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CitFuns/vignettes/citfuns.Rmd

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Añadiendo vigenttes
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Añadiendo título a la vignette.
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Añadido el build_vignettes en el install_git.
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Añadida explicación sobre añadir color al ggheatmap.
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Añadida explicación de coeficiente de correlación.
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Corrección commit coeficiente correlación.
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  1. ---
  2. title: "CitFuns"
  3. output: rmarkdown::html_vignette
  4. description: |
  5.   How to use CitFuns functions.
  6. vignette: >
  7.   %\VignetteIndexEntry{CitFuns Package}
  8.   %\VignetteEngine{knitr::rmarkdown}
  9.   %\VignetteEncoding{UTF-8}
  10. ---
  11. 

  12. 

  13. ```{r setup, include=FALSE}
  14. knitr::opts_chunk$set(echo = TRUE, message = F, warning = F, error = F)
  15. ```
  16. 

  17. ## Installation
  18. 

  19. In order to install CitFuns package from Git reppository, you must install `devtools` package:
  20. 

  21. ```{r, eval=F}
  22. install.packages('devtools')
  23. ```
  24. 

  25. In order to install it, you will have to install (if not already done) [Rtools](https://cran.r-project.org/bin/windows/Rtools/rtools40.html).
  26. 

  27. You will also need [Git](https://git-scm.com/downloads) installed in your computer.
  28. 

  29. Now we are ready to install CitFuns package:
  30. ```{r, eval=F}
  31. devtools::install_git("https://git.ratg.cat/marcelcosta/CitFuns.git", build_vignettes = T)
  32. ```
  33. 

  34. ## Update
  35. 

  36. Any time you want to update the package, you must *reinstall* it:
  37. 

  38. ```{r, eval=F}
  39. detach("package:CitFuns", unload = TRUE) # Only required if you have loaded the package in this session.
  40. devtools::install_git("https://git.ratg.cat/marcelcosta/CitFuns.git")
  41. ```
  42. 

  43. ## ggheatmap
  44. 

  45. **ggheatmap** generates ggplot heatmaps easily.
  46. 

  47. We start by loading required packages, including *CitFuns*
  48. 

  49. ```{r}
  50. library(tidyverse)
  51. library(CitFuns)
  52. ```
  53. 

  54. Now we will create an example dataframe:
  55. 

  56. ```{r}
  57. df<-data.frame("pats"=paste0("PAT", 1:20), "CytA"=rnorm(20,5), "CytB"=rnorm(20,5),
  58. "CytC"=c(rnorm(5,10),rnorm(5,5),rnorm(5,10),rnorm(5,5)),"CytD"=rnorm(20,5),
  59. "CytE"=c(rnorm(5,10),rnorm(5,5),rnorm(5,10),rnorm(5,5)),"CytF"=rnorm(20,5),
  60. "CytG"=c(rnorm(5,10),rnorm(5,5),rnorm(5,10),rnorm(5,5)))
  61. 

  62. df<-gather(df, Cyt, Value,-pats)
  63. head(df)
  64. ```
  65. 

  66. Usually, this package works with the dataframes in **Long** format, as it is intended in ggplot workflow.
  67. 

  68. And now we will generate the heatmap.
  69. 

  70. ```{r, fig.width=8}
  71. ggheatmap(df)
  72. ```
  73. 

  74. As we can observe, X and Y axis are sorted by cluster detection (using *hclust*).
  75. 

  76. *ggheatmap* groups the results if more there is more than one observation for each X-Y coordinate. By default, it calculates the mean, but the median can also be used instead. To show this, we will create another variable, "Met", and we plot Cytokine expression *versus* Met status.
  77. 

  78. ```{r, fig.width=8}
  79. clinics<-data.frame("pats"=df$pats %>% unique, "Met"=rep(c("0","1"), 10))
  80. df<-merge(df, clinics)
  81. 

  82. ggheatmap(df, x="Cyt",y="Met", grouping = "median")
  83. ```
  84. 

  85. By default, *other variables not used are eliminated* during the grouping process. However, if you want to further use them (for faceting, for example), you can use the *exclude_group* parameter to keep them in the data.frame.
  86. 

  87. ```{r, fig.width=8}
  88. ggheatmap(df, exclude_group = "Met")+facet_grid(.~Met, scales = "free")
  89. ```
  90. 

  91. You can specify a color instead of being transparent to the tiles:
  92. ```{r,  fig.width=8}
  93. ggheatmap(df, color="black")
  94. ```
  95. 

  96. Finally, you can scale the heatmap either by rows or by columns:
  97. 

  98. ```{r, fig.width=8}
  99. ggheatmap(df, scale="rows")
  100. ```
  101. 

  102. It is worth noticing that ggheatmap outputs a ggplot object, so you can further modify it as you are used to:
  103. 

  104. ```{r, fig.width=8, fig.height=5}
  105. ggheatmap(df)+
  106.   scale_fill_gradient(low = "black", high = "yellow")+
  107.   scale_y_discrete(position = "right")+
  108.   theme(legend.position = "bottom")
  109. ```
  110. 

  111. ## ggcorrplot
  112. 

  113. ggcorrplot generates a correlation matrix. Using the same example dataframe, you have to specify which variable and value columns will be used to test correlation.
  114. 

  115. ```{r, fig.width=5, fig.height=4}
  116. ggcorrplot(df, var = "Cyt", value = "Value")
  117. ```
  118. 

  119. You can specify a color for the tile lines, transparent by default:
  120. 

  121. ```{r, fig.width=5, fig.height=4}
  122. ggcorrplot(df, var = "Cyt", value = "Value", color = "white")
  123. ```
  124. 

  125. By default, ggcorrplot converts the p-value into *star* significance equivalence. You can show the pvalue or nothing ("none").
  126. 

  127. ```{r, fig.width=5, fig.height=4}
  128. ggcorrplot(df, var = "Cyt", value = "Value", color = "white", stat="pval")
  129. ```
  130. 

  131. ggcorrplot uses "pearson" by default to obtain a correlation coeficient, although "spearman" is also available.
  132. 

  133. ```{r, fig.width=5, fig.height=4}
  134. ggcorrplot(df, var = "Cyt", value = "Value", color = "white", stat="pval", method="spearman")
  135. ```
  136. 

  137. 

  138. Finally, you can show only the upper part or the lower part of the specular matrix.
  139. 

  140. ```{r, fig.width=5, fig.height=4}
  141. ggcorrplot(df, var = "Cyt", value = "Value", color = "black", tri="lower")
  142. ```