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Flexible manipulation (extraction, summarization, diagnostics) of
specific nodes from mcmc.list
objects is one of the primary
features of ‘postpack’. This flexibility is provided through the use of
regular expressions. Regular expressions are a method
of matching character strings using patterns. As an example, suppose you
wished to extract all of the b0
parameters from the
cjs
object, which include b0[1]
,
b0[2]
, b0[3]
, b0[4]
, and
b0[5]
. Without regular expressions, you would have to
somehow state explictly that you want to extract each of these (perhaps
using paste0("b0[", 1:5, "]")
).
However, with regular expressions, you simply need to find a common feature of the strings you wish to match, and create a pattern that will exclude all strings that do not have that common feature. This capability greatly increases the ease and flexibility of performing tasks on specific nodes. You will need to learn some very basic regular expression syntax to get it to work properly.
Here is a very basic example. Begin by loading ‘postpack’ and the
example mcmc.list
:
library(postpack)
data(cjs)
Next, obtain a basic posterior summary for all nodes that contain the
letter "B"
:
post_summ(cjs, params = "B", digits = 3)
## B0 sig_B0 B1 sig_B1
## mean 1.590 0.844 0.415 0.243
## sd 0.491 0.619 0.213 0.262
## 50% 1.569 0.682 0.397 0.178
## 2.5% 0.551 0.277 0.062 0.006
## 97.5% 2.588 2.439 0.864 0.821
Because all of the node names contain a "B"
, they are
matched and returned. So if you only wanted sig_B0
and
sig_B1
, you could pass params = "sig"
as an
argument to the ‘postpack’ function in question, to perform the action
for only nodes that contain "sig"
:
diag_plots(cjs, params = "sig")
match_params()
Pattern matching is driven by the match_params()
function (which is essentially a wrapper for
stringr::str_detect()
). Every function in ‘postpack’ that
uses a param
or params
argument passes that
argument to match_params()
early on their calculations, so
understanding the way it works is important.
Suppose you want to summarize the random slope and intercept for year
2 (named "b0[2]"
and "b1[2]"
in the output).
Use match_params()
to help you get the right regular
expression code by checking what will be matched when you try to subset
your output:
match_params(cjs, "2")
## [1] "b0[2]" "b1[2]" "SIG[2,1]" "SIG[1,2]" "SIG[2,2]" "p[2]"
All nodes with a "2"
would be returned. You could
exclude the "SIG"
elements using:
match_params(cjs, "[2]")
## [1] "b0[2]" "b1[2]" "p[2]"
Users already familiar with regular expressions will see the square
brackets ("["
and "]"
) as special characters
and may be confused why this works. When using regular expressions,
normally "["
and "]"
have a special meaning
and users would need to escape them (i.e., "\\["
and
"\\]"
) to allow them to be matched as plain text. However,
because "["
and "]"
are frequently part of
node names and users will wish to use them in pattern matching more
frequently than as special characters, ‘postpack’ automatically escapes
"["
and "]"
if they are not already
escaped.
If you do not wish to automatically escape "["
and
"]"
to allow a regular expression where brackets serve as
special characters like "[:alnum:]"
, you
must include the auto_escape = FALSE
argument:
match_params(cjs, "[:alnum:]", auto_escape = FALSE)
## [1] "B0" "sig_B0" "B1" "sig_B1" "b0[1]" "b0[2]"
## [7] "b0[3]" "b0[4]" "b0[5]" "b1[1]" "b1[2]" "b1[3]"
## [13] "b1[4]" "b1[5]" "SIG[1,1]" "SIG[2,1]" "SIG[1,2]" "SIG[2,2]"
## [19] "p[2]" "p[3]" "p[4]"
If you then also wish to match a "["
as plain text in
the same regular expression, you can explicitly escape it:
match_params(cjs, "[:alnum:]\\[", auto_escape = FALSE)
## [1] "b0[1]" "b0[2]" "b0[3]" "b0[4]" "b0[5]" "b1[1]"
## [7] "b1[2]" "b1[3]" "b1[4]" "b1[5]" "SIG[1,1]" "SIG[2,1]"
## [13] "SIG[1,2]" "SIG[2,2]" "p[2]" "p[3]" "p[4]"
All functions that accept either param
or
params
argument also accept the auto_escape
argument, and it is always TRUE
by default. For what it is
worth, I have only rarely used this feature, but chose to include it to
allow complete regular expression capabilities.
With that out of the way, now further refine the regular expression
to exclude the p[2]
node from the output:
match_params(cjs, "b.[2]")
## [1] "b0[2]" "b1[2]"
The "."
serves as a wild card, which says match any one
character. If you would have supplied simply "b[2]"
, you
would get an error:
## Error:
## Supplied value(s) of params ("b[2]") did not have any matches in the nodes stored in post.
## All elements of params must have at least one match.
## The base names of all monitored nodes are:
## "B0", "sig_B0", "B1", "sig_B1",
## "b0", "b1", "SIG", and "p"
Which is what will happen when any element supplied to
params
does not match one of the node names stored in the
output. The wild card is necessary to specify that some character (here
a "0"
or a "1"
) falls between the
"b"
and the "["
characters in your desired
match. You can now pass "b.[2]"
to post_summ()
with confidence knowing that only the two coefficients you want will be
returned:
post_summ(cjs, "b.[2]", digits = 3)
## b0[2] b1[2]
## mean 2.319 0.423
## sd 0.356 0.218
## 50% 2.278 0.403
## 2.5% 1.784 0.046
## 97.5% 3.163 0.916
NOTE: Because "."
is a special
character (a wild card), if you wish to match it as plain text, you
must escape it. For example if you have both nodes
"a.b"
and "a_b"
in your mcmc.list
object x
, running match_params(x, "a.b")
will
match both "a.b"
and "a_b"
. If you want only
"a.b"
, you must run
match_params(x, "a\\.b")
As another example, instead of accessing all nodes that contain
"B"
in their name, suppose you wish to only extract those
that contain "B"
as the first character. You can force your
match to start with certain patterns using the "^"
symbol:
match_params(cjs, "^B")
## [1] "B0" "B1"
Likewise, you could extract only nodes that end with "0"
using the "$"
symbol:
match_params(cjs, "0$")
## [1] "B0" "sig_B0"
Note that no elements of "b0"
are returned, because
these nodes end with "]"
(e.g., "b0[1]"
).
You can repeat a wild card or some other character one or more times
using the "+"
symbol:
match_params(cjs, "^s.+0$")
## [1] "sig_B0"
Which forces the match to start with an "s"
, end with a
"0"
, and have anything in between.
Because match_params()
is a wrapper for
stringr::str_detect()
, most everything that works there
will also with with ‘postpack’. There is a comprehensive description of
all regular expression syntax accepted by ‘stringr’ here
(also accessible in R using
vignette("regular-expressions", package = "stringr")
).
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.