tests/testthat/test-calc_annual_stats.R
In bcgov/fasstr: Analyze, Summarize, and Visualize Daily Streamflow Data
context("Calc annual stats")
test_that("creates a dataframe with the proper columns", {
skip_on_cran()
skip_on_ci()
data <- calc_annual_stats(station_number = "08NM116", start_year = 1980)
expect_true(is.data.frame(data) &
all(c("Year","Mean","Median","Maximum","Minimum","P10","P90") %in% colnames(data)))
})
test_that("outputs data for two stations", {
skip_on_cran()
skip_on_ci()
data <- calc_annual_stats(station_number = c("08NM116","08HB048"), start_year = 1980)
expect_true(length(unique(data$STATION_NUMBER)) == 2)
})
test_that("creates a dataframe with custom columns", {
skip_on_cran()
skip_on_ci()
data <- calc_annual_stats(station_number = "08NM116", start_year = 1980,
percentiles = c(25,75))
expect_true(all(c("P25","P75") %in% colnames(data)))
})
test_that("produces NA if there is missing data and warning is produced", {
skip_on_cran()
skip_on_ci()
data <- suppressWarnings(calc_annual_stats(station_number = "08NM116",
ignore_missing = FALSE))
expect_true(any(is.na(data)))
expect_warning(calc_annual_stats(station_number = "08NM116",
ignore_missing = FALSE))
})
test_that("ignore_missing calculates all data", {
skip_on_cran()
skip_on_ci()
data <- calc_annual_stats(station_number = "08NM116",
ignore_missing = TRUE)
expect_true(any(!is.na(data)))
})
test_that("data is filtered by years properly", {
skip_on_cran()
skip_on_ci()
data <- calc_annual_stats(station_number = "08NM116",
start_year = 1981,
end_year = 2010,
exclude_years = c(1991,1993:1995))
expect_identical(1981, min(data$Year))
expect_identical(2010, max(data$Year))
data_exclude <- dplyr::filter(data, Year %in% c(1991,1993:1995))
expect_true(all(is.na(data_exclude[,3:8])))
})
test_that("data is summarized by water years properly", {
skip_on_cran()
skip_on_ci()
flow_data <- add_date_variables(station_number = "08NM116",
water_year_start = 10)
test_data <- dplyr::filter(flow_data, WaterYear == 1981)
test_data <- dplyr::summarise(test_data,
Mean = mean(Value),
Median = median(Value),
Maximum = max(Value),
Minimum = min(Value))
data <- calc_annual_stats(data = flow_data,
start_year = 1981, end_year = 1990,
water_year_start = 10)
data <- dplyr::filter(data, Year == 1981)
data <- dplyr::select(data, Mean, Median, Maximum, Minimum)
expect_equal(test_data, data)
})
test_that("rolling days are applied properly", {
skip_on_cran()
skip_on_ci()
flow_data <- add_date_variables(station_number = "08NM116")
flow_data <- add_rolling_means(flow_data,
roll_days = 7)
test_data <- dplyr::filter(flow_data, WaterYear == 1981)
test_data <- dplyr::summarise(test_data,
Mean = mean(Q7Day),
Median = median(Q7Day),
Maximum = max(Q7Day),
Minimum = min(Q7Day))
data <- calc_annual_stats(data = flow_data,
start_year = 1981,
roll_days = 7)
data <- dplyr::filter(data, Year == 1981)
data <- dplyr::select(data, Mean, Median, Maximum, Minimum)
expect_equal(test_data, data)
})
test_that("data is filtered by months properly", {
skip_on_cran()
skip_on_ci()
flow_data <- add_date_variables(station_number = "08NM116")
test_data <- dplyr::filter(flow_data,
WaterYear == 1981,
Month %in% 7:9)
test_data <- dplyr::summarise(test_data,
Mean = mean(Value),
Median = median(Value),
Maximum = max(Value),
Minimum = min(Value))
data <- calc_annual_stats(data = flow_data,
start_year = 1981,
months = 7:9)
data <- dplyr::filter(data, Year == 1981)
data <- dplyr::select(data, Mean, Median, Maximum, Minimum)
expect_equal(test_data, data)
})
test_that("transpose properly transposed the results", {
skip_on_cran()
skip_on_ci()
data <- calc_annual_stats(station_number = "08NM116", start_year = 1980,
transpose = TRUE)
expect_true(all(c("Mean","Median","Maximum","Minimum","P10","P90") %in% data$Statistic))
})
bcgov/fasstr documentation built on Oct. 1, 2024, 4:14 p.m.
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context("Calc annual stats")
test_that("creates a dataframe with the proper columns", {
skip_on_cran()
skip_on_ci()
data <- calc_annual_stats(station_number = "08NM116", start_year = 1980)
expect_true(is.data.frame(data) &
all(c("Year","Mean","Median","Maximum","Minimum","P10","P90") %in% colnames(data)))
})
test_that("outputs data for two stations", {
skip_on_cran()
skip_on_ci()
data <- calc_annual_stats(station_number = c("08NM116","08HB048"), start_year = 1980)
expect_true(length(unique(data$STATION_NUMBER)) == 2)
})
test_that("creates a dataframe with custom columns", {
skip_on_cran()
skip_on_ci()
data <- calc_annual_stats(station_number = "08NM116", start_year = 1980,
percentiles = c(25,75))
expect_true(all(c("P25","P75") %in% colnames(data)))
})
test_that("produces NA if there is missing data and warning is produced", {
skip_on_cran()
skip_on_ci()
data <- suppressWarnings(calc_annual_stats(station_number = "08NM116",
ignore_missing = FALSE))
expect_true(any(is.na(data)))
expect_warning(calc_annual_stats(station_number = "08NM116",
ignore_missing = FALSE))
})
test_that("ignore_missing calculates all data", {
skip_on_cran()
skip_on_ci()
data <- calc_annual_stats(station_number = "08NM116",
ignore_missing = TRUE)
expect_true(any(!is.na(data)))
})
test_that("data is filtered by years properly", {
skip_on_cran()
skip_on_ci()
data <- calc_annual_stats(station_number = "08NM116",
start_year = 1981,
end_year = 2010,
exclude_years = c(1991,1993:1995))
expect_identical(1981, min(data$Year))
expect_identical(2010, max(data$Year))
data_exclude <- dplyr::filter(data, Year %in% c(1991,1993:1995))
expect_true(all(is.na(data_exclude[,3:8])))
})
test_that("data is summarized by water years properly", {
skip_on_cran()
skip_on_ci()
flow_data <- add_date_variables(station_number = "08NM116",
water_year_start = 10)
test_data <- dplyr::filter(flow_data, WaterYear == 1981)
test_data <- dplyr::summarise(test_data,
Mean = mean(Value),
Median = median(Value),
Maximum = max(Value),
Minimum = min(Value))
data <- calc_annual_stats(data = flow_data,
start_year = 1981, end_year = 1990,
water_year_start = 10)
data <- dplyr::filter(data, Year == 1981)
data <- dplyr::select(data, Mean, Median, Maximum, Minimum)
expect_equal(test_data, data)
})
test_that("rolling days are applied properly", {
skip_on_cran()
skip_on_ci()
flow_data <- add_date_variables(station_number = "08NM116")
flow_data <- add_rolling_means(flow_data,
roll_days = 7)
test_data <- dplyr::filter(flow_data, WaterYear == 1981)
test_data <- dplyr::summarise(test_data,
Mean = mean(Q7Day),
Median = median(Q7Day),
Maximum = max(Q7Day),
Minimum = min(Q7Day))
data <- calc_annual_stats(data = flow_data,
start_year = 1981,
roll_days = 7)
data <- dplyr::filter(data, Year == 1981)
data <- dplyr::select(data, Mean, Median, Maximum, Minimum)
expect_equal(test_data, data)
})
test_that("data is filtered by months properly", {
skip_on_cran()
skip_on_ci()
flow_data <- add_date_variables(station_number = "08NM116")
test_data <- dplyr::filter(flow_data,
WaterYear == 1981,
Month %in% 7:9)
test_data <- dplyr::summarise(test_data,
Mean = mean(Value),
Median = median(Value),
Maximum = max(Value),
Minimum = min(Value))
data <- calc_annual_stats(data = flow_data,
start_year = 1981,
months = 7:9)
data <- dplyr::filter(data, Year == 1981)
data <- dplyr::select(data, Mean, Median, Maximum, Minimum)
expect_equal(test_data, data)
})
test_that("transpose properly transposed the results", {
skip_on_cran()
skip_on_ci()
data <- calc_annual_stats(station_number = "08NM116", start_year = 1980,
transpose = TRUE)
expect_true(all(c("Mean","Median","Maximum","Minimum","P10","P90") %in% data$Statistic))
})
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