykeys.add(key)
if key not in bykey:
primarykeys = list(primarykeys)
primarykeys.sort()
+ return (csvs, csvs_svp64, primarykeys, bykey, insn_to_csv, insns,
+ dictkeys, immediates)
+
+
+def regs_profile(insn, res):
+ """get a more detailed register profile: 1st operand is RA,
+ 2nd is RB, etc. etc
+ """
+ regs = []
+ for k in ['in1', 'in2', 'in3', 'out', 'CR in', 'CR out']:
+ if insn[k].startswith('CONST'):
+ res[k] = ''
+ regs.append('')
+ else:
+ res[k] = insn[k]
+ if insn[k] == 'RA_OR_ZERO':
+ regs.append('RA')
+ elif insn[k] != 'NONE':
+ regs.append(insn[k])
+ else:
+ regs.append('')
+ return regs
+
+
+def extra_classifier(insn_name, value, name, res, regs):
+ """extra_classifier: creates the SVP64.RM EXTRA2/3 classification.
+ there is very little space (9 bits) to mark register operands
+ (RT RA RB, BA BB, BFA, FRS etc.) with the "extra" information
+ needed to tell if *EACH* operand (of which there can be up to five!)
+ is Vectorised, and whether its numbering is extended into the
+ 0..127 range rather than the limited 3/5 bit of Scalar v3.0 Power ISA.
+
+ thus begins the rather tedious but by-rote examination of EVERY
+ Scalar instruction, working out how best to tell a decoder how to
+ extend the registers. EXTRA2 can have up to 4 slots (of 2 bit each)
+ where due to RM.EXTRA being 9 bits, EXTRA3 can have up to 3 slots
+ (of 3 bit each). the index REGNAME says which slot the register
+ named REGNAME must read its decoding from. d: means destination,
+ s: means source. some are *shared slots* especially LDST update.
+ some Rc=1 ops have the CR0/CR1 as a co-result which is also
+ obviously Vectorised if the result is Vectorised.
+
+ it is actually quite straightforward but the sheer quantity of
+ Scalar Power ISA instructions made it prudent to do this in an
+ intelligent way, almost by-rote, by analysing the register profiles.
+ """
+ # for LD/ST FP, use FRT/FRS not RT/RS, and use CR1 not CR0
+ if insn_name.startswith("lf"):
+ dRT = 'd:FRT'
+ dCR = 'd:CR1'
+ else:
+ dRT = 'd:RT'
+ dCR = 'd:CR0'
+ if insn_name.startswith("stf"):
+ sRS = 's:FRS'
+ dCR = 'd:CR1'
+ else:
+ sRS = 's:RS'
+ dCR = 'd:CR0'
+
+ # sigh now the fun begins. this isn't the sanest way to do it
+ # but the patterns are pretty regular. we start with the "profile"
+ # because that determines how much space is available (total num
+ # regs to decode) then if necessary begin apecialising either
+ # by the instruction name or through more detailed register
+ # profiling. example:
+ # if regs == ['RA', '', '', 'RT', '', '']:
+ # is in the order in1 in2 in3 out1 out2 Rc=1
+
+ # ********
+ # start with LD/ST
+
+ if value == 'LDSTRM-2P-1S1D':
+ res['Etype'] = 'EXTRA3' # RM EXTRA3 type
+ res['0'] = dRT # RT: Rdest_EXTRA3
+ res['1'] = 's:RA' # RA: Rsrc1_EXTRA3
+
+ elif value == 'LDSTRM-2P-1S2D':
+ res['Etype'] = 'EXTRA2' # RM EXTRA2 type
+ res['0'] = dRT # RT: Rdest_EXTRA3
+ res['1'] = 'd:RA' # RA: Rdest2_EXTRA2
+ res['2'] = 's:RA' # RA: Rsrc1_EXTRA2
+
+ elif value == 'LDSTRM-2P-2S':
+ # stw, std, sth, stb
+ res['Etype'] = 'EXTRA3' # RM EXTRA3 type
+ res['0'] = sRS # RS: Rdest1_EXTRA3
+ res['1'] = 's:RA' # RA: Rsrc1_EXTRA3
+
+ elif value == 'LDSTRM-2P-2S1D':
+ if 'st' in insn_name and 'x' not in insn_name: # stwu/stbu etc
+ res['Etype'] = 'EXTRA2' # RM EXTRA2 type
+ res['0'] = 'd:RA' # RA: Rdest1_EXTRA2
+ res['1'] = sRS # RS: Rdsrc1_EXTRA2
+ res['2'] = 's:RA' # RA: Rsrc2_EXTRA2
+ elif 'st' in insn_name and 'x' in insn_name: # stwux
+ res['Etype'] = 'EXTRA2' # RM EXTRA2 type
+ res['0'] = 'd:RA' # RA: Rdest1_EXTRA2
+ # RS: Rdest2_EXTRA2, RA: Rsrc1_EXTRA2
+ res['1'] = "%s;%s" % (sRS, 's:RA')
+ res['2'] = 's:RB' # RB: Rsrc2_EXTRA2
+ elif 'u' in insn_name: # ldux etc.
+ res['Etype'] = 'EXTRA2' # RM EXTRA2 type
+ res['0'] = dRT # RT: Rdest1_EXTRA2
+ res['1'] = 'd:RA' # RA: Rdest2_EXTRA2
+ res['2'] = 's:RB' # RB: Rsrc1_EXTRA2
+ else:
+ res['Etype'] = 'EXTRA2' # RM EXTRA2 type
+ res['0'] = dRT # RT: Rdest1_EXTRA2
+ res['1'] = 's:RA' # RA: Rsrc1_EXTRA2
+ res['2'] = 's:RB' # RB: Rsrc2_EXTRA2
+
+ elif value == 'LDSTRM-2P-3S':
+ res['Etype'] = 'EXTRA2' # RM EXTRA2 type
+ if 'cx' in insn_name:
+ res['0'] = "%s;%s" % (sRS, dCR) # RS: Rsrc1_EXTRA2 CR0: dest
+ else:
+ res['0'] = sRS # RS: Rsrc1_EXTRA2
+ res['1'] = 's:RA' # RA: Rsrc2_EXTRA2
+ res['2'] = 's:RB' # RA: Rsrc3_EXTRA2
+
+ # **********
+ # now begins,arithmetic
+
+ elif value == 'RM-2P-1S1D':
+ res['Etype'] = 'EXTRA3' # RM EXTRA3 type
+ if insn_name == 'mtspr':
+ res['0'] = 'd:SPR' # SPR: Rdest1_EXTRA3
+ res['1'] = 's:RS' # RS: Rsrc1_EXTRA3
+ elif insn_name == 'mfspr':
+ res['0'] = 'd:RS' # RS: Rdest1_EXTRA3
+ res['1'] = 's:SPR' # SPR: Rsrc1_EXTRA3
+ elif name == 'CRio' and insn_name == 'mcrf':
+ res['0'] = 'd:BF' # BFA: Rdest1_EXTRA3
+ res['1'] = 's:BFA' # BFA: Rsrc1_EXTRA3
+ elif 'mfcr' in insn_name or 'mfocrf' in insn_name:
+ res['0'] = 'd:RT' # RT: Rdest1_EXTRA3
+ res['1'] = 's:CR' # CR: Rsrc1_EXTRA3
+ elif insn_name == 'setb':
+ res['0'] = 'd:RT' # RT: Rdest1_EXTRA3
+ res['1'] = 's:BFA' # BFA: Rsrc1_EXTRA3
+ elif insn_name.startswith('cmp'): # cmpi
+ res['0'] = 'd:BF' # BF: Rdest1_EXTRA3
+ res['1'] = 's:RA' # RA: Rsrc1_EXTRA3
+ elif regs == ['RA', '', '', 'RT', '', '']:
+ res['0'] = 'd:RT' # RT: Rdest1_EXTRA3
+ res['1'] = 's:RA' # RA: Rsrc1_EXTRA3
+ elif regs == ['RA', '', '', 'RT', '', 'CR0']:
+ res['0'] = 'd:RT;d:CR0' # RT,CR0: Rdest1_EXTRA3
+ res['1'] = 's:RA' # RA: Rsrc1_EXTRA3
+ elif (regs == ['RS', '', '', 'RA', '', 'CR0'] or
+ regs == ['', '', 'RS', 'RA', '', 'CR0']):
+ res['0'] = 'd:RA;d:CR0' # RA,CR0: Rdest1_EXTRA3
+ res['1'] = 's:RS' # RS: Rsrc1_EXTRA3
+ elif regs == ['RS', '', '', 'RA', '', '']:
+ res['0'] = 'd:RA' # RA: Rdest1_EXTRA3
+ res['1'] = 's:RS' # RS: Rsrc1_EXTRA3
+ elif regs == ['', 'FRB', '', 'FRT', '0', 'CR1']:
+ res['0'] = 'd:FRT;d:CR1' # FRT,CR1: Rdest1_EXTRA3
+ res['1'] = 's:FRA' # FRA: Rsrc1_EXTRA3
+ elif regs == ['', 'FRB', '', '', '', 'CR1']:
+ res['0'] = 'd:CR1' # CR1: Rdest1_EXTRA3
+ res['1'] = 's:FRB' # FRA: Rsrc1_EXTRA3
+ elif regs == ['', 'FRB', '', '', '', 'BF']:
+ res['0'] = 'd:BF' # BF: Rdest1_EXTRA3
+ res['1'] = 's:FRB' # FRA: Rsrc1_EXTRA3
+ elif regs == ['', 'FRB', '', 'FRT', '', 'CR1']:
+ res['0'] = 'd:FRT;d:CR1' # FRT,CR1: Rdest1_EXTRA3
+ res['1'] = 's:FRB' # FRB: Rsrc1_EXTRA3
+ elif insn_name == 'fishmv':
+ # an overwrite instruction
+ res['0'] = 'd:FRS' # FRS: Rdest1_EXTRA3
+ res['1'] = 's:FRS' # FRS: Rsrc1_EXTRA3
+ elif insn_name == 'setvl':
+ res['0'] = 'd:RT' # RT: Rdest1_EXTRA3
+ res['1'] = 's:RA' # RS: Rsrc1_EXTRA3
+ else:
+ res['0'] = 'TODO'
+ print("regs TODO", insn_name, regs)
+
+ elif value == 'RM-1P-2S1D':
+ res['Etype'] = 'EXTRA3' # RM EXTRA3 type
+ if insn_name.startswith('cr'):
+ res['0'] = 'd:BT' # BT: Rdest1_EXTRA3
+ res['1'] = 's:BA' # BA: Rsrc1_EXTRA3
+ res['2'] = 's:BB' # BB: Rsrc2_EXTRA3
+ elif regs == ['FRA', '', 'FRC', 'FRT', '', 'CR1']:
+ res['0'] = 'd:FRT;d:CR1' # FRT,CR1: Rdest1_EXTRA3
+ res['1'] = 's:FRA' # FRA: Rsrc1_EXTRA3
+ res['2'] = 's:FRC' # FRC: Rsrc1_EXTRA3
+ # should be for fcmp
+ elif regs == ['FRA', 'FRB', '', '', '', 'BF']:
+ res['0'] = 'd:BF' # BF: Rdest1_EXTRA3
+ res['1'] = 's:FRA' # FRA: Rsrc1_EXTRA3
+ res['2'] = 's:FRB' # FRB: Rsrc1_EXTRA3
+ elif regs == ['FRA', 'FRB', '', 'FRT', '', '']:
+ res['0'] = 'd:FRT' # FRT: Rdest1_EXTRA3
+ res['1'] = 's:FRA' # FRA: Rsrc1_EXTRA3
+ res['2'] = 's:FRB' # FRB: Rsrc1_EXTRA3
+ elif regs == ['FRA', 'FRB', '', 'FRT', '', 'CR1']:
+ res['0'] = 'd:FRT;d:CR1' # FRT,CR1: Rdest1_EXTRA3
+ res['1'] = 's:FRA' # FRA: Rsrc1_EXTRA3
+ res['2'] = 's:FRB' # FRB: Rsrc1_EXTRA3
+ elif regs == ['FRA', 'RB', '', 'FRT', '', 'CR1']:
+ res['0'] = 'd:FRT;d:CR1' # FRT,CR1: Rdest1_EXTRA3
+ res['1'] = 's:FRA' # FRA: Rsrc1_EXTRA3
+ res['2'] = 's:RB' # RB: Rsrc1_EXTRA3
+ elif name == '2R-1W' or insn_name == 'cmpb': # cmpb
+ if insn_name in ['bpermd', 'cmpb']:
+ res['0'] = 'd:RA' # RA: Rdest1_EXTRA3
+ res['1'] = 's:RS' # RS: Rsrc1_EXTRA3
+ else:
+ res['0'] = 'd:RT' # RT: Rdest1_EXTRA3
+ res['1'] = 's:RA' # RA: Rsrc1_EXTRA3
+ res['2'] = 's:RB' # RB: Rsrc1_EXTRA3
+ elif insn_name.startswith('cmp'): # cmp
+ res['0'] = 'd:BF' # BF: Rdest1_EXTRA3
+ res['1'] = 's:RA' # RA: Rsrc1_EXTRA3
+ res['2'] = 's:RB' # RB: Rsrc1_EXTRA3
+ elif (regs == ['', 'RB', 'RS', 'RA', '', 'CR0'] or
+ regs == ['RS', 'RB', '', 'RA', '', 'CR0']):
+ res['0'] = 'd:RA;d:CR0' # RA,CR0: Rdest1_EXTRA3
+ res['1'] = 's:RB' # RB: Rsrc1_EXTRA3
+ res['2'] = 's:RS' # RS: Rsrc1_EXTRA3
+ elif regs == ['RA', 'RB', '', 'RT', '', 'CR0']:
+ res['0'] = 'd:RT;d:CR0' # RT,CR0: Rdest1_EXTRA3
+ res['1'] = 's:RA' # RA: Rsrc1_EXTRA3
+ res['2'] = 's:RB' # RB: Rsrc1_EXTRA3
+ elif regs == ['RA', '', 'RS', 'RA', '', 'CR0']:
+ res['0'] = 'd:RA;d:CR0' # RA,CR0: Rdest1_EXTRA3
+ res['1'] = 's:RA' # RA: Rsrc1_EXTRA3
+ res['2'] = 's:RS' # RS: Rsrc1_EXTRA3
+ else:
+ res['0'] = 'TODO'
+
+ elif value == 'RM-2P-2S1D':
+ res['Etype'] = 'EXTRA2' # RM EXTRA2 type
+ if insn_name.startswith('mt'): # mtcrf
+ res['0'] = 'd:CR' # CR: Rdest1_EXTRA2
+ res['1'] = 's:RS' # RS: Rsrc1_EXTRA2
+ res['2'] = 's:CR' # CR: Rsrc2_EXTRA2
+ else:
+ res['0'] = 'TODO'
+
+ elif value == 'RM-1P-3S1D':
+ res['Etype'] = 'EXTRA2' # RM EXTRA2 type
+ if regs == ['RA', 'RB', 'RC', 'RT', '', '']: # madd*
+ res['0'] = 'd:RT' # RT,CR0: Rdest1_EXTRA2
+ res['1'] = 's:RA' # RA: Rsrc1_EXTRA2
+ res['2'] = 's:RB' # RT: Rsrc2_EXTRA2
+ res['3'] = 's:RC' # RT: Rsrc3_EXTRA2
+ elif regs == ['RA', 'RB', 'RC', 'RT', '', 'CR0']: # pcdec
+ res['0'] = 'd:RT;d:CR0' # RT,CR0: Rdest1_EXTRA2
+ res['1'] = 's:RA' # RA: Rsrc1_EXTRA2
+ res['2'] = 's:RB' # RT: Rsrc2_EXTRA2
+ res['3'] = 's:RC' # RT: Rsrc3_EXTRA2
+ elif regs == ['RA', 'RB', 'RT', 'RT', '', 'CR0']: # overwrite 3-in
+ res['0'] = 'd:RT;d:CR0' # RT,CR0: Rdest1_EXTRA2
+ res['1'] = 's:RA' # RA: Rsrc1_EXTRA2
+ res['2'] = 's:RB' # RT: Rsrc2_EXTRA2
+ res['3'] = 's:RT' # RT: Rsrc3_EXTRA2
+ elif insn_name == 'isel':
+ res['0'] = 'd:RT' # RT: Rdest1_EXTRA2
+ res['1'] = 's:RA' # RA: Rsrc1_EXTRA2
+ res['2'] = 's:RB' # RT: Rsrc2_EXTRA2
+ res['3'] = 's:BC' # BC: Rsrc3_EXTRA2
+ else: # fmadd*
+ res['0'] = 'd:FRT;d:CR1' # FRT, CR1: Rdest1_EXTRA2
+ res['1'] = 's:FRA' # FRA: Rsrc1_EXTRA2
+ res['2'] = 's:FRB' # FRB: Rsrc2_EXTRA2
+ res['3'] = 's:FRC' # FRC: Rsrc3_EXTRA2
+
+ elif value == 'RM-1P-1D':
+ res['Etype'] = 'EXTRA3' # RM EXTRA3 type
+ if insn_name == 'svstep':
+ res['0'] = 'd:RT;d:CR0' # RT,CR0: Rdest1_EXTRA3
+ if insn_name == 'fmvis':
+ res['0'] = 'd:FRS' # FRS: Rdest1_EXTRA3
+
+ # HACK! thos should be RM-1P-1S butvthere is a bug with sv.bc
+ elif value == 'RM-2P-1S':
+ res['Etype'] = 'EXTRA3' # RM EXTRA3 type
+ if insn_name.startswith('bc'):
+ res['0'] = 's:BI' # BI: Rsrc1_EXTRA3
+
+
+def process_csvs(format):
+
+ print("# Draft SVP64 Power ISA register 'profile's")
+ print('')
+ print("this page is auto-generated, do not edit")
+ print("created by http://libre-soc.org/openpower/sv_analysis.py")
+ print('')
+
+ (csvs, csvs_svp64, primarykeys, bykey, insn_to_csv, insns,
+ dictkeys, immediates) = read_csvs()
+
# mapping to old SVPrefix "Forms"
mapsto = {'3R-1W-CRo': 'RM-1P-3S1D',
+ '3R-1W': 'RM-1P-3S1D',
'2R-1W-CRio': 'RM-1P-2S1D',
'2R-1W-CRi': 'RM-1P-3S1D',
'2R-1W-CRo': 'RM-1P-2S1D',
'1R-1W': 'RM-2P-1S1D',
'1R-1W-imm': 'RM-2P-1S1D',
'1R-CRo': 'RM-2P-1S1D',
- '1R-imm': 'non-SV',
+ '1R-imm': 'RM-1P-1S',
'1W-CRo': 'RM-1P-1D',
'1W': 'non-SV',
+ '1W-imm': 'RM-1P-1D',
'1W-CRi': 'RM-2P-1S1D',
'CRio': 'RM-2P-1S1D',
'CR=2R1W': 'RM-1P-2S1D',
- 'CRi': 'non-SV',
+ 'CRi': 'RM-2P-1S', # HACK, bc here, it should be 1P
'imm': 'non-SV',
'': 'non-SV',
'LDST-2R-imm': 'LDSTRM-2P-2S',
}
print("# map to old SV Prefix")
print('')
- print('[[!table data="""')
+ print('|internal key | public name |')
+ print('|----- | ---------- |')
for key in primarykeys:
name = keyname(dictkeys[key])
value = mapsto.get(name, "-")
print(tformat([name, value + " "]))
- print('"""]]')
+ print('')
print('')
print("# keys")
print('')
- print('[[!table data="""')
print(tformat(tablecols) + " imms | name |")
+ print(tformat([" - "] * (len(tablecols)+2)))
# print out the keys and the table from which they're derived
for key in primarykeys:
row += " %s | " % ("/".join(imms))
row += " %s |" % name
print(row)
- print('"""]]')
+ print('')
print('')
# print out, by remap name, all the instructions under that category
value = mapsto.get(name, "-")
print("## %s (%s)" % (name, value))
print('')
- print('[[!table data="""')
- print(tformat(['CSV', 'opcode', 'asm', 'form']))
+ print(tformat(['CSV', 'opcode', 'asm', 'flags', 'form']))
+ print(tformat(['---', '------', '---', '-----', '----']))
rows = bykey[key]
rows.sort()
for row in rows:
print(tformat(row))
- print('"""]]')
+ print('')
print('')
# for fname, csv in csvs.items():
# create a CSV file, per category, with SV "augmentation" info
# XXX note: 'out2' not added here, needs to be added to CSV files
# KEEP TRACK OF THESE https://bugs.libre-soc.org/show_bug.cgi?id=619
- csvcols = ['insn', 'CONDITIONS', 'Ptype', 'Etype', '0', '1', '2', '3']
+ csvcols = ['insn', 'mode', 'CONDITIONS', 'Ptype', 'Etype', 'SM']
+ csvcols += ['0', '1', '2', '3']
csvcols += ['in1', 'in2', 'in3', 'out', 'CR in', 'CR out'] # temporary
for key in primarykeys:
# get the decoded key containing row-analysis, and name/value
# if row[idx] == 'NONE':
# row[idx] = ''
# get the instruction
- print(key, row)
+ #print(key, row)
insn_name = row[2]
condition = row[3]
insn = insns[(insn_name, condition)]
+
# start constructing svp64 CSV row
res = OrderedDict()
res['insn'] = insn_name
if insn['upd'] == '1': # LD/ST with update has RA as out2
res['out2'] = 'RA'
- # temporary useful info
- regs = []
- for k in ['in1', 'in2', 'in3', 'out', 'CR in', 'CR out']:
- if insn[k].startswith('CONST'):
- res[k] = ''
- regs.append('')
+ # set the SVP64 mode to NORMAL, LDST, BRANCH or CR
+ crops = ['mfcr', 'mfocrf', 'mtcrf', 'mtocrf',
+ ]
+ mode = 'NORMAL'
+ if value.startswith('LDST'):
+ if 'x' in insn_name: # Indexed detection
+ mode = 'LDST_IDX'
else:
- res[k] = insn[k]
- if insn[k] == 'RA_OR_ZERO':
- regs.append('RA')
- elif insn[k] != 'NONE':
- regs.append(insn[k])
- else:
- regs.append('')
-
- print("regs", insn_name, regs)
-
- # for LD/ST FP, use FRT/FRS not RT/RS, and use CR1 not CR0
- if insn_name.startswith("lf"):
- dRT = 'd:FRT'
- dCR = 'd:CR1'
+ mode = 'LDST_IMM'
+ elif insn_name.startswith('bc'):
+ mode = 'BRANCH'
+ elif insn_name.startswith('cmp') or insn_name.startswith('cr') or insn_name in crops:
+ mode = 'CROP'
+ res['mode'] = mode
+
+ # create a register profile list (update res row as well)
+ regs = regs_profile(insn, res)
+
+ #print("regs", insn_name, regs)
+ extra_classifier(insn_name, value, name, res, regs)
+
+ # source-mask is hard to detect, it's part of RM-nn-nn.
+ # to make disassembler easier, create a yes/no decision here
+ # see https://libre-soc.org/openpower/sv/svp64/#extra_remap
+ # MASK_SRC
+ vstripped = value.replace("LDST", "")
+ if vstripped in ['RM-2P-1S1D', 'RM-2P-2S',
+ 'RM-2P-2S1D', 'RM-2P-1S2D', 'RM-2P-3S',
+ ]:
+ res['SM'] = 'EN'
else:
- dRT = 'd:RT'
- dCR = 'd:CR0'
- if insn_name.startswith("stf"):
- sRS = 's:FRS'
- dCR = 'd:CR1'
- else:
- sRS = 's:RS'
- dCR = 'd:CR0'
-
- # sigh now the fun begins. this isn't the sanest way to do it
- # but the patterns are pretty regular.
-
- if value == 'LDSTRM-2P-1S1D':
- res['Etype'] = 'EXTRA3' # RM EXTRA3 type
- res['0'] = dRT # RT: Rdest_EXTRA3
- res['1'] = 's:RA' # RA: Rsrc1_EXTRA3
-
- elif value == 'LDSTRM-2P-1S2D':
- res['Etype'] = 'EXTRA2' # RM EXTRA2 type
- res['0'] = dRT # RT: Rdest_EXTRA3
- res['1'] = 'd:RA' # RA: Rdest2_EXTRA2
- res['2'] = 's:RA' # RA: Rsrc1_EXTRA2
-
- elif value == 'LDSTRM-2P-2S':
- # stw, std, sth, stb
- res['Etype'] = 'EXTRA3' # RM EXTRA2 type
- res['0'] = sRS # RS: Rdest1_EXTRA2
- res['1'] = 's:RA' # RA: Rsrc1_EXTRA2
-
- elif value == 'LDSTRM-2P-2S1D':
- if 'st' in insn_name and 'x' not in insn_name: # stwu/stbu etc
- res['Etype'] = 'EXTRA2' # RM EXTRA2 type
- res['0'] = 'd:RA' # RA: Rdest1_EXTRA2
- res['1'] = sRS # RS: Rdsrc1_EXTRA2
- res['2'] = 's:RA' # RA: Rsrc2_EXTRA2
- elif 'st' in insn_name and 'x' in insn_name: # stwux
- res['Etype'] = 'EXTRA2' # RM EXTRA2 type
- res['0'] = 'd:RA' # RA: Rdest1_EXTRA2
- # RS: Rdest2_EXTRA2, RA: Rsrc1_EXTRA2
- res['1'] = sRS+'s:RA'
- res['2'] = 's:RB' # RB: Rsrc2_EXTRA2
- elif 'u' in insn_name: # ldux etc.
- res['Etype'] = 'EXTRA2' # RM EXTRA2 type
- res['0'] = dRT # RT: Rdest1_EXTRA2
- res['1'] = 'd:RA' # RA: Rdest2_EXTRA2
- res['2'] = 's:RB' # RB: Rsrc1_EXTRA2
- else:
- res['Etype'] = 'EXTRA2' # RM EXTRA2 type
- res['0'] = dRT # RT: Rdest1_EXTRA2
- res['1'] = 's:RA' # RA: Rsrc1_EXTRA2
- res['2'] = 's:RB' # RB: Rsrc2_EXTRA2
-
- elif value == 'LDSTRM-2P-3S':
- res['Etype'] = 'EXTRA2' # RM EXTRA2 type
- if 'cx' in insn_name:
- res['0'] = sRS+dCR # RS: Rsrc1_EXTRA2 CR0: dest
- else:
- res['0'] = sRS # RS: Rsrc1_EXTRA2
- res['1'] = 's:RA' # RA: Rsrc2_EXTRA2
- res['2'] = 's:RB' # RA: Rsrc3_EXTRA2
-
- elif value == 'RM-2P-1S1D':
- res['Etype'] = 'EXTRA3' # RM EXTRA3 type
- if insn_name == 'mtspr':
- res['0'] = 'd:SPR' # SPR: Rdest1_EXTRA3
- res['1'] = 's:RS' # RS: Rsrc1_EXTRA3
- elif insn_name == 'mfspr':
- res['0'] = 'd:RS' # RS: Rdest1_EXTRA3
- res['1'] = 's:SPR' # SPR: Rsrc1_EXTRA3
- elif name == 'CRio' and insn_name == 'mcrf':
- res['0'] = 'd:BF' # BFA: Rdest1_EXTRA3
- res['1'] = 's:BFA' # BFA: Rsrc1_EXTRA3
- elif 'mfcr' in insn_name or 'mfocrf' in insn_name:
- res['0'] = 'd:RT' # RT: Rdest1_EXTRA3
- res['1'] = 's:CR' # CR: Rsrc1_EXTRA3
- elif insn_name == 'setb':
- res['0'] = 'd:RT' # RT: Rdest1_EXTRA3
- res['1'] = 's:BFA' # BFA: Rsrc1_EXTRA3
- elif insn_name.startswith('cmp'): # cmpi
- res['0'] = 'd:BF' # BF: Rdest1_EXTRA3
- res['1'] = 's:RA' # RA: Rsrc1_EXTRA3
- elif regs == ['RA', '', '', 'RT', '', '']:
- res['0'] = 'd:RT' # RT: Rdest1_EXTRA3
- res['1'] = 's:RA' # RA: Rsrc1_EXTRA3
- elif regs == ['RA', '', '', 'RT', '', 'CR0']:
- res['0'] = 'd:RT;d:CR0' # RT,CR0: Rdest1_EXTRA3
- res['1'] = 's:RA' # RA: Rsrc1_EXTRA3
- elif (regs == ['RS', '', '', 'RA', '', 'CR0'] or
- regs == ['', '', 'RS', 'RA', '', 'CR0']):
- res['0'] = 'd:RA;d:CR0' # RA,CR0: Rdest1_EXTRA3
- res['1'] = 's:RS' # RS: Rsrc1_EXTRA3
- elif regs == ['RS', '', '', 'RA', '', '']:
- res['0'] = 'd:RA' # RA: Rdest1_EXTRA3
- res['1'] = 's:RS' # RS: Rsrc1_EXTRA3
- elif regs == ['', 'FRB', '', 'FRT', '0', 'CR1']:
- res['0'] = 'd:FRT;d:CR1' # FRT,CR1: Rdest1_EXTRA3
- res['1'] = 's:FRA' # FRA: Rsrc1_EXTRA3
- elif regs == ['', 'FRB', '', '', '', 'CR1']:
- res['0'] = 'd:CR1' # CR1: Rdest1_EXTRA3
- res['1'] = 's:FRB' # FRA: Rsrc1_EXTRA3
- elif regs == ['', 'FRB', '', '', '', 'BF']:
- res['0'] = 'd:BF' # BF: Rdest1_EXTRA3
- res['1'] = 's:FRB' # FRA: Rsrc1_EXTRA3
- elif regs == ['', 'FRB', '', 'FRT', '', 'CR1']:
- res['0'] = 'd:FRT;d:CR1' # FRT,CR1: Rdest1_EXTRA3
- res['1'] = 's:FRB' # FRB: Rsrc1_EXTRA3
- elif insn_name.startswith('bc'):
- res['0'] = 'd:BI' # BI: Rdest1_EXTRA3
- res['1'] = 's:BI' # BI: Rsrc1_EXTRA3
- else:
- res['0'] = 'TODO'
-
- elif value == 'RM-1P-2S1D':
- res['Etype'] = 'EXTRA3' # RM EXTRA3 type
- if insn_name.startswith('cr'):
- res['0'] = 'd:BT' # BT: Rdest1_EXTRA3
- res['1'] = 's:BA' # BA: Rsrc1_EXTRA3
- res['2'] = 's:BB' # BB: Rsrc2_EXTRA3
- elif regs == ['FRA', '', 'FRC', 'FRT', '', 'CR1']:
- res['0'] = 'd:FRT;d:CR1' # FRT,CR1: Rdest1_EXTRA3
- res['1'] = 's:FRA' # FRA: Rsrc1_EXTRA3
- res['2'] = 's:FRC' # FRC: Rsrc1_EXTRA3
- # should be for fcmp
- elif regs == ['FRA', 'FRB', '', '', '', 'BF']:
- res['0'] = 'd:BF' # BF: Rdest1_EXTRA3
- res['1'] = 's:FRA' # FRA: Rsrc1_EXTRA3
- res['2'] = 's:FRB' # FRB: Rsrc1_EXTRA3
- elif regs == ['FRA', 'FRB', '', 'FRT', '', '']:
- res['0'] = 'd:FRT' # FRT: Rdest1_EXTRA3
- res['1'] = 's:FRA' # FRA: Rsrc1_EXTRA3
- res['2'] = 's:FRB' # FRB: Rsrc1_EXTRA3
- elif regs == ['FRA', 'FRB', '', 'FRT', '', 'CR1']:
- res['0'] = 'd:FRT;d:CR1' # FRT,CR1: Rdest1_EXTRA3
- res['1'] = 's:FRA' # FRA: Rsrc1_EXTRA3
- res['2'] = 's:FRB' # FRB: Rsrc1_EXTRA3
- elif name == '2R-1W' or insn_name == 'cmpb': # cmpb
- if insn_name in ['bpermd', 'cmpb']:
- res['0'] = 'd:RA' # RA: Rdest1_EXTRA3
- res['1'] = 's:RS' # RS: Rsrc1_EXTRA3
- else:
- res['0'] = 'd:RT' # RT: Rdest1_EXTRA3
- res['1'] = 's:RA' # RA: Rsrc1_EXTRA3
- res['2'] = 's:RB' # RB: Rsrc1_EXTRA3
- elif insn_name.startswith('cmp'): # cmp
- res['0'] = 'd:BF' # BF: Rdest1_EXTRA3
- res['1'] = 's:RA' # RA: Rsrc1_EXTRA3
- res['2'] = 's:RB' # RB: Rsrc1_EXTRA3
- elif (regs == ['', 'RB', 'RS', 'RA', '', 'CR0'] or
- regs == ['RS', 'RB', '', 'RA', '', 'CR0']):
- res['0'] = 'd:RA;d:CR0' # RA,CR0: Rdest1_EXTRA3
- res['1'] = 's:RB' # RB: Rsrc1_EXTRA3
- res['2'] = 's:RS' # RS: Rsrc1_EXTRA3
- elif regs == ['RA', 'RB', '', 'RT', '', 'CR0']:
- res['0'] = 'd:RT;d:CR0' # RT,CR0: Rdest1_EXTRA3
- res['1'] = 's:RA' # RA: Rsrc1_EXTRA3
- res['2'] = 's:RB' # RB: Rsrc1_EXTRA3
- elif regs == ['RA', '', 'RS', 'RA', '', 'CR0']:
- res['0'] = 'd:RA;d:CR0' # RA,CR0: Rdest1_EXTRA3
- res['1'] = 's:RA' # RA: Rsrc1_EXTRA3
- res['2'] = 's:RS' # RS: Rsrc1_EXTRA3
- else:
- res['0'] = 'TODO'
-
- elif value == 'RM-2P-2S1D':
- res['Etype'] = 'EXTRA2' # RM EXTRA2 type
- if insn_name.startswith('mt'): # mtcrf
- res['0'] = 'd:CR' # CR: Rdest1_EXTRA2
- res['1'] = 's:RS' # RS: Rsrc1_EXTRA2
- res['2'] = 's:CR' # CR: Rsrc2_EXTRA2
- else:
- res['0'] = 'TODO'
-
- elif value == 'RM-1P-3S1D':
- res['Etype'] = 'EXTRA2' # RM EXTRA2 type
- if regs == ['RA', 'RB', 'RT', 'RT', '', 'CR0']:
- res['0'] = 'd:RT;d:CR0' # RT,CR0: Rdest1_EXTRA2
- res['1'] = 's:RA' # RA: Rsrc1_EXTRA2
- res['2'] = 's:RB' # RT: Rsrc2_EXTRA2
- res['3'] = 's:RT' # RT: Rsrc3_EXTRA2
- elif insn_name == 'isel':
- res['0'] = 'd:RT' # RT: Rdest1_EXTRA2
- res['1'] = 's:RA' # RA: Rsrc1_EXTRA2
- res['2'] = 's:RB' # RT: Rsrc2_EXTRA2
- res['3'] = 's:BC' # BC: Rsrc3_EXTRA2
- else:
- res['0'] = 'd:FRT;d:CR1' # FRT, CR1: Rdest1_EXTRA2
- res['1'] = 's:FRA' # FRA: Rsrc1_EXTRA2
- res['2'] = 's:FRB' # FRB: Rsrc2_EXTRA2
- res['3'] = 's:FRC' # FRC: Rsrc3_EXTRA2
-
- elif value == 'RM-1P-1D':
- res['Etype'] = 'EXTRA3' # RM EXTRA3 type
- if insn_name == 'svstep':
- res['0'] = 'd:RT;d:CR0' # RT,CR0: Rdest1_EXTRA2
-
+ res['SM'] = 'NO'
# add to svp64 csvs
# for k in ['in1', 'in2', 'in3', 'out', 'CR in', 'CR out']:
# del res[k]
# now write out the csv files
for value, csv in svp64.items():
+ if value == '-':
+ continue
+ from time import sleep
+ print("WARNING, filename '-' should NOT exist. instrs missing")
+ print("TODO: fix this (and put in the bugreport number here)")
+ sleep(2)
# print out svp64 tables by category
print("## %s" % value)
print('')
- print('[[!table format=csv file="openpower/isatables/%s.csv"]]' %
- value)
+ cols = csvcols + ['out2']
+ print(tformat(cols))
+ print(tformat([" - "] * (len(cols))))
+ for d in csv:
+ row = []
+ for k in cols:
+ row.append(d[k])
+ print(tformat(row))
print('')
#csvcols = ['insn', 'Ptype', 'Etype', '0', '1', '2', '3']
pth = find_wiki_file("*.csv")
# Ignore those containing: valid test sprs
- for fname in glob(pth):
- print("post-checking", fname)
- _, name = os.path.split(fname)
- if '-' in name:
- continue
- if 'valid' in fname:
- continue
- if 'test' in fname:
- continue
- if fname.endswith('sprs.csv'):
- continue
- if fname.endswith('minor_19_valid.csv'):
- continue
- if 'RM' in fname:
- continue
+ for fname in glob_valid_csvs(pth):
svp64_csv = svt.get_svp64_csv(fname)
- csvcols = ['insn', 'Ptype', 'Etype']
+ csvcols = ['insn', 'mode', 'Ptype', 'Etype', 'SM']
csvcols += ['in1', 'in2', 'in3', 'out', 'out2', 'CR in', 'CR out']
- # and a nice microwatt VHDL file
- file_path = find_wiki_file("sv_decode.vhdl")
- with open(file_path, 'w') as vhdl:
- # autogeneration warning
- vhdl.write("-- this file is auto-generated, do not edit\n")
- vhdl.write("-- http://libre-soc.org/openpower/sv_analysis.py\n")
- vhdl.write("-- part of Libre-SOC, sponsored by NLnet\n")
- vhdl.write("\n")
-
- # first create array types
- lens = {'major': 63,
- 'minor_4': 63,
- 'minor_19': 7,
- 'minor_30': 15,
- 'minor_31': 1023,
- 'minor_58': 63,
- 'minor_59': 31,
- 'minor_62': 63,
- 'minor_63l': 511,
- 'minor_63h': 16,
- }
- for value, csv in csvs_svp64.items():
- # munge name
- value = value.lower()
- value = value.replace("-", "_")
- if value not in lens:
- todo = " -- TODO %s (or no SVP64 augmentation)\n"
- vhdl.write(todo % value)
- continue
- width = lens[value]
- typarray = " type sv_%s_rom_array_t is " \
- "array(0 to %d) of sv_decode_rom_t;\n"
- vhdl.write(typarray % (value, width))
-
- # now output structs
- sv_cols = ['sv_in1', 'sv_in2', 'sv_in3', 'sv_out', 'sv_out2',
- 'sv_cr_in', 'sv_cr_out']
- fullcols = csvcols + sv_cols
- hdr = "\n" \
- " constant sv_%s_decode_rom_array :\n" \
- " sv_%s_rom_array_t := (\n" \
- " -- %s\n"
- ftr = " others => sv_illegal_inst\n" \
- " );\n\n"
- for value, csv in csvs_svp64.items():
- # munge name
- value = value.lower()
- value = value.replace("-", "_")
- if value not in lens:
- continue
- vhdl.write(hdr % (value, value, " ".join(fullcols)))
- for entry in csv:
- insn = str(entry['insn'])
- condition = str(entry['CONDITIONS'])
- sventry = svt.svp64_instrs.get(insn, None)
- op = insns[(insn, condition)]['opcode']
- # binary-to-vhdl-binary
- if op.startswith("0b"):
- op = "2#%s#" % op[2:]
- row = []
- for colname in csvcols[1:]:
- re = entry[colname]
- # zero replace with NONE
- if re == '0':
- re = 'NONE'
- # 1/2 predication
- re = re.replace("1P", "P1")
- re = re.replace("2P", "P2")
- row.append(re)
- print("sventry", sventry)
- for colname in sv_cols:
- if sventry is None:
- re = 'NONE'
- else:
- re = sventry[colname]
- row.append(re)
- row = ', '.join(row)
- vhdl.write(" %13s => (%s), -- %s\n" % (op, row, insn))
- vhdl.write(ftr)
+ if format is Format.VHDL:
+ # and a nice microwatt VHDL file
+ file_path = find_wiki_file("sv_decode.vhdl")
+ elif format is Format.BINUTILS:
+ file_path = find_wiki_file("binutils.c")
+
+ with open(file_path, 'w') as stream:
+ output(format, svt, csvcols, insns, csvs_svp64, stream)
+
+
+def output_autogen_disclaimer(format, stream):
+ lines = (
+ "this file is auto-generated, do not edit",
+ "http://libre-soc.org/openpower/sv_analysis.py",
+ "part of Libre-SOC, sponsored by NLnet",
+ )
+ for line in format.wrap_comment(lines):
+ stream.write(line)
+ stream.write("\n")
+ stream.write("\n")
+
+
+def output(format, svt, csvcols, insns, csvs_svp64, stream):
+ lens = {
+ 'major': 63,
+ 'minor_4': 63,
+ 'minor_19': 7,
+ 'minor_30': 15,
+ 'minor_31': 1023,
+ 'minor_58': 63,
+ 'minor_59': 31,
+ 'minor_62': 63,
+ 'minor_63l': 511,
+ 'minor_63h': 16,
+ }
+
+ def svp64_canonicalize(item):
+ (value, csv) = item
+ value = value.lower().replace("-", "_")
+ return (value, csv)
+
+ csvs_svp64_canon = dict(map(svp64_canonicalize, csvs_svp64.items()))
+
+ # disclaimer
+ output_autogen_disclaimer(format, stream)
+
+ # declarations
+ for line in format.declarations(csvs_svp64_canon.keys(), lens):
+ stream.write(f"{line}\n")
+
+ # definitions
+ sv_cols = ['sv_in1', 'sv_in2', 'sv_in3', 'sv_out', 'sv_out2',
+ 'sv_cr_in', 'sv_cr_out']
+ fullcols = csvcols + sv_cols
+
+ entries_svp64 = defaultdict(list)
+ for (value, csv) in filter(lambda kv: kv[0] in lens, csvs_svp64_canon.items()):
+ for entry in csv:
+ insn = str(entry['insn'])
+ condition = str(entry['CONDITIONS'])
+ mode = str(entry['mode'])
+ sventry = svt.svp64_instrs.get(insn, None)
+ if sventry is not None:
+ sventry['mode'] = mode
+ op = insns[(insn, condition)]['opcode']
+ # binary-to-vhdl-binary
+ if op.startswith("0b"):
+ op = "2#%s#" % op[2:]
+ row = []
+ for colname in csvcols[1:]:
+ re = entry[colname]
+ # zero replace with NONE
+ if re == '0':
+ re = 'NONE'
+ # 1/2 predication
+ re = re.replace("1P", "P1")
+ re = re.replace("2P", "P2")
+ row.append(re)
+ #print("sventry", sventry)
+ for colname in sv_cols:
+ if sventry is None:
+ re = 'NONE'
+ else:
+ re = sventry[colname]
+ row.append(re)
+ entries_svp64[value].append((op, insn, row))
+
+ for line in format.definitions(entries_svp64, fullcols):
+ stream.write(f"{line}\n")
+
+
+def main():
+ import os
+ os.environ['SILENCELOG'] = '1'
+ parser = argparse.ArgumentParser()
+ parser.add_argument("-f", "--format",
+ type=Format, choices=Format, default=Format.VHDL,
+ help="format to be used (binutils or VHDL)")
+ args = parser.parse_args()
+ process_csvs(args.format)
if __name__ == '__main__':
- process_csvs()
+ # don't do anything other than call main() here, cuz this code is bypassed
+ # by the sv_analysis command created by setup.py
+ main()