use super::{ClassDefinition, Coverage, SequenceLookupRecord};
use crate::parser::{FromSlice, LazyArray16, LazyOffsetArray16, Stream};
#[allow(missing_docs)]
#[derive(Clone, Copy, Debug)]
pub enum ChainedContextLookup<'a> {
Format1 {
coverage: Coverage<'a>,
sets: ChainedSequenceRuleSets<'a>,
},
Format2 {
coverage: Coverage<'a>,
backtrack_classes: ClassDefinition<'a>,
input_classes: ClassDefinition<'a>,
lookahead_classes: ClassDefinition<'a>,
sets: ChainedSequenceRuleSets<'a>,
},
Format3 {
coverage: Coverage<'a>,
backtrack_coverages: LazyOffsetArray16<'a, Coverage<'a>>,
input_coverages: LazyOffsetArray16<'a, Coverage<'a>>,
lookahead_coverages: LazyOffsetArray16<'a, Coverage<'a>>,
lookups: LazyArray16<'a, SequenceLookupRecord>,
},
}
impl<'a> ChainedContextLookup<'a> {
pub(crate) fn parse(data: &'a [u8]) -> Option<Self> {
let mut s = Stream::new(data);
match s.read::<u16>()? {
1 => {
let coverage = Coverage::parse(s.read_at_offset16(data)?)?;
let count = s.read::<u16>()?;
let offsets = s.read_array16(count)?;
Some(Self::Format1 {
coverage,
sets: ChainedSequenceRuleSets::new(data, offsets),
})
}
2 => {
let coverage = Coverage::parse(s.read_at_offset16(data)?)?;
let backtrack_classes = ClassDefinition::parse(s.read_at_offset16(data)?)?;
let input_classes = ClassDefinition::parse(s.read_at_offset16(data)?)?;
let lookahead_classes = ClassDefinition::parse(s.read_at_offset16(data)?)?;
let count = s.read::<u16>()?;
let offsets = s.read_array16(count)?;
Some(Self::Format2 {
coverage,
backtrack_classes,
input_classes,
lookahead_classes,
sets: LazyOffsetArray16::new(data, offsets),
})
}
3 => {
let backtrack_count = s.read::<u16>()?;
let backtrack_coverages = s.read_array16(backtrack_count)?;
let input_count = s.read::<u16>()?;
let coverage = Coverage::parse(s.read_at_offset16(data)?)?;
let input_coverages = s.read_array16(input_count.checked_sub(1)?)?;
let lookahead_count = s.read::<u16>()?;
let lookahead_coverages = s.read_array16(lookahead_count)?;
let lookup_count = s.read::<u16>()?;
let lookups = s.read_array16(lookup_count)?;
Some(Self::Format3 {
coverage,
backtrack_coverages: LazyOffsetArray16::new(data, backtrack_coverages),
input_coverages: LazyOffsetArray16::new(data, input_coverages),
lookahead_coverages: LazyOffsetArray16::new(data, lookahead_coverages),
lookups,
})
}
_ => None,
}
}
#[inline]
pub fn coverage(&self) -> Coverage<'a> {
match self {
Self::Format1 { coverage, .. } => *coverage,
Self::Format2 { coverage, .. } => *coverage,
Self::Format3 { coverage, .. } => *coverage,
}
}
}
pub type ChainedSequenceRuleSets<'a> = LazyOffsetArray16<'a, ChainedSequenceRuleSet<'a>>;
pub type ChainedSequenceRuleSet<'a> = LazyOffsetArray16<'a, ChainedSequenceRule<'a>>;
impl<'a> FromSlice<'a> for ChainedSequenceRuleSet<'a> {
fn parse(data: &'a [u8]) -> Option<Self> {
Self::parse(data)
}
}
#[allow(missing_docs)]
#[derive(Clone, Copy, Debug)]
pub struct ChainedSequenceRule<'a> {
pub backtrack: LazyArray16<'a, u16>,
pub input: LazyArray16<'a, u16>,
pub lookahead: LazyArray16<'a, u16>,
pub lookups: LazyArray16<'a, SequenceLookupRecord>,
}
impl<'a> FromSlice<'a> for ChainedSequenceRule<'a> {
fn parse(data: &'a [u8]) -> Option<Self> {
let mut s = Stream::new(data);
let backtrack_count = s.read::<u16>()?;
let backtrack = s.read_array16(backtrack_count)?;
let input_count = s.read::<u16>()?;
let input = s.read_array16(input_count.checked_sub(1)?)?;
let lookahead_count = s.read::<u16>()?;
let lookahead = s.read_array16(lookahead_count)?;
let lookup_count = s.read::<u16>()?;
let lookups = s.read_array16(lookup_count)?;
Some(Self {
backtrack,
input,
lookahead,
lookups,
})
}
}