#! /usr/bin/env python
from argparse import RawTextHelpFormatter
import glob,os, sys, time, argparse,shutil,re,csv
import numpy as np
import subprocess
from Bio import SeqIO
from sklearn.cluster import AffinityPropagation
import collections
from Bio.SeqUtils import GC
from Bio.Seq import Seq
import pandas
from sklearn.cluster import KMeans
def create_fasta_dict(fastafile):
    """makes dictionary using fasta files to be binned"""
    fasta_dict = {}
    for record in SeqIO.parse(fastafile, "fasta"):
        fasta_dict[record.id] = record.seq
    return fasta_dict

def get_cov_data(h):
    """Makes a dictionary of coverage values for affinity propagation"""
    all_cov_data = {}
    for line in open(str(h), "r"):
        line = line.rstrip()
        cov_data = line.split()
        all_cov_data[cov_data[0]] = cov_data
    return all_cov_data

def cov_array(a,path,file_name,size):
    """Computes a coverage array based on the contigs in files and the contig names associated with the coverage file"""
    count = 0
    names = []
    c = 0
    cov_array = []
    for record in SeqIO.parse(os.path.join(path, file_name), "fasta"):
        count = count + 1
        if len(record.seq) >= int(size):
            if record.id in a.keys():
                data = a[record.id]
                names.append(data[0])
                data.remove(data[0])
                line = " ".join(data)
                if c == 1:
                    temparray = np.fromstring(line, dtype=float, sep=' ')
                    cov_array = np.vstack((cov_array, temparray))
                if c == 0:
                    cov_array = np.fromstring(line, dtype=float, sep=' ')
                    c += 1 
    print cov_array.shape
    return cov_array, names  
def affinity_propagation(array,names,file_name,damping,iterations,convergence,preference,path,output_directory):
    """Uses affinity propagation to make putative bins"""
    if os.path.isdir(str(output_directory)) is False:
        os.mkdir(output_directory)
    apclust = AffinityPropagation(damping=float(damping), max_iter=int(iterations), convergence_iter=int(convergence), copy=True, preference=int(preference), affinity='euclidean', verbose=False).fit_predict(array)
    print"""-------------------------------------------------------
                            --Creating Bins--
            -------------------------------------------------------"""
    outfile_data = {}
    i = 0
    while i < len(names):
        if apclust[i] in outfile_data.keys():
            outfile_data[apclust[i]].append(names[i])
        if apclust[i] not in outfile_data.keys():
            outfile_data[apclust[i]] = [names[i]]
        i += 1
    out_name = file_name.rsplit(".",1)[0]
    output_directory=output_directory+"/BINSANITY-INITIAL"
    if os.path.isdir(output_directory) is False:
        os.mkdir(output_directory)
    with open(os.path.join(path,file_name),"r") as input2_file:
        fasta_dict = create_fasta_dict(input2_file)
        count = 0
        for k in outfile_data:
            if len(outfile_data[k]) >= 5:
                output_file = open(os.path.join(output_directory,str(out_name)+"-bin_%s.fna" % (k)), "w")
                for x in outfile_data[k]:
                    output_file.write(">"+str(x)+"\n"+str(fasta_dict[x])+"\n")
                output_file.close()
                count = count + 1
            elif len(outfile_data[k]) < 5:
                if any((len(fasta_dict[x])>50000) for x in outfile_data[k]):
                    output_file = open(os.path.join(output_directory,str(out_name)+"-bin_%s.fna" % (k)), "w")
                    for x in outfile_data[k]:
                        output_file.write(">"+str(x)+"\n"+str(fasta_dict[x])+"\n")
                    output_file.close()
                    count = count +1
            print "Cluster "+str(k)+": "+str(len(outfile_data[k]))
        print ("""Total Number of Bins: %i""" % count)
    
def GC_Fasta_file(b,name,prefix):
    """Makes a tab-delimeted output indicating the GC count associated with each contig"""
    GC_dict = {}
    input_file = open(os.path.join(b,name), 'r') 
    output_file = open(str(prefix)+'-GC_count','w')
    output_file.write("%s\t%s\n" % ('contig','GC'))
    for cur_record in SeqIO.parse(input_file, "fasta") :
        gene_name = cur_record.id 
        GC_percent = float(GC(cur_record.seq))
        GC_dict.setdefault(gene_name,[])
        GC_dict[gene_name].append(GC_percent) 
        output_line = '%s\t%i\n' % \
        (gene_name, GC_percent) 
        output_file.write(output_line)
    output_file.close() 
    input_file.close()

###########################Get tetramer frequencies#####################################
def kmean(array,names,filename,path,clusters,path2,prefix):
    """Uses kmeans to make putative bins"""
    if os.path.isdir(str(path)) is False:
        os.mkdir(path)
    os.mkdir(os.path.join(path,str(prefix)+"-KMEAN-BINS"))
    average_linkage = KMeans(n_clusters=int(clusters), n_jobs=-1,n_init=5000)
    apclust = average_linkage.fit_predict(array)
    outfile_data = {}
    i = 0
    while i < len(names):
        if apclust[i] in outfile_data.keys():
            outfile_data[apclust[i]].append(names[i])
        if apclust[i] not in outfile_data.keys():
            outfile_data[apclust[i]] = [names[i]]
        i += 1    
    with open(os.path.join(path2,filename),"r") as input2_file: 
        fasta_dict = create_fasta_dict(input2_file)                
        count = 0    
        for k in outfile_data:
            if len(outfile_data[k]) >= 5:
                output_file = open(os.path.join(os.path.join(path,str(prefix)+"-KMEAN-BINS"),"%s-kmean-bin_%s.fna" % (prefix,k)), "w" )
                for x in outfile_data[k]:
                    output_file.write(">"+str(x)+"\n"+str(fasta_dict[x])+"\n")
                output_file.close()
                count = count + 1
            elif len(outfile_data[k]) < 5:
                if any((len(fasta_dict[x])>50000) for x in outfile_data[k]):
                    output_file = open(os.path.join(os.path.join(path,str(prefix)+"-KMEAN-BINS"),"%s-kmean-bin_%s.fna" % (prefix,k)), "w" )
                    for x in outfile_data[k]:
                        output_file.write(">"+str(x)+"\n"+str(fasta_dict[x])+"\n")
                    output_file.close()
                    count = count +1
            else:
                output_file=open(os.path.join(os.path.join(path,str(prefix)+"-KMEAN-BINS"),"%s-kmean-unclustered.fna" % str(prefix),"w"))
                for x in outfile_Data[k]:
                    output_file.write(">"+str(x)+"\n"+str(fasta_dict[x])+"\n")
                output_file.close()
            print "Cluster "+str(k)+": "+str(len(outfile_data[k]))
        print ("""Total Number of Bins: %i""" % count)

def kmer_list(dna, k):
    """Makes list of k-mers based on input of k and the dna sequence"""
    result = []
    dna = dna.upper()
    dna_edit = Seq(str(dna))
    reverse_complement = (dna_edit).reverse_complement()
    for x in range(len(dna)+1-k):
        result.append(dna[x:x+k])
    for x in range(len(reverse_complement)+1-k):
        result.append(reverse_complement[x:x+k])
    result= [s for s in result if not s.strip('AGTC')]
    return result

def kmer_counts(kmer,b,name):
    kmer_dict = {}
    for record in SeqIO.parse(os.path.join(b,name), "fasta"):
        id_=record.id
        seq = record.seq
        length = len(seq)
        tetra = kmer_list(seq,kmer)           
        c = collections.Counter(tetra)
        c = dict(c)
        val = list(c.values())
        val_edit = []
        for freq in val:
            freq= (float(freq)/float(length))
            val_edit.append(freq)
    
        keys = []
        for key in c:
            keys.append(str(key))
        c_edit = dict(zip(keys,val_edit))
        kmer_dict.setdefault(str(id_),[])
        kmer_dict[str(id_)].append(c_edit)
    return kmer_dict
                   
         
def output(a,prefix):
    """Builds tab-delimeted file based on dictionary of tetramers"""
    topleft = 'contig'
	 
    headers = sorted(set(key
                        for row in a.values()
                        for key in row[0]))
    writer = csv.writer(open(str(prefix)+'-tetramer-frequencies','wb'), delimiter='\t')
    writer.writerow([topleft] + headers)
    for key in a:
        row = [key]
        for header in headers:
            row.append(a[key][0].get(header, 0))
        writer.writerow(row)
#########################Combine tetramer frequencies and GC counts in tab delimeted format and normalize################################
def get_contigs(c,prefix):
    GC = open(str(prefix)+"-GC_count","r")
    dataframe =pandas.read_csv(GC,sep="\t")
    dataframe=dataframe.set_index("contig")
    dataframe *= 100
    dataframe += 1
    dataframe = np.log10(dataframe)
    tetra = open(str(prefix)+"-tetramer-frequencies","r")
    dataframe2=pandas.read_csv(tetra,sep="\t")
    dataframe2=dataframe2.set_index("contig")
    dataframe2*=100
    dataframe2+=1
    dataframe2 = np.log10(dataframe2)
    cov = open(str(c),"r")
    reader =list(csv.reader(cov,delimiter='\t'))
    titles = ["contig"]
    reader.insert(0,titles)
    dataframe3=pandas.DataFrame(reader)
    dataframe3.columns = dataframe3.iloc[0]
    dataframe3 = dataframe3[1:]
    dataframe3=dataframe3.set_index("contig")
    result = pandas.concat([dataframe, dataframe2,dataframe3],axis=1,join='inner')
    result.to_csv(path_or_buf=str(str(prefix)+"-tetra-GC-out"),header=None,sep ="\t")

def refined_ap(array,names,file_name,damping,iterations,convergence,preference,path,output_directory,prefix):
    """Uses affinity propagation to make putative bins"""    
    if os.path.isdir(os.path.join(str(output_directory),str(prefix)+"-REFINED-BINS")) is False:
        os.mkdir(os.path.join(str(output_directory),str(prefix)+"-REFINED-BINS"))
    name_of_output_file = os.path.join(str(output_directory),str(prefix)+"-REFINED-BINS")
    apclust = AffinityPropagation(damping=float(damping), max_iter=int(iterations), convergence_iter=int(convergence), copy=True, preference=int(preference), affinity='euclidean', verbose=False).fit_predict(array)
    print"""-------------------------------------------------------
                            --Creating Bins--
            -------------------------------------------------------"""
    outfile_data = {}
    i = 0
    while i < len(names):
        if apclust[i] in outfile_data.keys():
            outfile_data[apclust[i]].append(names[i])
        if apclust[i] not in outfile_data.keys():
            outfile_data[apclust[i]] = [names[i]]
        i += 1
    out_name = file_name.rsplit(".",1)[0]
    with open(os.path.join(path,file_name),"r") as input2_file: 
        fasta_dict = create_fasta_dict(input2_file)                
        count = 0                
        for k in outfile_data:
            if len(outfile_data[k]) >= 5:
                output_file = open(os.path.join(name_of_output_file,str(out_name)+"-refined_%s.fna" % (k)), "w" )
                for x in outfile_data[k]:
                    output_file.write(">"+str(x)+"\n"+str(fasta_dict[x])+"\n")
                output_file.close()
                count = count + 1
            elif len(outfile_data[k]) < 5:
                if any((len(fasta_dict[x])>50000) for x in outfile_data[k]):
                    output_file = open(os.path.join(name_of_output_file,str(out_name)+"-refined_%s.fna" % (k)), "w" )
                    for x in outfile_data[k]:
                        output_file.write(">"+str(x)+"\n"+str(fasta_dict[x])+"\n")
                    output_file.close()
                    count = count +1
            print "Cluster "+str(k)+": "+str(len(outfile_data[k]))
        print ("""Total Number of Bins: %i""" % count)
    
########################################################################################
def run_checkM(bins,threads,prefix):
    output = open(str(prefix)+"-checkm_lineagewf-binsanity.out","w")   
    subprocess.call(["checkm","lineage_wf","-x","fna","-t",str(threads),str(bins),str(prefix)+"-binsanity-checkm"],stdout=output)
########################################################################################
def checkm_analysis(file_,fasta,path,prefix):
    checkm = list(csv.reader(open(file_,'rb')))
    new = []
    for list_ in checkm:
        for string in list_:
            x = re.sub(' +',' ',str(re.split(r'\t+', string.rstrip('\t'))))
            new.append(x)
    
    del new[0], new[1], new[(len(new)-1)]
    new_2 = []
    for list_ in new:
        x = list_.strip("['']")
        x_2 = x.split()
        new_2.append(x_2)
    del new_2[0]
    High_completion = []
    Low_completion = []
    High_redundancy = []
    Strain_variation = []
    for list_ in new_2:
        if float(list_[12]) >95 and (float(list_[13])<10):
            High_completion.append(list_[0])
        elif float(list_[12]) > 80 and (float(list_[13])<=5):
            High_completion.append(list_[0])
        elif float(list_[12]) > 50 and (float(list_[13])<=2):
            High_completion.append(list_[0])
        elif float(list_[12]) < 50:
            Low_completion.append(list_[0])
        elif float(list_[12])>80 and (float(list_[13])>10) and (float(list_[13])<=50):
            Low_completion.append(list_[0])
        elif float(list_[13])>50 and float(list_[14])>90:
            Strain_variation.append(list_[0])
        else:
            High_redundancy.append(list_[0])

    os.makedirs(os.path.join(path,str(prefix)+"-high_completion"))
    os.makedirs(os.path.join(path,str(prefix)+"-low_completion"))
    os.makedirs(os.path.join(path,str(prefix)+"-high_redundancy"))
    os.makedirs(os.path.join(path,str(prefix)+"-strain_redundancy"))
    
    for name in High_completion:
        shutil.move(os.path.join(path,(str(name)+fasta)), os.path.join(path,str(prefix)+"-high_completion"))
    for name in Low_completion:
        shutil.move(os.path.join(path,(str(name)+fasta)),os.path.join(path,str(prefix)+"-low_completion"))
    for name in High_redundancy:
        shutil.move(os.path.join(path,(str(name)+fasta)),os.path.join(path,str(prefix)+"-high_redundancy"))
    for name in Strain_variation:
        shutil.move(os.path.join(path,(str(name)+fasta)),os.path.join(path,str(prefix)+"-strain_redundancy"))
        
########################################################################################     
class Logger(object):
    def __init__(self,filename):
	self.filename = filename
	out = filename.rsplit(".",1)[0]
        self.terminal = sys.stdout
        self.log = open(str(out)+"-Binsanity-log.txt", "a")

    def write(self, message):
        self.terminal.write(message)
        self.log.write(message)  

    def flush(self):
        pass  


###################################################################

if __name__ == '__main__':
    parser = argparse.ArgumentParser(prog='Binsanity-lc',usage='%(prog)s -f [/path/to/fasta] -l [fastafile] --threads [threads for checkM] -c [coverage file] --refine-preference [Preference for Refinement] -p [preference] -m [maxiter] -v [convergence iterations] -d [damping factor] -x [contig size] -o [output directory]', description="""
    Binsanity clusters contigs based on coverage and refines these 'bins' using tetramer frequencies and GC content. 
    ----------------------------------------------------------------------------------------------------------------
    Binsanity-lc is a workflow script that will subset assemblies larger than 100,000 contigs using coverage prior to running Binsanity and Binsanity-refine sequentially.
    The following is including in the workflow:
    Step 1: Use Coverage to Subsample contigs with K-mean Clustering	
    STEP 2: Run Binsanity
    STEP 3: Run CheckM to estimate completeness for Refinement
    STEP 4: Run Binsanity-refine
    STEP 5: Creat Final BinSanity Clusters
    """,formatter_class=RawTextHelpFormatter)
    parser.add_argument("-c", dest="inputCovFile", help="""
    Specify a Transformed Coverage File
    e.g Log transformed
    """)
    parser.add_argument("-f", dest="inputContigFiles", help="""
    Specify directory containing your contigs
    """)
    parser.add_argument("-p", type=float, dest="preference", default=-3, help="""
    Specify a preference (default is -3)
    Note: decreasing the preference leads to more lumping, 
    increasing will lead to more splitting. If your range
    of coverages are low you will want to decrease the
    preference, if you have 10 or less replicates increasing
    the preference could benefit you.
    """)
    parser.add_argument("-m", type=int, dest="maxiter", default=4000, help="""
    Specify a max number of iterations (default is 4000)
    """)
    parser.add_argument("-v", type=int, dest="conviter",default=400, help="""
    Specify the convergence iteration number (default is 400)
    e.g Number of iterations with no change in the number 
    of estimated clusters that stops the convergence.
    """)
    parser.add_argument("-d",default=0.95, type=float, dest="damp", help="""
    Specify a damping factor between 0.5 and 1, default is 0.95
    """)
    parser.add_argument("-l",dest="fastafile", help="""
    Specify the fasta file containing contigs you want to cluster
    """)
    parser.add_argument("-x",dest="ContigSize", type=int, default=1000,help="""
    Specify the contig size cut-off (Default 1000 bp)
    """)
    parser.add_argument("-o",dest="outputdir", default="BINSANITY-RESULTS", help="""
    Give a name to the directory BinSanity results will be output in [Default is 'BINSANITY-RESULTS']
    """)
    parser.add_argument("--threads",dest="threads",type=int,default=5, help="""
    Indicate how many threads you want dedicated to the subprocess CheckM
    """)
    parser.add_argument("--kmer",dest="kmer",type=int,default=4,help="""
    Indicate a number for the kmer calculation, the default is 4
    """)
    parser.add_argument("--refine-preference", dest="inputrefinedpref", type=float,default=-25,help="""
    Specify a preference for refinement. The Default is -25
    """)
    parser.add_argument("--clusters",dest="cluster",type=int,default=50,help="""
    Indicate a number of initial clusters for kmean, default is 50. 
    """)
    parser.add_argument("--Prefix",dest="prefix",default="_", help="""
    Specifyy a prefix to append to the start of all directories generated during Binsanity""")
    parser.add_argument('--version', action='version', version='%(prog)s v0.2.5.11')

    args = parser.parse_args()
    if len(sys.argv) is None:
        parser.print_help()
    if os.path.isfile(os.path.join(args.outputdir,"KMEAN-BINS")):
        print "File name 'KMEAN-RESULTS' already exists and Binsanity does not like overwritting files"
    if os.path.isfile("high_completion"):
        print "File name 'high_completion' already exists and Binsanity does not like overwritting files"      
    if os.path.isfile("low_completion"):
        print "File name 'low_completion' already exists and Binsanity does not like overwritting files"
    if os.path.isfile("high_redundancy"):
        print "File name 'high_redundancy' already exists and Binsanity does not like overwritting files"
    if os.path.isfile("strain_redundancy"):
        print " File name 'strain_redundancy' already exists and Binsanity does not like overwritting files"
    elif len(sys.argv)<4:
        parser.print_help()
    elif (args.inputCovFile is None):
        print "Please indicate -c coverage file"
    elif args.inputContigFiles is None:
        print "Please indicate -f directory containing your contigs"
    elif args.inputContigFiles and not args.fastafile:
        parser.error('-l Need to identify file to be clustered')
    else:
        sys.stdout = Logger(args.prefix)
        print("""
        -------------------------------------------------------
                         Running Binsanity
                   ---Computing Coverage Array ---
        -------------------------------------------------------
        """)
        print "K-Mean cluster number: " +str(args.cluster)
        print "Fasta File: " + str(args.fastafile)
        print "Coverage File: " + str(args.inputCovFile)
        print "Fasta File: " + str(args.fastafile)
        print "Output Directory: " + str(args.outputdir)
        print "Contig Cut-Off: " + str(args.ContigSize)

        val1, val2 = cov_array((get_cov_data(args.inputCovFile)), args.inputContigFiles, args.fastafile,args.ContigSize)
        
        print("""
        ------------------------------------------------------
                  Initializing clustering via K-means
        ------------------------------------------------------
        """)
        kmean(val1,val2,args.fastafile,args.outputdir,args.cluster,args.inputContigFiles,args.prefix)
        location_kmean = os.path.join(args.outputdir,str(args.prefix)+"-KMEAN-BINS")
        count = 1 
        for clust in os.listdir(location_kmean):
            start_time = time.time()
            print("""
            ------------------------------------------------------
                         Binsanity clustering round %s
            ------------------------------------------------------
            
            """ % count)
            print "Preference: " + str(args.preference)
            print "Maximum Iterations: " + str(args.maxiter)
            print "Convergence Iterations: " + str(args.conviter)
            print "Contig Cut-Off: " + str(args.ContigSize)
            print "Damping Factor: " + str(args.damp)
            print "Coverage File: " + str(args.inputCovFile)
            print "Fasta File: " + str(clust)
            print "Output Directory: " + str(args.outputdir)
            val3, val4 = cov_array((get_cov_data(args.inputCovFile)), location_kmean, clust,args.ContigSize)
            affinity_propagation(val3,val4,clust,args.damp,args.maxiter,args.conviter,args.preference,location_kmean,args.outputdir)
            count =+ 1
            print("""
            
            --------------------------------------------------------
                --- Putative Bins Computed in %s seconds ---
            --------------------------------------------------------""" % (time.time() - start_time))
##########################Finding Bin Metrics####################################
    
        print ("""
        --------------------------------------------------------
                        --- Running CheckM ---
        --------------------------------------------------------
        
        """)
        out_1= args.outputdir+'/BINSANITY-INITIAL'
        run_checkM(str(out_1),str(args.threads),args.prefix)
        checkm_analysis(str(args.prefix)+"-checkm_lineagewf-binsanity.out",".fna",str(out_1),args.prefix)
##############################Refining Bins#######################################
        start_time = time.time()

        location = os.path.join(out_1,str(args.prefix)+"-high_redundancy")
        location2 = os.path.join(out_1,str(args.prefix)+"-low_completion")
        with open("low_completion.fna","wb") as outfile:
            for filename in glob.glob(str(location2)+"/*.fna"):
                if filename == "low_completion.fna":
                    continue
                else:
                    with open(filename,"rb") as readfile:
                        shutil.copyfileobj(readfile,outfile)
        if os.stat("low_completion.fna").st_size ==0:
            os.remove("low_completion.fna")
        else:
            shutil.move("low_completion.fna", str(location))
            shutil.rmtree(str(location2))
        for redundant_bin in os.listdir(location):
            print """
            -------------------------------------------------------
                 Calculating GC content for redundant bin %s
            -------------------------------------------------------""" % str(redundant_bin)
            GC_time = time.time()
            GC_Fasta_file(location, redundant_bin,args.prefix)
            print "GC content calculated in %s seconds" % (time.time() - GC_time)
                
            print """
            -------------------------------------------------------
              Calculating tetramer frequencies for redundant bin %s
            -------------------------------------------------------"""% str(redundant_bin)
            kmer_time = time.time()
            output(kmer_counts(args.kmer,location,redundant_bin),args.prefix)
            print "tertamer frequency calculated in %s seconds" % (time.time()- kmer_time)
             
            print """
            ------------------------------------------------------
                    Creating Profile for redundant bin %s
            ------------------------------------------------------""" % str(redundant_bin)
            combine_time = time.time()
            get_contigs(args.inputCovFile,args.prefix)
            print "Combined profile created in %s seconds" % (time.time()- combine_time)
            refine_time=time.time()
            print """ 
            -------------------------------------------------------
                       Reclustering redundant bin %s
            -------------------------------------------------------"""% str(redundant_bin)
            print "Preference: " + str(args.inputrefinedpref)
            print "Maximum Iterations: " + str(args.maxiter)
            print "Convergence Iterations: " + str(args.conviter)
            print "Contig Cut-Off: " + str(args.ContigSize)
            print "Damping Factor: " + str(args.damp)
            print "Coverage File: " + str(args.inputCovFile)
            print "Fasta File: " + str(redundant_bin)
        
            val1, val2 = cov_array((get_cov_data(args.prefix +'-tetra-GC-out')), location, redundant_bin,args.ContigSize)
        
            refined_ap(val1, val2, redundant_bin, args.damp, args.maxiter, args.conviter, args.inputrefinedpref,location,args.outputdir,args.prefix)
        
            print("""
            --------------------------------------------------------
                --- Ammended Bins Computed in %s seconds ---
            --------------------------------------------------------""" % (time.time() - refine_time))
        final_out = os.path.join(str(args.outputdir),"BinSanity-Final-bins")
        initial_out = os.path.join(str(args.outputdir),"BINSANITY-INITIAL")
        os.mkdir(str(final_out))
        os.rename(initial_out,os.path.join(str(args.outputdir),"Binsanity-records"))
        shutil.move(os.path.join(str(args.outputdir),str(args.prefix)+"-REFINED-BINS"),os.path.join(str(args.outputdir),"Binsanity-records"))
        path1 = os.path.join(args.outputdir,"Binsanity-records/"+args.prefix+"-high_completion")
        for files in os.listdir(path1):
            shutil.copy(os.path.join(os.path.join(str(args.outputdir),"Binsanity-records/"+args.prefix+"-high_completion"),files),str(final_out))
        for files in os.listdir(os.path.join(str(args.outputdir),"Binsanity-records/"+str(args.prefix)+"-REFINED-BINS")):
            shutil.copy(os.path.join(os.path.join(str(args.outputdir),"Binsanity-records/"+str(args.prefix)+"-REFINED-BINS"),files),str(final_out))
        shutil.move(str(args.prefix)+"-tetra-GC-out",os.path.join(str(args.outputdir),"Binsanity-records/"))
        shutil.move(str(args.prefix)+"-tetramer-frequencies",os.path.join(str(args.outputdir),"Binsanity-records/"))
        shutil.move(str(args.prefix)+"-GC_count",os.path.join(str(args.outputdir),"Binsanity-records/"))
        shutil.move(str(args.prefix)+"-checkm_lineagewf-binsanity.out",os.path.join(str(args.outputdir),"Binsanity-records/"))
        shutil.move(str(args.prefix)+"-binsanity-checkm",os.path.join(str(args.outputdir),"Binsanity-records/"))
