The two approaches offered thus far fail with large data sets as (amongst other memory issues) they create `is.na(df)`

, which will be an object the same size as `df`

.

Here are two approaches that are more memory and time efficient

An approach using `Filter`

```
Filter(function(x)!all(is.na(x)), df)
```

and an approach using data.table (for general time and memory efficiency)

```
library(data.table)
DT <- as.data.table(df)
DT[,which(unlist(lapply(DT, function(x)!all(is.na(x))))),with=F]
```

# examples using large data (30 columns, 1e6 rows)

```
big_data <- replicate(10, data.frame(rep(NA, 1e6), sample(c(1:8,NA),1e6,T), sample(250,1e6,T)),simplify=F)
bd <- do.call(data.frame,big_data)
names(bd) <- paste0('X',seq_len(30))
DT <- as.data.table(bd)
system.time({df1 <- bd[,colSums(is.na(bd) < nrow(bd))]})
# error -- can't allocate vector of size ...
system.time({df2 <- bd[, !apply(is.na(bd), 2, all)]})
# error -- can't allocate vector of size ...
system.time({df3 <- Filter(function(x)!all(is.na(x)), bd)})
## user system elapsed
## 0.26 0.03 0.29
system.time({DT1 <- DT[,which(unlist(lapply(DT, function(x)!all(is.na(x))))),with=F]})
## user system elapsed
## 0.14 0.03 0.18
```