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With gsDesign version 3.1, we have added a function to support graphical multiplicity methods using ggplot2, this function is migrated to the gMCPLite package now.
The graphical method is introduced nicely in Bretz et al. (2011) and originally supported by
the gMCP packages (Rohmeyer and Klinglmueller
(2020)), and now gMCPLite package. It was extended to group
sequential design by Maurer and Bretz
(2013). While the gMCPLite package supports graphics, here we add
the hGraph()
function to create multiplicity graphs using
the ggplot2 package as a convenience for those desiring this format. We
demonstrate basic formatting in this article and demonstrate use with
gMCPLite in the other article.
Use of hGraph()
is organized as follows:
We begin with the default plot to demonstrate the basic formatting
below. Hypotheses and initial \(\alpha\)-allocation or weighting are
presented in shaded ellipses with the first hypothesis specified in the
upper-left part of the plot. While the user has full control of ellipse
placement and color, the default is to present clockwise on a larger
ellipse with gray shading. One advantage of default placement is that
generally transition lines between hypotheses will not cross hypothesis
ellipses, including when the graph is updated when some hypotheses are
rejected. Transition weights between hypotheses are specified on
directional lines between the hypothesis ellipses. Try this in a plot
window. Note the effect if you change the size of the plot window. In a
similar fashion, if you are using R Markdown, parameters like
fig.width
, fig.height
, and
fig.asp
will affect formatting.
hGraph()
Next we specify the number of hypotheses, hypothesis names and \(\alpha\)-allocation or weighting. Whereas
the default plot above used \(\alpha\)-allocation adding to 0.025, here
we use weights adding to 1. Note the \n
character used to
insert a carriage return in hypothesis name text. The character used for
weights (specified in wchar
) is by default \(\alpha\) under Windows and w
otherwise. Note the clockwise placement of hypotheses.
hGraph(
nHypotheses = 3,
nameHypotheses = c("HA\n First", "HC\n Second", "HB\n Third"),
alphaHypotheses = c(.2, .3, .5),
wchar = "w" # Character before weights
)
You can specify location of hypothesis ellipses in two ways.
radianStart
places
the first hypothesis at the center and top of the plot (left plot).x
and y
coordinates, right
graph, allows custom placement; note that the differences in minimum and
maximum x- and y-values you use as well as window size will impact
formatting.Ellipse and the text size as well as maximum significant digits for hypotheses are controlled as follows:
size
parameter (left graph). This text is always placed at
the center of the ellipse with no user control.halfWid
(left graph)
and halfHgt
(not shown; default 0.5) parameters.digits
specifies the maximum digits for the \(\alpha\)-allocation (not shown here;
default 5)Box and text size as well as maximum significant digit display for transition weights are controlled as follows:
boxtextsize
(right graph) controls text size for
transition weightstrhw
(left graph) controls half-width for transition
box sizetrhh
(not shown; default 0.075) controls half-height
for transition box sizetrprop
(right graph) specifies the proportional
placement of transition weight boxes along the transition lines At
present, this is the same for all transitionsarrowsize
(left plot) controls the size of the arrows
between ellipsesThe other parameter shown here is offset
(left graph).
This is in radians; it increases and decreases offset of transition
lines between hypothesis ellipses. If there are not any transition
arrows in both directions between any pair of hypotheses,
offset = 0
is a reasonable option.
grid.arrange(
# Left graph in figure
hGraph(
nHypotheses = 3,
size = 5, # Decrease hypothesis text size from default 6
halfWid = 1.25, # Increase ellipse width from default 0.5
trhw = 0.25, # Increase transition box sizes from default 0.075
radianStart = pi / 2, # First hypothesis top middle
offset = pi / 20, # Decrease offset between transition lines
arrowsize = .03 # Increase from default 0.02
),# Right graph in figure
hGraph(
nHypotheses = 3,
x = c(-1, 1, -1), # Custom placement using x and y
y = c(1, 1, -1),
halfWid = 0.7, # Increase ellipse width from default 0.5
boxtextsize = 3, # Decrease box text size from default 4
trprop = .15 # Slide transition boxes closer to initiating hypothesis
),nrow = 1
)
The default color palette for ellipse shading is monochrome (left plot below). To limit the parameters used, we have not adjusted text, ellipse and box size as above. Colors are specified as follows:
fill
color category; here we group the first 2
hypotheses and last 2 hypotheses (both graphs)palette
specifies a palette for the colors (right
graph)grid.arrange(
# Left graph in figure
hGraph(
fill = c(1, 1, 2, 2),
alphaHypotheses = c(.2, .2, .2, .4) * .025
),# Right graph in figure
hGraph(
fill = c(1, 1, 2, 2),
palette = c("pink", "lightblue"),
alphaHypotheses = c(.2, .2, .2, .4) * .025
),nrow = 1
)
Next, we add a legend.
legend.positon = "none"
is replaced. Here we use a custom
position specifying the relative positioning on the (0,1) scale in the
x- and y-range of the graph. Commonly used options are
"left"
, "right"
, "top"
, or
’“bottom”`legend.name
(default is none) specifies a name for the
legendlabels
specifies labels corresponding to the
fill
parameterhGraph(
nHypotheses = 3,
fill = c(1, 1, 2),
palette = c("yellow", "lightblue"),
legend.name = "Color scheme",
labels = c("Primary", "Secondary"),
legend.position = c(.75, .25)
)
Transition weights are specified in matrix format in the variable
m
. The matrix must be square of dimension
nHypotheses
and have 0 on the diagonal. Rows represent the
hypotheses from which transitions start; row values should sum to 1.
Columns represent the hypotheses to which transition arrows go. Any
transition weight of 0 has no corresponding transition line in the
figure.
hGraph(
nHypotheses = 3,
m = matrix(c(
0, 1, 0,
2, 0, .8,
.3, .7, 0
.
),nrow = 3, byrow = TRUE
), )
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.
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