use crate::common::*; use Function::*; pub(crate) enum Function { Nullary(fn(&FunctionContext) -> Result), Unary(fn(&FunctionContext, &str) -> Result), Binary(fn(&FunctionContext, &str, &str) -> Result), Ternary(fn(&FunctionContext, &str, &str, &str) -> Result), } lazy_static! { pub(crate) static ref TABLE: BTreeMap<&'static str, Function> = vec![ ("arch", Nullary(arch)), ("clean", Unary(clean)), ("env_var", Unary(env_var)), ("env_var_or_default", Binary(env_var_or_default)), ("extension", Unary(extension)), ("file_name", Unary(file_name)), ("file_stem", Unary(file_stem)), ("invocation_directory", Nullary(invocation_directory)), ("join", Binary(join)), ("just_executable", Nullary(just_executable)), ("justfile", Nullary(justfile)), ("justfile_directory", Nullary(justfile_directory)), ("lowercase", Unary(lowercase)), ("os", Nullary(os)), ("os_family", Nullary(os_family)), ("parent_directory", Unary(parent_directory)), ("replace", Ternary(replace)), ("trim", Unary(trim)), ("trim_end", Unary(trim_end)), ("trim_end_match", Binary(trim_end_match)), ("trim_end_matches", Binary(trim_end_matches)), ("trim_start", Unary(trim_start)), ("trim_start_match", Binary(trim_start_match)), ("trim_start_matches", Binary(trim_start_matches)), ("uppercase", Unary(uppercase)), ("without_extension", Unary(without_extension)), ] .into_iter() .collect(); } impl Function { pub(crate) fn argc(&self) -> usize { match *self { Nullary(_) => 0, Unary(_) => 1, Binary(_) => 2, Ternary(_) => 3, } } } fn arch(_context: &FunctionContext) -> Result { Ok(target::arch().to_owned()) } fn clean(_context: &FunctionContext, path: &str) -> Result { Ok(Path::new(path).lexiclean().to_str().unwrap().to_owned()) } fn env_var(context: &FunctionContext, key: &str) -> Result { use std::env::VarError::*; if let Some(value) = context.dotenv.get(key) { return Ok(value.clone()); } match env::var(key) { Err(NotPresent) => Err(format!("environment variable `{}` not present", key)), Err(NotUnicode(os_string)) => Err(format!( "environment variable `{}` not unicode: {:?}", key, os_string )), Ok(value) => Ok(value), } } fn env_var_or_default( context: &FunctionContext, key: &str, default: &str, ) -> Result { use std::env::VarError::*; if let Some(value) = context.dotenv.get(key) { return Ok(value.clone()); } match env::var(key) { Err(NotPresent) => Ok(default.to_owned()), Err(NotUnicode(os_string)) => Err(format!( "environment variable `{}` not unicode: {:?}", key, os_string )), Ok(value) => Ok(value), } } fn extension(_context: &FunctionContext, path: &str) -> Result { Utf8Path::new(path) .extension() .map(str::to_owned) .ok_or_else(|| format!("Could not extract extension from `{}`", path)) } fn file_name(_context: &FunctionContext, path: &str) -> Result { Utf8Path::new(path) .file_name() .map(str::to_owned) .ok_or_else(|| format!("Could not extract file name from `{}`", path)) } fn file_stem(_context: &FunctionContext, path: &str) -> Result { Utf8Path::new(path) .file_stem() .map(str::to_owned) .ok_or_else(|| format!("Could not extract file stem from `{}`", path)) } fn invocation_directory(context: &FunctionContext) -> Result { Platform::convert_native_path( &context.search.working_directory, context.invocation_directory, ) .map_err(|e| format!("Error getting shell path: {}", e)) } fn join(_context: &FunctionContext, base: &str, with: &str) -> Result { Ok(Utf8Path::new(base).join(with).to_string()) } fn just_executable(_context: &FunctionContext) -> Result { let exe_path = std::env::current_exe().map_err(|e| format!("Error getting current executable: {}", e))?; exe_path.to_str().map(str::to_owned).ok_or_else(|| { format!( "Executable path is not valid unicode: {}", exe_path.to_string_lossy() ) }) } fn justfile(context: &FunctionContext) -> Result { context .search .justfile .to_str() .map(str::to_owned) .ok_or_else(|| { format!( "Justfile path is not valid unicode: {}", context.search.justfile.to_string_lossy() ) }) } fn justfile_directory(context: &FunctionContext) -> Result { let justfile_directory = context.search.justfile.parent().ok_or_else(|| { format!( "Could not resolve justfile directory. Justfile `{}` had no parent.", context.search.justfile.display() ) })?; justfile_directory .to_str() .map(str::to_owned) .ok_or_else(|| { format!( "Justfile directory is not valid unicode: {}", justfile_directory.to_string_lossy() ) }) } fn lowercase(_context: &FunctionContext, s: &str) -> Result { Ok(s.to_lowercase()) } fn os(_context: &FunctionContext) -> Result { Ok(target::os().to_owned()) } fn os_family(_context: &FunctionContext) -> Result { Ok(target::family().to_owned()) } fn parent_directory(_context: &FunctionContext, path: &str) -> Result { Utf8Path::new(path) .parent() .map(Utf8Path::to_string) .ok_or_else(|| format!("Could not extract parent directory from `{}`", path)) } fn replace(_context: &FunctionContext, s: &str, from: &str, to: &str) -> Result { Ok(s.replace(from, to)) } fn trim(_context: &FunctionContext, s: &str) -> Result { Ok(s.trim().to_owned()) } fn trim_end(_context: &FunctionContext, s: &str) -> Result { Ok(s.trim_end().to_owned()) } fn trim_end_match(_context: &FunctionContext, s: &str, pat: &str) -> Result { Ok(s.strip_suffix(pat).unwrap_or(s).to_owned()) } fn trim_end_matches(_context: &FunctionContext, s: &str, pat: &str) -> Result { Ok(s.trim_end_matches(pat).to_owned()) } fn trim_start(_context: &FunctionContext, s: &str) -> Result { Ok(s.trim_start().to_owned()) } fn trim_start_match(_context: &FunctionContext, s: &str, pat: &str) -> Result { Ok(s.strip_prefix(pat).unwrap_or(s).to_owned()) } fn trim_start_matches(_context: &FunctionContext, s: &str, pat: &str) -> Result { Ok(s.trim_start_matches(pat).to_owned()) } fn uppercase(_context: &FunctionContext, s: &str) -> Result { Ok(s.to_uppercase()) } fn without_extension(_context: &FunctionContext, path: &str) -> Result { let parent = Utf8Path::new(path) .parent() .ok_or_else(|| format!("Could not extract parent from `{}`", path))?; let file_stem = Utf8Path::new(path) .file_stem() .ok_or_else(|| format!("Could not extract file stem from `{}`", path))?; Ok(parent.join(file_stem).to_string()) }