view ideas_genome_tracks.R @ 75:d9342dc571e5 draft

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#!/usr/bin/env Rscript

suppressPackageStartupMessages(library("data.table"))
suppressPackageStartupMessages(library("optparse"))

option_list <- list(
    make_option(c("--build"), action="store", dest="build", help="Genome build"),
    make_option(c("--chrom_len_file"), action="store", dest="chrom_len_file", help="Chromosome length file"),
    make_option(c("--email"),  action="store", dest="email", help="User email address"),
    make_option(c("--galaxy_url"),  action="store", dest="galaxy_url", help="Galaxy instance base URL"),
    make_option(c("--hub_name"),  action="store", dest="hub_name", default=NULL, help="Hub name without spaces"),
    make_option(c("--input_dir_para"), action="store", dest="input_dir_para", help="Directory containing .para outputs from IDEAS"),
    make_option(c("--input_dir_state"), action="store", dest="input_dir_state", help="Directory containing .state outputs from IDEAS"),
    make_option(c("--long_label"), action="store", dest="long_label", help="Hub long label"),
    make_option(c("--output_trackhub"),  action="store", dest="output_trackhub", help="Output hub file"),
    make_option(c("--output_trackhub_files_path"),  action="store", dest="output_trackhub_files_path", help="Output hub extra files path"),
    make_option(c("--output_trackhub_id"),  action="store", dest="output_trackhub_id", help="Encoded output_trackhub dataset id"),
    make_option(c("--script_dir"), action="store", dest="script_dir", help="R script source directory"),
    make_option(c("--short_label"), action="store", dest="short_label", help="Hub short label"),
    make_option(c("--state_colors"), action="store", dest="state_colors", default=NULL, help="List of state_colors"),
    make_option(c("--state_indexes"), action="store", dest="state_indexes", default=NULL, help="List of state_indexes")
)

parser <- OptionParser(usage="%prog [options] file", option_list=option_list)
args <- parse_args(parser, positional_arguments=TRUE)
opt <- args$options

create_primary_html = function(output_trackhub, tracks_dir, build) {
    track_files <- list.files(path=tracks_dir);
    s <- paste('<html><head></head><body>', sep="\n");
    s <- paste(s, '<h3>Contents of directory ~/myHub/', build, ' required by UCSC TrackHub</h3>\n', sep="");
    s <- paste(s, '<ul>\n', sep="")
    for (i in 1:length(track_files)) {
        s <- paste(s, '<li><a href="', 'myHub/', build, "/", track_files[i], '">', track_files[i], '</a></li>\n', sep="");
    }
    s <- paste(s, '</ul>\n</body>\n</html>', sep="");
    cat(s, file=output_trackhub);
}

create_track = function(input_dir_state, chrom_len_file, base_track_file_name) {
    # Create everything needed, including the bigbed file,
    # to render the tracks within the UCSC track hub.
    state_files <- list.files(path=input_dir_state, full.names=TRUE);
    genome_size = read.table(chrom_len_file);
    g = NULL;
    for(i in state_files) {
        tg = as.matrix(fread(i));
        t = NULL;
        for(j in 1:dim(genome_size)[1]) {
            t = c(t, which(tg[,2]==as.character(genome_size[j, 1]) & as.numeric(tg[,4]) > as.numeric(genome_size[j, 2])));
        }
        if (length(t) > 0) {
            tg = tg[-t,];
        }
        t = which(is.na(match(tg[,2], genome_size[,1]))==T);
        if (length(t)>0) {
            tg = tg[-t,];
        }
        g = rbind(g, tg);
    }
    uchr = sort(unique(as.character(g[,2])));
    g1 = NULL;
    for(i in uchr) {
        t = which(g[,2]==i);
        g1 = rbind(g1, g[t[order(as.integer(g[t, 3]))],]);
    }
    g = NULL;
    chr = as.character(g1[,2]);
    posst = as.numeric(g1[,3]);
    posed = as.numeric(g1[,4]);
    state = as.matrix(g1[,5:(dim(g1)[2]-1)]);
    state_name = 0:max(state);
    L = dim(g1)[1];
    n = dim(state)[2];
    cells = as.character(colnames(g1)[5:(dim(g1)[2]-1)]);
    options(scipen=999);
    tt = which(chr[2:L]!=chr[2:L-1]);
    tt = c(tt, which(posst[2:L]!=posed[2:L-1]));
    tt = sort(unique(tt));
    for(i in 1:n) {
        tstate = state[,i];
        t = c(tt, which(tstate[2:L]!=tstate[2:L-1]));
        t = sort(unique(t));
        t0 = c(0, t) + 1;
        t = c(t, L);
        np = cbind(chr[t], posst[t0], posed[t], tstate[t]);
        track_file_name_bed_unsorted <- get_track_file_name(base_track_file_name, i, "bed_unsorted");
        track_file_name_bed <- get_track_file_name(base_track_file_name, i, "bed");
        track_file_name_bigbed <- get_track_file_name(base_track_file_name, i, "bigbed");
        x = cbind(np[, 1:3], state_name[as.integer(np[,4])+1], 1000, ".", np[,2:3]);
        write.table(as.matrix(x), track_file_name_bed_unsorted, quote=F, row.names=F, col.names=F);
        cmd = paste("LC_COLLATE=C sort -k1,1 -k2,2n < ", track_file_name_bed_unsorted, " > ", track_file_name_bed);
        system(cmd);
        cmd = paste("bedToBigBed ", track_file_name_bed, chrom_len_file, " ", track_file_name_bigbed);
        system(cmd);
        system(paste("rm ", track_file_name_bed_unsorted));
        system(paste("rm ", track_file_name_bed));
    }
    return(cells);
}

create_track_db = function(galaxy_url, encoded_dataset_id, input_dir_para, input_dir_state, build,
        chrom_len_file, tracks_dir, hub_name, short_label, long_label, state_indexes, state_colors) {
    # Create a trackDb.txt file that includes each state.
    para_files <- list.files(path=input_dir_para, full.names=TRUE);
    ######
    # The following is temporary and will be eliminated when there
    # are multiple .para files.  See the comments in the for loop
    # below.
    data_frame <- read.table(para_files[1], comment="!", header=T);
	color_hex_code <- create_heatmap(data_frame);
    ######
    base_track_file_name <- paste(tracks_dir, hub_name, sep="");
    cells = create_track(input_dir_state, chrom_len_file, base_track_file_name);
    if (!is.null(state_indexes)) {
        # Split state_indexes into a list of integers.
        s_indexes <- c();
        index_str <- as.character(state_indexes);
        items <- strsplit(index_str, ",")
        for (item in items) {
            s_indexes <- c(s_indexes, as.integer(item));
        }
        # Split state_colors into a list of strings.
        s_colors <- c();
        color_str <- as.character(state_colors);
        items <- strsplit(color_str, ",");
        for (item in items) {
            s_colors <- c(s_colors, item);
        }
    }
    track_db = NULL;
    for (i in 1:length(cells)) {
        # Get the color for the current state.
        if (is.null(state_indexes) || !is.element(i, s_indexes)) {
            ######
            # This is for future use since there is currently only a single .para file.
            # data_frame <- read.table(para_files[i], comment="!", header=T);
            # color_hex_code <- create_heatmap(data_frame);
        } else {
            # Use the selected color for the current state.
            color_hex_code <- s_colors[i];
        }
        color <- paste(c(col2rgb(color_hex_code)), collapse=",");
        # Get the bigDataUrl.
        big_data_url <- get_big_data_url(galaxy_url, encoded_dataset_id, tracks_dir, i, build);
        # trackDb.txt track hub entry.
        track_db = c(track_db, paste("track ", hub_name, "_track_", i, sep=""));
        track_db = c(track_db, "type bigBed");
        track_db = c(track_db, paste("bigDataUrl", big_data_url, sep=" "));
        track_db = c(track_db, paste("shortLabel", short_label, sep=" "));
        track_db = c(track_db, paste("longLabel", long_label, sep=" "));
        track_db = c(track_db, paste("priority", i));
        track_db = c(track_db, "itemRgb on");
        track_db = c(track_db, "maxItems 100000");
        track_db = c(track_db, paste("color", color, sep=" "));
        track_db = c(track_db, "visibility dense");
        track_db = c(track_db, "");
    }
    return(track_db);
}

get_big_data_url = function(galaxy_url, encoded_dataset_id, tracks_dir, index, build) {
    track_files <- list.files(path=tracks_dir, pattern="\\.bigbed");
    s <- paste(galaxy_url, 'datasets/', encoded_dataset_id, '/display/myHub/', build, '/', track_files[index], sep="");
    return(s)
}

get_track_file_name = function(base_track_file_name, index, ext) {
    track_file_name <- paste(base_track_file_name, index, ext, sep=".");
    return(track_file_name);
}

# Create the hub.txt output.
hub_name_line <- paste("hub ", opt$hub_name, sep="");
short_label_line <- paste("shortLabel ", opt$short_label, sep="");
long_label_line <- paste("longLabel ", opt$long_label, sep="");
genomes_txt_line <- paste("genomesFile genomes.txt", sep="");
email_line <- paste("email ", opt$email, sep="");
contents <- paste(hub_name_line, short_label_line, long_label_line, genomes_txt_line, email_line, sep="\n");
hub_dir <- paste(opt$output_trackhub_files_path, "/", "myHub", "/", sep="");
dir.create(hub_dir, showWarnings=FALSE);
hub_file_path <- paste(hub_dir, "hub.txt", sep="");
write.table(contents, file=hub_file_path, quote=F, row.names=F, col.names=F);

# Create the genomes.txt output.
genome_line <- paste("genome ", opt$build, sep="");
track_db_line <- paste("trackDb ", opt$build, "/", "trackDb.txt", sep="");
contents <- paste(genome_line, track_db_line, sep="\n");
genomes_file_path <- paste(hub_dir, "genomes.txt", sep="");
write.table(contents, file=genomes_file_path, quote=F, row.names=F, col.names=F);

# Create the tracks.
heatmap_path <- paste(opt$script_dir, "create_heatmap.R", sep="/");
source(heatmap_path);
tracks_dir <- paste(hub_dir, opt$build, "/", sep="");
dir.create(tracks_dir, showWarnings=FALSE);
track_db <- create_track_db(opt$galaxy_url, opt$output_trackhub_id, opt$input_dir_para, opt$input_dir_state, opt$build,
        opt$chrom_len_file, tracks_dir, opt$hub_name, opt$short_label, opt$long_label, opt$state_indexes, opt$state_colors);

# Create the trackDb.txt output.
track_db_file_path <- paste(tracks_dir, "trackDb.txt", sep="");
write.table(track_db, file=track_db_file_path, quote=F, row.names=F, col.names=F);

# Create the primary HTML dataset.
create_primary_html(opt$output_trackhub, tracks_dir, opt$build);