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I would like to automatically adjust the vertical placement my legend so the legend ends up close to the data. I would like the center of the legend to have the same vertical placement as the median of the different groupings described by the legend. Or, to be top-justified or bottom-justified if centering the legend on the median would result in the legend extending outside the range of the y-axis.

This is an issue for me because I make hundreds of graphs and need the y-axis to cover all possible values even though the data is usually bunched together. Many thanks for your help :) enter image description here

Here is my data and the code that made the graph:

mydf <- structure(list(date=structure(c(15573,15574,15575,15576,
15577,15578,15579,15580,15581,15582,15583,15573,15574,
15575,15576,15577,15578,15579,15580,15581,15582,15583,
15573,15574,15575,15576,15577,15578,15579,15580,15581,
15582,15583,15573,15574,15575,15576,15577,15578,15579,
15580,15581,15582,15583,15573,15574,15575,15576,15577,
15578,15579,15580,15581,15582,15583,15573,15574,15575,
15576,15577,15578,15579,15580,15581,15582,15583,15573,
15574,15575,15576,15577,15578,15579,15580,15581,15582,
15583,15573,15574,15575,15576,15577,15578,15579,15580,
15581,15582,15583,15573,15574,15575,15576,15577,15578,
15579,15580,15581,15582,15583),class="Date"),outcome=c(0.0564,
0.0539,0.0586,0.05,0.055,0.061,0.0507,0.0495,0.0609,0.0517,
0.0509,0.0326,0.028,0.0315,0.0286,0.0296,0.0281,0.036,
0.0352,0.026,0.0283,0.0324,0.0098,0.003,0.0039,0.0045,
0.0028,0.0087,0.0108,0.0091,0.0042,3e-04,0.0126,0.0199,
0.013,0.0144,0.0215,0.0193,0.0181,0.0255,0.0138,0.0166,
0.024,0.026,0.0511,0.0533,0.0497,0.0498,0.0087,0.0087,
0.0095,0.0124,0.0063,0.0125,0.0114,0.0097,0.0213,0.0242,
0.0205,0.0207,0.0207,0.0199,0.0199,0.0217,0.0193,0.0144,
0.0084,0.0046,0.0122,0.0116,0.006,0.0158,-0.0013,0.0114,
0.0028,0.0119,0.0125,0.0029,0.0069,0.0053,-0.0019,0.0086,
0.0071,0.0086,0.0063,0.0064,0.0125,0.0152,0.1306,0.1233,
0.1231,0.1185,0.1238,0.1205,0.1257,0.1242,0.1164,0.1248,
0.1147),outcome2=c(0.3564,0.3539,0.3586,0.35,0.355,0.361,
0.3507,0.3495,0.3609,0.3517,0.3509,0.3326,0.328,0.3315,
0.3286,0.3296,0.3281,0.336,0.3352,0.326,0.3283,0.3324,
0.3098,0.303,0.3039,0.3045,0.3028,0.3087,0.3108,0.3091,
0.3042,0.3003,0.3126,0.3199,0.313,0.3144,0.3215,0.3193,
0.3181,0.3255,0.3138,0.3166,0.324,0.326,0.3511,0.3533,
0.3497,0.3498,0.3087,0.3087,0.3095,0.3124,0.3063,0.3125,
0.3114,0.3097,0.3213,0.3242,0.3205,0.3207,0.3207,0.3199,
0.3199,0.3217,0.3193,0.3144,0.3084,0.3046,0.3122,0.3116,
0.306,0.3158,0.2987,0.3114,0.3028,0.3119,0.3125,0.3029,
0.3069,0.3053,0.2981,0.3086,0.3071,0.3086,0.3063,0.3064,
0.3125,0.3152,0.4306,0.4233,0.4231,0.4185,0.4238,0.4205,
0.4257,0.4242,0.4164,0.4248,0.4147),outcome3=c(0.8564,
0.8539,0.8586,0.85,0.855,0.861,0.8507,0.8495,0.8609,0.8517,
0.8509,0.8326,0.828,0.8315,0.8286,0.8296,0.8281,0.836,
0.8352,0.826,0.8283,0.8324,0.8098,0.803,0.8039,0.8045,
0.8028,0.8087,0.8108,0.8091,0.8042,0.8003,0.8126,0.8199,
0.813,0.8144,0.8215,0.8193,0.8181,0.8255,0.8138,0.8166,
0.824,0.826,0.8511,0.8533,0.8497,0.8498,0.8087,0.8087,
0.8095,0.8124,0.8063,0.8125,0.8114,0.8097,0.8213,0.8242,
0.8205,0.8207,0.8207,0.8199,0.8199,0.8217,0.8193,0.8144,
0.8084,0.8046,0.8122,0.8116,0.806,0.8158,0.7987,0.8114,
0.8028,0.8119,0.8125,0.8029,0.8069,0.8053,0.7981,0.8086,
0.8071,0.8086,0.8063,0.8064,0.8125,0.8152,0.9306,0.9233,
0.9231,0.9185,0.9238,0.9205,0.9257,0.9242,0.9164,0.9248,
0.9147),trial=c("C","C","C","C","C","C","C","C","C",
"C","C","B","B","B","B","B","B","B","B","B","B","B",
"F","F","F","F","F","F","F","F","F","F","F","E","E",
"E","E","E","E","E","E","E","E","E","H","H","H","H",
"H","H","H","H","H","H","H","I","I","I","I","I","I",
"I","I","I","I","I","G","G","G","G","G","G","G","G",
"G","G","G","D","D","D","D","D","D","D","D","D","D",
"D","A","A","A","A","A","A","A","A","A","A","A")),.Names=c("date",
"outcome","outcome2","outcome3","trial"),class="data.frame",row.names=c(94L,
95L,96L,97L,98L,99L,100L,101L,102L,103L,104L,359L,
360L,361L,362L,363L,364L,365L,366L,367L,368L,369L,624L,
625L,626L,627L,628L,629L,630L,631L,632L,633L,634L,889L,
890L,891L,892L,893L,894L,895L,896L,897L,898L,899L,1154L,
1155L,1156L,1157L,1158L,1159L,1160L,1161L,1162L,1163L,
1164L,1419L,1420L,1421L,1422L,1423L,1424L,1425L,1426L,
1427L,1428L,1429L,1684L,1685L,1686L,1687L,1688L,1689L,
1690L,1691L,1692L,1693L,1694L,1949L,1950L,1951L,1952L,
1953L,1954L,1955L,1956L,1957L,1958L,1959L,2214L,2215L,
2216L,2217L,2218L,2219L,2220L,2221L,2222L,2223L,2224L
))

ggplot(mydf, aes(x = date, y = outcome)) + 
       geom_line(aes(group = trial, color = trial, linetype = trial), 
       data=mydf,size=0.75) + 
       geom_text(data = mydf[mydf$date == max(mydf$date), ], 
       aes(x = date +(0.003 * nrow(mydf)), 
       y = outcome,label = sprintf("%0.1f%%", round(outcome,2) * 100)), 
       size = 4, colour = "grey50") + 
       scale_y_continuous(limits=c(0,1))
share|improve this question
    
Take a look at the directlabels package. –  Andrie Mar 10 '13 at 19:21
    
I think this will be difficult, but the available knobs and toggles are described in ?theme: see e.g., legend.position and legend.justification. –  Ista Mar 10 '13 at 19:24
    
I agree that this is going to be tricky. I don't think you'll be able to use legend.position directly if your rule is "match the center of the legend to the median of the data, but don't allow the ends of the legend to float past the top/bottom of the plot" -- in order to do this you need to know the median position, but also the size of the legend. I think your best bet will be to create the plot, then to wrap it into an editGrob call that digs in, determines the position and size of the legend, and adjusts it accordingly. The alternative would be to hack the legend placement code ... –  Ben Bolker Mar 10 '13 at 21:45

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