Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am trying to figure out how to label the boxplots that appear after I use the svyboxplot library for R.

I've tried the following:

svyboxplot(~ALCANYNO~factor(REGION), design=ihisDesign3, xlab='Region', ylab='Frequency', ylim=c(0,10), colnames=c("Northeast", "Midwest", "South", "West"));

Plot created with svyboxplot library in R SOLUTION: Add the following to factor:

labels=c('Northeast', 'Midwest', 'South', 'West')

This changes the example above to the following:

svyboxplot(~ALCANYNO~factor(REGION, labels=c('Northeast', 'Midwest', 'South', 'West')), design=ihisDesign3, xlab='Region', ylab='Frequency', ylim=c(0,10))
share|improve this question

1 Answer 1

up vote 1 down vote accepted

I am Creating a dataset to explain:

options(width = 120) 
library (survey) 
library (KernSmooth) 

xd1<- 
"xsmoke age_p psu stratum       wt8 
13601       3    22   2      20  356.5600 
32966       3    38   2      45  434.3562 
63493       1    32   1      87  699.9987 
238175      3    46   1     338  982.8075 
174162      3    40   1     240  273.6313 
220206      3    33   2     308 1477.1688 
118133      3    68   1     159  716.3012 
142859      2    23   1     194 1100.9475 
115253      2    35   2     155  444.3750 
61675       3    31   1      85  769.5963 
189813      3    37   1     263  328.5600 
226274      1    47   2     318  605.8700 
41969       3    71   2      58  597.0150 
167667      3    40   2     230 1030.4637 
225103      3    37   2     316  349.6825 
49894       3    70   2      68  517.7862 
98075       3    46   2     130 1428.7225 
180771      3    50   1     250  652.4188 
137057      3    42   1     186  590.2100 
77705       2    23   1     105 1687.2450 
89106       3    48   1     118  407.6513 
208178      3    50   1     290  556.5000 
100403      3    52   2     133 1481.8200 
221571      1    27   2     310  833.5338 
10823       2    72   1      16 1807.6425 
108431      3    71   2     145  945.6263 
68708       1    46   1      94 1989.3775 
23874       3    23   2      33 1707.8775 
150634      3    19   2     206  761.1500 
231232      3    42   2     326 1487.4113 
184654      2    42   2     255 1715.2375 
215312      3    57   1     300  483.5663 
40713       2    57   2      56 2042.2762 
130309      3    23   1     177  948.5625 
25515       2    55   1      35 2719.7525 
235612      2    83   2     333  603.3537 
13755       2    36   2      20  265.1938 
2441        3    33   1       4 1062.1200 
157327      3    77   1     215 2010.6600 
66502       3    20   2      91 1122.9725 
230778      1    55   2     325 1207.3025 
74805       3    54   1     101 1028.5150 
166556      1    50   1     229 1546.9450 
91914       1    68   1     121  428.5350 
89651       3    59   2     118  143.5437 
149329      3    44   2     204 1064.7725 
212700      2    59   2     295 1050.1163 
454         1    79   1       1  275.5700 
125639      1    27   1     170  785.1037 
55442       3    47   1      76  950.3312 
145132      3    77   1     197 1269.2287 
123069      3    24   1     167  216.1937 
188301      1    55   2     260  426.6313 
852         2    66   2       1 1443.4887 
3582        3    81   1       6  790.8412 
235423      1    44   2     333  659.4238 
42175       2    40   1      59 1089.6762 
57033       3    43   1      78  226.8750 
177273      2    85   1     244  392.7200 
218558      3    40   2     305 1680.2700 
27784       2    45   1      39  280.0550 
81823       3    43   1     110  965.0438 
76344       3    26   1     103 1095.6012 
114916      3    56   2     154  436.8838 
35563       3    78   1      49  333.2875 
192279      3    30   2     267  722.0312 
61315       1    48   2      84 1426.5725 
219903      3    43   1     308  791.5738 
42612       3    25   1      60  658.1387 
178488      3    33   2     246  675.1912 
9031        1    27   2      14  989.4863 
145092      2    64   1     197  960.1912 
71885       3    53   2      97  595.4050 
38137       2    75   1      53 1004.0912 
140149      1    21   1     190 1870.9350 
162052      3    25   1     223  892.7775 
89527       2    39   2     118  518.1050 
59650       3    26   2      82  432.7837 
24709       2    84   1      34  453.9013 
18933       3    85   1      27  582.3288 
24904       3    35   2      34 1027.5287 
213668      3    39   1     298 3174.1925 
110509      3    30   1     149  469.8188 
72462       3    63   1      98  386.2163 
152596      3    19   1     209 1328.2188 
17014       4    62   1      24  294.9250 
33467       2    50   1      46 1601.4575 
5241        3    33   1       9 1651.0988 
215094      3    23   1     300  427.6313 
88885       1    21   1     118 1092.2613 
204868      2    60   2     285  781.2325 
157415      2    31   2     215 1323.5750 
71081       2    44   2      96 1059.2088 
25420       3    38   1      35  530.7413 
144226      1    27   1     196 1126.3112 
47888       3    46   2      66  965.4050 
216179      3    29   2     301 1237.6463 
29172       3    68   1      41 1025.9738 
168786      1    47   1     232  680.6213 
94035       2    23   2     124  330.4563 
170542      1    25   2     234  757.2287 
160331      2    33   2     220  636.3900 
124163      3    80   2     167  287.6988 
71442       2    37   1      97  442.2300 
80191       2    74   2     107  871.0338 
199309      3    29   2     277  485.2337 
91293       3    35   2     120  138.3187 
219524      2    68   1     307  609.5862 
119336      3    85   2     160  149.7612 
31814       3    68   1      44  396.6913 
54920       1    28   2      75  532.7175 
161034      3    29   2     221  791.0100 
177037      1    50   1     244  626.2400 
119963      1    54   1     162  374.1062 
107972      2    58   1     145  944.8863 
22932       3    60   1      32  310.6413 
54197       3    23   2      74  931.2737 
209598      3    23   1     292 1078.2950 
213604      1    74   2     297  588.5000 
146480      3    27   1     200  212.0588 
162463      3    55   2     223 1202.0925 
215534      3    33   2     300  430.3938 
100703      1    53   1     134  463.6200 
162588      3    27   1     224  612.0250 
222676      1    35   1     312  292.7000 
220052      3    84   1     308 1301.4738 
131382      3    36   1     178  825.9512 
102117      3    28   1     137  451.4075 
70362       3    52   2      95  185.2562 
188757      3    22   2     261  704.3913 
215878      2    37   1     301  789.9837 
45820       3    18   2      64 2019.4137 
84860       3    47   1     113  149.0200 
110581      3    37   1     149  526.0775 
207650      3    51   2     289  688.0538 
40723       3    59   2      56  497.6050 
169663      3    19   2     233  845.0362 
191955      1    36   1     267  735.7350 
213816      3    18   2     298 2275.3513 
120967      3    48   2     163 1055.3238 
209430      2    42   2     291 1771.0225 
21235       3    21   1      30 1204.5663 
131326      3    29   1     178  331.9588 
19667       1    57   1      28  638.9138 
74743       2    48   1     101 1208.8763 
178672      3    66   2     246  338.2013 
100174      3    24   2     133 1733.6275 
69046       3    24   2      94  542.4863 
79960       1    41   2     107  567.6363 
108591      2    42   1     146  978.3775 
235635      3    24   1     334 1382.9437 
187426      2    54   2     259  478.2362 
28728       3    39   2      40 1165.6175 
205348      3    32   2     286 1082.9913 
218812      3    30   1     306  308.1037 
168389      3    48   2     231  593.2475 
145479      1    21   1     198  864.2663 
105170      2    40   1     141 1016.7862 
155753      2    78   2     212 1109.0025 
169399      3    28   1     233 1467.1363 
55664       1    63   1      76  904.3763 
74024       2    51   1     100  547.5538 
85558       1    25   1     114  893.8825 
142684      3    54   2     193 1203.3212 
198792      1    22   1     277 1800.3325 
82603       3    70   2     110  827.3763 
171036      2    50   2     235 2003.9725 
1616        1    42   2       2  590.5662 
57042       3    45   1      78 1021.7287 
45100       2    38   2      63 1807.9288 
134828      2    28   1     183  715.1187 
91167       3    26   2     120  480.1950 
170605      3    40   2     234  507.2763 
175869      3    77   1     242  386.2987 
81594       2    82   2     109  580.0838 
37426       1    20   2      52 1159.1613 
113799      3    85   1     153  459.5450 
24721       3    18   2      34 2912.7575 
26297       3    45   2      36 1304.4925 
57074       1    51   1      78  602.2112 
185000      3    34   1     256  583.5738 
94196       3    44   2     124 2344.1087 
80656       3    45   2     108 1340.9713 
14849       1    46   1      22  967.2525 
145730      2    73   1     198  418.8037 
56633       3    34   2      77 1011.5488 
273         2    54   1       1  786.2138 
60567       1    40   2      83  315.2925 
47788       1    38   2      66 1105.9188 
76943       2    53   2     103  537.7062 
165014      3    34   1     227  824.3125 
188444      3    22   1     261  623.2225 
29043       1    35   1      41  724.9025 
165578      3    25   1     228  596.0275 
50702       3    43   2      69  985.9662 
197621      3    39   2     275 1310.1163 
26267       3    41   2      36 1030.3900 
29565       1    60   2      41  920.8550 
20060       3    36   2      28  157.2188 
119780      2    20   1     162  863.8100" 
tor <- read.table(textConnection(xd1), header=TRUE, as.is=TRUE) 

# Grouping variable "xsmoke"  must be a factor 

tor$xsmoke <- factor(tor$xsmoke,levels=c (1,2,3), 
                labels=c('Current SMK','Former SMK', 'Never Smk'), ordered=TRUE) 

is.factor(tor$xsmoke)     


# object with survey design variables and data 
nhis <- svydesign (id=~psu,strat=~stratum, weights=~wt8, data=tor, nest=TRUE) 

MyBreaks <- c(18, 25, 35, 45, 55, 65, 75, 85) 



svyboxplot (age_p~xsmoke, 
            subset (nhis, age_p>=0), 
            col=c("red", "yellow", "green"), medcol="blue", 
            varwidth=TRUE, all.outliers=TRUE, 
            ylab="Age at Interview", 
            xlab=" " 
            ) 

The Factor variable xsmoke is coded as tor$xsmoke <- factor(tor$xsmoke,levels=c (1,2,3), labels=c('Current SMK','Former SMK', 'Never Smk'), ordered=TRUE) which should be useful

enter image description here

______________________enter code here

share|improve this answer
    
Would you mind accepting this as answer - if it solves your purpose –  Prasanna Nandakumar Jan 10 at 5:58
    
That did the trick! Thank you! –  Twitch Jan 10 at 7:09

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.