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gss.Rmd
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gss.Rmd
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# General Social Survey (GSS) {-}
[![License: GPL v3](https://img.shields.io/badge/License-GPLv3-blue.svg)](https://www.gnu.org/licenses/gpl-3.0) <a href="https://github.com/asdfree/gss/actions"><img src="https://github.com/asdfree/gss/actions/workflows/r.yml/badge.svg" alt="Github Actions Badge"></a>
A historical record of the concerns, experiences, attitudes, and practices of residents of the United States.
* Both cross-sectional and panel tables with one row per sampled respondent.
* A complex sample survey generalizing to non-institutionalized adults (18+) in the United States.
* Updated biennially since 1972.
* Funded by [National Science Foundation](http://www.nsf.gov/), administered by the [National Opinion Research Center](http://www.norc.org/).
---
Please skim before you begin:
1. [DOCUMENTATION AND PUBLIC USE FILE CODEBOOK (Release 1)](https://gss.norc.org/Documents/codebook/GSS%202022%20Codebook.pdf)
2. [Wikipedia Entry](https://en.wikipedia.org/wiki/General_Social_Survey)
3. A haiku regarding this microdata:
```{r}
# chat about who will
# be allowed marriage, children.
# first date questionnaire
```
---
## Download, Import, Preparation {-}
Download and import the 1972-2022 cumulative data file:
```{r eval = FALSE , results = "hide" }
library(haven)
zip_tf <- tempfile()
zip_url <- "https://gss.norc.org/Documents/sas/GSS_sas.zip"
download.file( zip_url , zip_tf , mode = 'wb' )
unzipped_files <- unzip( zip_tf , exdir = tempdir() )
gss_tbl <- read_sas( grep( '\\.sas7bdat$' , unzipped_files , value = TRUE ) )
gss_df <- data.frame( gss_tbl )
names( gss_df ) <- tolower( names( gss_df ) )
gss_df[ , 'one' ] <- 1
```
### Save Locally \ {-}
Save the object at any point:
```{r eval = FALSE , results = "hide" }
# gss_fn <- file.path( path.expand( "~" ) , "GSS" , "this_file.rds" )
# saveRDS( gss_df , file = gss_fn , compress = FALSE )
```
Load the same object:
```{r eval = FALSE , results = "hide" }
# gss_df <- readRDS( gss_fn )
```
### Survey Design Definition {-}
Construct a complex sample survey design:
```{r eval = FALSE , results = "hide" }
library(survey)
options( survey.lonely.psu = "adjust" )
gss_design <-
svydesign(
~ vpsu ,
strata = ~ interaction( year , vstrat ) ,
data = subset( gss_df , year >= 1975 & !is.na( wtssnrps ) ) ,
weights = ~ wtssnrps ,
nest = TRUE
)
```
### Variable Recoding {-}
Add new columns to the data set:
```{r eval = FALSE , results = "hide" }
gss_design <-
update(
gss_design ,
polviews =
factor( polviews , levels = 1:7 ,
labels = c( "Extremely liberal" , "Liberal" ,
"Slightly liberal" , "Moderate, middle of the road" ,
"Slightly conservative" , "Conservative" ,
"Extremely conservative" )
) ,
born_in_usa = as.numeric( born == 1 ) ,
race = factor( race , levels = 1:3 , labels = c( "white" , "black" , "other" ) ) ,
region =
factor( region , levels = 1:9 ,
labels = c( "New England" , "Middle Atlantic" ,
"East North Central" , "West North Central" ,
"South Atlantic" , "East South Central" ,
"West South Central" , "Mountain" , "Pacific" )
)
)
```
---
## Analysis Examples with the `survey` library \ {-}
### Unweighted Counts {-}
Count the unweighted number of records in the survey sample, overall and by groups:
```{r eval = FALSE , results = "hide" }
sum( weights( gss_design , "sampling" ) != 0 )
svyby( ~ one , ~ region , gss_design , unwtd.count )
```
### Weighted Counts {-}
Count the weighted size of the generalizable population, overall and by groups:
```{r eval = FALSE , results = "hide" }
svytotal( ~ one , gss_design )
svyby( ~ one , ~ region , gss_design , svytotal )
```
### Descriptive Statistics {-}
Calculate the mean (average) of a linear variable, overall and by groups:
```{r eval = FALSE , results = "hide" }
svymean( ~ age , gss_design , na.rm = TRUE )
svyby( ~ age , ~ region , gss_design , svymean , na.rm = TRUE )
```
Calculate the distribution of a categorical variable, overall and by groups:
```{r eval = FALSE , results = "hide" }
svymean( ~ race , gss_design , na.rm = TRUE )
svyby( ~ race , ~ region , gss_design , svymean , na.rm = TRUE )
```
Calculate the sum of a linear variable, overall and by groups:
```{r eval = FALSE , results = "hide" }
svytotal( ~ age , gss_design , na.rm = TRUE )
svyby( ~ age , ~ region , gss_design , svytotal , na.rm = TRUE )
```
Calculate the weighted sum of a categorical variable, overall and by groups:
```{r eval = FALSE , results = "hide" }
svytotal( ~ race , gss_design , na.rm = TRUE )
svyby( ~ race , ~ region , gss_design , svytotal , na.rm = TRUE )
```
Calculate the median (50th percentile) of a linear variable, overall and by groups:
```{r eval = FALSE , results = "hide" }
svyquantile( ~ age , gss_design , 0.5 , na.rm = TRUE )
svyby(
~ age ,
~ region ,
gss_design ,
svyquantile ,
0.5 ,
ci = TRUE , na.rm = TRUE
)
```
Estimate a ratio:
```{r eval = FALSE , results = "hide" }
svyratio(
numerator = ~ adults ,
denominator = ~ hompop ,
gss_design ,
na.rm = TRUE
)
```
### Subsetting {-}
Restrict the survey design to females:
```{r eval = FALSE , results = "hide" }
sub_gss_design <- subset( gss_design , sex == 2 )
```
Calculate the mean (average) of this subset:
```{r eval = FALSE , results = "hide" }
svymean( ~ age , sub_gss_design , na.rm = TRUE )
```
### Measures of Uncertainty {-}
Extract the coefficient, standard error, confidence interval, and coefficient of variation from any descriptive statistics function result, overall and by groups:
```{r eval = FALSE , results = "hide" }
this_result <- svymean( ~ age , gss_design , na.rm = TRUE )
coef( this_result )
SE( this_result )
confint( this_result )
cv( this_result )
grouped_result <-
svyby(
~ age ,
~ region ,
gss_design ,
svymean ,
na.rm = TRUE
)
coef( grouped_result )
SE( grouped_result )
confint( grouped_result )
cv( grouped_result )
```
Calculate the degrees of freedom of any survey design object:
```{r eval = FALSE , results = "hide" }
degf( gss_design )
```
Calculate the complex sample survey-adjusted variance of any statistic:
```{r eval = FALSE , results = "hide" }
svyvar( ~ age , gss_design , na.rm = TRUE )
```
Include the complex sample design effect in the result for a specific statistic:
```{r eval = FALSE , results = "hide" }
# SRS without replacement
svymean( ~ age , gss_design , na.rm = TRUE , deff = TRUE )
# SRS with replacement
svymean( ~ age , gss_design , na.rm = TRUE , deff = "replace" )
```
Compute confidence intervals for proportions using methods that may be more accurate near 0 and 1. See `?svyciprop` for alternatives:
```{r eval = FALSE , results = "hide" }
svyciprop( ~ born_in_usa , gss_design ,
method = "likelihood" , na.rm = TRUE )
```
### Regression Models and Tests of Association {-}
Perform a design-based t-test:
```{r eval = FALSE , results = "hide" }
svyttest( age ~ born_in_usa , gss_design )
```
Perform a chi-squared test of association for survey data:
```{r eval = FALSE , results = "hide" }
svychisq(
~ born_in_usa + race ,
gss_design
)
```
Perform a survey-weighted generalized linear model:
```{r eval = FALSE , results = "hide" }
glm_result <-
svyglm(
age ~ born_in_usa + race ,
gss_design
)
summary( glm_result )
```
---
## Replication Example {-}
Match the unweighted record count totals on [PDF page 74](https://gss.norc.org/content/dam/gss/get-documentation/pdf/codebook/GSS%202021%20Codebook.pdf#page=74) of the Public Use File codebook:
```{r eval = FALSE , results = "hide" }
stopifnot( nrow( subset( gss_design , year == 2021 ) ) == 4032 )
```
---
## Analysis Examples with `srvyr` \ {-}
The R `srvyr` library calculates summary statistics from survey data, such as the mean, total or quantile using [dplyr](https://github.com/tidyverse/dplyr/)-like syntax. [srvyr](https://github.com/gergness/srvyr) allows for the use of many verbs, such as `summarize`, `group_by`, and `mutate`, the convenience of pipe-able functions, the `tidyverse` style of non-standard evaluation and more consistent return types than the `survey` package. [This vignette](https://cran.r-project.org/web/packages/srvyr/vignettes/srvyr-vs-survey.html) details the available features. As a starting point for GSS users, this code replicates previously-presented examples:
```{r eval = FALSE , results = "hide" }
library(srvyr)
gss_srvyr_design <- as_survey( gss_design )
```
Calculate the mean (average) of a linear variable, overall and by groups:
```{r eval = FALSE , results = "hide" }
gss_srvyr_design %>%
summarize( mean = survey_mean( age , na.rm = TRUE ) )
gss_srvyr_design %>%
group_by( region ) %>%
summarize( mean = survey_mean( age , na.rm = TRUE ) )
```