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I am using "pimp your forest plot" to make some nice graphs. http://www.r-bloggers.com/pimping-your-forest-plot/

The tutorial explains how to make a nice forest plot, combing data from two countries to have a look at subgroup effects. Each country has its own distinctive shape on the graph eg sweden is a diamond... so that the subgroup effects in countries are easy to pick out.

I'm having a problem when trying to merge three dfs (for three countries) though. Instead of retaining separate shapes for each country in each subgroup (see graph when combining two countries), when I put three countries together then all the shapes for gender are circular, all the shapes for age are square and so on. Instead it should be that there is a circle, a diamond and a square to represent the effects of gender/age in each country.

Does anyone know what I'm doing wrong here? I've been retracing my steps and adding one df at a time so that I can at least try to see what I'm doing wrong: but it's not coming to me.

I've copied some dfs from the "pimp your forest plot" here: all credit for these graphs are to Max Gordon. I've made a fake third df called "finland" for the sake of an example here.

sweden1
             coef       lower       upper
    Males vs Female          0.04088551  0.03483956  0.04693145
    85 vs 65 years          -0.05515741 -0.06508088 -0.04523394
    Charlsons Medium vs Low -0.03833060 -0.04727946 -0.02938173

denmark1
                               coef        lower       upper
Males vs Female          0.03462842  0.003494374 0.065762462
85 vs 65 years          -0.03682791 -0.083367305 0.009711488
Charlsons Medium vs Low -0.04335537 -0.090336663 0.003625929

 finland1
                          coef  lower  upper
Males vs Female          0.061  0.043  0.087
85 vs 65 years          -0.080 -0.120 -0.020
Charlsons Medium vs Low -0.050 -0.075 -0.025

To make a forest plot with two countries: use Max Gordon's code from the referenced website:

library(forestplot)
forestplot(mean=cbind(sweden1[,"coef"], denmark1[,"coef"]), 
            lower=cbind(sweden1[,"lower"], denmark1[,"lower"]), 
            upper=cbind(sweden1[,"upper"], denmark1[,"upper"]), 
            labeltext=rownames(Sweden),
            legend=c("Sweden", "Denmark"), 
            legend.pos=list(x=0.8,y=.4),
            legend.gp = gpar(col="#AAAAAA"), 
            legend.r=unit(.1, "snpc"),
            clip=c(-.2, .2), 
            xticks=c(-.2, -.1, .0, .1, .2),
            boxsize=0.3,
            col=fpColors(box=c("blue", "darkred")),
            # Set the different functions
            confintNormalFn=c("fpDrawDiamondCI", "fpDrawCircleCI"),
            xlab="EQ-5D index",
            new_page=TRUE)

I use this code to add in finland, but see how the shapes do not stay true to their groups.

forestplot(mean=cbind(sweden1[,"coef"], denmark1[,"coef"],finland1[,"coef"]), 
            lower=cbind(sweden1[,"lower"], denmark1[,"lower"],finland1[,"lower"]), 
            upper=cbind(sweden1[,"upper"], denmark1[,"upper"],finland1[,"upper"]), 
            labeltext=rownames(sweden1),
            legend=c("Sweden", "Denmark", "finland1"), 
            # Added the clip argument as some of 
            # the Danish CI are way out therer
            #clip=c(-.2, .2), 
            # Getting the ticks auto-generate is 
            # a nightmare - it is usually better to 
            # specify them on your own
           # xticks=c(-.2, -.1, .0, .1, .2),
            boxsize=0.3,
            col=fpColors(box=c("blue", "darkred", "green")),
           confintNormalFn=c("fpDrawCircleCI",  "fpDrawNormalCI","fpDrawDiamondCI"),
            xlab="EQ-5D index",
            new_page=TRUE)

Thanks in advance.

EDIT

sweden1 <- structure(c(0.0408855062954068, -0.0551574080806885, -0.0383305964199184, 
0.0348395599810297, -0.0650808763059716, -0.0472794647337126, 
0.046931452609784, -0.0452339398554054, -0.0293817281061242), .Dim = c(3L, 
3L), .Dimnames = list(c("Males vs Female", "85 vs 65 years", 
"Charlsons Medium vs Low"), c("coef", "lower", "upper")))

denmark1 <- structure(c(0.0346284183072541, -0.0368279085760325, -0.0433553672510346, 
0.00349437418972517, -0.0833673052667752, -0.0903366633240568, 
0.065762462424783, 0.00971148811471034, 0.00362592882198759), .Dim = c(3L, 
3L), .Dimnames = list(c("Males vs Female", "85 vs 65 years", 
"Charlsons Medium vs Low"), c("coef", "lower", "upper")))

finland1 <- structure(c(0.061, -0.08, -0.05, 0.043, -0.12, -0.075, 0.087, 
-0.02, -0.025), .Dim = c(3L, 3L), .Dimnames = list(c("Males vs Female", 
"85 vs 65 years", "Charlsons Medium vs Low"), c("coef", "lower", 
"upper")))
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  • Please share your data in a reproducible format. Right now it's not very easy to import your data into R so it's much more difficult to help you. See the options for dput()-ing your data.
    – MrFlick
    Jun 19 '15 at 18:07
  • Apologies - thought my dfs would have been ok to read in. Thanks for heads up. Jun 19 '15 at 18:24
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It is hard to deduce the intention of the different drawing functions in a square structure and you therefore need to supply the function a square matrix, in this case a 3x3 matrix. Not sure this was the wisest design choice from my part, but it is rather simple to fix:

sweden1 <- 
  structure(c(0.0408855062954068, -0.0551574080806885, -0.0383305964199184, 
              0.0348395599810297, -0.0650808763059716, -0.0472794647337126, 
              0.046931452609784, -0.0452339398554054, -0.0293817281061242), 
            .Dim = c(3L, 3L), 
            .Dimnames = list(c("Males vs Female", "85 vs 65 years", "Charlsons Medium vs Low"),
                             c("coef", "lower", "upper")))

denmark1 <- structure(c(0.0346284183072541, -0.0368279085760325, -0.0433553672510346, 
                        0.00349437418972517, -0.0833673052667752, -0.0903366633240568, 
                        0.065762462424783, 0.00971148811471034, 0.00362592882198759), 
                      .Dim = c(3L, 3L), 
                      .Dimnames = list(c("Males vs Female", "85 vs 65 years", "Charlsons Medium vs Low"),
                                       c("coef", "lower", "upper")))

finland1 <- structure(c(0.061, -0.08, -0.05, 
                        0.043, -0.12, -0.075, 
                        0.087, -0.02, -0.025),
                      .Dim = c(3L, 3L), 
                      .Dimnames = list(c("Males vs Female", "85 vs 65 years", "Charlsons Medium vs Low"),
                                       c("coef", "lower", "upper")))

forestplot(mean=cbind(sweden1[,"coef"], denmark1[,"coef"],finland1[,"coef"]), 
           lower=cbind(sweden1[,"lower"], denmark1[,"lower"],finland1[,"lower"]), 
           upper=cbind(sweden1[,"upper"], denmark1[,"upper"],finland1[,"upper"]), 
           labeltext=rownames(sweden1),
           legend=c("Sweden", "Denmark", "finland1"), 
           boxsize=0.1,
           col=fpColors(box=c("kblue", "darkred", "darkgreen")),
           fn.ci_norm=matrix(c("fpDrawCircleCI",  "fpDrawNormalCI","fpDrawDiamondCI"), 
                             nrow = 3, ncol=3, byrow=T),
           xlab="EQ-5D index",
           new_page=TRUE)

Produces this graph:

enter image description here

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  • you are a legend. Thank you! Jul 15 '15 at 8:28

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