R/ms2Group.R

Defines functions ms2Group

Documented in ms2Group

#' group MS/MS precursor masses
#'
#' @description hierarchically cluster ms/ms precursor scans within and across
#' samples, according to a m/z and retention time error.
#' @return a list identical to adductSpectra containing an additional list
#' element:
#' @param adductSpectra AdductSpec object
#' @param nCores numeric the number of cores to use for parallel computation.
#' The default is to use all available cores detected using the function
#' parallel::detectCores()
#' @param maxRtDrift numeric for the maximum rentention time
#' drift to be considered. Default is 20.
#' @param ms1mzError numeric maximum MS1 mass:charge error
#' @param ms2mzError numeric maximum MS2 mass:charge error
#' @param dotProdClust logical remove previous dot prod clustering results
#' @param minDotProd numeric. Minimum mean dot product spectral similarity
#' score to keep a spectrum within an MS/MS group (default = 0.8).
#' @param disMetric metric to use for distance in clustering
#' @param fclustMethod method to use for the fclust function
#' @param compSpecGen logical for whether composite spectra generation
#' is necessary
#' @usage ms2Group(adductSpectra = NULL, nCores = NULL, maxRtDrift = NULL,
#' ms1mzError = 0.1, ms2mzError = 1, dotProdClust = TRUE, minDotProd = 0.8,
#' fclustMethod = "median", disMetric = "euclidean", compSpecGen = TRUE,
#' adjPrecursorMZ = TRUE)
#' @param adjPrecursorMZ logical for precursor mass:charge adjustment
#'
ms2Group <-
    function(adductSpectra = NULL,
            nCores = NULL,
            maxRtDrift = NULL,
            ms1mzError = 0.1,
            ms2mzError = 1,
            dotProdClust = TRUE,
            minDotProd = 0.8,
            fclustMethod = "median",
            disMetric = "euclidean",
            compSpecGen = TRUE,
            adjPrecursorMZ = TRUE) {
        # error handling
        if (is.null(adductSpectra)) {
            stop("argument adductSpectra is missing with no default")
        } else if (!is(adductSpectra, 'AdductSpec')) {
            stop("argument adductSpectra is not an AdductSpec class object.")
        }
        # check if the parameters are the same and stop if re-grouping 
        # unneccessary
        if (ncol(Parameters(adductSpectra)) > 0) {
            if (all(c("maxRtDrift", "ms1mzError", "dotProdClust") %in%
                    colnames(Parameters(adductSpectra)))) {
                if (!is.null(maxRtDrift)) {
                    if (Parameters(adductSpectra)$maxRtDrift ==
                        maxRtDrift &&
                        Parameters(adductSpectra)$ms1mzError ==
                        ms1mzError &&
                        Parameters(adductSpectra)[, 'dotProdClust'] ==
                        FALSE)
                    {
                        stop(
                            "Grouping and composite spectrum generation is
                            unnecessary as maxRtDrift and ms1mzError
                            arguments are un-changed from
                            the previous round of grouping...\n"
                        )
                    }
                    }
                    }
                    }
        # empty peptide identification results slots
        specPepMatches(adductSpectra) <- vector("list", 0)
        sumAdductType(adductSpectra) <- data.frame()
        Peptides(adductSpectra) <- data.frame()
        metaDataTmp <- metaData(adductSpectra)
        metaDataTmp$orderTmp <- seq_len(nrow(metaDataTmp))
        indxTmp <- metaDataTmp$aboveMinPeaks == 1
        metaDataTmp <- metaDataTmp[indxTmp,]
        # all spectra 1 list
        allSpectra <-
            unlist(adductMS2spec(adductSpectra), recursive =
                        FALSE)
        # check if mz error has changed if not then do not re-do
        # hierarchical clustering of mass
        hclustMass <- TRUE
        if (!is.null(Parameters(adductSpectra)$ms1mzError)) {
            hclustMass <- ifelse(Parameters(adductSpectra)$ms1mzError ==
                                    ms1mzError,
                                FALSE,
                                TRUE)
        }
        if (hclustMass == TRUE) {
            message(
                "Hierarchically clustering ",
                prettyNum(nrow(metaDataTmp),
                        big.mark = ","),
                " MS/MS precursors and cutting dendrogram according
                to a mass error of ",
                ms1mzError,
                "...\n"
            )
            # if necessary adjust the mass drift
            if ({
                "adjPrecursorMZ" %in% colnames(metaDataTmp)
            } == FALSE) {
                adjPrecursorMZ <- FALSE
            }
            if (adjPrecursorMZ == TRUE) {
                # add ppm mass drift value
                precursorMZs <- metaDataTmp$precursorMZ
            } else {
                precursorMZs <- metaDataTmp$precursorMZ
            }
            hr <- fastcluster::hclust.vector(precursorMZs,
                                            metric = disMetric,
                                            method = fclustMethod)
            # m/z error
            metaDataTmp$msPrecursor_group <- 0
            metaDataTmp$msPrecursor_group <-
                cutree(hr, h = ms1mzError)
        }
        # order by msPrecursor group
        orderMsPreC <- order(metaDataTmp$msPrecursor_group)
        metaDataTmp <- metaDataTmp[orderMsPreC,]
        allSpectra <- allSpectra[orderMsPreC]
        # adjust RT if necessary adjust with intStd
        if (!is.null(metaDataTmp$intStdRtDrift)) {
            retentionTime <- as.numeric(metaDataTmp$retentionTime) +
                (as.numeric(metaDataTmp$intStdRtDrift) *
                    -1)
        } else {
            retentionTime <- as.numeric(metaDataTmp$retentionTime)
        }
        if (length(rtDevModels(adductSpectra)) > 0) {
            message("Adjusting retention time based on loess model...")
            metaDataTmp$predRtLoess <- 0
            for (x in seq_along(Specfile.paths(adductSpectra))) {
                indxFileTmp <- which(metaDataTmp$mzXMLFile %in%
                                        basename(Specfile.paths(
                                            adductSpectra))[x])
                metaDataTmp$predRtLoess[indxFileTmp] <-
                    retentionTime[indxFileTmp] -
                    (predict(
                        rtDevModels(adductSpectra)[[x]],
                        newdata =
                            as.numeric(retentionTime[indxFileTmp]) / 60
                    ) * 60)
            }
            retentionTime <- as.numeric(metaDataTmp$predRtLoess)
        }
        # if unneccessary do not re do retention time clustering
        hclustRt <- TRUE
        if (!is.null(Parameters(adductSpectra)$maxRtDrift)) {
            if (!is.null(maxRtDrift)) {
                hclustRt <- ifelse(Parameters(adductSpectra)[
                    , 'maxRtDrift'] == maxRtDrift,
                                    FALSE,
                                    TRUE)
            } else {
                hclustRt <- FALSE
            }
        }
        if (hclustRt) {
            # matching ms/ms scans across samples
            message(
                "clustering ms/ms scans across samples based on a
                maximum RT drift of ",
                maxRtDrift,
                ".\n"
            )
            interMSMSrtGroups <- tapply(retentionTime,
                                        metaDataTmp$msPrecursor_group,
                                        function(x) {
                if (length(x) > 1) {
                    cutree(
                        fastcluster::hclust.vector(x, metric =
                                                    disMetric,
                                                    method = fclustMethod),
                        h = maxRtDrift
                    )
                } else {
                    1
                }
            })
            # interMSMS groups
            metaDataTmp$interMSMSrtGroups <-
                paste0(metaDataTmp$msPrecursor_group,
                        "_",
                        unlist(interMSMSrtGroups))
            message(
                length(unique(metaDataTmp$interMSMSrtGroups)),
                " MS/MS peak groups identified at maxRtDrift of ",
                maxRtDrift,
                " seconds"
            )   
        }
        if (dotProdClust == TRUE)
        {
            # spectral similarity all ms/ms groups # order by
            #adduct MS2 file
            #names
            spectrumIds <- paste0(metaDataTmp$mzXMLFile,
                                 ".MS2spectra",
                                 ".",
                                 metaDataTmp$seqNum)
            allSpectra <- allSpectra[spectrumIds]
            # remove previous dot prod clustering results
            metaDataTmp$interMSMSrtGroups <-
                gsub("\\..+", "",
                     metaDataTmp$interMSMSrtGroups)
            # intra-MSMS group spectral similarity (dot product)
            # clustering
            message(
                "intra-MS/MS group (n=",
                length(unique(metaDataTmp$interMSMSrtGroups)),
                " RT + m/z groups) spectral similarity
                (dot product) clustering...\n"
            )
            specByGroup <- split(allSpectra,
                                metaDataTmp$interMSMSrtGroups)
            spectraList <- NULL
            groupName <- NULL
            dotProdSimClust <-
                function(spectraList = NULL,
                        groupName = NULL,
                        minDotProdThresh = minDotProd,
                        binSizeMS2 = 1) {
                    # if length 1 return nothing
                    clusterId <- groupName
                    if (length(spectraList) > 1) {
                        specNamesVecTmp <- rep(names(spectraList),
                                                vapply(spectraList,
                                                nrow, FUN.VALUE = numeric(1)))
                        allSpecTmp <-
                            do.call(rbind, spectraList)
                        maxMass <-
                            floor(max(allSpecTmp[, 1])) + 10
                        # padded integer labels
                        message("Calculating dot product matrix ",
                                length(unique(specNamesVecTmp)),
                                " spectra\n")
                        # padded integer labels
                        labelsTmp <-
                            paste0(
                                "(",
                                seq(binSizeMS2,
                                    (maxMass - binSizeMS2),
                                    binSizeMS2),
                                ",",
                                seq((2 * binSizeMS2),
                                    maxMass, binSizeMS2),
                                "]"
                            )
                        massBinsIndivTmp <-
                            cut(
                                allSpecTmp[, 1],
                                breaks = seq(binSizeMS2,
                                        maxMass, binSizeMS2),
                                labels = labelsTmp
                            )
                        # empty bins
                        indivSpecVec <-
                            tapply(allSpecTmp[, 2],
                                    paste0(specNamesVecTmp,
                                        massBinsIndivTmp),
                                    sum)
                        # identify any absent bins
                        allBinNames <-
                            paste0(rep(unique(specNamesVecTmp),
                                    each = length(labelsTmp)),
                                rep(labelsTmp, length(
                                    unique(specNamesVecTmp)
                                )))
                        # add absent bins as zeros
                        allBinsTmp <-
                            rep(0, length(allBinNames))
                        names(allBinsTmp) <- allBinNames
                        # ensure indivSpecVec is in right order
                        allBinsTmp[match(names(indivSpecVec),
                                        allBinNames)] <-
                            indivSpecVec
                        indivSpecMat <-
                            matrix(allBinsTmp,
                                    byrow =
                                        FALSE,
                                    nrow = length(labelsTmp))
                        # mean all pairwise dotproducts
                        dotProdMat <-
                            crossprod(indivSpecMat)
                        sqrtMatrixTmp <-
                            matrix(
                                    sqrt(colSums(indivSpecMat ^ 2)),
                                    nrow = nrow(dotProdMat),
                                    ncol = ncol(dotProdMat),
                                    byrow = TRUE
                            )
                        dotProdsTmp <-
                            dotProdMat / (sqrtMatrixTmp *
                                            diag(sqrtMatrixTmp))
                        hr <-
                            fastcluster::hclust(as.dist(1 -
                                                            dotProdsTmp),
                                                method = "single")
                        clusterId <- cutree(hr, h = {
                            1 - minDotProdThresh
                        })
                        clusterId <-
                            paste0(groupName, ".",
                                    clusterId)
                    }
                    return(clusterId)
                }  # end dot product hierarchical clustering
            nCores <- ifelse(is.null(nCores), 1, nCores)
            if (nCores > 1) {
                # multi-threaded
                pmt <- proc.time()
                message(paste0(
                    "Starting SNOW cluster with ",
                    nCores,
                    " local sockets...\n"
                ))
                cl <- parallel::makeCluster(nCores)
                doSNOW::registerDoSNOW(cl)
                dotProdResults <-
                    foreach(
                        spectraList =
                            specByGroup,
                        groupName = names(specByGroup),
                        .combine = "c",
                        .packages = c("fastcluster")
                    ) %dopar% {
                        dotProdSimClust(spectraList, groupName,
                                        binSizeMS2 =
                                            ms2mzError)
                    }
                # stop SNOW cluster
                parallel::stopCluster(cl)
                proc.time() - pmt
                # sort dot prod results to reinsert in correct
                # order
                indxSpecTmp <-
                    match(do.call(c, lapply(specByGroup, names)),
                        spectrumIds)
                dotProdResults[indxSpecTmp] <-
                    dotProdResults
            } else {
                dotProdResults <- vector("character",
                                        nrow(metaDataTmp))
                for (i in seq_along(specByGroup)) {
                    message(i,
                            " of ",
                            length(specByGroup),
                            " m/z + RT groups.\n")
                    dotProdResTmp <-
                        dotProdSimClust(
                            spectraList =
                                specByGroup[[i]],
                            groupName = names(specByGroup)[i],
                            binSizeMS2 = ms2mzError
                        )
                    indxSpecTmp <- match(names(specByGroup[[i]]), spectrumIds)
                    dotProdResults[indxSpecTmp] <-
                        dotProdResTmp
                }
            }
            # intra-MSMS group spectral similarity (dot
            # product) clustering
            metaDataTmp$interMSMSrtGroups <-
                dotProdResults
            message(
                prettyNum(length(
                    unique(metaDataTmp$interMSMSrtGroups)
                ) - 1,
                big.mark = ","),
                " inter-MS/MS groups
                following spectral
                similarity (dot product) clustering...\n"
            )   
        }
        if (compSpecGen == TRUE)
        {
            # order by adduct MS2 file names
            spectrumIds <-
                paste0(metaDataTmp$mzXMLFile,
                        ".MS2spectra",
                        ".",
                        metaDataTmp$seqNum)
            allSpectra <-
                allSpectra[spectrumIds]
            compSpecTable <- table(metaDataTmp$interMSMSrtGroups)
            message("Generating ",
                    sum(compSpecTable > 1),
                    " composite spectra...\n")
            # if nCores not null then parallel comp
            if (!is.null(nCores)) {
                # all single spectra groups first
                interMSMScompSpec <-
                    vector("list",
                            length(unique(
                            metaDataTmp$interMSMSrtGroups
                            )))
                names(interMSMScompSpec) <-
                    unique(metaDataTmp$interMSMSrtGroups)
                singleGroupIndx <- match(names(compSpecTable)[
                    compSpecTable == 1],
                                        metaDataTmp$interMSMSrtGroups)
                listIndx <- match(metaDataTmp$interMSMSrtGroups[
                    singleGroupIndx],names(interMSMScompSpec))
                interMSMScompSpec[listIndx] <-
                    allSpectra[paste0(metaDataTmp$mzXMLFile[singleGroupIndx],
                                    ".MS2spectra",
                                    ".",
                                    metaDataTmp$seqNum[singleGroupIndx])]
                multSampNames <-
                    names(compSpecTable)[compSpecTable > 1]
                # mult sample index
                multSampIndx <- match(names(interMSMScompSpec), multSampNames)
                message(paste0(
                    "Starting SNOW cluster
                    with ",
                    nCores,
                    " local sockets...\n"
                ))
                cl <-
                    parallel::makeCluster(nCores)
                doSNOW::registerDoSNOW(cl)
                compSpecTmp <-
                    foreach(j = multSampNames,
                            .packages = c("fastcluster",
                                        "adductomics")) %dopar% {
                  subSpecNamesTmp <- spectrumIds[metaDataTmp$interMSMSrtGroups
                                                %in% j]
                  spec.df <-
                    do.call(rbind, allSpectra[subSpecNamesTmp])
                    return(signalGrouping(spec.df,
                                        ms2mzError, minPeaks = 0))
              }
                # stop SNOW cluster
                parallel::stopCluster(cl)
                interMSMScompSpec[which(!is.na(multSampIndx))] <-
                    compSpecTmp[multSampIndx[!is.na(multSampIndx)]]
        } else {
            pmt <- proc.time()
            interMSMScompSpec <-
                vector("list",
                        length(unique(
                            metaDataTmp$interMSMSrtGroups
                        )))
            names(interMSMScompSpec) <-
                unique(metaDataTmp$interMSMSrtGroups)
            singleGroupIndx <- match(names(compSpecTable)[compSpecTable == 1],
                                    metaDataTmp$interMSMSrtGroups)
            listIndx <- match(metaDataTmp$interMSMSrtGroups[singleGroupIndx],
                            names(interMSMScompSpec))
            interMSMScompSpec[listIndx] <-
                allSpectra[paste0(metaDataTmp$mzXMLFile[singleGroupIndx],
                                ".MS2spectra",
                                ".",
                                metaDataTmp$seqNum[singleGroupIndx])]
            compSpecIndx <-
                names(compSpecTable)[compSpecTable > 1]
            pb <- txtProgressBar(
                min = 0,
                max = length(compSpecIndx),
                style = 3
            )
            for (j in seq_along(compSpecIndx)) {
                setTxtProgressBar(pb, j)
                intGroup <- compSpecIndx[j]
                listIndxTmp <- which(names(interMSMScompSpec) == intGroup)
                subSpecNamesTmp <-
                    spectrumIds[metaDataTmp$interMSMSrtGroups
                                %in% intGroup]
                spec.df <-
                    do.call(rbind, allSpectra[subSpecNamesTmp])
                interMSMScompSpec[[listIndxTmp]] <-
                    signalGrouping(spec.df,
                                    ms2mzError,
                                    minPeaks = 0)
            }
            proc.time() - pmt
        }  # nCores
            # add inter sample spectra to adductspectra
            groupMS2spec(adductSpectra) <-
                lapply(interMSMScompSpec,
                        function(subL) {
                            colnames(subL) <- c("mass", "intensity")
                            return(data.frame(subL, stringsAsFactors =
                                                FALSE))
                        })
        }
        metaDataTmp <- metaDataTmp[order(metaDataTmp$orderTmp),]
        metaDataTmp$orderTmp <- NULL
        # add mod metaData back to AdductSpec object
        # add additional columns if necc
        missCol <-
            setdiff(colnames(metaDataTmp),
                    colnames(metaData(adductSpectra)))
        metaData(adductSpectra)[, missCol] <-
            ""
        nameIndx <-
            match(colnames(metaDataTmp),
                colnames(metaData(adductSpectra)))
        metaData(adductSpectra) <-
            metaData(adductSpectra)[, nameIndx]
        metaData(adductSpectra)[indxTmp,] <-
            metaDataTmp
        # add parameters to parameters slot
        argsTmp <-
            c(
                "maxRtDrift",
                "ms1mzError",
                "ms2mzError",
                "dotProdClust",
                "minDotProd",
                "fclustMethod",
                "disMetric"
            )
        paramTmp <-
            data.frame(
                ifelse(!is.null(maxRtDrift), maxRtDrift, "NULL"),
                ms1mzError,
                ms2mzError,
                dotProdClust,
                minDotProd,
                fclustMethod,
                disMetric,
                stringsAsFactors = FALSE
            )
        colnames(paramTmp) <- argsTmp
        if (ncol(Parameters(adductSpectra))==0) {
            Parameters(adductSpectra) <- paramTmp
        } else {
            Parameters(adductSpectra)[, argsTmp] <-
                paramTmp
        }
        return(adductSpectra)
                }  # end function

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adductomicsR documentation built on Nov. 8, 2020, 4:49 p.m.