README.md
In ewenharrison/summarizer: Summarizer
summarizer
The summarizer package provides functions that help you create elegant final results tables and charts when modelling.
Its design follows Hadley Wickham's tidy tool manifesto.
Installation and Documentation
You can install summarizer from github with:
# install.packages("devtools")
devtools::install_github("ewenharrison/summarizer")
It is not a dependent, but it is recommended that this package is used together with
dplyr which can be installed via:
install.packages("dplyr")
To install off-line (or in a Safe Haven), download the zip file and use devtools::install_local().
Main Features
1. Summarise variables/factors by a categorical variable
summary.factorlist() is a simple wrapper used to summarise any number of variables by a single categorical variable.
This is usually "Table 1" of a study report. The categorical variable can have a maximum of five levels.
library(summarizer)
library(dplyr)
# Load example dataset, modified version of survival::colon
data(colon_s)
# Table 1 - Patient demographics ----
explanatory = c("age", "age.factor", "sex.factor", "obstruct.factor")
dependent = "perfor.factor"
colon_s %>%
summary.factorlist(dependent, explanatory, p=T)
summary.factorlist() is also commonly used to summarise any number of variables by an outcome variable (say dead yes/no).
# Table 2 - 5 yr mortality ----
explanatory = c("age.factor", "sex.factor", "obstruct.factor", "perfor.factor")
dependent = 'mort_5yr'
colon_s %>%
summary.factorlist(dependent, explanatory)
Tables can be knitted to PDF, Word or html documents. We do this in RStudio from a .Rmd document. Example chunk:
```{r, echo = FALSE, results='asis'}
knitr::kable(example_table, row.names=FALSE, align=c("l", "l", "r", "r", "r"))
### 2. Summarise regression model results in final table format
The second main feature is the ability to create final tables for logistic `glm()`, hierarchical logistic `lme4::glmer()` and
Cox proprotional hazard `survival::coxph()` regression models.
The `summarizer()` "all-in-one" function takes a single dependent variable with a vector of explanatory variable names
(continuous or categorical variables) to produce a final table for publication including summary statistics,
univariable and multivariable regression analyses. The first columns are those produced by
`summary.factorist()`.
e.g. `glm(depdendent ~ explanatory, family="binomial")`
``` r
explanatory = c("age.factor", "sex.factor", "obstruct.factor", "perfor.factor")
dependent = 'mort_5yr'
colon_s %>%
summarizer(dependent, explanatory)
Where a multivariable model contains a subset of the variables specified in the full univariable set, this can be specified.
explanatory = c("age.factor", "sex.factor", "obstruct.factor", "perfor.factor")
explanatory.multi = c("age.factor", "obstruct.factor")
dependent = 'mort_5yr'
colon_s %>%
summarizer(dependent, explanatory, explanatory.multi)
Random effects.
e.g. lme4::glmer(dependent ~ explanatory + (1 | random_effect), family="binomial")
explanatory = c("age.factor", "sex.factor", "obstruct.factor", "perfor.factor")
explanatory.multi = c("age.factor", "obstruct.factor")
random.effect = "hospital"
dependent = 'mort_5yr'
colon_s %>%
summarizer(dependent, explanatory, explanatory.multi, random.effect)
metrics=TRUE provides common model metrics.
colon_s %>%
summarizer(dependent, explanatory, explanatory.multi, metrics=TRUE)
Cox proportional hazards
e.g. survival::coxph(dependent ~ explanatory)
explanatory = c("age.factor", "sex.factor", "obstruct.factor", "perfor.factor")
dependent = "Surv(time, status)"
colon_s %>%
summarizer(dependent, explanatory)
Rather than going all-in-one, any number of subset models can be manually added on to a summary.factorlist() table using summarizer.merge(). This is particularly useful when models take a long-time to run or are complicated.
Note requirement for glm.id=TRUE. fit2df is a subfunction extracting most common models to a dataframe.
explanatory = c("age.factor", "sex.factor", "obstruct.factor", "perfor.factor")
explanatory.multi = c("age.factor", "obstruct.factor")
random.effect = "hospital"
dependent = 'mort_5yr'
# Separate tables
colon_s %>%
summary.factorlist(dependent, explanatory, glm.id=TRUE) -> example.summary
colon_s %>%
glmuni(dependent, explanatory) %>%
fit2df(estimate.suffix=" (univariable)") -> example.univariable
colon_s %>%
glmmulti(dependent, explanatory) %>%
fit2df(estimate.suffix=" (multivariable)") -> example.multivariable
colon_s %>%
glmmixed(dependent, explanatory, random.effect) %>%
fit2df(estimate.suffix=" (multilevel") -> example.multilevel
# Pipe together
example.summary %>%
summarizer.merge(example.univariable) %>%
summarizer.merge(example.multivariable) %>%
summarizer.merge(example.multilevel) %>%
select(-c(glm.id, index)) -> example.final
example.final
Cox Proportional Hazards example with separate tables merged together.
explanatory = c("age.factor", "sex.factor", "obstruct.factor", "perfor.factor")
explanatory.multi = c("age.factor", "obstruct.factor")
dependent = "Surv(time, status)"
# Separate tables
colon_s %>%
summary.factorlist(dependent, explanatory, glm.id=TRUE) -> example2.summary
colon_s %>%
coxphuni(dependent, explanatory) %>%
fit2df(estimate.suffix=" (univariable)") -> example2.univariable
colon_s %>%
coxphmulti(dependent, explanatory.multi) %>%
fit2df(estimate.suffix=" (multivariable)") -> example2.multivariable
# Pipe together
example2.summary %>%
summarizer.merge(example2.univariable) %>%
summarizer.merge(example2.multivariable) %>%
select(-c(glm.id, index)) -> example2.final
example2.final
3. Summarise regression model results in plot
Models can be summarized with odds ratio/hazard ratio plots using or.plot or hr.plot (hr.plot not fully tested).
# OR plot
explanatory = c("age.factor", "sex.factor", "obstruct.factor", "perfor.factor")
dependent = 'mort_5yr'
colon_s %>%
or.plot(dependent, explanatory)
# Previously fitted models (`glmmulti()` or `glmmixed()`) can be provided directly to `glmfit`
# HR plot (not fully tested)
explanatory = c("age.factor", "sex.factor", "obstruct.factor", "perfor.factor")
dependent = "Surv(time, status)"
colon_s %>%
hr.plot(dependent, explanatory, dependent_label = "Survival")
# Previously fitted models (`coxphmulti`) can be provided directly using `coxfit`
Our own particular Rstan models are supported and will be documented in the future. Broadly, if you are running (hierarchical) logistic regression models in Stan with coefficients specified as a vector labelled beta, then fit2df() will work directly on the stanfit object in a similar manner to if it was a glm or glmerMod object.
4. Kaplan-Meier survival plots
KM plots can be produced using the library(survminer)
# KM plot
explanatory = c("perfor.factor")
dependent = "Surv(time, status)"
colon_s %>%
surv.plot(dependent, explanatory, xlab="Time (days)", pval=TRUE, legend="none")
Notes
Use Hmisc::label() to assign labels to variables for tables and plots.
label(colon_s$age.factor) = "Age (years)"
Export dataframe tables directly or to R Markdown using knitr::kable().
Note wrapper summary.missing() can be useful. Wraps mice::md.pattern.
colon_s %>%
summary.missing(dependent, explanatory)
ewenharrison/summarizer documentation built on May 16, 2019, 9:41 a.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
summarizer
The summarizer package provides functions that help you create elegant final results tables and charts when modelling.
Its design follows Hadley Wickham's tidy tool manifesto.
Installation and Documentation
You can install summarizer from github with:
# install.packages("devtools")
devtools::install_github("ewenharrison/summarizer")
It is not a dependent, but it is recommended that this package is used together with
dplyr which can be installed via:
install.packages("dplyr")
To install off-line (or in a Safe Haven), download the zip file and use devtools::install_local().
Main Features
1. Summarise variables/factors by a categorical variable
summary.factorlist() is a simple wrapper used to summarise any number of variables by a single categorical variable.
This is usually "Table 1" of a study report. The categorical variable can have a maximum of five levels.
library(summarizer)
library(dplyr)
# Load example dataset, modified version of survival::colon
data(colon_s)
# Table 1 - Patient demographics ----
explanatory = c("age", "age.factor", "sex.factor", "obstruct.factor")
dependent = "perfor.factor"
colon_s %>%
summary.factorlist(dependent, explanatory, p=T)
summary.factorlist() is also commonly used to summarise any number of variables by an outcome variable (say dead yes/no).
# Table 2 - 5 yr mortality ----
explanatory = c("age.factor", "sex.factor", "obstruct.factor", "perfor.factor")
dependent = 'mort_5yr'
colon_s %>%
summary.factorlist(dependent, explanatory)
Tables can be knitted to PDF, Word or html documents. We do this in RStudio from a .Rmd document. Example chunk: ```{r, echo = FALSE, results='asis'} knitr::kable(example_table, row.names=FALSE, align=c("l", "l", "r", "r", "r"))
### 2. Summarise regression model results in final table format
The second main feature is the ability to create final tables for logistic `glm()`, hierarchical logistic `lme4::glmer()` and
Cox proprotional hazard `survival::coxph()` regression models.
The `summarizer()` "all-in-one" function takes a single dependent variable with a vector of explanatory variable names
(continuous or categorical variables) to produce a final table for publication including summary statistics,
univariable and multivariable regression analyses. The first columns are those produced by
`summary.factorist()`.
e.g. `glm(depdendent ~ explanatory, family="binomial")`
``` r
explanatory = c("age.factor", "sex.factor", "obstruct.factor", "perfor.factor")
dependent = 'mort_5yr'
colon_s %>%
summarizer(dependent, explanatory)
Where a multivariable model contains a subset of the variables specified in the full univariable set, this can be specified.
explanatory = c("age.factor", "sex.factor", "obstruct.factor", "perfor.factor")
explanatory.multi = c("age.factor", "obstruct.factor")
dependent = 'mort_5yr'
colon_s %>%
summarizer(dependent, explanatory, explanatory.multi)
Random effects.
e.g. lme4::glmer(dependent ~ explanatory + (1 | random_effect), family="binomial")
explanatory = c("age.factor", "sex.factor", "obstruct.factor", "perfor.factor")
explanatory.multi = c("age.factor", "obstruct.factor")
random.effect = "hospital"
dependent = 'mort_5yr'
colon_s %>%
summarizer(dependent, explanatory, explanatory.multi, random.effect)
metrics=TRUE provides common model metrics.
colon_s %>%
summarizer(dependent, explanatory, explanatory.multi, metrics=TRUE)
Cox proportional hazards
e.g. survival::coxph(dependent ~ explanatory)
explanatory = c("age.factor", "sex.factor", "obstruct.factor", "perfor.factor")
dependent = "Surv(time, status)"
colon_s %>%
summarizer(dependent, explanatory)
Rather than going all-in-one, any number of subset models can be manually added on to a summary.factorlist() table using summarizer.merge(). This is particularly useful when models take a long-time to run or are complicated.
Note requirement for glm.id=TRUE. fit2df is a subfunction extracting most common models to a dataframe.
explanatory = c("age.factor", "sex.factor", "obstruct.factor", "perfor.factor")
explanatory.multi = c("age.factor", "obstruct.factor")
random.effect = "hospital"
dependent = 'mort_5yr'
# Separate tables
colon_s %>%
summary.factorlist(dependent, explanatory, glm.id=TRUE) -> example.summary
colon_s %>%
glmuni(dependent, explanatory) %>%
fit2df(estimate.suffix=" (univariable)") -> example.univariable
colon_s %>%
glmmulti(dependent, explanatory) %>%
fit2df(estimate.suffix=" (multivariable)") -> example.multivariable
colon_s %>%
glmmixed(dependent, explanatory, random.effect) %>%
fit2df(estimate.suffix=" (multilevel") -> example.multilevel
# Pipe together
example.summary %>%
summarizer.merge(example.univariable) %>%
summarizer.merge(example.multivariable) %>%
summarizer.merge(example.multilevel) %>%
select(-c(glm.id, index)) -> example.final
example.final
Cox Proportional Hazards example with separate tables merged together.
explanatory = c("age.factor", "sex.factor", "obstruct.factor", "perfor.factor")
explanatory.multi = c("age.factor", "obstruct.factor")
dependent = "Surv(time, status)"
# Separate tables
colon_s %>%
summary.factorlist(dependent, explanatory, glm.id=TRUE) -> example2.summary
colon_s %>%
coxphuni(dependent, explanatory) %>%
fit2df(estimate.suffix=" (univariable)") -> example2.univariable
colon_s %>%
coxphmulti(dependent, explanatory.multi) %>%
fit2df(estimate.suffix=" (multivariable)") -> example2.multivariable
# Pipe together
example2.summary %>%
summarizer.merge(example2.univariable) %>%
summarizer.merge(example2.multivariable) %>%
select(-c(glm.id, index)) -> example2.final
example2.final
3. Summarise regression model results in plot
Models can be summarized with odds ratio/hazard ratio plots using or.plot or hr.plot (hr.plot not fully tested).
# OR plot
explanatory = c("age.factor", "sex.factor", "obstruct.factor", "perfor.factor")
dependent = 'mort_5yr'
colon_s %>%
or.plot(dependent, explanatory)
# Previously fitted models (`glmmulti()` or `glmmixed()`) can be provided directly to `glmfit`
# HR plot (not fully tested)
explanatory = c("age.factor", "sex.factor", "obstruct.factor", "perfor.factor")
dependent = "Surv(time, status)"
colon_s %>%
hr.plot(dependent, explanatory, dependent_label = "Survival")
# Previously fitted models (`coxphmulti`) can be provided directly using `coxfit`
Our own particular Rstan models are supported and will be documented in the future. Broadly, if you are running (hierarchical) logistic regression models in Stan with coefficients specified as a vector labelled beta, then fit2df() will work directly on the stanfit object in a similar manner to if it was a glm or glmerMod object.
4. Kaplan-Meier survival plots
KM plots can be produced using the library(survminer)
# KM plot
explanatory = c("perfor.factor")
dependent = "Surv(time, status)"
colon_s %>%
surv.plot(dependent, explanatory, xlab="Time (days)", pval=TRUE, legend="none")
Notes
Use Hmisc::label() to assign labels to variables for tables and plots.
label(colon_s$age.factor) = "Age (years)"
Export dataframe tables directly or to R Markdown using knitr::kable().
Note wrapper summary.missing() can be useful. Wraps mice::md.pattern.
colon_s %>%
summary.missing(dependent, explanatory)
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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