Package 'phylotaR'

Title: Automated Phylogenetic Sequence Cluster Identification from 'GenBank'
Description: A pipeline for the identification, within taxonomic groups, of orthologous sequence clusters from 'GenBank' <https://www.ncbi.nlm.nih.gov/genbank/> as the first step in a phylogenetic analysis. The pipeline depends on a local alignment search tool and is, therefore, not dependent on differences in gene naming conventions and naming errors.
Authors: Shixiang Wang [aut, cre], Hannes Hettling [aut], Rutger Vos [aut], Alexander Zizka [aut], Dom Bennett [aut], Alexandre Antonelli [aut]
Maintainer: Shixiang Wang <[email protected]>
License: MIT + file LICENSE
Version: 1.3.0
Built: 2024-12-16 06:32:58 UTC
Source: https://github.com/ropensci/phylotaR

Help Index


Add clade to tree

Description

Returns a tree with added clade

Usage

addClade(tree, id, clade)

Arguments

tree

TreeMan object

id

tip/node ID in tree to which the clade will be added

clade

TreeMan object

Details

Add a TreeMan object to an existing TreeMan object by specifying an ID at which to attach. If the id specified is an internal node, then the original clade descending from that node will be replaced. Before running, ensure no IDs are shared between the tree and the clade, except for the IDs in the clade of that tree that will be replaced. Note, returned tree will not have a node matrix.

See Also

rmClade, getSubtree, https://github.com/DomBennett/treeman/wiki/manip-methods

Examples

t1 <- randTree(100)
# extract a clade
cld <- getSubtree(t1, "n2")
# remove the same clade
t2 <- rmClade(t1, "n2")
# add the clade again
t3 <- addClade(t2, "n2", cld)
# t1 and t3 should be the same
# note there is no need to remove a clade before adding
t3 <- addClade(t1, "n2", cld) # same tree

Add node matrix to a tree

Description

Return tree with node matrix added.

Usage

addNdmtrx(tree, shared = FALSE, ...)

Arguments

tree

TreeMan object

shared

T/F, should the bigmatrix be shared? See bigmemory documentation.

...

as.big.matrix() additional arguments

Details

The node matrix makes 'enquiry'-type computations faster: determining node ages, number of descendants etc. But it takes up large amounts of memory and has no impact on adding or removing tips. Note, trees with the node matrix can not be written to disk using the 'serialization format' i.e. with save or saveRDS. The matrix is generated with bigmemory's 'as.big.matrix()'.

See Also

updateSlts, rmNdmtrx, https://cran.r-project.org/package=bigmemory

Examples

#
tree <- randTree(10, wndmtrx = FALSE)
summary(tree)
tree <- addNdmtrx(tree)
summary(tree)

Add tip to a tree

Description

Returns a tree with a new tip ID added

Usage

addTip(
  tree,
  tid,
  sid,
  strt_age = NULL,
  end_age = 0,
  tree_age = NULL,
  pid = paste0("p_", tid)
)

Arguments

tree

TreeMan object

tid

tip ID

sid

ID of node that will become new tip sisters

strt_age

timepoint at which new tips first appear in the tree

end_age

timepoint at which new tips end appear in the tree, default 0.

tree_age

age of tree

pid

parent ID (default is 'p_' + tid)

Details

User must provide new tip ID, the ID of the node which will become the new tip's sister, and new branch lengths. The tip ID must only contain letters numbers and underscores. Optionally, user can specify the IDs for the new parental internal nodes. Ensure that the strt_age is greater than the end_age, and that the strt_age falls within the age span of the sister ID. Otherwise, negative spns may be produced leading to an error. Note, returned tree will not have a node matrix. Note, providing negative end ages will increase the age of the tree.

See Also

rmTips, https://github.com/DomBennett/treeman/wiki/manip-methods

Examples

tree <- randTree(10)
tree_age <- getAge(tree)
possible_ages <- getSpnAge(tree, "t1", tree_age)
start_age <- runif(1, possible_ages[["end"]], possible_ages[["start"]])
end_age <- possible_ages[["end"]]
tree <- addTip(tree,
  tid = "t11", sid = "t1", strt_age = start_age,
  end_age = end_age, tree_age = tree_age
)
summary(tree)

aotus

Description

aotus

Format

A TreeMan or Phylota object

Examples

data("aotus")

Download in batches

Description

Run downloader function in batches for sequences or taxonomic records

Usage

batcher(ids, func, ps, lvl = 0)

Arguments

ids

Vector of record ids

func

Downloader function

ps

Parameters list, generated with parameters()

lvl

Integer, number of message indentations indicating code depth.

Value

Vector of records

vector of rentrez function results

See Also

Other run-private: blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


birds

Description

birds

Format

A TreeMan or Phylota object

Examples

data("birds")

Filter BLAST results

Description

Given a BLAST output, filters query-subject pairs such that only HSPs with a coverage greater than mncvrg (specified in the pipeline parameters) remain. Filters both: query-subject and subject-query pairs, if one of the coverages is insufficient. HSP coverage is obtained from the BLAST column qcovs.

Usage

blast_filter(blast_res, ps, lvl = 3)

Arguments

blast_res

BLAST results

ps

Parameters list, generated with parameters()

lvl

Integer, number of message indentations indicating code depth.

Value

data.frame blast res

See Also

Other run-private: batcher(), blast_clstr(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Ensures NCBI BLAST tools are installed

Description

Ensures NCBI BLAST executables are installed on the system. Tests version number of BLAST tools.

Usage

blast_setup(d, v, wd, otsdr)

Arguments

d

Directory to NCBI BLAST tools

v

v, T/F

wd

Working directory

otsdr

Run through outsider?

Details

BLAST tools must be version >= 2.0

Value

list

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


BLAST All vs All

Description

Return BLAST results from BLASTing all vs all for given sequences. Returns NULL if no BLAST results generated.

Usage

blast_sqs(txid, typ, sqs, ps, lvl)

Arguments

txid

Taxonomic node ID, numeric

typ

Cluster type, 'direct' or 'subtree'

sqs

Sequences

ps

Parameters list, generated with parameters()

lvl

Integer, number of message indentations indicating code depth.

Value

blast_res data.frame or NULL

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Save BLAST results to cache

Description

Run whenever local BLAST runs are made to save results in cache in case the pipeline is run again.

Usage

blastcache_save(sids, wd, obj)

Arguments

sids

Sequence IDs

wd

Working dir

obj

BLAST result

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Generate a balanced tree

Description

Returns a balanced TreeMan tree with n tips.

Usage

blncdTree(n, wndmtrx = FALSE, parallel = FALSE)

Arguments

n

number of tips, integer, must be 3 or greater

wndmtrx

T/F add node matrix? Default FALSE.

parallel

T/F run in parallel? Default FALSE.

Details

Equivalent to ape's stree(type='balanced') but returns a TreeMan tree. Tree is always rooted and bifurcating.

See Also

TreeMan-class, randTree, unblncdTree

Examples

tree <- blncdTree(5)

bromeliads

Description

bromeliads

Format

A TreeMan or Phylota object

Examples

data("bromeliads")

Set-up a cache

Description

Creates a cache of parameters in the wd.

Usage

cache_setup(ps, ovrwrt = FALSE)

Arguments

ps

Parameters list, generated with parameters()

ovrwrt

Overwrite existing cache? Default FALSE.

Details

Warning: overwriting with this function will delete the existing cache.

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Calculate MAD score

Description

For all sequences in a cluster(s) the MAD score.

Usage

calc_mad(phylota, cid)

Arguments

phylota

Phylota object

cid

Cluster ID(s)

Details

MAD is a measure of the deviation in sequence length of a cluster. Values range from 0 to 1. Clusters with values close to 1 have sequences with similar lengths.

Value

vector

See Also

Other tools-public: calc_wrdfrq(), drop_by_rank(), drop_clstrs(), drop_sqs(), get_clstr_slot(), get_nsqs(), get_ntaxa(), get_sq_slot(), get_stage_times(), get_tx_slot(), get_txids(), is_txid_in_clstr(), is_txid_in_sq(), list_clstrrec_slots(), list_ncbi_ranks(), list_seqrec_slots(), list_taxrec_slots(), plot_phylota_pa(), plot_phylota_treemap(), read_phylota(), write_sqs()

Examples

data("bromeliads")
random_cids <- sample(bromeliads@cids, 10)
(calc_mad(phylota = bromeliads, cid = random_cids))

Calculate word frequencies

Description

For all sequences in a cluster(s) calculate the frequency of separate words in either the sequence definitions or the reported feature name.

Usage

calc_wrdfrq(
  phylota,
  cid,
  min_frq = 0.1,
  min_nchar = 1,
  type = c("dfln", "nm"),
  ignr_pttrn = "[^a-z0-9]"
)

Arguments

phylota

Phylota object

cid

Cluster ID(s)

min_frq

Minimum frequency

min_nchar

Minimum number of characters for a word

type

Definitions (dfln) or features (nm)

ignr_pttrn

Ignore pattern, REGEX for text to ignore.

Details

By default, anything that is not alphanumeric is ignored. 'dfln' and 'nm' match the slot names in a SeqRec, see list_seqrec_slots().

Value

list

See Also

Other tools-public: calc_mad(), drop_by_rank(), drop_clstrs(), drop_sqs(), get_clstr_slot(), get_nsqs(), get_ntaxa(), get_sq_slot(), get_stage_times(), get_tx_slot(), get_txids(), is_txid_in_clstr(), is_txid_in_sq(), list_clstrrec_slots(), list_ncbi_ranks(), list_seqrec_slots(), list_taxrec_slots(), plot_phylota_pa(), plot_phylota_treemap(), read_phylota(), write_sqs()

Examples

data('dragonflies')
# work out what gene region the cluster is likely representing with word freqs.
random_cids <- sample(dragonflies@cids, 10)
# most frequent words in definition line
(calc_wrdfrq(phylota = dragonflies, cid = random_cids, type = 'dfln'))
# most frequent words in feature name
(calc_wrdfrq(phylota = dragonflies, cid = random_cids, type = 'nm'))

Calculate the BLD between two trees

Description

Returns the branch length distance between two trees.

Usage

calcDstBLD(tree_1, tree_2, nrmlsd = FALSE, parallel = FALSE, progress = "none")

Arguments

tree_1

TreeMan object

tree_2

TreeMan object

nrmlsd

Boolean, should returned value be between 0 and 1? Default, FALSE.

parallel

logical, make parallel?

progress

name of the progress bar to use, see create_progress_bar

Details

BLD is the Robinson-Foulds distance weighted by branch length. Instead of summing the differences in partitions between the two trees, the metric takes the square root of the squared difference in branch lengths. Parallelizable.

References

Kuhner, M. K. and Felsenstein, J. (1994) Simulation comparison of phylogeny algorithms under equal and unequal evolutionary rates. Molecular Biology and Evolution, 11, 459-468.

See Also

calcDstTrp, calcDstRF https://github.com/DomBennett/treeman/wiki/calc-methods

Examples

tree_1 <- randTree(10)
tree_2 <- randTree(10)
calcDstBLD(tree_1, tree_2)

Calculate the distance matrix

Description

Returns a distance matrix for specified ids of a tree.

Usage

calcDstMtrx(tree, ids, parallel = FALSE, progress = "none")

Arguments

tree

TreeMan object

ids

IDs of nodes/tips

parallel

logical, make parallel?

progress

name of the progress bar to use, see create_progress_bar

Details

The distance between every id in the tree is calculated by summing the lengths of the branches that connect them. This can be useful for testing the distances between trees, checking for evoltuionary isolated tips etc. Parallelizable.

See Also

calcDstBLD, calcDstRF, calcDstTrp https://github.com/DomBennett/treeman/wiki/calc-methods

Examples

# checking the distance between two trees

tree_1 <- randTree(10)
tree_2 <- randTree(10)
dmat1 <- calcDstMtrx(tree_1, tree_1["tips"])
dmat2 <- calcDstMtrx(tree_2, tree_2["tips"])
mdl <- cor.test(x = dmat1, y = dmat2)
as.numeric(1 - mdl$estimate) # 1 - Pearson's r

Calculate the Robinson-Foulds distance between two trees

Description

Returns the Robinson-Foulds distance between two trees.

Usage

calcDstRF(tree_1, tree_2, nrmlsd = FALSE)

Arguments

tree_1

TreeMan object

tree_2

TreeMan object

nrmlsd

Boolean, should returned value be between 0 and 1? Default, FALSE.

Details

RF distance is calculated as the sum of partitions in one tree that are not shared by the other. The maximum number of split differences is the total number of nodes in both trees (excluding the roots). Trees are assumed to be bifurcating, this is not tested. The metric is calculated as if trees are unrooted. Parallelizable.

References

Robinson, D. R.; Foulds, L. R. (1981). "Comparison of phylogenetic trees". Mathematical Biosciences 53: 131-147.

See Also

calcDstBLD, calcDstTrp https://github.com/DomBennett/treeman/wiki/calc-methods

Examples

tree_1 <- randTree(10)
tree_2 <- randTree(10)
calcDstRF(tree_1, tree_2)

Calculate the triplet distance between two trees

Description

Returns the triplet distance between two trees.

Usage

calcDstTrp(tree_1, tree_2, nrmlsd = FALSE, parallel = FALSE, progress = "none")

Arguments

tree_1

TreeMan object

tree_2

TreeMan object

nrmlsd

Boolean, should returned value be between 0 and 1? Default, FALSE.

parallel

logical, make parallel?

progress

name of the progress bar to use, see create_progress_bar

Details

The triplet distance is calculated as the sum of different outgroups among every triplet of tips between the two trees. Normalisation is performed by dividing the resulting number by the total number of triplets shared between the two trees. The triplet distance is calculated only for shared tips between the two trees. Parallelizable.

References

Critchlow DE, Pearl DK, Qian C. (1996) The Triples Distance for rooted bifurcating phylogenetic trees. Systematic Biology, 45, 323-34.

See Also

calcDstBLD, calcDstRF https://github.com/DomBennett/treeman/wiki/calc-methods

Examples

tree_1 <- randTree(10)
tree_2 <- randTree(10)
calcDstTrp(tree_1, tree_2)

Calculate evolutionary distinctness

Description

Returns the evolutationary distinctness of ids using the fair proportion metric.

Usage

calcFrPrp(tree, tids, progress = "none")

Arguments

tree

TreeMan object

tids

tip IDs

progress

name of the progress bar to use, see create_progress_bar

Details

The fair proportion metric calculates the evolutionary distinctness of tips in a tree through summing the total amount of branch length each tip represents, where each branch in the tree is evenly divided between all descendants. Parallelizable.

References

Isaac, N.J.B., Turvey, S.T., Collen, B., Waterman, C. and Baillie, J.E.M. (2007). Mammals on the EDGE: conservation priorities based on threat and phylogeny. PLoS ONE, 2, e296.

See Also

calcPhyDv, calcPrtFrPrp, https://github.com/DomBennett/treeman/wiki/calc-methods

Examples

tree <- randTree(10)
calcFrPrp(tree, tree["tips"])

Calculate the balance of a node

Description

Returns the balance of a node.

Usage

calcNdBlnc(tree, id)

Arguments

tree

TreeMan object

id

node id

Details

Balance is calculated as the absolute difference between the number of descendents of the two bifurcating edges of a node and the expected value for a balanced tree. NA is returned if the node is polytomous or a tip.

See Also

calcNdsBlnc, https://github.com/DomBennett/treeman/wiki/calc-methods

Examples

tree <- randTree(10)
calcNdBlnc(tree, id = tree["root"]) # root balance

Calculate the balances of all nodes

Description

Returns the absolute differences in number of descendants for bifurcating branches of every node

Usage

calcNdsBlnc(tree, ids, parallel = FALSE, progress = "none")

Arguments

tree

TreeMan object

ids

node ids

parallel

logical, make parallel?

progress

name of the progress bar to use, see create_progress_bar

Details

Runs calcNdBlnc() across all node IDs. NA is returned if the node is polytomous. Parallelizable.

See Also

calcNdBlnc, https://github.com/DomBennett/treeman/wiki/calc-methods

Examples

tree <- randTree(10)
calcNdsBlnc(tree, ids = tree["nds"])

Calculate phylogenetic overlap

Description

Returns the sum of branch lengths represented by ids_1 and ids_2 for a tree.

Usage

calcOvrlp(
  tree,
  ids_1,
  ids_2,
  nrmlsd = FALSE,
  parallel = FALSE,
  progress = "none"
)

Arguments

tree

TreeMan object

ids_1

tip ids of community 1

ids_2

tip ids of community 2

nrmlsd

Boolean, should returned value be between 0 and 1? Default, FALSE.

parallel

logical, make parallel?

progress

name of the progress bar to use, see create_progress_bar

Details

Use this to calculate the sum of branch lengths that are represented between two communities. This measure is also known as the unique fraction. It can be used to measure concepts of phylogenetic turnover. Parallelizable.

References

Lozupone, C., & Knight, R. (2005). UniFrac: a new phylogenetic method for comparing microbial communities. Applied and Environmental Microbiology, 71(12), 8228-35.

See Also

calcPhyDv https://github.com/DomBennett/treeman/wiki/calc-methods

Examples

tree <- randTree(10)
ids_1 <- sample(tree["tips"], 5)
ids_2 <- sample(tree["tips"], 5)
calcOvrlp(tree, ids_1, ids_2)

Calculate phylogenetic diversity

Description

Returns the phylogenetic diversity of a tree for the tips specified.

Usage

calcPhyDv(tree, tids, parallel = FALSE, progress = "none")

Arguments

tree

TreeMan object

tids

tip ids

parallel

logical, make parallel?

progress

name of the progress bar to use, see create_progress_bar

Details

Faith's phylogenetic diversity is calculated as the sum of all connected branches for specified tips in a tree. It can be used to investigate how biodviersity as measured by the phylogeny changes. Parallelizable. The function uses getCnntdNds().

References

Faith, D. (1992). Conservation evaluation and phylogenetic diversity. Biological Conservation, 61, 1-10.

See Also

calcFrPrp, calcOvrlp, getCnnctdNds, https://github.com/DomBennett/treeman/wiki/calc-methods

Examples

tree <- randTree(10)
calcPhyDv(tree, tree["tips"])

Calculate evolutionary distinctness for part of tree

Description

Returns the evolutationary distinctness of ids using the fair proportion metric.

Usage

calcPrtFrPrp(tree, tids, ignr = NULL, progress = "none")

Arguments

tree

TreeMan object

tids

tip IDs

ignr

tips to ignore in calculation

progress

name of the progress bar to use, see create_progress_bar

Details

Extension of calcFrPrp() but with ignore argument. Use ignr to ignore certain tips from calculation. For example, if any of tips are extinct you may wish to ignore these.

References

Isaac, N.J.B., Turvey, S.T., Collen, B., Waterman, C. and Baillie, J.E.M. (2007). Mammals on the EDGE: conservation priorities based on threat and phylogeny. PLoS ONE, 2, e296.

See Also

calcFrPrp https://github.com/DomBennett/treeman/wiki/calc-methods

Examples

tree <- randTree(10)
calcPrtFrPrp(tree, c("t1", "t3"), ignr = "t2")

Check if ndlst is correct

Description

Return T/F fpr ndlst consistency

Usage

checkNdlst(ndlst, root)

Arguments

ndlst

ndlst

root

root ID

Details

Tests whether each node in tree points to valid other node IDs. Also ensures 'spn' and 'root' are correct. Reports nodes that have errors.

See Also

fastCheckTreeMan, checkTreeMen

Examples

tree <- randTree(100)
(checkNdlst(tree@ndlst, tree@root))

Check if trees are correct

Description

Return T/F if trees is a true TreeMen object

Usage

checkTreeMen(object)

Arguments

object

TreeMen object

Details

Tests whether all trees in object are TreeMan objects

See Also

checkNdlst


Hierarchically cluster all sequences of a txid

Description

Identifies all direct and subtree clusters for a taxonomic ID.

Usage

clstr_all(txid, sqs, txdct, ps, lvl = 0)

Arguments

txid

Taxonomic ID

sqs

Sequence object of all downloaded sequences

txdct

Taxonomic dictionary

ps

Parameters list, generated with parameters()

lvl

Integer, number of message indentations indicating code depth.

Value

ClstrArc

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Cluster sequences directly associated with txid

Description

In GenBank certain sequences may only be associated with a higher level taxon (e.g. genus, family ...). This function generates clusters from these sequences, alone. This function identifies such sequences in the sequence object and generates a list of clusters of cl_type 'direct'.

Usage

clstr_direct(txid, sqs, txdct, ps, lvl)

Arguments

txid

Taxonomic ID

sqs

Sequence object of all downloaded sequences

txdct

Taxonomic dictionary

ps

Parameters list, generated with parameters()

lvl

Integer, number of message indentations indicating code depth.

Value

ClstrArc

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Identify clusters from sequences

Description

Given a sequence object, this function will generate a list of cluster objects using BLAST

Usage

clstr_sqs(txid, sqs, ps, lvl, typ = c("direct", "subtree", "paraphyly"))

Arguments

txid

Taxonomic ID

sqs

Sequence object of sequences to be BLASTed

ps

Parameters list, generated with parameters()

lvl

Integer, number of message indentations indicating code depth.

typ

Direct, subtree or paraphyly?

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Cluster all sequences descending from a txid

Description

Identifies clusters from sequences associated with a txid and all its descendants. Clusters returned by this function will thus be of cl_type 'subtree'.

Usage

clstr_subtree(txid, sqs, txdct, dds, ps, lvl)

Arguments

txid

Taxonomic ID

sqs

Sequence object of all downloaded sequences

txdct

Taxonomic dictionary

dds

Vector of direct descendants

ps

Parameters list, generated with parameters()

lvl

Integer, number of message indentations indicating code depth.

Value

ClstrArc

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Cluster sets of clusters identified in cluster stage

Description

Loads cluster sets from cache. Extracts seed sequences and runs all-v-all BLAST of seeds to identify sister clusters. Sisters are then merged. An object of all sequences and clusters is then saved in cache.

Usage

clstr2_calc(ps)

Arguments

ps

Parameters list, generated with parameters()

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Cluster record archive

Description

Multiple cluster records.

Usage

## S4 method for signature 'ClstrArc'
as.character(x)

## S4 method for signature 'ClstrArc'
show(object)

## S4 method for signature 'ClstrArc'
print(x)

## S4 method for signature 'ClstrArc'
str(object, max.level = 2L, ...)

## S4 method for signature 'ClstrArc'
summary(object)

## S4 method for signature 'ClstrArc,character'
x[[i]]

## S4 method for signature 'ClstrArc,character,missing,missing'
x[i, j, ..., drop = TRUE]

Arguments

x

ClstrArc object

object

ClstrArc object

max.level

Maximum level of nesting for str()

...

Further arguments for str()

i

cid(s)

j

Unused

drop

Unused

Slots

ids

Vector of cluster record IDs

clstrs

List of ClstrArc named by ID

See Also

Other run-public: ClstrRec-class, Phylota-class, SeqArc-class, SeqRec-class, TaxDict-class, TaxRec-class, clusters2_run(), clusters_run(), parameters_reset(), reset(), restart(), run(), setup(), taxise_run()

Examples

data('aotus')
clstrarc <- aotus@clstrs
# this is a ClstrArc object
# it contains cluster records
show(clstrarc)
# you can access its different data slots with @
clstrarc@ids     # unique cluster ID
clstrarc@clstrs  # list of cluster records
# access cluster records [[
(clstrarc[[clstrarc@ids[[1]]]])  # first cluster record
# generate new cluster archives with [
(clstrarc[clstrarc@ids[1:10]])  # first 10 clusters

Generate list of clusters

Description

Takes a list of lists of cluster descriptions and generates ClstrRecs.

Usage

clstrrec_gen(clstr_list, txid, sqs, typ)

Arguments

clstr_list

List of list of cluster descriptions

txid

Taxonomic node ID

sqs

Sequence records

typ

Cluster type

Value

list of ClstrRecs

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Cluster record

Description

Cluster record contains all information on a cluster.

Usage

## S4 method for signature 'ClstrRec'
as.character(x)

## S4 method for signature 'ClstrRec'
show(object)

## S4 method for signature 'ClstrRec'
print(x)

## S4 method for signature 'ClstrRec'
str(object, max.level = 2L, ...)

## S4 method for signature 'ClstrRec'
summary(object)

Arguments

x

ClstrRec object

object

ClstrRec object

max.level

Maximum level of nesting for str()

...

Further arguments for str()

Slots

id

Cluster ID, integer

sids

Sequence IDs

nsqs

Number of sequences

txids

Source txids for sequences

ntx

Number of taxa

typ

Cluster type: direct, subtree or merged

seed

Seed sequence ID

prnt

Parent taxonomic ID

See Also

Other run-public: ClstrArc-class, Phylota-class, SeqArc-class, SeqRec-class, TaxDict-class, TaxRec-class, clusters2_run(), clusters_run(), parameters_reset(), reset(), restart(), run(), setup(), taxise_run()

Examples

data('aotus')
clstrrec <- aotus@clstrs@clstrs[[1]]
# this is a ClstrRec object
# it contains cluster information
show(clstrrec)
# you can access its different data slots with @
clstrrec@id     # cluster id
clstrrec@sids   # sequence IDs
clstrrec@nsqs   # number of sequences
clstrrec@txids  # taxonomic IDs of sequences
clstrrec@ntx    # number unique taxonomic IDs
clstrrec@typ    # cluster type: merged, subtree, direct or paraphyly
clstrrec@prnt   # MRCA of all taxa
clstrrec@seed   # most inter-connected sequence

Join clusters for merging

Description

Uses seed sequence BLAST results and IDs to join clusters identified as sisters into single clusters. Resulting object is of joined clusters, merging is required to reformat the clusters for subsequent analysis.

Usage

clstrs_join(blast_res, seed_ids, all_clstrs, ps)

Arguments

blast_res

Seed sequence BLAST results

seed_ids

Seed sequence IDs

all_clstrs

List of all clusters

ps

Parameters list, generated with parameters()

Value

list of joined clusters

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Merge joined clusters

Description

Takes a list of joined clusters and computes each data slot to create a single merged cluster. txdct is required for parent look-up.

Usage

clstrs_merge(jnd_clstrs, txdct)

Arguments

jnd_clstrs

List of joined clusters

txdct

Taxonomic dictionary

Value

list of ClstrRecs

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Run the cluster stage

Description

Run the third stage of the phylotaR pipeline, cluster. This stage hierarchically traverses the taxonomy identifying all direct and subtree clusters from downloaded sequences. Any taxonomic nodes too small for cluster identification are placed into paraphyletic clusters.

Usage

clusters_run(wd)

Arguments

wd

Working directory

See Also

Other run-public: ClstrArc-class, ClstrRec-class, Phylota-class, SeqArc-class, SeqRec-class, TaxDict-class, TaxRec-class, clusters2_run(), parameters_reset(), reset(), restart(), run(), setup(), taxise_run()

Examples

## Not run: 
  
  # Note: this example requires BLAST and internet to run.
  
  # example with temp folder
  wd <- file.path(tempdir(), 'aotus')
  # setup for aotus, make sure aotus/ folder already exists
  if (!dir.exists(wd)) {
    dir.create(wd)
  }
  ncbi_dr <- '[SET BLAST+ BIN PATH HERE]'
  setup(wd = wd, txid = 9504, ncbi_dr = ncbi_dr)  # txid for Aotus primate genus
  # individually run stages
  taxise_run(wd = wd)
  download_run(wd = wd)
  clusters_run(wd = wd)

## End(Not run)

Run the cluster2 stage

Description

Run the fourth stage of the phylotaR pipeline, cluster2. Identify clusters at higher taxonomic levels by merging sister clusters.

Usage

clusters2_run(wd)

Arguments

wd

Working directory

See Also

Other run-public: ClstrArc-class, ClstrRec-class, Phylota-class, SeqArc-class, SeqRec-class, TaxDict-class, TaxRec-class, clusters_run(), parameters_reset(), reset(), restart(), run(), setup(), taxise_run()

Examples

## Not run: 
  
  # Note: this example requires BLAST and internet to run.
  
  # example with temp folder
  wd <- file.path(tempdir(), 'aotus')
  # setup for aotus, make sure aotus/ folder already exists
  if (!dir.exists(wd)) {
    dir.create(wd)
  }
  ncbi_dr <- '[SET BLAST+ BIN PATH HERE]'
  setup(wd = wd, txid = 9504, ncbi_dr = ncbi_dr)  # txid for Aotus primate genus
  # individually run stages
  taxise_run(wd = wd)
  download_run(wd = wd)
  clusters_run(wd = wd)
  clusters2_run(wd = wd)

## End(Not run)

Run a command via terminal/command prompt

Description

Provide the command and arguments as a vector. Also can take a lgfl to which all stdout and stderr is written. If lgfl is not provided, a list is returned of 'status', 'stdout' and 'stderr'. Else only the status is returned - 1 success, 0 failed.

Usage

cmdln(cmd, args, ps, lgfl = NULL)

Arguments

cmd

Command to be run

args

Vector of command arguments, each parameter and value must be a separate element

ps

Paramters

lgfl

File to which stdout/err will be written

Details

Note, stdout/err are returned as 'raw'. Use rawToChar() to convert to characters.

Value

status, integer or character

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


cTrees

Description

Return TreeMen of concatenated trees.

Usage

cTrees(x, ...)

Arguments

x

TreeMan or TreeMen objects

...

more TreeMan or TreeMen objects

Details

Concatenate trees into single TreeMen object.

See Also

TreeMen-class, TreeMan-class, list-to-TreeMen

Examples

trees <- cTrees(randTree(10), randTree(10))

cycads

Description

cycads

Format

A TreeMan or Phylota object

Examples

data("cycads")

Get descendants

Description

Look-up either direct or all taxonomic descendants of a node from taxonomic dictionary.

Usage

descendants_get(id, txdct, direct = FALSE)

Arguments

id

txid

txdct

TaxDict

direct

T/F, return only direct descendants?

Value

vector

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Run download stage

Description

Run the second stage of phylotaR, download. This stage downloads sequences for all nodes with sequence numbers less than mxsqs. It hierarchically traverses the taxonomy for each node and downloads direct and subtree sequences for all descendants.

Usage

download_run(wd)

Arguments

wd

Working directory

Examples

## Not run: 
  
  # Note: this example requires BLAST and internet to run.
  
  # example with temp folder
  wd <- file.path(tempdir(), 'aotus')
  # setup for aotus, make sure aotus/ folder already exists
  if (!dir.exists(wd)) {
    dir.create(wd)
  }
  ncbi_dr <- '[SET BLAST+ BIN PATH HERE]'
  setup(wd = wd, txid = 9504, ncbi_dr = ncbi_dr)  # txid for Aotus primate genus
  # individually run stages
  taxise_run(wd = wd)
  download_run(wd = wd)

## End(Not run)

dragonflies

Description

dragonflies

Format

A TreeMan or Phylota object

Examples

data("dragonflies")

Reduce clusters to specific rank

Description

Identifies higher level taxa for each sequence in clusters for given rank. Selects representative sequences for each unique taxon using the choose_by functions. By default, the function will choose the top ten sequences by first sorting by those with fewest number of ambiguous sequences, then by youngest, then by sequence length.

Usage

drop_by_rank(
  phylota,
  rnk = "species",
  keep_higher = FALSE,
  n = 10,
  choose_by = c("pambgs", "age", "nncltds"),
  greatest = c(FALSE, FALSE, TRUE)
)

Arguments

phylota

Phylota object

rnk

Taxonomic rank

keep_higher

Keep higher taxonomic ranks?

n

Number of sequences per taxon

choose_by

Vector of selection functions

greatest

Greatest of lowest for each choose_by function

Value

phylota

See Also

Other tools-public: calc_mad(), calc_wrdfrq(), drop_clstrs(), drop_sqs(), get_clstr_slot(), get_nsqs(), get_ntaxa(), get_sq_slot(), get_stage_times(), get_tx_slot(), get_txids(), is_txid_in_clstr(), is_txid_in_sq(), list_clstrrec_slots(), list_ncbi_ranks(), list_seqrec_slots(), list_taxrec_slots(), plot_phylota_pa(), plot_phylota_treemap(), read_phylota(), write_sqs()

Examples

data("dragonflies")
# For faster computations, let's only work with the 5 clusters.
dragonflies <- drop_clstrs(phylota = dragonflies, cid = dragonflies@cids[10:15])


# We can use drop_by_rank() to reduce to 10 sequences per genus for each cluster
(reduced_1 <- drop_by_rank(phylota = dragonflies, rnk = 'genus', n = 10,
                           choose_by = c('pambgs', 'age', 'nncltds'),
                           greatest = c(FALSE, FALSE, TRUE)))

# We can specify what aspects of the sequences we would like to select per genus
# By default we select the sequences with fewest ambiguous nucleotides (e.g.
# we avoid Ns), the youngest age and then longest sequence.
# We can reverse the 'greatest' to get the opposite.
(reduced_2 <- drop_by_rank(phylota = dragonflies, rnk = 'genus', n = 10,
                           choose_by = c('pambgs', 'age', 'nncltds'),
                           greatest = c(TRUE, TRUE, FALSE)))


# Leading to smaller sequnces ...
r1_sqlngth <- mean(get_sq_slot(phylota = reduced_1,
                                sid = reduced_1@sids, slt_nm = 'nncltds'))
r2_sqlngth <- mean(get_sq_slot(phylota = reduced_2,
                                sid = reduced_2@sids, slt_nm = 'nncltds'))
(r1_sqlngth > r2_sqlngth)
# ... with more ambigous characters ....
r1_pambgs <- mean(get_sq_slot(phylota = reduced_1, sid = reduced_1@sids,
                              slt_nm = 'pambgs'))
r2_pambgs <- mean(get_sq_slot(phylota = reduced_2, sid = reduced_2@sids,
                              slt_nm = 'pambgs'))
(r1_pambgs < r2_pambgs)
# .... and older ages (measured in days since being added to GenBank).
r1_age <- mean(get_sq_slot(phylota = reduced_1, sid = reduced_1@sids,
                           slt_nm = 'age'))
r2_age <- mean(get_sq_slot(phylota = reduced_2, sid = reduced_2@sids,
                           slt_nm = 'age'))
(r1_age < r2_age)


# Or... we can simply reduce the clusters to just one sequence per genus
(dragonflies <- drop_by_rank(phylota = dragonflies, rnk = 'genus', n = 1))

Drop cluster records from phylota object

Description

Drops all clusters except those identified by user.

Usage

drop_clstrs(phylota, cid)

Arguments

phylota

Phylota object

cid

Cluster ID(s) to be kept

Value

phylota

See Also

Other tools-public: calc_mad(), calc_wrdfrq(), drop_by_rank(), drop_sqs(), get_clstr_slot(), get_nsqs(), get_ntaxa(), get_sq_slot(), get_stage_times(), get_tx_slot(), get_txids(), is_txid_in_clstr(), is_txid_in_sq(), list_clstrrec_slots(), list_ncbi_ranks(), list_seqrec_slots(), list_taxrec_slots(), plot_phylota_pa(), plot_phylota_treemap(), read_phylota(), write_sqs()

Examples

data("dragonflies")
# specify cids to *keep*
random_cids <- sample(dragonflies@cids, 100)
# drop an entire cluster
nbefore <- length(dragonflies@cids)
dragonflies <- drop_clstrs(phylota = dragonflies, cid = random_cids)
nafter <- length(dragonflies@cids)
# now there are only 100 clusters
(nafter < nbefore)

Drop sequences in a cluster

Description

Drop all sequences in a cluster except those identified by user.

Usage

drop_sqs(phylota, cid, sid)

Arguments

phylota

Phylota object

cid

Cluster ID

sid

Sequence ID(s) to be kept

Value

phylota

See Also

Other tools-public: calc_mad(), calc_wrdfrq(), drop_by_rank(), drop_clstrs(), get_clstr_slot(), get_nsqs(), get_ntaxa(), get_sq_slot(), get_stage_times(), get_tx_slot(), get_txids(), is_txid_in_clstr(), is_txid_in_sq(), list_clstrrec_slots(), list_ncbi_ranks(), list_seqrec_slots(), list_taxrec_slots(), plot_phylota_pa(), plot_phylota_treemap(), read_phylota(), write_sqs()

Examples

data("dragonflies")
# drop random sequences from cluster 0
clstr <- dragonflies[['0']]
# specify the sids to *keep*
sids <- sample(clstr@sids, 100)
(dragonflies <- drop_sqs(phylota = dragonflies, cid = '0', sid = sids))
# Note, sequences dropped may be represented in other clusters

Check if tree is correct, fast!

Description

Return T/F if tree is a true TreeMan object

Usage

fastCheckTreeMan(object)

Arguments

object

TreeMan object

Details

Whenever a tree is first initiated this check is used. For more detailed checking use checkNdlst.

See Also

checkNdlst, checkTreeMen


Extract elements from a raw GenBank record

Description

Returns a list of elements from a GenBank record such as 'organism', 'sequence' and features.

Usage

gb_extract(record)

Arguments

record

raw GenBank text record

Details

Uses restez extract functions. See restez package for more details.

Value

list of GenBank elements

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Get slot data for each cluster record

Description

Get slot data for cluster(s)

Usage

get_clstr_slot(phylota, cid, slt_nm = list_clstrrec_slots())

Arguments

phylota

Phylota object

cid

Cluster ID

slt_nm

Slot name

Value

vector

See Also

Other tools-public: calc_mad(), calc_wrdfrq(), drop_by_rank(), drop_clstrs(), drop_sqs(), get_nsqs(), get_ntaxa(), get_sq_slot(), get_stage_times(), get_tx_slot(), get_txids(), is_txid_in_clstr(), is_txid_in_sq(), list_clstrrec_slots(), list_ncbi_ranks(), list_seqrec_slots(), list_taxrec_slots(), plot_phylota_pa(), plot_phylota_treemap(), read_phylota(), write_sqs()

Examples

data('aotus')
random_cid <- sample(aotus@cids, 1)
(get_clstr_slot(phylota = aotus, cid = random_cid, slt_nm = 'seed'))
# see list_clstrrec_slots() for available slots
(list_clstrrec_slots())

Count number of sequences

Description

Count the number of sequences in a cluster(s).

Usage

get_nsqs(phylota, cid)

Arguments

phylota

Phylota object

cid

Cluster ID(s)

Value

vector

See Also

Other tools-public: calc_mad(), calc_wrdfrq(), drop_by_rank(), drop_clstrs(), drop_sqs(), get_clstr_slot(), get_ntaxa(), get_sq_slot(), get_stage_times(), get_tx_slot(), get_txids(), is_txid_in_clstr(), is_txid_in_sq(), list_clstrrec_slots(), list_ncbi_ranks(), list_seqrec_slots(), list_taxrec_slots(), plot_phylota_pa(), plot_phylota_treemap(), read_phylota(), write_sqs()

Examples

data("cycads")
# count seqs for a random 10 clusters
random_cids <- sample(cycads@cids, 10)
nsqs <- get_nsqs(phylota = cycads, cid = random_cids)

Count number of unique taxa

Description

Count the number of unique taxa represented by cluster(s) or sequences in phylota table Use rnk to specify a taxonomic level to count. If NULL counts will be made to the lowest level reported on NCBI.

Usage

get_ntaxa(phylota, cid = NULL, sid = NULL, rnk = NULL, keep_higher = FALSE)

Arguments

phylota

Phylota object

cid

Cluster ID(s)

sid

Sequence ID(s)

rnk

Taxonomic rank

keep_higher

Keep higher taxonomic ranks?

Value

vector

See Also

Other tools-public: calc_mad(), calc_wrdfrq(), drop_by_rank(), drop_clstrs(), drop_sqs(), get_clstr_slot(), get_nsqs(), get_sq_slot(), get_stage_times(), get_tx_slot(), get_txids(), is_txid_in_clstr(), is_txid_in_sq(), list_clstrrec_slots(), list_ncbi_ranks(), list_seqrec_slots(), list_taxrec_slots(), plot_phylota_pa(), plot_phylota_treemap(), read_phylota(), write_sqs()

Examples

data('bromeliads')
# how many species are there?
(get_ntaxa(phylota = bromeliads, cid = '0', rnk = 'species'))
# how many genera are there?
(get_ntaxa(phylota = bromeliads, cid = '0', rnk = 'genus'))
# how many families are there?
(get_ntaxa(phylota = bromeliads, cid = '0', rnk = 'family'))
# use list_ncbi_ranks() to see available rank names
(list_ncbi_ranks())

Get slot data for each sequence

Description

Get slot data for either or sequences in a cluster of a vector of sequence IDs. Use list_seqrec_slots() for a list of available slots.

Usage

get_sq_slot(phylota, cid = NULL, sid = NULL, slt_nm = list_seqrec_slots())

Arguments

phylota

Phylota object

cid

Cluster ID

sid

Sequence ID(s)

slt_nm

Slot name

Value

vector

See Also

Other tools-public: calc_mad(), calc_wrdfrq(), drop_by_rank(), drop_clstrs(), drop_sqs(), get_clstr_slot(), get_nsqs(), get_ntaxa(), get_stage_times(), get_tx_slot(), get_txids(), is_txid_in_clstr(), is_txid_in_sq(), list_clstrrec_slots(), list_ncbi_ranks(), list_seqrec_slots(), list_taxrec_slots(), plot_phylota_pa(), plot_phylota_treemap(), read_phylota(), write_sqs()

Examples

data('aotus')
random_sid <- sample(aotus@sids, 1)
(get_sq_slot(phylota = aotus, sid = random_sid, slt_nm = 'dfln'))
# see list_seqrec_slots() for available slots
(list_seqrec_slots())

Get run times for different stages

Description

Get slot data for taxa(s)

Usage

get_stage_times(wd)

Arguments

wd

Working directory

Value

list of runtimes in minutes

See Also

Other tools-public: calc_mad(), calc_wrdfrq(), drop_by_rank(), drop_clstrs(), drop_sqs(), get_clstr_slot(), get_nsqs(), get_ntaxa(), get_sq_slot(), get_tx_slot(), get_txids(), is_txid_in_clstr(), is_txid_in_sq(), list_clstrrec_slots(), list_ncbi_ranks(), list_seqrec_slots(), list_taxrec_slots(), plot_phylota_pa(), plot_phylota_treemap(), read_phylota(), write_sqs()

Examples

## Not run: 
  
  # Note, this example requires a wd with a completed phylotaR run
  # return a named list of the time take in minutes for each stage
  get_stage_times(wd = wd)

## End(Not run)

Get slot data for each taxon record

Description

Get slot data for taxa(s)

Usage

get_tx_slot(phylota, txid, slt_nm = list_taxrec_slots())

Arguments

phylota

Phylota object

txid

Taxonomic ID

slt_nm

Slot name

Value

vector or list

See Also

Other tools-public: calc_mad(), calc_wrdfrq(), drop_by_rank(), drop_clstrs(), drop_sqs(), get_clstr_slot(), get_nsqs(), get_ntaxa(), get_sq_slot(), get_stage_times(), get_txids(), is_txid_in_clstr(), is_txid_in_sq(), list_clstrrec_slots(), list_ncbi_ranks(), list_seqrec_slots(), list_taxrec_slots(), plot_phylota_pa(), plot_phylota_treemap(), read_phylota(), write_sqs()

Examples

data('aotus')
random_txid <- sample(aotus@txids, 1)
(get_tx_slot(phylota = aotus, txid = random_txid, slt_nm = 'scnm'))
# see list_taxrec_slots() for available slots
(list_taxrec_slots())

Get taxonomic IDs by rank

Description

Return taxonomic IDs for a vector of sequence IDs or all sequences in a cluster. User can specify what rank the IDs should be returned. If NULL, the lowest level is returned.

Usage

get_txids(
  phylota,
  cid = NULL,
  sid = NULL,
  txids = NULL,
  rnk = NULL,
  keep_higher = FALSE
)

Arguments

phylota

Phylota object

cid

Cluster ID

sid

Sequence ID(s)

txids

Vector of txids

rnk

Taxonomic rank

keep_higher

Keep higher taxonomic IDs?

Details

txids can either be provided by user or they can be determined for a vector of sids or for a cid. If keep_higher is TRUE, any sequence that has a identity that is higher than the given rank will be returned. If FALSE, these sequences will return ”.

Value

vector

See Also

Other tools-public: calc_mad(), calc_wrdfrq(), drop_by_rank(), drop_clstrs(), drop_sqs(), get_clstr_slot(), get_nsqs(), get_ntaxa(), get_sq_slot(), get_stage_times(), get_tx_slot(), is_txid_in_clstr(), is_txid_in_sq(), list_clstrrec_slots(), list_ncbi_ranks(), list_seqrec_slots(), list_taxrec_slots(), plot_phylota_pa(), plot_phylota_treemap(), read_phylota(), write_sqs()

Examples

data('bromeliads')
# get all the genus IDs and names
genus_ids <- get_txids(phylota = bromeliads, txids = bromeliads@txids,
                       rnk = 'genus')
genus_ids <- unique(genus_ids)
# drop empty IDs -- this happens if a given lineage has no ID for specified rank
genus_ids <- genus_ids[genus_ids != '']
# get names
(get_tx_slot(phylota = bromeliads, txid = genus_ids, slt_nm = 'scnm'))

Get age of tree

Description

Returns age, numeric, of tree

Usage

getAge(tree, parallel = FALSE)

Arguments

tree

TreeMan object

parallel

logical, make parallel?

Details

Calculates the age of a tree, determined as the maximum tip to root distance.

See Also

updateSlts, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

tree <- randTree(10)
(getAge(tree))

Get the sets of labels for each bipartition in tree

Description

Returns a list of tip IDs for each branch in the tree. Options allow the user to act as if the root is not present and to use a universal code for comparing between trees.

Usage

getBiprts(tree, tips = tree@tips, root = TRUE, universal = FALSE)

Arguments

tree

TreeMan object

tips

vector of tips IDs to use for bipartitions

root

Include the root for the bipartitions? Default TRUE.

universal

Create a code for comparing between trees

Details

Setting root to FALSE will ignore the bipartitions created by the root. Setting universal to TRUE will return a vector of 0s and 1s, not a list of tips. These codes will always begin with 1, and will allow for the comparison of splits between trees as they do not have "chiralty", so to speak.

See Also

calcDstRF

Examples

tree <- randTree(10)
# get all of the tip IDs for each branch in the rooted tree
(getBiprts(tree))
# ignore the root and get bipartitions for unrooted tree
(getBiprts(tree, root = FALSE))
# use the universal code for comparing splits between trees
(getBiprts(tree, root = FALSE, universal = TRUE))

Get all nodes connected by given tips

Description

Return a vector of IDs of all nodes that are connected to tip IDs given.

Usage

getCnnctdNds(tree, tids)

Arguments

tree

TreeMan object

tids

vector of tip IDs

Details

Returns a vector. This function is the basis for calcPhyDv(), it determines the unique set of nodes connected for a set of tips.

See Also

getUnqNds, calcFrPrp, calcPhyDv

Examples

tree <- randTree(10)
cnntdnds <- getCnnctdNds(tree, c("t1", "t2"))

Get extinct tips from a tree

Description

Return all extinct tip IDs.

Usage

getDcsd(tree, tol = 1e-08)

Arguments

tree

TreeMan object

tol

zero tolerance

Details

Returns a vector.

See Also

getLvng, isUltrmtrc, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

tree <- randTree(10)
(getDcsd(tree))

Get extant tips from a tree

Description

Return all extant tip IDs.

Usage

getLvng(tree, tol = 1e-08)

Arguments

tree

TreeMan object

tol

zero tolerance

Details

Returns a vector.

See Also

getDcsd, isUltrmtrc, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

tree <- randTree(10)
(getLvng(tree))

Get age

Description

Return the age for id. Requires the known age of the tree to be provided.

Usage

getNdAge(tree, id, tree_age)

Arguments

tree

TreeMan object

id

node id

tree_age

numeric value of known age of tree

Details

Returns a numeric.

See Also

getNdsAge, getSpnAge, getSpnsAge, getPrnt, getAge https://github.com/DomBennett/treeman/wiki/get-methods

Examples

data(mammals)
# when did apes emerge?
# get parent id for all apes
prnt_id <- getPrnt(mammals, ids = c("Homo_sapiens", "Hylobates_concolor"))
# mammal_age <- getAge(mammals)  # ~166.2, needs to be performed when tree is not up-to-date
getNdAge(mammals, id = prnt_id, tree_age = 166.2)

Get children IDs

Description

Return the node ids of all tips that descend from node.

Usage

getNdKids(tree, id)

Arguments

tree

TreeMan object

id

node id

Details

Returns a vector

See Also

getNdsKids, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

tree <- randTree(10)
# everyone descends from root
getNdKids(tree, id = tree["root"])

Get lineage

Description

Return unique taxonomic names for connecting id to root.

Usage

getNdLng(tree, id)

Arguments

tree

TreeMan object

id

node id

Details

Returns a vector.

See Also

getNdsLng, getNdsFrmTxnyms, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

data(mammals)
# return human lineage
getNdLng(mammals, id = "Homo_sapiens")

Get phylogenetic diversity of node

Description

Return summed value of all descending spns

Usage

getNdPD(tree, id)

Arguments

tree

TreeMan object

id

node id

Details

Sums the lengths of all descending branches from a node.

See Also

getNdsPD, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

tree <- randTree(10)
getNdPD(tree, id = "n1") # return PD of n1 which in this case is for the whole tree

Get pre-distance

Description

Return root to tip distance (prdst) for id

Usage

getNdPrdst(tree, id)

Arguments

tree

TreeMan object

id

node id

Details

Sums the lengths of all branches from id to root.

See Also

getNdsPrdst, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

tree <- randTree(10)
getNdPrdst(tree, id = "t1") # return the distance to root from t1

Get pre-nodes to root

Description

Return node ids for connecting id to root.

Usage

getNdPrids(tree, id)

Arguments

tree

TreeMan object

id

node id

Details

Returns a vector. IDs are returned order from node ID to root.

See Also

getNdsPrids, getNdPtids, getNdsPtids, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

tree <- randTree(10)
# get all nodes to root
getNdPrids(tree, id = "t1")

Get post-nodes to tips

Description

Return node ids for connecting id to kids.

Usage

getNdPtids(tree, id)

Arguments

tree

TreeMan object

id

node id

Details

Returns a vector.

See Also

getNdsPtids, getNdPrids, getNdsPrids, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

tree <- randTree(10)
# get all nodes from root to tip
getNdPtids(tree, id = "n1")

Get ages for multiple nodes

Description

Return the age for ids.

Usage

getNdsAge(tree, ids, tree_age, parallel = FALSE, progress = "none")

Arguments

tree

TreeMan object

ids

vector of node ids

tree_age

numeric value of known age of tree

parallel

logical, make parallel?

progress

name of the progress bar to use, see create_progress_bar

Details

Returns a vector, parallelizable.

See Also

getNdAge, getSpnAge, getSpnsAge, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

tree <- randTree(10)
getNdsAge(tree, ids = tree["nds"], tree_age = getAge(tree))

Get IDs for nodes represented txnyms

Description

Return a list of IDs for any node that contains the given txnyms.

Usage

getNdsFrmTxnyms(tree, txnyms)

Arguments

tree

TreeMan object

txnyms

vector of taxonomic group names

Details

Returns a list. Txnyms must be spelt correctly.

See Also

taxaResolve, setTxnyms, searchTxnyms, getNdsLng, getNdLng

Examples

data(mammals)
# what ID represents the apes?
getNdsFrmTxnyms(mammals, "Hominoidea")

Get children IDs for multiple nodes

Description

Return the node ids of all tips that descend from each node in ids.

Usage

getNdsKids(tree, ids, parallel = FALSE, progress = "none")

Arguments

tree

TreeMan object

ids

vector of node ids

parallel

logical, make parallel?

progress

name of the progress bar to use, see create_progress_bar

Details

Returns a list, parallelizable.

See Also

getNdKids, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

tree <- randTree(10)
getNdsKids(tree, id = tree["nds"])

Get lineage for multiple nodes

Description

Return unique taxonyms for connecting ids to root.

Usage

getNdsLng(tree, ids, parallel = FALSE, progress = "none")

Arguments

tree

TreeMan object

ids

vector of node ids

parallel

logical, make parallel?

progress

name of the progress bar to use, see create_progress_bar

Details

Returns a list, parallelizable.

See Also

getNdLng, getNdsFrmTxnyms, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

data(mammals)
# return human and gorilla lineages
getNdsLng(mammals, id = c("Homo_sapiens", "Gorilla_gorilla"))

Get a node slot

Description

Returns the value of named slot.

Usage

getNdSlt(tree, slt_nm, id)

Arguments

tree

TreeMan object

slt_nm

slot name

id

node id

Details

Returned object depends on name, either character, vector or numeric. Default node slots are: id, spn, prid, ptid and txnym. If slot is empty, returns NA.

See Also

getNdsSlt, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

tree <- randTree(10)
getNdSlt(tree, slt_nm = "spn", id = "t1") # return span of t1

Get phylogenetic diversities of nodes

Description

Return summed value of all descending spns

Usage

getNdsPD(tree, ids, parallel = FALSE, progress = "none")

Arguments

tree

TreeMan object

ids

vector of node ids

parallel

logical, make parallel?

progress

name of the progress bar to use, see create_progress_bar

Details

Sums the lengths of all descending branches from a node.

See Also

getNdPD, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

tree <- randTree(10)
getNdsPD(tree, ids = tree["all"]) # return PD of all ids

Get pre-distances

Description

Return root to tip distances (prdst) for ids

Usage

getNdsPrdst(tree, ids, parallel = FALSE, progress = "none")

Arguments

tree

TreeMan object

ids

vector of node ids

parallel

logical, make parallel?

progress

name of the progress bar to use, see create_progress_bar

Details

Sums the lengths of all branches from ids to root.

See Also

getNdPrdst, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

tree <- randTree(10)
getNdsPrdst(tree, ids = tree["tips"]) # return prdsts for all tips

Get pre-nodes for multiple nodes

Description

Return node ids for connecting id to root.

Usage

getNdsPrids(tree, ids, ordrd = FALSE, parallel = FALSE, progress = "none")

Arguments

tree

TreeMan object

ids

vector of node ids

ordrd

logical, ensure returned prids are ordered ID to root

parallel

logical, make parallel?

progress

name of the progress bar to use, see create_progress_bar

Details

Returns a list, parallizable. The function will work faster if ordrd is FALSE.

See Also

getNdPrids, getNdPtids, getNdsPtids, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

tree <- randTree(10)
getNdsPrids(tree, ids = tree["tips"])

Get post-nodes to tips for multiple nodes

Description

Return node ids for connecting ids to kids.

Usage

getNdsPtids(tree, ids, parallel = FALSE, progress = "none")

Arguments

tree

TreeMan object

ids

vector of node ids

parallel

logical, make parallel?

progress

name of the progress bar to use, see create_progress_bar

Details

Returns a list, parallizable.

See Also

getNdPtids, getNdPrids, getNdsPrids, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

tree <- randTree(10)
# get all nodes to tip for all nodes
getNdsPtids(tree, ids = tree["nds"])

Get a node slot for multiple nodes

Description

Returns the values of named slot as a vector for atomic values, else list.

Usage

getNdsSlt(tree, slt_nm, ids, parallel = FALSE, progress = "none")

Arguments

tree

TreeMan object

slt_nm

slot name

ids

vector of node ids

parallel

logical, make parallel?

progress

name of the progress bar to use, see create_progress_bar

Details

Returned object depends on name, either character, vector or numeric. Parallelizable. Default node slots are: id, spn, prid, ptid and txnym.

See Also

getNdSlt, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

tree <- randTree(10)
getNdsSlt(tree, slt_nm = "spn", ids = tree["tips"]) # return spans of all tips

Get sister id

Description

Returns the ids of the sister(s) of nd ids given.

Usage

getNdsSstr(tree, ids, parallel = FALSE, progress = "none")

Arguments

tree

TreeMan object

ids

nd ids

parallel

logical, make parallel?

progress

name of the progress bar to use, see create_progress_bar

Details

An error is raised if there is no sister (e.g. for the root). There can be more than one sister if tree is polytomous. Parallelizable.

See Also

getNdSstr, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

tree <- randTree(10)
getNdsSstr(tree, ids = tree["tips"])

Get sister id

Description

Returns the id of the sister(s) of node id given.

Usage

getNdSstr(tree, id)

Arguments

tree

TreeMan object

id

node id

Details

An error is raised if there is no sister (e.g. for the root). There can be more than one sister if tree is polytomous.

See Also

getNdsSstr, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

tree <- randTree(10)
getNdSstr(tree, id = "t1")

Get outgroup

Description

Return the outgroup based on a tree and a vector of IDs.

Usage

getOtgrp(tree, ids)

Arguments

tree

TreeMan object

ids

vector of node ids

Details

Returns a id, character. If there are multiple possible outgroups, returns NULL.

See Also

https://github.com/DomBennett/treeman/wiki/get-methods

Examples

data(mammals)
# orangutan is an outgroup wrt humans and chimps
getOtgrp(mammals, ids = c("Homo_sapiens", "Pan_troglodytes", "Pongo_pygmaeus"))

Get path between nodes

Description

Return node ids for connecting from to to.

Usage

getPath(tree, from, to)

Arguments

tree

TreeMan object

from

starting node id

to

ending node id

Details

Returns a vector, first id is from to to.

See Also

https://github.com/DomBennett/treeman/wiki/get-methods

Examples

data(mammals)
# what's the phylogenetic distance from humans to gorillas?
ape_id <- getPrnt(mammals, ids = c("Homo_sapiens", "Hylobates_concolor"))
pth <- getPath(mammals, from = "Homo_sapiens", to = "Gorilla_gorilla")
sum(getNdsSlt(mammals, ids = pth, slt_nm = "spn"))

Get parent

Description

Return parental (most recent common ancestor) node id for ids.

Usage

getPrnt(tree, ids)

Arguments

tree

TreeMan object

ids

vector of node ids

Details

Returns a character.

See Also

getSubtree, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

data(mammals)
# choosing ids from the two main branches of apes allows to find the parent for all apes
ape_id <- getPrnt(mammals, ids = c("Homo_sapiens", "Hylobates_concolor"))

Get age range

Description

Return start and end ages for id from when it first appears to when it splits

Usage

getSpnAge(tree, id, tree_age)

Arguments

tree

TreeMan object

id

node id

tree_age

numeric value of known age of tree

Details

Returns a dataframe.

See Also

getNdAge, getNdsAge, getSpnsAge, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

data(mammals)
# mammal_age <- getAge(mammals)  # ~166.2, needs to be performed when tree is not up-to-date
getSpnAge(mammals, id = "Homo_sapiens", tree_age = 166.2)

Get age ranges for multiple nodes

Description

Return start and end ages for ids from when they first appear to when they split

Usage

getSpnsAge(tree, ids, tree_age, parallel = FALSE, progress = "none")

Arguments

tree

TreeMan object

ids

vector of node ids

tree_age

numeric value of known age of tree

parallel

logical, make parallel?

progress

name of the progress bar to use, see create_progress_bar

Details

Returns a dataframe, parallelizable.

See Also

getNdAge, getNdsAge, getSpnAge, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

tree <- randTree(10)
# all nodes but root
ids <- tree["nds"][tree["nds"] != tree["root"]]
getSpnsAge(tree, ids = ids, tree_age = getAge(tree))

Get subtree

Description

Return tree descending from id.

Usage

getSubtree(tree, id)

Arguments

tree

TreeMan object

id

node id

Details

Returns a TreeMan, parallelizable. id must be an internal node.

See Also

getPrnt, addClade, https://github.com/DomBennett/treeman/wiki/get-methods

Examples

data(mammals)
# get tree of apes
ape_id <- getPrnt(mammals, ids = c("Homo_sapiens", "Hylobates_concolor"))
apes <- getSubtree(mammals, id = ape_id)
summary(apes)

Get unique nodes represented by tips

Description

Return a list of IDs for any node that are represented by tip IDs given.

Usage

getUnqNds(tree, tids)

Arguments

tree

TreeMan object

tids

vector of tip IDs

Details

Returns a vector.

See Also

getCnnctdNds, calcFrPrp, calcPhyDv

Examples

tree <- randTree(10)
unqnds <- getUnqNds(tree, c("t1", "t2"))

Hierarchically get sequences for a txid

Description

Looks up and downloads sequences for a taxonomic ID.

Usage

hierarchic_download(txid, txdct, ps, lvl = 0)

Arguments

txid

Taxonomic node ID, numeric

txdct

Taxonomic dictionary

ps

Parameters list, generated with parameters()

lvl

Integer, number of message indentations indicating code depth.

Value

Vector of SeqRecs

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Write info message to log

Description

Inform a user via log.txt of pipeline progress.

Usage

info(lvl, ps, ...)

Arguments

lvl

Integer, number of message indentations indicating code depth.

ps

Parameters list, generated with parameters()

...

Message elements for concatenating

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Is txid in cluster?

Description

Checks if given txid is represented by any of the sequences of a cluster by searching through all the sequence search organism lineages.

Usage

is_txid_in_clstr(phylota, txid, cid)

Arguments

phylota

Phylota

txid

Taxonomic ID

cid

Cluster ID

Value

boolean

See Also

Other tools-public: calc_mad(), calc_wrdfrq(), drop_by_rank(), drop_clstrs(), drop_sqs(), get_clstr_slot(), get_nsqs(), get_ntaxa(), get_sq_slot(), get_stage_times(), get_tx_slot(), get_txids(), is_txid_in_sq(), list_clstrrec_slots(), list_ncbi_ranks(), list_seqrec_slots(), list_taxrec_slots(), plot_phylota_pa(), plot_phylota_treemap(), read_phylota(), write_sqs()

Examples

data(tinamous)
cid <- tinamous@cids[[1]]
clstr <- tinamous[[cid]]
sq <- tinamous[[clstr@sids[[1]]]]
txid <- sq@txid
# expect true
is_txid_in_clstr(phylota = tinamous, txid = txid, cid = cid)

Is txid in sequence?

Description

Checks if given txid is represented by sequence by looking at sequence source organism's lineage.

Usage

is_txid_in_sq(phylota, txid, sid)

Arguments

phylota

Phylota

txid

Taxonomic ID

sid

Sequence ID

Value

boolean

See Also

Other tools-public: calc_mad(), calc_wrdfrq(), drop_by_rank(), drop_clstrs(), drop_sqs(), get_clstr_slot(), get_nsqs(), get_ntaxa(), get_sq_slot(), get_stage_times(), get_tx_slot(), get_txids(), is_txid_in_clstr(), list_clstrrec_slots(), list_ncbi_ranks(), list_seqrec_slots(), list_taxrec_slots(), plot_phylota_pa(), plot_phylota_treemap(), read_phylota(), write_sqs()

Examples

data(tinamous)
sid <- tinamous@sids[[1]]
sq <- tinamous[[sid]]
txid <- sq@txid
# expect true
is_txid_in_sq(phylota = tinamous, txid = txid, sid = sid)

Is tree ultrametric?

Description

Return TRUE if all tips end at 0, else FALSE.

Usage

isUltrmtrc(tree, tol = 1e-08)

Arguments

tree

TreeMan object

tol

zero tolerance

Details

Returns a boolean. This function works in the background for the ['ultr'] slot in a TreeMan object.

See Also

getLvng, getDcsd

Examples

tree <- randTree(10)
(isUltrmtrc(tree))

List all ClstrRec slots

Description

Returns a vector of all available ClstrRec slots of type character, integer and numeric.

Usage

list_clstrrec_slots()

Value

vector

See Also

Other tools-public: calc_mad(), calc_wrdfrq(), drop_by_rank(), drop_clstrs(), drop_sqs(), get_clstr_slot(), get_nsqs(), get_ntaxa(), get_sq_slot(), get_stage_times(), get_tx_slot(), get_txids(), is_txid_in_clstr(), is_txid_in_sq(), list_ncbi_ranks(), list_seqrec_slots(), list_taxrec_slots(), plot_phylota_pa(), plot_phylota_treemap(), read_phylota(), write_sqs()


List all NCBI Ranks

Description

Returns a vector of all NCBI taxonomic ranks in descending order.

Usage

list_ncbi_ranks()

Value

vector

See Also

Other tools-public: calc_mad(), calc_wrdfrq(), drop_by_rank(), drop_clstrs(), drop_sqs(), get_clstr_slot(), get_nsqs(), get_ntaxa(), get_sq_slot(), get_stage_times(), get_tx_slot(), get_txids(), is_txid_in_clstr(), is_txid_in_sq(), list_clstrrec_slots(), list_seqrec_slots(), list_taxrec_slots(), plot_phylota_pa(), plot_phylota_treemap(), read_phylota(), write_sqs()


List all SeqRec slots

Description

Returns a vector of all available SeqRec slots of type character, integer and numeric.

Usage

list_seqrec_slots()

Value

vector

See Also

Other tools-public: calc_mad(), calc_wrdfrq(), drop_by_rank(), drop_clstrs(), drop_sqs(), get_clstr_slot(), get_nsqs(), get_ntaxa(), get_sq_slot(), get_stage_times(), get_tx_slot(), get_txids(), is_txid_in_clstr(), is_txid_in_sq(), list_clstrrec_slots(), list_ncbi_ranks(), list_taxrec_slots(), plot_phylota_pa(), plot_phylota_treemap(), read_phylota(), write_sqs()


List all TaxRec slots

Description

Returns a vector of all available TaxRec slots of type character, integer and numeric.

Usage

list_taxrec_slots()

Value

vector

See Also

Other tools-public: calc_mad(), calc_wrdfrq(), drop_by_rank(), drop_clstrs(), drop_sqs(), get_clstr_slot(), get_nsqs(), get_ntaxa(), get_sq_slot(), get_stage_times(), get_tx_slot(), get_txids(), is_txid_in_clstr(), is_txid_in_sq(), list_clstrrec_slots(), list_ncbi_ranks(), list_seqrec_slots(), plot_phylota_pa(), plot_phylota_treemap(), read_phylota(), write_sqs()


Convert list to a TreeMen

Description

Return a TreeMen object from a list of TreeMans

See Also

TreeMen-class

Examples

trees <- list("tree_1" = randTree(10), "tree_2" = randTree(10))
trees <- as(trees, "TreeMen")

Load a TreeMan object in serialization format

Description

TreeMan equivalent to load() but able to handle node matrices.

Usage

loadTreeMan(file)

Arguments

file

file path

Details

It is not possible to use save() on TreeMan objects with node matrices. Node matrices are bigmemory matrices and are therefore outside the R environment, see bigmemory documentation for more information. Saving and loading a bigmemory matrix may cause memory issues in R and cause R to crash.

This function can safely read a TreeMan object with and without a node matrix. saveTreeMan() function stores the tree using the serialization format and the node matrix as a hidden .csv. Both parts of the tree can be reloaded to an R environment with loadTreeMan(). The hidden node matrix filename is based on the file argument: file + _ndmtrx

Reading and writing trees with saveTreeMan() and loadTreeMan is faster than any of the other read and write functions.

See Also

saveTreeMan, readTree,writeTree, readTrmn, writeTrmn

Examples

tree <- randTree(100, wndmtrx = TRUE)
saveTreeMan(tree, file = "test.RData")
rm(tree)
tree <- loadTreeMan(file = "test.RData")
file.remove("test.RData", "testRData_ndmtrx")

mammals

Description

mammals

Format

A TreeMan or Phylota object

Examples

data("mammals")

Return matrix of txid in sequence

Description

Searches through lineages of sequences' source organisms to determine whether each txid is represented by the sequence.

Usage

mk_txid_in_sq_mtrx(phylota, txids, sids = phylota@sids)

Arguments

phylota

Phylota

txids

Taxonomic IDs

sids

Sequence IDs

Value

matrix

See Also

Other tools-private: summary_phylota(), update_phylota()


multiPhylo class

Description

multiPhylo class


Convert multiPhylo to TreeMen

Description

Return a TreeMen from ape's mutlPhylo

See Also

TreeMan-to-phylo, phylo-to-TreeMan, TreeMen-to-multiPhylo TreeMan-class

Examples

library(ape)
trees <- c(rtree(10), rtree(10), rtree(10))
trees <- as(trees, "TreeMen")

Save NCBI query result to cache

Description

Run whenever NCBI queries are made to save results in cache in case the pipeline is run again.

Usage

ncbicache_save(fnm, args, wd, obj)

Arguments

fnm

NCBI Entrez function name

args

Args used for function

wd

Working directory

obj

NCBI query result

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Node-class

Description

The Node is an S4 class used for displaying node information. It is only generated when a user implements the [[]] on a tree. Information is only accurate if tree has been updated with updateTree().

Usage

## S4 method for signature 'Node'
as.character(x)

## S4 method for signature 'Node'
show(object)

## S4 method for signature 'Node'
print(x)

## S4 method for signature 'Node'
summary(object)

## S4 method for signature 'Node,character,missing,missing'
x[i, j, ..., drop = TRUE]

Arguments

x

Node object

object

Node object

i

slot name

j

missing

...

missing

drop

missing

Slots

id

unique ID for node in tree['ndlst']

spn

length of preceding branch

prid

parent node ID

ptid

child node ID

kids

descending tip IDs

nkids

number of descending tip IDs

txnym

list of associated taxonyms

pd

total branch length represented by node

prdst

total branch length of connected prids

root

T/F root node?

tip

T/F tip node?

See Also

TreeMan-class, TreeMen-class


Determine 'outformat' format

Description

Depending on operating system, BLAST may or may not require "" around outfmt. This function will run a micro BLAST analysis to test. It will return the outfmt for use in blastn_run.

Usage

outfmt_get(ps)

Arguments

ps

Parameters list, generated with parameters()

Value

character

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Default parameters

Description

Returns a parameter list with default parameter values.

Usage

parameters(
  wd = ".",
  txid = character(),
  mkblstdb = "",
  blstn = "",
  v = FALSE,
  ncps = 1,
  mxnds = 1e+05,
  mdlthrs = 3000,
  mnsql = 250,
  mxsql = 2000,
  mxrtry = 100,
  mxsqs = 50000,
  mxevl = 1e-10,
  mncvrg = 51,
  btchsz = 100,
  db_only = FALSE,
  outsider = FALSE,
  srch_trm = paste0("NOT predicted[TI] ", "NOT \"whole genome shotgun\"[TI] ",
    "NOT unverified[TI] ", "NOT \"synthetic construct\"[Organism] ",
    "NOT refseq[filter] NOT TSA[Keyword]"),
  date = Sys.Date()
)

Arguments

wd

The working directory where all output files are saved.

txid

Taxonomic group of interest, allows vectors.

mkblstdb

File path to makeblastdb

blstn

File path to blastn

v

Print progress statements to console? Statements will always be printed to log.txt.

ncps

The number of threads to use in the local-alignment search tool.

mxnds

The maximum number of nodes descending from a taxonomic group. If there are more than this number, nodes at the lower taxonomic level are analysed.

mdlthrs

'Model organism threshold'. Taxa with more sequences than this number will be considered model organisms and a random mdlthrs subset of their sequences will be downloaded.

mnsql

The minimum length of sequence in nucleotide base pairs to download.

mxsql

The maximum length of sequence in nucleotide base pairs to download. Any longer sequences will be ignored.

mxrtry

The maximum number of attempts to make when downloading.

mxsqs

The maximum number of sequences to BLAST in all-vs-all searches. If there are more sequences for a node, BLAST is performed at the lower taxonomic level.

mxevl

The maximum E-value for a successful BLAST.

mncvrg

The maximum percentile coverage defining an overlapping BLAST hit. Sequences with BLAST matches with lower values are not considered orthologous.

btchsz

Batch size when querying NCBI

db_only

Take sequences only from restez library? TRUE/FALSE. If TRUE, internet is still required (for taxonomic look-up) and a restez will need to be set up.

outsider

Use om..blast? TRUE/FALSE. If TRUE, a module for running blastn will be installed and all BLAST commands will be run through it. outsider package is required.

srch_trm

Sequence NCBI search term modifier. Use this parameter to change the default search term options. Default: avoid predicted, WGS, unverified, synthetic, RefSeq and Transcriptome Shotgun Assembly sequences.

date

Date when pipeline was initiated

Details

This function is NOT used to change the parameters in a folder. Use parameters_reset() instead. The purpose of this function is to describe the paramaters and present their default values.

Value

list


Change parameters in a working directory

Description

Reset parameters after running setup().

Usage

parameters_reset(wd, parameters, values)

Arguments

wd

Working directory

parameters

Parameters to be changed, vector.

values

New values for each parameter, vector.

See Also

Other run-public: ClstrArc-class, ClstrRec-class, Phylota-class, SeqArc-class, SeqRec-class, TaxDict-class, TaxRec-class, clusters2_run(), clusters_run(), reset(), restart(), run(), setup(), taxise_run()

Examples

## Not run: 
  
  # Note: this example requires BLAST and internet to run.
  
  # example with temp folder
  wd <- file.path(tempdir(), 'aotus')
  # setup for aotus, make sure aotus/ folder already exists
  if (!dir.exists(wd)) {
    dir.create(wd)
  }
  ncbi_dr <- '[SET BLAST+ BIN PATH HERE]'
  setup(wd = wd, txid = 9504, ncbi_dr = ncbi_dr)  # txid for Aotus primate genus
  # run
  # run(wd = wd) # not running in test
  # use ctrl+c or Esc to kill
  # change parameters, e.g. min and max sequence lengths
  parameters_reset(wd = 'aotus', parameters = c('mnsql', 'mxsql'),
                   values = c(300, 1500))
  # see ?parameters
  # restart
  restart(wd = wd)

## End(Not run)

Set Up Parameters

Description

Initiates cache of parameters.

Usage

parameters_setup(wd, ncbi_execs, overwrite = FALSE, ...)

Arguments

wd

Working directory

ncbi_execs

File directories for NCBI tools, see blast_setup()

overwrite

Overwrite existing cache?

...

Set parameters, see parameters()

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


phylo class

Description

phylo class


Convert phylo to TreeMan

Description

Return a TreeMan from ape's phylo. This will preserve node labels, if they are a alphanumeric.

See Also

TreeMan-to-phylo, TreeMen-to-multiPhylo multiPhylo-to-TreeMen TreeMan-class

Examples

library(ape)
tree <- compute.brlen(rtree(10))
tree <- as(tree, "TreeMan")

Phylota object

Description

Phylota table contains all sequence, cluster and taxonomic information from a phylotaR pipeline run.

Usage

## S4 method for signature 'Phylota'
as.character(x)

## S4 method for signature 'Phylota'
show(object)

## S4 method for signature 'Phylota'
print(x)

## S4 method for signature 'Phylota'
str(object, max.level = 2L, ...)

## S4 method for signature 'Phylota'
summary(object)

## S4 method for signature 'Phylota,character'
x[[i]]

Arguments

x

Phylota object

object

Phylota object

max.level

Maximum level of nesting for str()

...

Further arguments for str()

i

Either sid or cid

Slots

cids

IDs of all clusters

sids

IDs of all sequences

txids

IDs of all taxa

sqs

All sequence records as SeqArc

clstrs

All cluster records as ClstrArc

txdct

Taxonomic dictionary as TaxDict

prnt_id

Parent taxonomic ID

prnt_nm

Parent taxonomic name

See Also

Other run-public: ClstrArc-class, ClstrRec-class, SeqArc-class, SeqRec-class, TaxDict-class, TaxRec-class, clusters2_run(), clusters_run(), parameters_reset(), reset(), restart(), run(), setup(), taxise_run()

Examples

data('aotus')
# this is a Phylota object
# it contains cluster, sequence and taxonomic information from a phylotaR run
show(aotus)
# you can access its different data slots with @
aotus@cids   # cluster IDs
aotus@sids   # sequence IDs
aotus@txids  # taxonomic IDs
aotus@clstrs # clusters archive
aotus@sqs    # sequence archive
aotus@txdct  # taxonomic dictionary
# see all of the available slots
(slotNames(aotus))
# access different sequences and clusters with [[
(aotus[['0']])              # cluster record 0
(aotus[[aotus@sids[[1]]]])  # first sequence record
# get a summary of the whole object
(summary(aotus))
# the above generates a data.frame with information on each cluster:
# ID - unique id in the object
# Type - cluster type
# Seed - most connected sequence
# Parent - MRCA of all represented taxa
# N_taxa - number of NCBI recognised taxa
# N_seqs - number of sequences
# Med_sql - median sequence length
# MAD - Maximum alignment density, values close to 1 indicate all sequences in
#  the cluster have a similar length.
# Definition - most common words (and frequency) in sequence definitions
# Feature - most common feature name (and frequency)

Pin tips to a tree

Description

Returns a tree with new tips added based on given lineages and time points

Usage

pinTips(tree, tids, lngs, end_ages, tree_age)

Arguments

tree

TreeMan object

tids

new tip ids

lngs

list of vectors of the lineages of each tid (ordered high to low rank)

end_ages

end time points for each tid

tree_age

age of tree

Details

User must provide a vector of new tip IDs, a list of the ranked lineages for these IDs (in ascending order) and a vector of end time points for each new ID (0s for extant tips). The function expects the given tree to be taxonomically informed; the txnym slot for every node should have a taxonomic label. The function takes the lineage and tries to randomly add the new tip at the lowest point in the taxonomic rank before the end time point. Note, returned tree will not have a node matrix.

See Also

addTip, rmTips, https://github.com/DomBennett/treeman/wiki/manip-methods

Examples

# see https://github.com/DomBennett/treeman/wiki/Pinning-tips for a detailed example

plants

Description

plants

Format

A TreeMan or Phylota object

Examples

data("plants")

Plot presence/absence matrix

Description

Plot presence/absence of taxa by each cluster in phylota object.

Usage

plot_phylota_pa(phylota, cids, txids, cnms = cids, txnms = txids)

Arguments

phylota

Phylota object

cids

Vector of cluster IDs

txids

Vector of taxonomic IDs

cnms

Cluster names

txnms

Taxonomic names

Details

Cluster names and taxonomic names can be given to the function, by default IDs are used.

Value

geom_object

See Also

Other tools-public: calc_mad(), calc_wrdfrq(), drop_by_rank(), drop_clstrs(), drop_sqs(), get_clstr_slot(), get_nsqs(), get_ntaxa(), get_sq_slot(), get_stage_times(), get_tx_slot(), get_txids(), is_txid_in_clstr(), is_txid_in_sq(), list_clstrrec_slots(), list_ncbi_ranks(), list_seqrec_slots(), list_taxrec_slots(), plot_phylota_treemap(), read_phylota(), write_sqs()

Examples

library(phylotaR)
data(cycads)
# drop all but first ten
cycads <- drop_clstrs(cycads, cycads@cids[1:10])
# plot all
p <- plot_phylota_pa(phylota = cycads, cids = cycads@cids, txids = cycads@txids)
print(p)  # lots of information, difficult to interpret
# get genus-level taxonomic names
genus_txids <- get_txids(cycads, txids = cycads@txids, rnk = 'genus')
genus_txids <- unique(genus_txids)
# dropping missing
genus_txids <- genus_txids[genus_txids !=  '']
genus_nms <- get_tx_slot(cycads, genus_txids, slt_nm = 'scnm')
# make alphabetical for plotting
genus_nms <- sort(genus_nms, decreasing = TRUE)
# generate geom_object
p <- plot_phylota_pa(phylota = cycads, cids = cycads@cids, txids = genus_txids,
                     txnms = genus_nms)
# plot
print(p)  # easier to interpret

Plot treemap of Phylota object

Description

Treemaps show relative size with boxes. The user can explore which taxa or clusters are most represented either by sequence or cluster number. If cluster IDs are provided, the plot is made for clusters. If taxonomic IDs are provided, the plot is made for taxa.

Usage

plot_phylota_treemap(
  phylota,
  cids = NULL,
  txids = NULL,
  cnms = cids,
  txnms = txids,
  with_labels = TRUE,
  area = c("ntx", "nsq", "ncl"),
  fill = c("NULL", "typ", "ntx", "nsq", "ncl")
)

Arguments

phylota

Phylota object

cids

Cluster IDs

txids

Taxonomic IDs

cnms

Cluster names

txnms

Taxonomic names

with_labels

Show names per box?

area

What determines the size per box?

fill

What determines the coloured fill per box?

Details

The function can take a long time to run for large Phylota objects over many taxonomic IDs because searches are made across lineages. The idea of the function is to assess the data dominance of specific clusters and taxa.

Value

geom_object

See Also

Other tools-public: calc_mad(), calc_wrdfrq(), drop_by_rank(), drop_clstrs(), drop_sqs(), get_clstr_slot(), get_nsqs(), get_ntaxa(), get_sq_slot(), get_stage_times(), get_tx_slot(), get_txids(), is_txid_in_clstr(), is_txid_in_sq(), list_clstrrec_slots(), list_ncbi_ranks(), list_seqrec_slots(), list_taxrec_slots(), plot_phylota_pa(), read_phylota(), write_sqs()

Examples

data("tinamous")
# Plot clusters, size by n. sq, fill by n. tx
p <- plot_phylota_treemap(phylota = tinamous, cids = tinamous@cids,
                          area = 'nsq', fill = 'ntx')
print(p)
# Plot taxa, size by n. sq, fill by ncl
txids <- get_txids(tinamous, txids = tinamous@txids, rnk = 'genus')
txids <- txids[txids !=  '']
txids <- unique(txids)
txnms <- get_tx_slot(tinamous, txids, slt_nm = 'scnm')
p <- plot_phylota_treemap(phylota = tinamous, txids = txids, txnms = txnms,
                          area = 'nsq', fill = 'ncl')
print(p)

Reset progress

Description

Reset progress to an earlier completed stage.

Usage

progress_reset(wd, stg)

Arguments

wd

Working directory

stg

Stage to which the pipeline will be reset

Details

For example, resetting the progress to 'download' mark stages 'download', 'cluster' and 'cluster2' as un-run.

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Update prinds and tinds

Description

Return tree with updated slots.

Usage

pstMnp(tree)

Arguments

tree

TreeMan object

Details

This function is automatically run. Only run, if you are creating yor own functions to add and remove elements of the ndlst.

See Also

updateSlts, addNdmtrx, getAge


Generate a random tree

Description

Returns a random TreeMan tree with n tips.

Usage

randTree(n, wndmtrx = FALSE, parallel = FALSE)

Arguments

n

number of tips, integer, must be 3 or greater

wndmtrx

T/F add node matrix? Default FALSE.

parallel

T/F run in parallel? Default FALSE.

Details

Equivalent to ape's rtree() but returns a TreeMan tree. Tree is always rooted and bifurcating.

See Also

TreeMan-class, blncdTree, unblncdTree

Examples

tree <- randTree(5)

Breakdown a sequence record into its features

Description

Takes GenBank record's elements and returns a SeqRec. For sequences with lots of features, the sequence is broken down into these features provided they are of the right size. Sequences are either returned as features or whole sequence records, never both.

Usage

rawseqrec_breakdown(record_parts, ps)

Arguments

record_parts

list of record elements from a GenBank record

ps

Parameters list, generated with parameters()

Value

list of SeqRecs

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Generate a Phylota object in R

Description

Creates a Phylota object containing information on clusters, sequences and taxonomy from the working directory of a completed pipeline.

Usage

read_phylota(wd)

Arguments

wd

Working directory

Value

Phylota

See Also

Other tools-public: calc_mad(), calc_wrdfrq(), drop_by_rank(), drop_clstrs(), drop_sqs(), get_clstr_slot(), get_nsqs(), get_ntaxa(), get_sq_slot(), get_stage_times(), get_tx_slot(), get_txids(), is_txid_in_clstr(), is_txid_in_sq(), list_clstrrec_slots(), list_ncbi_ranks(), list_seqrec_slots(), list_taxrec_slots(), plot_phylota_pa(), plot_phylota_treemap(), write_sqs()

Examples

## Not run: 
  
  # Note, this example requires a wd with a completed phylotaR run
  phylota <- read_phylota(wd)

## End(Not run)

Read a Newick tree

Description

Return a TreeMan or TreeMen object from a Newick treefile

Usage

readTree(
  file = NULL,
  text = NULL,
  spcl_slt_nm = "Unknown",
  wndmtrx = FALSE,
  parallel = FALSE,
  progress = "none"
)

Arguments

file

file path

text

Newick character string

spcl_slt_nm

name of special slot for internal node labels, default 'Unknown'.

wndmtrx

T/F add node matrix? Default FALSE.

parallel

logical, make parallel?

progress

name of the progress bar to use, see create_progress_bar

Details

Read a single or multiple trees from a file, or a text string. Parallelizable when reading multiple trees. The function will add any internal node labels in the Newick tree as a user-defined data slots. The name of this slot is defined with the spcl_slt_nm. These data can be accessed/manipulated with the `getNdsSlt()` function. Trees are always read as rooted. (Unrooted trees have polytomous root nodes.)

See Also

https://en.wikipedia.org/wiki/Newick_format, addNdmtrx, writeTree, randTree, readTrmn, writeTrmn, saveTreeMan, loadTreeMan

Examples

# tree string with internal node labels as bootstrap results
tree <- readTree(
  text = "((A:1.0,B:1.0)0.9:1.0,(C:1.0,D:1.0)0.8:1.0)0.7:1.0;",
  spcl_slt_nm = "bootstrap"
)
# retrieve bootstrap values by node
tree["bootstrap"]

Read a .trmn tree

Description

Return a TreeMan or TreeMen object from a .trmn treefile

Usage

readTrmn(file, wndmtrx = FALSE, parallel = FALSE, progress = "none")

Arguments

file

file path

wndmtrx

T/F add node matrix? Default FALSE.

parallel

logical, make parallel?

progress

name of the progress bar to use, see create_progress_bar

Details

Read a tree(s) from a file using the .trmn format. It is faster to read and write tree files using treeman with the .trmn file format. In addition it is possible to encode more information than possible with the Newick, e.g. any taxonomic information and additional slot names added to the tree are recorded in the file.

See Also

writeTrmn, readTree,writeTree, randTree, saveTreeMan, loadTreeMan

Examples

tree <- randTree(10)
writeTrmn(tree, file = "test.trmn")
tree <- readTrmn("test.trmn")
file.remove("test.trmn")

Reset a phylotaR pipeline run

Description

Resets the pipeline to a specified stage.

Usage

reset(wd, stage, hard = FALSE)

Arguments

wd

Working directory

stage

Name of stage to which the pipeline will be reset

hard

T/F, delete all cached data?

See Also

Other run-public: ClstrArc-class, ClstrRec-class, Phylota-class, SeqArc-class, SeqRec-class, TaxDict-class, TaxRec-class, clusters2_run(), clusters_run(), parameters_reset(), restart(), run(), setup(), taxise_run()

Examples

## Not run: 
  
  # Note: this example requires BLAST and internet to run.
  
  # example with temp folder
  wd <- file.path(tempdir(), 'aotus')
  # setup for aotus, make sure aotus/ folder already exists
  if (!dir.exists(wd)) {
    dir.create(wd)
  }
  ncbi_dr <- '[SET BLAST+ BIN PATH HERE]'
  setup(wd = wd, txid = 9504, ncbi_dr = ncbi_dr)  # txid for Aotus primate genus
  # individually run taxise
  taxise_run(wd = wd)
  # reset back to taxise as if it has not been run
  reset(wd = 'aotus', stage = 'taxise')
  # run taxise again ....
  taxise_run(wd = wd)

## End(Not run)

Restart a phylotaR pipeline run

Description

Restarts the running of a pipeline as started with run.

Usage

restart(wd, nstages = 4)

Arguments

wd

Working directory

nstages

Number of total stages to run, max 4.

See Also

Other run-public: ClstrArc-class, ClstrRec-class, Phylota-class, SeqArc-class, SeqRec-class, TaxDict-class, TaxRec-class, clusters2_run(), clusters_run(), parameters_reset(), reset(), run(), setup(), taxise_run()

Examples

## Not run: 
  
  # Note: this example requires BLAST and internet to run.
  
  # example with temp folder
  wd <- file.path(tempdir(), 'aotus')
  # setup for aotus, make sure aotus/ folder already exists
  if (!dir.exists(wd)) {
    dir.create(wd)
  }
  ncbi_dr <- '[SET BLAST+ BIN PATH HERE]'
  setup(wd = wd, txid = 9504, ncbi_dr = ncbi_dr)  # txid for Aotus primate genus
  # run and stop after 10 seconds
  R.utils::withTimeout(expr = {
    run(wd = wd)
  }, timeout = 10)
  # use ctrl+c or Esc to kill without a timelimit
  # and restart with ....
  restart(wd = wd)

## End(Not run)

Remove a clade from a tree

Description

Returns a tree with a clade removed

Usage

rmClade(tree, id)

Arguments

tree

TreeMan object

id

node ID parent of clade to be removed

Details

Inverse function of getSubtree(). Takes a tree and removes a clade based on an internal node specified. Node is specified with id, all descending nodes and tips are removed. The resulting tree will replace the missing clade with a tip of id.

See Also

addClade, getSubtree, rmTips https://github.com/DomBennett/treeman/wiki/manip-methods

Examples

t1 <- randTree(100)
# remove a clade
t2 <- rmClade(t1, "n2")
summary(t1)
summary(t2)

Remove node matrix

Description

Return tree with memory heavy node matrix removed.

Usage

rmNdmtrx(tree)

Arguments

tree

TreeMan object

Details

Potential uses: reduce memory load of a tree, save tree using serialization methods.

See Also

addNdmtrx

Examples

#
tree <- randTree(10)
summary(tree)
tree <- rmNdmtrx(tree)
summary(tree)

Remove nodes from a tree

Description

Returns a tree with a node ID(s) removed

Usage

rmNodes(tree, nids, progress = "none")

Arguments

tree

TreeMan object

nids

internal node IDs

progress

name of the progress bar to use, see create_progress_bar

Details

Removes nodes in a tree. Joins the nodes following to the nodes preceding the node to be removed. Creates polytomies. Warning: do not use this function to remove tip nodes, this create a corrupted tree.

See Also

addTip, rmTips, https://github.com/DomBennett/treeman/wiki/manip-methods

Examples

tree <- randTree(10)
tree <- rmNodes(tree, "n3")
summary(tree) # tree is now polytmous

Remove a user-defined slot

Description

Returns a tree with a user-defined tree slot removed.

Usage

rmOtherSlt(tree, slt_nm)

Arguments

tree

TreeMan object

slt_nm

name of slot to be removed

Details

A user can specify a new slot using the setNdSlt() function or upon reading a tree. This can be removed using this function by specifying the name of the slot to be removed.

See Also

setNdOther, setNdsOther, https://github.com/DomBennett/treeman/wiki/set-methods

Examples

tree <- randTree(10)
vals <- runif(min = 0, max = 1, n = tree["nall"])
tree <- setNdsOther(tree, tree["all"], vals, "confidence")
tree <- updateSlts(tree)
summary(tree)
tree <- rmOtherSlt(tree, "confidence")
tree <- updateSlts(tree)
summary(tree)

Remove tips from a tree

Description

Returns a tree with a tip ID(s) removed

Usage

rmTips(tree, tids, drp_intrnl = TRUE, progress = "none")

Arguments

tree

TreeMan object

tids

tip IDs

drp_intrnl

Boolean, drop internal branches, default FALSE

progress

name of the progress bar to use, see create_progress_bar

Details

Removes tips in a tree. Set drp_intrnl to FALSE to convert internal nodes into new tips. Warning: do not use this function to remove internal nodes, this create a corrupted tree.

See Also

addTip, rmNodes, https://github.com/DomBennett/treeman/wiki/manip-methods

Examples

tree <- randTree(10)
tree <- rmTips(tree, "t1")
summary(tree)
# running the function using an internal
# node will create a corrupted tree
tree <- rmTips(tree, "n3")
# run summary() to make sure a change has
# not created a corruption
# summary(tree)

Run phylotaR pipeline

Description

Run the entire phylotaR pipeline. All generated files will be stored in the wd. The process can be stopped at anytime and restarted with restart. nstages must be a numeric value representing the number of stages that will be run. Stages are run in the following order: 1 - taxise, 2 - download, 3 - cluster and 4 - cluster2.

For example, specifying nstages = 3, will run taxise, download and cluster. Stages can also be run individually, see linked functions below.

Usage

run(wd, nstages = 4)

Arguments

wd

Working directory

nstages

Number of total stages to run, max 4.

See Also

Other run-public: ClstrArc-class, ClstrRec-class, Phylota-class, SeqArc-class, SeqRec-class, TaxDict-class, TaxRec-class, clusters2_run(), clusters_run(), parameters_reset(), reset(), restart(), setup(), taxise_run()

Examples

## Not run: 
  
  # Note: this example requires BLAST and internet to run.
  
  # example with temp folder
  wd <- file.path(tempdir(), 'aotus')
  # setup for aotus, make sure aotus/ folder already exists
  if (!dir.exists(wd)) {
    dir.create(wd)
  }
  ncbi_dr <- '[SET BLAST+ BIN PATH HERE]'
  # e.g. "/usr/local/ncbi/blast/bin/"
  setup(wd = wd, txid = 9504, ncbi_dr = ncbi_dr)  # txid for Aotus primate genus
  run(wd = wd)

## End(Not run)

Safely run rentrez function

Description

Safely run a rentrez function. If the query fails, the function will retry.

Usage

safely_connect(func, args, fnm, ps)

Arguments

func

rentrez function

args

rentrez function arguments, list

fnm

rentrez function name

ps

Parameters list, generated with parameters()

Value

rentrez function results

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Save a TreeMan object in serialization format

Description

TreeMan equivalent to save() but able to handle node matrices.

Usage

saveTreeMan(tree, file)

Arguments

tree

TreeMan object

file

file path

Details

It is not possible to use save() on TreeMan objects with node matrices. Node matrices are bigmemory matrices and are therefore outside the R environment, see bigmemory documentation for more information. Saving and loading a bigmemory matrix may cause memory issues in R and cause R to crash.

This function can safely store a TreeMan object with and without a node matrix. This function stores the tree using the serialization format and the node matrix as a hidden .csv. Both parts of the tree can be reloaded to an R environment with loadTreeMan(). The hidden node matrix filename is based on the file argument: file + _ndmtrx

Reading and writing trees with saveTreeMan() and loadTreeMan is faster than any of the other read and write functions.

See Also

loadTreeMan, readTree,writeTree, readTrmn, writeTrmn

Examples

tree <- randTree(100, wndmtrx = TRUE)
saveTreeMan(tree, file = "test.RData")
rm(tree)
tree <- loadTreeMan(file = "test.RData")
file.remove("test.RData", "testRData_ndmtrx")

Run rentrez function and cache results

Description

Safely run a rentrez function. If the query fails, the function will retry. All query results are cached. To remove cached data use hard reset.

Usage

search_and_cache(func, args, fnm, ps)

Arguments

func

rentrez function

args

rentrez function arguments, list

fnm

rentrez function name

ps

Parameters list, generated with parameters()

Value

rentrez function results

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Construct GenBank Search Term

Description

Construct search term for searching GenBank's nucleotide database. Limits the maximum size of sequences, avoids whole genome shotguns, predicted, unverified and synthetic sequences.

Usage

searchterm_gen(txid, ps, direct = FALSE)

Arguments

txid

Taxonomic ID

ps

Parameters list, generated with parameters()

direct

Node-level only or subtree as well? Default FALSE.

Value

character, search term

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Get node labels based on online taxonomic database

Description

Return names of each node in tree based on searching tip labels through Global Names Resolver http://resolver.globalnames.org/ in NCBI.

Usage

searchTxnyms(tree, cache = FALSE, parent = NULL, clean = TRUE, infer = TRUE)

Arguments

tree

TreeMan object

cache

T/F, create a local cache of downloaded names?

parent

specify parent of all names to prevent false names

clean

T/F, ensure returned names contain no special characters?

infer

T/F, infer taxonyms for unfound nodes?

Details

For each node, all the descendants are searched, the taxonomic lineages returned and then searched to find the lowest shared name. All the tip labels are searched against a specified taxonomic database through the GNR and NCBI. (So far only tested with NCBI database.) Use the infer argument to ensure a taxonym is returned for all nodes. If infer is true, all nodes without an identifed taxonym adopt the taxonym of their parent. Will raise a warning if connection fails and will return NULL.

See Also

taxaResolve, setTxnyms, getNdsFrmTxnyms

Examples

tree <- randTree(8)
new_tids <- c(
  "Gallus_gallus", "Aileuropoda_melanoleucha", "Ailurus_fulgens",
  "Rattus_rattus", "Mus_musculus", "Gorilla_gorilla", "Pan_trogoldytes", "Homo_sapiens"
)
tree <- setNdsID(tree, tree["tips"], new_tids)
nd_labels <- searchTxnyms(tree)
print(nd_labels)

Download sequences for txids

Description

Look up and download all sequences for given taxonomic IDs.

Usage

seq_download(txids, txdct, ps)

Arguments

txids

Taxonomic node IDs, numeric vector

txdct

Taxonomic dictionary

ps

Parameters list, generated with parameters()

Details

Sequence downloads are cached.

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Sequence record archive

Description

Multiple sequence records containing sequence data.

Usage

## S4 method for signature 'SeqArc'
as.character(x)

## S4 method for signature 'SeqArc'
show(object)

## S4 method for signature 'SeqArc'
print(x)

## S4 method for signature 'SeqArc'
str(object, max.level = 2L, ...)

## S4 method for signature 'SeqArc'
summary(object)

## S4 method for signature 'SeqArc,character'
x[[i]]

## S4 method for signature 'SeqArc,character,missing,missing'
x[i, j, ..., drop = TRUE]

Arguments

x

SeqArc object

object

SeqArc object

max.level

Maximum level of nesting for str()

...

Further arguments for str()

i

sid(s)

j

Unused

drop

Unused

Details

Sequences are stored as raw. Use rawToChar().

Slots

ids

Vector of Sequence Record IDs

nncltds

Vector of sequence lengths

nambgs

Vector of number of ambiguous nucleotides

txids

Vector source txid associated with each sequence

sqs

List of SeqRecs named by ID

See Also

Other run-public: ClstrArc-class, ClstrRec-class, Phylota-class, SeqRec-class, TaxDict-class, TaxRec-class, clusters2_run(), clusters_run(), parameters_reset(), reset(), restart(), run(), setup(), taxise_run()

Examples

data('aotus')
seqarc <- aotus@sqs
# this is a SeqArc object
# it contains sequence records
show(seqarc)
# you can access its different data slots with @
seqarc@ids     # sequence IDs defined as accession + feature position
seqarc@nncltds # number of nucleotides of all sequences  
seqarc@nambgs  # number of ambiguous nucleotides of all sequences
seqarc@txids   # all the taxonomic IDs for all sequences
seqarc@sqs     # list of all SeqRecs
# access sequence records [[
(seqarc[[seqarc@ids[[1]]]])  # first sequence record
# generate new sequence archives with [
(seqarc[seqarc@ids[1:10]])  # first 10 sequences

Convert raw Entrez gb text record to SeqRecs

Description

Parses returned sequences features with Entrez, returns one or more SeqRec objects for each raw record.

Usage

seqrec_convert(raw_recs, ps)

Arguments

raw_recs

Raw text records returned from Entrez fetch

ps

Parameters list, generated with parameters()

Value

SeqRecs

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Generate sequence record

Description

Creates an S4 SeqRec

Usage

seqrec_gen(
  accssn,
  nm,
  txid,
  sq,
  dfln,
  orgnsm,
  ml_typ,
  rec_typ,
  vrsn,
  age,
  lctn = NULL
)

Arguments

accssn

Accession ID

nm

Sequence name

txid

Taxonomic ID of source organism

sq

Sequence

dfln

Definition line

orgnsm

Source organism name

ml_typ

Molecule type

rec_typ

Sequence record type

vrsn

Accession version

age

Number of days since upload

lctn

Location numbers for features, e.g. '1..200'

Value

SeqRec

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


seqrec_get

Description

Downloads sequences from GenBank in batches.

Usage

seqrec_get(txid, ps, direct = FALSE, lvl = 0)

Arguments

txid

NCBI taxonomic ID

ps

Parameters list, generated with parameters()

direct

Node-level only or subtree as well? Default FALSE.

lvl

Integer, number of message indentations indicating code depth.

Details

If a restez database is available and the number of sequences to retrieve is less than 'btchsz', the function will look the sequences up from the database rather than download.

Value

Vector of sequence records

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Sequence record

Description

Sequence record contains sequence data.

Usage

## S4 method for signature 'SeqRec'
as.character(x)

## S4 method for signature 'SeqRec'
show(object)

## S4 method for signature 'SeqRec'
print(x)

## S4 method for signature 'SeqRec'
str(object, max.level = 2L, ...)

## S4 method for signature 'SeqRec'
summary(object)

Arguments

x

SeqRec object

object

SeqRec object

max.level

Maximum level of nesting for str()

...

Further arguments for str()

Details

Sequence is stored as raw. Use rawToChar().

Slots

id

Unique ID

nm

Best-guess sequence name

accssn

Accession

vrsn

Accession version

url

URL

txid

Taxonomic ID of source taxon

orgnsm

Scientific name of source taxon

sq

Sequence

dfln

Definition line

ml_typ

Molecule type, e.g. DNA

rec_typ

Record type: Whole or feature

nncltds

Number of nucleotides

nambgs

Number of ambiguous nucleotides

pambgs

Proportion of ambiguous nucleotides

gcr

GC ratio

age

Number of days between sequence upload and running pipeline

See Also

Other run-public: ClstrArc-class, ClstrRec-class, Phylota-class, SeqArc-class, TaxDict-class, TaxRec-class, clusters2_run(), clusters_run(), parameters_reset(), reset(), restart(), run(), setup(), taxise_run()

Examples

data('aotus')
seqrec <- aotus@sqs@sqs[[1]]
# this is a SeqRec object
# it contains sequence records
show(seqrec)
# you can access its different data slots with @
seqrec@id       # sequence ID, accession + feature location
seqrec@nm       # feature name, '' if none
seqrec@accssn   # accession
seqrec@vrsn     # accession version
seqrec@url      # NCBI GenBank URL
seqrec@txid     # Taxonomic ID
seqrec@orgnsm   # free-text organism name
seqrec@sq       # sequence, in raw format
seqrec@dfln     # sequence definition
seqrec@ml_typ   # molecule type
seqrec@rec_typ  # whole record or feature
seqrec@nncltds  # sequence length
seqrec@nambgs   # number of non-ATCGs
seqrec@pambgs   # proportion of non-ATCGs
seqrec@gcr      # GC-ratio
seqrec@age      # days since being added to GenBank
# get the sequence like so....
(rawToChar(seqrec@sq))

Set the age of a tree

Description

Return a tree with the age altered.

Usage

setAge(tree, val)

Arguments

tree

TreeMan object

val

new age

Details

Use this function to change the age of a tree. For example, you might want to convert the tree so that its age equals 1. This function will achieve that by modiyfing every branch, while maintaining their relative lengths.

See Also

setPD https://github.com/DomBennett/treeman/wiki/set-methods

Examples

tree <- randTree(10)
tree <- setAge(tree, val = 1)
summary(tree)

Set the ID of a node

Description

Return a tree with the ID of a node altered.

Usage

setNdID(tree, id, val)

Arguments

tree

TreeMan object

id

id to be changed

val

new id

Details

IDs cannot be changed directly for the TreeMan class. To change an ID use this function. Warning: all IDs must be unique, avoid spaces in IDs and only use letters, numbers and underscores. Use updateSlts after running.

See Also

setNdsID https://github.com/DomBennett/treeman/wiki/set-methods

Examples

tree <- randTree(10)
tree <- setNdID(tree, "t1", "heffalump")
tree <- updateSlts(tree)

Set a user defined slot

Description

Return a tree with a user defined slot for node ID.

Usage

setNdOther(tree, id, val, slt_nm)

Arguments

tree

TreeMan object

id

id of the node

val

data for slot

slt_nm

slot name

Details

A user can specify new slots in a tree. Add a new slot with this function by providing a node ID, a value for the new slot and a unique new slot name. Slot names must not be default TreeMan names. The new value can be any data type.

See Also

setNdsOther https://github.com/DomBennett/treeman/wiki/set-methods

Examples

tree <- randTree(10)
tree <- setNdOther(tree, "t1", 1, "binary_val")
tree <- updateSlts(tree)
(getNdSlt(tree, id = "t1", slt_nm = "binary_val"))

Set the IDs of multiple nodes

Description

Return a tree with the IDs of nodes altered.

Usage

setNdsID(tree, ids, vals, parallel = FALSE, progress = "none")

Arguments

tree

TreeMan object

ids

ids to be changed

vals

new ids

parallel

logical, make parallel?

progress

name of the progress bar to use, see create_progress_bar

Details

Runs setNdID() over multiple nodes. Warning: all IDs must be unique, avoid spaces in IDs, only use numbers, letters and underscores. Parellizable.

See Also

setNdID https://github.com/DomBennett/treeman/wiki/set-methods

Examples

tree <- randTree(10)
new_ids <- paste0("heffalump_", 1:tree["ntips"])
tree <- setNdsID(tree, tree["tips"], new_ids)
summary(tree)

Set a user defined slot for multiple nodes

Description

Return a tree with a user defined slot for node IDs.

Usage

setNdsOther(tree, ids, vals, slt_nm, parallel = FALSE, progress = "none")

Arguments

tree

TreeMan object

ids

id sof the nodes

vals

data for slot

slt_nm

slot name

parallel

logical, make parallel?

progress

name of the progress bar to use, see create_progress_bar

Details

Runs setNdOther() over multiple nodes. Parellizable.

See Also

setNdOther https://github.com/DomBennett/treeman/wiki/set-methods

Examples

tree <- randTree(10)
# e.g. confidences for nodes
vals <- runif(min = 0, max = 1, n = tree["nall"])
tree <- setNdsOther(tree, tree["all"], vals, "confidence")
tree <- updateSlts(tree)
summary(tree)
(getNdsSlt(tree, ids = tree["all"], slt_nm = "confidence"))

Set the branch length of a specific node

Description

Return a tree with the span of a node altered.

Usage

setNdSpn(tree, id, val)

Arguments

tree

TreeMan object

id

id of node whose preceding edge is to be changed

val

new span

Details

Takes a tree, a node ID and a new value for the node's preceding branch length (span).

See Also

setNdsSpn https://github.com/DomBennett/treeman/wiki/set-methods

Examples

tree <- randTree(10)
tree <- setNdSpn(tree, id = "t1", val = 100)
tree <- updateSlts(tree)
summary(tree)

Set the branch lengths of specific nodes

Description

Return a tree with the spans of nodes altered.

Usage

setNdsSpn(tree, ids, vals, parallel = FALSE, progress = "none")

Arguments

tree

TreeMan object

ids

ids of nodes whose preceding edges are to be changed

vals

new spans

parallel

logical, make parallel?

progress

name of the progress bar to use, see create_progress_bar

Details

Runs setNdSpn over multiple nodes. Parallelizable.

See Also

setNdSpn https://github.com/DomBennett/treeman/wiki/set-methods

Examples

tree <- randTree(10)
# make tree taxonomic
tree <- setNdsSpn(tree, ids = tree["all"], vals = 1)
summary(tree)
# remove spns by setting all to 0
tree <- setNdsSpn(tree, ids = tree["all"], vals = 0)
summary(tree)

Set the phylogenetic diversity

Description

Return a tree with the phylogenetic diversity altered.

Usage

setPD(tree, val)

Arguments

tree

TreeMan object

val

new phylogenetic diversity

Details

Use this function to convert the phylogenetic diversity of a tree. For example, you might want to convert the tree so the sum of all branches is 1. This function will achieve that by modiyfing every branch, while maintaining their relative lengths.

See Also

setAge https://github.com/DomBennett/treeman/wiki/set-methods

Examples

tree <- randTree(10)
tree <- setPD(tree, val = 1)
summary(tree)

Set the txnym slots in a tree

Description

Return a tree with txnyms added to specified nodes

Usage

setTxnyms(tree, txnyms)

Arguments

tree

TreeMan object

txnyms

named vector or list

Details

Returns a tree. Specify the taxonomic groups for nodes in a tree by providing a vector or list named by node IDs. Takes output from searchTxnyms. Only letters, numbers and underscores allowed. To remove special characters use regular expressions, e.g. gsub(['a-zA-Z0-9_'], '', txnym)

See Also

taxaResolve, searchTxnyms, getNdsLng, getNdLng, https://github.com/DomBennett/treeman/wiki/set-methods

Examples

data(mammals)
# let's change the txnym for humans
# what's its summary before we change anything?
summary(mammals[["Homo_sapiens"]])
# now let's add Hominini
new_txnym <- list("Homo_sapiens" = c("Hominini", "Homo"))
mammals <- setTxnyms(mammals, new_txnym)
summary(mammals[["Homo_sapiens"]])

Set-up parameters

Description

Set up working directory with parameters.

Usage

setup(
  wd,
  txid,
  ncbi_dr = ".",
  v = FALSE,
  overwrite = FALSE,
  outsider = FALSE,
  ...
)

Arguments

wd

Working directory

txid

Root taxonomic ID(s), vector or numeric

ncbi_dr

Directory to NCBI BLAST tools, default '.'

v

Verbose, T/F

overwrite

Overwrite existing cache?

outsider

Run through outsider? T/F

...

Additional parameters

Details

See parameters() for a description of all parameters and their defaults. You can change parameters after a folder has been set up with parameters_reset().

See Also

Other run-public: ClstrArc-class, ClstrRec-class, Phylota-class, SeqArc-class, SeqRec-class, TaxDict-class, TaxRec-class, clusters2_run(), clusters_run(), parameters_reset(), reset(), restart(), run(), taxise_run()

Examples

## Not run: 
  
  # Note: this example requires BLAST to run.
  
  # example with temp folder
  wd <- file.path(tempdir(), 'aotus')
  # setup for aotus, make sure aotus/ folder already exists
  if (!dir.exists(wd)) {
    dir.create(wd)
  }
  ncbi_dr <- '[SET BLAST+ BIN PATH HERE]'
  # e.g. "/usr/local/ncbi/blast/bin/"
  setup(wd = wd, txid = 9504, ncbi_dr = ncbi_dr)  # txid for Aotus primate genus
  # see ?parameters for all available parameter options

## End(Not run)

Check if sids exist

Description

Check if sids are already downloaded for a txid.

Usage

sids_check(wd, txid)

Arguments

wd

Working directory

txid

Taxonomic ID, numeric

Details

#' @name sqs_load #' @title Load sequences from cache #' @description Load sequences downloaded by dwnld function. #' @param wd Working directory #' @param txid Taxonomic ID, numeric #' @family run-private #' @return SeqArc sqs_load <- function(wd, txid) d <- file.path(wd, 'cache') if (!file.exists(d)) stop('Cache does not exist.') d <- file.path(d, 'sqs') if (!file.exists(d)) stop('‘sqs' not in cache. Have you run the download stage?’) fl <- file.path(d, paste0(txid, '.RData')) if (!file.exists(fl)) stop(paste0('[', txid, '] not in ‘sqs' of cache.’)) sqs <- try(readRDS(file = fl), silent = TRUE) if (inherits(sqs, 'try-error')) file.remove(fl) sqs

Value

T/F

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Return random set of sequence IDs

Description

For a given txid return a random set of sequences associated.

Usage

sids_get(txid, direct, ps, retmax = 100, hrdmx = 1e+05)

Arguments

txid

NCBI taxon identifier

direct

Node-level only or subtree as well? Default FALSE.

ps

Parameters list, generated with parameters()

retmax

Maximum number of sequences when querying model organisms. The smaller the more random, the larger the faster.

hrdmx

Absolute maximum number of sequence IDs to download in a single query.

Details

For model organisms downloading all IDs can a take long time or even cause an xml parsing error. For any search with more than hrdmx sequences, this function we will run multiple small searches downloading retmax seq IDs at a time with different retstart values to generate a semi-random vector of sequence IDs. For all other searches, all IDs will be retrieved. Note, it makes no sense for mdlthrs in parameters to be greater than hrdmx in this function.

Value

vector of IDs

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Count number of sequences for txid

Description

Return the number of sequences associated with a taxonomic ID on NCBI GenBank.

Usage

sqs_count(txid, ps, direct = FALSE)

Arguments

txid

Taxonomic ID

ps

Parameters list, generated with parameters()

direct

Node-level only or subtree as well? Default FALSE.

Value

integer

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Save sequences to cache

Description

Saves sequences downloaded

Usage

sqs_save(wd, txid, sqs)

Arguments

wd

Working directory

txid

Taxonomic ID, numeric

sqs

Sequences

Details

Used within the dwnld function. Saves sequence data by txid in cache.

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


Sequentially run each stage

Description

Runs stages from frm to to. Records stage progress in cache.

Usage

stages_run(wd, to, frm, stgs_msg, rstrt = FALSE)

Arguments

wd

Working directory

to

Total number of stages to run

frm

Starting stage to run from

stgs_msg

Printout stage message for log

rstrt

Restarting, T/F

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), txnds_count(), warn()


sturgeons

Description

sturgeons

Format

A TreeMan or Phylota object

Examples

data("sturgeons")

Summarise clusters in Phylota Table

Description

Generates a summary data.frame from all clusters in Phylota object.

Usage

summary_phylota(phylota)

Arguments

phylota

Phylota object

See Also

Other tools-private: mk_txid_in_sq_mtrx(), update_phylota()


tardigrades

Description

tardigrades

Format

A TreeMan or Phylota object

Examples

data("tardigrades")

Resolve taxonmic names online

Description

Resolve taxonomic names via the Global Names Resolver.

Usage

taxaResolve(
  nms,
  batch = 100,
  datasource = 4,
  genus = TRUE,
  cache = FALSE,
  parent = NULL
)

Arguments

nms

vector of names

batch

size of the batches to be queried

datasource

ID number of the datasource

genus

boolean, if true will search against GNR with just the genus name for names that failed to resolve using the full species name

cache

T/F, create a local cache of downloaded names?

parent

specify parent of all names to prevent false names

Details

Returns dataframe containing GNR metadata for each name wames that cannot be resolved are returned as NA. Various datasources are available, see http://resolver.globalnames.org/data_sources for a list and IDs. Default is 4 for NCBI. Will raise a warning if connection fails and will return NULL.

See Also

searchTxnyms, setTxnyms, getNdsFrmTxnyms

Examples

my_lovely_names <- c(
  "Gallus gallus", "Pongo pingu", "Homo sapiens",
  "Arabidopsis thaliana", "Macaca thibetana", "Bacillus subtilis"
)
res <- taxaResolve(nms = my_lovely_names)
length(colnames(res)) # 10 different metadata for returned names including original search name
# let's look at the lineages
lineages <- strsplit(as.vector(res$lineage), "\\|")
print(lineages[[6]]) # the bacteria has far fewer taxonomic levels

Generate taxonomic dictionary

Description

Takes a vector of txids and a list of taxonomic records and returns a taxonomic dictionary.

Usage

taxdict_gen(txids, recs, ps)

Arguments

txids

Vector of taxonomic IDs

recs

List of taxonomic records

ps

Parameters list, generated with parameters()

Value

TaxDict

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxtree_gen(), txids_get(), txnds_count(), warn()


Taxonomic record dictionary

Description

Taxonomic dictionary contains a taxonomic tree and NCBI taxonomy data for all taxonomic IDs.

Usage

## S4 method for signature 'TaxDict'
as.character(x)

## S4 method for signature 'TaxDict'
show(object)

## S4 method for signature 'TaxDict'
print(x)

## S4 method for signature 'TaxDict'
str(object, max.level = 2L, ...)

## S4 method for signature 'TaxDict'
summary(object)

Arguments

x

TaxDict object

object

TaxDict object

max.level

Maximum level of nesting for str()

...

Further arguments for str()

Slots

txids

Taxonomic IDs of taxon records

recs

Environment of records

prnt

Parent taxonomic ID

txtr

Taxonomic tree

See Also

Other run-public: ClstrArc-class, ClstrRec-class, Phylota-class, SeqArc-class, SeqRec-class, TaxRec-class, clusters2_run(), clusters_run(), parameters_reset(), reset(), restart(), run(), setup(), taxise_run()

Examples

data('aotus')
txdct <- aotus@txdct
# this is a TaxDict object
# it contains taxonomic information, including records and tree
show(txdct)
# you can access its different data slots with @
txdct@txids  # taxonomic IDs
txdct@recs   # taxonomic records environment
txdct@txtr   # taxonomic tree
txdct@prnt   # MRCA
# access any record through the records environment
txdct@recs[[txdct@txids[[1]]]]
# for interacting with the taxonomic tree, see the treeman package
summary(txdct@txtr)

Run taxise stage

Description

Run the first stage of phylotaR, taxise. This looks up all descendant taxonomic nodes for a given taxonomic ID. It then looks up relevant taxonomic information and generates a taxonomic dictionary for user interaction after phylotaR has completed.

Usage

taxise_run(wd)

Arguments

wd

Working directory

Details

Objects will be cached.

See Also

Other run-public: ClstrArc-class, ClstrRec-class, Phylota-class, SeqArc-class, SeqRec-class, TaxDict-class, TaxRec-class, clusters2_run(), clusters_run(), parameters_reset(), reset(), restart(), run(), setup()

Examples

## Not run: 
  
  # Note: this example requires BLAST and internet to run.
  
  # example with temp folder
  wd <- file.path(tempdir(), 'aotus')
  # setup for aotus, make sure aotus/ folder already exists
  if (!dir.exists(wd)) {
    dir.create(wd)
  }
  ncbi_dr <- '[SET BLAST+ BIN PATH HERE]'
  setup(wd = wd, txid = 9504, ncbi_dr = ncbi_dr)  # txid for Aotus primate genus
  # individually run stages
  taxise_run(wd = wd)

## End(Not run)

Taxonomic record

Description

Taxonomic dictionary contains a taxonomic tree and NCBI taxonomy data for all taxonomic IDs.

Usage

## S4 method for signature 'TaxRec'
as.character(x)

## S4 method for signature 'TaxRec'
show(object)

## S4 method for signature 'TaxRec'
print(x)

## S4 method for signature 'TaxRec'
str(object, max.level = 2L, ...)

## S4 method for signature 'TaxRec'
summary(object)

Arguments

x

TaxRec object

object

TaxRec object

max.level

Maximum level of nesting for str()

...

Further arguments for str()

Slots

id

Taxonomic ID

scnm

Scientific name

cmnm

Common name

rnk

Rank

lng

Lineage

prnt

Parent

See Also

Other run-public: ClstrArc-class, ClstrRec-class, Phylota-class, SeqArc-class, SeqRec-class, TaxDict-class, clusters2_run(), clusters_run(), parameters_reset(), reset(), restart(), run(), setup(), taxise_run()

Examples

data('aotus')
taxrec <- aotus@txdct@recs[[aotus@txdct@txids[[1]]]]
# this is a TaxRec object
# it contains NCBI's taxonomic information for a single node
show(taxrec)
# you can access its different data slots with @
taxrec@id    # taxonomic ID
taxrec@scnm  # scientific name
taxrec@cmnm  # common name, '' if none
taxrec@rnk   # rank
taxrec@lng   # lineage information: list of IDs and ranks
taxrec@prnt  # parent ID

Generate taxonomic tree

Description

Generate a taxonomic tree for easy look up of taxonomic parents and descendants.

Usage

taxtree_gen(prinds, ids, root, ps)

Arguments

prinds

Vector of integers indicating preceding node.

ids

Vector of taxonomic IDs

root

ID of root taxon

ps

Parameters list, generated with parameters()

Value

TreeMan

TreeMan class

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), txids_get(), txnds_count(), warn()


tinamous

Description

tinamous

Format

A TreeMan or Phylota object

Examples

data("tinamous")

TreeMan-class

Description

S4 class for representing phylogenetic trees as a list of nodes.

Usage

## S4 method for signature 'TreeMan,character'
x[[i]]

## S4 method for signature 'TreeMan,character,missing,missing'
x[i, j, ..., drop = TRUE]

## S4 method for signature 'TreeMan'
as.character(x)

## S4 method for signature 'TreeMan'
show(object)

## S4 method for signature 'TreeMan'
print(x)

## S4 method for signature 'TreeMan'
str(object, max.level = 2L, ...)

## S4 method for signature 'TreeMan'
summary(object)

## S4 method for signature 'TreeMan'
cTrees(x, ...)

Arguments

x

TreeMan object

i

node ID or slot name

j

missing

...

additional tree objects

drop

missing

object

TreeMan object

max.level

str() maximum number of levels to show

Details

A TreeMan object holds a list of nodes. The idea of the TreeMan class is to make adding and removing nodes as similar as possible to adding and removing elements in a list. Note that internal nodes and tips are both considered nodes. Trees can be polytomous but not unrooted.

Each node within the TreeMan ndlst contains the following data slots:

  • id: character string for the node ID

  • txnym: name of taxonomic clade (optional)

  • spn: length of the preceding branch

  • prid: ID of the immediately preceding node, NULL if root

  • ptid: IDs of the immediately connecting nodes

See below in 'Examples' for these methods in use.

Slots

ndlst

list of nodes

nds

vector of node ids that are internal nodes

nnds

numeric of number of internal nodes in tree

tips

vector of node ids that are tips

ntips

numeric of number of internal nodes in tree

all

vector of all node ids

nall

numeric of number of all nodes in tree

pd

numeric of total branch length of tree

tinds

indexes of all tip nodes in tree

prinds

indexes of all pre-nodes in tree

wspn

logical, do nodes have spans

wtxnyms

logical, do nodes have txnyms

ply

logical, is tree bifurcating

root

character of node id of root, if no root then empty character

updtd

logical, if tree slots have been updated since initiation or change

othr_slt_nms

vector, character list of additional data slots added to nodes

ndmtrx

matrix, T/Fs representing tree structure

See Also

randTree, Node-class, phylo-to-TreeMan, TreeMan-to-phylo

Examples

# Generate random tree
tree <- randTree(10)
# Print to get basic stats
summary(tree)
# Slots....
tree["tips"] # return all tips IDs
tree["nds"] # return all internal node IDs
tree["ntips"] # count all tips
tree["nnds"] # count all internal nodes
tree["root"] # identify root node
tree[["t1"]] # return t1 node object
tree["pd"] # return phylogenetic diversity
tree["ply"] # is polytomous?
# Additional special slots (calculated upon call)
tree["age"] # get tree's age
tree["ultr"] # determine if tree is ultrametric
tree["spns"] # get all the spans of the tree IDs
tree["prids"] # get all the IDs of preceding nodes
tree["ptids"] # get all the IDs of following nodes
tree["txnyms"] # get all the taxonyms of all nodes
# In addition [] can be used for any user-defined slot
# Because all nodes are lists with metadata we can readily
#  get specific information on nodes of interest
nd <- tree[["n2"]]
summary(nd)
# And then use the same syntax for the tree
nd["nkids"] # .... nkids, pd, etc.

# Convert to phylo and plot
library(ape)
tree <- as(tree, "phylo")
plot(tree)

Convert TreeMan to phylo

Description

Return ape's phylo from a TreeMan. This will preserve node labels if they are different from the default labels (n#).

See Also

phylo-to-TreeMan, TreeMen-to-multiPhylo multiPhylo-to-TreeMen TreeMan-class

Examples

library(ape)
tree <- randTree(10)
tree <- as(tree, "phylo")

TreeMen-class

Description

S4 class for multiple phylogenetic trees

Usage

## S4 method for signature 'TreeMen'
cTrees(x, ...)

## S4 method for signature 'TreeMen,ANY'
x[[i]]

## S4 method for signature 'TreeMen,character,missing,missing'
x[i, j, ..., drop = TRUE]

## S4 method for signature 'TreeMen'
as.character(x)

## S4 method for signature 'TreeMen'
show(object)

## S4 method for signature 'TreeMen'
str(object, max.level = 2L, ...)

## S4 method for signature 'TreeMen'
print(x)

## S4 method for signature 'TreeMen'
summary(object)

Arguments

x

TreeMen object

...

additional tree objects

i

tree index (integer or character)

j

missing

drop

missing

object

TreeMen object

max.level

str() maximum level

Slots

treelst

list of TreeMan objects

ntips

sum of tips per tree

ntrees

total number of trees

See Also

cTrees


Convert TreeMen to multiPhylo

Description

Return ape's multiPhylo from a TreeMen

See Also

TreeMan-to-phylo, phylo-to-TreeMan, multiPhylo-to-TreeMen TreeMan-class

Examples

library(ape)
trees <- cTrees(randTree(10), randTree(10), randTree(10))
trees <- as(trees, "multiPhylo")

Generate a tree of two tips

Description

Returns a TreeMan tree with two tips and a root.

Usage

twoer(tids = c("t1", "t2"), spns = c(1, 1), rid = "root", root_spn = 0)

Arguments

tids

tip IDs

spns

tip spans

rid

root ID

root_spn

root span

Details

Useful for building larger trees with addClade(). Note, a node matrix cannot be added to a tree of two tips.

See Also

TreeMan-class, randTree

Examples

tree <- twoer()

Searches for descendant taxonomic IDs

Description

Searches NCBI taxonomy for all descendant taxonomic nodes.

Usage

txids_get(ps, retmax = 10000)

Arguments

ps

Parameters list, generated with parameters()

retmax

integer, maximum number of IDs to return per query

Value

Vector of txids

vector of ids

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txnds_count(), warn()


Count number of descending taxonomic nodes

Description

Searches NCBI taxonomy and returns number of descendants taxonomic nodes (species, genera ...) of ID.

Usage

txnds_count(txid, ps)

Arguments

txid

Taxonomic ID

ps

Parameters list, generated with parameters()

Value

integer

See Also

Other run-private: batcher(), blast_clstr(), blast_filter(), blast_setup(), blast_sqs(), blastcache_load(), blastcache_save(), blastdb_gen(), blastn_run(), cache_rm(), cache_setup(), clade_select(), clstr2_calc(), clstr_all(), clstr_direct(), clstr_sqs(), clstr_subtree(), clstrarc_gen(), clstrarc_join(), clstrrec_gen(), clstrs_calc(), clstrs_join(), clstrs_merge(), clstrs_renumber(), clstrs_save(), cmdln(), descendants_get(), download_obj_check(), error(), gb_extract(), hierarchic_download(), info(), ncbicache_load(), ncbicache_save(), obj_check(), obj_load(), obj_save(), outfmt_get(), parameters_load(), parameters_setup(), parent_get(), progress_init(), progress_read(), progress_reset(), progress_save(), rank_get(), rawseqrec_breakdown(), safely_connect(), search_and_cache(), searchterm_gen(), seeds_blast(), seq_download(), seqarc_gen(), seqrec_augment(), seqrec_convert(), seqrec_gen(), seqrec_get(), sids_check(), sids_get(), sids_load(), sids_save(), sqs_count(), sqs_save(), stage_args_check(), stages_run(), tax_download(), taxdict_gen(), taxtree_gen(), txids_get(), warn()


Make tree ultrametric

Description

Returns a tree with all tips ending at time 0

Usage

ultrTree(tree)

Arguments

tree

TreeMan object

Details

Re-calculates the branch lengths in the tree so that all tips are brought to the same time point: all species are extant.

See Also

https://github.com/DomBennett/treeman/wiki/manip-methods

Examples

tree <- randTree(10)
(getDcsd(tree)) # list all extinct tips
tree <- ultrTree(tree)
(getDcsd(tree)) # list all extinct tips

Generate an unbalanced tree

Description

Returns an unbalanced TreeMan tree with n tips.

Usage

unblncdTree(n, wndmtrx = FALSE, parallel = FALSE)

Arguments

n

number of tips, integer, must be 3 or greater

wndmtrx

T/F add node matrix? Default FALSE.

parallel

T/F run in parallel? Default FALSE.

Details

Equivalent to ape's stree(type='left') but returns a TreeMan tree. Tree is always rooted and bifurcating.

See Also

TreeMan-class, randTree, blncdTree

Examples

tree <- unblncdTree(5)

Update slots

Description

After change, run to update slots.

Usage

update_phylota(phylota)

Arguments

phylota

Phylota

Value

Phylota

See Also

Other tools-private: mk_txid_in_sq_mtrx(), summary_phylota()


Update tree slots after manipulation

Description

Return tree with updated slots.

Usage

updateSlts(tree)

Arguments

tree

TreeMan object

Details

Tree slots in the TreeMan object are usually automatically updated. For certain single node manipulations they are not. Run this function to update the slots.

See Also

addNdmtrx, getAge


Write out sequences

Description

Write out sequences, as .fasta, for a given vector of IDs.

Usage

write_sqs(phylota, outfile, sid, sq_nm = sid, width = 80)

Arguments

phylota

Phylota

outfile

Output file

sid

Sequence ID(s)

sq_nm

Sequence name(s)

width

Maximum number of characters in a line, integer

Details

The user can control the output definition lines of the sequences using the sq_nm. By default sequences IDs are used. Note, ensure the sq_nm are in the same order as sid.

See Also

Other tools-public: calc_mad(), calc_wrdfrq(), drop_by_rank(), drop_clstrs(), drop_sqs(), get_clstr_slot(), get_nsqs(), get_ntaxa(), get_sq_slot(), get_stage_times(), get_tx_slot(), get_txids(), is_txid_in_clstr(), is_txid_in_sq(), list_clstrrec_slots(), list_ncbi_ranks(), list_seqrec_slots(), list_taxrec_slots(), plot_phylota_pa(), plot_phylota_treemap(), read_phylota()

Examples

data('aotus')
# get sequences for a cluster and write out
random_cid <- sample(aotus@cids, 1)
sids <- aotus[[random_cid]]@sids
write_sqs(phylota = aotus, outfile = file.path(tempdir(), 'test.fasta'),
          sq_nm = 'my_gene', sid = sids)

Write a Newick tree

Description

Creates a Newick tree from a TreeMan object.

Usage

writeTree(
  tree,
  file,
  append = FALSE,
  ndLabels = function(nd) {
     return(NULL)
 },
  parallel = FALSE,
  progress = "none"
)

Arguments

tree

TreeMan object

file

file path

append

T/F append tree to already existing file

ndLabels

node label function

parallel

logical, make parallel?

progress

name of the progress bar to use, see create_progress_bar

Details

The ndLabels argument can be used to add a user defined node label in the Newick tree. It should take only 1 argument, nd, the node represented as a list. It should only return a single character value that can be added to a newick string.

See Also

https://en.wikipedia.org/wiki/Newick_format, readTree, randTree, readTrmn, writeTrmn, saveTreeMan, loadTreeMan

Examples

tree <- randTree(10)
# write out the tree with node labels as IDs
ndLabels <- function(n) {
  n[["id"]]
}
writeTree(tree, file = "example.tre", ndLabels = ndLabels)
file.remove("example.tre")

Write a .trmn tree

Description

Write to disk a TreeMan or TreeMan object using the .trmn treefile

Usage

writeTrmn(tree, file)

Arguments

tree

TreeMan object or TreeMen object

file

file path

Details

Write a tree(s) to file using the .trmn format. It is faster to read and write tree files using treeman with the .trmn file format. In addition it is possible to encode more information than possible with the Newick, e.g. any taxonomic information and additional slot names added to the tree are recorded in the file.

See Also

readTrmn, readTree,writeTree, randTree, saveTreeMan, loadTreeMan

Examples

tree <- randTree(10)
writeTrmn(tree, file = "test.trmn")
tree <- readTrmn("test.trmn")
file.remove("test.trmn")

yeasts

Description

yeasts

Format

A TreeMan or Phylota object

Examples

data("yeasts")