R Under development (unstable) (2024-01-28 r85838 ucrt) -- "Unsuffered Consequences"
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> library(phylobase)
> library(ape)

Attaching package: 'ape'

The following object is masked from 'package:phylobase':

    edges

> 
> set.seed(1)
> 
> data(geospiza)
> 
> ## make sure geospiza is properly formatted
> if(is.character(checkval <- checkPhylo4(geospiza)))
+   stop(checkval)
> 
> 
> geospiza0 <-
+   list(geospiza.tree=as(geospiza,"phylo"),geospiza.data=tipData(geospiza))
Warning messages:
1: In asMethod(object) : losing data while coercing phylo4d to phylo
2: In asMethod(object) : trees with unknown order may be unsafe in ape
> ## push data back into list form as in geiger
> 
> t1 <-  try(p1 <- phylo4d(geospiza0$geospiza.tree,geospiza0$geospiza.data))
> ## Error in checkData(res, ...) :
> ##   Tip data names are a subset of tree tip labels.
> 
> p2 <- as(geospiza0$geospiza.tree,"phylo4")
> plot(p2)
> 
> lab1 <- tipLabels(p2)
> lab2 <- rownames(geospiza0$geospiza.data)
> 
> lab1[!lab1 %in% lab2]  ## missing data
named character(0)
> lab2[!lab2 %in% lab1]  ## extra data (none)
character(0)
> p1 <- phylo4d(p2,geospiza0$geospiza.data, missing.data="warn")
> p1 <- phylo4d(p2,geospiza0$geospiza.data, missing.data="OK")
> 
> plot(p1)
> plot(p1,show.node.label=TRUE)
> ## one way to deal with it:
> 
> p1B <- prune(p1,tip="olivacea")
> 
> ## or ...
> p1C <- stats::na.omit(p1)
> 
> labels(p1C, "all") <- tolower(labels(p1C, "all"))
> 
> ## trace("prune",browser,signature="phylo4d")
> r1 <- read.tree(text="((t4:0.3210275554,(t2:0.2724586465,t3:0.2724586465):0.0485689089):0.1397952619,(t5:0.07551818331,t1:0.07551818331):0.385304634);")
> 
> ## trace("phylo4d", browser, signature = "phylo")
> ## untrace("phylo4d", signature = "phylo")
> tipdat <- data.frame(a=1:5, row.names=r1$tip.label)
> q1 <- phylo4d(r1,tip.data=tipdat, node.data=data.frame(a=6:9), match.data=FALSE)
> q2 <- prune(q1,1)
> summary(q2)

 Phylogenetic tree : as(x, "phylo4") 

 Number of tips    : 4 
 Number of nodes   : 3 
 Branch lengths:
        mean         : 0.2116037 
        variance     : 0.01503145 
        distribution :
   Min. 1st Qu.  Median    Mean 3rd Qu.    Max. 
0.07552 0.10373 0.23041 0.21160 0.27246 0.38530 

Comparative data:

Tips: data.frame with 4 taxa and 1 variable(s) 

       a       
 Min.   :2.00  
 1st Qu.:2.75  
 Median :3.50  
 Mean   :3.50  
 3rd Qu.:4.25  
 Max.   :5.00  

Nodes: data.frame with 3 internal nodes and 1 variables 

       a        
 Min.   :6.000  
 1st Qu.:7.000  
 Median :8.000  
 Mean   :7.667  
 3rd Qu.:8.500  
 Max.   :9.000  
> 
> tipdat2 <- tipdat
> row.names(tipdat2)[1] <- "s1"
> t1 <- try(q1 <- phylo4d(r1,tip.data=tipdat2))
Error in formatData(phy = x, dt = tip.data, type = "tip", ...) : 
  The following nodes are not found in the dataset:  t4
> 
> plot(q2)
> plot(q2,type="cladogram")
> ## plot(p2,type="dotchart",labels.nodes=nodeLabels(p2))
> ## trace("plot", browser, signature = c("phylo4d","missing"))
> tipLabels(q1) <- paste("q",1:5,sep="")
> nodeLabels(q1) <- paste("n",1:4,sep="")
> p3 <- phylo4d(r1,tip.data=tipdat,node.data=data.frame(b=6:9), match.data=FALSE)
> summary(p3)

 Phylogenetic tree : as(x, "phylo4") 

 Number of tips    : 5 
 Number of nodes   : 4 
 Branch lengths:
        mean         : 0.1988313 
        variance     : 0.0167175 
        distribution :
   Min. 1st Qu.  Median    Mean 3rd Qu.    Max. 
0.04857 0.07552 0.20613 0.19883 0.28460 0.38530 

Comparative data:

Tips: data.frame with 5 taxa and 2 variable(s) 

       a           b      
 Min.   :1   Min.   : NA  
 1st Qu.:2   1st Qu.: NA  
 Median :3   Median : NA  
 Mean   :3   Mean   :NaN  
 3rd Qu.:4   3rd Qu.: NA  
 Max.   :5   Max.   : NA  
             NA's   :5    

Nodes: data.frame with 4 internal nodes and 2 variables 

       a             b       
 Min.   : NA   Min.   :6.00  
 1st Qu.: NA   1st Qu.:6.75  
 Median : NA   Median :7.50  
 Mean   :NaN   Mean   :7.50  
 3rd Qu.: NA   3rd Qu.:8.25  
 Max.   : NA   Max.   :9.00  
 NA's   :4                   
> 
> plot(p1)
> 
> plot(subset(p1,tips.include=c("fuliginosa","fortis","magnirostris",
+             "conirostris","scandens")))
> ## better error?
> ## Error in phy$edge[, 2] : incorrect number of dimensions
> 
> if(dev.cur() == 1) get(getOption("device"))()
> plot(subset(p2,tips.include=c("fuliginosa","fortis","magnirostris",
+             "conirostris","scandens")))
> 
> plot(p2,show.node.label=TRUE)
> 
> tree.owls <- read.tree(text="(((Strix_aluco:4.2,Asio_otus:4.2):3.1,Athene_noctua:7.3):6.3,Tyto_alba:13.5);")
> 
> z <- as(tree.owls,"phylo4")
> 
> example("phylo4d")

phyl4d> treeOwls <- "((Strix_aluco:4.2,Asio_otus:4.2):3.1,Athene_noctua:7.3);"

phyl4d> tree.owls.bis <- ape::read.tree(text=treeOwls)

phyl4d> try(phylo4d(as(tree.owls.bis,"phylo4"),data.frame(wing=1:3)), silent=TRUE)
          label node ancestor edge.length node.type wing
1   Strix_aluco    1        5         4.2       tip    1
2     Asio_otus    2        5         4.2       tip    2
3 Athene_noctua    3        4         7.3       tip    3
4          <NA>    4        0          NA      root   NA
5          <NA>    5        4         3.1  internal   NA

phyl4d> obj <- phylo4d(as(tree.owls.bis,"phylo4"),data.frame(wing=1:3), match.data=FALSE)

phyl4d> obj
          label node ancestor edge.length node.type wing
1   Strix_aluco    1        5         4.2       tip    1
2     Asio_otus    2        5         4.2       tip    2
3 Athene_noctua    3        4         7.3       tip    3
4          <NA>    4        0          NA      root   NA
5          <NA>    5        4         3.1  internal   NA

phyl4d> print(obj)
          label node ancestor edge.length node.type wing
1   Strix_aluco    1        5         4.2       tip    1
2     Asio_otus    2        5         4.2       tip    2
3 Athene_noctua    3        4         7.3       tip    3
4          <NA>    4        0          NA      root   NA
5          <NA>    5        4         3.1  internal   NA

phyl4d> ####
phyl4d> 
phyl4d> data(geospiza_raw)

phyl4d> geoTree <- geospiza_raw$tree

phyl4d> geoData <- geospiza_raw$data

phyl4d> ## fix differences in tip names between the tree and the data
phyl4d> geoData <- rbind(geoData, array(, dim = c(1,ncol(geoData)),
phyl4d+                   dimnames = list("olivacea", colnames(geoData))))

phyl4d> ### Example using a tree of class 'phylo'
phyl4d> exGeo1 <- phylo4d(geoTree, tip.data = geoData)

phyl4d> ### Example using a tree of class 'phylo4'
phyl4d> geoTree <- as(geoTree, "phylo4")

phyl4d> ## some random node data
phyl4d> rNodeData <- data.frame(randomTrait = rnorm(nNodes(geoTree)),
phyl4d+                         row.names = nodeId(geoTree, "internal"))

phyl4d> exGeo2 <- phylo4d(geoTree, tip.data = geoData, node.data = rNodeData)

phyl4d> ### Example using 'merge.data'
phyl4d> data(geospiza)

phyl4d> trGeo <- extractTree(geospiza)

phyl4d> tDt <- data.frame(a=rnorm(nTips(trGeo)), row.names=nodeId(trGeo, "tip"))

phyl4d> nDt <- data.frame(a=rnorm(nNodes(trGeo)), row.names=nodeId(trGeo, "internal"))

phyl4d> (matchData1 <- phylo4d(trGeo, tip.data=tDt, node.data=nDt, merge.data=FALSE))
          label node ancestor edge.length node.type       a.tip      a.node
1    fuliginosa    1       24     0.05500       tip -2.21469989          NA
2        fortis    2       24     0.05500       tip  1.12493092          NA
3  magnirostris    3       23     0.11000       tip -0.04493361          NA
4   conirostris    4       22     0.18333       tip -0.01619026          NA
5      scandens    5       21     0.19250       tip  0.94383621          NA
6    difficilis    6       20     0.22800       tip  0.82122120          NA
7       pallida    7       25     0.08667       tip  0.59390132          NA
8      parvulus    8       27     0.02000       tip  0.91897737          NA
9    psittacula    9       27     0.02000       tip  0.78213630          NA
10       pauper   10       26     0.03500       tip  0.07456498          NA
11   Platyspiza   11       18     0.46550       tip -1.98935170          NA
12        fusca   12       17     0.53409       tip  0.61982575          NA
13 Pinaroloxias   13       16     0.58333       tip -0.05612874          NA
14     olivacea   14       15     0.88077       tip -0.15579551          NA
15          N15   15        0          NA      root          NA -1.47075238
16          N16   16       15     0.29744  internal          NA -0.47815006
17          N17   17       16     0.04924  internal          NA  0.41794156
18          N18   18       17     0.06859  internal          NA  1.35867955
19          N19   19       18     0.13404  internal          NA -0.10278773
20          N20   20       19     0.10346  internal          NA  0.38767161
21          N21   21       20     0.03550  internal          NA -0.05380504
22          N22   22       21     0.00917  internal          NA -1.37705956
23          N23   23       22     0.07333  internal          NA -0.41499456
24          N24   24       23     0.05500  internal          NA -0.39428995
25          N25   25       19     0.24479  internal          NA -0.05931340
26          N26   26       25     0.05167  internal          NA  1.10002537
27          N27   27       26     0.01500  internal          NA  0.76317575

phyl4d> (matchData2 <- phylo4d(trGeo, tip.data=tDt, node.data=nDt, merge.data=TRUE))
          label node ancestor edge.length node.type           a
1    fuliginosa    1       24     0.05500       tip -2.21469989
2        fortis    2       24     0.05500       tip  1.12493092
3  magnirostris    3       23     0.11000       tip -0.04493361
4   conirostris    4       22     0.18333       tip -0.01619026
5      scandens    5       21     0.19250       tip  0.94383621
6    difficilis    6       20     0.22800       tip  0.82122120
7       pallida    7       25     0.08667       tip  0.59390132
8      parvulus    8       27     0.02000       tip  0.91897737
9    psittacula    9       27     0.02000       tip  0.78213630
10       pauper   10       26     0.03500       tip  0.07456498
11   Platyspiza   11       18     0.46550       tip -1.98935170
12        fusca   12       17     0.53409       tip  0.61982575
13 Pinaroloxias   13       16     0.58333       tip -0.05612874
14     olivacea   14       15     0.88077       tip -0.15579551
15          N15   15        0          NA      root -1.47075238
16          N16   16       15     0.29744  internal -0.47815006
17          N17   17       16     0.04924  internal  0.41794156
18          N18   18       17     0.06859  internal  1.35867955
19          N19   19       18     0.13404  internal -0.10278773
20          N20   20       19     0.10346  internal  0.38767161
21          N21   21       20     0.03550  internal -0.05380504
22          N22   22       21     0.00917  internal -1.37705956
23          N23   23       22     0.07333  internal -0.41499456
24          N24   24       23     0.05500  internal -0.39428995
25          N25   25       19     0.24479  internal -0.05931340
26          N26   26       25     0.05167  internal  1.10002537
27          N27   27       26     0.01500  internal  0.76317575

phyl4d> ## Example with 'all.data'
phyl4d> nodeLabels(geoTree) <- as.character(nodeId(geoTree, "internal"))

phyl4d> rAllData <- data.frame(randomTrait = rnorm(nTips(geoTree) + nNodes(geoTree)),
phyl4d+ row.names = labels(geoTree, 'all'))

phyl4d> exGeo5 <- phylo4d(geoTree, all.data = rAllData)

phyl4d> ## Examples using 'rownamesAsLabels' and comparing with match.data=FALSE
phyl4d> tDt <- data.frame(x=letters[1:nTips(trGeo)],
phyl4d+                   row.names=sample(nodeId(trGeo, "tip")))

phyl4d> tipLabels(trGeo) <- as.character(sample(1:nTips(trGeo)))

phyl4d> (exGeo6 <- phylo4d(trGeo, tip.data=tDt, rownamesAsLabels=TRUE))
   label node ancestor edge.length node.type    x
1      1    1       24     0.05500       tip    j
2     13    2       24     0.05500       tip    b
3      6    3       23     0.11000       tip    n
4     12    4       22     0.18333       tip    g
5      4    5       21     0.19250       tip    i
6      9    6       20     0.22800       tip    m
7      5    7       25     0.08667       tip    e
8      8    8       27     0.02000       tip    c
9     11    9       27     0.02000       tip    h
10    14   10       26     0.03500       tip    d
11     3   11       18     0.46550       tip    k
12     2   12       17     0.53409       tip    l
13     7   13       16     0.58333       tip    f
14    10   14       15     0.88077       tip    a
15   N15   15        0          NA      root <NA>
16   N16   16       15     0.29744  internal <NA>
17   N17   17       16     0.04924  internal <NA>
18   N18   18       17     0.06859  internal <NA>
19   N19   19       18     0.13404  internal <NA>
20   N20   20       19     0.10346  internal <NA>
21   N21   21       20     0.03550  internal <NA>
22   N22   22       21     0.00917  internal <NA>
23   N23   23       22     0.07333  internal <NA>
24   N24   24       23     0.05500  internal <NA>
25   N25   25       19     0.24479  internal <NA>
26   N26   26       25     0.05167  internal <NA>
27   N27   27       26     0.01500  internal <NA>

phyl4d> (exGeo7 <- phylo4d(trGeo, tip.data=tDt, rownamesAsLabels=FALSE))
   label node ancestor edge.length node.type    x
1      1    1       24     0.05500       tip    j
2     13    2       24     0.05500       tip    l
3      6    3       23     0.11000       tip    k
4     12    4       22     0.18333       tip    i
5      4    5       21     0.19250       tip    e
6      9    6       20     0.22800       tip    n
7      5    7       25     0.08667       tip    f
8      8    8       27     0.02000       tip    c
9     11    9       27     0.02000       tip    m
10    14   10       26     0.03500       tip    a
11     3   11       18     0.46550       tip    h
12     2   12       17     0.53409       tip    g
13     7   13       16     0.58333       tip    b
14    10   14       15     0.88077       tip    d
15   N15   15        0          NA      root <NA>
16   N16   16       15     0.29744  internal <NA>
17   N17   17       16     0.04924  internal <NA>
18   N18   18       17     0.06859  internal <NA>
19   N19   19       18     0.13404  internal <NA>
20   N20   20       19     0.10346  internal <NA>
21   N21   21       20     0.03550  internal <NA>
22   N22   22       21     0.00917  internal <NA>
23   N23   23       22     0.07333  internal <NA>
24   N24   24       23     0.05500  internal <NA>
25   N25   25       19     0.24479  internal <NA>
26   N26   26       25     0.05167  internal <NA>
27   N27   27       26     0.01500  internal <NA>

phyl4d> (exGeo8 <- phylo4d(trGeo, tip.data=tDt, match.data=FALSE))
   label node ancestor edge.length node.type    x
1      1    1       24     0.05500       tip    a
2     13    2       24     0.05500       tip    b
3      6    3       23     0.11000       tip    c
4     12    4       22     0.18333       tip    d
5      4    5       21     0.19250       tip    e
6      9    6       20     0.22800       tip    f
7      5    7       25     0.08667       tip    g
8      8    8       27     0.02000       tip    h
9     11    9       27     0.02000       tip    i
10    14   10       26     0.03500       tip    j
11     3   11       18     0.46550       tip    k
12     2   12       17     0.53409       tip    l
13     7   13       16     0.58333       tip    m
14    10   14       15     0.88077       tip    n
15   N15   15        0          NA      root <NA>
16   N16   16       15     0.29744  internal <NA>
17   N17   17       16     0.04924  internal <NA>
18   N18   18       17     0.06859  internal <NA>
19   N19   19       18     0.13404  internal <NA>
20   N20   20       19     0.10346  internal <NA>
21   N21   21       20     0.03550  internal <NA>
22   N22   22       21     0.00917  internal <NA>
23   N23   23       22     0.07333  internal <NA>
24   N24   24       23     0.05500  internal <NA>
25   N25   25       19     0.24479  internal <NA>
26   N26   26       25     0.05167  internal <NA>
27   N27   27       26     0.01500  internal <NA>

phyl4d> ## generate a tree and some data
phyl4d> set.seed(1)

phyl4d> p3 <- ape::rcoal(5)

phyl4d> dat <- data.frame(a = rnorm(5), b = rnorm(5), row.names = p3$tip.label)

phyl4d> dat.defaultnames <- dat

phyl4d> row.names(dat.defaultnames) <- NULL

phyl4d> dat.superset <- rbind(dat, rnorm(2))

phyl4d> dat.subset <- dat[-1, ]

phyl4d> ## create a phylo4 object from a phylo object
phyl4d> p4 <- as(p3, "phylo4")

phyl4d> ## create phylo4d objects with tip data
phyl4d> p4d <- phylo4d(p4, dat)

phyl4d> ###checkData(p4d)
phyl4d> p4d.sorted <- phylo4d(p4, dat[5:1, ])

phyl4d> try(p4d.nonames <- phylo4d(p4, dat.defaultnames))

phyl4d> p4d.nonames <- phylo4d(p4, dat.defaultnames, match.data=FALSE)

phyl4d> ## Not run: 
phyl4d> ##D p4d.subset <- phylo4d(p4, dat.subset)
phyl4d> ##D p4d.subset <- phylo4d(p4, dat.subset)
phyl4d> ##D try(p4d.superset <- phylo4d(p4, dat.superset))
phyl4d> ##D p4d.superset <- phylo4d(p4, dat.superset)
phyl4d> ## End(Not run)
phyl4d> 
phyl4d> ## create phylo4d objects with node data
phyl4d> nod.dat <- data.frame(a = rnorm(4), b = rnorm(4))

phyl4d> p4d.nod <- phylo4d(p4, node.data = nod.dat, match.data=FALSE)

phyl4d> ## create phylo4 objects with node and tip data
phyl4d> p4d.all1 <- phylo4d(p4, node.data = nod.dat, tip.data = dat, match.data=FALSE)

phyl4d> nodeLabels(p4) <- as.character(nodeId(p4, "internal"))

phyl4d> p4d.all2 <- phylo4d(p4, all.data = rbind(dat, nod.dat), match.data=FALSE)
> obj1 <- obj2 <- obj3 <- phylo4d(z, data.frame(wing=1:4,color=factor(c("b","w","b","b")), tail=runif(4)*10), match.data=FALSE)
> 
> obj2@data <- as.data.frame(obj2@data[,1])
> obj3@data <- cbind(obj1@data,obj2@data)
> obj4 <- obj1
> obj4@data[2,3] <- NA
> obj4@data[1,1] <- NA
> 
> nodeLabels(obj4) <- character(0)
> 
> obj5 <- obj1
> tipData(obj4) <- subset(tipData(obj4),select=sapply(tipData(obj4),class)=="numeric")
> 
> treePlot(obj4)
> 
> E <- matrix(c(
+     8,  9,
+     9, 10,
+    10,  1,
+    10,  2,
+     9,  3,
+     9,  4,
+     8, 11,
+    11,  5,
+    11,  6,
+    11,  7,
+     0,  8), ncol=2,byrow=TRUE)
> 
> P2 <- phylo4(E)
> 
> proc.time()
   user  system elapsed 
   1.78    0.20    1.96