SetGlobas Translation - Most

Internal methods translations: read_keywords, check_keywords, print_keywords, read_potential Signed-off-by: Vitor Hideyoshi <vitor.h.n.batista@gmail.com>
2021-08-03 16:16:37 -03:00
parent 99b8ee17da
commit d9da04419a
3 changed files with 625 additions and 352 deletions
--- a/DPpack/MolHandling.py
+++ b/DPpack/MolHandling.py
@@ -20,10 +20,12 @@ class System:
 	def __init__(self):
 		
 		self.molecule = []
+		self.nmols = []

-	def add_molecule(self, m):
+	def add_type(self,nmols, m):
 		
 		self.molecule.append(m)
+		self.nmols = nmols

 	# Função que calcula a distância entre dois centros de massa
 	# e por se tratar de uma função de dois atomos não deve ser
@@ -192,6 +194,7 @@ class Molecule:
 		self.gradient = None			# Array Numpy
 		self.hessian = None				# Array Numpy
 		self.total_mass = 0
+		self.com = None

 	def add_atom(self, a):

@@ -210,7 +213,7 @@ class Molecule:
 		
 		com = com / total_mass
 		
-		return com
+		self.com = com

 	def center_of_mass_to_origin(self):
 	
@@ -477,4 +480,3 @@ class Atom:
 		self.eps = eps                  # Double
 		self.sig = sig                  # Double
 		self.mass = atommass[self.na]   # Double
-
--- a/DPpack/SetGlobals.py
+++ b/DPpack/SetGlobals.py
@@ -144,440 +144,440 @@ env = ["OMP_STACKSIZE"]
 ##  Functions to process the input files and store the values in the global variables   ##
 ##########################################################################################

-def read_keywords(infile):
-
-	try:
-		with open(infile) as fh:
-			controlfile = fh.readlines()
-	except EnvironmentError:
-		sys.exit("Error: cannot open file {}".format(infile))
-	
-	for line in controlfile:
-		
-		key, value = line.partition("=")[::2]  # Discards the '='
-		key = key.strip().lower()
-		if key in ('title', 'keywords'):
-			value = value.strip()
-		else:
-			value = value.split()
-		
-		####  Read the Diceplayer related keywords
-		if key in player and len(value) != 0:  ##  'value' is not empty!
-			
-			if key == 'qmprog' and value[0].lower() in ("g03", "g09", "g16", "molcas"):
-				player[key] = value[0].lower()
-			
-			elif key == 'opt' and value[0].lower() in ("yes", "no", "ts"):
-				player[key] = value[0].lower()
-			
-			#elif key == 'zipprog' and value[0].lower() in ("zip", "gzip", "bzip"):
-				#player[key] = value[0].lower()
-			
-			elif key in ('lps', 'ghosts') and value[0].lower() in ("yes", "no"):
-				player[key] = value[0].lower()
-			
-			elif key in ('readhessian', 'vdwforces') and value[0].lower() in ("yes", "no"):
-				player[key] = value[0].lower()
-			
-			elif key in ('maxcyc', 'initcyc', 'nprocs', 'altsteps', 'switchcyc'):
-				err = "Error: expected a positive integer for keyword {} in file {}".format(key, infile)
-				try:
-					new_value = int(value[0])
-					if new_value >= 1:
-						player[key] = new_value
-					elif key == 'altsteps' and new_value == 0:
-						player[key] = 0
-				except ValueError:
-					sys.exit(err)
-			
-			elif key == 'maxstep':  # Cannot be less than 0.01
-				err = "Error: expected a float greater than 0.01 for keyword {} in file {}".format(key, infile)
-				try:
-					new_value = float(value[0])
-					if new_value < 0.01:
-						sys.exit(err)
-					else:
-						player[key] = new_value
-				except ValueError:
-					sys.exit(err)
-					
-		####  Read the Dice related keywords
-		elif key in dice and len(value) != 0:  ##  'value' is not empty!
-			
-			if key == 'title':
-				dice[key] = value
-			
-			elif key in ('ljname', 'outname', 'progname'):
-				dice[key] = value[0]
-			
-			elif key in ('ncores', 'isave'):
-				err = "Error: expected a positive integer for keyword {} in file {}".format(key, infile)
-				if not value[0].isdigit():
-					sys.exit(err)
-				new_value = int(value[0])
-				if new_value >= 1:
-					dice[key] = new_value
-			
-			elif key in ('temp', 'press', 'dens'):  # Cannot be less than 1e-10
-				err = "Error: expected a positive float for keyword {} in file {}".format(key, infile)
-				try:
-					new_value = float(value[0])
-					if new_value < 1e-10:
-						sys.exit(err)
-					else:
-						dice[key] = new_value
-				except ValueError:
-					sys.exit(err)
-			
-			elif key == 'nmol':  # If defined, must be well defined (only positive integer values)
-				err = "Error: expected 1 to 4 positive integers for keyword {} in file {}".format(key, infile)
-				args = min(4, len(value))
-				for i in range(args):
-					if value[i].isdigit():
-						new_value = int(value[i])
-						if new_value < 1:
-							sys.exit(err)
-						else:
-							dice[key].append(new_value)
-					elif i == 0:
-						sys.exit(err)
-					else:
-						break
-			
-			elif key == 'nstep':  # If defined, must be well defined (only positive integer values)
-				err = "Error: expected 2 or 3 positive integers for keyword {} in file {}".format(key, infile)
-				if len(value) < 2:
-					sys.exit(err)
-				args = min(3, len(value))
-				for i in range(args):
-					if value[i].isdigit():
-						new_value = int(value[i])
-						if new_value < 1:
-							sys.exit(err)
-						else:
-							dice[key].append(new_value)
-					elif i < 2:
-						sys.exit(err)
-					else:
-						break
-		
-		####  Read the Gaussian related keywords
-		elif key in gaussian and len(value) != 0:  ##  'value' is not empty!
-			
-			if key == 'mem':  # Memory in MB (minimum of 100)
-				err = "Error: expected a positive integer for keyword {} in file {}".format(key, infile)
-				if not value[0].isdigit():
-					sys.exit(err)
-				new_value = int(value[0])
-				if new_value >= 100:
-					gaussian[key] = new_value
-			
-			elif key == 'keywords':
-				gaussian[key] = value
-			
-			elif key == 'chgmult':  # If defined, must be well defined (2 integer values)
-				err = "Error: expected 2 integers for keyword {} in file {}".format(key, infile)
-				if len(value) < 2:
-					sys.exit(err)
-				for i in range (2):
-					try:
-						gaussian[key][i] = int(value[i])
-					except ValueError:
-						sys.exit(err)
-			
-			elif key in ('level', 'chglevel'):
-				gaussian[key] = value[0]
-			
-			elif key in ('gmiddle', 'gbottom'):
-				gaussian[key] = value[0]
-			
-			elif key == 'pop' and value[0].lower() in ("chelpg", "mk", "nbo"):
-				gaussian[key] = value[0].lower()
-		
-		####  Read the Molcas related keywords
-		elif key in molcas and len(value) != 0:  ##  'value' is not empty!
-			
-			if key == 'root': # If defined, must be well defined (only positive integer values)
-				err = "Error: expected a positive integer for keyword {} in file {}".format(key, infile)
-				if not value[0].isdigit():
-					sys.exit(err)
-				new_value = int(value[0])
-				if new_value >= 1:
-					molcas[key] = new_value
-			
-			elif key in ('mbottom', 'orbfile'):
-				molcas[key] = value[0]
-			
-			elif key == 'basis':
-				molcas[key] = value[0]
-		
-		#### End
-	return
-
-
-
-def check_keywords(infile):
-	
-	min_steps = 20000
-	
-	if dice['ljname'] == None:
-		sys.exit("Error: 'ljname' keyword not specified in file {}".format(infile))
-	
-	if dice['outname'] == None:
-		sys.exit("Error: 'outname' keyword not specified in file {}".format(infile))
-	
-	if dice['dens'] == None:
-		sys.exit("Error: 'dens' keyword not specified in file {}".format(infile))
-	
-	if len(dice['nmol']) == 0:
-		sys.exit("Error: 'nmol' keyword not defined appropriately in file {}".format(infile))
-	
-	if len(dice['nstep']) == 0:
-		sys.exit("Error: 'nstep' keyword not defined appropriately in file {}".format(infile))
-	
-	## Check only if QM program is Gaussian:
-	if player['qmprog'] in ("g03", "g09", "g16"):
-		if gaussian['level'] == None:
-			sys.exit("Error: 'level' keyword not specified in file {}".format(infile))
-	
-		if gaussian['gmiddle'] != None:
-			if not os.path.isfile(gaussian['gmiddle']):
-				sys.exit("Error: file {} not found".format(gaussian['gmiddle']))
+# def read_keywords(infile):
+
+# 	try:
+# 		with open(infile) as fh:
+# 			controlfile = fh.readlines()
+# 	except EnvironmentError:
+# 		sys.exit("Error: cannot open file {}".format(infile))
+	
+# 	for line in controlfile:
+		
+# 		key, value = line.partition("=")[::2]  # Discards the '='
+# 		key = key.strip().lower()
+# 		if key in ('title', 'keywords'):
+# 			value = value.strip()
+# 		else:
+# 			value = value.split()
+		
+# 		####  Read the Diceplayer related keywords
+# 		if key in player and len(value) != 0:  ##  'value' is not empty!
+			
+# 			if key == 'qmprog' and value[0].lower() in ("g03", "g09", "g16", "molcas"):
+# 				player[key] = value[0].lower()
+			
+# 			elif key == 'opt' and value[0].lower() in ("yes", "no", "ts"):
+# 				player[key] = value[0].lower()
+			
+# 			#elif key == 'zipprog' and value[0].lower() in ("zip", "gzip", "bzip"):
+# 				#player[key] = value[0].lower()
+			
+# 			elif key in ('lps', 'ghosts') and value[0].lower() in ("yes", "no"):
+# 				player[key] = value[0].lower()
+			
+# 			elif key in ('readhessian', 'vdwforces') and value[0].lower() in ("yes", "no"):
+# 				player[key] = value[0].lower()
+			
+# 			elif key in ('maxcyc', 'initcyc', 'nprocs', 'altsteps', 'switchcyc'):
+# 				err = "Error: expected a positive integer for keyword {} in file {}".format(key, infile)
+# 				try:
+# 					new_value = int(value[0])
+# 					if new_value >= 1:
+# 						player[key] = new_value
+# 					elif key == 'altsteps' and new_value == 0:
+# 						player[key] = 0
+# 				except ValueError:
+# 					sys.exit(err)
+			
+# 			elif key == 'maxstep':  # Cannot be less than 0.01
+# 				err = "Error: expected a float greater than 0.01 for keyword {} in file {}".format(key, infile)
+# 				try:
+# 					new_value = float(value[0])
+# 					if new_value < 0.01:
+# 						sys.exit(err)
+# 					else:
+# 						player[key] = new_value
+# 				except ValueError:
+# 					sys.exit(err)
+					
+# 		####  Read the Dice related keywords
+# 		elif key in dice and len(value) != 0:  ##  'value' is not empty!
+			
+# 			if key == 'title':
+# 				dice[key] = value
+			
+# 			elif key in ('ljname', 'outname', 'progname'):
+# 				dice[key] = value[0]
+			
+# 			elif key in ('ncores', 'isave'):
+# 				err = "Error: expected a positive integer for keyword {} in file {}".format(key, infile)
+# 				if not value[0].isdigit():
+# 					sys.exit(err)
+# 				new_value = int(value[0])
+# 				if new_value >= 1:
+# 					dice[key] = new_value
+			
+# 			elif key in ('temp', 'press', 'dens'):  # Cannot be less than 1e-10
+# 				err = "Error: expected a positive float for keyword {} in file {}".format(key, infile)
+# 				try:
+# 					new_value = float(value[0])
+# 					if new_value < 1e-10:
+# 						sys.exit(err)
+# 					else:
+# 						dice[key] = new_value
+# 				except ValueError:
+# 					sys.exit(err)
+			
+# 			elif key == 'nmol':  # If defined, must be well defined (only positive integer values)
+# 				err = "Error: expected 1 to 4 positive integers for keyword {} in file {}".format(key, infile)
+# 				args = min(4, len(value))
+# 				for i in range(args):
+# 					if value[i].isdigit():
+# 						new_value = int(value[i])
+# 						if new_value < 1:
+# 							sys.exit(err)
+# 						else:
+# 							dice[key].append(new_value)
+# 					elif i == 0:
+# 						sys.exit(err)
+# 					else:
+# 						break
+			
+# 			elif key == 'nstep':  # If defined, must be well defined (only positive integer values)
+# 				err = "Error: expected 2 or 3 positive integers for keyword {} in file {}".format(key, infile)
+# 				if len(value) < 2:
+# 					sys.exit(err)
+# 				args = min(3, len(value))
+# 				for i in range(args):
+# 					if value[i].isdigit():
+# 						new_value = int(value[i])
+# 						if new_value < 1:
+# 							sys.exit(err)
+# 						else:
+# 							dice[key].append(new_value)
+# 					elif i < 2:
+# 						sys.exit(err)
+# 					else:
+# 						break
+		
+# 		####  Read the Gaussian related keywords
+# 		elif key in gaussian and len(value) != 0:  ##  'value' is not empty!
+			
+# 			if key == 'mem':  # Memory in MB (minimum of 100)
+# 				err = "Error: expected a positive integer for keyword {} in file {}".format(key, infile)
+# 				if not value[0].isdigit():
+# 					sys.exit(err)
+# 				new_value = int(value[0])
+# 				if new_value >= 100:
+# 					gaussian[key] = new_value
+			
+# 			elif key == 'keywords':
+# 				gaussian[key] = value
+			
+# 			elif key == 'chgmult':  # If defined, must be well defined (2 integer values)
+# 				err = "Error: expected 2 integers for keyword {} in file {}".format(key, infile)
+# 				if len(value) < 2:
+# 					sys.exit(err)
+# 				for i in range (2):
+# 					try:
+# 						gaussian[key][i] = int(value[i])
+# 					except ValueError:
+# 						sys.exit(err)
+			
+# 			elif key in ('level', 'chglevel'):
+# 				gaussian[key] = value[0]
+			
+# 			elif key in ('gmiddle', 'gbottom'):
+# 				gaussian[key] = value[0]
+			
+# 			elif key == 'pop' and value[0].lower() in ("chelpg", "mk", "nbo"):
+# 				gaussian[key] = value[0].lower()
+		
+# 		####  Read the Molcas related keywords
+# 		elif key in molcas and len(value) != 0:  ##  'value' is not empty!
+			
+# 			if key == 'root': # If defined, must be well defined (only positive integer values)
+# 				err = "Error: expected a positive integer for keyword {} in file {}".format(key, infile)
+# 				if not value[0].isdigit():
+# 					sys.exit(err)
+# 				new_value = int(value[0])
+# 				if new_value >= 1:
+# 					molcas[key] = new_value
+			
+# 			elif key in ('mbottom', 'orbfile'):
+# 				molcas[key] = value[0]
+			
+# 			elif key == 'basis':
+# 				molcas[key] = value[0]
+		
+# 		#### End
+# 	return
+
+
+
+# def check_keywords(infile):
+	
+# 	min_steps = 20000
+	
+# 	if dice['ljname'] == None:
+# 		sys.exit("Error: 'ljname' keyword not specified in file {}".format(infile))
+	
+# 	if dice['outname'] == None:
+# 		sys.exit("Error: 'outname' keyword not specified in file {}".format(infile))
+	
+# 	if dice['dens'] == None:
+# 		sys.exit("Error: 'dens' keyword not specified in file {}".format(infile))
+	
+# 	if len(dice['nmol']) == 0:
+# 		sys.exit("Error: 'nmol' keyword not defined appropriately in file {}".format(infile))
+	
+# 	if len(dice['nstep']) == 0:
+# 		sys.exit("Error: 'nstep' keyword not defined appropriately in file {}".format(infile))
+	
+# 	## Check only if QM program is Gaussian:
+# 	if player['qmprog'] in ("g03", "g09", "g16"):
+# 		if gaussian['level'] == None:
+# 			sys.exit("Error: 'level' keyword not specified in file {}".format(infile))
+	
+# 		if gaussian['gmiddle'] != None:
+# 			if not os.path.isfile(gaussian['gmiddle']):
+# 				sys.exit("Error: file {} not found".format(gaussian['gmiddle']))

-		if gaussian['gbottom'] != None:
-			if not os.path.isfile(gaussian['gbottom']):
-				sys.exit("Error: file {} not found".format(gaussian['gbottom']))
-		
-		if gaussian['pop'] != "chelpg" and (player['ghosts'] == "yes" or player['lps'] == "yes"):
-			sys.exit("Error: ghost atoms or lone pairs only available with 'pop = chelpg')")
+# 		if gaussian['gbottom'] != None:
+# 			if not os.path.isfile(gaussian['gbottom']):
+# 				sys.exit("Error: file {} not found".format(gaussian['gbottom']))
+		
+# 		if gaussian['pop'] != "chelpg" and (player['ghosts'] == "yes" or player['lps'] == "yes"):
+# 			sys.exit("Error: ghost atoms or lone pairs only available with 'pop = chelpg')")
 		
-		if gaussian['chglevel'] == None:
-			gaussian['chglevel'] = gaussian['level']
+# 		if gaussian['chglevel'] == None:
+# 			gaussian['chglevel'] = gaussian['level']
 	
-	## Check only if QM program is Molcas:
-	if player['qmprog'] == "molcas":
+# 	## Check only if QM program is Molcas:
+# 	if player['qmprog'] == "molcas":
 		
-		if molcas['mbottom'] == None:
-			sys.exit("Error: 'mbottom' keyword not specified in file {}".format(infile))
-		else:
-			if not os.path.isfile(molcas['mbottom']):
-				sys.exit("Error: file {} not found".format(molcas['mbottom']))
+# 		if molcas['mbottom'] == None:
+# 			sys.exit("Error: 'mbottom' keyword not specified in file {}".format(infile))
+# 		else:
+# 			if not os.path.isfile(molcas['mbottom']):
+# 				sys.exit("Error: file {} not found".format(molcas['mbottom']))
 		
-		if molcas['basis'] == None:
-			sys.exit("Error: 'basis' keyword not specified in file {}".format(infile))
+# 		if molcas['basis'] == None:
+# 			sys.exit("Error: 'basis' keyword not specified in file {}".format(infile))
 	
 	
-	if player['altsteps'] != 0:
+# 	if player['altsteps'] != 0:
 		
-		### Verifica se tem mais de 1 molecula QM
-		### (No futuro usar o RMSD fit para poder substituir todas as moleculas QM
-		### no arquivo outname.xy - Need to change the make_init_file!!)
-		if dice['nmol'][0] > 1:
-			sys.exit("Error: altsteps > 0 only possible with 1 QM molecule (nmol = 1 n2 n3 n4)")
+# 		### Verifica se tem mais de 1 molecula QM
+# 		### (No futuro usar o RMSD fit para poder substituir todas as moleculas QM
+# 		### no arquivo outname.xy - Need to change the make_init_file!!)
+# 		if dice['nmol'][0] > 1:
+# 			sys.exit("Error: altsteps > 0 only possible with 1 QM molecule (nmol = 1 n2 n3 n4)")
 					
-		# if not zero, altsteps cannot be less than min_steps
-		player['altsteps'] = max(min_steps, player['altsteps'])
-		# altsteps value is always the nearest multiple of 1000
-		player['altsteps'] = round(player['altsteps'] / 1000) * 1000
+# 		# if not zero, altsteps cannot be less than min_steps
+# 		player['altsteps'] = max(min_steps, player['altsteps'])
+# 		# altsteps value is always the nearest multiple of 1000
+# 		player['altsteps'] = round(player['altsteps'] / 1000) * 1000
 	
 	
-	for i in range(len(dice['nstep'])):
-		# nstep can never be less than min_steps
-		dice['nstep'][i] = max(min_steps, dice['nstep'][i])
-		# nstep values are always the nearest multiple of 1000
-		dice['nstep'][i] = round(dice['nstep'][i] / 1000) * 1000
+# 	for i in range(len(dice['nstep'])):
+# 		# nstep can never be less than min_steps
+# 		dice['nstep'][i] = max(min_steps, dice['nstep'][i])
+# 		# nstep values are always the nearest multiple of 1000
+# 		dice['nstep'][i] = round(dice['nstep'][i] / 1000) * 1000
 	
-	# isave must be between 100 and 2000
-	dice['isave'] = max(100, dice['isave'])
-	dice['isave'] = min(2000, dice['isave'])
-	# isave value is always the nearest multiple of 100
-	dice['isave'] = round(dice['isave'] / 100) * 100
+# 	# isave must be between 100 and 2000
+# 	dice['isave'] = max(100, dice['isave'])
+# 	dice['isave'] = min(2000, dice['isave'])
+# 	# isave value is always the nearest multiple of 100
+# 	dice['isave'] = round(dice['isave'] / 100) * 100
 		
-	return
+# 	return



-def print_keywords(fh):
+# def print_keywords(fh):
 	
-	fh.write("##########################################################################################\n"
-	         "#############               Welcome to DICEPLAYER version 1.0                #############\n"
-	         "##########################################################################################\n"
-	         "\n")
-	fh.write("Your python version is {}\n".format(sys.version))
-	fh.write("\n")
-	fh.write("Program started on {}\n".format(weekday_date_time()))
-	fh.write("\n")
-	fh.write("Environment variables:\n")
-	for var in env:
-		fh.write("{} = {}\n".format(var, 
-								   (os.environ[var] if var in os.environ else "Not set")))
+# 	fh.write("##########################################################################################\n"
+# 	         "#############               Welcome to DICEPLAYER version 1.0                #############\n"
+# 	         "##########################################################################################\n"
+# 	         "\n")
+# 	fh.write("Your python version is {}\n".format(sys.version))
+# 	fh.write("\n")
+# 	fh.write("Program started on {}\n".format(weekday_date_time()))
+# 	fh.write("\n")
+# 	fh.write("Environment variables:\n")
+# 	for var in env:
+# 		fh.write("{} = {}\n".format(var, 
+# 								   (os.environ[var] if var in os.environ else "Not set")))
 	
-	fh.write("\n==========================================================================================\n"
-	         "                         CONTROL variables being used in this run:\n"
-	         "------------------------------------------------------------------------------------------\n"
-	         "\n")
+# 	fh.write("\n==========================================================================================\n"
+# 	         "                         CONTROL variables being used in this run:\n"
+# 	         "------------------------------------------------------------------------------------------\n"
+# 	         "\n")

-	for key in sorted(player):
-		if player[key] != None:
-			if isinstance(player[key], list):
-				string = " ".join(str(x) for x in player[key])
-				fh.write("{} = {}\n".format(key, string))
-			else:	
-				fh.write("{} = {}\n".format(key, player[key]))
+# 	for key in sorted(player):
+# 		if player[key] != None:
+# 			if isinstance(player[key], list):
+# 				string = " ".join(str(x) for x in player[key])
+# 				fh.write("{} = {}\n".format(key, string))
+# 			else:	
+# 				fh.write("{} = {}\n".format(key, player[key]))
 	
-	fh.write("\n")
+# 	fh.write("\n")

-	fh.write("------------------------------------------------------------------------------------------\n"
-	         "                         DICE variables being used in this run:\n"
-	         "------------------------------------------------------------------------------------------\n"
-	         "\n")
+# 	fh.write("------------------------------------------------------------------------------------------\n"
+# 	         "                         DICE variables being used in this run:\n"
+# 	         "------------------------------------------------------------------------------------------\n"
+# 	         "\n")

-	for key in sorted(dice):
-		if dice[key] != None:
-			if isinstance(dice[key], list):
-				string = " ".join(str(x) for x in dice[key])
-				fh.write("{} = {}\n".format(key, string))
-			else:	
-				fh.write("{} = {}\n".format(key, dice[key]))
+# 	for key in sorted(dice):
+# 		if dice[key] != None:
+# 			if isinstance(dice[key], list):
+# 				string = " ".join(str(x) for x in dice[key])
+# 				fh.write("{} = {}\n".format(key, string))
+# 			else:	
+# 				fh.write("{} = {}\n".format(key, dice[key]))
 	
-	fh.write("\n")
+# 	fh.write("\n")
 	
-	if player['qmprog'] in ("g03", "g09", "g16"):
+# 	if player['qmprog'] in ("g03", "g09", "g16"):

-		fh.write("------------------------------------------------------------------------------------------\n"
-	             "                         GAUSSIAN variables being used in this run:\n"
-	             "------------------------------------------------------------------------------------------\n"
-	             "\n")
+# 		fh.write("------------------------------------------------------------------------------------------\n"
+# 	             "                         GAUSSIAN variables being used in this run:\n"
+# 	             "------------------------------------------------------------------------------------------\n"
+# 	             "\n")
 		
-		for key in sorted(gaussian):
-			if gaussian[key] != None:
-				if isinstance(gaussian[key], list):
-					string = " ".join(str(x) for x in gaussian[key])
-					fh.write("{} = {}\n".format(key, string))
-				else:	
-					fh.write("{} = {}\n".format(key, gaussian[key]))
-		
-		fh.write("\n")
-	
-	elif player['qmprog'] == "molcas":
-
-		fh.write("------------------------------------------------------------------------------------------\n"
-	             "                         MOLCAS variables being used in this run:\n"
-	             "------------------------------------------------------------------------------------------\n"
-	             "\n")
+# 		for key in sorted(gaussian):
+# 			if gaussian[key] != None:
+# 				if isinstance(gaussian[key], list):
+# 					string = " ".join(str(x) for x in gaussian[key])
+# 					fh.write("{} = {}\n".format(key, string))
+# 				else:	
+# 					fh.write("{} = {}\n".format(key, gaussian[key]))
+		
+# 		fh.write("\n")
+	
+# 	elif player['qmprog'] == "molcas":
+
+# 		fh.write("------------------------------------------------------------------------------------------\n"
+# 	             "                         MOLCAS variables being used in this run:\n"
+# 	             "------------------------------------------------------------------------------------------\n"
+# 	             "\n")
 		
-		for key in sorted(molcas):
-			if molcas[key] != None:
-				if isinstance(molcas[key], list):
-					string = " ".join(str(x) for x in molcas[key])
-					fh.write("{} = {}\n".format(key, string))
-				else:	
-					fh.write("{} = {}\n".format(key, molcas[key]))
-		
-		fh.write("\n")
-		
-	return
-
-
-
-def read_potential(infile): # Deve ser atualizado para o uso de 
-	
-	try:
-		with open(dice['ljname']) as file:
-			ljfile = file.readlines()
-	except EnvironmentError as err:
-		sys.exit(err)
-	
-	combrule = ljfile.pop(0).split()[0]
-	if combrule not in ("*", "+"):
-		sys.exit("Error: expected a '*' or a '+' sign in 1st line of file {}".format(dice['ljname']))
-	dice['combrule'] = combrule
-	
-	ntypes = ljfile.pop(0).split()[0]
-	if not ntypes.isdigit():
-		sys.exit("Error: expected an integer in the 2nd line of file {}".format(dice['ljname']))
-	ntypes = int(ntypes)
-	
-	if ntypes != len(dice['nmol']):
-		sys.exit("Error: number of molecule types in file {} must match that of 'nmol' keyword in file {}".format(
-		                                                          dice['ljname'], infile))
-	
-	line = 2
-	for i in range(ntypes):
-		line += 1
-		nsites = ljfile.pop(0).split()[0]
-		if not nsites.isdigit():
-			sys.exit("Error: expected an integer in line {} of file {}".format(line, dice['ljname']))
-		
-		nsites = int(nsites)
-		molecules.append([])
-		
-		for j in range(nsites):
-			line += 1
-			new_atom = ljfile.pop(0).split()
-			
-			if len(new_atom) < 8:
-				sys.exit("Error: expected at least 8 fields in line {} of file {}".format(line, dice['ljname']))
-			
-			molecules[i].append({})
-			
-			if not new_atom[0].isdigit():
-				sys.exit("Error: expected an integer in field 1, line {} of file {}".format(line, dice['ljname']))
-			molecules[i][j]['lbl'] = int(new_atom[0])
-			
-			if not new_atom[1].isdigit():
-				sys.exit("Error: expected an integer in field 2, line {} of file {}".format(line, dice['ljname']))
-			
-			atnumber = int(new_atom[1])
-			if atnumber == ghost_number and i == 0:  # Ghost atom not allowed in the QM molecule
-				sys.exit("Error: found a ghost atom in line {} of file {}".format(line, dice['ljname']))
-			molecules[i][j]['na'] = atnumber
-			
-			try:
-				molecules[i][j]['rx'] = float(new_atom[2])
-			except:
-				sys.exit("Error: expected a float in field 3, line {} of file {}".format(line, dice['ljname']))
-			
-			try:
-				molecules[i][j]['ry'] = float(new_atom[3])
-			except:
-				sys.exit("Error: expected a float in field 4, line {} of file {}".format(line, dice['ljname']))
-			
-			try:
-				molecules[i][j]['rz'] = float(new_atom[4])
-			except:
-				sys.exit("Error: expected a float in field 5, line {} of file {}".format(line, dice['ljname']))
-			
-			try:
-				molecules[i][j]['chg'] = float(new_atom[5])
-			except:
-				sys.exit("Error: expected a float in field 6, line {} of file {}".format(line, dice['ljname']))
-			
-			try:
-				molecules[i][j]['eps'] = float(new_atom[6])
-			except:
-				sys.exit("Error: expected a float in field 7, line {} of file {}".format(line, dice['ljname']))
-			
-			try:
-				molecules[i][j]['sig'] = float(new_atom[7])
-			except:
-				sys.exit("Error: expected a float in field 8, line {} of file {}".format(line, dice['ljname']))
-			
-			molecules[i][j]['mass'] = atommass[molecules[i][j]['na']]
-			
-			if len(new_atom) > 8:
-				masskey, mass = new_atom[8].partition("=")[::2]
-				if masskey.lower() == 'mass' and len(mass) !=0:
-					try:
-						new_mass = float(mass)
-						if new_mass > 0:
-							molecules[i][j]['mass'] = new_mass
-					except:
-						sys.exit(
-						"Error: expected a positive float after 'mass=' in field 9, line {} of file {}".format(
-						                                                                  line, dice['ljname']))
-	
-	return
+# 		for key in sorted(molcas):
+# 			if molcas[key] != None:
+# 				if isinstance(molcas[key], list):
+# 					string = " ".join(str(x) for x in molcas[key])
+# 					fh.write("{} = {}\n".format(key, string))
+# 				else:	
+# 					fh.write("{} = {}\n".format(key, molcas[key]))
+		
+# 		fh.write("\n")
+		
+# 	return
+
+
+
+# def read_potential(infile): # Deve ser atualizado para o uso de 
+	
+# 	try:
+# 		with open(dice['ljname']) as file:
+# 			ljfile = file.readlines()
+# 	except EnvironmentError as err:
+# 		sys.exit(err)
+	
+# 	combrule = ljfile.pop(0).split()[0]
+# 	if combrule not in ("*", "+"):
+# 		sys.exit("Error: expected a '*' or a '+' sign in 1st line of file {}".format(dice['ljname']))
+# 	dice['combrule'] = combrule
+	
+# 	ntypes = ljfile.pop(0).split()[0]
+# 	if not ntypes.isdigit():
+# 		sys.exit("Error: expected an integer in the 2nd line of file {}".format(dice['ljname']))
+# 	ntypes = int(ntypes)
+	
+# 	if ntypes != len(dice['nmol']):
+# 		sys.exit("Error: number of molecule types in file {} must match that of 'nmol' keyword in file {}".format(
+# 		                                                          dice['ljname'], infile))
+	
+# 	line = 2
+# 	for i in range(ntypes):
+# 		line += 1
+# 		nsites = ljfile.pop(0).split()[0]
+# 		if not nsites.isdigit():
+# 			sys.exit("Error: expected an integer in line {} of file {}".format(line, dice['ljname']))
+		
+# 		nsites = int(nsites)
+# 		molecules.append([])
+		
+# 		for j in range(nsites):
+# 			line += 1
+# 			new_atom = ljfile.pop(0).split()
+			
+# 			if len(new_atom) < 8:
+# 				sys.exit("Error: expected at least 8 fields in line {} of file {}".format(line, dice['ljname']))
+			
+# 			molecules[i].append({})
+			
+# 			if not new_atom[0].isdigit():
+# 				sys.exit("Error: expected an integer in field 1, line {} of file {}".format(line, dice['ljname']))
+# 			molecules[i][j]['lbl'] = int(new_atom[0])
+			
+# 			if not new_atom[1].isdigit():
+# 				sys.exit("Error: expected an integer in field 2, line {} of file {}".format(line, dice['ljname']))
+			
+# 			atnumber = int(new_atom[1])
+# 			if atnumber == ghost_number and i == 0:  # Ghost atom not allowed in the QM molecule
+# 				sys.exit("Error: found a ghost atom in line {} of file {}".format(line, dice['ljname']))
+# 			molecules[i][j]['na'] = atnumber
+			
+# 			try:
+# 				molecules[i][j]['rx'] = float(new_atom[2])
+# 			except:
+# 				sys.exit("Error: expected a float in field 3, line {} of file {}".format(line, dice['ljname']))
+			
+# 			try:
+# 				molecules[i][j]['ry'] = float(new_atom[3])
+# 			except:
+# 				sys.exit("Error: expected a float in field 4, line {} of file {}".format(line, dice['ljname']))
+			
+# 			try:
+# 				molecules[i][j]['rz'] = float(new_atom[4])
+# 			except:
+# 				sys.exit("Error: expected a float in field 5, line {} of file {}".format(line, dice['ljname']))
+			
+# 			try:
+# 				molecules[i][j]['chg'] = float(new_atom[5])
+# 			except:
+# 				sys.exit("Error: expected a float in field 6, line {} of file {}".format(line, dice['ljname']))
+			
+# 			try:
+# 				molecules[i][j]['eps'] = float(new_atom[6])
+# 			except:
+# 				sys.exit("Error: expected a float in field 7, line {} of file {}".format(line, dice['ljname']))
+			
+# 			try:
+# 				molecules[i][j]['sig'] = float(new_atom[7])
+# 			except:
+# 				sys.exit("Error: expected a float in field 8, line {} of file {}".format(line, dice['ljname']))
+			
+# 			molecules[i][j]['mass'] = atommass[molecules[i][j]['na']]
+			
+# 			if len(new_atom) > 8:
+# 				masskey, mass = new_atom[8].partition("=")[::2]
+# 				if masskey.lower() == 'mass' and len(mass) !=0:
+# 					try:
+# 						new_mass = float(mass)
+# 						if new_mass > 0:
+# 							molecules[i][j]['mass'] = new_mass
+# 					except:
+# 						sys.exit(
+# 						"Error: expected a positive float after 'mass=' in field 9, line {} of file {}".format(
+# 						                                                                  line, dice['ljname']))
+	
+# 	return



--- a/DPpack/SetGlobalsClass.py
+++ b/DPpack/SetGlobalsClass.py
@@ -2,14 +2,21 @@ import os, sys
 import shutil
 import textwrap

+from DPpack.MolHandling import *
 from DPpack.PTable import *
 from DPpack.Misc import *

+env = ["OMP_STACKSIZE"]
+
+bohr2ang = 0.52917721092
+ang2bohr = 1/bohr2ang
+
 class Internal:

 	def __init__(self, infile):

 		self.infile = infile
+		self.system = System()

 		self.player = self.Player()
 		self.player_keywords = [a for a in dir(self.player) if not a.startswith('__') and not callable(getattr(self.player, a))]
@@ -20,8 +27,8 @@ class Internal:
 		self.gaussian = self.Gaussian()
 		self.gaussian_keywords = [a for a in dir(self.gaussian) if not a.startswith('__') and not callable(getattr(self.gaussian, a))]

-		self.molcas = self.Molcas()
-		self.molcas_keywords = [a for a in dir(self.molcas) if not a.startswith('__') and not callable(getattr(self.molcas, a))]
+		# self.molcas = self.Molcas()
+		# self.molcas_keywords = [a for a in dir(self.molcas) if not a.startswith('__') and not callable(getattr(self.molcas, a))]

 		## Constanst that shall be set for global use

@@ -189,7 +196,7 @@ class Internal:
 			elif key in self.molcas_keywords and len(value) != 0:  ##  'value' is not empty!
 				
 				if key == 'root': # If defined, must be well defined (only positive integer values)
-					err = "Error: expected a positive integer for keyword {} in file {}".format(key, infile)
+					err = "Error: expected a positive integer for keyword {} in file {}".format(key, self.infile)
 					if not value[0].isdigit():
 						sys.exit(err)
 					new_value = int(value[0])
@@ -204,12 +211,276 @@ class Internal:
 			
 			#### End

+		
+	def check_keywords(self):
+		
+		min_steps = 20000
+		
+		if self.dice.ljname == None:
+			sys.exit("Error: 'ljname' keyword not specified in file {}".format(self.infile))
+		
+		if self.dice.outname == None:
+			sys.exit("Error: 'outname' keyword not specified in file {}".format(self.infile))
+		
+		if self.dice.dens == None:
+			sys.exit("Error: 'dens' keyword not specified in file {}".format(self.infile))
+		
+		if len(self.dice.nmol) == 0:
+			sys.exit("Error: 'nmol' keyword not defined appropriately in file {}".format(self.infile))
+		
+		if len(self.dice.nstep) == 0:
+			sys.exit("Error: 'nstep' keyword not defined appropriately in file {}".format(self.infile))
+		
+		## Check only if QM program is Gaussian:
+		if self.player.qmprog in ("g03", "g09", "g16"):
+
+			if self.gaussian.level == None:
+				sys.exit("Error: 'level' keyword not specified in file {}".format(self.infile))
+		
+			if self.gaussian.gmiddle != None:
+				if not os.path.isfile(self.gaussian.gmiddle):
+					sys.exit("Error: file {} not found".format(self.gaussian.gmiddle))
+
+			if self.gaussian.gbottom != None:
+				if not os.path.isfile(self.gaussian.gbottom):
+					sys.exit("Error: file {} not found".format(self.gaussian.gbottom))
+			
+			if self.gaussian.pop != "chelpg" and (self.player.ghosts == "yes" or self.player.lps == "yes"):
+				sys.exit("Error: ghost atoms or lone pairs only available with 'pop = chelpg')")
+			
+			if self.gaussian.chglevel == None:
+				self.gaussian.chglevel = self.gaussian.level
+		
+		## Check only if QM program is Molcas:
+		# if self.player.qmprog == "molcas":
+			
+		# 	if self.molcas.mbottom == None:
+		# 		sys.exit("Error: 'mbottom' keyword not specified in file {}".format(self.infile))
+		# 	else:
+		# 		if not os.path.isfile(self.molcas.mbottom):
+		# 			sys.exit("Error: file {} not found".format(self.molcas.mbottom))
+			
+		# 	if self.molcas.basis == None:
+		# 		sys.exit("Error: 'basis' keyword not specified in file {}".format(self.infile))
+		
+		
+		if self.player.altsteps != 0:
+			
+			### Verifica se tem mais de 1 molecula QM
+			### (No futuro usar o RMSD fit para poder substituir todas as moleculas QM
+			### no arquivo outname.xy - Need to change the make_init_file!!)
+			if self.dice.nmol[0] > 1:
+				sys.exit("Error: altsteps > 0 only possible with 1 QM molecule (nmol = 1 n2 n3 n4)")
+						
+			# if not zero, altsteps cannot be less than min_steps
+			self.player.altsteps = max(min_steps, self.player.altsteps)
+			# altsteps value is always the nearest multiple of 1000
+			self.player.altsteps = round(self.player.altsteps / 1000) * 1000
+		
+		
+		for i in range(len(self.dice.nstep)):
+			# nstep can never be less than min_steps
+			self.dice.nstep[i] = max(min_steps, self.dice.nstep[i])
+			# nstep values are always the nearest multiple of 1000
+			self.dice.nstep[i] = round(self.dice.nstep[i] / 1000) * 1000
+		
+		# isave must be between 100 and 2000
+		self.dice.isave = max(100, self.dice.isave)
+		self.dice.isave = min(2000, self.dice.isave)
+		# isave value is always the nearest multiple of 100
+		self.dice.isave = round(self.dice.isave / 100) * 100
+
+	def print_keywords(self, fh):
+		
+		fh.write("##########################################################################################\n"
+				"#############               Welcome to DICEPLAYER version 1.0                #############\n"
+				"##########################################################################################\n"
+				"\n")
+		fh.write("Your python version is {}\n".format(sys.version))
+		fh.write("\n")
+		fh.write("Program started on {}\n".format(weekday_date_time()))
+		fh.write("\n")
+		fh.write("Environment variables:\n")
+		for var in env:
+			fh.write("{} = {}\n".format(var, 
+									(os.environ[var] if var in os.environ else "Not set")))
+		
+		fh.write("\n==========================================================================================\n"
+				"                         CONTROL variables being used in this run:\n"
+				"------------------------------------------------------------------------------------------\n"
+				"\n")
+
+		for key in sorted(self.player_keywords):
+			if getattr(self.player,key) != None:
+				if isinstance(getattr(self.player,key), list):
+					string = " ".join(str(x) for x in getattr(self.player,key))
+					fh.write("{} = {}\n".format(key, string))
+				else:	
+					fh.write("{} = {}\n".format(key, getattr(self.player,key)))
+		
+		fh.write("\n")
+
+		fh.write("------------------------------------------------------------------------------------------\n"
+				"                         DICE variables being used in this run:\n"
+				"------------------------------------------------------------------------------------------\n"
+				"\n")
+
+		for key in sorted(self.dice_keywords):
+			if getattr(self.dice,key) != None:
+				if isinstance(getattr(self.dice,key), list):
+					string = " ".join(str(x) for x in getattr(self.dice,key))
+					fh.write("{} = {}\n".format(key, string))
+				else:	
+					fh.write("{} = {}\n".format(key, getattr(self.dice,key)))
+		
+		fh.write("\n")
+		
+		if self.player.qmprog in ("g03", "g09", "g16"):
+
+			fh.write("------------------------------------------------------------------------------------------\n"
+					"                         GAUSSIAN variables being used in this run:\n"
+					"------------------------------------------------------------------------------------------\n"
+					"\n")
+			
+			for key in sorted(self.gaussian_keywords):
+				if getattr(self.gaussian,key) != None:
+					if isinstance(getattr(self.gaussian,key), list):
+						string = " ".join(str(x) for x in getattr(self.gaussian,key))
+						fh.write("{} = {}\n".format(key, string))
+					else:	
+						fh.write("{} = {}\n".format(key, getattr(self.gaussian,key)))
+			
+			fh.write("\n")
+		
+		# elif self.player.qmprog == "molcas":
+
+		# 	fh.write("------------------------------------------------------------------------------------------\n"
+		# 			"                         MOLCAS variables being used in this run:\n"
+		# 			"------------------------------------------------------------------------------------------\n"
+		# 			"\n")
+			
+		# 	for key in sorted(molcas):
+		# 		if molcas[key] != None:
+		# 			if isinstance(molcas[key], list):
+		# 				string = " ".join(str(x) for x in molcas[key])
+		# 				fh.write("{} = {}\n".format(key, string))
+		# 			else:	
+		# 				fh.write("{} = {}\n".format(key, molcas[key]))
+			
+		# 	fh.write("\n")
+
+	def read_potential(self): # Deve ser atualizado para o uso de 
+		
+		try:
+			with open(self.dice.ljname) as file:
+				ljfile = file.readlines()
+		except EnvironmentError as err:
+			sys.exit(err)
+		
+		combrule = ljfile.pop(0).split()[0]
+		if combrule not in ("*", "+"):
+			sys.exit("Error: expected a '*' or a '+' sign in 1st line of file {}".format(self.dice.ljname))
+		self.dice.combrule = combrule
+		
+		ntypes = ljfile.pop(0).split()[0]
+		if not ntypes.isdigit():
+			sys.exit("Error: expected an integer in the 2nd line of file {}".format(self.dice.ljname))
+		ntypes = int(ntypes)
+		
+		if ntypes != len(self.dice.nmol):
+			sys.exit("Error: number of molecule types in file {} must match that of 'nmol' keyword in file {}".format(
+																	self.dice.ljname, self.infile))
+		
+		line = 2
+		for i in range(ntypes):
+
+			line += 1
+			nsites = ljfile.pop(0).split()[0]
+			if not nsites.isdigit():
+				sys.exit("Error: expected an integer in line {} of file {}".format(line, self.dice.ljname))
+			
+			nsites = int(nsites)
+			self.system.add_type(Molecule())
+			
+			for j in range(nsites):
+
+				line += 1
+				new_atom = ljfile.pop(0).split()
+				
+				if len(new_atom) < 8:
+					sys.exit("Error: expected at least 8 fields in line {} of file {}".format(line, dice['ljname']))
+				
+				self.system.molecule[i].add_atom()
+				
+				if not new_atom[0].isdigit():
+					sys.exit("Error: expected an integer in field 1, line {} of file {}".format(line, dice['ljname']))
+				lbl = int(new_atom[0])
+				
+				if not new_atom[1].isdigit():
+					sys.exit("Error: expected an integer in field 2, line {} of file {}".format(line, dice['ljname']))
+				
+				atnumber = int(new_atom[1])
+				if atnumber == ghost_number and i == 0:  # Ghost atom not allowed in the QM molecule
+					sys.exit("Error: found a ghost atom in line {} of file {}".format(line, dice['ljname']))
+				na = atnumber
+				
+				try:
+					rx = float(new_atom[2])
+				except:
+					sys.exit("Error: expected a float in field 3, line {} of file {}".format(line, dice['ljname']))
+				
+				try:
+					ry = float(new_atom[3])
+				except:
+					sys.exit("Error: expected a float in field 4, line {} of file {}".format(line, dice['ljname']))
+				
+				try:
+					rz = float(new_atom[4])
+				except:
+					sys.exit("Error: expected a float in field 5, line {} of file {}".format(line, dice['ljname']))
+				
+				try:
+					chg = float(new_atom[5])
+				except:
+					sys.exit("Error: expected a float in field 6, line {} of file {}".format(line, dice['ljname']))
+				
+				try:
+					eps = float(new_atom[6])
+				except:
+					sys.exit("Error: expected a float in field 7, line {} of file {}".format(line, dice['ljname']))
+				
+				try:
+					sig = float(new_atom[7])
+				except:
+					sys.exit("Error: expected a float in field 8, line {} of file {}".format(line, dice['ljname']))
+				
+				mass = atommass[na]
+				
+				if len(new_atom) > 8:
+					masskey, mass = new_atom[8].partition("=")[::2]
+					if masskey.lower() == 'mass' and len(mass) !=0:
+						try:
+							new_mass = float(mass)
+							if new_mass > 0:
+								mass = new_mass
+						except:
+							sys.exit(
+							"Error: expected a positive float after 'mass=' in field 9, line {} of file {}".format(
+																							line, dice['ljname']))
+
+				self.system.molecule[i].add_atom(Atom(lbl,na,rx,ry,rz,chg,eps,sig,mass))
+				
+		to_delete = ['lbl','na','rx','ry','rz','chg','eps','sig','mass']
+		for _var in to_delete:
+			if _var in locals() or _var in globals():
+				exec(f'del {_var}')
+
 	class Player:

 		def __init__(self):

 			self.maxcyc = None
-			self.initcyc = 1
+			# self.initcyc = 1 Eliminated
 			self.nprocs = 1
 			self.switchcyc = 3
 			self.altsteps = 20000
@@ -237,7 +508,7 @@ class Internal:
 			self.ncores = 1

 			self.dens = None		# Investigate the possibility of using 'box = Lx Ly Lz' instead.
-			#dice['box'] = None		# So 'geom' would be set by diceplayer and 'cutoff' would be
+			# self.box = None		# So 'geom' would be set by diceplayer and 'cutoff' would be
 									# switched off. One of them must be given.
 			self.ljname = None
 			self.outname = None
@@ -261,12 +532,12 @@ class Internal:

 			self.level = None

-	class Molcas:
+	# class Molcas:

-		def __init(self):
+	# 	def __init(self):

-			self.orbfile = "input.exporb"
-			self.root = 1
+	# 		self.orbfile = "input.exporb"
+	# 		self.root = 1

-			self.mbottom = None
-			self.basis = None
+	# 		self.mbottom = None
+	# 		self.basis = None