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|
#!/usr/bin/env python3
# This code runs compatibly under Python 2 and 3.x for x >= 2.
# Preserve this property!
"""Generate AIS code from text file.
This tool is intended to automate away the drudgery in bring up support
for a new AIS message type. It parses the tabular description of a message
and generates various useful code snippets from that. It can also be used to
correct offsets in the tables themselves.
Requires the AIVDM.txt file on standard input. Takes a single argument,
which must match a string in a //: Type comment. Things you can generate:
* -t: A corrected version of the table. It will redo all the offsets to be
in conformance with the bit widths. (The other options rely only on the
bit widths). If the old and new tables are different, an error message
describing the corrections will be emitted to standard error.
* -s: A structure definition capturing the message info, with member
names extracted from the table and types computed from it.
* -c: Bit-extraction code for the AIVDM driver. Grind out the right sequence
of UBITS, SBITS, and UCHARS macros, and assignments to structure members,
guaranteed correct if the table offsets and widths are.
* -d: Code to dump the contents of the unpacked message structure as JSON. If
the structure has float members, you'll get an if/then/else guarded by
the scaled flag.
* -r: A Python initializer stanza for jsongen.py, which is in turn used to
generate the specification structure for a JSON parse that reads JSON
into an instance of the message structure.
* -a: Generate all of -s, -d, -c, and -r, and -t, not to stdout but to
files named with 'tablegen' as a distinguishing part of the stem.
The stem name can be overridden with the -o option.
This generates almost all the code required to support a new message type.
It's not quite "Look, ma, no handhacking!" You'll need to add default
values to the Python stanza. If the structure definition contains character
arrays, you'll have to fill in the dimensions by hand. You'll need to add
a bit of glue to ais_json.c so that json_ais_read() actually calls the parser
handing it the specification structure as a control argument.
The -a, -c, -s, -d, and -r modes all take an argument, which should be a
structure reference prefix to be prepended (before a dot) to each fieldname.
Usually you'll need this to look something like "ais->typeN", but it could be
"ais->typeN.FOO" if the generated code has to operate on a union member
inside a type 6 or 8, or something similar.
The -S and -E options allow you to generate code only for a specified span
of fields in the table. This may be useful for dealing with groups of
messages that have a common head section.
This code interprets magic comments in the input
//: Type
The token following "Type" is the name of the table
//: xxxx vocabulary
A subtable describing a controlled vocabulary for field xxxx in the
preceding table.
TO-DO: generate code for ais.py.
"""
from __future__ import absolute_import, print_function, division
import getopt
import sys
def correct_table(wfp):
"""Writes the corrected table."""
print("Total bits:", base, file=sys.stderr)
for (idx, t) in enumerate(table):
if offsets[idx].strip():
print("|" + offsets[idx] + t[owidth+1:].rstrip(), file=wfp)
else:
print(t.rstrip(), file=wfp)
def make_driver_code(wfp):
"""Writes calls to bit-extraction macros.
Requires UBITS, SBITS, UCHARS to act as they do in the AIVDM driver.
Also relies on bitlen to be the message bit length, and i to be
available as abn index variable."""
record = after is None
arrayname = None
lbase = '\t'
step = " " * 4
indent = lbase
last = 0
for (i, t) in enumerate(table):
if '|' in t:
filds = [s.strip() for s in t.split('|')]
width = filds[2]
name = filds[4]
ftype = filds[5]
if after == name:
record = True
continue
if before == name:
record = False
continue
if not record:
continue
if ftype == 'x':
print("\t/* skip %s bit%s */" % (width,
["", "s"][width > '1']), file=wfp)
continue
if ftype[0] == 'a':
arrayname = name
explicit = ftype[1] == '^'
print('#define ARRAY_BASE %s' % offsets[i].strip(), file=wfp)
print('#define ELEMENT_SIZE %s' % trailing, file=wfp)
if explicit:
lengthfield = last
print(indent + "for (i = 0; i < %s; i++) {" % lengthfield,
file=wfp)
else:
lengthfield = "n" + arrayname
print(indent + "for (i = 0; ARRAY_BASE + "
"(ELEMENT_SIZE*i) < bitlen; i++) {", file=wfp)
indent += step
print(indent + "int a = ARRAY_BASE + (ELEMENT_SIZE*i);",
file=wfp)
continue
offset = offsets[i].split('-')[0]
if arrayname:
target = "%s.%s[i].%s" % (structname, arrayname, name)
offset = "a + " + offset
else:
target = "%s.%s" % (structname, name)
if ftype[0].lower() in ('u', 'i', 'e'):
print(indent + "%s\t= %sBITS(%s, %s);" %
(target,
{'u': 'U', 'e': 'U', 'i': 'S'}[ftype[0].lower()],
offset, width), file=wfp)
elif ftype == 't':
print(indent + "UCHARS(%s, %s);" % (offset, target), file=wfp)
elif ftype == 'b':
print(indent + "%s\t= (bool)UBITS(%s, 1);" % (target, offset),
file=wfp)
else:
print(indent + "/* %s bits of type %s */" %
(width, ftype), file=wfp)
last = name
if arrayname:
indent = lbase
print(indent + "}", file=wfp)
if not explicit:
print(indent + "%s.%s = ind;" %
(structname, lengthfield), file=wfp)
print("#undef ARRAY_BASE", file=wfp)
print("#undef ELEMENT_SIZE", file=wfp)
def make_structure(wfp):
"""Write a structure definition corresponding to the table."""
global structname
record = after is None
last = 0
baseindent = 8
step = 4
inwards = step
arrayname = None
def tabify(n):
"""convert to tabs."""
return ('\t' * (n // 8)) + (" " * (n % 8))
print(tabify(baseindent) + "struct {", file=wfp)
for (i, t) in enumerate(table):
if '|' in t:
fields = [s.strip() for s in t.split('|')]
width = fields[2]
description = fields[3].strip()
name = fields[4]
ftype = fields[5]
if after == name:
record = True
continue
if before == name:
record = False
continue
if ftype == 'x' or not record:
continue
if ftype[0] == 'a':
arrayname = name
if ftype[1] == '^':
lengthfield = last
ftype = ftype[1:]
else:
lengthfield = "n%s" % arrayname
print(tabify(baseindent + inwards) +
"signed int %s;" % lengthfield, file=wfp)
if arrayname.endswith("s"):
typename = arrayname[:-1]
else:
typename = arrayname
print(tabify(baseindent + inwards) + "struct %s_t {" %
typename, file=wfp)
inwards += step
arraydim = ftype[1:]
continue
elif ftype == 'u' or ftype == 'e' or ftype[0] == 'U':
decl = "unsigned int %s;\t/* %s */" % (name, description)
elif ftype == 'i' or ftype[0] == 'I':
decl = "signed int %s;\t/* %s */" % (name, description)
elif ftype == 'b':
decl = "bool %s;\t/* %s */" % (name, description)
elif ftype == 't':
stl = int(width) // 6
decl = "char %s[%d+1];\t/* %s */" % (name, stl, description)
else:
decl = "/* %s bits of type %s */" % (width, ftype)
print(tabify(baseindent + inwards) + decl, file=wfp)
last = name
if arrayname:
inwards -= step
print(tabify(baseindent + inwards) + "} %s[%s];"
% (arrayname, arraydim), file=wfp)
if "->" in structname:
typename = structname.split("->")[1]
if "." in typename:
structname = structname.split(".")[1]
print(tabify(baseindent) + "} %s;" % typename, file=wfp)
def make_json_dumper(wfp):
"""Write the skeleton of a JSON dump corresponding to the table.
Also, if there are subtables, some initializers."""
last = 0
if subtables:
for (name, lines) in subtables:
wfp.write(" const char *%s_vocabulary[] = {\n" % name)
for ln in lines:
value = ln[1]
if value.endswith(" (default)"):
value = value[:-10]
wfp.write(' "%s",\n' % value)
wfp.write(" };\n")
wfp.write('#define DISPLAY_%s(n) (((n) < '
'(unsigned int)NITEMS(%s_vocabulary)) ? '
'%s_vocabulary[n] : "INVALID %s")\n' %
(name.upper(), name, name, name.upper()))
wfp.write("\n")
record = after is None
# Elements of each tuple type except 'a':
# 1. variable name,
# 2. unscaled printf format
# 3. wrapper for unscaled variable reference
# 4. scaled printf format
# 5. wrapper for scaled variable reference
# Elements of 'a' tuple:
# 1. Name of array field
# 2. None
# 3. None
# 4. None
# 5. Name of length field
tuples = []
vocabularies = [x[0] for x in subtables]
for (i, t) in enumerate(table):
if '|' in t:
fields = [s.strip() for s in t.split('|')]
name = fields[4]
ftype = fields[5]
if after == name:
record = True
continue
if before == name:
record = False
continue
if ftype == 'x' or not record:
continue
fmt = r'\"%s\":' % name
fmt_text = r'\"%s_text\":' % name
if ftype == 'u':
tuples.append((name,
fmt+"%u", "%s",
None, None))
elif ftype == 'e':
tuples.append((name,
fmt+"%u", "%s",
None, None))
if vocabularies:
this = vocabularies.pop(0)
ref = "DISPLAY_%s(%%s)" % (this.upper())
else:
ref = 'FOO[%s]'
tuples.append((name,
fmt_text+r"\"%s\"", ref,
None, None))
elif ftype == 'i':
tuples.append((name,
fmt+"%d", "%s",
None, None))
elif ftype == 't':
tuples.append((name,
fmt+r'\"%s\"', "%s",
None, None))
elif ftype == 'b':
tuples.append((name,
fmt+r'\"%s\"', "JSON_BOOL(%s)",
None, None))
elif ftype[0] == 'd':
print("Cannot generate code for data members", file=sys.stderr)
sys.exit(1)
elif ftype[0] == 'U':
tuples.append((name,
fmt+"%u", "%s",
fmt+"%%.%sf" % ftype[1], '%s / SCALE'))
elif ftype[0] == 'I':
tuples.append((name,
fmt+"%d", "%s",
fmt+"%%.%sf" % ftype[1], '%s / SCALE'))
elif ftype[0] == 'a':
ftype = ftype[1:]
if ftype[0] == '^':
lengthfield = last
else:
lengthfield = "n" + name
tuples.append((name, None, None, None, lengthfield))
else:
print("Unknown type code", ftype, file=sys.stderr)
sys.exit(1)
last = name
startspan = 0
def scaled(idx):
"""Check if scaled."""
return tuples[idx][3] is not None
def tslice(e, idx):
"""Missing docstring."""
return [x[idx] for x in tuples[startspan:e+1]]
lbase = " " * 8
step = " " * 4
inarray = None
header = "(void)snprintf(buf + strlen(buf), buflen - strlen(buf),"
for (i, (var, uf, uv, sf, sv)) in enumerate(tuples):
if uf is not None:
print(lbase + "for (i = 0; i < %s.%s; i++) {" % (structname, sv),
file=wfp)
inarray = var
lbase = " " * 12
startspan = i+1
continue
# At end of tuples, or if scaled flag changes, or if next op is array,
# flush out dump code for a span of fields.
if i+1 == len(tuples):
endit = '}",'
elif tuples[i+1][1] is not None:
endit = r',\"%s\":[",' % tuples[i+1][0]
elif scaled(i) != scaled(i + 1):
endit = ',",'
else:
endit = None
if endit:
if not scaled(i):
print(lbase + header, file=wfp)
if inarray:
prefix = '{"'
else:
prefix = '"'
print(lbase + step + prefix + ','.join(tslice(i, 1)) + endit,
file=wfp)
for (j, t) in enumerate(tuples[startspan:i+1]):
if inarray:
ref = structname + "." + inarray + "[i]." + t[0]
else:
ref = structname + "." + t[0]
wfp.write(lbase + step + t[2] % ref)
if j == i - startspan:
wfp.write(");\n")
else:
wfp.write(",\n")
else:
print(lbase + "if (scaled)", file=wfp)
print(lbase + step + header, file=wfp)
print(lbase + step * 2 + '"' + ','.join(tslice(i, 3)) + endit,
file=wfp)
for (j, t) in enumerate(tuples[startspan:i+1]):
if inarray:
ref = structname + "." + inarray + "[i]." + t[0]
else:
ref = structname + "." + t[0]
wfp.write(lbase + step*2 + t[4] % ref)
if j == i - startspan:
wfp.write(");\n")
else:
wfp.write(",\n")
print(lbase + "else", file=wfp)
print(lbase + step + header, file=wfp)
print(lbase + step * 2 + '"' + ','.join(tslice(i, 1)) + endit,
file=wfp)
for (j, t) in enumerate(tuples[startspan:i+1]):
if inarray:
ref = structname + "." + inarray + "[i]." + t[0]
else:
ref = structname + "." + t[0]
wfp.write(lbase + step*2 + t[2] % ref)
if j == i - startspan:
wfp.write(");\n")
else:
wfp.write(",\n")
startspan = i+1
# If we were looking at a trailing array, close scope
if inarray:
lbase = " " * 8
print(lbase + "}", file=wfp)
print(lbase + "if (buf[strlen(buf)-1] == ',')", file=wfp)
print(lbase + step + r"buf[strlen(buf)-1] = '\0';", file=wfp)
print(lbase + "(void)strlcat(buf, \"]}\", buflen - strlen(buf));",
file=wfp)
def make_json_generator(wfp):
"""Write a stanza for jsongen.py.in describing how to generate a
JSON parser initializer from this table. You need to fill in
__INITIALIZER__ and default values after this is generated."""
extra = ""
last = 0
arrayname = None
record = after is None
print('''\
{
"initname" : "__INITIALIZER__",
"headers": ("AIS_HEADER",),
"structname": "%s",
"fieldmap":(
# fieldname type default''' % (structname,), file=wfp)
for (i, t) in enumerate(table):
if '|' in t:
fields = [s.strip() for s in t.split('|')]
name = fields[4]
ftype = fields[5]
if after == name:
record = True
continue
if before == name:
record = False
continue
if ftype == 'x' or not record:
continue
if ftype[0] == 'a':
arrayname = name
if arrayname.endswith("s"):
typename = arrayname[:-1]
else:
typename = arrayname
readtype = 'array'
dimension = ftype[1:]
if dimension[0] == '^':
lengthfield = last
dimension = dimension[1:]
else:
lengthfield = "n" + arrayname
extra = " " * 8
print(" ('%s',%s 'array', (" %
(arrayname, " "*(10-len(arrayname))), file=wfp)
print(" ('%s_t', '%s', (" % (typename, lengthfield),
file=wfp)
else:
# Depends on the assumption that the read code
# always sees unscaled JSON.
readtype = {
'u': "uinteger",
'U': "uinteger",
'e': "uinteger",
'i': "integer",
'I': "integer",
'b': "boolean",
't': "string",
'd': "string",
}[ftype[0]]
typedefault = {
'u': "'PUT_DEFAULT_HERE'",
'U': "'PUT_DEFAULT_HERE'",
'e': "'PUT DEFAULT HERE'",
'i': "'PUT_DEFAULT_HERE'",
'I': "'PUT_DEFAULT_HERE'",
'b': "\'false\'",
't': "None",
}[ftype[0]]
namedefaults = {
"month": "'0'",
"day": "'0'",
"hour": "'24'",
"minute": "'60'",
"second": "'60'",
}
default = namedefaults.get(name) or typedefault
print(extra + " ('%s',%s '%s',%s %s)," %
(name, " "*(10-len(name)), readtype,
" "*(8-len(readtype)), default), file=wfp)
if ftype[0] == 'e':
print(extra + " ('%s_text',%s'ignore', None)," %
(name, " "*(6-len(name))), file=wfp)
last = name
if arrayname:
print(" )))),", file=wfp)
print(" ),", file=wfp)
print(" },", file=wfp)
if __name__ == '__main__':
try:
# FIXME: Convert to argparse
(options, arguments) = getopt.getopt(sys.argv[1:], "a:tc:s:d:S:E:r:o:")
except getopt.GetoptError as msg:
print("tablecheck.py: " + str(msg))
raise SystemExit(1)
generate = maketable = makestruct = makedump = readgen = doall = False
after = before = None
filestem = "tablegen"
for (switch, val) in options:
if switch == '-a':
doall = True
structname = val
elif switch == '-c':
generate = True
structname = val
elif switch == '-s':
makestruct = True
structname = val
elif switch == '-t':
maketable = True
elif switch == '-d':
makedump = True
structname = val
elif switch == '-r':
readgen = True
structname = val
elif switch == '-S':
after = val
elif switch == '-E':
before = val
elif switch == '-o':
filestem = val
if ((not generate and not maketable and not makestruct and
not makedump and not readgen and not doall)):
print("tablecheck.py: no mode selected", file=sys.stderr)
sys.exit(1)
# First, read in the table.
# Sets the following:
# table - the table lines
# widths - array of table widths
# ranges - array of table offsets
# trailing - bit length of the table or trailing array element
# subtables - list of following vocabulary tables.
tablename = arguments[0]
table = []
ranges = []
subtables = []
state = 0
for line in sys.stdin:
if state == 0 and line.startswith("//: Type") and tablename in line:
state = 1
continue
elif state == 1: # Found table tag
if line.startswith("|="):
state = 2
continue
elif state == 2: # Found table header
if line.startswith("|="):
state = 3
continue
elif line[0] == '|':
fields = line.split("|")
trailing = fields[1]
ranges.append(fields[1].strip())
fields[1] = " " * len(fields[1])
line = "|".join(fields)
else:
ranges.append('')
table.append(line)
continue
elif state == 3: # Found table end
state = 4
continue
elif state == 4: # Skipping until subsidiary table
if line.startswith("//:") and "vocabulary" in line:
subtable_name = line.split()[1]
subtable_content = []
state = 5
elif state == 5: # Seen subtable header
if line.startswith("|="):
state = 6
continue
elif state == 6: # Parsing subtable content
if line.startswith("|="):
subtables.append((subtable_name, subtable_content))
state = 4
continue
elif line[0] == '|':
subtable_content.append(
[f.strip() for f in line[1:].strip().split("|")])
continue
if state == 0:
print("Can't find named table.", file=sys.stderr)
sys.exit(1)
elif state < 3:
print("Ill-formed table (in state %d)." % state, file=sys.stderr)
sys.exit(1)
table = table[1:]
ranges = ranges[1:]
widths = []
for line in table:
fields = line.split('|')
if '|' not in line: # Continuation line
widths.append('')
elif fields[5][0] == 'a': # Array boundary indicator
widths.append(None)
else:
widths.append(fields[2].strip())
if '-' in trailing:
trailing = trailing.split('-')[1]
trailing = str(int(trailing)+1)
# Compute offsets for an AIVDM message breakdown, given the bit widths.
offsets = []
base = 0
corrections = False
for w in widths:
if w is None:
offsets.append(repr(base))
base = 0
elif w == '':
offsets.append('')
else:
w = int(w)
offsets.append("%d-%d" % (base, base + w - 1))
base += w
if [p for p in zip(ranges, offsets) if p[0] != p[1]]:
corrections = True
print("Offset corrections:")
for (old, new) in zip(ranges, offsets):
if old != new:
print(old, "->", new, file=sys.stderr)
owidth = max(*list(map(len, offsets)))
for (i, off) in enumerate(offsets):
offsets[i] += " " * (owidth - len(offsets[i]))
# Here's where we generate useful output.
if doall:
if corrections:
correct_table(open(filestem + ".txt", "w"))
make_driver_code(open(filestem + ".c", "w"))
make_structure(open(filestem + ".h", "w"))
make_json_dumper(open(filestem + "_json.c", "w"))
make_json_generator(open(filestem + ".py", "w"))
elif maketable:
correct_table(sys.stdout)
elif generate:
make_driver_code(sys.stdout)
elif makestruct:
make_structure(sys.stdout)
elif makedump:
make_json_dumper(sys.stdout)
elif readgen:
make_json_generator(sys.stdout)
# end
|
