These functions test whether an ERGM fit, a formula, or some other object represents a dyad-independent model.
The method for NULL
always returns TRUE
by
convention.
is.dyad.independent(object, ...)# S3 method for `NULL`
is.dyad.independent(object, ...)
# S3 method for formula
is.dyad.independent(object, response = NULL, basis = NULL, ...)
# S3 method for ergm_conlist
is.dyad.independent(object, object.obs = NULL, ...)
# S3 method for ergm
is.dyad.independent(object, how = c("overall", "terms", "space"), ...)
TRUE
if the model implied by the object is
dyad-independent; FALSE
otherwise.
The object to be tested for dyadic independence.
Unused at this time.
Either a character string, a formula, or NULL
(the default), to specify the response attributes and whether the ERGM is binary or valued. Interpreted as follows:
NULL
Model simple presence or absence, via a binary ERGM.
The name of the edge attribute whose value is to be modeled. Type of ERGM will be determined by whether the attribute is logical
(TRUE
/FALSE
) for binary or numeric
for valued.
must be of the form NAME~EXPR|TYPE
(with |
being literal). EXPR
is evaluated in the formula's environment with the network's edge attributes accessible as variables. The optional NAME
specifies the name of the edge attribute into which the results should be stored, with the default being a concise version of EXPR
. Normally, the type of ERGM is determined by whether the result of evaluating EXPR
is logical or numeric, but the optional TYPE
can be used to override by specifying a scalar of the type involved (e.g., TRUE
for binary and 1
for valued).
See ergm()
.
For the ergm_conlist
method, the observed data constraint.
one of "overall"
(the default), "terms"
, or
"space
", to specify which aspect of the ERGM is to be tested
for dyadic independence.
Dyad independence is determined by checking if all of the constituent parts of the object (formula, ergm terms, constraints, etc.) are flagged as dyad-independent.