3

I have 6 plots that I'm trying to plot together on a grid. I was able to plot 3 of the main ones nicely aligned so that the y axes all started at the same point like this:

enter image description here

But after I added in a second column of plots to the grid (the triangles), I lost the alignment in the first column. So it's been looking a bit like this:

enter image description here

Here's the code for plotting this grid. I've been playing around with the align parameter and a little of the width but no luck in getting it all working together:

plot_grid(pq1_plop, pq1_status, pq2_plop, pq2_status, pq3_plop, pq3_status, 
          align = "hv", 
          nrow = 3, 
          ncol = 2,
          rel_widths = c(10, 1)
          )

Is there a way to plot these with the axes of the left side aligned together? Data for the plots:

> dput(pq1_agged)
structure(list(mean_name = structure(2:6, .Label = c("", "Arrival Logistics and Greetings", 
"Organization of Activity", "Schedule and Offering", "Space Adequacy", 
"Transitions"), class = "factor"), mean_2018 = c(3.60416668653488, 
3.31623927752177, 2.75, 3.125, 3.55555558204651), SY_mean = c(3.3468468479208, 
3.62688970565796, 3.24204542961988, 3.58294574604478, 0), PSELI_mean = c(3.38333333333333, 
3.65522875505335, 3.08235294678632, 3.53529411203721, 0), mean_2017 = c(3.625, 
3.75000002980232, 3.02499997615814, 3.59166663885117, 4), aptsayoy = c("apt", 
"apt", "apt", "apt", "apt"), status = c(2, 2, 2, 2, 2)), row.names = c(NA, 
-5L), class = "data.frame")
> dput(pq2_agged)
structure(list(mean_name = structure(c(2L, 3L, 4L, 11L, 6L, 7L, 
8L, 9L, 10L), .Label = c("", "Helps Youth Socially", "Informal Time: Staff Performance", 
"Social-Emotional Environment", "Staff Build Relationships and Support Individual Youth", 
"Staff Positively Guide Behavior", "Supportive Adults Present", 
"Supportive Social Environment", "Youth Relations with Adults", 
"Youth Relations with Peers", "Staff Build Relationships & Support Individual Youth"
), class = "factor"), mean_2018 = c(NaN, 3.625, 3.19385969011407, 
3.16666666666667, 3.390625, NaN, NaN, 3.19999996821086, 3), SY_mean = c(0, 
3.48106062412262, 3.72575757720254, 3.41504833864611, 3.69877295267014, 
0, 0, 3.32984494885733, 3.62687339339145), PSELI_mean = c(3.45057719920105, 
3.40740741623773, 3.74117646497839, 3.49967318422654, 3.59940157217138, 
3.55519480519481, 3.58463203390955, 3.48692812639124, 3.60947714132421
), mean_2017 = c(NaN, 3.16666674613953, 3.58333335424724, 3.3905701888235, 
3.66687555062143, NaN, NaN, 3.53654969365973, 3.64473684837944
), aptsayoy = c("sayoy", "apt", "apt", "apt", "apt", "sayoy", 
"sayoy", "apt", "apt"), status = c(NA, 6, 2, 2, 2, NA, NA, 2, 
2)), row.names = c(NA, -9L), class = "data.frame")
> dput(pq3_agged)
structure(list(mean_name = structure(2:14, .Label = c("", "Helps Youth Academically", 
"Homework Organization", "Informal Time: Youth Engagement and Behavior", 
"Level of Youth Participation", "Nature of Activity", "Opportunities for Leadership and Responsibility", 
"Staff Effectively Manage HW Time", "Staff Promote Engagement and Stimulate Thinking", 
"Staff Provide Individualized HW Support", "Youth Enjoy and Feel Engaged", 
"Youth Feel Challenged", "Youth Have Choice and Autonomy", "Youth Participation in HW Time"
), class = "factor"), mean_2018 = c(NaN, 3.16666666666667, 3.54464280605316, 
2.62666670481364, 2.03333330154419, NaN, 3.33333337306976, 2.43095239003499, 
3.10000002384186, NaN, NaN, NaN, 2.5), SY_mean = c(2.36415087054335, 
2.36415087054335, 2.36415087054335, 2.36415087054335, 2.36415087054335, 
2.36415087054335, 2.36415087054335, 2.36415087054335, 2.36415087054335, 
2.36415087054335, 2.36415087054335, 2.36415087054335, 2.36415087054335
), PSELI_mean = c(2.69552668942001, 0, 3.60119046105279, 3.10980392904843, 
2.78676470588235, 2.29307360050482, 0, 3.16247088768903, 0, 3.83008658008658, 
3.48051948851837, 2.43499278093313, 0), mean_2017 = c(NaN, 3.5, 
3.57142853736877, 3.22543858226977, 2.04495615080783, NaN, 3.61111108462016, 
2.82832081066935, 3.30000003178914, NaN, NaN, NaN, 3), aptsayoy = c("sayoy", 
"apt", "apt", "apt", "apt", "sayoy", "apt", "apt", "apt", "sayoy", 
"sayoy", "sayoy", "apt"), status = c(NA, 2, 2, 2, 2, NA, 2, 2, 
2, NA, NA, NA, 2)), row.names = 2:14, class = "data.frame")

And then here are the plots I've created:

library(stringr)
library(cowplot)
pq1_plop <-  ggplot(pq1_agged, aes(y=mean_name, x=mean_2018)) + 
  geom_vline(xintercept = 3, size = 0.5, color = "#00C4F3") + #Benchmark static line
  geom_text(data=data.frame(x=3,y=5), aes(x, y), label="Benchmark", hjust=1, vjust=-.2, colour="#4c4c4c") +
  geom_point(aes(x = SY_mean), color="#FD5B14", fill="#FD5B14", size=4, pch=3) + 
  geom_point(aes(x = PSELI_mean), color="#2B85BA", fill="#2B85BA", size=4, pch=3) +
  geom_point(aes(x = mean_2017), color="#BCA8DC", fill="#BCA8DC", size=4, pch=16) + 
  geom_point(color="#612CB5", fill="#612CB5", size=4, pch=16) + 
  #guides(fill=TRUE) + 
  #guides(colour = "colorbar", size = "legend", shape = "legend") + 
  #xlim(1, 4) +
  #xlab("Average Score") +
  ylab("Program Organization \n & Structure") + 
  scale_y_discrete(labels = function(mean_2018) str_wrap(mean_2018, width = 60)) +
  scale_x_continuous(sec.axis = dup_axis(), lim = c(1, 4)) + 
  theme_bw() + 
  theme(legend.text = element_text(colour="black", size = 8),
        legend.position="middle",
        axis.title.x =element_blank(),
        axis.text.x = element_blank(),
        axis.ticks.x = element_blank(),
        #axis.line.x.top = element_blank(),
        #axis.text.x.top = element_text(size=8),
        axis.title.y = element_text(angle = 0, vjust = 0.5),
        panel.grid.minor.x = element_line(colour = "#cccccc",
                                          linetype = "solid"),
        panel.grid.major.x = element_line(colour = "#b2b2b2",
                                          linetype = "solid"),
        panel.grid.major.y = element_line(colour = "#7f7f7f",
                                          linetype = "solid"),
        panel.border = element_blank()
  )

pq2_plop <-  ggplot(pq2_agged, aes(y=mean_name, x=mean_2018)) + 
  geom_vline(xintercept = 3, size = 0.5, color = "#00C4F3") + #Benchmark static line
  geom_point(aes(x = SY_mean), color="#FD5B14", fill="#FD5B14", size=4, pch=3) + 
  geom_point(aes(x = PSELI_mean), color="#2B85BA", fill="#2B85BA", size=4, pch=3) +
  geom_point(aes(x = mean_2017), color="#BCA8DC", fill="#BCA8DC", size=4, pch=16) +
  geom_point(color="#612CB5", fill="#612CB5", size=4, pch=16) + 
  #guides(fill=NA) + 
  #guides(colour = "colorbar", size = "legend", shape = "legend") + 
  xlim(1, 4) +
  #xlab("Average Score") +
  ylab("Supportive Environment") + 
  scale_y_discrete(labels = function(mean_2018) str_wrap(mean_2018, width = 60)) + 
  theme_bw() + 
  theme(legend.text = element_text(colour="black",size=10),
        legend.position="middle",
        axis.title.x = element_blank(),
        axis.text.x = element_blank(),
        axis.ticks.x = element_blank(),
        axis.line.x  = element_blank(),
        axis.title.y = element_text(angle = 0, vjust = 0.5),
        panel.grid.minor.x = element_line(colour = "#cccccc",
                                          linetype = "solid"),
        panel.grid.major.x = element_line(colour = "#b2b2b2",
                                          linetype = "solid"),
        panel.grid.major.y = element_line(colour = "#7f7f7f",
                                          linetype = "solid"),
        panel.border = element_blank()
  )

pq3_plop <-  ggplot(data = pq3_agged, aes(y=mean_name, x=mean_2018,fill='lightgreen')) + 
  geom_vline(xintercept = 3, size = 0.5, color = "#00C4F3") + #Benchmark static line
  geom_point(aes(x = SY_mean), color="#FD5B14", fill="#FD5B14", size=4, pch=3) + 
  geom_point(aes(x = PSELI_mean), color="#2B85BA", fill="#2B85BA", size=4, pch=3) +
  geom_point(aes(x = mean_2017), color="#BCA8DC", fill="#BCA8DC", size=4, pch=16) +
  geom_point(color="#612CB5", fill="#612CB5", size=4, pch=16) + 
  #guides(fill = guide_legend(reverse=TRUE)) + 
  #guides(colour = "colorbar", size = "legend", shape = "legend") + 
  xlim(1, 4) +
  #xlab("Average Score") +
  ylab("Engagement in Activities \n and Learning") + 
  scale_fill_identity(name = 'the fill', guide = 'legend', labels = c('m1')) +
  scale_colour_manual(name = 'the colour', 
                      values =c('black'='black','red'='red'), 
                      labels = c('c2','c1')) + 
  scale_y_discrete(labels = function(mean_2018) str_wrap(mean_2018, width = 60)) + 
  theme_bw() + 
  theme(legend.text = element_text(colour="black",size=10),
        legend.position="top",
        legend.background = element_rect(fill = "blue"),
        axis.title.x = element_blank(),
        #axis.line.x = element_blank(),
        axis.text.x = element_text(size = 8), 
        axis.title.y = element_text(angle = 0, vjust = 0.5), 
        panel.grid.minor.x = element_line(colour = "#cccccc",
                                          linetype = "solid"),
        panel.grid.major.x = element_line(colour = "#b2b2b2",
                                          linetype = "solid"),
        panel.grid.major.y = element_line(colour = "#7f7f7f",
                                          linetype = "solid"),
        panel.border = element_blank()
  )


#Start plotting
pq1_status <- ggplot(pq1_agged, aes(x = "", y = mean_name)) + 
  geom_point(aes(fill = as.factor(status), color = as.factor(status), shape = as.factor(status)), size = 2, show.legend = FALSE) +
  scale_shape_manual(values = c("2" = 25, "6" = 24, "8" = 15)) +
  theme_bw() + 
  scale_fill_manual(values = c("2" = "red", "6" = "green", "8" = "grey")) +
  scale_color_manual(values = c("2" = "red", "6" = "green", "8" = "grey")) + 
  xlab(NULL) +
  theme(axis.title.x=element_blank(),
        axis.text.x=element_blank(),
        axis.ticks.x=element_blank(),
        axis.title.y=element_blank(),
        axis.text.y=element_blank(),
        axis.ticks.y=element_blank(),
        panel.border = element_blank(),
        panel.grid.major = element_blank(),
        panel.grid.minor = element_blank()
  )

pq2_status <- ggplot(pq2_agged, aes(x = "", y = mean_name)) + 
  geom_point(aes(fill = as.factor(status), color = as.factor(status), shape = as.factor(status)), size = 2, show.legend = FALSE) +
  scale_shape_manual(values = c("2" = 25, "6" = 24, "8" = 15)) +
  theme_bw() + 
  scale_fill_manual(values = c("2" = "red", "6" = "green", "8" = "grey")) +
  scale_color_manual(values = c("2" = "red", "6" = "green", "8" = "grey")) +  
  xlab(NULL) +
  theme(axis.title.x=element_blank(),
        axis.text.x=element_blank(),
        axis.ticks.x=element_blank(),
        axis.title.y=element_blank(),
        axis.text.y=element_blank(),
        axis.ticks.y=element_blank(),
        panel.border = element_blank(),
        panel.grid.major = element_blank(),
        panel.grid.minor = element_blank()
  )

pq3_status <- ggplot(pq3_agged, aes(x = "", y = mean_name)) + 
  geom_point(aes(fill = as.factor(status), color = as.factor(status), shape = as.factor(status)), size = 2, show.legend = FALSE) +
  scale_shape_manual(values = c("2" = 25, "6" = 24, "8" = 15)) +
  theme_bw() + 
  scale_fill_manual(values = c("2" = "red", "6" = "green", "8" = "grey")) +
  scale_color_manual(values = c("2" = "red", "6" = "green", "8" = "grey")) + 
  xlab(NULL) +
  theme(axis.title.x=element_blank(),
        axis.text.x=element_blank(),
        axis.ticks.x=element_blank(),
        axis.title.y=element_blank(),
        axis.text.y=element_blank(),
        axis.ticks.y=element_blank(),
        panel.border = element_blank(),
        panel.grid.major = element_blank(),
        panel.grid.minor = element_blank()
  )

This question has an open bounty worth +100 reputation from simplycoding ending in 18 hours.

This question has not received enough attention.

  • 1
    It's easier to help you if you include a simple reproducible example with sample input and desired output that can be used to test and verify possible solutions. – MrFlick Jan 11 at 21:21
  • Added in the data and plot variables – simplycoding Jan 11 at 21:39
  • Presumably we should load cowplot and stringr (or tidyverse)? If these or other packages are required to run the code, please add these to the code. – Jon Spring Jan 12 at 23:53
  • Yep, those are the only two packages that are being used in this. Added them in – simplycoding Jan 14 at 15:25
6

You can use patchwork. Currently there are a couple of packages that can align plots (eg., cowplot, egg, ggpubr), however with this more complicated case only patchwork worked for me (and it's relatively easy to use; syntax is intuitive).

# devtools::install_github("thomasp85/patchwork")
library(patchwork)

pq1_plop + pq1_status + pq2_plop + pq2_status + pq3_plop + pq3_status +
plot_layout(ncol = 2, widths = c(10, 1))

With patchwork you just add (+) one ggplot2 plot to another and in the end specify layout (using plot_layout).

enter image description here

  • Out of curiosity, what's the black line on the right side? – camille 2 days ago
  • @Camille I was cropping the image :) Looks like some other window – PoGibas 2 days ago
0

You could also use

grid.arrange(pq1_plop,pq1_status,pq2_plop,pq2_status,pq3_plop,pq3_status, ncol=2)
  • Are you sure this matches the output OP expected? – Roman 3 hours ago
0

Generally speaking, it could be a oneliner with cowplot:

plot_grid(pq1_plop, pq1_status, pq2_plop, pq2_status, pq3_plop, pq3_status,
          ncol = 2, nrow = 3, align = "v")

But because your *_status plots are misbehaving a bit, we need to build a nested plot grid:

plot_grid(plot_grid(pq1_plop, pq2_plop, pq3_plop, 
                    ncol = 1, rel_heights = c(5, 9, 13), align = "v"), 
          plot_grid(pq1_status, pq2_status, pq3_status, 
                    ncol = 1, rel_heights = c(5, 9, 13)), 
          nrow = 1, rel_widths = c(10, 1))

The beauty about cowplot is that you can easily define relative widths and heights (without having to dive into grobs and units). This way, we can force the intervals between the horizontal lines in each plot to be of roughly the same size.

1


Same with patchwork:

pq1_plop + pq1_status + pq2_plop + pq2_status + pq3_plop + pq3_status +
    plot_layout(ncol = 2, widths = c(10, 1), heights = c(5, 9, 13))

2

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