LSHTM_analysis/scripts/combining_dfs.py

#!/usr/bin/env python3
# -*- coding: utf-8 -*-
'''
Created on Tue Aug  6 12:56:03 2019

@author: tanu
'''
#=======================================================================
# Task: combining all dfs to a single one

# Input:  8 dfs
#1) <gene>.lower()'_complex_mcsm_norm.csv'
#2) <gene>.lower()_foldx.csv'
#3) <gene>.lower()_dssp.csv'
#4) <gene>.lower()_kd.csv'
#5) <gene>.lower()_rd.csv'
#6) 'ns' + <gene>.lower()_snp_info.csv'
#7) <gene>.lower()_af_or.csv'
#8) <gene>.lower() _af_or_kinship.csv

# combining order
#Merge1 = 1 + 2

#Merge2 = 3 + 4
#Merge3 = Merge2 + 5

#Merge4 = Merge1 + Merge3

#Merge5 = 6 + 7
#Merge6 = Merge5 + 8

#Merge7 = Merge4 + Merge6

# Output: single csv of all 8 dfs combined
# useful link
# https://stackoverflow.com/questions/23668427/pandas-three-way-joining-multiple-dataframes-on-columns
#=======================================================================
#%% load packages
import sys, os
import pandas as pd
from pandas import DataFrame
import numpy as np
#from varname import nameof
import argparse
#=======================================================================
#%% specify input and curr dir
homedir = os.path.expanduser('~')

# set working dir
os.getcwd()
os.chdir(homedir + '/git/LSHTM_analysis/scripts')
os.getcwd()

# FIXME: local imports
#from combining import combine_dfs_with_checks
from combining_FIXME import detect_common_cols
#=======================================================================
#%% command line args
arg_parser = argparse.ArgumentParser()
arg_parser.add_argument('-d', '--drug', help='drug name', default = 'pyrazinamide')
arg_parser.add_argument('-g', '--gene', help='gene name', default = 'pncA') # case sensitive

arg_parser.add_argument('--datadir', help = 'Data Directory. By default, it assmumes homedir + git/Data')
arg_parser.add_argument('-i', '--input_dir', help = 'Input dir containing pdb files. By default, it assmumes homedir + <drug> + input')
arg_parser.add_argument('-o', '--output_dir', help = 'Output dir for results. By default, it assmes homedir + <drug> + output')

arg_parser.add_argument('--debug', action ='store_true', help = 'Debug Mode')

args = arg_parser.parse_args()
#=======================================================================
#%% variable assignment: input and output 
#drug = 'pyrazinamide'
#gene = 'pncA'
gene_match = gene + '_p.'

drug    = args.drug
gene    = args.gene
datadir = args.datadir
indir   = args.input_dir
outdir  = args.output_dir
#%%=======================================================================
#==============
# directories
#==============
if not datadir:
    datadir = homedir + '/' + 'git/Data'
    
if not indir:
    indir = datadir + '/' + drug + '/input'
    
if not outdir:
    outdir = datadir + '/' + drug + '/output'

#=======
# input
#=======
in_filename_mcsm = gene.lower() + '_complex_mcsm_norm.csv'
in_filename_foldx = gene.lower() + '_foldx.csv'
in_filename_dssp = gene.lower() + '_dssp.csv'
in_filename_kd = gene.lower() + '_kd.csv'
in_filename_rd = gene.lower() + '_rd.csv'
in_filename_snpinfo = 'ns' + gene.lower() + '_snp_info_f.csv'
in_filename_afor = gene.lower() + '_af_or.csv'
in_filename_afor_kin = gene.lower() + '_af_or_kinship.csv'


infile_mcsm = outdir + '/' + in_filename_mcsm
infile_foldx = outdir + '/' + in_filename_foldx
infile_dssp = outdir + '/' + in_filename_dssp
infile_kd = outdir + '/' + in_filename_kd
infile_rd = outdir + '/' + in_filename_rd
infile_snpinfo = outdir + '/' + in_filename_snpinfo 
infile_afor = outdir + '/' + in_filename_afor
infile_afor_kin = outdir + '/' + in_filename_afor_kin

print('\nInput path:', indir
      , '\nOutput path:', outdir, '\n'
      , '\nInput filename mcsm:', infile_mcsm
      , '\nInput filename foldx:', infile_foldx, '\n'
      , '\nInput filename dssp:', infile_dssp
      , '\nInput filename kd:', infile_kd 
      , '\nInput filename rd', infile_rd , '\n'
      , '\nInput filename snp info:', infile_snpinfo, '\n'
      , '\nInput filename af or:', infile_afor
      , '\nInput filename afor kinship:', infile_afor_kin
      , '\n============================================================')

#=======
# output 
#=======
out_filename_comb = gene.lower() + '_all_params.csv'
outfile_comb =  outdir + '/' + out_filename_comb
print('Output filename:', outfile_comb
      , '\n===================================================================')

o_join = 'outer'
l_join = 'left'
r_join = 'right'
i_join = 'inner'

# end of variable assignment for input and output files
#%%============================================================================  
print('==================================='
      , '\nFirst merge: mcsm + foldx'
      , '\n===================================')

mcsm_df =  pd.read_csv(infile_mcsm, sep = ',')
#mcsm_df.columns = mcsm_df.columns.str.lower()
foldx_df =  pd.read_csv(infile_foldx , sep = ',')

#mcsm_foldx_dfs = combine_dfs_with_checks(mcsm_df, foldx_df, my_join = o_join)
merging_cols_m1  = detect_common_cols(mcsm_df, foldx_df)
mcsm_foldx_dfs = pd.merge(mcsm_df, foldx_df, on = merging_cols_m1,  how =  o_join)
ncols_m1 = len(mcsm_foldx_dfs.columns)

print('\n\nResult of first merge:', mcsm_foldx_dfs.shape
      , '\n===================================================================')
#%%============================================================================
print('==================================='
      , '\nSecond merge: dssp + kd'
      , '\n===================================')

dssp_df = pd.read_csv(infile_dssp, sep = ',')
kd_df = pd.read_csv(infile_kd, sep = ',')
rd_df = pd.read_csv(infile_rd, sep = ',')

#dssp_kd_dfs = combine_dfs_with_checks(dssp_df, kd_df, my_join = o_join)
merging_cols_m2 = detect_common_cols(dssp_df, kd_df)
dssp_kd_dfs = pd.merge(dssp_df, kd_df, on = merging_cols_m2,  how = o_join)

print('\n\nResult of second merge:', dssp_kd_dfs.shape
      , '\n===================================================================')
#%%============================================================================
print('==================================='
      , '\nThird merge: second merge + rd_df' 
      , '\ndssp_kd_dfs + rd_df'
      , '\n===================================')
#dssp_kd_rd_dfs = combine_dfs_with_checks(dssp_kd_dfs, rd_df, my_join = o_join)
merging_cols_m3 = detect_common_cols(dssp_df, kd_df)
dssp_kd_rd_dfs = pd.merge(dssp_kd_dfs, rd_df, on = merging_cols_m3, how = o_join)

ncols_m3 = len(dssp_kd_rd_dfs.columns)

print('\n\nResult of Third merge:', dssp_kd_rd_dfs.shape
      , '\n===================================================================')
#%%============================================================================
print('======================================='
      , '\nFourth merge: First merge + Third merge'
      , '\nmcsm_foldx_dfs + dssp_kd_rd_dfs'
      , '\n=======================================')
#combined_df = combine_dfs_with_checks(mcsm_foldx_dfs, dssp_kd_rd_dfs, my_join = i_join)
merging_cols_m4 = detect_common_cols(mcsm_foldx_dfs, dssp_kd_rd_dfs)
combined_df = pd.merge(mcsm_foldx_dfs, dssp_kd_rd_dfs, on = merging_cols_m4, how  = i_join)

combined_df_expected_cols = ncols_m1 + ncols_m3 - len(merging_cols_m4)

if len(combined_df) == len(mcsm_df) and len(combined_df.columns) == combined_df_expected_cols:
    print('PASS: successfully combined 5 dfs'
          , '\nNo. of rows combined_df:', len(combined_df)
          , '\nNo. of cols combined_df:', len(combined_df.columns))   
else:
    sys.exit('FAIL: check individual df merges')

print('\nResult of Fourth merge:', combined_df.shape
      , '\n===================================================================')
#%%============================================================================

# OR merges: TEDIOUSSSS!!!!


#%%RRRR
print('==================================='
      , '\nFifth merge: afor_df + afor_kin_df'
      , '\n===================================')

# OR combining
afor_df = pd.read_csv(infile_afor, sep = ',')
#afor_df.columns = afor_df.columns.str.lower()

afor_kin_df = pd.read_csv(infile_afor_kin, sep = ',')
afor_kin_df.columns = afor_kin_df.columns.str.lower()



merging_cols_m5 = detect_common_cols(afor_df, afor_kin_df)

print('Dim of afor_df:', afor_df.shape
      , '\nDim of afor_kin_df:', afor_kin_df.shape)

# finding if ALL afor_kin_df muts are present in afor_df
# i.e all kinship muts should be PRESENT in mycalcs_present
if len(afor_kin_df[afor_kin_df['mutation'].isin(afor_df['mutation'])]) == afor_kin_df.shape[0]:
    print('PASS: ALL or_kinship muts are present in my or list')
else:
    nf_muts = len(afor_kin_df[~afor_kin_df['mutation'].isin(afor_df['mutation'])])
    nf_muts_df = afor_kin_df[~afor_kin_df['mutation'].isin(afor_df['mutation'])]    
    print('FAIL:', nf_muts, 'muts present in afor_kin_df NOT present in my or list'
          , '\nsee "nf_muts_df" created containing not found(nf) muts')
    sys.exit()


# Now checking how many afor_df muts are NOT present in afor_kin_df    
common_muts = len(afor_df[afor_df['mutation'].isin(afor_kin_df['mutation'])])  
extra_muts_myor =   afor_kin_df.shape[0] - common_muts

print('=========================================='
      , '\nmy or calcs', extra_muts_myor, 'extra mutation\n'
      , '\n==========================================')

print('Expected cals for merging with outer_join...')

expected_rows = afor_df.shape[0] + extra_muts_myor
expected_cols = afor_df.shape[1] + afor_kin_df.shape[1] - len(merging_cols_m5)

ors_df = pd.merge(afor_df, afor_kin_df, on = merging_cols_m5, how = o_join)

if ors_df.shape[0] == expected_rows and ors_df.shape[1] == expected_cols:
    print('PASS: OR dfs successfully combined! PHEWWWW!')
else:
    print('FAIL: could not combine OR dfs'
          , '\nCheck expected rows and cols calculation and join type')

print('Dim of merged ors_df:', ors_df.shape)
#%%============================================================================
# formatting ors_df

ors_df.columns


# Dropping unncessary columns: already removed in ealier preprocessing
#cols_to_drop = ['reference_allele', 'alternate_allele', 'symbol' ]
cols_to_drop = ['n_miss']
print('Dropping', len(cols_to_drop), 'columns:\n'
      , cols_to_drop)
ors_df.drop(cols_to_drop, axis = 1, inplace = True)

print('Reordering', ors_df.shape[1], 'columns'
      , '\n===============================================')
cols = ors_df.columns

column_order = ['mutation'
                , 'mutationinformation'               
                , 'wild_type'               
                , 'position'
                , 'mutant_type'                              
                #, 'chr_num_allele' #old
                , 'ref_allele'
                , 'alt_allele'
                , 'mut_info_f1'
                , 'mut_info_f2'
                , 'mut_type'
                , 'gene_id'
                #, 'gene_number' #old
                , 'gene_name'
                #, 'mut_region'                
                #, 'reference_allele'
                #, 'alternate_allele'
                , 'chromosome_number'                
                , 'af'
                , 'af_kin'               
                , 'est_chisq'
                , 'or_mychisq'
                , 'or_fisher'
                , 'or_logistic'
                , 'or_kin'                 
                , 'pval_chisq'                
                , 'pval_fisher'
                , 'pval_logistic'
                , 'pwald_kin'                
                , 'ci_low_fisher'
                , 'ci_hi_fisher'
                , 'ci_low_logistic'
                , 'ci_hi_logistic'                               
                , 'beta_logistic'
                , 'beta_kin'                       
                , 'se_logistic'
                , 'se_kin'                            
                , 'zval_logistic'
                , 'logl_h1_kin'
                , 'l_remle_kin'
                #, 'wt_3let' # old
                #, 'mt_3let' # old
                #, 'symbol'
                #, 'n_miss'
                ]

if ( (len(column_order) == ors_df.shape[1]) and (DataFrame(column_order).isin(ors_df.columns).all().all()):
    print('PASS: Column order generated for all:', len(column_order), 'columns'
          , '\nColumn names match, safe to reorder columns'
          , '\nApplying column order to df...' )
    ors_df_ordered = ors_df[column_order]
else:
    print('FAIL: Mismatch in no. of cols to reorder'
          , '\nNo. of cols in df to reorder:', ors_df.shape[1]
          , '\nNo. of cols order generated for:', len(column_order))
    sys.exit()

print('\nResult of Sixth merge:', ors_df_ordered.shape
      , '\n===================================================================')
#%%============================================================================ 
print('==================================='
      , '\nSixth merge: Fourth + Fifth merge'
      , '\ncombined_df + ors_df_ordered'
      , '\n===================================')

#combined_df_all = combine_dfs_with_checks(combined_df, ors_df_ordered, my_join = i_join)
merging_cols_m6 = detect_common_cols(combined_df, ors_df_ordered)
print('Dim of df1:', combined_df.shape
      , '\nDim of df2:', ors_df_ordered.shape
      , '\nNo. of merging_cols:', len(merging_cols_m6))

print('Checking mutations in the two dfs:'
      , '\nmuts in df1 but NOT in df2:'
      , combined_df['mutationinformation'].isin(ors_df_ordered['mutationinformation']).sum()
      , '\nmuts in df2 but NOT in df1:'
      , ors_df_ordered['mutationinformation'].isin(combined_df['mutationinformation']).sum())

#print('\nNo. of common muts:', np.intersect1d(combined_df['mutationinformation'], ors_df_ordered['mutationinformation']) )

#!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
combined_df_all = pd.merge(combined_df, ors_df, on = merging_cols_m6, how = l_join)
combined_df_all.shape

# FIXME: DIM
# only with left join!
outdf_expected_rows = len(combined_df)
outdf_expected_cols = len(combined_df.columns) + len(ors_df_ordered.columns) - len(merging_cols_m6)

#if combined_df_all.shape[1] == outdf_expected_cols and combined_df_all.shape[0] == outdf_expected_rows:  
if combined_df_all.shape[1] == outdf_expected_cols and combined_df_all['mutationinformation'].nunique() == outdf_expected_rows:
    print('PASS: Df dimension match'
          , '\nDim of combined_df_all with join type:', l_join
          , '\n', combined_df_all.shape
          , '\n===============================================================')
else:
    print('FAIL: Df dimension mismatch'
             , 'Cannot generate expected dim. See details of merge performed'
             , '\ndf1 dim:', combined_df.shape
             , '\ndf2 dim:', ors_df.shape
             , '\nGot:', combined_df_all.shape
             , '\nmuts in df1 but NOT in df2:'
             , combined_df['mutationinformation'].isin(ors_df['mutationinformation']).sum()
             , '\nmuts in df2 but NOT in df1:'
             , ors_df['mutationinformation'].isin(combined_df['mutationinformation']).sum())
    sys.exit()
#!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
# nan in mutation col
# FIXME: should get fixmed with JP's resolved dataset!?
combined_df_all['mutation'].isna().sum()
baz = combined_df_all[combined_df_all['mutation'].isna()]
#%%============================================================================
output_cols = combined_df_all.columns
print('Output cols:', output_cols)

#%%============================================================================ 
# write csv
print('Writing file: combined output of all params needed for plotting and ML')
combined_df_all.to_csv(outfile_comb, index = False)
print('\nFinished writing file:'
      , '\nNo. of rows:', combined_df_all.shape[0]
      , '\nNo. of cols:', combined_df_all.shape[1])
#=======================================================================
#%% incase you FIX the the function: combine_dfs_with_checks
#def main():
    
#   print('Reading input files:')
    #mcsm_df =  pd.read_csv(infile_mcsm, sep = ',')
    #mcsm_df.columns = mcsm_df.columns.str.lower()
    
    #foldx_df =  pd.read_csv(infile_foldx , sep = ',')

    #dssp_df = pd.read_csv(infile_dssp, sep = ',')
    #dssp_df.columns = dssp_df.columns.str.lower()
    
    #kd_df = pd.read_csv(infile_kd, sep = ',')
    #kd_df.columns = kd_df.columns.str.lower()
   
    #rd_df = pd.read_csv(infile_kd, sep = ',')
    
    

#if __name__ == '__main__':
#    main()
#======================================================================= 
#%% end of script