use super::{reg_binary, reg_binary_mut, reg_trinary_mut, reg_unary_mut};
use crate::def_package;
use crate::engine::Array;
use crate::fn_register::map_dynamic as map;
use crate::parser::INT;
use crate::stdlib::{
fmt::Display,
format,
string::{String, ToString},
vec::Vec,
};
fn prepend<T: Display>(x: T, y: String) -> String {
format!("{}{}", x, y)
}
fn append<T: Display>(x: String, y: T) -> String {
format!("{}{}", x, y)
}
fn sub_string(s: &mut String, start: INT, len: INT) -> String {
let offset = if s.is_empty() || len <= 0 {
return "".to_string();
} else if start < 0 {
0
} else if (start as usize) >= s.chars().count() {
return "".to_string();
} else {
start as usize
};
let chars: Vec<_> = s.chars().collect();
let len = if offset + (len as usize) > chars.len() {
chars.len() - offset
} else {
len as usize
};
chars[offset..][..len].into_iter().collect()
}
fn crop_string(s: &mut String, start: INT, len: INT) {
let offset = if s.is_empty() || len <= 0 {
s.clear();
return;
} else if start < 0 {
0
} else if (start as usize) >= s.chars().count() {
s.clear();
return;
} else {
start as usize
};
let chars: Vec<_> = s.chars().collect();
let len = if offset + (len as usize) > chars.len() {
chars.len() - offset
} else {
len as usize
};
s.clear();
chars[offset..][..len]
.into_iter()
.for_each(|&ch| s.push(ch));
}
macro_rules! reg_op { ($lib:expr, $op:expr, $func:ident, $($par:ty),*) => {
$(reg_binary($lib, $op, $func::<$par>, map);)* };
}
def_package!(crate:MoreStringPackage:"Additional string utilities, including string building.", lib, {
reg_op!(lib, "+", append, INT, bool, char);
reg_binary_mut(lib, "+", |x: &mut String, _: ()| x.clone(), map);
reg_op!(lib, "+", prepend, INT, bool, char);
reg_binary(lib, "+", |_: (), y: String| y, map);
#[cfg(not(feature = "only_i32"))]
#[cfg(not(feature = "only_i64"))]
{
reg_op!(lib, "+", append, i8, u8, i16, u16, i32, i64, u32, u64, i128, u128);
reg_op!(lib, "+", prepend, i8, u8, i16, u16, i32, i64, u32, u64, i128, u128);
}
#[cfg(not(feature = "no_float"))]
{
reg_op!(lib, "+", append, f32, f64);
reg_op!(lib, "+", prepend, f32, f64);
}
#[cfg(not(feature = "no_index"))]
{
reg_binary(lib, "+", |x: String, y: Array| format!("{}{:?}", x, y), map);
reg_binary(lib, "+", |x: Array, y: String| format!("{:?}{}", x, y), map);
}
reg_unary_mut(lib, "len", |s: &mut String| s.chars().count() as INT, map);
reg_binary_mut(
lib,
"contains",
|s: &mut String, ch: char| s.contains(ch),
map,
);
reg_binary_mut(
lib,
"contains",
|s: &mut String, find: String| s.contains(&find),
map,
);
reg_trinary_mut(
lib,
"index_of",
|s: &mut String, ch: char, start: INT| {
let start = if start < 0 {
0
} else if (start as usize) >= s.chars().count() {
return -1 as INT;
} else {
s.chars().take(start as usize).collect::<String>().len()
};
s[start..]
.find(ch)
.map(|index| s[0..start + index].chars().count() as INT)
.unwrap_or(-1 as INT)
},
map,
);
reg_binary_mut(
lib,
"index_of",
|s: &mut String, ch: char| {
s.find(ch)
.map(|index| s[0..index].chars().count() as INT)
.unwrap_or(-1 as INT)
},
map,
);
reg_trinary_mut(
lib,
"index_of",
|s: &mut String, find: String, start: INT| {
let start = if start < 0 {
0
} else if (start as usize) >= s.chars().count() {
return -1 as INT;
} else {
s.chars().take(start as usize).collect::<String>().len()
};
s[start..]
.find(&find)
.map(|index| s[0..start + index].chars().count() as INT)
.unwrap_or(-1 as INT)
},
map,
);
reg_binary_mut(
lib,
"index_of",
|s: &mut String, find: String| {
s.find(&find)
.map(|index| s[0..index].chars().count() as INT)
.unwrap_or(-1 as INT)
},
map,
);
reg_unary_mut(lib, "clear", |s: &mut String| s.clear(), map);
reg_binary_mut(lib, "append", |s: &mut String, ch: char| s.push(ch), map);
reg_binary_mut(
lib,
"append",
|s: &mut String, add: String| s.push_str(&add),
map,
);
reg_trinary_mut(lib, "sub_string", sub_string, map);
reg_binary_mut(
lib,
"sub_string",
|s: &mut String, start: INT| sub_string(s, start, s.len() as INT),
map,
);
reg_trinary_mut(lib, "crop", crop_string, map);
reg_binary_mut(
lib,
"crop",
|s: &mut String, start: INT| crop_string(s, start, s.len() as INT),
map,
);
reg_binary_mut(
lib,
"truncate",
|s: &mut String, len: INT| {
if len >= 0 {
let chars: Vec<_> = s.chars().take(len as usize).collect();
s.clear();
chars.into_iter().for_each(|ch| s.push(ch));
} else {
s.clear();
}
},
map,
);
reg_trinary_mut(
lib,
"pad",
|s: &mut String, len: INT, ch: char| {
for _ in 0..s.chars().count() - len as usize {
s.push(ch);
}
},
map,
);
reg_trinary_mut(
lib,
"replace",
|s: &mut String, find: String, sub: String| {
let new_str = s.replace(&find, &sub);
s.clear();
s.push_str(&new_str);
},
map,
);
reg_unary_mut(
lib,
"trim",
|s: &mut String| {
let trimmed = s.trim();
if trimmed.len() < s.len() {
*s = trimmed.to_string();
}
},
map,
);
});