Nothing
R/misc.R
In fingerprint: Functions to operate on binary fingerprint data
setGeneric("fold", function(fp) standardGeneric("fold"))
setMethod("fold", "fingerprint",
function(fp) {
size <- fp@nbit
if (size %% 2 != 0) {
stop('Need to supply a fingerprint of even numbered length')
}
bfp <- rep(FALSE, size)
bfp[fp@bits] <- TRUE
subfplen <- size/2
b1 <- which(bfp[1:subfplen])
b2 <- which(bfp[(subfplen+1):size])
subfp1 <- new("fingerprint",
nbit=subfplen,
bits=b1,
provider="R");
subfp2 <- new("fingerprint",
nbit=subfplen,
bits=b2,
provider="R")
foldedfp <- subfp1 | subfp2
foldedfp@folded <- TRUE
return(foldedfp)
})
setGeneric("euc.vector", function(fp) standardGeneric("euc.vector"))
setMethod("euc.vector", "fingerprint",
function(fp) {
coord <- rep(0,length(fp))
coord[fp@bits] <- 1.0 / sqrt(length(fp))
coord
})
setGeneric("distance", function(fp1,fp2,method) standardGeneric("distance"))
setMethod("distance", c("fingerprint", "fingerprint", "missing"),
function(fp1,fp2) {
distance(fp1,fp2,"tanimoto")
})
setMethod("distance", c("fingerprint", "fingerprint", "character"),
function(fp1,fp2, method=c('tanimoto', 'euclidean', 'mt',
'simple', 'jaccard', 'dice',
'russelrao', 'rodgerstanimoto','cosine',
'achiai', 'carbo', 'baroniurbanibuser',
'kulczynski2',
'hamming', 'meanHamming', 'soergel',
'patternDifference', 'variance', 'size', 'shape',
'hamann', 'yule', 'pearson', 'dispersion',
'mcconnaughey', 'stiles',
'simpson', 'petke',
'stanimoto', 'seuclidean'
)) {
if ( length(fp1) != length(fp2))
stop("Fingerprints must of the same bit length")
method <- match.arg(method)
n <- length(fp1)
if (method == 'tanimoto') {
f1 <- numeric(n)
f2 <- numeric(n)
f1[fp1@bits] <- 1
f2[fp2@bits] <- 1
sim <- 0.0
ret <- .C("fpdistance", as.double(f1), as.double(f2),
as.integer(n), as.integer(1),
as.double(sim),
PACKAGE="fingerprint")
return (ret[[5]])
} else if (method == 'euclidean') {
f1 <- numeric(n)
f2 <- numeric(n)
f1[fp1@bits] <- 1
f2[fp2@bits] <- 1
sim <- 0.0
ret <- .C("fpdistance", as.double(f1), as.double(f1),
as.integer(n), as.integer(2),
as.double(sim),
PACKAGE="fingerprint")
return (ret[[5]])
}
size <- n
## in A & B
tmp <- fp1 & fp2
c <- length(tmp@bits)
## in A not in B
tmp <- (fp1 | fp2) & !fp2
a <- length(tmp@bits)
## in B not in A
tmp <- (fp1 | fp2) & !fp1
b <- length(tmp@bits)
## not in A, not in B
tmp <- !(fp1 | fp2)
d <- length(tmp@bits)
dist <- NULL
## Simlarity
if (method == 'stanimoto') {
dist <- c / (a+b+c)
} else if (method == 'seuclidean') {
dist <- sqrt((d+c) / (a+b+c+d))
} else if (method == 'dice') {
dist <- c / (.5*a + .5*b + c)
} else if (method == 'mt') {
t1 <- c/(size-d)
t0 <- d/(size-c)
phat <- ((size-d) + c)/(2*size)
dist <- (2-phat)*t1/3 + (1+phat)*t0/3
} else if (method == 'simple') {
dist <- (c+d)/n
} else if (method == 'jaccard') {
dist <- c/(a+b+c)
} else if (method == 'russelrao') {
dist <- c/size
} else if (method == 'rodgerstanimoto') {
dist <- (c+d)/(2*a+2*b+c+d)
} else if (method == 'cosine' || method == 'achiai' || method == 'carbo') {
dist <- c/sqrt((a+c)*(b+c))
} else if (method == 'baroniurbanibuser') {
dist <- (sqrt(c*d)+c)/(sqrt(c*d)+a+b+c)
} else if (method == 'kulczynski2') {
dist <- .5*(c/(a+c)+c/(b+c))
}
## Dissimilarity
else if (method == 'hamming') {
dist <- a+b
} else if (method == 'meanHamming') {
dist <- (a+b)/(a+b+c+d)
}else if (method == 'soergel') {
dist <- (a+b)/(a+b+c)
} else if (method == 'patternDifference') {
dist <- (a*b)/(a+b+c+d)^2
} else if (method == 'variance') {
dist <- (a+b)/(4*n)
} else if (method == 'size') {
dist <- (a-b)^2/n^2
} else if (method == 'shape') {
dist <- (a+b)/n-((a-b)/(n))^2
}
## Composite
else if (method == 'hamann') {
dist <- (c+d-a-b)/(a+b+c+d)
} else if (method == 'yule') {
dist <- (c*d-a*b)/(c*d+a*b)
} else if (method == 'pearson') {
dist <- (c*d-a*b)/sqrt((a+c)*(b+c)*(a+d)*(b+d))
} else if (method == 'dispersion') {
dist <- (c*d-a*b)/n^2
} else if (method == 'mcconaughey') {
dist <- (c^2-a*b)/((a+c)*(b+c))
} else if (method == 'stiles') {
dist <- log10(n*(abs(c*d-a*b)-n/2)^2/((a+c)*(b+c)*(a+d)*(b+d)))
}
## Asymmetric
else if (method == 'simpson') {
dist <- c/min((a+c),(b+c))
} else if (method == 'petke') {
dist <- c/max((a+c),(b+c))
}
dist
})
setGeneric("random.fingerprint",
function(nbit, on) standardGeneric("random.fingerprint"))
setMethod("random.fingerprint", c("numeric", "numeric"),
function(nbit, on) {
if (nbit <= 0) stop("Bit length must be positive integer")
if (on <= 0) stop("Number of bits to be set to 1 must be positive integer")
bits <- sample(1:nbit, size=on)
new("fingerprint", nbit=nbit, bits=bits, provider="R", folded=FALSE)
})
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fingerprint documentation built on May 2, 2019, 4:10 p.m.
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setGeneric("fold", function(fp) standardGeneric("fold"))
setMethod("fold", "fingerprint",
function(fp) {
size <- fp@nbit
if (size %% 2 != 0) {
stop('Need to supply a fingerprint of even numbered length')
}
bfp <- rep(FALSE, size)
bfp[fp@bits] <- TRUE
subfplen <- size/2
b1 <- which(bfp[1:subfplen])
b2 <- which(bfp[(subfplen+1):size])
subfp1 <- new("fingerprint",
nbit=subfplen,
bits=b1,
provider="R");
subfp2 <- new("fingerprint",
nbit=subfplen,
bits=b2,
provider="R")
foldedfp <- subfp1 | subfp2
foldedfp@folded <- TRUE
return(foldedfp)
})
setGeneric("euc.vector", function(fp) standardGeneric("euc.vector"))
setMethod("euc.vector", "fingerprint",
function(fp) {
coord <- rep(0,length(fp))
coord[fp@bits] <- 1.0 / sqrt(length(fp))
coord
})
setGeneric("distance", function(fp1,fp2,method) standardGeneric("distance"))
setMethod("distance", c("fingerprint", "fingerprint", "missing"),
function(fp1,fp2) {
distance(fp1,fp2,"tanimoto")
})
setMethod("distance", c("fingerprint", "fingerprint", "character"),
function(fp1,fp2, method=c('tanimoto', 'euclidean', 'mt',
'simple', 'jaccard', 'dice',
'russelrao', 'rodgerstanimoto','cosine',
'achiai', 'carbo', 'baroniurbanibuser',
'kulczynski2',
'hamming', 'meanHamming', 'soergel',
'patternDifference', 'variance', 'size', 'shape',
'hamann', 'yule', 'pearson', 'dispersion',
'mcconnaughey', 'stiles',
'simpson', 'petke',
'stanimoto', 'seuclidean'
)) {
if ( length(fp1) != length(fp2))
stop("Fingerprints must of the same bit length")
method <- match.arg(method)
n <- length(fp1)
if (method == 'tanimoto') {
f1 <- numeric(n)
f2 <- numeric(n)
f1[fp1@bits] <- 1
f2[fp2@bits] <- 1
sim <- 0.0
ret <- .C("fpdistance", as.double(f1), as.double(f2),
as.integer(n), as.integer(1),
as.double(sim),
PACKAGE="fingerprint")
return (ret[[5]])
} else if (method == 'euclidean') {
f1 <- numeric(n)
f2 <- numeric(n)
f1[fp1@bits] <- 1
f2[fp2@bits] <- 1
sim <- 0.0
ret <- .C("fpdistance", as.double(f1), as.double(f1),
as.integer(n), as.integer(2),
as.double(sim),
PACKAGE="fingerprint")
return (ret[[5]])
}
size <- n
## in A & B
tmp <- fp1 & fp2
c <- length(tmp@bits)
## in A not in B
tmp <- (fp1 | fp2) & !fp2
a <- length(tmp@bits)
## in B not in A
tmp <- (fp1 | fp2) & !fp1
b <- length(tmp@bits)
## not in A, not in B
tmp <- !(fp1 | fp2)
d <- length(tmp@bits)
dist <- NULL
## Simlarity
if (method == 'stanimoto') {
dist <- c / (a+b+c)
} else if (method == 'seuclidean') {
dist <- sqrt((d+c) / (a+b+c+d))
} else if (method == 'dice') {
dist <- c / (.5*a + .5*b + c)
} else if (method == 'mt') {
t1 <- c/(size-d)
t0 <- d/(size-c)
phat <- ((size-d) + c)/(2*size)
dist <- (2-phat)*t1/3 + (1+phat)*t0/3
} else if (method == 'simple') {
dist <- (c+d)/n
} else if (method == 'jaccard') {
dist <- c/(a+b+c)
} else if (method == 'russelrao') {
dist <- c/size
} else if (method == 'rodgerstanimoto') {
dist <- (c+d)/(2*a+2*b+c+d)
} else if (method == 'cosine' || method == 'achiai' || method == 'carbo') {
dist <- c/sqrt((a+c)*(b+c))
} else if (method == 'baroniurbanibuser') {
dist <- (sqrt(c*d)+c)/(sqrt(c*d)+a+b+c)
} else if (method == 'kulczynski2') {
dist <- .5*(c/(a+c)+c/(b+c))
}
## Dissimilarity
else if (method == 'hamming') {
dist <- a+b
} else if (method == 'meanHamming') {
dist <- (a+b)/(a+b+c+d)
}else if (method == 'soergel') {
dist <- (a+b)/(a+b+c)
} else if (method == 'patternDifference') {
dist <- (a*b)/(a+b+c+d)^2
} else if (method == 'variance') {
dist <- (a+b)/(4*n)
} else if (method == 'size') {
dist <- (a-b)^2/n^2
} else if (method == 'shape') {
dist <- (a+b)/n-((a-b)/(n))^2
}
## Composite
else if (method == 'hamann') {
dist <- (c+d-a-b)/(a+b+c+d)
} else if (method == 'yule') {
dist <- (c*d-a*b)/(c*d+a*b)
} else if (method == 'pearson') {
dist <- (c*d-a*b)/sqrt((a+c)*(b+c)*(a+d)*(b+d))
} else if (method == 'dispersion') {
dist <- (c*d-a*b)/n^2
} else if (method == 'mcconaughey') {
dist <- (c^2-a*b)/((a+c)*(b+c))
} else if (method == 'stiles') {
dist <- log10(n*(abs(c*d-a*b)-n/2)^2/((a+c)*(b+c)*(a+d)*(b+d)))
}
## Asymmetric
else if (method == 'simpson') {
dist <- c/min((a+c),(b+c))
} else if (method == 'petke') {
dist <- c/max((a+c),(b+c))
}
dist
})
setGeneric("random.fingerprint",
function(nbit, on) standardGeneric("random.fingerprint"))
setMethod("random.fingerprint", c("numeric", "numeric"),
function(nbit, on) {
if (nbit <= 0) stop("Bit length must be positive integer")
if (on <= 0) stop("Number of bits to be set to 1 must be positive integer")
bits <- sample(1:nbit, size=on)
new("fingerprint", nbit=nbit, bits=bits, provider="R", folded=FALSE)
})
Try the fingerprint package in your browser
Any scripts or data that you put into this service are public.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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