# NOT RUN {
logo <- rast(system.file("exdata/logo.tif", package="terra"))
names(logo) <- c("red", "green", "blue")
p <- matrix(c(48, 48, 48, 53, 50, 46, 54, 70, 84, 85, 74, 84, 95, 85,
66, 42, 26, 4, 19, 17, 7, 14, 26, 29, 39, 45, 51, 56, 46, 38, 31,
22, 34, 60, 70, 73, 63, 46, 43, 28), ncol=2)
a <- matrix(c(22, 33, 64, 85, 92, 94, 59, 27, 30, 64, 60, 33, 31, 9,
99, 67, 15, 5, 4, 30, 8, 37, 42, 27, 19, 69, 60, 73, 3, 5, 21,
37, 52, 70, 74, 9, 13, 4, 17, 47), ncol=2)
xy <- rbind(cbind(1, p), cbind(0, a))
# extract predictor values for points
e <- extract(logo, xy[,2:3])
# combine with response
v <- data.frame(cbind(pa=xy[,1], e))
#build a model, here with glm
model <- glm(formula=pa~., data=v)
#predict to a raster
r1 <- predict(logo, model)
plot(r1)
points(p, bg='blue', pch=21)
points(a, bg='red', pch=21)
# logistic regression
model <- glm(formula=pa~., data=v, family="binomial")
r1log <- predict(logo, model, type="response")
# use a modified function to get the probability and standard error
# from the glm model. The values returned by "predict" are in a list,
# and this list needs to be transformed to a matrix
predfun <- function(model, data) {
v <- predict(model, data, se.fit=TRUE)
cbind(p=as.vector(v$fit), se=as.vector(v$se.fit))
}
r2 <- predict(logo, model, fun=predfun)
# principal components of a SpatRaster
# here using sampling to simulate an object too large
# to feed all its values to prcomp
sr <- values(spatSample(logo, 100, as.raster=TRUE))
pca <- prcomp(sr)
x <- predict(logo, pca)
plot(x)
# }
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