if pat1 != pat2:
print " Chirality Assignment Error!"
print pat1
print pat2
break
else:
pat = pat1
# print pat1
clean_pat = re.sub("<[^>]*>", "", pat)
source = ch.insert_pattern_string(clean_pat)
# print ch.pattern_get_string(source)
# print ch.pattern_get_string(m1)
if ch.match_1v1_b(source, m1) == 0:
print " Error: Pattern doesn't match with self!"
pat_isomer = string.replace(pat, "@@", "X")
pat_isomer = string.replace(pat_isomer, "@", "@@")
pat_isomer = string.replace(pat_isomer, "X", "@")
isomer = ch.insert_pattern_string(pat_isomer)
# if ch.match_1v1_b(isomer,m1)==1:
# if(res!='gly'):
# print " Error: Pattern matches the enatiomer"
pat_racemic = string.replace(pat, "@", "")
racemic = ch.insert_pattern_string(pat_racemic)
# print ch.pattern_get_string(source)
# print ch.pattern_get_string(isomer)
"OC(C)(H)N",
"CC(N)(H)O",
]
# S match tests
PIS = map(lambda x:ch.insert_pattern_string(x),IS)
TIS = map(lambda x:ch.insert_pattern_string(x),IS)
PXS = map(lambda x:ch.insert_pattern_string(x),XS)
TXS = map(lambda x:ch.insert_pattern_string(x),XS)
for a in range(0,len(PIS)):
for b in range(0,len(TIS)):
if not (ch.match_1v1_b(PIS[a],TIS[b]) == 1):
print "Error: PIS[%d],TIS[%d]"%(a,b)
for a in range(0,len(TIS)):
for b in range(0,len(TIS)):
if not (ch.match_1v1_b(TIS[a],TIS[b]) == 1):
print "Error: TIS[%d],TIS[%d]"%(a,b)
for a in range(0,len(PXS)):
for b in range(0,len(TXS)):
if not (ch.match_1v1_b(PXS[a],TXS[b]) == 1):
print "Error: PXS[%d],TXS[%d]"%(a,b)
for a in range(0,len(TXS)):
for b in range(0,len(TXS)):
if not (ch.match_1v1_b(TXS[a],TXS[b]) == 1):
if pat1!=pat2:
print " Chirality Assignment Error!"
print pat1
print pat2
break
else:
pat = pat1
# print pat1
clean_pat = re.sub("<[^>]*>","",pat)
source = ch.insert_pattern_string(clean_pat)
# print ch.pattern_get_string(source)
# print ch.pattern_get_string(m1)
if ch.match_1v1_b(source,m1)==0:
print " Error: Pattern doesn't match with self!"
pat_isomer = string.replace(pat,"@@","X")
pat_isomer = string.replace(pat_isomer,"@","@@")
pat_isomer = string.replace(pat_isomer,"X","@")
isomer = ch.insert_pattern_string(pat_isomer)
if ch.match_1v1_b(isomer,m1)==1:
if(res!='gly'):
print " Error: Pattern matches the enatiomer"
pat_racemic = string.replace(pat,"@","")
racemic = ch.insert_pattern_string(pat_racemic)
# print ch.pattern_get_string(source)
# print ch.pattern_get_string(isomer)
"NC(O)(H)C",
"OC(C)(H)N",
"CC(N)(H)O",
]
# S match tests
PIS = map(lambda x: ch.insert_pattern_string(x), IS)
TIS = map(lambda x: ch.insert_pattern_string(x), IS)
PXS = map(lambda x: ch.insert_pattern_string(x), XS)
TXS = map(lambda x: ch.insert_pattern_string(x), XS)
for a in range(0, len(PIS)):
for b in range(0, len(TIS)):
if not (ch.match_1v1_b(PIS[a], TIS[b]) == 1):
print "Error: PIS[%d],TIS[%d]" % (a, b)
for a in range(0, len(TIS)):
for b in range(0, len(TIS)):
if not (ch.match_1v1_b(TIS[a], TIS[b]) == 1):
print "Error: TIS[%d],TIS[%d]" % (a, b)
for a in range(0, len(PXS)):
for b in range(0, len(TXS)):
if not (ch.match_1v1_b(PXS[a], TXS[b]) == 1):
print "Error: PXS[%d],TXS[%d]" % (a, b)
for a in range(0, len(TXS)):
for b in range(0, len(TXS)):
if not (ch.match_1v1_b(TXS[a], TXS[b]) == 1):
