pathsToBinary: Converts the result from pathRanker into something suitable...
In NetPathMiner: NetPathMiner for Biological Network Construction, Path Mining and Visualization
Description
Usage
Arguments
Details
Value
Author(s)
See Also
Examples
View source: R/pathClassifier.R
Description
Converts the result from pathRanker into something suitable for pathClassifier or pathCluster.
Usage
1
pathsToBinary(ypaths)
Arguments
ypaths
The result of pathRanker.
Details
Converts a set of pathways from pathRanker
into a list of binary pathway matrices. If the pathways are grouped by a response label then the
pathsToBinary returns a list labeled by response class where each element is the binary
pathway matrix for each class. If the pathways are from pathRanker then a list wiht
a single element containing the binary pathway matrix is returned. To look up the structure of a
specific binary path in the corresponding ypaths object simply use matrix index by calling
ypaths[[ybinpaths\$pidx[i,]]], where i is the row in the binary paths object you
wish to reference.
Value
A list with the following elements.
paths
All paths within ypaths converted to a binary string and concatenated into the one matrix.
y
The response variable.
pidx
An matrix where each row specifies the location of that path within the ypaths object.
Author(s)
Timothy Hancock and Ichigaku Takigawa
See Also
Other Path clustering & classification methods: pathClassifier,
pathCluster,
plotClassifierROC,
plotClusterMatrix,
plotPathClassifier,
plotPathCluster,
predictPathClassifier,
predictPathCluster
Examples
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## Prepare a weighted reaction network.
## Conver a metabolic network to a reaction network.
data(ex_sbml) # bipartite metabolic network of Carbohydrate metabolism.
rgraph <- makeReactionNetwork(ex_sbml, simplify=TRUE)
## Assign edge weights based on Affymetrix attributes and microarray dataset.
# Calculate Pearson's correlation.
data(ex_microarray) # Part of ALL dataset.
rgraph <- assignEdgeWeights(microarray = ex_microarray, graph = rgraph,
weight.method = "cor", use.attr="miriam.uniprot",
y=factor(colnames(ex_microarray)), bootstrap = FALSE)
## Get ranked paths using probabilistic shortest paths.
ranked.p <- pathRanker(rgraph, method="prob.shortest.path",
K=20, minPathSize=6)
## Convert paths to binary matrix.
ybinpaths <- pathsToBinary(ranked.p)
p.cluster <- pathCluster(ybinpaths, M=3)
plotClusters(ybinpaths, p.cluster, col=c("red", "green", "blue") )
NetPathMiner documentation built on Nov. 8, 2020, 8:20 p.m.
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Description Usage Arguments Details Value Author(s) See Also Examples
View source: R/pathClassifier.R
Description
Converts the result from pathRanker into something suitable for pathClassifier or pathCluster.
Usage
1 | pathsToBinary(ypaths)
|
Arguments
ypaths |
The result of |
Details
Converts a set of pathways from pathRanker
into a list of binary pathway matrices. If the pathways are grouped by a response label then the
pathsToBinary returns a list labeled by response class where each element is the binary
pathway matrix for each class. If the pathways are from pathRanker then a list wiht
a single element containing the binary pathway matrix is returned. To look up the structure of a
specific binary path in the corresponding ypaths object simply use matrix index by calling
ypaths[[ybinpaths\$pidx[i,]]], where i is the row in the binary paths object you
wish to reference.
Value
A list with the following elements.
paths |
All paths within ypaths converted to a binary string and concatenated into the one matrix. |
y |
The response variable. |
pidx |
An matrix where each row specifies the location of that path within the |
Author(s)
Timothy Hancock and Ichigaku Takigawa
See Also
Other Path clustering & classification methods: pathClassifier,
pathCluster,
plotClassifierROC,
plotClusterMatrix,
plotPathClassifier,
plotPathCluster,
predictPathClassifier,
predictPathCluster
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 | ## Prepare a weighted reaction network.
## Conver a metabolic network to a reaction network.
data(ex_sbml) # bipartite metabolic network of Carbohydrate metabolism.
rgraph <- makeReactionNetwork(ex_sbml, simplify=TRUE)
## Assign edge weights based on Affymetrix attributes and microarray dataset.
# Calculate Pearson's correlation.
data(ex_microarray) # Part of ALL dataset.
rgraph <- assignEdgeWeights(microarray = ex_microarray, graph = rgraph,
weight.method = "cor", use.attr="miriam.uniprot",
y=factor(colnames(ex_microarray)), bootstrap = FALSE)
## Get ranked paths using probabilistic shortest paths.
ranked.p <- pathRanker(rgraph, method="prob.shortest.path",
K=20, minPathSize=6)
## Convert paths to binary matrix.
ybinpaths <- pathsToBinary(ranked.p)
p.cluster <- pathCluster(ybinpaths, M=3)
plotClusters(ybinpaths, p.cluster, col=c("red", "green", "blue") )
|
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