## tl;dr

There is no `Lag()`

method for class `"ts"`

, hence it dispatches to the base function `lag()`

which doesn't like the vector of `k`

lags being passed here. A solution is to force the use of the `Lag.numeric()`

method or coerce the time series `s`

to one of the supported classes; `"numeric"`

or `"zoo"`

for example.

## Detail

The problem is that the default method for `Lag()`

dispatches to `lag()`

and from what I can tell, it expects only to have a single lag `k`

provided. If you follow this down, you will see a line in `stats:::lag.default`

which computes

```
tsp(x) <- p - (k/p[3L]) * c(1, 1, 0)
```

where `p`

is the `tsp()`

of the input data, `k`

is the lag. When you pass in a vector of K > 1 lags k, you get this:

```
R> p - (poscorr/p[3L]) * c(1, 1, 0)
[1] 0 98 1
Warning message:
In (poscorr/p[3L]) * c(1, 1, 0) :
longer object length is not a multiple of shorter object length
```

(for example using some of your data).

Next note that `'tsp<-'()`

sets the `"tsp"`

attribute of its argument vector `x`

via

```
attr(x, "tsp") <- value
```

and if you debug down far enough you'll find this is the line raising the Error. If we read `?attr`

we see that the `"tsp"`

attributes are handled as a special case

```
Note that some attributes (namely ‘class’, ‘comment’, ‘dim’,
‘dimnames’, ‘names’, ‘row.names’ and ‘tsp’) are treated specially
and have restrictions on the values which can be set. (Note that
this is not true of ‘levels’ which should be set for factors via
the ‘levels’ replacement function.)
```

and it is from the C code that we must go looking for why the error is raised. If we skip that bit, we can just infer that

```
R> p - (poscorr/p[3L]) * c(1, 1, 0)
[1] 0 98 1
```

are not valid for the time series `s`

supplied to `Lag()`

originally.

A work around is simply to call a more appropriate `Lag()`

method directly. There is a `"numeric"`

method, but for that to work you need to convert `s`

to a numeric vector, al call the `"numeric"`

method directly:

```
quantmod:::Lag.numeric(s, poscorr)
R> head(quantmod:::Lag.numeric(s, poscorr))
Lag.1 Lag.2
[1,] NA NA
[2,] -1.5363 NA
[3,] -0.2461 -1.5363
[4,] -0.3276 -0.2461
[5,] -0.8280 -0.3276
[6,] -0.2980 -0.8280
```

or by coercion

```
Lag(as.numeric(s), poscorr)
R> head(Lag(as.numeric(s), poscorr))
Lag.1 Lag.2
[1,] NA NA
[2,] -1.5363 NA
[3,] -0.2461 -1.5363
[4,] -0.3276 -0.2461
[5,] -0.8280 -0.3276
[6,] -0.2980 -0.8280
```

The latter being the preferred way here. You can also coerce to a `"zoo"`

class object:

```
Lag(as.zoo(s), poscorr)
R> head(Lag(as.zoo(s), poscorr))
Lag.1 Lag.2
1 NA NA
2 -1.5363 NA
3 -0.2461 -1.5363
4 -0.3276 -0.2461
5 -0.8280 -0.3276
6 -0.2980 -0.8280
```

`Lag()`

should probably catch this and bail out if vector `k`

is going to be passed to `lag()`

. Or it could `sapply()`

over the `k`

for multiple `lag()`

calls, as it does in the `"numeric"`

case.