test_that("Discrete scale", {
d <- data.frame(x = 1:5, y = 1:5, z = 21:25, l = letters[1:5])
p <- ggplot2::ggplot(d) +
ggplot2::geom_col(aes(x, y, fill = l))
init <- ggplot2::layer_data(p)$fill
p2 <- p + scale_fill_princess_d()
mod <- ggplot2::layer_data(p2)$fill
expect_true(!any(init %in% mod))
# Alpha
expect_snapshot(p + scale_fill_princess_d(alpha = -1),
error = TRUE
)
p3 <- p + scale_fill_princess_d(alpha = 0.9)
mod_alpha <- ggplot2::layer_data(p3)$fill
expect_true(all(alpha(mod, alpha = 0.9) == mod_alpha))
# Reverse also with alpha
expect_snapshot(p + scale_fill_princess_d(direction = 0.5),
error = TRUE
)
p4 <- p + scale_fill_princess_d(
direction = -1,
alpha = 0.7
)
mod_alpha_rev <- ggplot2::layer_data(p4)$fill
expect_true(
all(rev(alpha(mod, alpha = 0.7)) == mod_alpha_rev)
)
# Change pal
# Create ggplot for each pal, extract colors and check
# that the colors are different on each plot
allpals <- unique(princess_db$pal)
# Get pals
allpals_end <- lapply(allpals, function(x) {
palplot <- p + scale_fill_princess_d(
palette = x
)
mod_pal <- ggplot2::layer_data(palplot)$fill
mod_pal
})
names(allpals_end) <- allpals
allpals_end <- dplyr::bind_rows(allpals_end)
length_cols <- lapply(seq_len(nrow(allpals_end)), function(x) {
length(unique(allpals_end[x, ]))
})
length_cols <- unlist(length_cols)
expect_true(all(length(allpals) == length_cols))
})
test_that("Continous scale", {
d <- data.frame(x = 1:5, y = 1:5, z = 21:25, l = letters[1:5])
p <- ggplot2::ggplot(d) +
ggplot2::geom_col(aes(x, y, fill = z))
init <- ggplot2::layer_data(p)$fill
p2 <- p + scale_fill_princess_c()
mod <- ggplot2::layer_data(p2)$fill
expect_true(!any(init %in% mod))
# Alpha
expect_snapshot(p + scale_fill_princess_c(alpha = -1),
error = TRUE
)
p3 <- p + scale_fill_princess_c(alpha = 0.9)
mod_alpha <- ggplot2::layer_data(p3)$fill
expect_true(all(alpha(mod, alpha = 0.9) == mod_alpha))
# Reverse also with alpha
expect_snapshot(p + scale_fill_princess_c(direction = 0.5),
error = TRUE
)
p4 <- p + scale_fill_princess_c(
direction = -1,
alpha = 0.7
)
mod_alpha_rev <- ggplot2::layer_data(p4)$fill
expect_true(
all(rev(alpha(mod, alpha = 0.7)) == mod_alpha_rev)
)
# Change pal
# Create ggplot for each pal, extract colors and check
# that the colors are different on each plot
allpals <- unique(princess_db$pal)
# Get pals
allpals_end <- lapply(allpals, function(x) {
palplot <- p + scale_fill_princess_c(
palette = x
)
mod_pal <- ggplot2::layer_data(palplot)$fill
mod_pal
})
names(allpals_end) <- allpals
allpals_end <- dplyr::bind_rows(allpals_end)
length_cols <- lapply(seq_len(nrow(allpals_end)), function(x) {
length(unique(allpals_end[x, ]))
})
length_cols <- unlist(length_cols)
expect_true(all(length(allpals) == length_cols))
})
test_that("Breaking scale", {
d <- data.frame(
x = 1:10, y = 1:10,
z = 31:40
)
# Three cuts
br <- c(32, 37)
p_init <- ggplot2::ggplot(d) +
ggplot2::geom_col(aes(x, y, fill = z))
p <- p_init +
ggplot2::scale_fill_viridis_b(breaks = br)
init <- ggplot2::layer_data(p)$fill
expect_true(length(unique(init)) == 3)
p2 <- p_init +
scale_fill_princess_b(breaks = br)
mod <- ggplot2::layer_data(p2)$fill
expect_true(!any(init %in% mod))
expect_true(length(unique(mod)) == 3)
# Alpha
expect_snapshot(p_init + scale_fill_princess_b(alpha = -1),
error = TRUE
)
p3 <- p_init + scale_fill_princess_b(
alpha = 0.9,
breaks = br
)
mod_alpha <- ggplot2::layer_data(p3)$fill
expect_true(all(alpha(mod, alpha = 0.9) == mod_alpha))
expect_true(length(unique(mod_alpha)) == 3)
# Reverse also with alpha
expect_snapshot(p + scale_fill_princess_b(direction = 0.5),
error = TRUE
)
p4 <- p_init + scale_fill_princess_b(
direction = -1,
alpha = 0.7,
breaks = br
)
mod_alpha_rev <- ggplot2::layer_data(p4)$fill
expect_true(length(unique(mod_alpha_rev)) == 3)
# Change pal
# Create ggplot for each pal, extract colors and check
# that the colors are different on each plot
allpals <- unique(princess_db$pal)
# Get pals
allpals_end <- lapply(allpals, function(x) {
palplot <- p_init + scale_fill_princess_b(
palette = x
)
mod_pal <- ggplot2::layer_data(palplot)$fill
mod_pal
})
names(allpals_end) <- allpals
allpals_end <- dplyr::bind_rows(allpals_end)
length_cols <- lapply(seq_len(nrow(allpals_end)), function(x) {
length(unique(allpals_end[x, ]))
})
length_cols <- unlist(length_cols)
expect_true(all(length(allpals) == length_cols))
})
test_that("Palette", {
expect_snapshot(princess.colors(20, "xx"), error = TRUE)
# Check all palettes
allpals <- unique(princess_db$pal)
# Expect character(0)
expect_identical(princess.colors(0), character(0))
for (i in seq_len(length(allpals))) {
pal <- allpals[i]
colors <- princess.colors(20, pal)
expect_identical(
class(colors),
"character"
)
expect_length(colors, 20)
}
})
test_that("Discrete scale col", {
d <- data.frame(x = 1:5, y = 1:5, z = 21:25, l = letters[1:5])
p <- ggplot2::ggplot(d) +
ggplot2::geom_point(aes(x, y, colour = l))
init <- ggplot2::layer_data(p)$colour
p2 <- p + scale_colour_princess_d()
mod <- ggplot2::layer_data(p2)$colour
expect_true(!any(init %in% mod))
p3 <- p + scale_color_princess_d()
mod3 <- ggplot2::layer_data(p3)$colour
expect_identical(mod, mod3)
# Alpha
expect_snapshot(p + scale_colour_princess_d(alpha = -1),
error = TRUE
)
p3 <- p + scale_colour_princess_d(alpha = 0.9)
mod_alpha <- ggplot2::layer_data(p3)$colour
expect_true(all(alpha(mod, alpha = 0.9) == mod_alpha))
# Reverse also with alpha
expect_snapshot(p + scale_colour_princess_d(direction = 0.5),
error = TRUE
)
p4 <- p + scale_colour_princess_d(
direction = -1,
alpha = 0.7
)
mod_alpha_rev <- ggplot2::layer_data(p4)$colour
expect_true(
all(rev(alpha(mod, alpha = 0.7)) == mod_alpha_rev)
)
# Change pal
# Create ggplot for each pal, extract colors and check
# that the colors are different on each plot
allpals <- unique(princess_db$pal)
# Get pals
allpals_end <- lapply(allpals, function(x) {
palplot <- p + scale_colour_princess_d(
palette = x
)
mod_pal <- ggplot2::layer_data(palplot)$colour
mod_pal
})
names(allpals_end) <- allpals
allpals_end <- dplyr::bind_rows(allpals_end)
length_cols <- lapply(seq_len(nrow(allpals_end)), function(x) {
length(unique(allpals_end[x, ]))
})
length_cols <- unlist(length_cols)
expect_true(all(length(allpals) == length_cols))
})
test_that("Continous scale col", {
d <- data.frame(x = 1:5, y = 1:5, z = 21:25, l = letters[1:5])
p <- ggplot2::ggplot(d) +
ggplot2::geom_point(aes(x, y, colour = z))
init <- ggplot2::layer_data(p)$colour
p2 <- p + scale_colour_princess_c()
mod <- ggplot2::layer_data(p2)$colour
expect_true(!any(init %in% mod))
p3 <- p + scale_color_princess_c()
mod3 <- ggplot2::layer_data(p3)$colour
expect_identical(mod, mod3)
# Alpha
expect_snapshot(p + scale_colour_princess_c(alpha = -1),
error = TRUE
)
p3 <- p + scale_colour_princess_c(alpha = 0.9)
mod_alpha <- ggplot2::layer_data(p3)$colour
expect_true(all(alpha(mod, alpha = 0.9) == mod_alpha))
# Reverse also with alpha
expect_snapshot(p + scale_colour_princess_c(direction = 0.5),
error = TRUE
)
p4 <- p + scale_colour_princess_c(
direction = -1,
alpha = 0.7
)
mod_alpha_rev <- ggplot2::layer_data(p4)$colour
expect_true(
all(rev(alpha(mod, alpha = 0.7)) == mod_alpha_rev)
)
# Change pal
# Create ggplot for each pal, extract colors and check
# that the colors are different on each plot
allpals <- unique(princess_db$pal)
# Get pals
allpals_end <- lapply(allpals, function(x) {
palplot <- p + scale_colour_princess_c(
palette = x
)
mod_pal <- ggplot2::layer_data(palplot)$colour
mod_pal
})
names(allpals_end) <- allpals
allpals_end <- dplyr::bind_rows(allpals_end)
length_cols <- lapply(seq_len(nrow(allpals_end)), function(x) {
length(unique(allpals_end[x, ]))
})
length_cols <- unlist(length_cols)
expect_true(all(length(allpals) == length_cols))
})
test_that("Breaking scale col", {
d <- data.frame(
x = 1:10, y = 1:10,
z = 31:40
)
# Three cuts
br <- c(32, 37)
p_init <- ggplot2::ggplot(d) +
ggplot2::geom_point(aes(x, y, colour = z))
p <- p_init +
ggplot2::scale_colour_viridis_b(breaks = br)
init <- ggplot2::layer_data(p)$colour
expect_true(length(unique(init)) == 3)
p2 <- p_init +
scale_colour_princess_b(breaks = br)
mod <- ggplot2::layer_data(p2)$colour
p3 <- p_init +
scale_color_princess_b(breaks = br)
mod3 <- ggplot2::layer_data(p3)$colour
expect_identical(mod, mod3)
expect_true(!any(init %in% mod))
expect_true(length(unique(mod)) == 3)
# Alpha
expect_snapshot(p_init + scale_colour_princess_b(alpha = -1),
error = TRUE
)
p3 <- p_init + scale_colour_princess_b(
alpha = 0.9,
breaks = br
)
mod_alpha <- ggplot2::layer_data(p3)$colour
expect_true(all(alpha(mod, alpha = 0.9) == mod_alpha))
expect_true(length(unique(mod_alpha)) == 3)
# Reverse also with alpha
expect_snapshot(p + scale_colour_princess_b(direction = 0.5),
error = TRUE
)
p4 <- p_init + scale_colour_princess_b(
direction = -1,
alpha = 0.7,
breaks = br
)
mod_alpha_rev <- ggplot2::layer_data(p4)$colour
expect_true(length(unique(mod_alpha_rev)) == 3)
# Change pal
# Create ggplot for each pal, extract colors and check
# that the colors are different on each plot
allpals <- unique(princess_db$pal)
# Get pals
allpals_end <- lapply(allpals, function(x) {
palplot <- p_init + scale_colour_princess_b(
palette = x
)
mod_pal <- ggplot2::layer_data(palplot)$colour
mod_pal
})
names(allpals_end) <- allpals
allpals_end <- dplyr::bind_rows(allpals_end)
length_cols <- lapply(seq_len(nrow(allpals_end)), function(x) {
length(unique(allpals_end[x, ]))
})
length_cols <- unlist(length_cols)
expect_true(all(length(allpals) == length_cols))
})