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use std::sync::Arc;
use crate::{base64::*, datetime::*, uri::*};
/// Schema typed value.
///
/// As long as a value is generated by [`SimpleTypeDefinition::parse`](super::SimpleTypeDefinition::parse),
/// it is guaranteed to belong to the value space of a given type.
#[derive(Debug, Clone, PartialEq)]
pub enum SchemaValue {
/// String type value.
String(Arc<str>),
/// Boolean type value.
Boolean(bool),
// `f64` cannot guarantee at least 18 digits of precision.
// An arbitrary-precision floating-point library is required, but since comparison
// operations are sufficient for now, I will treat the values as strings.
/// Decimal type value.
Decimal(Arc<str>, Arc<str>),
/// Float type value.
Float(f32),
/// Double type value.
Double(f64),
// This is separated from `Decimal` for convenience.
/// Integer type value.
Integer(i128),
/// Duration type value.
Duration(Duration),
/// DateTime type value.
DateTime(DateTime),
/// Time type value.
Time(Time),
/// Date type value.
Date(Date),
/// gYearMonth type value.
GYearMonth(GYearMonth),
/// gYear type value.
GYear(GYear),
/// gMonthDay type value.
GMonthDay(GMonthDay),
/// gDay type value.
GDay(GDay),
/// gMonth type value.
GMonth(GMonth),
/// Hex binary type value.
HexBinary(Arc<str>),
/// Base64 binary type value.
Base64Binary(Base64Binary),
/// anyURI type value.
AnyURI(Arc<URIStr>),
/// QName type value.
QName(Option<Arc<str>>, Arc<str>),
/// Notation type value.
NOTATION(Option<Arc<str>>, Arc<str>),
/// List type value.
List(Arc<[SchemaValue]>),
}
impl SchemaValue {
/// Returns the length for values of types with a defined `length`,
/// and returns [`None`] for values of types with an undefined `length`.
///
/// # Reference
/// - [4.3.1 length](https://www.w3.org/TR/2004/REC-xmlschema-2-20041028/#rf-length)
pub fn length(&self) -> Option<usize> {
match self {
Self::String(s) => Some(s.len()),
Self::AnyURI(u) => Some(
u.as_unescaped_str()
.as_deref()
.unwrap_or(u.as_escaped_str())
.len(),
),
Self::HexBinary(b) => Some(b.len() / 2),
Self::Base64Binary(b) => Some(b.decode().count()),
Self::List(l) => Some(l.len()),
_ => None,
}
}
/// Returns the total digits for values of types with a defined `totalDigits`,
/// and returns [`None`] for values of types with an undefined `totalDigits`.
///
/// # Reference
/// - [4.3.11 totalDigits](https://www.w3.org/TR/2004/REC-xmlschema-2-20041028/#rf-totalDigits)
pub fn total_digits(&self) -> Option<usize> {
match self {
Self::Decimal(i, f) => match (i.as_ref(), f.as_ref()) {
("0", "0") => Some(1),
("0", i) => Some(i.len()),
(i, "0") => Some(i.trim_start_matches('-').len()),
(i, f) => Some(i.trim_start_matches('-').len() + f.len()),
},
Self::Integer(i) => {
if *i == 0 {
Some(1)
} else {
Some(i.unsigned_abs().ilog10() as usize + 1)
}
}
_ => None,
}
}
/// Returns the fraction digits for values of types with a defined `fractionDigits`,
/// and returns [`None`] for values of types with an undefined `totalDigits`.
///
/// # Reference
/// - [4.3.12 fractionDigits](https://www.w3.org/TR/2004/REC-xmlschema-2-20041028/#rf-fractionDigits)
pub fn fraction_digits(&self) -> Option<usize> {
match self {
Self::Decimal(_, f) => Some(f.trim_end_matches('0').len()),
Self::Integer(_) => Some(0),
_ => None,
}
}
}
impl PartialOrd for SchemaValue {
fn partial_cmp(&self, other: &Self) -> Option<std::cmp::Ordering> {
match (self, other) {
(Self::Decimal(lhi, llo), Self::Decimal(rhi, rlo)) => {
let ml = lhi.starts_with('-');
let mr = rhi.starts_with('-');
if ml != mr {
return mr.partial_cmp(&ml);
}
if lhi.len() < rhi.len() {
if ml {
Some(std::cmp::Ordering::Greater)
} else {
Some(std::cmp::Ordering::Less)
}
} else if lhi.len() > rhi.len() {
if ml {
Some(std::cmp::Ordering::Less)
} else {
Some(std::cmp::Ordering::Greater)
}
} else {
match lhi.cmp(rhi) {
ret @ (std::cmp::Ordering::Less | std::cmp::Ordering::Greater) => {
Some(if ml { ret.reverse() } else { ret })
}
std::cmp::Ordering::Equal => {
let ret = llo.cmp(rlo);
Some(if ml { ret.reverse() } else { ret })
}
}
}
}
(Self::Float(lh), Self::Float(rh)) => lh.partial_cmp(rh),
(Self::Double(lh), Self::Double(rh)) => lh.partial_cmp(rh),
(Self::Integer(lh), Self::Integer(rh)) => lh.partial_cmp(rh),
(Self::Duration(lh), Self::Duration(rh)) => lh.partial_cmp(rh),
(Self::DateTime(lh), Self::DateTime(rh)) => lh.partial_cmp(rh),
(Self::Time(lh), Self::Time(rh)) => lh.partial_cmp(rh),
(Self::Date(lh), Self::Date(rh)) => lh.partial_cmp(rh),
(Self::GYearMonth(lh), Self::GYearMonth(rh)) => lh.partial_cmp(rh),
(Self::GYear(lh), Self::GYear(rh)) => lh.partial_cmp(rh),
(Self::GMonthDay(lh), Self::GMonthDay(rh)) => lh.partial_cmp(rh),
(Self::GDay(lh), Self::GDay(rh)) => lh.partial_cmp(rh),
(Self::GMonth(lh), Self::GMonth(rh)) => lh.partial_cmp(rh),
_ => None,
}
}
}