https://github.com/cran/spatstat
Tip revision: 8ba424ae2810d8985064bafb88d4ad7c421f84a5 authored by Adrian Baddeley on 09 May 2016, 10:08:26 UTC
version 1.45-2
version 1.45-2
Tip revision: 8ba424a
ppmclass.R
#
# ppmclass.R
#
# Class 'ppm' representing fitted point process models.
#
#
# $Revision: 2.129 $ $Date: 2016/02/15 04:34:14 $
#
# An object of class 'ppm' contains the following:
#
# $method model-fitting method (currently "mpl")
#
# $coef vector of fitted regular parameters
# as given by coef(glm(....))
#
# $trend the trend formula
# or NULL
#
# $interaction the interaction family
# (an object of class 'interact') or NULL
#
# $Q the quadrature scheme used
#
# $maxlogpl the maximised value of log pseudolikelihood
#
# $internal list of internal calculation results
#
# $correction name of edge correction method used
# $rbord erosion distance for border correction (or NULL)
#
# $the.call the originating call to ppm()
#
# $the.version version of mpl() which yielded the fit
#
#
#------------------------------------------------------------------------
is.ppm <- function(x) { inherits(x, "ppm") }
print.ppm <-
function(x, ...,
what=c("all", "model", "trend", "interaction", "se", "errors")) {
verifyclass(x, "ppm")
misswhat <- missing(what)
opts <- c("model", "trend", "interaction", "se", "errors")
what <- match.arg(what, c("all", opts), several.ok=TRUE)
if("all" %in% what) what <- opts
np <- length(coef(x))
terselevel <- spatstat.options("terse")
digits <- getOption('digits')
# If SE was explicitly requested, calculate it.
# Otherwise, do it only if the model is Poisson (by default)
do.SE <- force.no.SE <- force.SE <- FALSE
if(np == 0) {
force.no.SE <- TRUE
} else if(!is.null(x$internal$VB)) {
force.no.SE <- TRUE
} else if(!misswhat && ("se" %in% what)) {
force.SE <- TRUE
} else switch(spatstat.options("print.ppm.SE"),
always = { force.SE <- TRUE },
never = { force.no.SE <- TRUE },
poisson = {
do.SE <-
is.poisson(x) &&
!identical(x$fitter, "gam") &&
(!is.null(x$varcov) || x$method != "logi") &&
waxlyrical("extras", terselevel)
})
do.SE <- (do.SE || force.SE) && !force.no.SE
s <- summary.ppm(x, quick=if(do.SE) FALSE else "no variances")
notrend <- s$no.trend
# stationary <- s$stationary
poisson <- s$poisson
markeddata <- s$marked
multitype <- s$multitype
# markedpoisson <- poisson && markeddata
csr <- poisson && notrend && !markeddata
special <- csr && all(c("model", "trend") %in% what)
if(special) {
## ---------- Trivial/special cases -----------------------
splat("Stationary Poisson process")
cat("Intensity:", signif(s$trend$value, digits), fill=TRUE)
} else {
## ----------- Print model type -------------------
if("model" %in% what) {
splat(s$name)
parbreak(terselevel)
if(markeddata) mrk <- s$entries$marks
if(multitype) {
splat(paste("Possible marks:",
commasep(sQuote(levels(mrk)))))
parbreak(terselevel)
}
}
## ----- trend --------------------------
if("trend" %in% what) {
if(!notrend) {
splat("Log",
if(poisson) "intensity: " else "trend: ",
pasteFormula(s$trend$formula))
parbreak(terselevel)
}
if(waxlyrical('space', terselevel) || !do.SE) {
## print trend coefficients, unless redundant and space is tight
tv <- s$trend$value
if(length(tv) == 0)
splat("[No trend coefficients]")
else {
thead <- paste0(s$trend$label, ":")
if(is.list(tv)) {
splat(thead)
for(i in seq_along(tv))
print(tv[[i]])
} else if(is.numeric(tv) && length(tv) == 1) {
## single number: append to end of current line
tvn <- names(tv)
tveq <- if(is.null(tvn)) "\t" else paste(" ", tvn, "= ")
splat(paste0(thead, tveq, signif(tv, digits)))
} else {
## some other format
splat(thead)
print(tv)
}
}
parbreak(terselevel)
}
}
if(waxlyrical("space", terselevel) &&
!is.null(cfa <- s$covfunargs) && length(cfa) > 0) {
cfafitter <- s$cfafitter
if(is.null(cfafitter)) {
cat("Covariate", "function", "arguments", "(covfunargs)",
"provided:", fill=TRUE)
} else {
cat("Irregular", "parameters", "(covfunargs)",
"fitted", "by", paste0(sQuote(cfafitter), ":"),
fill=TRUE)
}
for(i in seq_along(cfa)) {
cat(paste(names(cfa)[i], "= "))
cfai <- cfa[[i]]
if(is.numeric(cfai) && length(cfai) == 1) {
cfai <- signif(cfai, digits)
cat(paste(cfai, "\n"))
} else print(cfai)
}
}
}
# ---- Interaction ----------------------------
if("interaction" %in% what) {
if(!poisson) {
print(s$interaction, family=FALSE, banner=FALSE,
brief=!waxlyrical("extras"))
parbreak(terselevel)
}
}
# ----- parameter estimates with SE and 95% CI --------------------
if(waxlyrical("extras", terselevel) && ("se" %in% what) && (np > 0)) {
if(!is.null(cose <- s$coefs.SE.CI)) {
print(cose, digits=digits)
} else if(do.SE) {
# standard error calculation failed
splat("Standard errors unavailable; variance-covariance matrix is singular")
} else if(!force.no.SE) {
# standard error was voluntarily omitted
if(waxlyrical('space', terselevel))
splat("For standard errors, type coef(summary(x))\n")
}
}
# ---- Warnings issued in mpl.prepare ---------------------
if(waxlyrical("errors", terselevel) && "errors" %in% what) {
probs <- s$problems
if(!is.null(probs) && is.list(probs) && (length(probs) > 0))
lapply(probs,
function(x) {
if(is.list(x) && !is.null(p <- x$print))
splat(paste("Problem:\n", p, "\n\n"))
})
if(s$old)
warning(paste("Model fitted by old spatstat version", s$version))
# ---- Algorithm status ----------------------------
fitter <- s$fitter
converged <- s$converged
if(!is.null(fitter) && fitter %in% c("glm", "gam") && !converged)
splat("*** Fitting algorithm for", sQuote(fitter),
"did not converge ***")
}
if(waxlyrical("extras", terselevel) && s$projected) {
parbreak()
splat("Fit was emended to obtain a valid point process model")
}
if(identical(s$valid, FALSE) && waxlyrical("errors", terselevel)) {
parbreak()
splat("*** Model is not valid ***")
if(!all(is.finite(s$entries$coef))) {
splat("*** Some coefficients are NA or Inf ***")
} else {
splat("*** Interaction parameters are outside valid range ***")
}
} else if(is.na(s$valid) && waxlyrical("extras", terselevel)) {
parbreak()
splat("[Validity of model could not be checked]")
}
return(invisible(NULL))
}
quad.ppm <- function(object, drop=FALSE, clip=FALSE) {
if(!is.ppm(object)) {
if(is.kppm(object)) object <- object$po else
if(is.lppm(object)) object <- object$fit else
stop("object is not of class ppm, kppm or lppm")
}
Q <- object$Q
if(is.null(Q))
return(Q)
if(drop || clip) {
ok <- getglmsubset(object)
if(!is.null(ok))
Q <- Q[ok]
}
if(clip && object$correction == "border") {
Wminus <- erosion(as.owin(object), object$rbord)
Q <- Q[Wminus]
}
return(Q)
}
data.ppm <- function(object) {
verifyclass(object, "ppm")
object$Q$data
}
dummy.ppm <- function(object, drop=FALSE) {
return(quad.ppm(object, drop=drop)$dummy)
}
# method for 'coef'
coef.ppm <- function(object, ...) {
verifyclass(object, "ppm")
object$coef
}
getglmfit <- function(object) {
verifyclass(object, "ppm")
glmfit <- object$internal$glmfit
if(is.null(glmfit))
return(NULL)
if(object$method != "mpl")
glmfit$coefficients <- object$coef
return(glmfit)
}
getglmdata <- function(object, drop=FALSE) {
verifyclass(object, "ppm")
gd <- object$internal$glmdata
if(!drop) return(gd)
return(gd[getglmsubset(object), , drop=FALSE])
}
getglmsubset <- function(object) {
gd <- object$internal$glmdata
if(object$method=="logi")
return(gd$.logi.ok)
return(gd$.mpl.SUBSET)
}
getppmdatasubset <- function(object) {
# Equivalent to getglmsubset(object)[is.data(quad.ppm(object))]
# but also works for models fitted exactly, etc
#
if(object$method %in% c("mpl", "ho")) {
sub <- getglmsubset(object)
if(!is.null(sub)) {
Z <- is.data(quad.ppm(object))
return(sub[Z])
}
}
X <- data.ppm(object)
sub <- if(object$correction == "border") {
(bdist.points(X) >= object$rbord)
} else rep(TRUE, npoints(X))
return(sub)
}
getppmOriginalCovariates <- function(object) {
df <- as.data.frame(as.ppp(quad.ppm(object)))
cova <- object$covariates
if(length(cova) > 0) {
df2 <- mpl.get.covariates(object$covariates,
union.quad(quad.ppm(object)),
"quadrature points",
object$covfunargs)
df <- cbind(df, df2)
}
return(df)
}
# ??? method for 'effects' ???
valid <- function(object, ...) {
UseMethod("valid")
}
valid.ppm <- function(object, warn=TRUE, ...) {
verifyclass(object, "ppm")
coeffs <- coef(object)
# ensure all coefficients are fitted, and finite
if(!all(is.finite(coeffs)))
return(FALSE)
# inspect interaction
inte <- object$interaction
if(is.poisson(object))
return(TRUE) # Poisson process
# extract fitted interaction coefficients
Vnames <- object$internal$Vnames
IsOffset <- object$internal$IsOffset
Icoeffs <- coeffs[Vnames[!IsOffset]]
# check interaction
checker <- inte$valid
if(is.null(checker) || !newstyle.coeff.handling(inte)) {
if(warn) warning("Internal error: unable to check validity of model")
return(NA)
}
answer <- checker(Icoeffs, inte)
return(answer)
}
emend <- function(object, ...) {
UseMethod("emend")
}
emend.ppm <- project.ppm <- local({
tracemessage <- function(depth, ...) {
if(depth == 0) return(NULL)
spacer <- paste(rep.int(" ", depth), collapse="")
marker <- ngettext(depth, "trace", paste("trace", depth))
marker <- paren(marker, "[")
splat(paste0(spacer, marker, " ", paste(...)))
}
leaving <- function(depth) {
tracemessage(depth, ngettext(depth, "Returning.", "Exiting level."))
}
emend.ppm <- function(object, ..., fatal=FALSE, trace=FALSE) {
verifyclass(object, "ppm")
fast <- spatstat.options("project.fast")
# user specifies 'trace' as logical
# but 'trace' can also be integer representing trace depth
td <- as.integer(trace)
trace <- (td > 0)
tdnext <- if(trace) td+1 else 0
if(valid.ppm(object)) {
tracemessage(td, "Model is valid.")
leaving(td)
return(object)
}
# First ensure trend coefficients are all finite
coeffs <- coef(object)
# Which coefficients are trend coefficients
coefnames <- names(coeffs)
internames <- object$internal$Vnames
trendnames <- coefnames[!(coefnames %in% internames)]
# Trend terms in trend formula
trendterms <- attr(terms(object), "term.labels")
# Mapping from coefficients to terms of GLM
coef2term <- attr(model.matrix(object), "assign")
istrend <- (coef2term > 0) & (coefnames %in% trendnames)
# Identify non-finite trend coefficients
bad <- istrend & !is.finite(coeffs)
if(!any(bad)) {
tracemessage(td, "Trend terms are valid.")
} else {
nbad <- sum(bad)
tracemessage(td,
"Non-finite ",
ngettext(nbad,
"coefficient for term ",
"coefficients for terms "),
commasep(sQuote(trendterms[coef2term[bad]])))
if(fast) {
# remove first illegal term
firstbad <- min(which(bad))
badterm <- trendterms[coef2term[firstbad]]
# remove this term from model
tracemessage(td, "Removing term ", sQuote(badterm))
removebad <- as.formula(paste("~ . - ", badterm), env=object$callframe)
newobject <- update(object, removebad)
if(trace) {
tracemessage(td, "Updated model:")
print(newobject)
}
# recurse
newobject <- emend.ppm(newobject, fatal=fatal, trace=tdnext)
# return
leaving(td)
return(newobject)
} else {
# consider all illegal terms
bestobject <- NULL
for(i in which(bad)) {
badterm <- trendterms[coef2term[i]]
# remove this term from model
tracemessage(td, "Considering removing term ", sQuote(badterm))
removebad <- as.formula(paste("~ . - ", badterm),
env=object$callframe)
object.i <- update(object, removebad)
if(trace) {
tracemessage(td, "Considering updated model:")
print(object.i)
}
# recurse
object.i <- emend.ppm(object.i, fatal=fatal, trace=tdnext)
# evaluate logPL
logPL.i <- logLik(object.i, warn=FALSE)
tracemessage(td, "max log pseudolikelihood = ", logPL.i)
# optimise
if(is.null(bestobject) || (logLik(bestobject, warn=FALSE) < logPL.i))
bestobject <- object.i
}
if(trace) {
tracemessage(td, "Best submodel:")
print(bestobject)
}
# return
leaving(td)
return(bestobject)
}
}
# Now handle interaction
inte <- object$interaction
if(is.null(inte)) {
tracemessage(td, "No interaction to check.")
leaving(td)
return(object)
}
tracemessage(td, "Inspecting interaction terms.")
proj <- inte$project
if(is.null(proj)) {
whinge <- "Internal error: interaction has no projection operator"
if(fatal) stop(whinge)
warning(whinge)
leaving(td)
return(object)
}
# ensure the same edge correction is used!
correction <- object$correction
rbord <- object$rbord
# apply projection
coef.orig <- coeffs <- coef(object)
Vnames <- object$internal$Vnames
Icoeffs <- coeffs[Vnames]
change <- proj(Icoeffs, inte)
if(is.null(change)) {
tracemessage(td, "Interaction does not need updating.")
leaving(td)
return(object)
}
tracemessage(td, "Interaction is not valid.")
if(is.numeric(change)) {
tracemessage(td, "Interaction coefficients updated without re-fitting.")
# old style: 'project' returned a vector of updated coefficients
Icoeffs <- change
# tweak interaction coefficients
object$coef[Vnames] <- Icoeffs
# recompute fitted interaction
object$fitin <- NULL
object$fitin <- fitin(object)
} else if(is.interact(change)) {
# new style: 'project' returns an interaction
if(trace) {
tracemessage(td, "Interaction changed to:")
print(change)
}
# refit the whole model
# (using the same edge correction)
# (and the same quadrature scheme)
newobject <- update(object, interaction=change,
correction=correction, rbord=rbord,
forcefit=TRUE,
envir=object$callframe)
if(trace) {
tracemessage(td, "Updated model:")
print(newobject)
}
# recurse
newobject <- emend.ppm(newobject, fatal=fatal, trace=tdnext)
object <- newobject
} else if(is.list(change) && all(unlist(lapply(change, is.interact)))) {
# new style: 'project' returns a list of candidate interactions
nchange <- length(change)
tracemessage(td, "Considering", nchange,
ngettext(nchange, "submodel", "submodels"))
bestobject <- NULL
for(i in seq_len(nchange)) {
change.i <- change[[i]]
if(trace) {
tracemessage(td,
"Considering", ordinal(i),
"candidate submodel, with interaction:")
print(change.i)
}
# refit the whole model
object.i <- update(object, interaction=change.i,
correction=correction, rbord=rbord,
forcefit=TRUE,
envir=object$callframe)
if(trace) {
tracemessage(td, "Considering", ordinal(i),
"candidate updated model:")
print(object.i)
}
# recurse
object.i <- emend.ppm(object.i, fatal=fatal, trace=tdnext)
# evaluate logPL
logPL.i <- logLik(object.i, warn=FALSE)
tracemessage(td, "max log pseudolikelihood = ", logPL.i)
# optimise
if(is.null(bestobject) || (logLik(bestobject, warn=FALSE) < logPL.i))
bestobject <- object.i
}
# end loop through submodels
if(trace) {
tracemessage(td, "Best submodel:")
print(bestobject)
}
object <- bestobject
} else stop("Internal error: unrecognised format of update")
object$projected <- TRUE
object$coef.orig <- coef.orig
leaving(td)
return(object)
}
emend.ppm
})
# more methods
deviance.ppm <- function(object, ...) {
satlogpl <- object$satlogpl
if(is.null(satlogpl)) {
object <- update(object, forcefit=TRUE)
satlogpl <- object$satlogpl
}
if(is.null(satlogpl) || !is.finite(satlogpl))
return(NA)
ll <- do.call(logLik,
resolve.defaults(list(object=object, absolute=FALSE),
list(...)))
ll <- as.numeric(ll)
2 * (satlogpl - ll)
}
logLik.ppm <- function(object, ..., new.coef=NULL, warn=TRUE, absolute=FALSE) {
if(!is.poisson.ppm(object) && warn)
warning(paste("log likelihood is not available for non-Poisson model;",
"log-pseudolikelihood returned"))
## degrees of freedom
nip <- if(!inherits(object, "ippm")) 0 else
length(attr(object$covfunargs, "free"))
df <- length(coef(object)) + nip
## compute adjustment constant
if(absolute && object$method %in% c("exact", "mpl", "ho")) {
X <- data.ppm(object)
W <- Window(X)
areaW <-
if(object$correction == "border" && object$rbord > 0)
eroded.areas(W, object$rbord) else area(W)
constant <- areaW * markspace.integral(X)
} else constant <- 0
##
if(is.null(new.coef)) {
## extract from object
ll <- object$maxlogpl + constant
attr(ll, "df") <- df
class(ll) <- "logLik"
return(ll)
}
## recompute for new parameter values
method <- object$method
if(method == "exact")
method <- update(method, forcefit=TRUE)
Q <- quad.ppm(object, drop=TRUE)
Z <- is.data(Q)
cif <- fitted(object, type="cif", new.coef=new.coef, drop=TRUE)
cifdata <- cif[Z]
switch(method,
mpl=,
exact=,
ho = {
w <- w.quad(Q)
ll <- sum(log(cifdata[cifdata > 0])) - sum(w * cif)
},
logi=,
VBlogi={
B <- getglmdata(object, drop=TRUE)$.logi.B
p <- cif/(B+cif)
ll <- sum(log(p/(1-p))[Z]) + sum(log(1-p)) + sum(log(B[Z]))
},
stop(paste("Internal error: unrecognised ppm method:",
dQuote(method)))
)
ll <- ll + constant
attr(ll, "df") <- df
class(ll) <- "logLik"
return(ll)
}
pseudoR2 <- function(object, ...) {
UseMethod("pseudoR2")
}
pseudoR2.ppm <- function(object, ...) {
dres <- deviance(object, ..., warn=FALSE)
nullmod <- update(object, . ~ 1, forcefit=TRUE)
dnul <- deviance(nullmod, warn=FALSE)
return(1 - dres/dnul)
}
formula.ppm <- function(x, ...) {
return(x$trend)
}
terms.ppm <- function(x, ...) {
terms(x$terms, ...)
}
labels.ppm <- function(object, ...) {
# extract fitted trend coefficients
co <- coef(object)
Vnames <- object$internal$Vnames
is.trend <- !(names(co) %in% Vnames)
# model terms
tt <- terms(object)
lab <- attr(tt, "term.labels")
if(length(lab) == 0)
return(character(0))
# model matrix
mm <- model.matrix(object)
ass <- attr(mm, "assign")
# 'ass' associates coefficients with model terms
# except ass == 0 for the Intercept
coef.ok <- is.finite(co)
relevant <- (ass > 0) & is.trend
okterms <- unique(ass[coef.ok & relevant])
return(lab[okterms])
}
AIC.ppm <- function(object, ..., k=2, takeuchi=TRUE) {
ll <- logLik(object, warn=FALSE)
pen <- attr(ll, "df")
if(takeuchi && !is.poisson(object)) {
vv <- vcov(object, what="internals")
logi <- (object$method == "logi")
J <- with(vv, if(!logi) Sigma else (Sigma1log+Sigma2log))
H <- with(vv, if(!logi) A1 else Slog)
## Takeuchi penalty = trace of J H^{-1} = trace of H^{-1} J
JiH <- try(solve(H, J), silent=TRUE)
if(!inherits(JiH, "try-error"))
pen <- sum(diag(JiH))
}
return(- 2 * as.numeric(ll) + k * pen)
}
extractAIC.ppm <- function (fit, scale = 0, k = 2, ..., takeuchi=TRUE)
{
edf <- length(coef(fit))
aic <- AIC(fit, k=k, takeuchi=takeuchi)
c(edf, aic)
}
#
# method for model.frame
model.frame.ppm <- function(formula, ...) {
object <- formula
gf <- getglmfit(object)
if(is.null(gf)) {
warning("Model re-fitted with forcefit=TRUE")
object <- update(object, forcefit=TRUE)
gf <- getglmfit(object)
}
# gd <- getglmdata(object)
# model.frame(gf, data=gd, ...)
model.frame(gf, ...)
}
#
# method for model.matrix
model.matrix.ppm <- function(object, data=model.frame(object),
..., Q=NULL, keepNA=TRUE) {
data.given <- !missing(data) && !is.null(data)
if(!is.null(Q)) {
if(data.given) stop("Arguments Q and data are incompatible")
if(!inherits(Q, c("ppp", "quad")))
stop("Q should be a point pattern or quadrature scheme")
if(is.ppp(Q)) Q <- quad(Q, Q[FALSE])
## construct Berman-Turner frame
needed <- c("trend", "interaction", "covariates", "correction", "rbord")
bt <- do.call(bt.frame, append(list(Q), object[needed]))
## compute model matrix
mf <- model.frame(bt$fmla, bt$glmdata, ...)
mm <- model.matrix(bt$fmla, mf, ...)
## remove NA's ?
if(!keepNA)
mm <- mm[complete.cases(mm), ..., drop=FALSE]
return(mm)
}
gf <- getglmfit(object)
if(is.null(gf)) {
warning("Model re-fitted with forcefit=TRUE")
object <- update(object, forcefit=TRUE)
gf <- getglmfit(object)
if(is.null(gf))
stop("internal error: unable to extract a glm fit")
}
if(data.given) {
# new data. Must contain the Berman-Turner variables as well.
bt <- list(.mpl.Y=1, .mpl.W=1, .mpl.SUBSET=TRUE)
if(any(forgot <- !(names(bt) %in% names(data))))
data <- do.call(cbind, append(list(data), bt[forgot]))
mm <- model.matrix(gf, data=data, ...)
return(mm)
}
if(!keepNA) {
# extract model matrix of glm fit object
# restricting to its 'subset'
mm <- model.matrix(gf, data=data, ...)
return(mm)
}
# extract model matrix for all cases
mm <- model.matrix(gf, data, ..., subset=NULL)
cn <- colnames(mm)
gd <- getglmdata(object, drop=FALSE)
if(nrow(mm) != nrow(gd)) {
# can occur if covariates include NA's or interaction is -Inf
insubset <- getglmsubset(object)
isna <- is.na(insubset) | !insubset
if(sum(isna) + nrow(mm) == nrow(gd)) {
# insert rows of NA's
mmplus <- matrix( , nrow(gd), ncol(mm))
mmplus[isna, ] <- NA
mmplus[!isna, ] <- mm
mm <- mmplus
} else
stop("internal error: model matrix does not match glm data frame")
}
colnames(mm) <- cn
return(mm)
}
model.images <- function(object, ...) {
UseMethod("model.images")
}
model.images.ppm <- function(object, W=as.owin(object), ...) {
X <- data.ppm(object)
## make a quadscheme with a dummy point at every pixel
Q <- pixelquad(X, W)
## compute model matrix
mm <- model.matrix(object, Q=Q)
## retain only the entries for dummy points (pixels)
mm <- mm[!is.data(Q), , drop=FALSE]
mm <- as.data.frame(mm)
## create template image
Z <- as.im(attr(Q, "M"))
ok <- !is.na(Z$v)
## make images
imagenames <- colnames(mm)
if(!is.multitype(object)) {
result <- lapply(as.list(mm), replace, list=ok, x=Z)
result <- as.solist(result)
names(result) <- imagenames
} else {
marx <- marks(Q$dummy)
mmsplit <- split(mm, marx)
result <- vector(mode="list", length=length(mmsplit))
for(i in seq_along(mmsplit))
result[[i]] <- as.solist(lapply(as.list(mmsplit[[i]]),
replace, list=ok, x=Z))
names(result) <- names(mmsplit)
result <- do.call(hyperframe, result)
row.names(result) <- imagenames
}
return(result)
}
unitname.ppm <- function(x) {
return(unitname(x$Q))
}
"unitname<-.ppm" <- function(x, value) {
unitname(x$Q) <- value
return(x)
}
nobs.ppm <- function(object, ...) { npoints(data.ppm(object)) }
as.interact.ppm <- function(object) {
verifyclass(object, "ppm")
inte <- object$interaction
if(is.null(inte))
inte <- Poisson()
return(inte)
}
as.ppm <- function(object) {
UseMethod("as.ppm")
}
as.ppm.ppm <- function(object) {
object
}
## method for as.owin
as.owin.ppm <- function(W, ..., from=c("points", "covariates"), fatal=TRUE) {
if(!verifyclass(W, "ppm", fatal=fatal))
return(NULL)
from <- match.arg(from)
datawin <- as.owin(data.ppm(W))
if(from == "points")
return(datawin)
covs <- W$covariates
isim <- unlist(lapply(covs, is.im))
if(!any(isim))
return(datawin)
cwins <- lapply(covs[isim], as.owin)
covwin <- do.call(intersect.owin, unname(cwins))
result <- intersect.owin(covwin, datawin)
return(result)
}
domain.ppm <- Window.ppm <- function(X, ..., from=c("points", "covariates")) {
from <- match.arg(from)
as.owin(X, ..., from=from)
}
## change the coefficients in a ppm or other model
tweak.coefs <- function(model, new.coef) {
if(is.null(new.coef)) return(model)
co <- coef(model)
check.nvector(new.coef, length(co), things="coefficients")
model$coef.orig <- co
model$coef <- new.coef
return(model)
}
