--- a/trips_bam_to_sqlite/bam_to_sqlite.py	Wed Apr 20 15:18:00 2022 +0000
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,731 +0,0 @@
-import sys
-import pysam
-import operator
-import os
-import time
-import sqlite3
-from sqlitedict import SqliteDict
-
-
-def tran_to_genome(tran, pos, transcriptome_info_dict):
-    # print ("tran",list(transcriptome_info_dict))
-    traninfo = transcriptome_info_dict[tran]
-    chrom = traninfo["chrom"]
-    strand = traninfo["strand"]
-    exons = sorted(traninfo["exons"])
-    # print exons
-    if strand == "+":
-        exon_start = 0
-        for tup in exons:
-            exon_start = tup[0]
-            exonlen = tup[1] - tup[0]
-            if pos > exonlen:
-                pos = (pos - exonlen) - 1
-            else:
-                break
-        genomic_pos = (exon_start + pos) - 1
-    elif strand == "-":
-        exon_start = 0
-        for tup in exons[::-1]:
-            exon_start = tup[1]
-            exonlen = tup[1] - tup[0]
-            if pos > exonlen:
-                pos = (pos - exonlen) - 1
-            else:
-                break
-        genomic_pos = (exon_start - pos) + 1
-    return (chrom, genomic_pos)
-
-
-#  Takes a dictionary with a readname as key and a list of lists as value, each sub list has consists of two elements a transcript and the position the read aligns to in the transcript
-#  This function will count the number of genes that the transcripts correspond to and if less than or equal to 3 will add the relevant value to transcript_counts_dict
-def processor(
-    process_chunk,
-    master_read_dict,
-    transcriptome_info_dict,
-    master_dict,
-    readseq,
-    unambig_read_length_dict,
-):
-    readlen = len(readseq)
-    ambiguously_mapped_reads = 0
-    # get the read name
-    read = list(process_chunk)[0]
-
-    read_list = process_chunk[
-        read
-    ]  # a list of lists of all transcripts the read aligns to and the positions
-    # used to store different genomic poistions
-    genomic_positions = []
-
-    # This section is just to get the different genomic positions the read aligns to
-
-    for listname in process_chunk[read]:
-
-        tran = listname[0].replace("-", "_").replace("(", "").replace(")", "")
-
-        pos = int(listname[1])
-        genomic_pos = tran_to_genome(tran, pos, transcriptome_info_dict)
-        # print ("genomic pos",genomic_pos)
-        if genomic_pos not in genomic_positions:
-            genomic_positions.append(genomic_pos)
-
-    # If the read maps unambiguously
-    if len(genomic_positions) == 1:
-        if readlen not in unambig_read_length_dict:
-            unambig_read_length_dict[readlen] = 0
-        unambig_read_length_dict[readlen] += 1
-        # assume this read aligns to a noncoding position, if we find that it does align to a coding region change this to True
-        coding = False
-
-        # For each transcript this read alings to
-        for listname in process_chunk[read]:
-            # get the transcript name
-            tran = listname[0].replace("-", "_").replace("(", "").replace(")", "")
-            # If we haven't come across this transcript already then add to master_read_dict
-            if tran not in master_read_dict:
-                master_read_dict[tran] = {
-                    "ambig": {},
-                    "unambig": {},
-                    "mismatches": {},
-                    "seq": {},
-                }
-            # get the raw unedited positon, and read tags
-            pos = int(listname[1])
-            read_tags = listname[2]
-            # If there is mismatches in this line, then modify the postion and readlen (if mismatches at start or end) and add mismatches to dictionary
-            nm_tag = 0
-
-            for tag in read_tags:
-                if tag[0] == "NM":
-                    nm_tag = int(tag[1])
-            if nm_tag > 0:
-                md_tag = ""
-                for tag in read_tags:
-                    if tag[0] == "MD":
-                        md_tag = tag[1]
-                pos_modifier, readlen_modifier, mismatches = get_mismatch_pos(
-                    md_tag, pos, readlen, master_read_dict, tran, readseq
-                )
-                # Count the mismatches (we only do this for unambiguous)
-                for mismatch in mismatches:
-                    # Ignore mismatches appearing in the first position (due to non templated addition)
-                    if mismatch != 0:
-                        char = mismatches[mismatch]
-                        mismatch_pos = pos + mismatch
-                        if mismatch_pos not in master_read_dict[tran]["seq"]:
-                            master_read_dict[tran]["seq"][mismatch_pos] = {}
-                        if char not in master_read_dict[tran]["seq"][mismatch_pos]:
-                            master_read_dict[tran]["seq"][mismatch_pos][char] = 0
-                        master_read_dict[tran]["seq"][mismatch_pos][char] += 1
-                # apply the modifiers
-                # pos = pos+pos_modifier
-                # readlen = readlen - readlen_modifier
-
-            try:
-                cds_start = transcriptome_info_dict[tran]["cds_start"]
-                cds_stop = transcriptome_info_dict[tran]["cds_stop"]
-
-                if pos >= cds_start and pos <= cds_stop:
-                    coding = True
-            except:
-                pass
-
-            if readlen in master_read_dict[tran]["unambig"]:
-                if pos in master_read_dict[tran]["unambig"][readlen]:
-                    master_read_dict[tran]["unambig"][readlen][pos] += 1
-                else:
-                    master_read_dict[tran]["unambig"][readlen][pos] = 1
-            else:
-                master_read_dict[tran]["unambig"][readlen] = {pos: 1}
-
-        if coding == True:
-            master_dict["unambiguous_coding_count"] += 1
-        elif coding == False:
-            master_dict["unambiguous_non_coding_count"] += 1
-
-    else:
-        ambiguously_mapped_reads += 1
-        for listname in process_chunk[read]:
-            tran = listname[0].replace("-", "_").replace("(", "").replace(")", "")
-            if tran not in master_read_dict:
-                master_read_dict[tran] = {
-                    "ambig": {},
-                    "unambig": {},
-                    "mismatches": {},
-                    "seq": {},
-                }
-            pos = int(listname[1])
-            read_tags = listname[2]
-            nm_tag = 0
-            for tag in read_tags:
-                if tag[0] == "NM":
-                    nm_tag = int(tag[1])
-            if nm_tag > 0:
-                md_tag = ""
-                for tag in read_tags:
-                    if tag[0] == "MD":
-                        md_tag = tag[1]
-                    pos_modifier, readlen_modifier, mismatches = get_mismatch_pos(
-                        md_tag, pos, readlen, master_read_dict, tran, readseq
-                    )
-                    # apply the modifiers
-                    # pos = pos+pos_modifier
-                    # readlen = readlen - readlen_modifier
-                if readlen in master_read_dict[tran]["ambig"]:
-                    if pos in master_read_dict[tran]["ambig"][readlen]:
-                        master_read_dict[tran]["ambig"][readlen][pos] += 1
-                    else:
-                        master_read_dict[tran]["ambig"][readlen][pos] = 1
-                else:
-                    master_read_dict[tran]["ambig"][readlen] = {pos: 1}
-    return ambiguously_mapped_reads
-
-
-def get_mismatch_pos(md_tag, pos, readlen, master_read_dict, tran, readseq):
-    nucs = ["A", "T", "G", "C"]
-    mismatches = {}
-    total_so_far = 0
-    prev_char = ""
-    for char in md_tag:
-        if char in nucs:
-            if prev_char != "":
-                total_so_far += int(prev_char)
-                prev_char = ""
-            mismatches[total_so_far + len(mismatches)] = readseq[
-                total_so_far + len(mismatches)
-            ]
-        else:
-            if char != "^" and char != "N":
-                if prev_char == "":
-                    prev_char = char
-                else:
-                    total_so_far += int(prev_char + char)
-                    prev_char = ""
-    readlen_modifier = 0
-    pos_modifier = 0
-    five_ok = False
-    three_ok = False
-    while five_ok == False:
-        for i in range(0, readlen):
-            if i in mismatches:
-                pos_modifier += 1
-                readlen_modifier += 1
-            else:
-                five_ok = True
-                break
-        five_ok = True
-
-    while three_ok == False:
-        for i in range(readlen - 1, 0, -1):
-            if i in mismatches:
-                readlen_modifier += 1
-            else:
-                three_ok = True
-                break
-        three_ok = True
-
-    return (pos_modifier, readlen_modifier, mismatches)
-
-
-def process_bam(bam_filepath, transcriptome_info_dict_path, outputfile, desc):
-    desc = desc
-    start_time = time.time()
-    study_dict = {}
-    nuc_count_dict = {"mapped": {}, "unmapped": {}}
-    dinuc_count_dict = {}
-    threeprime_nuc_count_dict = {"mapped": {}, "unmapped": {}}
-    read_length_dict = {}
-    unambig_read_length_dict = {}
-    unmapped_dict = {}
-    master_dict = {
-        "unambiguous_non_coding_count": 0,
-        "unambiguous_coding_count": 0,
-        "current_dir": os.getcwd(),
-    }
-
-    transcriptome_info_dict = {}
-    connection = sqlite3.connect(transcriptome_info_dict_path)
-    cursor = connection.cursor()
-    cursor.execute(
-        "SELECT transcript,cds_start,cds_stop,length,strand,chrom,tran_type from transcripts;"
-    )
-    result = cursor.fetchall()
-    for row in result:
-        transcriptome_info_dict[str(row[0])] = {
-            "cds_start": row[1],
-            "cds_stop": row[2],
-            "length": row[3],
-            "strand": row[4],
-            "chrom": row[5],
-            "exons": [],
-            "tran_type": row[6],
-        }
-    # print list(transcriptome_info_dict)[:10]
-
-    cursor.execute("SELECT * from exons;")
-    result = cursor.fetchall()
-    for row in result:
-        transcriptome_info_dict[str(row[0])]["exons"].append((row[1], row[2]))
-
-    # it might be the case that there are no multimappers, so set this to 0 first to avoid an error, it will be overwritten later if there is multimappers
-    multimappers = 0
-    unmapped_reads = 0
-    unambiguous_coding_count = 0
-    unambiguous_non_coding_count = 0
-    trip_periodicity_reads = 0
-
-    final_offsets = {
-        "fiveprime": {"offsets": {}, "read_scores": {}},
-        "threeprime": {"offsets": {}, "read_scores": {}},
-    }
-    master_read_dict = {}
-    prev_seq = ""
-    process_chunk = {"read_name": [["placeholder_tran", "1", "28"]]}
-    mapped_reads = 0
-    ambiguously_mapped_reads = 0
-    master_trip_dict = {"fiveprime": {}, "threeprime": {}}
-    master_offset_dict = {"fiveprime": {}, "threeprime": {}}
-    master_metagene_stop_dict = {"fiveprime": {}, "threeprime": {}}
-
-    os.system(f'samtools sort -n {bam_filepath} -o {bam_filepath}_n_sorted.bam')
-    pysam.set_verbosity(0)
-    infile = pysam.Samfile(f"{bam_filepath}_n_sorted.bam", "rb")
-    header = infile.header["HD"]
-    unsorted = False
-    if "SO" in header:
-        if header["SO"] != "queryname":
-            unsorted = True
-    else:
-        unsorted = True
-    if unsorted == True:
-        print(
-            "ERROR: Bam file appears to be unsorted or not sorted by read name. To sort by read name use the command: samtools sort -n input.bam output.bam"
-        )
-        print(header, bam_filepath)
-        sys.exit()
-    total_bam_lines = 0
-    all_ref_ids = infile.references
-
-    for read in infile.fetch(until_eof=True):
-        total_bam_lines += 1
-        if not read.is_unmapped:
-            ref = read.reference_id
-            tran = (all_ref_ids[ref]).split(".")[0]
-            mapped_reads += 1
-            if mapped_reads % 1000000 == 0:
-                print(
-                    "{} reads parsed at {}".format(
-                        mapped_reads, (time.time() - start_time)
-                    )
-                )
-            pos = read.reference_start
-            readname = read.query_name
-            read_tags = read.tags
-            if readname == list(process_chunk)[0]:
-                process_chunk[readname].append([tran, pos, read_tags])
-            # if the current read is different from previous reads send 'process_chunk' to the 'processor' function, then start 'process_chunk' over using current read
-            else:
-                if list(process_chunk)[0] != "read_name":
-
-                    # At this point we work out readseq, we do this for multiple reasons, firstly so we don't count the sequence from a read multiple times, just because
-                    # it aligns multiple times and secondly we only call read.seq once (read.seq is computationally expensive)
-                    seq = read.seq
-                    readlen = len(seq)
-
-                    # Note if a read maps ambiguously it will still be counted toward the read length distribution (however it will only be counted once, not each time it maps)
-                    if readlen not in read_length_dict:
-                        read_length_dict[readlen] = 0
-                    read_length_dict[readlen] += 1
-
-                    if readlen not in nuc_count_dict["mapped"]:
-                        nuc_count_dict["mapped"][readlen] = {}
-                    if readlen not in threeprime_nuc_count_dict["mapped"]:
-                        threeprime_nuc_count_dict["mapped"][readlen] = {}
-                    if readlen not in dinuc_count_dict:
-                        dinuc_count_dict[readlen] = {
-                            "AA": 0,
-                            "TA": 0,
-                            "GA": 0,
-                            "CA": 0,
-                            "AT": 0,
-                            "TT": 0,
-                            "GT": 0,
-                            "CT": 0,
-                            "AG": 0,
-                            "TG": 0,
-                            "GG": 0,
-                            "CG": 0,
-                            "AC": 0,
-                            "TC": 0,
-                            "GC": 0,
-                            "CC": 0,
-                        }
-
-                    for i in range(0, len(seq)):
-                        if i not in nuc_count_dict["mapped"][readlen]:
-                            nuc_count_dict["mapped"][readlen][i] = {
-                                "A": 0,
-                                "T": 0,
-                                "G": 0,
-                                "C": 0,
-                                "N": 0,
-                            }
-                        nuc_count_dict["mapped"][readlen][i][seq[i]] += 1
-
-                    for i in range(0, len(seq)):
-                        try:
-                            dinuc_count_dict[readlen][seq[i : i + 2]] += 1
-                        except:
-                            pass
-
-                    for i in range(len(seq), 0, -1):
-                        dist = i - len(seq)
-                        if dist not in threeprime_nuc_count_dict["mapped"][readlen]:
-                            threeprime_nuc_count_dict["mapped"][readlen][dist] = {
-                                "A": 0,
-                                "T": 0,
-                                "G": 0,
-                                "C": 0,
-                                "N": 0,
-                            }
-                        threeprime_nuc_count_dict["mapped"][readlen][dist][
-                            seq[dist]
-                        ] += 1
-                    ambiguously_mapped_reads += processor(
-                        process_chunk,
-                        master_read_dict,
-                        transcriptome_info_dict,
-                        master_dict,
-                        prev_seq,
-                        unambig_read_length_dict,
-                    )
-                process_chunk = {readname: [[tran, pos, read_tags]]}
-                prev_seq = read.seq
-        else:
-            unmapped_reads += 1
-
-            # Add this unmapped read to unmapped_dict so we can see what the most frequent unmapped read is.
-            seq = read.seq
-            readlen = len(seq)
-            if seq in unmapped_dict:
-                unmapped_dict[seq] += 1
-            else:
-                unmapped_dict[seq] = 1
-
-            # Populate the nuc_count_dict with this unmapped read
-            if readlen not in nuc_count_dict["unmapped"]:
-                nuc_count_dict["unmapped"][readlen] = {}
-            for i in range(0, len(seq)):
-                if i not in nuc_count_dict["unmapped"][readlen]:
-                    nuc_count_dict["unmapped"][readlen][i] = {
-                        "A": 0,
-                        "T": 0,
-                        "G": 0,
-                        "C": 0,
-                        "N": 0,
-                    }
-                nuc_count_dict["unmapped"][readlen][i][seq[i]] += 1
-
-            if readlen not in threeprime_nuc_count_dict["unmapped"]:
-                threeprime_nuc_count_dict["unmapped"][readlen] = {}
-
-            for i in range(len(seq), 0, -1):
-                dist = i - len(seq)
-                if dist not in threeprime_nuc_count_dict["unmapped"][readlen]:
-                    threeprime_nuc_count_dict["unmapped"][readlen][dist] = {
-                        "A": 0,
-                        "T": 0,
-                        "G": 0,
-                        "C": 0,
-                        "N": 0,
-                    }
-                threeprime_nuc_count_dict["unmapped"][readlen][dist][seq[dist]] += 1
-
-    # add stats about mapped/unmapped reads to file dict which will be used for the final report
-    master_dict["total_bam_lines"] = total_bam_lines
-    master_dict["mapped_reads"] = mapped_reads
-    master_dict["unmapped_reads"] = unmapped_reads
-    master_read_dict["unmapped_reads"] = unmapped_reads
-    master_dict["ambiguously_mapped_reads"] = ambiguously_mapped_reads
-
-    if "read_name" in master_read_dict:
-        del master_read_dict["read_name"]
-    print("BAM file processed")
-    print("Creating metagenes, triplet periodicity plots, etc.")
-    for tran in master_read_dict:
-        try:
-            cds_start = transcriptome_info_dict[tran]["cds_start"]
-            cds_stop = transcriptome_info_dict[tran]["cds_stop"]
-        except:
-            continue
-
-        tranlen = transcriptome_info_dict[tran]["length"]
-        # Use this to discard transcripts with no 5' leader or 3' trailer
-        if (
-            cds_start > 1
-            and cds_stop < tranlen
-            and transcriptome_info_dict[tran]["tran_type"] == 1
-        ):
-            for primetype in ["fiveprime", "threeprime"]:
-                # Create the triplet periodicity and metainfo plots based on both the 5' and 3' ends of reads
-                for readlength in master_read_dict[tran]["unambig"]:
-                    # print "readlength", readlength
-                    # for each fiveprime postion for this readlength within this transcript
-                    for raw_pos in master_read_dict[tran]["unambig"][readlength]:
-                        # print "raw pos", raw_pos
-                        trip_periodicity_reads += 1
-                        if primetype == "fiveprime":
-                            # get the five prime postion minus the cds start postion
-                            real_pos = raw_pos - cds_start
-                            rel_stop_pos = raw_pos - cds_stop
-                        elif primetype == "threeprime":
-                            real_pos = (raw_pos + readlength) - cds_start
-                            rel_stop_pos = (raw_pos + readlength) - cds_stop
-                        # get the readcount at the raw postion
-                        readcount = master_read_dict[tran]["unambig"][readlength][
-                            raw_pos
-                        ]
-                        # print "readcount", readcount
-                        frame = real_pos % 3
-                        if real_pos >= cds_start and real_pos <= cds_stop:
-                            if readlength in master_trip_dict[primetype]:
-                                master_trip_dict[primetype][readlength][
-                                    str(frame)
-                                ] += readcount
-                            else:
-                                master_trip_dict[primetype][readlength] = {
-                                    "0": 0.0,
-                                    "1": 0.0,
-                                    "2": 0.0,
-                                }
-                                master_trip_dict[primetype][readlength][
-                                    str(frame)
-                                ] += readcount
-                        # now populate offset dict with the 'real_positions' upstream of cds_start, these will be used for metainfo dict
-                        if real_pos > (-600) and real_pos < (601):
-                            if readlength in master_offset_dict[primetype]:
-                                if (
-                                    real_pos
-                                    in master_offset_dict[primetype][readlength]
-                                ):
-                                    # print "real pos in offset dict"
-                                    master_offset_dict[primetype][readlength][
-                                        real_pos
-                                    ] += readcount
-                                else:
-                                    # print "real pos not in offset dict"
-                                    master_offset_dict[primetype][readlength][
-                                        real_pos
-                                    ] = readcount
-                            else:
-                                # initiliase with zero to avoid missing neighbours below
-                                # print "initialising with zeros"
-                                master_offset_dict[primetype][readlength] = {}
-                                for i in range(-600, 601):
-                                    master_offset_dict[primetype][readlength][i] = 0
-                                master_offset_dict[primetype][readlength][
-                                    real_pos
-                                ] += readcount
-
-                        # now populate offset dict with the 'real_positions' upstream of cds_start, these will be used for metainfo dict
-                        if rel_stop_pos > (-600) and rel_stop_pos < (601):
-                            if readlength in master_metagene_stop_dict[primetype]:
-                                if (
-                                    rel_stop_pos
-                                    in master_metagene_stop_dict[primetype][readlength]
-                                ):
-                                    master_metagene_stop_dict[primetype][readlength][
-                                        rel_stop_pos
-                                    ] += readcount
-                                else:
-                                    master_metagene_stop_dict[primetype][readlength][
-                                        rel_stop_pos
-                                    ] = readcount
-                            else:
-                                # initiliase with zero to avoid missing neighbours below
-                                master_metagene_stop_dict[primetype][readlength] = {}
-                                for i in range(-600, 601):
-                                    master_metagene_stop_dict[primetype][readlength][
-                                        i
-                                    ] = 0
-                                master_metagene_stop_dict[primetype][readlength][
-                                    rel_stop_pos
-                                ] += readcount
-
-    # master trip dict is now made up of readlengths with 3 frames and a count associated with each frame
-    # create a 'score' for each readlength by putting the max frame count over the second highest frame count
-    for primetype in ["fiveprime", "threeprime"]:
-        for subreadlength in master_trip_dict[primetype]:
-            maxcount = 0
-            secondmaxcount = 0
-            for frame in master_trip_dict[primetype][subreadlength]:
-                if master_trip_dict[primetype][subreadlength][frame] > maxcount:
-                    maxcount = master_trip_dict[primetype][subreadlength][frame]
-            for frame in master_trip_dict[primetype][subreadlength]:
-                if (
-                    master_trip_dict[primetype][subreadlength][frame] > secondmaxcount
-                    and master_trip_dict[primetype][subreadlength][frame] != maxcount
-                ):
-                    secondmaxcount = master_trip_dict[primetype][subreadlength][frame]
-            # a perfect score would be 0 meaning there is only a single peak, the worst score would be 1 meaning two highest peaks are the same height
-            master_trip_dict[primetype][subreadlength]["score"] = float(
-                secondmaxcount
-            ) / float(maxcount)
-    # This part is to determine what offsets to give each read length
-    print("Calculating offsets")
-    for primetype in ["fiveprime", "threeprime"]:
-        for readlen in master_offset_dict[primetype]:
-            accepted_len = False
-            max_relative_pos = 0
-            max_relative_count = 0
-            for relative_pos in master_offset_dict[primetype][readlen]:
-                # This line is to ensure we don't choose an offset greater than the readlength (in cases of a large peak far up/downstream)
-                if abs(relative_pos) < 10 or abs(relative_pos) > (readlen - 10):
-                    continue
-                if (
-                    master_offset_dict[primetype][readlen][relative_pos]
-                    > max_relative_count
-                ):
-                    max_relative_pos = relative_pos
-                    max_relative_count = master_offset_dict[primetype][readlen][
-                        relative_pos
-                    ]
-            # print "for readlen {} the max_relative pos is {}".format(readlen, max_relative_pos)
-            if primetype == "fiveprime":
-                # -3 to get from p-site to a-site, +1 to account for 1 based co-ordinates, resulting in -2 overall
-                final_offsets[primetype]["offsets"][readlen] = abs(max_relative_pos - 2)
-            elif primetype == "threeprime":
-                # +3 to get from p-site to a-site, -1 to account for 1 based co-ordinates, resulting in +2 overall
-                final_offsets[primetype]["offsets"][readlen] = (
-                    max_relative_pos * (-1)
-                ) + 2
-            # If there are no reads in CDS regions for a specific length, it may not be present in master_trip_dict
-            if readlen in master_trip_dict[primetype]:
-                final_offsets[primetype]["read_scores"][readlen] = master_trip_dict[
-                    primetype
-                ][readlen]["score"]
-            else:
-                final_offsets[primetype]["read_scores"][readlen] = 0.0
-    master_read_dict["offsets"] = final_offsets
-    master_read_dict["trip_periodicity"] = master_trip_dict
-    master_read_dict["desc"] = "Null"
-    master_read_dict["mapped_reads"] = mapped_reads
-    master_read_dict["nuc_counts"] = nuc_count_dict
-    master_read_dict["dinuc_counts"] = dinuc_count_dict
-    master_read_dict["threeprime_nuc_counts"] = threeprime_nuc_count_dict
-    master_read_dict["metagene_counts"] = master_offset_dict
-    master_read_dict["stop_metagene_counts"] = master_metagene_stop_dict
-    master_read_dict["read_lengths"] = read_length_dict
-    master_read_dict["unambig_read_lengths"] = unambig_read_length_dict
-    master_read_dict["coding_counts"] = master_dict["unambiguous_coding_count"]
-    master_read_dict["noncoding_counts"] = master_dict["unambiguous_non_coding_count"]
-    master_read_dict["ambiguous_counts"] = master_dict["ambiguously_mapped_reads"]
-    master_read_dict["frequent_unmapped_reads"] = (
-        sorted(unmapped_dict.items(), key=operator.itemgetter(1))
-    )[-2000:]
-    master_read_dict["cutadapt_removed"] = 0
-    master_read_dict["rrna_removed"] = 0
-    # If no reads are removed by minus m there won't be an entry in the log file, so initiliase with 0 first and change if there is a line
-    master_read_dict["removed_minus_m"] = 0
-    master_dict["removed_minus_m"] = 0
-    # We work out the total counts for 5', cds 3' for differential translation here, would be better to do thisn in processor but need the offsets
-    master_read_dict["unambiguous_all_totals"] = {}
-    master_read_dict["unambiguous_fiveprime_totals"] = {}
-    master_read_dict["unambiguous_cds_totals"] = {}
-    master_read_dict["unambiguous_threeprime_totals"] = {}
-
-    master_read_dict["ambiguous_all_totals"] = {}
-    master_read_dict["ambiguous_fiveprime_totals"] = {}
-    master_read_dict["ambiguous_cds_totals"] = {}
-    master_read_dict["ambiguous_threeprime_totals"] = {}
-    print("calculating transcript counts")
-    for tran in master_read_dict:
-        if tran in transcriptome_info_dict:
-            five_total = 0
-            cds_total = 0
-            three_total = 0
-
-            ambig_five_total = 0
-            ambig_cds_total = 0
-            ambig_three_total = 0
-
-            cds_start = transcriptome_info_dict[tran]["cds_start"]
-            cds_stop = transcriptome_info_dict[tran]["cds_stop"]
-            for readlen in master_read_dict[tran]["unambig"]:
-                if readlen in final_offsets["fiveprime"]["offsets"]:
-                    offset = final_offsets["fiveprime"]["offsets"][readlen]
-                else:
-                    offset = 15
-                for pos in master_read_dict[tran]["unambig"][readlen]:
-                    real_pos = pos + offset
-                    if real_pos < cds_start:
-                        five_total += master_read_dict[tran]["unambig"][readlen][pos]
-                    elif real_pos >= cds_start and real_pos <= cds_stop:
-                        cds_total += master_read_dict[tran]["unambig"][readlen][pos]
-                    elif real_pos > cds_stop:
-                        three_total += master_read_dict[tran]["unambig"][readlen][pos]
-            master_read_dict["unambiguous_all_totals"][tran] = (
-                five_total + cds_total + three_total
-            )
-            master_read_dict["unambiguous_fiveprime_totals"][tran] = five_total
-            master_read_dict["unambiguous_cds_totals"][tran] = cds_total
-            master_read_dict["unambiguous_threeprime_totals"][tran] = three_total
-
-            for readlen in master_read_dict[tran]["ambig"]:
-                if readlen in final_offsets["fiveprime"]["offsets"]:
-                    offset = final_offsets["fiveprime"]["offsets"][readlen]
-                else:
-                    offset = 15
-                for pos in master_read_dict[tran]["ambig"][readlen]:
-                    real_pos = pos + offset
-                    if real_pos < cds_start:
-                        ambig_five_total += master_read_dict[tran]["ambig"][readlen][
-                            pos
-                        ]
-                    elif real_pos >= cds_start and real_pos <= cds_stop:
-                        ambig_cds_total += master_read_dict[tran]["ambig"][readlen][pos]
-                    elif real_pos > cds_stop:
-                        ambig_three_total += master_read_dict[tran]["ambig"][readlen][
-                            pos
-                        ]
-
-            master_read_dict["ambiguous_all_totals"][tran] = (
-                five_total
-                + cds_total
-                + three_total
-                + ambig_five_total
-                + ambig_cds_total
-                + ambig_three_total
-            )
-            master_read_dict["ambiguous_fiveprime_totals"][tran] = (
-                five_total + ambig_five_total
-            )
-            master_read_dict["ambiguous_cds_totals"][tran] = cds_total + ambig_cds_total
-            master_read_dict["ambiguous_threeprime_totals"][tran] = (
-                three_total + ambig_three_total
-            )
-    print("Writing out to sqlite file")
-    sqlite_db = SqliteDict(outputfile, autocommit=False)
-    for key in master_read_dict:
-        sqlite_db[key] = master_read_dict[key]
-    sqlite_db["description"] = desc
-    sqlite_db.commit()
-    sqlite_db.close()
-
-
-if __name__ == "__main__":
-    if len(sys.argv) <= 2:
-        print(
-            "Usage: python bam_to_sqlite.py <path_to_bam_file> <path_to_organism.sqlite> <file_description (optional)>"
-        )
-        sys.exit()
-    bam_filepath = sys.argv[1]
-    annotation_sqlite_filepath = sys.argv[2]
-    try:
-        desc = sys.argv[3]
-    except:
-        desc = bam_filepath.split("/")[-1]
-
-    outputfile = sys.argv[4]
-    process_bam(bam_filepath, annotation_sqlite_filepath, outputfile, desc)

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Binary file trips_bam_to_sqlite/test-data/test_sorted.bam has changed

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--- a/trips_bam_to_sqlite/trips_bam_to_sqlite.xml	Wed Apr 20 15:18:00 2022 +0000
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,37 +0,0 @@
-<tool id="bam_to_sqlite" name="BAM to Sqlite (TRIPS-Viz)" version="1.0">
-    <description>Convert BAM file to SQLITE for TRIPS-Viz</description>
-    <requirements>
-        <requirement type="package" version="0.19.0">pysam</requirement>
-        <requirement type="package" version="1.7.0">sqlitedict</requirement>
-        <requirement type="package" version="3.37.1">sqlite</requirement>
-    </requirements>
-    <command><![CDATA[
-        python $__tool_directory__/bam_to_sqlite.py $input1 $input2 $input3 $output1
-    ]]></command>
-    <inputs>
-        <param name="input1" type="data" format="bam" label="Sorted (samtools -n) BAM file" />
-        <param name="input2" type="data" format="sqlite" label="Path to organism SQLITE annotation file" />
-        <param name="input3" type="text" label="Description of this sample" />
-    </inputs>
-    <outputs>
-       <data name="output1" format="sqlite"/>
-    </outputs>
-    <tests>
-        <test>
-            <param name="input1" value="test_n_sorted.bam" ftype="bam"/>
-            <param name="input2" value="test_org.sqlite" ftype="sqlite"/>
-            <param name="input3" value="TEST DESCRIPTION"/>
-            <output name="output1" file="test_n_sorted.bamv2.sqlite" ftype="sqlite" lines_diff="4" />
-        </test>
-    </tests>
-    <help>
-        **What it does**
-
-        Process your transcriptome read alignments for TRIPS-Viz 
-
-        Prerequisites: 
-        - name-sorted bam file (samtools sort -n)
-        - TRIPS-Viz annotation file in SQLITE format.
-    </help>
-    <citations/>
-</tool>