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chore: put semi human graph ir into its own module
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@ -4,6 +4,10 @@ use serde::{Deserialize, Serialize};
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pub mod instruction;
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// feel free to make this public if there's sufficient reason to do so
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// otherwise, go use the GraphIr in the module this is written in directly instead!!
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mod semi_human;
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pub type Map<K, V> = ahash::AHashMap<K, V>;
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pub type Set<V> = ahash::AHashSet<V>;
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@ -18,7 +22,7 @@ pub type Set<V> = ahash::AHashSet<V>;
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///
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/// Returns an error if the parsed source is not a valid human-readable graph IR.
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pub fn from_ron(source: &str) -> ron::error::SpannedResult<GraphIr> {
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let human_repr: SemiHumanGraphIr = ron::from_str(source)?;
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let human_repr: semi_human::GraphIr = ron::from_str(source)?;
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Ok(human_repr.into())
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}
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@ -115,81 +119,3 @@ pub mod id {
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pub struct Span {
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range: RangeInclusive<usize>,
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}
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// TODO: this desperately belongs into its own file, also id should get its own file
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/// Semi-human-{read,writ}able [`GraphIr`] with far less useful types.
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///
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/// **Do not use this if you want to programatically construct IR.**
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/// Instead, directly use [`GraphIr`].
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#[derive(Clone, Debug, PartialEq, Eq, Deserialize, Serialize)]
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pub struct SemiHumanGraphIr {
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/// See [`GraphIr::instructions`], just that a simple number is used for the ID instead
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/// of a proper span.
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instructions: Map<usize, instruction::Kind>,
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/// See [`GraphIr::edges`]. RON wants you to type the set as a list.
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edges: Map<SemiHumanSocket, Set<SemiHumanSocket>>,
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}
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#[derive(Clone, Debug, PartialEq, Eq, Hash, Deserialize, Serialize)]
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pub struct SemiHumanSocket {
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/// ID of the instruction this socket is on.
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on: usize,
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idx: u16,
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}
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impl From<SemiHumanSocket> for id::Socket {
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fn from(source: SemiHumanSocket) -> Self {
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Self {
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belongs_to: (id::Instruction(Span {
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range: source.on..=source.on,
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})),
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idx: id::SocketIdx(source.idx),
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}
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}
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}
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impl From<SemiHumanGraphIr> for GraphIr {
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fn from(source: SemiHumanGraphIr) -> Self {
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let edges = source.edges.clone();
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Self {
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instructions: source
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.instructions
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.into_iter()
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.map(|(id, kind)| (id::Instruction(Span { range: id..=id }), kind))
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.collect(),
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edges: type_edges(source.edges),
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// same as above, but also reverse the mapping
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rev_edges: reverse_and_type_edges(edges),
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}
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}
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}
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fn type_edges(
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edges: Map<SemiHumanSocket, Set<SemiHumanSocket>>,
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) -> Map<id::Output, Set<id::Input>> {
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edges
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.into_iter()
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.map(|(output, inputs)| {
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let output = id::Output(output.into());
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let inputs = inputs.into_iter().map(Into::into).map(id::Input).collect();
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(output, inputs)
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})
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.collect()
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}
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fn reverse_and_type_edges(
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edges: Map<SemiHumanSocket, Set<SemiHumanSocket>>,
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) -> Map<id::Input, Set<id::Output>> {
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edges
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.into_iter()
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.fold(Map::new(), |mut rev_edges, (output, inputs)| {
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let output = id::Output(output.into());
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for input in inputs {
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let input = id::Input(input.into());
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rev_edges.entry(input).or_default().insert(output.clone());
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}
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rev_edges
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})
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}
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82
crates/ir/src/semi_human.rs
Normal file
82
crates/ir/src/semi_human.rs
Normal file
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@ -0,0 +1,82 @@
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//! The midterm solution for source representation, until we've got a nice source frontent.
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//!
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//! Sacrifices type expressivity for the sake of typability in [RON] files.
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//!
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//! [RON]: https://docs.rs/ron/latest/ron/
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use serde::{Deserialize, Serialize};
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use crate::{id, instruction, Map, Set, Span};
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/// Semi-human-{read,writ}able [`crate::GraphIr`] with far less useful types.
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///
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/// **Do not use this if you want to programatically construct IR.**
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/// Instead, directly use [`crate::GraphIr`].
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#[derive(Clone, Debug, PartialEq, Eq, Deserialize, Serialize)]
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pub struct GraphIr {
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/// See [`crate::GraphIr::instructions`], just that a simple number is used for the ID instead
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/// of a proper span.
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pub(crate) instructions: Map<usize, instruction::Kind>,
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/// See [`crate::GraphIr::edges`]. RON wants you to type the set as if it were a list.
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pub(crate) edges: Map<Socket, Set<Socket>>,
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}
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#[derive(Clone, Debug, PartialEq, Eq, Hash, Deserialize, Serialize)]
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pub struct Socket {
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/// ID of the instruction this socket is on.
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pub(crate) on: usize,
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pub(crate) idx: u16,
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}
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impl From<Socket> for id::Socket {
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fn from(source: Socket) -> Self {
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Self {
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belongs_to: (id::Instruction(Span {
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range: source.on..=source.on,
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})),
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idx: id::SocketIdx(source.idx),
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}
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}
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}
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impl From<GraphIr> for crate::GraphIr {
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fn from(source: GraphIr) -> Self {
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let edges = source.edges.clone();
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Self {
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instructions: source
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.instructions
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.into_iter()
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.map(|(id, kind)| (id::Instruction(Span { range: id..=id }), kind))
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.collect(),
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edges: type_edges(source.edges),
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// same as above, but also reverse the mapping
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rev_edges: reverse_and_type_edges(edges),
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}
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}
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}
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fn type_edges(edges: Map<Socket, Set<Socket>>) -> Map<id::Output, Set<id::Input>> {
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edges
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.into_iter()
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.map(|(output, inputs)| {
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let output = id::Output(output.into());
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let inputs = inputs.into_iter().map(Into::into).map(id::Input).collect();
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(output, inputs)
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})
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.collect()
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}
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fn reverse_and_type_edges(edges: Map<Socket, Set<Socket>>) -> Map<id::Input, Set<id::Output>> {
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edges
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.into_iter()
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.fold(Map::new(), |mut rev_edges, (output, inputs)| {
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let output = id::Output(output.into());
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for input in inputs {
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let input = id::Input(input.into());
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rev_edges.entry(input).or_default().insert(output.clone());
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}
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rev_edges
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})
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}
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