Checks validity of arguments for mb.write
write.check(
fun = tpoly(degree = 1),
positive.scale = TRUE,
intercept = NULL,
rho = 0,
covar = NULL,
omega = NULL,
link = "identity",
sdscale = FALSE,
class.effect = list(),
UME = c()
)A boolean object that indicates whether the arguments imply modelling correlation between time points.
An object of class "timefun" generated (see Details) using any of
tloglin(), tpoly(), titp(), temax(), tfpoly(), tspline() or tuser()
A boolean object that indicates whether all continuous mean responses (y) are positive and therefore whether the baseline response should be given a prior that constrains it to be positive (e.g. for scales that cannot be <0).
A boolean object that indicates whether an intercept (written
as alpha in the model) is to be included. If left as NULL (the default), an intercept will
be included only for studies reporting absolute means, and will be excluded for
studies reporting change from baseline (as indicated in network$cfb).
The correlation coefficient when modelling within-study correlation between time points. The default is a string representing a
prior distribution in JAGS, indicating that it be estimated from the data (e.g. rho="dunif(0,1)"). rho also be assigned a
numeric value (e.g. rho=0.7), which fixes rho in the model to this value (e.g. for use in a deterministic sensitivity analysis).
If set to rho=0 (the default) then this implies modelling no correlation between time points.
A character specifying the covariance structure to use for modelling within-study correlation between time-points. This can be done by specifying one of the following:
"varadj" - a univariate likelihood with a variance adjustment to assume a constant correlation between subsequent
time points jansen2015MBNMAtime. This is the default.
"CS" - a multivariate normal likelihood with a
compound symmetry structure
"AR1" - a multivariate normal likelihood with an
autoregressive AR1 structure
DEPRECATED IN VERSION 0.2.3 ONWARDS (~uniform(-1,1) now used for correlation between parameters
rather than a Wishart prior).
A scale matrix for the inverse-Wishart prior for the covariance matrix used
to model the correlation between time-course parameters (see Details for time-course functions). omega must
be a symmetric positive definite matrix with dimensions equal to the number of time-course parameters modelled using
relative effects (pool="rel"). If left as NULL (the default) a diagonal matrix with elements equal to 1
is used.
Can take either "identity" (the default),
"log" (for modelling Ratios of Means friedrich2011MBNMAtime) or
"smd" (for modelling Standardised Mean Differences - although this also corresponds to an identity link function).
Logical object to indicate whether to write a model that specifies a reference SD
for standardising when modelling using Standardised Mean Differences. Specifying sdscale=TRUE
will therefore only modify the model if link function is set to SMD (link="smd").
A list of named strings that determines which time-course
parameters to model with a class effect and what that effect should be
("common" or "random"). For example: list(emax="common", et50="random").
Can take either TRUE or FALSE (for an unrelated mean effects
model on all or no time-course parameters respectively) or can be a vector
of parameter name strings to model as UME. For example: c("beta.1", "beta.2").
Used to check if the arguments given to mb.write are valid. The function will return informative errors if arguments are mispecified and will return an object that indicates whether the arguments imply modelling a correlation between time points if it passes.