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mirror of https://github.com/Llewellynvdm/starship.git synced 2024-11-11 07:40:57 +00:00
starship/src/config.rs
2022-11-05 12:40:46 +01:00

899 lines
29 KiB
Rust

use crate::configs::Palette;
use crate::context::Context;
use crate::serde_utils::ValueDeserializer;
use crate::utils;
use nu_ansi_term::Color;
use serde::{
de::value::Error as ValueError, de::Error as SerdeError, Deserialize, Deserializer, Serialize,
};
use std::borrow::Cow;
use std::clone::Clone;
use std::collections::HashMap;
use std::io::ErrorKind;
use std::env;
use toml::Value;
/// Root config of a module.
pub trait ModuleConfig<'a, E>
where
Self: Default,
E: SerdeError,
{
/// Construct a `ModuleConfig` from a toml value.
fn from_config(config: &'a Value) -> Result<Self, E>;
/// Loads the TOML value into the config.
/// Missing values are set to their default values.
/// On error, logs an error message.
fn load(config: &'a Value) -> Self {
match Self::from_config(config) {
Ok(config) => config,
Err(e) => {
log::warn!("Failed to load config value: {}", e);
Self::default()
}
}
}
/// Helper function that will call `ModuleConfig::from_config(config) if config is Some,
/// or `ModuleConfig::default()` if config is None.
fn try_load(config: Option<&'a Value>) -> Self {
config.map(Self::load).unwrap_or_default()
}
}
impl<'a, T: Deserialize<'a> + Default> ModuleConfig<'a, ValueError> for T {
/// Create `ValueDeserializer` wrapper and use it to call `Deserialize::deserialize` on it.
fn from_config(config: &'a Value) -> Result<Self, ValueError> {
let deserializer = ValueDeserializer::new(config);
T::deserialize(deserializer)
}
}
#[derive(Clone, Deserialize, Serialize)]
#[cfg_attr(
feature = "config-schema",
derive(schemars::JsonSchema),
schemars(deny_unknown_fields)
)]
#[serde(untagged)]
pub enum Either<A, B> {
First(A),
Second(B),
}
/// A wrapper around `Vec<T>` that implements `ModuleConfig`, and either
/// accepts a value of type `T` or a list of values of type `T`.
#[derive(Clone, Default, Serialize)]
pub struct VecOr<T>(pub Vec<T>);
impl<'de, T> Deserialize<'de> for VecOr<T>
where
T: Deserialize<'de>,
{
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where
D: Deserializer<'de>,
{
let either = Either::<Vec<T>, T>::deserialize(deserializer)?;
match either {
Either::First(v) => Ok(Self(v)),
Either::Second(s) => Ok(Self(vec![s])),
}
}
}
#[cfg(feature = "config-schema")]
impl<T> schemars::JsonSchema for VecOr<T>
where
T: schemars::JsonSchema + Sized,
{
fn schema_name() -> String {
Either::<T, Vec<T>>::schema_name()
}
fn json_schema(gen: &mut schemars::gen::SchemaGenerator) -> schemars::schema::Schema {
Either::<T, Vec<T>>::json_schema(gen)
}
fn is_referenceable() -> bool {
Either::<T, Vec<T>>::is_referenceable()
}
}
/// Root config of starship.
pub struct StarshipConfig {
pub config: Option<Value>,
}
pub fn get_config_path() -> Option<String> {
if let Ok(path) = env::var("STARSHIP_CONFIG") {
// Use $STARSHIP_CONFIG as the config path if available
log::debug!("STARSHIP_CONFIG is set: {}", &path);
Some(path)
} else {
// Default to using ~/.config/starship.toml
log::debug!("STARSHIP_CONFIG is not set");
let config_path = utils::home_dir()?.join(".config/starship.toml");
let config_path_str = config_path.to_str()?.to_owned();
log::debug!("Using default config path: {}", config_path_str);
Some(config_path_str)
}
}
impl StarshipConfig {
/// Initialize the Config struct
pub fn initialize() -> Self {
if let Some(file_data) = Self::config_from_file() {
Self {
config: Some(file_data),
}
} else {
Self {
config: Some(Value::Table(toml::value::Table::new())),
}
}
}
/// Create a config from a starship configuration file
fn config_from_file() -> Option<Value> {
let file_path = get_config_path()?;
let toml_content = match utils::read_file(file_path) {
Ok(content) => {
log::trace!("Config file content: \"\n{}\"", &content);
Some(content)
}
Err(e) => {
let level = if e.kind() == ErrorKind::NotFound {
log::Level::Debug
} else {
log::Level::Error
};
log::log!(level, "Unable to read config file content: {}", &e);
None
}
}?;
match toml::from_str(&toml_content) {
Ok(parsed) => {
log::debug!("Config parsed: {:?}", &parsed);
Some(parsed)
}
Err(error) => {
log::error!("Unable to parse the config file: {}", error);
None
}
}
}
/// Get the subset of the table for a module by its name
pub fn get_module_config(&self, module_name: &str) -> Option<&Value> {
let module_config = self.get_config(&[module_name]);
if module_config.is_some() {
log::debug!(
"Config found for \"{}\": {:?}",
&module_name,
&module_config
);
}
module_config
}
/// Get the value of the config in a specific path
pub fn get_config(&self, path: &[&str]) -> Option<&Value> {
let mut prev_table = self.config.as_ref()?.as_table()?;
assert_ne!(
path.len(),
0,
"Starship::get_config called with an empty path"
);
let (table_options, _) = path.split_at(path.len() - 1);
// Assumes all keys except the last in path has a table
for option in table_options {
match prev_table.get(*option) {
Some(value) => match value.as_table() {
Some(value) => {
prev_table = value;
}
None => {
log::trace!(
"No config found for \"{}\": \"{}\" is not a table",
path.join("."),
&option
);
return None;
}
},
None => {
log::trace!(
"No config found for \"{}\": Option \"{}\" not found",
path.join("."),
&option
);
return None;
}
}
}
let last_option = path.last().unwrap();
let value = prev_table.get(*last_option);
if value.is_none() {
log::trace!(
"No config found for \"{}\": Option \"{}\" not found",
path.join("."),
&last_option
);
};
value
}
/// Get the subset of the table for a custom module by its name
pub fn get_custom_module_config(&self, module_name: &str) -> Option<&Value> {
let module_config = self.get_config(&["custom", module_name]);
if module_config.is_some() {
log::debug!(
"Custom config found for \"{}\": {:?}",
&module_name,
&module_config
);
}
module_config
}
/// Get the table of all the registered custom modules, if any
pub fn get_custom_modules(&self) -> Option<&toml::value::Table> {
self.get_config(&["custom"])?.as_table()
}
/// Get the table of all the registered `env_var` modules, if any
pub fn get_env_var_modules(&self) -> Option<&toml::value::Table> {
self.get_config(&["env_var"])?.as_table()
}
}
/// Deserialize a style string in the starship format with serde
pub fn deserialize_style<'de, D>(de: D) -> Result<nu_ansi_term::Style, D::Error>
where
D: Deserializer<'de>,
{
Cow::<'_, str>::deserialize(de).and_then(|s| {
parse_style_string(s.as_ref(), None).ok_or_else(|| D::Error::custom("Invalid style string"))
})
}
/** Parse a style string which represents an ansi style. Valid tokens in the style
string include the following:
- 'fg:<color>' (specifies that the color read should be a foreground color)
- 'bg:<color>' (specifies that the color read should be a background color)
- 'underline'
- 'bold'
- 'italic'
- 'inverted'
- 'blink'
- '<color>' (see the `parse_color_string` doc for valid color strings)
*/
pub fn parse_style_string(
style_string: &str,
context: Option<&Context>,
) -> Option<nu_ansi_term::Style> {
style_string
.split_whitespace()
.fold(Some(nu_ansi_term::Style::new()), |maybe_style, token| {
maybe_style.and_then(|style| {
let token = token.to_lowercase();
// Check for FG/BG identifiers and strip them off if appropriate
// If col_fg is true, color the foreground. If it's false, color the background.
let (token, col_fg) = if token.as_str().starts_with("fg:") {
(token.trim_start_matches("fg:").to_owned(), true)
} else if token.as_str().starts_with("bg:") {
(token.trim_start_matches("bg:").to_owned(), false)
} else {
(token, true) // Bare colors are assumed to color the foreground
};
match token.as_str() {
"underline" => Some(style.underline()),
"bold" => Some(style.bold()),
"italic" => Some(style.italic()),
"dimmed" => Some(style.dimmed()),
"inverted" => Some(style.reverse()),
"blink" => Some(style.blink()),
"hidden" => Some(style.hidden()),
"strikethrough" => Some(style.strikethrough()),
// When the string is supposed to be a color:
// Decide if we yield none, reset background or set color.
color_string => {
if color_string == "none" && col_fg {
None // fg:none yields no style.
} else {
// Either bg or valid color or both.
let parsed = parse_color_string(
color_string,
context.and_then(|x| {
get_palette(
&x.root_config.palettes,
x.root_config.palette.as_deref(),
)
}),
);
// bg + invalid color = reset the background to default.
if !col_fg && parsed.is_none() {
let mut new_style = style;
new_style.background = Option::None;
Some(new_style)
} else {
// Valid color, apply color to either bg or fg
parsed.map(|ansi_color| {
if col_fg {
style.fg(ansi_color)
} else {
style.on(ansi_color)
}
})
}
}
}
}
})
})
}
/** Parse a string that represents a color setting, returning None if this fails
There are three valid color formats:
- #RRGGBB (a hash followed by an RGB hex)
- u8 (a number from 0-255, representing an ANSI color)
- colstring (one of the 16 predefined color strings or a custom user-defined color)
*/
fn parse_color_string(
color_string: &str,
palette: Option<&Palette>,
) -> Option<nu_ansi_term::Color> {
// Parse RGB hex values
log::trace!("Parsing color_string: {}", color_string);
if color_string.starts_with('#') {
log::trace!(
"Attempting to read hexadecimal color string: {}",
color_string
);
if color_string.len() != 7 {
log::debug!("Could not parse hexadecimal string: {}", color_string);
return None;
}
let r: u8 = u8::from_str_radix(&color_string[1..3], 16).ok()?;
let g: u8 = u8::from_str_radix(&color_string[3..5], 16).ok()?;
let b: u8 = u8::from_str_radix(&color_string[5..7], 16).ok()?;
log::trace!("Read RGB color string: {},{},{}", r, g, b);
return Some(Color::Rgb(r, g, b));
}
// Parse a u8 (ansi color)
if let Result::Ok(ansi_color_num) = color_string.parse::<u8>() {
log::trace!("Read ANSI color string: {}", ansi_color_num);
return Some(Color::Fixed(ansi_color_num));
}
// Check palette for a matching user-defined color
if let Some(palette_color) = palette.as_ref().and_then(|x| x.get(color_string)) {
log::trace!(
"Read user-defined color string: {} defined as {}",
color_string,
palette_color
);
return parse_color_string(palette_color, None);
}
// Check for any predefined color strings
// There are no predefined enums for bright colors, so we use Color::Fixed
let predefined_color = match color_string.to_lowercase().as_str() {
"black" => Some(Color::Black),
"red" => Some(Color::Red),
"green" => Some(Color::Green),
"yellow" => Some(Color::Yellow),
"blue" => Some(Color::Blue),
"purple" => Some(Color::Purple),
"cyan" => Some(Color::Cyan),
"white" => Some(Color::White),
"bright-black" => Some(Color::DarkGray), // "bright-black" is dark grey
"bright-red" => Some(Color::LightRed),
"bright-green" => Some(Color::LightGreen),
"bright-yellow" => Some(Color::LightYellow),
"bright-blue" => Some(Color::LightBlue),
"bright-purple" => Some(Color::LightPurple),
"bright-cyan" => Some(Color::LightCyan),
"bright-white" => Some(Color::LightGray),
_ => None,
};
if predefined_color.is_some() {
log::trace!("Read predefined color: {}", color_string);
} else {
log::debug!("Could not parse color in string: {}", color_string);
}
predefined_color
}
fn get_palette<'a>(
palettes: &'a HashMap<String, Palette>,
palette_name: Option<&str>,
) -> Option<&'a Palette> {
if let Some(palette_name) = palette_name {
let palette = palettes.get(palette_name);
if palette.is_some() {
log::trace!("Found color palette: {}", palette_name);
} else {
log::warn!("Could not find color palette: {}", palette_name);
}
palette
} else {
log::trace!("No color palette specified, using defaults");
None
}
}
#[cfg(test)]
mod tests {
use super::*;
use nu_ansi_term::Style;
// Small wrapper to allow deserializing Style without a struct with #[serde(deserialize_with=)]
#[derive(Default, Clone, Debug, PartialEq)]
struct StyleWrapper(Style);
impl<'de> Deserialize<'de> for StyleWrapper {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where
D: Deserializer<'de>,
{
deserialize_style(deserializer).map(Self)
}
}
#[test]
fn test_load_config() {
#[derive(Clone, Default, Deserialize)]
struct TestConfig<'a> {
pub symbol: &'a str,
pub disabled: bool,
pub some_array: Vec<&'a str>,
}
let config = toml::toml! {
symbol = "T "
disabled = true
some_array = ["A"]
};
let rust_config = TestConfig::from_config(&config).unwrap();
assert_eq!(rust_config.symbol, "T ");
assert!(rust_config.disabled);
assert_eq!(rust_config.some_array, vec!["A"]);
}
#[test]
fn test_load_nested_config() {
#[derive(Clone, Default, Deserialize)]
#[serde(default)]
struct TestConfig<'a> {
#[serde(borrow)]
pub untracked: SegmentDisplayConfig<'a>,
#[serde(borrow)]
pub modified: SegmentDisplayConfig<'a>,
}
#[derive(PartialEq, Debug, Clone, Default, Deserialize)]
#[serde(default)]
struct SegmentDisplayConfig<'a> {
pub value: &'a str,
#[serde(deserialize_with = "deserialize_style")]
pub style: Style,
}
let config = toml::toml! {
untracked.value = "x"
modified = { value = "", style = "red" }
};
let git_status_config = TestConfig::from_config(&config).unwrap();
assert_eq!(
git_status_config.untracked,
SegmentDisplayConfig {
value: "x",
style: Style::default(),
}
);
assert_eq!(
git_status_config.modified,
SegmentDisplayConfig {
value: "",
style: Color::Red.normal(),
}
);
}
#[test]
fn test_load_optional_config() {
#[derive(Clone, Default, Deserialize)]
#[serde(default)]
struct TestConfig<'a> {
pub optional: Option<&'a str>,
pub hidden: Option<&'a str>,
}
let config = toml::toml! {
optional = "test"
};
let rust_config = TestConfig::from_config(&config).unwrap();
assert_eq!(rust_config.optional, Some("test"));
assert_eq!(rust_config.hidden, None);
}
#[test]
fn test_load_enum_config() {
#[derive(Clone, Default, Deserialize)]
#[serde(default)]
struct TestConfig {
pub switch_a: Switch,
pub switch_b: Switch,
pub switch_c: Switch,
}
#[derive(Debug, PartialEq, Clone)]
enum Switch {
On,
Off,
}
impl<'de> Deserialize<'de> for Switch {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where
D: Deserializer<'de>,
{
let s = String::deserialize(deserializer)?;
match s.to_ascii_lowercase().as_str() {
"on" => Ok(Self::On),
_ => Ok(Self::Off),
}
}
}
impl Default for Switch {
fn default() -> Self {
Self::Off
}
}
let config = toml::toml! {
switch_a = "on"
switch_b = "any"
};
let rust_config = TestConfig::from_config(&config).unwrap();
assert_eq!(rust_config.switch_a, Switch::On);
assert_eq!(rust_config.switch_b, Switch::Off);
assert_eq!(rust_config.switch_c, Switch::Off);
}
#[test]
fn test_from_string() {
let config = Value::String(String::from("S"));
assert_eq!(<&str>::from_config(&config).unwrap(), "S");
}
#[test]
fn test_from_bool() {
let config = Value::Boolean(true);
assert!(<bool>::from_config(&config).unwrap());
}
#[test]
fn test_from_i64() {
let config = Value::Integer(42);
assert_eq!(<i64>::from_config(&config).unwrap(), 42);
}
#[test]
fn test_from_style() {
let config = Value::from("red bold");
assert_eq!(
<StyleWrapper>::from_config(&config).unwrap().0,
Color::Red.bold()
);
}
#[test]
fn test_from_hex_color_style() {
let config = Value::from("#00000");
assert!(<StyleWrapper>::from_config(&config).is_err());
let config = Value::from("#0000000");
assert!(<StyleWrapper>::from_config(&config).is_err());
let config = Value::from("#NOTHEX");
assert!(<StyleWrapper>::from_config(&config).is_err());
let config = Value::from("#a12BcD");
assert_eq!(
<StyleWrapper>::from_config(&config).unwrap().0,
Color::Rgb(0xA1, 0x2B, 0xCD).into()
);
}
#[test]
fn test_from_vec() {
let config: Value = Value::Array(vec![Value::from("S")]);
assert_eq!(<Vec<&str>>::from_config(&config).unwrap(), vec!["S"]);
}
#[test]
fn test_from_option() {
let config: Value = Value::String(String::from("S"));
assert_eq!(<Option<&str>>::from_config(&config).unwrap(), Some("S"));
}
#[test]
fn table_get_styles_bold_italic_underline_green_dimmed_silly_caps() {
let config = Value::from("bOlD ItAlIc uNdErLiNe GrEeN diMMeD");
let mystyle = <StyleWrapper>::from_config(&config).unwrap().0;
assert!(mystyle.is_bold);
assert!(mystyle.is_italic);
assert!(mystyle.is_underline);
assert!(mystyle.is_dimmed);
assert_eq!(
mystyle,
nu_ansi_term::Style::new()
.bold()
.italic()
.underline()
.dimmed()
.fg(Color::Green)
);
}
#[test]
fn table_get_styles_bold_italic_underline_green_dimmed_inverted_silly_caps() {
let config = Value::from("bOlD ItAlIc uNdErLiNe GrEeN diMMeD InVeRTed");
let mystyle = <StyleWrapper>::from_config(&config).unwrap().0;
assert!(mystyle.is_bold);
assert!(mystyle.is_italic);
assert!(mystyle.is_underline);
assert!(mystyle.is_dimmed);
assert!(mystyle.is_reverse);
assert_eq!(
mystyle,
nu_ansi_term::Style::new()
.bold()
.italic()
.underline()
.dimmed()
.reverse()
.fg(Color::Green)
);
}
#[test]
fn table_get_styles_bold_italic_underline_green_dimmed_blink_silly_caps() {
let config = Value::from("bOlD ItAlIc uNdErLiNe GrEeN diMMeD bLiNk");
let mystyle = <StyleWrapper>::from_config(&config).unwrap().0;
assert!(mystyle.is_bold);
assert!(mystyle.is_italic);
assert!(mystyle.is_underline);
assert!(mystyle.is_dimmed);
assert!(mystyle.is_blink);
assert_eq!(
mystyle,
nu_ansi_term::Style::new()
.bold()
.italic()
.underline()
.dimmed()
.blink()
.fg(Color::Green)
);
}
#[test]
fn table_get_styles_bold_italic_underline_green_dimmed_hidden_silly_caps() {
let config = Value::from("bOlD ItAlIc uNdErLiNe GrEeN diMMeD hIDDen");
let mystyle = <StyleWrapper>::from_config(&config).unwrap().0;
assert!(mystyle.is_bold);
assert!(mystyle.is_italic);
assert!(mystyle.is_underline);
assert!(mystyle.is_dimmed);
assert!(mystyle.is_hidden);
assert_eq!(
mystyle,
nu_ansi_term::Style::new()
.bold()
.italic()
.underline()
.dimmed()
.hidden()
.fg(Color::Green)
);
}
#[test]
fn table_get_styles_bold_italic_underline_green_dimmed_strikethrough_silly_caps() {
let config = Value::from("bOlD ItAlIc uNdErLiNe GrEeN diMMeD StRiKEthROUgh");
let mystyle = <StyleWrapper>::from_config(&config).unwrap().0;
assert!(mystyle.is_bold);
assert!(mystyle.is_italic);
assert!(mystyle.is_underline);
assert!(mystyle.is_dimmed);
assert!(mystyle.is_strikethrough);
assert_eq!(
mystyle,
nu_ansi_term::Style::new()
.bold()
.italic()
.underline()
.dimmed()
.strikethrough()
.fg(Color::Green)
);
}
#[test]
fn table_get_styles_plain_and_broken_styles() {
// Test a "plain" style with no formatting
let config = Value::from("");
let plain_style = <StyleWrapper>::from_config(&config).unwrap().0;
assert_eq!(plain_style, nu_ansi_term::Style::new());
// Test a string that's clearly broken
let config = Value::from("djklgfhjkldhlhk;j");
assert!(<StyleWrapper>::from_config(&config).is_err());
// Test a string that's nullified by `none`
let config = Value::from("fg:red bg:green bold none");
assert!(<StyleWrapper>::from_config(&config).is_err());
// Test a string that's nullified by `none` at the start
let config = Value::from("none fg:red bg:green bold");
assert!(<StyleWrapper>::from_config(&config).is_err());
}
#[test]
fn table_get_styles_with_none() {
// Test that none on the end will result in None, overriding bg:none
let config = Value::from("fg:red bg:none none");
assert!(<StyleWrapper>::from_config(&config).is_err());
// Test that none in front will result in None, overriding bg:none
let config = Value::from("none fg:red bg:none");
assert!(<StyleWrapper>::from_config(&config).is_err());
// Test that none in the middle will result in None, overriding bg:none
let config = Value::from("fg:red none bg:none");
assert!(<StyleWrapper>::from_config(&config).is_err());
// Test that fg:none will result in None
let config = Value::from("fg:none bg:black");
assert!(<StyleWrapper>::from_config(&config).is_err());
// Test that bg:none will yield a style
let config = Value::from("fg:red bg:none");
assert_eq!(
<StyleWrapper>::from_config(&config).unwrap().0,
Color::Red.normal()
);
// Test that bg:none will yield a style
let config = Value::from("fg:red bg:none bold");
assert_eq!(
<StyleWrapper>::from_config(&config).unwrap().0,
Color::Red.bold()
);
// Test that bg:none will overwrite the previous background colour
let config = Value::from("fg:red bg:green bold bg:none");
assert_eq!(
<StyleWrapper>::from_config(&config).unwrap().0,
Color::Red.bold()
);
}
#[test]
fn table_get_styles_ordered() {
// Test a background style with inverted order (also test hex + ANSI)
let config = Value::from("bg:#050505 underline fg:120");
let flipped_style = <StyleWrapper>::from_config(&config).unwrap().0;
assert_eq!(
flipped_style,
Style::new()
.underline()
.fg(Color::Fixed(120))
.on(Color::Rgb(5, 5, 5))
);
// Test that the last color style is always the one used
let config = Value::from("bg:120 bg:125 bg:127 fg:127 122 125");
let multi_style = <StyleWrapper>::from_config(&config).unwrap().0;
assert_eq!(
multi_style,
Style::new().fg(Color::Fixed(125)).on(Color::Fixed(127))
);
}
#[test]
fn table_get_colors_palette() {
// Test using colors defined in palette
let mut palette = Palette::new();
palette.insert("mustard".to_string(), "#af8700".to_string());
palette.insert("sky-blue".to_string(), "51".to_string());
palette.insert("red".to_string(), "#d70000".to_string());
palette.insert("blue".to_string(), "17".to_string());
palette.insert("green".to_string(), "green".to_string());
assert_eq!(
parse_color_string("mustard", Some(&palette)),
Some(Color::Rgb(175, 135, 0))
);
assert_eq!(
parse_color_string("sky-blue", Some(&palette)),
Some(Color::Fixed(51))
);
// Test overriding predefined colors
assert_eq!(
parse_color_string("red", Some(&palette)),
Some(Color::Rgb(215, 0, 0))
);
assert_eq!(
parse_color_string("blue", Some(&palette)),
Some(Color::Fixed(17))
);
// Test overriding a predefined color with itself
assert_eq!(
parse_color_string("green", Some(&palette)),
Some(Color::Green)
)
}
#[test]
fn table_get_palette() {
// Test retrieving color palette by name
let mut palette1 = Palette::new();
palette1.insert("test-color".to_string(), "123".to_string());
let mut palette2 = Palette::new();
palette2.insert("test-color".to_string(), "#ABCDEF".to_string());
let mut palettes = HashMap::<String, Palette>::new();
palettes.insert("palette1".to_string(), palette1);
palettes.insert("palette2".to_string(), palette2);
assert_eq!(
get_palette(&palettes, Some("palette1"))
.unwrap()
.get("test-color")
.unwrap(),
"123"
);
assert_eq!(
get_palette(&palettes, Some("palette2"))
.unwrap()
.get("test-color")
.unwrap(),
"#ABCDEF"
);
// Test retrieving nonexistent color palette
assert!(get_palette(&palettes, Some("palette3")).is_none());
// Test default behavior
assert!(get_palette(&palettes, None).is_none());
}
}