cspp: A Package for The Correlates of State Policy Project Data

Caleb Lucas
Joshua McCrain

The Correlates of State Policy Project compiles more than 900 variables across 50 states from 1900-2016. The variables cover 16 broad categories:

This package is designed to allow a user with only basic knowledge of R to find variables, create and export datasets from these variables, subset the datasets by states and years, create map visualizations, and export citations to common file formats (e.g., .bib).

Basic Use: Finding and Returning State Politics Data

# For latest developmental verison:
library(devtools)
install_github("correlatesstatepolicy/cspp")

# For CRAN version:
install.packages("cspp")

The primary functions in this package are get_var_info and get_cspp_data. The basic workflow for using this package is to 1) find variables of interest and 2) pull them from the full data into a dataframe within the R environment. Below is a basic working example.

# Load the package
library(cspp)

# Find variables based on a category
demo_variables <- get_var_info(categories = "demographics")

# Use these variables to get a full or subsetted version of the data
cspp_data <- get_cspp_data(vars = demo_variables$variable, 
                           years = seq(2000, 2010))

The get_cspp_data function returns a properly formatted state-year panel, facilitating regressions and merging based on common state identifiers.

library(dplyr)
glimpse(cspp_data[1:15],)
## Rows: 561
## Columns: 15
## $ st            <chr> "AK", "AK", "AK", "AK", "AK", "AK", "AK", "AK", "AK", "A…
## $ stateno       <dbl> 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 1, 1, 1, 1, 1, 1, 1, 1,…
## $ state         <chr> "Alaska", "Alaska", "Alaska", "Alaska", "Alaska", "Alask…
## $ state_fips    <dbl> 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 1, 1, 1, 1, 1, 1, 1, 1,…
## $ state_icpsr   <dbl> 81, 81, 81, 81, 81, 81, 81, 81, 81, 81, 81, 41, 41, 41, …
## $ year          <dbl> 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 20…
## $ poptotal      <dbl> 627428, 633160, 642391, 650426, 660975, 668625, 676301, …
## $ popdensity    <dbl> NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, …
## $ popfemale     <dbl> 302820, NA, 310665, 313539, 316525, 320479, 323642, 3286…
## $ pctpopfemale  <dbl> NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, …
## $ popmale       <dbl> 324112, NA, 333121, 335279, 338910, 343182, 346411, 3548…
## $ pctpopmale    <dbl> NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, …
## $ popunder5     <dbl> 47591, NA, 49477, 48680, 49758, 50741, 49771, 51311, 520…
## $ pctpopunder14 <dbl> NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, …
## $ pop5to17      <dbl> 143126, NA, 142951, 140609, 138471, 137583, 131663, 1309…

Even more generally, you can load the entire set of variables and/or the entire set of data (all 900+ variables) into R through passing these functions without any parameters:

# All variables
all_variables <- get_var_info()

# Full dataset
all_data <- get_cspp_data()
## Note: the following variables have additional footnotes in the codebook (https://ippsr.msu.edu/sites/default/files/CorrelatesCodebook.pdf):
## bfh_cpi_multiplier, gov_fin_fy, housing_prices_quar, noofvotes, cartheftrate, carthefttotal, murderrate, murdertotal, propcrimerate, propcrimetotal, raperate, rapetotal, bus_energy_consum, bus_energy_consum_pc

Finding Variables

Given the large number of variables in the data, we provide additional functionality within get_var_info to search for variables based on strings or categories. For instance, the following searches for pop and femal within the variable name, returning 31 variables:

# Search for variables by name
get_var_info(var_names = c("pop","femal")) %>% dplyr::glimpse()
## Rows: 43
## Columns: 14
## $ variable        <chr> "poptotal", "popdensity", "popfemale", "pctpopfemale",…
## $ years           <chr> "1900-2019", "1975-1999", "1994-2000, 2002-2010", "201…
## $ short_desc      <chr> "Population total", "Population density", "Female popu…
## $ long_desc       <chr> "Total population per state", "Number of people per sq…
## $ sources         <chr> "U.S. Census Bureau (http://www.census.gov/)\r\nOrigin…
## $ category        <chr> "demographics", "demographics", "demographics", "demog…
## $ plaintext_cite  <chr> "Stateminder: A data visualization project from George…
## $ bibtex_cite     <chr> "@misc{stateminderNA,\n  title={Stateminder.org},\n  a…
## $ plaintext_cite2 <chr> NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA…
## $ bibtex_cite2    <chr> NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA…
## $ plaintext_cite3 <chr> NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA…
## $ bibtex_cite3    <chr> NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA…
## $ plaintext_cite4 <chr> NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA…
## $ bibtex_cite4    <chr> NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA…

A similar line of code using the related_to parameter, instead of var_name, searches within the name and the description fields, returning 96 results:

# Search by name and description:
get_var_info(related_to = c("pop", "femal")) %>% dplyr::glimpse()
## Rows: 139
## Columns: 14
## $ variable        <chr> "poptotal", "popdensity", "popfemale", "pctpopfemale",…
## $ years           <chr> "1900-2019", "1975-1999", "1994-2000, 2002-2010", "201…
## $ short_desc      <chr> "Population total", "Population density", "Female popu…
## $ long_desc       <chr> "Total population per state", "Number of people per sq…
## $ sources         <chr> "U.S. Census Bureau (http://www.census.gov/)\r\nOrigin…
## $ category        <chr> "demographics", "demographics", "demographics", "demog…
## $ plaintext_cite  <chr> "Stateminder: A data visualization project from George…
## $ bibtex_cite     <chr> "@misc{stateminderNA,\n  title={Stateminder.org},\n  a…
## $ plaintext_cite2 <chr> NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA…
## $ bibtex_cite2    <chr> NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA…
## $ plaintext_cite3 <chr> NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA…
## $ bibtex_cite3    <chr> NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA…
## $ plaintext_cite4 <chr> NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA…
## $ bibtex_cite4    <chr> NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA, NA…

You can also return whole categories of variables. The full list of variable categories is available within the help file for ?get_cspp_data. You can alternatively see the list of categories through the below snippet of code.

# See variable categories:
unique(get_var_info()$category)
##  [1] "demographics"     "economic-fiscal"  "government"       "elections"       
##  [5] "policy-ideology"  "criminal justice" "education"        "healthcare"      
##  [9] "welfare"          "rights"           "environment"      "drug-alcohol"    
## [13] "gun control"      "labor"            "transportation"   "misc. regulation"
# Find variables by category:
var_cats <- get_var_info(categories = c("gun control", "labor"))

You can then use the variable column in this dataframe to pull data from get_cspp_data through var_cats$variable, an example of which is below.

Another option in finding a variable is to load the variables into a dataframe and use RStudio’s filter feature to search:

RStudio Filter

Pulling data

The function get_cspp_data takes the following parameters, all of which are optional:

In this example, the resulting dataframe includes the variables c("sess_length", "hou_majority", "term_length") as well as all variables in the category demographics for North Carolina, Virgina, and Georgia from 1994 to 2004.

# Get subsetted data and save to dataframe
data <- get_cspp_data(vars = c("sess_length", "hou_majority", "term_length"),
                      var_category = "demographics",
                      states = c("NC", "VA", "GA"),
                      years = seq(1995, 2004))

You can also pass the get_var_info function into the vars parameter of get_cspp_data, skipping a step:

# Use get_var_info to generate variable vector inline
get_cspp_data(vars = get_var_info(related_to = "concealed carry")$variable,
              states = "NC",
              years = 1999)
## # A tibble: 1 × 8
##   st    stateno state          state_fips state_icpsr  year bjourn bprecc
##   <chr>   <dbl> <chr>               <dbl>       <dbl> <dbl>  <dbl>  <dbl>
## 1 NC         33 North Carolina         37          47  1999      2      1

Where the two returned variables, bjourn and bprecc, deal with concealed carry of guns in motor vehicles and whether state laws pre-empt local laws, respectively.

Citations

Each variable in the CSPP data was collected from external sources. We’ve made it easy to cite the source of each variable you use with the get_cites function.

This function takes a variable name or vector of variable names (such as that generated by the get_var_info function) and returns a dataframe of citations.

# Simple dataframe for one variable
get_cites(var_names = "poptotal") %>% dplyr::glimpse()
## Rows: 3
## Columns: 12
## $ variable        <chr> "poptotal", "cspp_dataset", "cspp_package"
## $ plaintext_cite  <chr> "Stateminder: A data visualization project from George…
## $ bibtex_cite     <chr> "@misc{stateminderNA,\n  title={Stateminder.org},\n  a…
## $ plaintext_cite2 <chr> NA, NA, NA
## $ bibtex_cite2    <chr> NA, NA, NA
## $ plaintext_cite3 <chr> NA, NA, NA
## $ bibtex_cite3    <chr> NA, NA, NA
## $ years           <chr> "1900-2019", NA, NA
## $ short_desc      <chr> "Population total", NA, NA
## $ long_desc       <chr> "Total population per state", NA, NA
## $ sources         <chr> "U.S. Census Bureau (http://www.census.gov/)\r\nOrigin…
## $ category        <chr> "demographics", NA, NA
# Using get_var_info to return variable citations
cite_ex <- get_cites(var_names = get_var_info(related_to = "concealed carry")$variable)
cite_ex$plaintext_cite[3:4]
## [1] "Jordan, Marty P. and Matt Grossmann. 2020. The Correlates of State Policy Project v.2.2. East Lansing, MI: Institute for Public Policy and Social Research (IPPSR)."
## [2] "Caleb Lucas and Joshua McCrain (2020). cspp: A Package for The Correlates of State Policy Project Data. R package version 0.1.0."

There is also an option to output the citations to a .bib, .csv or .txt file:

get_cites(var_names = "poptotal",
         write_out = TRUE,
         file_path = "~/path/to/file.csv",
         format = "csv")

Maps and Choropleths

The generate_map function uses the CSPP data to generate US maps with states filled in based on the value of a given variable (also called choropleths). This function returns a ggplot object so it is highly customizable. The optional parameters are:

Note: This function will attempt to plot any variable type; however, plotting character or factor values on a map will likely result in a hard to interpret graph.

library(ggplot2) # optional, but needed to remove legend

# Generates a map of the percentage of the population over 65
generate_map(get_cspp_data(var_category = "demographics"),
             var_name = "pctpopover65") +
  ggplot2::theme(legend.position = "none")

In this example, since the dataframe passed is generated by get_cspp_data(var_category = "demographics") and contains all years for all states in the data, the function by default returns the value of the most recent year without missing data.

If you set drop_NA_states to TRUE, and pass the function a dataframe containing only certain states, it only plots those states:

library(dplyr)

generate_map(get_cspp_data(var_category = "demographics") %>%
                dplyr::filter(st %in% c("NC", "VA", "SC")),
              var_name = "pctpopover65",
              poly_args = list(color = "black"),
              drop_NA_states = TRUE) +
  ggplot2::theme(legend.position = "none")

Since this function returns a ggplot object, you can customize it endlessly:

generate_map(get_cspp_data(var_category = "demographics") %>%
                dplyr::filter(st %in% c("NC", "VA", "SC", "TN", "GA", "WV", "MS", "AL", "KY")),
              var_name = "pctpopover65",
              poly_args = list(color = "black"),
              drop_NA_states = TRUE) +
  ggplot2::scale_fill_gradient(low = "white", high = "red") +
  ggplot2::theme(legend.position = "none") +
  ggplot2::ggtitle("% Population Over 65")

Plot timeseries data

To facilitate the visualization of the timeseries and panel nature of the CSPP data, the plot_panel function takes a dataframe from get_cspp_data and plots a state-year panel in one of two formats. The parameters of this function are as follows:

The function returns a ggplot2 object, making it easier to change and add layers onto the generated plot.

A common research design is to use variation in policy adoption as a ‘treatment’ in a pseudo-experimental setting. This function makes it easy to visualize when states are subject to this treatment.

# panel of all states' adoption of medical marijuana laws
cspp <- get_cspp_data(vars = "drugs_medical_marijuana")

# visualize panel:
plot_panel(cspp)
## Values from drugs_medical_marijuana used to fill cells.

The function also works with continuous variables, such as the state policy liberalism score:

plot_panel(cspp_data = get_cspp_data(vars = "pollib_median"),
           colors = c("firebrick4", "steelblue2", "gray"),
           years = seq(1960, 2010)) +
  ggplot2::ggtitle("Policy liberalism")
## Values from pollib_median used to fill cells.

Network data

The function get_network_data returns a dataset from the CSPP state networks data consisting of 120 variables. The data is structured as state dyads (an edge list).

# Returns dataframe of state dyads
get_network_data() %>% dplyr::glimpse()
## Rows: 2,550
## Columns: 120
## $ State1                     <chr> "Alabama", "Alabama", "Alabama", "Alabama",…
## $ State2                     <chr> "Alaska", "Arizona", "Arkansas", "Californi…
## $ st.abb2                    <chr> "AK", "AZ", "AR", "CA", "CO", "CT", "DE", "…
## $ st.abb1                    <chr> "AL", "AL", "AL", "AL", "AL", "AL", "AL", "…
## $ dyadid                     <chr> "AL-AK", "AL-AZ", "AL-AR", "AL-CA", "AL-CO"…
## $ S1region                   <chr> "South", "South", "South", "South", "South"…
## $ S2region                   <chr> "West", "West", "South", "West", "West", "N…
## $ S1division                 <chr> "East South Central", "East South Central",…
## $ S2division                 <chr> "Pacific", "Mountain", "West South Central"…
## $ Border                     <dbl> 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 0, 0, 0, 0, 0…
## $ Distance                   <dbl> 4594.3668, 2407.6648, 620.4273, 3243.6837, …
## $ State1_Lat                 <dbl> 32.36154, 32.36154, 32.36154, 32.36154, 32.…
## $ State1_Long                <dbl> -86.27912, -86.27912, -86.27912, -86.27912,…
## $ State2_Lat                 <dbl> 58.30194, 33.44846, 34.73601, 38.55560, 39.…
## $ State2_Long                <dbl> -134.41974, -112.07384, -92.33112, -121.468…
## $ ACS_Migration              <dbl> 528, 1005, 926, 3107, 1251, 327, 113, 99, 1…
## $ PopDif                     <dbl> 4088469, -2116015, 1850948, -34266641, -722…
## $ State1_Pop                 <dbl> 4819343, 4819343, 4819343, 4819343, 4819343…
## $ State2_Pop                 <dbl> 730874, 6935358, 2968395, 39085984, 5542282…
## $ IncomingFlights            <dbl> 75, 0, 0, 72, 51, 328, 0, 0, 0, 606, 0, 77,…
## $ IRS_migration              <dbl> 7698, 15051, 17858, 61401, 19956, 6408, 252…
## $ Income                     <dbl> 147372, 339243, 371553, 1364538, 445755, 18…
## $ IRS_migration_2010         <dbl> 528, 1005, 926, 3107, 1251, 327, 113, 99, 1…
## $ Income_2010                <dbl> 9214, 23289, 18692, 66991, 25235, 9019, 236…
## $ Imports                    <dbl> 2.997198e+05, 2.065025e+09, 2.033900e+09, 4…
## $ GSPDif                     <dbl> 155221, -100224, 84242, -2417106, -117019, …
## $ S1GSP                      <dbl> 205625, 205625, 205625, 205625, 205625, 205…
## $ S2GSP                      <dbl> 50404, 305849, 121383, 2622731, 322644, 259…
## $ DemDif                     <dbl> -0.07857143, -0.14523810, -0.06571428, -0.3…
## $ S1AvgDem                   <dbl> 0.2714286, 0.2714286, 0.2714286, 0.2714286,…
## $ S2AvgDem                   <dbl> 0.3500000, 0.4166667, 0.3371429, 0.6375000,…
## $ S1SenDemProp               <dbl> 0.2285714, 0.2285714, 0.2285714, 0.2285714,…
## $ S1HSDemProp                <dbl> 0.3142857, 0.3142857, 0.3142857, 0.3142857,…
## $ S2SenDemProp               <dbl> 0.3000000, 0.4333333, 0.3142857, 0.6250000,…
## $ S2HSDemProp                <dbl> 0.4000000, 0.4000000, 0.3600000, 0.6500000,…
## $ IdeologyDif                <dbl> 0.31610168, 0.06866579, -0.11840535, -0.213…
## $ PIDDif                     <dbl> 0.14324945, -0.10957587, -0.15900619, -0.27…
## $ S1Ideology                 <dbl> -0.03389831, -0.03389831, -0.03389831, -0.0…
## $ S1PID                      <dbl> -0.3304348, -0.3304348, -0.3304348, -0.3304…
## $ S2Ideology                 <dbl> -0.34999999, -0.10256410, 0.08450704, 0.179…
## $ S2PID                      <dbl> -0.47368422, -0.22085890, -0.17142858, -0.0…
## $ policy_diffusion_tie       <dbl> 0, 20, 7, 5, 1, 5, 56, NA, 15, 40, 0, 19, 5…
## $ policy_diffusion_2015      <dbl> 0, 1, 0, 1, 0, 0, 1, NA, 1, 1, 0, 1, 1, 0, …
## $ policy_diffusion_2000.2015 <dbl> 0, 7, 0, 5, 0, 3, 16, NA, 13, 16, 0, 16, 15…
## $ LibDif                     <dbl> NA, 34.186113, 2.949804, 46.088120, 44.4234…
## $ ELibDif                    <dbl> NA, 1.230781, -2.156186, -3.115099, 8.00975…
## $ SLibDif                    <dbl> NA, -32.955332, -0.793618, -42.973021, -36.…
## $ S1EconomicLiberalism       <dbl> -0.0384034, -0.0384034, -0.0384034, -0.0384…
## $ S1SocialLiberalism         <dbl> -0.2714913, -0.2714913, -0.2714913, -0.2714…
## $ S2EconomicLiberalism       <dbl> NA, -0.05071121, -0.01684154, -0.00725241, …
## $ S2SocialLiberalism         <dbl> NA, 0.05806200, -0.26355514, 0.15823889, 0.…
## $ MassSocLibDif              <dbl> -0.38336566, 0.08869284, -1.38085590, -2.22…
## $ MassEconLibDif             <dbl> -0.06364249, -0.14963306, -0.07359393, -0.5…
## $ PolSocLibDif               <dbl> -1.4865111, 0.2728079, -0.9492451, -4.20959…
## $ PolEconLibDif              <dbl> -1.1890527, -0.2309994, -0.1488198, -2.9290…
## $ State1PolSocLib            <dbl> -1.577025, -1.577025, -1.577025, -1.577025,…
## $ State1PolEconLib           <dbl> -1.370212, -1.370212, -1.370212, -1.370212,…
## $ State1MassSocLib           <dbl> 0.07021931, 0.07021931, 0.07021931, 0.07021…
## $ State1MassEconLib          <dbl> -0.5247536, -0.5247536, -0.5247536, -0.5247…
## $ State2PolSocLib            <dbl> -0.090514018, -1.849832972, -0.627779955, 2…
## $ State2PolEconLib           <dbl> -0.18115938, -1.13921271, -1.22139223, 1.55…
## $ State2MassSocLib           <dbl> 0.45358497, -0.01847353, 1.45107521, 2.2920…
## $ State2MassEconLib          <dbl> -0.4611111, -0.3751206, -0.4511597, 0.01890…
## $ perceived_similarity       <dbl> 0.116279073, 0.067307696, 0.343750000, 0.00…
## $ RaceDif                    <dbl> 50.6, 66.0, 22.0, 97.9, 44.8, 33.5, 16.7, 5…
## $ LatinoDif                  <dbl> -2.9, -27.3, -3.3, -35.0, -17.4, -12.0, -5.…
## $ WhiteDif                   <dbl> 4.9, 10.8, -6.8, 28.5, -2.7, -1.2, 3.3, 29.…
## $ BlackDif                   <dbl> 23.8, 22.6, 11.5, 21.2, 22.8, 16.8, 5.2, -1…
## $ AsianDif                   <dbl> -5.3, -1.9, -0.3, -13.1, -1.8, -3.2, -2.7, …
## $ NativeDif                  <dbl> -13.7, -3.4, -0.1, 0.1, -0.1, 0.3, 0.3, 0.3…
## $ S1Latino                   <dbl> 0.041, 0.041, 0.041, 0.041, 0.041, 0.041, 0…
## $ S1White                    <dbl> 0.655, 0.655, 0.655, 0.655, 0.655, 0.655, 0…
## $ S1Black                    <dbl> 0.267, 0.267, 0.267, 0.267, 0.267, 0.267, 0…
## $ S1Asian                    <dbl> 0.013, 0.013, 0.013, 0.013, 0.013, 0.013, 0…
## $ S1Native                   <dbl> 0.005, 0.005, 0.005, 0.005, 0.005, 0.005, 0…
## $ S2Latino                   <dbl> 0.070, 0.314, 0.074, 0.391, 0.215, 0.161, 0…
## $ S2White                    <dbl> 0.606, 0.547, 0.723, 0.370, 0.682, 0.667, 0…
## $ S2Black                    <dbl> 0.029, 0.041, 0.152, 0.055, 0.039, 0.099, 0…
## $ S2Asian                    <dbl> 0.066, 0.032, 0.016, 0.144, 0.031, 0.045, 0…
## $ S2Native                   <dbl> 0.142, 0.039, 0.006, 0.004, 0.006, 0.002, 0…
## $ ReligDif                   <dbl> 74, 77, 23, 89, 58, 94, 81, 74, 63, 22, 77,…
## $ ChristianDif               <dbl> 24, 19, 7, 23, 22, 16, 17, 21, 16, 7, 23, 1…
## $ EvangelicalDif             <dbl> 27, 23, 3, 29, 23, 36, 34, 35, 25, 11, 24, …
## $ MainlineDif                <dbl> 1, 1, -3, 3, -2, -4, -8, -2, -1, 1, 2, -3, …
## $ BPDif                      <dbl> 13, 15, 8, 14, 14, 11, 6, 4, 8, -1, 14, 16,…
## $ CatholicDif                <dbl> -9, -14, -1, -21, -9, -26, -15, -12, -14, -…
## $ MormonDif                  <dbl> -4, -4, 0, 0, -1, 0, 1, 0, 0, 0, -2, -18, 1…
## $ JewishDif                  <dbl> 0, -2, 0, -2, -1, -3, -3, -4, -3, -1, 0, 0,…
## $ MuslimDif                  <dbl> 0, -1, -2, -1, 0, -1, -1, -2, 0, 0, 0, -1, …
## $ BuddhistDif                <dbl> -1, -1, 0, -2, -1, -1, 0, -2, 0, 0, -8, 0, …
## $ HinduDif                   <dbl> 0, -1, 0, -2, 0, -1, -2, -1, 0, 0, 0, 0, -1…
## $ NonesDif                   <dbl> -19, -15, -6, -15, -7, -11, -11, -12, -12, …
## $ NPDif                      <dbl> -11, -10, -4, -9, -11, -5, -9, -7, -8, -4, …
## $ ReligiosityDif             <dbl> 32, 24, 7, 28, 30, 34, 25, 24, 23, 11, 30, …
## $ S1Christian                <dbl> 0.86, 0.86, 0.86, 0.86, 0.86, 0.86, 0.86, 0…
## $ S1Evangelical              <dbl> 0.49, 0.49, 0.49, 0.49, 0.49, 0.49, 0.49, 0…
## $ S1Mainline                 <dbl> 0.13, 0.13, 0.13, 0.13, 0.13, 0.13, 0.13, 0…
## $ S1BlackProt                <dbl> 0.16, 0.16, 0.16, 0.16, 0.16, 0.16, 0.16, 0…
## $ S1Catholic                 <dbl> 0.07, 0.07, 0.07, 0.07, 0.07, 0.07, 0.07, 0…
## $ S1Mormon                   <dbl> 0.01, 0.01, 0.01, 0.01, 0.01, 0.01, 0.01, 0…
## $ S1Jewish                   <dbl> 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0…
## $ S1Muslim                   <dbl> 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0…
## $ S1Buddhist                 <dbl> 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0…
## $ S1Hindu                    <dbl> 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0…
## $ S1Nones                    <dbl> 0.12, 0.12, 0.12, 0.12, 0.12, 0.12, 0.12, 0…
## $ S1NothingParticular        <dbl> 0.09, 0.09, 0.09, 0.09, 0.09, 0.09, 0.09, 0…
## $ S1HighlyReligious          <dbl> 0.77, 0.77, 0.77, 0.77, 0.77, 0.77, 0.77, 0…
## $ S2Christian                <dbl> 0.62, 0.67, 0.79, 0.63, 0.64, 0.70, 0.69, 0…
## $ S2Evangelical              <dbl> 0.22, 0.26, 0.46, 0.20, 0.26, 0.13, 0.15, 0…
## $ S2Mainline                 <dbl> 0.12, 0.12, 0.16, 0.10, 0.15, 0.17, 0.21, 0…
## $ S2BlackProt                <dbl> 0.03, 0.01, 0.08, 0.02, 0.02, 0.05, 0.10, 0…
## $ S2Catholic                 <dbl> 0.16, 0.21, 0.08, 0.28, 0.16, 0.33, 0.22, 0…
## $ S2Mormon                   <dbl> 0.05, 0.05, 0.01, 0.01, 0.02, 0.01, 0.00, 0…
## $ S2Jewish                   <dbl> 0.00, 0.02, 0.00, 0.02, 0.01, 0.03, 0.03, 0…
## $ S2Muslim                   <dbl> 0.00, 0.01, 0.02, 0.01, 0.00, 0.01, 0.01, 0…
## $ S2Buddhist                 <dbl> 0.01, 0.01, 0.00, 0.02, 0.01, 0.01, 0.00, 0…
## $ S2Hindu                    <dbl> 0.00, 0.01, 0.00, 0.02, 0.00, 0.01, 0.02, 0…
## $ S2Nones                    <dbl> 0.31, 0.27, 0.18, 0.27, 0.19, 0.23, 0.23, 0…
## $ S2NothingParticular        <dbl> 0.20, 0.19, 0.13, 0.18, 0.20, 0.14, 0.18, 0…
## $ S2HighlyReligious          <dbl> 0.45, 0.53, 0.70, 0.49, 0.47, 0.43, 0.52, 0…

The function has two optional parameters category and merge_data. If a category or string of categories is specified, it returns variables only in that category (see the data documentation in the link above). Category options are “Distance Travel Migration”, “Economic”, “Political”, “Policy”, “Demographic”.

network.df <- get_network_data(category = c("Economic", "Political"))

names(network.df)
##  [1] "State1"             "State2"             "st.abb2"           
##  [4] "st.abb1"            "dyadid"             "IRS_migration"     
##  [7] "Income"             "IRS_migration_2010" "Income_2010"       
## [10] "Imports"            "GSPDif"             "S1GSP"             
## [13] "S2GSP"              "DemDif"             "S1AvgDem"          
## [16] "S2AvgDem"           "S1SenDemProp"       "S1HSDemProp"       
## [19] "S2SenDemProp"       "S2HSDemProp"        "IdeologyDif"       
## [22] "PIDDif"             "S1Ideology"         "S1PID"             
## [25] "S2Ideology"         "S2PID"

merge_data simplifies merging in data from the get_cspp_data function. The object passed to merge_data must be a dataframe with a variable named st, or a dataframe generated by get_cspp_data. If the dataframe passed to this parameter has more than one observation per state (a panel) then this function averages over all values per state prior to merging.

cspp_data <- get_cspp_data(vars = c("sess_length", "hou_majority"), years = seq(1999, 2000))

network.df <- get_network_data(category = "Distance Travel Migration",
                               merge_data  = cspp_data)
## Warning in get_network_data(category = "Distance Travel Migration", merge_data
## = cspp_data): There are multiple observations per state in the `data` dataframe.
## Creating one observation per state (dplyr::summarize()) prior to merging...
names(network.df)
##  [1] "State1"          "State2"          "st.abb2"         "st.abb1"        
##  [5] "dyadid"          "S1region"        "S2region"        "S1division"     
##  [9] "S2division"      "Border"          "Distance"        "State1_Lat"     
## [13] "State1_Long"     "State2_Lat"      "State2_Long"     "ACS_Migration"  
## [17] "PopDif"          "State1_Pop"      "State2_Pop"      "IncomingFlights"
## [21] "sess_length"     "hou_majority"
library(dplyr)

head(cspp_data %>% arrange(st))
## # A tibble: 6 × 8
##   st    stateno state    state_fips state_icpsr  year sess_length hou_majority
##   <chr>   <dbl> <chr>         <dbl>       <dbl> <dbl>       <dbl>        <dbl>
## 1 AK          2 Alaska            2          81  1999       168.         0.752
## 2 AK          2 Alaska            2          81  2000        NA          0.752
## 3 AL          1 Alabama           1          41  1999        60         -0.129
## 4 AL          1 Alabama           1          41  2000        NA         -0.115
## 5 AR          4 Arkansas          5          42  1999        63.2        0.118
## 6 AR          4 Arkansas          5          42  2000        NA          0.118
# the merged value of Alaska's hou_majority value will be mean(c(-0.129, -0.115))

Network Plotting Examples

Here are two examples of plotting the state network edgelist data using igraph and ggraph:

library(ggraph)
library(igraph)

network.df <- select(network.df, from = st.abb1, to = st.abb2, ACS_Migration) 

network.df %>% 
  filter(from %in% c("NC", "VA", "SC", "GA")) %>% 
  graph_from_data_frame() %>% 
  ggraph(layout="fr") + 
  geom_edge_link(aes(edge_alpha = ACS_Migration), edge_color = "royalblue") + 
  geom_node_point() +
  geom_node_text(aes(label = name), repel = TRUE, point.padding = unit(0.2, "lines")) +
  theme_void() +
  theme(legend.position = "none")

network.df %>% 
  filter(from %in% c("NC")) %>% 
  graph_from_data_frame() %>% 
  ggraph(layout="linear") + 
  geom_edge_arc(aes(edge_alpha = ACS_Migration), edge_color = "royalblue") + 
  geom_node_text(aes(label = name), size = 2) +
  theme_void() +
  theme(legend.position = "none")