test_that("names of values used in manual scales", { s1 <- scale_colour_manual(values = c("8" = "c", "4" = "a", "6" = "b")) s1$train(c("4", "6", "8")) expect_equal(s1$map(c("4", "6", "8")), c("a", "b", "c")) s2 <- scale_colour_manual(values = c("8" = "c", "4" = "a", "6" = "b"), na.value = NA) s2$train(c("4", "8")) expect_equal(s2$map(c("4", "6", "8")), c("a", NA, "c")) }) dat <- data_frame(g = c("B","A","A")) p <- ggplot(dat, aes(g, fill = g)) + geom_bar() col <- c("A" = "red", "B" = "green", "C" = "blue") cols <- function(x) ggplot_build(x)$data[[1]][, "fill"] test_that("named values work regardless of order", { fill_scale <- function(order) scale_fill_manual(values = col[order], na.value = "black") # Order of value vector shouldn't matter expect_equal(cols(p + fill_scale(1:3)), c("red", "green")) expect_equal(cols(p + fill_scale(1:2)), c("red", "green")) expect_equal(cols(p + fill_scale(2:1)), c("red", "green")) expect_equal(cols(p + fill_scale(c(3, 2, 1))), c("red", "green")) expect_equal(cols(p + fill_scale(c(3, 1, 2))), c("red", "green")) expect_equal(cols(p + fill_scale(c(1, 3, 2))), c("red", "green")) }) test_that("missing values are replaced with na.value", { df <- data_frame(x = 1, y = 1:3, z = factor(c(1:2, NA), exclude = NULL)) p <- ggplot(df, aes(x, y, colour = z)) + geom_point() + scale_colour_manual(values = c("black", "black"), na.value = "red") expect_equal(layer_data(p)$colour, c("black", "black", "red")) }) test_that("insufficient values raise an error", { df <- data_frame(x = 1, y = 1:3, z = factor(c(1:2, NA), exclude = NULL)) p <- ggplot(df, aes(x, y, colour = z)) + geom_point() expect_error(ggplot_build(p + scale_colour_manual(values = "black")), "Insufficient values") # Should be sufficient ggplot_build(p + scale_colour_manual(values = c("black", "black"))) }) test_that("values are matched when scale contains more unique values than are in the data", { s <- scale_colour_manual(values = c("8" = "c", "4" = "a", "22" = "d", "6" = "b")) s$train(c("4", "6", "8")) expect_equal(s$map(c("4", "6", "8")), c("a", "b", "c")) }) test_that("generic scale can be used in place of aesthetic-specific scales", { df <- data_frame(x = letters[1:3], y = LETTERS[1:3], z = factor(c(1, 2, 3))) p1 <- ggplot(df, aes(z, z, shape = x, color = y, alpha = z)) + scale_shape_manual(values = 1:3) + scale_colour_manual(values = c("red", "green", "blue")) + scale_alpha_manual(values = c(0.2, 0.4, 0.6)) p2 <- ggplot(df, aes(z, z, shape = x, color = y, alpha = z)) + scale_discrete_manual(aesthetics = "shape", values = 1:3) + scale_discrete_manual(aesthetics = "colour", values = c("red", "green", "blue")) + scale_discrete_manual(aesthetics = "alpha", values = c(0.2, 0.4, 0.6)) expect_equal(layer_data(p1), layer_data(p2)) }) test_that("named values do not match with breaks in manual scales", { s <- scale_fill_manual( values = c("data_red" = "red", "data_black" = "black"), breaks = c("data_black", "data_red") ) s$train(c("data_black", "data_red")) expect_equal(s$map(c("data_red", "data_black")), c("red", "black")) }) test_that("unnamed values match breaks in manual scales", { s <- scale_fill_manual( values = c("red", "black"), breaks = c("data_red", "data_black") ) s$train(c("data_red", "data_black")) expect_equal(s$map(c("data_red", "data_black")), c("red", "black")) }) test_that("limits works (#3262)", { # named character vector s1 <- scale_colour_manual(values = c("8" = "c", "4" = "a", "6" = "b"), limits = c("4", "8"), na.value = NA) s1$train(c("4", "6", "8")) expect_equal(s1$map(c("4", "6", "8")), c("a", NA, "c")) # unnamed character vector s2 <- scale_colour_manual(values = c("c", "a", "b"), limits = c("4", "8"), na.value = NA) s2$train(c("4", "6", "8")) expect_equal(s2$map(c("4", "6", "8")), c("c", NA, "a")) }) test_that("fewer values (#3451)", { # named character vector s1 <- scale_colour_manual(values = c("4" = "a", "8" = "c"), na.value = NA) s1$train(c("4", "6", "8")) expect_equal(s1$map(c("4", "6", "8")), c("a", NA, "c")) # unnamed character vector s2 <- scale_colour_manual(values = c("4", "8"), na.value = NA) s2$train(c("4", "6", "8")) expect_error(s2$map(c("4", "6", "8")), "Insufficient values") }) test_that("limits and breaks (#4619)", { # values don't change legend order s1 <- scale_colour_manual( values = c("8" = "c", "4" = "a", "6" = "b") ) s1$train(c("8", "6", "4")) expect_equal(s1$map(c("8", "6", "4")), c("c", "b", "a")) expect_equal(s1$break_positions(), c("a", "b", "c")) # limits change legend order s2 <- scale_colour_manual( values = c("8" = "c", "4" = "a", "6" = "b", "0" = "x"), limits = c("0", "4", "6", "8") ) s2$train(c("8", "6", "4")) expect_equal(s2$map(c("4", "6", "8")), c("a", "b", "c")) expect_equal(s2$break_positions(), c("x", "a", "b", "c")) # breaks work s3 <- scale_colour_manual( values = c("8" = "c", "4" = "a", "6" = "b"), breaks = c("4", "8") ) s3$train(c("4", "6", "8")) expect_equal(s3$map(c("4", "6", "8")), c("a", "b", "c")) expect_equal(s3$break_positions(), c("a", "c")) })