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use std::cmp::Ordering;
use crate::prelude::*;
/// Insert horizontal spacing into a paragraph.
///
/// The spacing can be absolute, relative, or fractional. In the last case, the
/// remaining space on the line is distributed among all fractional spacings
/// according to their relative fractions.
///
/// ## Example { #example }
/// ```example
/// First #h(1cm) Second \
/// First #h(30%) Second \
/// First #h(2fr) Second #h(1fr) Third
/// ```
///
/// ## Mathematical Spacing { #math-spacing }
/// In [mathematical formulas]($category/math), you can additionally use these
/// constants to add spacing between elements: `thin`, `med`, `thick`, `quad`.
///
/// Display: Spacing (H)
/// Category: layout
#[element(Behave)]
pub struct HElem {
/// How much spacing to insert.
#[required]
pub amount: Spacing,
/// If true, the spacing collapses at the start or end of a paragraph.
/// Moreover, from multiple adjacent weak spacings all but the largest one
/// collapse.
///
/// ```example
/// #h(1cm, weak: true)
/// We identified a group of
/// _weak_ specimens that fail to
/// manifest in most cases. However,
/// when #h(8pt, weak: true)
/// supported
/// #h(8pt, weak: true) on both
/// sides, they do show up.
/// ```
#[default(false)]
pub weak: bool,
}
impl Behave for HElem {
fn behaviour(&self) -> Behaviour {
if self.amount().is_fractional() {
Behaviour::Destructive
} else if self.weak(StyleChain::default()) {
Behaviour::Weak(1)
} else {
Behaviour::Ignorant
}
}
fn larger(&self, prev: &Content) -> bool {
let Some(prev) = prev.to::<Self>() else { return false };
self.amount() > prev.amount()
}
}
/// Insert vertical spacing into a flow of blocks.
///
/// The spacing can be absolute, relative, or fractional. In the last case,
/// the remaining space on the page is distributed among all fractional spacings
/// according to their relative fractions.
///
/// ## Example { #example }
/// ```example
/// #grid(
/// rows: 3cm,
/// columns: 6,
/// gutter: 1fr,
/// [A #parbreak() B],
/// [A #v(0pt) B],
/// [A #v(10pt) B],
/// [A #v(0pt, weak: true) B],
/// [A #v(40%, weak: true) B],
/// [A #v(1fr) B],
/// )
/// ```
///
/// Display: Spacing (V)
/// Category: layout
#[element(Behave)]
pub struct VElem {
/// How much spacing to insert.
#[required]
pub amount: Spacing,
/// If true, the spacing collapses at the start or end of a flow. Moreover,
/// from multiple adjacent weak spacings all but the largest one collapse.
/// Weak spacings will always collapse adjacent paragraph spacing, even if the
/// paragraph spacing is larger.
///
/// ```example
/// The following theorem is
/// foundational to the field:
/// #v(4pt, weak: true)
/// $ x^2 + y^2 = r^2 $
/// #v(4pt, weak: true)
/// The proof is simple:
/// ```
#[external]
pub weak: bool,
/// The elements's weakness level, see also [`Behaviour`].
#[internal]
#[parse(args.named("weak")?.map(|v: bool| v as usize))]
pub weakness: usize,
}
impl VElem {
/// Normal strong spacing.
pub fn strong(amount: Spacing) -> Self {
Self::new(amount).with_weakness(0)
}
/// User-created weak spacing.
pub fn weak(amount: Spacing) -> Self {
Self::new(amount).with_weakness(1)
}
/// Weak spacing with list attach weakness.
pub fn list_attach(amount: Spacing) -> Self {
Self::new(amount).with_weakness(2)
}
/// Weak spacing with BlockElem::ABOVE/BELOW weakness.
pub fn block_around(amount: Spacing) -> Self {
Self::new(amount).with_weakness(3)
}
/// Weak spacing with BlockElem::SPACING weakness.
pub fn block_spacing(amount: Spacing) -> Self {
Self::new(amount).with_weakness(4)
}
}
impl Behave for VElem {
fn behaviour(&self) -> Behaviour {
if self.amount().is_fractional() {
Behaviour::Destructive
} else if self.weakness(StyleChain::default()) > 0 {
Behaviour::Weak(self.weakness(StyleChain::default()))
} else {
Behaviour::Ignorant
}
}
fn larger(&self, prev: &Content) -> bool {
let Some(prev) = prev.to::<Self>() else { return false };
self.amount() > prev.amount()
}
}
cast_from_value! {
VElem,
v: Content => v.to::<Self>().cloned().ok_or("expected `v` element")?,
}
/// Kinds of spacing.
#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash)]
pub enum Spacing {
/// Spacing specified in absolute terms and relative to the parent's size.
Rel(Rel<Length>),
/// Spacing specified as a fraction of the remaining free space in the
/// parent.
Fr(Fr),
}
impl Spacing {
/// Whether this is fractional spacing.
pub fn is_fractional(self) -> bool {
matches!(self, Self::Fr(_))
}
/// Whether the spacing is actually no spacing.
pub fn is_zero(&self) -> bool {
match self {
Self::Rel(rel) => rel.is_zero(),
Self::Fr(fr) => fr.is_zero(),
}
}
}
impl From<Abs> for Spacing {
fn from(abs: Abs) -> Self {
Self::Rel(abs.into())
}
}
impl From<Em> for Spacing {
fn from(em: Em) -> Self {
Self::Rel(Rel::new(Ratio::zero(), em.into()))
}
}
impl From<Length> for Spacing {
fn from(length: Length) -> Self {
Self::Rel(length.into())
}
}
impl From<Fr> for Spacing {
fn from(fr: Fr) -> Self {
Self::Fr(fr)
}
}
impl PartialOrd for Spacing {
fn partial_cmp(&self, other: &Self) -> Option<Ordering> {
match (self, other) {
(Self::Rel(a), Self::Rel(b)) => a.partial_cmp(b),
(Self::Fr(a), Self::Fr(b)) => a.partial_cmp(b),
_ => None,
}
}
}
cast_from_value! {
Spacing,
v: Rel<Length> => Self::Rel(v),
v: Fr => Self::Fr(v),
}
cast_to_value! {
v: Spacing => match v {
Spacing::Rel(rel) => {
if rel.rel.is_zero() {
Value::Length(rel.abs)
} else if rel.abs.is_zero() {
Value::Ratio(rel.rel)
} else {
Value::Relative(rel)
}
}
Spacing::Fr(fr) => Value::Fraction(fr),
}
}
|
