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#!/usr/bin/env python
import sys,os,re
class Error(Exception):
pass
class ParseError(Error):
def __init__(self, errline):
Error.__init__(self, errline)
class Struct:
pass
def createCNameMap():
t = ''
for i in range(256):
if ((ord('A') <= i) and (i <= ord('Z'))) or \
((ord('a') <= i) and (i <= ord('z'))) or \
((ord('0') <= i) and (i <= ord('9'))):
t += chr(i)
else:
t += '_'
return t
def seekBegin(f):
while True:
line = f.readline()
if not line:
return False
if line.startswith('BEGIN SANE_Option_Descriptor'):
return True
def parseVerbatim(o, line):
words = line.split(None, 1)
if (len(words) < 2) or (words[1][0] != '@'):
return False
o[words[0]] = words[1]
return True
def parseLine_type(o, line):
words = line.split(None, 2)
otype = words[1]
o['type'] = 'SANE_TYPE_' + otype.upper()
if otype == 'group':
g.ngroups += 1
oname = '_group_%d' % g.ngroups
o['size'] = 0
else:
temp = words[2]
idx = temp.find('[')
if idx == -1:
oname = temp
o['size'] = 1
else:
oname = temp[0:idx]
o['size'] = int(temp[idx+1:-1])
o['name'] = oname
def parseLine_title(o, line):
o['title'] = line.split(None, 1)[1]
def parseLine_desc(o, line):
o['desc'] = line.split(None, 1)[1]
def parseLine_unit(o, line):
o['unit'] = 'SANE_UNIT_' + line.split(None, 1)[1].upper()
def parseLine_default(o, line):
o['default'] = line.split(None, 1)[1]
def parseLine_cap(o, line):
words = line.split()
o['cap'] = ['SANE_CAP_' + s.upper() for s in words[1:]]
def parseLine_constraint(o, line):
c = line.split(None,1)[1]
if c[0] == '{':
o['constraint'] = c[1:-1].split('|')
elif c[0] == '(':
o['constraint'] = tuple(c[1:-1].split(','))
else:
sys.stderr.write('Ignored: %s\n' % line)
def parseLine_info(o, line):
words = line.split()
o['info'] = ['SANE_INFO_' + s.upper() for s in words[1:]]
def parseLine_rem(o, line):
pass
def normalize(o):
if 'cname' not in o:
cname = o['name'].translate(cnameMap)
o['cname'] = cname
else:
cname = o['cname']
o['cname_opt'] = 'opt_' + cname
o['cname_con'] = 'constraint_' + cname
if 'title' not in o:
o['title'] = 'NO TITLE'
if 'desc' not in o:
o['desc'] = '@sod->title' % o
if 'unit' not in o:
o['unit'] = 'SANE_UNIT_NONE'
if 'constraint_type' not in o:
if 'constraint' not in o:
ct = 'SANE_CONSTRAINT_NONE'
elif isinstance(o['constraint'], list):
if o['type'] == 'SANE_TYPE_STRING':
ct = 'SANE_CONSTRAINT_STRING_LIST'
else:
ct = 'SANE_CONSTRAINT_WORD_LIST'
elif isinstance(o['constraint'], tuple):
ct = 'SANE_CONSTRAINT_RANGE'
elif isinstance(o['constraint'], str):
oc = o['constraint']
if oc.startswith('@range'):
ct = 'SANE_CONSTRAINT_RANGE'
elif oc.startswith('@word_list'):
ct = 'SANE_CONSTRAINT_WORD_LIST'
elif oc.startswith('@string_list'):
ct = 'SANE_CONSTRAINT_STRING_LIST'
o['constraint_type'] = ct
return o
def parseFile(f):
if not seekBegin(f):
return None
options = [ {
'name' : '',
'cname' : 'opt_num_opts',
'title' : '@SANE_TITLE_NUM_OPTIONS',
'desc' : '@SANE_DESC_NUM_OPTIONS',
'type' : 'SANE_TYPE_INT',
'unit' : 'SANE_UNIT_NONE',
'size' : 1,
'cap' : ['SANE_CAP_SOFT_DETECT'],
'constraint_type' : 'SANE_CONSTRAINT_NONE',
'default' : '@w = ' + opt_prefix + 'last'
} ]
o = {}
while True:
line = f.readline()
if not line:
break
line = line.strip()
if not line:
continue
token = line.split(None, 1)[0].lower()
if token == 'end':
break
if token == 'type':
if 'name' in o:
options.append(o)
o = {}
funcName = 'parseLine_' + token
if funcName in globals():
if not parseVerbatim(o, line):
func = globals()[funcName]
func(o, line)
else:
sys.stderr.write('Skip: %s\n' % line)
if 'name' in o:
options.append(o)
return [normalize(o) for o in options]
def genHeader(options):
print """
typedef union {
SANE_Word w;
SANE_Int i;
SANE_Bool b;
SANE_Fixed f;
SANE_String s;
void *ptr;
} option_value_t;
"""
print 'typedef enum {'
for o in options:
print ' %(cname_opt)s,' % o
print ' ' + opt_prefix + 'last'
print '} option_t;'
print """
typedef struct {
SANE_Option_Descriptor sod;
option_value_t val,def;
SANE_Word info;
} option_descriptor_t;
struct pixma_sane_t;
static int build_option_descriptors(struct pixma_sane_t *ss);
"""
def genMinMaxRange(n, t, r):
if t == 'SANE_TYPE_FIXED':
r = ['SANE_FIX(%s)' % x for x in r]
print 'static const SANE_Range ' + n + ' = '
print ' { ' + r[0] + ',' + r[1] + ',' + r[2] + ' };'
def genList(n, t, l):
if t == 'SANE_TYPE_INT':
etype = 'SANE_Word'
l = [str(len(l))] + l
elif t == 'SANE_TYPE_FIXED':
etype = 'SANE_Word'
l = [str(len(l))] + ['SANE_FIX(%s)' % x for x in l]
elif t == 'SANE_TYPE_STRING':
etype = 'SANE_String_Const'
l = ['SANE_I18N("%s")' % x for x in l] + ['NULL']
print 'static const %s %s[%d] = {' % (etype, n, len(l))
for x in l[0:-1]:
print '\t' + x + ','
print '\t' + l[-1] + ' };'
def genConstraints(options):
for o in options:
if 'constraint' not in o: continue
c = o['constraint']
oname = o['cname_con']
otype = o['type']
if isinstance(c, tuple):
genMinMaxRange(oname, otype, c)
elif isinstance(c, list):
genList(oname, otype, c)
print
def buildCodeVerbatim(o):
for f in ('name', 'title', 'desc', 'type', 'unit', 'size', 'cap',
'constraint_type', 'constraint', 'default'):
if (f not in o): continue
temp = o[f]
if (not isinstance(temp,str)) or \
(len(temp) < 1) or (temp[0] != '@'):
continue
o['code_' + f] = temp[1:]
def ccode(o):
buildCodeVerbatim(o)
if 'code_name' not in o:
o['code_name'] = '"' + o['name'] + '"'
for f in ('title', 'desc'):
cf = 'code_' + f
if cf in o: continue
o[cf] = 'SANE_I18N("' + o[f] + '")'
for f in ('type', 'unit', 'constraint_type'):
cf = 'code_' + f
if cf in o: continue
o[cf] = o[f]
if 'code_size' not in o:
otype = o['type']
osize = o['size']
if otype == 'SANE_TYPE_STRING':
code = str(osize + 1)
elif otype == 'SANE_TYPE_INT' or otype == 'SANE_TYPE_FIXED':
code = str(osize) + ' * sizeof(SANE_Word)'
elif otype == 'SANE_TYPE_BUTTON':
code = '0'
else:
code = 'sizeof(SANE_Word)'
o['code_size'] = code
if ('code_cap' not in o) and ('cap' in o):
o['code_cap'] = reduce(lambda a,b: a+'|'+b, o['cap'])
else:
o['code_cap'] = '0'
if ('code_info' not in o) and ('info' in o):
o['code_info'] = reduce(lambda a,b: a+'|'+b, o['info'])
else:
o['code_info'] = '0'
if ('code_default' not in o) and ('default' in o):
odefault = o['default']
otype = o['type']
if odefault == '_MIN':
rhs = 'w = sod->constraint.range->min'
elif odefault == '_MAX':
rhs = 'w = sod->constraint.range->max'
elif otype in ('SANE_TYPE_INT', 'SANE_TYPE_BOOL'):
rhs = 'w = %(default)s'
elif otype == 'SANE_TYPE_FIXED':
rhs = 'w = SANE_FIX(%(default)s)'
elif otype == 'SANE_TYPE_STRING':
rhs = 's = SANE_I18N("%(default)s")'
o['code_default'] = rhs % o
if 'code_default' in o:
code = ' opt->def.%(code_default)s;\n'
if o['constraint_type'] != 'SANE_CONSTRAINT_STRING_LIST':
code += ' opt->val.%(code_default)s;\n'
else:
code += ' opt->val.w = find_string_in_list' \
'(opt->def.s, sod->constraint.string_list);\n'
o['full_code_default'] = code % o
else:
o['full_code_default'] = ''
if ('code_constraint' not in o) and ('constraint' in o):
ct = o['constraint_type']
idx = len('SANE_CONSTRAINT_')
ctype = ct[idx:].lower()
if ctype == 'range':
rhs = '&%(cname_con)s' % o
else:
rhs = '%(cname_con)s' % o
o['code_constraint'] = ctype + ' = ' + rhs
if 'code_constraint' in o:
code = ' sod->constraint.%(code_constraint)s;\n'
o['full_code_constraint'] = code % o
else:
o['full_code_constraint'] = ''
return o
def genBuildOptions(options):
print """
static
int find_string_in_list(SANE_String_Const str, const SANE_String_Const *list)
{
int i;
for (i = 0; list[i] && strcmp(str, list[i]) != 0; i++) {}
return i;
}
static
int build_option_descriptors(struct pixma_sane_t *ss)
{
SANE_Option_Descriptor *sod;
option_descriptor_t *opt;
memset(OPT_IN_CTX, 0, sizeof(OPT_IN_CTX));"""
for o in options:
o = ccode(o)
otype = o['type']
code = '\n opt = &(OPT_IN_CTX[%(cname_opt)s]);\n' \
' sod = &opt->sod;\n' \
' sod->type = %(code_type)s;\n' \
' sod->title = %(code_title)s;\n' \
' sod->desc = %(code_desc)s;\n'
if otype != 'SANE_TYPE_GROUP':
code += ' sod->name = %(code_name)s;\n' \
' sod->unit = %(code_unit)s;\n' \
' sod->size = %(code_size)s;\n' \
' sod->cap = %(code_cap)s;\n' \
' sod->constraint_type = %(code_constraint_type)s;\n' \
'%(full_code_constraint)s' \
' OPT_IN_CTX[%(cname_opt)s].info = %(code_info)s;\n' \
'%(full_code_default)s'
sys.stdout.write(code % o)
print
print ' return 0;\n'
print '}'
print
g = Struct()
g.ngroups = 0
opt_prefix = 'opt_'
con_prefix = 'constraint_'
cnameMap = createCNameMap()
options = parseFile(sys.stdin)
print "/* Automatically generated from pixma_sane.c */"
if (len(sys.argv) == 2) and (sys.argv[1] == 'h'):
genHeader(options)
else:
genConstraints(options)
genBuildOptions(options)
|