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|
#!/usr/bin/env python
import sys
import os
sys.path.insert(0, os.path.normpath(os.path.join(__file__, '../../..')))
import struct
from random import randint, choice, seed
from Xlib.protocol import request, structs, rq, event
from Xlib import X
seed(42)
MINI_DEF = (('CARD8', 'reqType'),
('BYTE', 'pad'),
('CARD16', 'length'))
RESOURCE_DEF = (('CARD8', 'reqType'),
('BYTE', 'pad'),
('CARD16', 'length'),
('CARD32', 'id'))
def read_defs():
global request_defs, reply_defs, struct_defs
global mini_request_defs, resource_request_defs
global event_defs
request_defs = {}
mini_request_defs = {}
resource_request_defs = {}
reply_defs = {}
struct_defs = {}
event_defs = {}
for line in sys.stdin.readlines():
parts = line.strip().split()
fields = []
for f in parts[2:]:
fields.append(f.split(':'))
if parts[0] == 'REQUEST':
request_defs[parts[1]] = fields
elif parts[0] == 'MINIREQUEST':
mini_request_defs[parts[1]] = MINI_DEF
elif parts[0] == 'RESOURCEREQUEST':
resource_request_defs[parts[1]] = RESOURCE_DEF
elif parts[0] == 'REPLY':
reply_defs[parts[1]] = fields
elif parts[0] == 'STRUCT':
struct_defs[parts[1]] = fields
elif parts[0] == 'EVENT':
event_defs[parts[1]] = fields
def build():
if struct.unpack('BB', struct.pack('H', 0x0100))[0]:
endian = 'be'
else:
endian = 'le'
read_defs()
build_request(endian)
build_event(endian)
def build_request(endian):
fc = open('genrequest.c', 'w')
fc.write(C_HEADER)
reqlist = list(request.major_codes.items())
reqlist.sort(key=lambda x: x[0])
genfuncs = []
req_args = {}
reply_args = {}
for code, req in reqlist:
name = req.__name__
creqname = name
cdefs = request_defs.get(name)
if cdefs is None:
cdefs = mini_request_defs.get(name)
creqname = ''
if cdefs is None:
cdefs = resource_request_defs.get(name)
creqname = 'Resource'
creqname = 'x%sReq' % creqname
if cdefs is None:
sys.stderr.write('missing def for request: %s\n' % name)
else:
vardefs = request_var_defs.get(name, [()])
if type(vardefs) is not list:
vardefs = [vardefs]
i = 0
for v in vardefs:
if i > 0:
uname = name + str(i)
else:
uname = name
try:
req_args[uname] = gen_func(fc,
'genrequest_' + uname,
creqname,
'REQUEST ' + uname,
req._request,
cdefs,
v)
except:
sys.stderr.write('Error in %s request\n' % uname)
raise
genfuncs.append('genrequest_' + uname)
i = i + 1
if issubclass(req, rq.ReplyRequest):
cdefs = reply_defs.get(name)
if cdefs is None:
sys.stderr.write('missing def for reply: %s\n' % name)
else:
vardefs = reply_var_defs.get(name, ())
if type(vardefs) is not list:
vardefs = [vardefs]
i = 0
for v in vardefs:
if i > 0:
uname = name + str(i)
else:
uname = name
try:
reply_args[uname] = gen_func(fc,
'genreply_' + uname,
'x%sReply' % name,
'REPLY ' + uname,
req._reply,
cdefs,
v)
except:
sys.stderr.write('Error in %s reply\n' % uname)
raise
genfuncs.append('genreply_' + uname)
i = i + 1
fc.write('''
int main(void)
{
''')
for gf in genfuncs:
fc.write(' %s();\n' % gf)
fc.write('''
return 0;
}
''')
fc.close()
os.system('gcc -Wall -g genrequest.c -o genrequest')
req_bins = {}
reply_bins = {}
pc = os.popen('./genrequest', 'r')
for line in pc.readlines():
parts = line.strip().split()
if parts[0] == 'REQUEST':
req_bins[parts[1]] = parts[2]
elif parts[0] == 'REPLY':
reply_bins[parts[1]] = parts[2]
fpy = open('../test_requests_%s.py' % endian, 'w')
os.chmod('../test_requests_%s.py' % endian, 0o755)
if endian == 'be':
e = 'BigEndian'
v = 1
else:
e = 'LittleEndian'
v = 0
fpy.write(PY_HEADER % { 'endname': e, 'endvalue': v })
for code, req in reqlist:
name = req.__name__
fpy.write('\n\nclass Test%s(EndianTest):\n' % name)
fpy.write(' def setUp(self):\n')
i = 0
reqs = -1
replies = -1
while 1:
if i > 0:
uname = name + str(i)
else:
uname = name
reqbin = req_bins.get(uname)
replybin = reply_bins.get(uname)
if reqbin is None and replybin is None:
break
if reqbin:
reqs = i
fpy.write(' self.req_args_%d = %s\n'
% (i, build_args(req_args[uname])))
fpy.write(' self.req_bin_%d = %s\n\n'
% (i, build_bin(reqbin)))
if replybin:
replies = i
fpy.write(' self.reply_args_%d = %s\n'
% (i, build_args(reply_args[uname])))
fpy.write(' self.reply_bin_%d = %s\n\n'
% (i, build_bin(replybin)))
i = i + 1
for i in range(0, reqs + 1):
fpy.write('''
def testPackRequest%(n)d(self):
bin = request.%(req)s._request.to_binary(*(), **self.req_args_%(n)d)
self.assertBinaryEqual(bin, self.req_bin_%(n)d)
def testUnpackRequest%(n)d(self):
args, remain = request.%(req)s._request.parse_binary(self.req_bin_%(n)d, dummy_display, 1)
self.assertBinaryEmpty(remain)
self.assertEqual(args, self.req_args_%(n)d)
''' % { 'req': req.__name__, 'n': i })
for i in range(0, replies + 1):
fpy.write('''
def testPackReply%(n)d(self):
bin = request.%(req)s._reply.to_binary(*(), **self.reply_args_%(n)d)
self.assertBinaryEqual(bin, self.reply_bin_%(n)d)
def testUnpackReply%(n)d(self):
args, remain = request.%(req)s._reply.parse_binary(self.reply_bin_%(n)d, dummy_display, 1)
self.assertBinaryEmpty(remain)
self.assertEqual(args, self.reply_args_%(n)d)
''' % { 'req': req.__name__, 'n': i })
fpy.write('''
if __name__ == "__main__":
unittest.main()
''')
def build_event(endian):
fc = open('genevent.c', 'w')
fc.write(C_HEADER)
evtlist = list(event.event_class.items())
evtlist.sort(key=lambda x: x[0])
genfuncs = []
evt_args = {}
for code, evt in evtlist:
# skip events that does not subclass rq.Event immediately,
# since those are specializations of the more general ones we
# test.
if evt.__bases__ != (rq.Event, ):
continue
# special handling of KeymapNotify, since that
# event is so different
if evt == event.KeymapNotify:
evt_args['KeymapNotify'] = gen_func(fc,
'genevent_KeymapNotify',
'xKeymapEvent',
'EVENT KeymapNotify',
evt._fields,
(('BYTE', 'type'), ),
(31, ))
genfuncs.append('genevent_KeymapNotify')
continue
name = evt.__name__
cdefs = event_defs.get(name)
if cdefs is None:
sys.stderr.write('missing def for event: %s\n' % name)
else:
vardefs = event_var_defs.get(name, [()])
if type(vardefs) is not list:
vardefs = [vardefs]
i = 0
for v in vardefs:
if i > 0:
uname = name + str(i)
else:
uname = name
try:
evt_args[uname] = gen_func(fc,
'genevent_' + uname,
'xEvent',
'EVENT ' + uname,
evt._fields,
cdefs,
v)
except:
sys.stderr.write('Error in %s event\n' % uname)
raise
genfuncs.append('genevent_' + uname)
i = i + 1
fc.write('''
int main(void)
{
''')
for gf in genfuncs:
fc.write(' %s();\n' % gf)
fc.write('''
return 0;
}
''')
fc.close()
os.system('gcc -Wall -g genevent.c -o genevent')
evt_bins = {}
pc = os.popen('./genevent', 'r')
for line in pc.readlines():
parts = line.strip().split()
if parts[0] == 'EVENT':
evt_bins[parts[1]] = parts[2]
fpy = open('../test_events_%s.py' % endian, 'w')
os.chmod('../test_events_%s.py' % endian, 0o755)
if endian == 'be':
e = 'BigEndian'
v = 1
else:
e = 'LittleEndian'
v = 0
fpy.write(PY_HEADER % { 'endname': e, 'endvalue': v })
for code, evt in evtlist:
if evt.__bases__ != (rq.Event, ):
continue
name = evt.__name__
fpy.write('\n\nclass Test%s(EndianTest):\n' % name)
fpy.write(' def setUp(self):\n')
i = 0
evts = -1
while 1:
if i > 0:
uname = name + str(i)
else:
uname = name
evtbin = evt_bins.get(uname)
if evtbin is None:
break
evts = i
fpy.write(' self.evt_args_%d = %s\n'
% (i, build_args(evt_args[uname])))
fpy.write(' self.evt_bin_%d = %s\n\n'
% (i, build_bin(evtbin)))
i = i + 1
for i in range(0, evts + 1):
fpy.write('''
def testPack%(n)d(self):
bin = event.%(evt)s._fields.to_binary(*(), **self.evt_args_%(n)d)
self.assertBinaryEqual(bin, self.evt_bin_%(n)d)
def testUnpack%(n)d(self):
args, remain = event.%(evt)s._fields.parse_binary(self.evt_bin_%(n)d, dummy_display, 1)
self.assertBinaryEmpty(remain)
self.assertEqual(args, self.evt_args_%(n)d)
''' % { 'evt': evt.__name__, 'n': i })
fpy.write('''
if __name__ == "__main__":
unittest.main()
''')
def gen_func(fc, funcname, structname, outputname, pydef, cdef, vardefs):
fc.write('''void %s(void)
{
struct {
%s xstruct;
''' % (funcname, structname))
args = {}
varfs = {}
extra_vars = []
flags = None
# structure fields etc
i = 0
for f in pydef.var_fields:
#
# List of something
#
if isinstance(f, rq.List):
#
# List of short strings
#
if f.type is rq.Str:
vfstrings = vardefs[i]
vflen = 0
vfdata = ''
for s in vfstrings:
vflen = vflen + 1 + len(s)
vfdata = vfdata + chr(len(s)) + s
fc.write('unsigned char %s[%d];\n '
% (f.name, pad4(vflen)))
varfs[f.name] = ('memcpy(data.%s, %s, %d);'
% (f.name, cstring(vfdata), vflen),
len(vfstrings), 0)
args[f.name] = vfstrings
#
# List of scalars
#
elif isinstance(f.type, rq.ScalarObj) \
or isinstance(f.type, rq.ResourceObj):
vflen = vardefs[i]
if f.type.structcode == 'B':
rmin = 128
rmax = 255
deflen = pad4(vflen)
ctype = 'CARD8'
elif f.type.structcode == 'H':
rmin = 32768
rmax = 65536
deflen = vflen + vflen % 2
ctype = 'CARD16'
elif f.type.structcode == 'L':
rmin = 65536
rmax = 2147483646
deflen = vflen
ctype = 'CARD32'
else:
RuntimeError('oops: %s' % f.type.structcode)
def rand(x, rmin = rmin, rmax = rmax):
return randint(rmin, rmax)
vfdata = list(map(rand, range(0, vflen)))
#
# Special case for a few in-line coded lists
#
if structname in ('xGetKeyboardControlReply',
'xQueryKeymapReply',
'xKeymapEvent'):
extra_vars.append('%s %s_def[%d] = { %s };'
% (ctype, f.name, vflen,
', '.join(map(str, vfdata))))
varfs[f.name] = ('memcpy(data.xstruct.map, %s_def, sizeof(%s_def));'
% (f.name, f.name),
vflen, 0)
else:
fc.write('%s %s[%d];\n '
% (ctype, f.name, deflen))
extra_vars.append('%s %s_def[%d] = { %s };'
% (ctype, f.name, vflen,
', '.join(map(str, vfdata))))
varfs[f.name] = ('memcpy(data.%s, %s_def, sizeof(%s_def));'
% (f.name, f.name, f.name),
vflen, 0)
args[f.name] = vfdata
#
# Special handling of unique Host case
#
elif f.type is structs.Host:
pydata = [{ 'family': X.FamilyInternet,
'name': [ 34, 23, 178, 12 ] },
{ 'family': X.FamilyInternet,
'name': [ 130, 236, 254, 15 ] }, ]
cdata = []
for p in pydata:
cdata.append("{ { %d, 0, 4 }, { %d, %d, %d, %d } }"
% ((p['family'], ) + tuple(p['name'])))
fc.write('struct { xHostEntry e; CARD8 name[4]; } %s[2];\n ' % f.name)
extra_vars.append('struct { xHostEntry e; CARD8 name[4]; } %s_def[%d] = { %s };'
% (f.name, len(pydata),
', '.join(cdata)))
varfs[f.name] = ('memcpy(data.%s, %s_def, sizeof(%s_def));'
% (f.name, f.name, f.name),
len(pydata), 0)
args[f.name] = pydata
#
# List of structures
#
elif isinstance(f.type, rq.Struct):
vfname, vflen = vardefs[i]
vfdef = struct_defs[vfname]
pydata = []
defdata = []
for si in range(0, vflen):
d = []
for t, cf in vfdef:
if cf[:3] != 'pad':
d.append(gen_value(t))
pyd = {}
for sj in range(0, len(d)):
pyd[f.type.fields[sj].name] = d[sj]
pydata.append(pyd)
defdata.append('{ ' + ', '.join(map(str, d)) + ' }')
fc.write('x%s %s[%d];\n ' % (vfname, f.name, vflen))
extra_vars.append('x%s %s_def[%d] = { %s };'
% (vfname, f.name, vflen,
', '.join(defdata)))
varfs[f.name] = ('memcpy(data.%s, %s_def, sizeof(%s_def));'
% (f.name, f.name, f.name),
vflen, 0)
args[f.name] = pydata
#
# wide-char string
#
elif isinstance(f, rq.String16):
vfstr = vardefs[i]
vflen = len(vfstr)
fc.write('unsigned char %s[%d];\n ' %
(f.name, (vflen + vflen % 2) * 2))
s = ''
for c in vfstr:
s = s + '\0' + c
varfs[f.name] = ('memcpy(data.%s, %s, %d);'
% (f.name, cstring(s), vflen * 2),
vflen, 0)
args[f.name] = tuple(map(ord, vfstr))
#
# byte-char string
#
elif isinstance(f, (rq.String8, rq.Binary)):
vfstr = vardefs[i]
vflen = len(vfstr)
fc.write('unsigned char %s[%d];\n ' %
(f.name, (vflen + (4 - vflen % 4) % 4)))
varfs[f.name] = ('memcpy(data.%s, %s, %d);'
% (f.name, cstring(vfstr), vflen),
vflen, 0)
args[f.name] = vfstr
#
# List of optional values
#
elif isinstance(f, rq.ValueList):
vlcode = []
vlargs = {}
flags = 0
for vlf, flag in f.fields:
ctype, rmin, rmax, clen = structcode_defs[vlf.structcode]
fc.write('%s %s_%s;\n '
% (ctype, f.name, vlf.name))
if clen < 4:
fc.write('unsigned char %s_%s_pad[%d];\n '
% (f.name, vlf.name, 4 - clen))
if isinstance(vlf, rq.Set):
val = choice(vlf.values)
elif isinstance(vlf, rq.Bool):
val = choice((0, 1))
else:
val = randint(rmin, rmax)
vlargs[vlf.name] = val
vlcode.append('data.%s_%s = %d;' % (f.name, vlf.name, val))
flags = flags | flag
# vlcode.append('data.%s_flags = %d;' % (f.name, flags))
varfs[f.name] = (' '.join(vlcode), 0, 0)
args[f.name] = vlargs
#
# Text/font list, hardwire since they are so rare
#
elif isinstance(f, rq.TextElements8):
if isinstance(f, rq.TextElements16):
vfstr = b'\x02\x02\x10\x23\x00\x12\xff\x01\x02\x03\x04'
ret = [{'delta': 2, 'string': (0x1023, 0x0012)},
0x01020304]
else:
vfstr = b'\x03\x02zoo\xff\x01\x02\x03\x04\x02\x00ie'
ret = [{'delta': 2, 'string': 'zoo'},
0x01020304,
{ 'delta': 0, 'string': 'ie'}]
fc.write('unsigned char %s[%d];\n '
% (f.name, len(vfstr)))
varfs[f.name] = ('memcpy(data.%s, %s, %d);'
% (f.name, cstring(vfstr), len(vfstr)),
0, 0)
args[f.name] = ret
#
# Keyboard/modifier mappings
#
elif isinstance(f, rq.KeyboardMapping) \
or isinstance(f, rq.ModifierMapping):
if isinstance(f, rq.KeyboardMapping):
rmin = 0
rmax = 2147483646
length = 20
format = 3
ctype = 'CARD32'
else:
rmin = 0
rmax = 255
length = 8
format = 2
ctype = 'CARD8'
pydata = []
cdata = []
for i in range(0, length):
x = []
for j in range(0, format):
v = randint(rmin, rmax)
x.append(v)
cdata.append(str(v))
pydata.append(x)
fc.write('%s %s[%d];\n ' % (ctype, f.name, len(cdata)))
extra_vars.append('%s %s_def[%d] = { %s };'
% (ctype, f.name, len(cdata),
', '.join(cdata)))
varfs[f.name] = ('memcpy(data.%s, %s_def, sizeof(%s_def));'
% (f.name, f.name, f.name),
length, format)
args[f.name] = pydata
#
# property data
#
elif isinstance(f, rq.PropertyData):
format, data = vardefs[i]
length = len(data)
if format == 8:
ctype = 'CARD8'
clen = pad4(length)
cdata = cstring(data)
elif format == 16:
ctype = 'CARD16'
clen = length + length % 2
cdata = ', '.join(map(str, data))
elif format == 32:
ctype = 'CARD32'
clen = length
cdata = ', '.join(map(str, data))
if not isinstance(f, rq.FixedPropertyData):
fc.write('%s %s[%d];\n ' %
(ctype, f.name, clen))
extra_vars.append('%s %s_def[%d] = { %s };'
% (ctype, f.name, length, cdata))
if not isinstance(f, rq.FixedPropertyData):
varfs[f.name] = ('memcpy(data.%s, %s_def, sizeof(%s_def));'
% (f.name, f.name, f.name),
length, format)
else:
varfs[f.name] = ('assert(sizeof(%s_def) == 20); memcpy(data.xstruct.u.clientMessage.u.b.bytes, %s_def, sizeof(%s_def));'
% (f.name, f.name, f.name),
length, format)
args[f.name] = (format, data)
#
# Event
#
elif isinstance(f, rq.EventField):
ev = event.Expose(window = gen_value('CARD32'),
x = gen_value('CARD16'),
y = gen_value('CARD16'),
width = gen_value('CARD16'),
height = gen_value('CARD16'),
count = gen_value('CARD16'))
cdata = cstring(ev._binary)
# fc.write('unsigned char %s[32];\n ' % f.name)
extra_vars.append('unsigned char %s_def[32] = %s;'
% (f.name, cdata))
varfs[f.name] = ('memcpy(&data.xstruct.event, %s_def, sizeof(%s_def));'
% (f.name, f.name),
0, 0)
args[f.name] = ev
else:
raise RuntimeError('oops: %s.%s' % (funcname, f.name))
i = i + 1
fc.write('\n } data;\n')
for v in extra_vars:
fc.write(' %s\n' % v)
fc.write('''
memset(&data, 0, sizeof(data));
''')
pyi = 0
ci = 0
while ci < len(cdef):
try:
pyf = pydef.fields[pyi]
except IndexError:
pyf = None
cf = cdef[ci]
t, f = cf
pyi = pyi + 1
ci = ci + 1
if f[:3] == 'pad' or f[:6] == 'walign':
if not isinstance(pyf, rq.Pad):
pyi = pyi - 1
# special case for value list mask
elif (f == 'mask' or f == 'valueMask') and flags is not None:
fc.write(' data.xstruct.%s = %d;\n' % (f, flags))
elif isinstance(pyf, rq.ConstantField):
fc.write(' data.xstruct.%s = %d;\n' % (f, pyf.value))
elif isinstance(pyf, rq.RequestLength):
assert f == 'length'
fc.write(' assert(sizeof(data) % 4 == 0);\n')
fc.write(' data.xstruct.length = sizeof(data) / 4;\n')
elif isinstance(pyf, rq.ReplyLength):
assert f == 'length'
fc.write(' assert(sizeof(data) % 4 == 0);\n')
fc.write(' assert(sizeof(data) >= 32);\n')
fc.write(' data.xstruct.length = (sizeof(data) - 32) / 4;\n')
elif isinstance(pyf, rq.LengthOf):
fc.write(' data.xstruct.%s = %d;\n' % (f, varfs[pyf.name][1]))
elif isinstance(pyf, rq.OddLength):
fc.write(' data.xstruct.%s = %d;\n' % (f, varfs[pyf.name][1] % 2))
elif isinstance(pyf, rq.Format):
fc.write(' data.xstruct.%s = %d;\n' % (f, varfs[pyf.name][2]))
elif isinstance(pyf, rq.Set):
val = choice(pyf.values)
fc.write(' data.xstruct.%s = %d;\n' % (f, val))
args[pyf.name] = val
elif t == 'xCharInfo':
d = []
for ct, cf in struct_defs['CharInfo']:
if cf[:3] != 'pad':
d.append(gen_value(ct))
pyd = {}
for sj in range(0, len(d)):
pyd[pyf.type.fields[sj].name] = d[sj]
fc.write('{ %s def = { %s };\n '
% (t, ', '.join(map(str, d))))
fc.write('memcpy(&data.xstruct.%s, &def, sizeof(def)); }\n ' % f)
args[pyf.name] = pyd
else:
val = gen_value(t)
fc.write(' data.xstruct.%s = %d;\n' % (f, val))
args[pyf.name] = val
for code, length, format in varfs.values():
fc.write(' %s\n' % code);
fc.write('''
output("%s", &data, sizeof(data));
}
''' % outputname)
return args
def gen_value(t):
if t == 'INT8':
val = randint(-128, -1)
elif t == 'INT16':
val = randint(-32768, -256)
elif t == 'INT32':
val = randint(-2147483647, -65536)
elif t == 'CARD8' or t == 'BYTE':
val = randint(128, 255)
elif t == 'CARD16':
val = randint(256, 65535)
elif t == 'CARD32':
val = randint(65536, 2147483646)
elif t == 'BOOL':
val = randint(0, 1)
else:
raise RuntimeError('unknown type: %s' % t)
return val
def pad4(l):
return l + (4 - l % 4) % 4
def cstring(s):
if not isinstance(s, bytes):
s = s.encode('ascii')
return '"' + ''.join('\\x%x' % c for c in s) + '"'
def build_args(args):
kwlist = []
for kw, val in sorted(args.items(), key=lambda i: i[0]):
if isinstance(val, rq.Event):
members = list(val._data.keys())
members.remove('send_event')
kwlist.append(" '%s': event.%s(%s),\n" % (
kw, val.__class__.__name__,
', '.join('%s=%s' % (m, val._data[m])
for m in sorted(members)),
))
else:
kwlist.append(" '%s': %s,\n" % (kw, repr(val)))
return '{\n' + ''.join(kwlist) + ' }'
def build_bin(bin):
bins = []
for i in range(0, len(bin), 16):
bins.append(bin[i:i+16])
bins2 = []
for i in range(0, len(bins), 2):
try:
bins2.append("b'%s' b'%s'" % (bins[i], bins[i + 1]))
except IndexError:
bins2.append("b'%s'" % bins[i])
return ' \\\n '.join(bins2)
request_var_defs = {
'InternAtom': ('fuzzy_prop', ),
'ChangeProperty': [((8, b''), ),
((8, b'foo'), ),
((8, b'zoom'), ),
((16, []), ),
((16, [1, 2, 3]), ),
((16, [1, 2, 3, 4]), ),
((32, []), ),
((32, [1, 2, 3]), ) ],
'OpenFont': ('foofont', ),
'QueryTextExtents': ('foo', ),
'ListFonts': ('bhazr', ),
'ListFontsWithInfo': ('bhazr2', ),
'SetFontPath': [(['foo', 'bar', 'gazonk'], ),
([], ) ],
'SetDashes': (9, ),
'SetClipRectangles': [(('Rectangle', 2), ),
(('Rectangle', 0), ) ],
'PolyPoint': (('Point', 3), ),
'PolyLine': (('Point', 5), ),
'PolySegment': (('Segment', 1), ),
'PolyRectangle': (('Rectangle', 3), ),
'PolyArc': (('Arc', 3), ),
'FillPoly': (('Point', 3), ),
'PolyFillRectangle': (('Rectangle', 2), ),
'PolyFillArc': (('Arc', 1), ),
'PutImage': (b'\xe9\x10\xf2o\x7f{\xae-\xe6\x18\xce\x83', ),
'ImageText8': ('showme', ),
'ImageText16': ('showmore', ),
'AllocNamedColor': ('octarin', ),
'FreeColors': (17, ),
'StoreColors': (('ColorItem', 4), ),
'StoreNamedColor': ('blue', ),
'QueryColors': [(8, ), (0, ) ],
'LookupColor': ('octarin', ),
'QueryExtension': ('XTRA', ),
'ChangeHosts': (4, ),
'RotateProperties': (12, ),
'SetPointerMapping': (5, ),
}
reply_var_defs = {
'QueryTree': (7, ),
'GetAtomName': ('WM_CLASS', ),
'GetProperty': [((8, b''), ),
((8, b'foo'), ),
((8, b'zoom'), ),
((16, []), ),
((16, [1, 2, 3]), ),
((16, [1, 2, 3, 4]), ),
((32, []), ),
((32, [1, 2, 3]), ) ],
'ListProperties': (23, ),
'GetMotionEvents': (('Timecoord', 5), ),
'QueryKeymap': (32, ),
'QueryFont': (('FontProp', 1), ('CharInfo', 3)),
'ListFonts': (['fie', 'fuzzy', 'foozooom'], ),
'ListFontsWithInfo': (('FontProp', 1), 'fontfont'),
'GetFontPath': [(['path1', 'path2232'], ),
([], ) ],
'GetImage': (b'\xeb?:\xa7\xc6\x8b\xc2\x96o-S\xe6\xd6z6\x94\xd7v\xd2R.\xa2\xeaw\t\x13\x95\x85',),
'ListInstalledColormaps': (2, ),
'AllocColorCells': [(17, 3),
(0, 0) ],
'AllocColorPlanes': (4, ),
'QueryColors': (('rgb', 5), ),
'ListExtensions': (['XTRA', 'XTRA-II'], ),
'GetKeyboardControl': (32, ),
'GetPointerMapping': (5, ),
# '': (, ),
}
event_var_defs = {
'ClientMessage': [((8, b'01234567890123456789'), ),
((16, [1, 2, 3, 4, 5, 6, 7, 8, 9, 10]), ),
((32, [1, 2, 3, 4, 5]), ) ],
}
structcode_defs = {
'b': ('INT8', -128, -1, 1),
'B': ('CARD8', 128, 255, 1),
'h': ('INT16', -32768, -1, 2),
'H': ('CARD16', 32768, 65536, 2),
'l': ('INT32', -2147483647, -1, 4),
'L': ('CARD32', 65536, 2147483646, 4),
}
C_HEADER = r'''
#include <stdio.h>
#include <assert.h>
#include <ctype.h>
#include <string.h>
#include <X11/Xproto.h>
void output(char *name, void *data, int length)
{
unsigned char *d = (unsigned char *) data;
printf("%s ", name);
while (length-- > 0) {
if (0 && isgraph(*d))
putchar(*d);
else
printf("\\x%02x", *d);
d++;
}
putchar('\n');
}
'''
PY_HEADER = r'''#!/usr/bin/env python2
import sys, os
sys.path.insert(0, os.path.normpath(os.path.join(__file__, '../..')))
import unittest
from Xlib.protocol import request, event
from . import %(endname)sTest as EndianTest
from . import DummyDisplay
dummy_display = DummyDisplay()
'''
if __name__ == '__main__':
build()
|
