## ----include = FALSE----------------------------------------------------------
knitr::opts_chunk$set(
  eval = FALSE,
  collapse = TRUE,
  comment = "#>"
)

## ----setup--------------------------------------------------------------------
#  library(stplanr)
#  library(sf)
#  library(dplyr)
#  library(tmap)
#  library(parallel)
#  library(cyclestreets)

## -----------------------------------------------------------------------------
#  # ?route
#  l = flowlines_sf %>%
#    dplyr::filter()
#  t1 = Sys.time()
#  routes_route_cyclestreet = line2route(l)
#  Sys.time() - t1
#  ncol(routes_route_cyclestreet)
#  nrow(routes_route_cyclestreet)
#  names(routes_route_cyclestreet)
#  routes_route_cyclestreet_joined = dplyr::inner_join(routes_route_cyclestreet, sf::st_drop_geometry(l))
#  Sys.time() - t1
#  rnet_go_dutch = overline(routes_route_cyclestreet_joined, "All")
#  Sys.time() - t1
#  tm_shape(rnet_go_dutch) +
#    tm_lines(lwd = 5, col = "All", breaks = c(0, 10, 100, 500, 1000), palette = "viridis")

## -----------------------------------------------------------------------------
#  # ?route
#  t1 = Sys.time()
#  routes_journey = route(l = l, route_fun = cyclestreets::journey)
#  ncol(routes_journey)
#  nrow(routes_journey)
#  
#  Sys.time() - t1
#  names(routes_journey)
#  rnet_go_dutch_journey = overline(routes_journey, "All")
#  Sys.time() - t1
#  rnet_go_dutch_agg = overline(routes_journey, "All")
#  Sys.time() - t1
#  tm_shape(rnet_go_dutch_agg) +
#    tm_lines(lwd = 5, col = "All", breaks = c(0, 10, 100, 500, 1000), palette = "viridis")

## -----------------------------------------------------------------------------
#  # ?route
#  t1 = Sys.time()
#  
#  
#  # load parallel stuff
#  cl <- makeCluster(detectCores())
#  clusterExport(cl, c("journey"))
#  Sys.time() - t1
#  routes_journey_par = route(l = l, route_fun = cyclestreets::journey, cl = cl) # multi-core
#  stopCluster(cl) # kill cluster
#  
#  Sys.time() - t1
#  Sys.time() - t1
#  names(routes_journey_par)
#  rnet_go_dutch_journey = overline(routes_journey_par, "All")
#  Sys.time() - t1
#  rnet_go_dutch_agg = overline(routes_journey_par, "All")
#  Sys.time() - t1
#  tm_shape(rnet_go_dutch_agg) +
#    tm_lines(lwd = 5, col = "All", breaks = c(0, 10, 100, 500, 1000), palette = "viridis")

## -----------------------------------------------------------------------------
#  # ?route
#  t1 = Sys.time()
#  
#  
#  # load parallel stuff
#  library(parallel)
#  library(cyclestreets)
#  cl <- makeCluster(detectCores())
#  clusterExport(cl, c("journey"))
#  Sys.time() - t1
#  routes_journey_par = route(l = l, route_fun = cyclestreets::journey, cl = cl, plan = "quietest") # multi-core
#  stopCluster(cl) # kill cluster
#  
#  Sys.time() - t1
#  Sys.time() - t1
#  names(routes_journey_par)
#  rnet_go_dutch_journey = overline(routes_journey_par, "All")
#  Sys.time() - t1
#  rnet_go_dutch_agg = overline(routes_journey_par, "All")
#  Sys.time() - t1
#  tm_shape(rnet_go_dutch_agg) +
#    tm_lines(lwd = 5, col = "All", breaks = c(0, 10, 100, 500, 1000), palette = "viridis")

## -----------------------------------------------------------------------------
#  routes_journey_aggregated = routes_journey %>% # already has data from data frame in there!
#    group_by(id) %>%
#    summarise(All = median(All)) %>%
#    sf::st_cast("LINESTRING")
#  
#  
#  rnet_journey_dplyr = routes_journey %>% # already has data from data frame in there!
#    group_by(name, distances) %>%
#    summarise(All = sum(All))
#  Sys.time() - t1
#  tm_shape(rnet_journey_dplyr) +
#    tm_lines(lwd = 5, col = "All", breaks = c(0, 10, 100, 500, 1000), palette = "viridis") # quite different...
#  
#  
#  rnet_journey_go_dutch = routes_journey %>%
#    group_by(start_longitude, start_latitude, finish_longitude, finish_latitude) %>%
#    summarise(All = sum(All))
#  
#