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Merge pull request #2604 from rtfeldman/early-exhaustiveness-checking

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Move out exhaustiveness checking to its own crate
This commit is contained in:
Folkert de Vries 2022-02-28 14:44:42 +01:00 committed by GitHub
commit f30c07edd0
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11 changed files with 508 additions and 459 deletions
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12
Cargo.lock generated
View file

@ -3502,6 +3502,16 @@ dependencies = [
name = "roc_error_macros"
version = "0.1.0"
[[package]]
name = "roc_exhaustive"
version = "0.1.0"
dependencies = [
"roc_collections",
"roc_module",
"roc_region",
"roc_std",
]
[[package]]
name = "roc_fmt"
version = "0.1.0"
@ -3651,6 +3661,7 @@ dependencies = [
"roc_can",
"roc_collections",
"roc_error_macros",
"roc_exhaustive",
"roc_module",
"roc_problem",
"roc_region",
@ -3772,6 +3783,7 @@ dependencies = [
"roc_can",
"roc_collections",
"roc_constrain",
"roc_exhaustive",
"roc_module",
"roc_mono",
"roc_parse",

1
Cargo.toml
View file

@ -3,6 +3,7 @@ members = [
"compiler/ident",
"compiler/region",
"compiler/collections",
"compiler/exhaustive",
"compiler/module",
"compiler/parse",
"compiler/can",

12
compiler/exhaustive/Cargo.toml Normal file
View file

@ -0,0 +1,12 @@
[package]
name = "roc_exhaustive"
version = "0.1.0"
authors = ["The Roc Contributors"]
license = "UPL-1.0"
edition = "2018"
[dependencies]
roc_collections = { path = "../collections" }
roc_region = { path = "../region" }
roc_module = { path = "../module" }
roc_std = { path = "../../roc_std", default-features = false }

440
compiler/exhaustive/src/lib.rs Normal file
View file

@ -0,0 +1,440 @@
use roc_collections::all::{Index, MutMap};
use roc_module::ident::{Lowercase, TagIdIntType, TagName};
use roc_region::all::Region;
use roc_std::RocDec;
use self::Pattern::*;
#[derive(Clone, Debug, PartialEq, Eq, Hash)]
pub struct Union {
pub alternatives: Vec<Ctor>,
pub render_as: RenderAs,
}
impl Union {
pub fn newtype_wrapper(tag_name: TagName, arity: usize) -> Self {
let alternatives = vec![Ctor {
name: tag_name,
tag_id: TagId(0),
arity,
}];
Union {
alternatives,
render_as: RenderAs::Tag,
}
}
}
#[derive(Clone, Debug, PartialEq, Eq, Hash)]
pub enum RenderAs {
Tag,
Opaque,
Record(Vec<Lowercase>),
Guard,
}
#[derive(Clone, Debug, PartialEq, Eq, Hash, Copy)]
pub struct TagId(pub TagIdIntType);
#[derive(Clone, Debug, PartialEq, Eq, Hash)]
pub struct Ctor {
pub name: TagName,
pub tag_id: TagId,
pub arity: usize,
}
#[derive(Clone, Debug, PartialEq)]
pub enum Pattern {
Anything,
Literal(Literal),
Ctor(Union, TagId, std::vec::Vec<Pattern>),
}
#[derive(Clone, Debug, PartialEq)]
pub enum Literal {
Int(i128),
U128(u128),
Bit(bool),
Byte(u8),
Float(u64),
Decimal(RocDec),
Str(Box<str>),
}
/// Error
#[derive(Clone, Debug, PartialEq)]
pub enum Error {
Incomplete(Region, Context, Vec<Pattern>),
Redundant {
overall_region: Region,
branch_region: Region,
index: Index,
},
}
#[derive(Clone, Debug, PartialEq)]
pub enum Context {
BadArg,
BadDestruct,
BadCase,
}
#[derive(Clone, Debug, PartialEq)]
pub enum Guard {
HasGuard,
NoGuard,
}
/// Check
pub fn check(
region: Region,
context: Context,
matrix: Vec<Vec<Pattern>>,
) -> Result<(), Vec<Error>> {
let mut errors = Vec::new();
let bad_patterns = is_exhaustive(&matrix, 1);
if !bad_patterns.is_empty() {
// TODO i suspect this is like a concat in in practice? code below can panic
// if this debug_assert! ever fails, the theory is disproven
debug_assert!(bad_patterns.iter().map(|v| v.len()).sum::<usize>() == bad_patterns.len());
let heads = bad_patterns.into_iter().map(|mut v| v.remove(0)).collect();
errors.push(Error::Incomplete(region, context, heads));
return Err(errors);
}
Ok(())
}
/// EXHAUSTIVE PATTERNS
/// INVARIANTS:
///
/// The initial rows "matrix" are all of length 1
/// The initial count of items per row "n" is also 1
/// The resulting rows are examples of missing patterns
fn is_exhaustive(matrix: &RefPatternMatrix, n: usize) -> PatternMatrix {
if matrix.is_empty() {
vec![std::iter::repeat(Anything).take(n).collect()]
} else if n == 0 {
vec![]
} else {
let ctors = collect_ctors(matrix);
let num_seen = ctors.len();
if num_seen == 0 {
let new_matrix: Vec<_> = matrix
.iter()
.filter_map(|row| specialize_row_by_anything(row))
.collect();
let mut rest = is_exhaustive(&new_matrix, n - 1);
for row in rest.iter_mut() {
row.push(Anything);
}
rest
} else {
let alts = ctors.iter().next().unwrap().1;
let alt_list = &alts.alternatives;
let num_alts = alt_list.len();
if num_seen < num_alts {
let new_matrix: Vec<_> = matrix
.iter()
.filter_map(|row| specialize_row_by_anything(row))
.collect();
let rest: Vec<Vec<Pattern>> = is_exhaustive(&new_matrix, n - 1);
let last: _ = alt_list
.iter()
.filter_map(|r| is_missing(alts.clone(), &ctors, r));
let mut result = Vec::new();
for last_option in last {
for mut row in rest.clone() {
row.push(last_option.clone());
result.push(row);
}
}
result
} else {
let is_alt_exhaustive = |Ctor { arity, tag_id, .. }| {
let new_matrix: Vec<_> = matrix
.iter()
.filter_map(|r| specialize_row_by_ctor(tag_id, arity, r))
.collect();
let rest: Vec<Vec<Pattern>> = is_exhaustive(&new_matrix, arity + n - 1);
let mut result = Vec::with_capacity(rest.len());
for row in rest {
result.push(recover_ctor(alts.clone(), tag_id, arity, row));
}
result
};
alt_list
.iter()
.cloned()
.map(is_alt_exhaustive)
.flatten()
.collect()
}
}
}
}
fn is_missing<T>(union: Union, ctors: &MutMap<TagId, T>, ctor: &Ctor) -> Option<Pattern> {
let Ctor { arity, tag_id, .. } = ctor;
if ctors.contains_key(tag_id) {
None
} else {
let anythings = std::iter::repeat(Anything).take(*arity).collect();
Some(Pattern::Ctor(union, *tag_id, anythings))
}
}
fn recover_ctor(
union: Union,
tag_id: TagId,
arity: usize,
mut patterns: Vec<Pattern>,
) -> Vec<Pattern> {
let mut rest = patterns.split_off(arity);
let args = patterns;
rest.push(Ctor(union, tag_id, args));
rest
}
/// Check if a new row "vector" is useful given previous rows "matrix"
pub fn is_useful(mut old_matrix: PatternMatrix, mut vector: Row) -> bool {
let mut matrix = Vec::with_capacity(old_matrix.len());
// this loop ping-pongs the rows between old_matrix and matrix
'outer: loop {
match vector.pop() {
_ if old_matrix.is_empty() => {
// No rows are the same as the new vector! The vector is useful!
break true;
}
None => {
// There is nothing left in the new vector, but we still have
// rows that match the same things. This is not a useful vector!
break false;
}
Some(first_pattern) => {
// NOTE: if there are bugs in this code, look at the ordering of the row/matrix
match first_pattern {
// keep checking rows that start with this Ctor or Anything
Ctor(_, id, args) => {
specialize_row_by_ctor2(id, args.len(), &mut old_matrix, &mut matrix);
std::mem::swap(&mut old_matrix, &mut matrix);
vector.extend(args);
}
Anything => {
// check if all alternatives appear in matrix
match is_complete(&old_matrix) {
Complete::No => {
// This Anything is useful because some Ctors are missing.
// But what if a previous row has an Anything?
// If so, this one is not useful.
for mut row in old_matrix.drain(..) {
if let Some(Anything) = row.pop() {
matrix.push(row);
}
}
std::mem::swap(&mut old_matrix, &mut matrix);
}
Complete::Yes(alternatives) => {
// All Ctors are covered, so this Anything is not needed for any
// of those. But what if some of those Ctors have subpatterns
// that make them less general? If so, this actually is useful!
for alternative in alternatives {
let Ctor { arity, tag_id, .. } = alternative;
let mut old_matrix = old_matrix.clone();
let mut matrix = vec![];
specialize_row_by_ctor2(
tag_id,
arity,
&mut old_matrix,
&mut matrix,
);
let mut vector = vector.clone();
vector.extend(std::iter::repeat(Anything).take(arity));
if is_useful(matrix, vector) {
break 'outer true;
}
}
break false;
}
}
}
Literal(literal) => {
// keep checking rows that start with this Literal or Anything
for mut row in old_matrix.drain(..) {
let head = row.pop();
let patterns = row;
match head {
Some(Literal(lit)) => {
if lit == literal {
matrix.push(patterns);
} else {
// do nothing
}
}
Some(Anything) => matrix.push(patterns),
Some(Ctor(_, _, _)) => panic!(
r#"Compiler bug! After type checking, constructors and literals should never align in pattern match exhaustiveness checks."#
),
None => panic!(
"Compiler error! Empty matrices should not get specialized."
),
}
}
std::mem::swap(&mut old_matrix, &mut matrix);
}
}
}
}
}
}
/// INVARIANT: (length row == N) ==> (length result == arity + N - 1)
fn specialize_row_by_ctor2(
tag_id: TagId,
arity: usize,
old_matrix: &mut PatternMatrix,
matrix: &mut PatternMatrix,
) {
for mut row in old_matrix.drain(..) {
let head = row.pop();
let mut patterns = row;
match head {
Some(Ctor(_, id, args)) =>
if id == tag_id {
patterns.extend(args);
matrix.push(patterns);
} else {
// do nothing
}
Some(Anything) => {
// TODO order!
patterns.extend(std::iter::repeat(Anything).take(arity));
matrix.push(patterns);
}
Some(Literal(_)) => panic!( "Compiler bug! After type checking, constructors and literal should never align in pattern match exhaustiveness checks."),
None => panic!("Compiler error! Empty matrices should not get specialized."),
}
}
}
/// INVARIANT: (length row == N) ==> (length result == arity + N - 1)
fn specialize_row_by_ctor(tag_id: TagId, arity: usize, row: &RefRow) -> Option<Row> {
let mut row = row.to_vec();
let head = row.pop();
let patterns = row;
match head {
Some(Ctor(_, id, args)) => {
if id == tag_id {
// TODO order!
let mut new_patterns = Vec::new();
new_patterns.extend(args);
new_patterns.extend(patterns);
Some(new_patterns)
} else {
None
}
}
Some(Anything) => {
// TODO order!
let new_patterns = std::iter::repeat(Anything)
.take(arity)
.chain(patterns)
.collect();
Some(new_patterns)
}
Some(Literal(_)) => unreachable!(
r#"Compiler bug! After type checking, a constructor can never align with a literal: that should be a type error!"#
),
None => panic!("Compiler error! Empty matrices should not get specialized."),
}
}
/// INVARIANT: (length row == N) ==> (length result == N-1)
fn specialize_row_by_anything(row: &RefRow) -> Option<Row> {
let mut row = row.to_vec();
match row.pop() {
Some(Anything) => Some(row),
_ => None,
}
}
/// ALL CONSTRUCTORS ARE PRESENT?
pub enum Complete {
Yes(Vec<Ctor>),
No,
}
fn is_complete(matrix: &RefPatternMatrix) -> Complete {
let ctors = collect_ctors(matrix);
let length = ctors.len();
let mut it = ctors.into_iter();
match it.next() {
None => Complete::No,
Some((_, Union { alternatives, .. })) => {
if length == alternatives.len() {
Complete::Yes(alternatives)
} else {
Complete::No
}
}
}
}
/// COLLECT CTORS
type RefPatternMatrix = [Vec<Pattern>];
type PatternMatrix = Vec<Vec<Pattern>>;
type RefRow = [Pattern];
type Row = Vec<Pattern>;
fn collect_ctors(matrix: &RefPatternMatrix) -> MutMap<TagId, Union> {
let mut ctors = MutMap::default();
for row in matrix {
if let Some(Ctor(union, id, _)) = row.get(row.len() - 1) {
ctors.insert(*id, union.clone());
}
}
ctors
}

2
compiler/module/src/ident.rs
View file

@ -40,6 +40,8 @@ pub struct Uppercase(IdentStr);
#[derive(Clone, PartialEq, Eq, Hash, PartialOrd, Ord, Debug)]
pub struct ForeignSymbol(IdentStr);
pub type TagIdIntType = u16;
#[derive(Clone, Debug, PartialEq, Eq, Hash, PartialOrd, Ord)]
pub enum TagName {
/// Global tags have no module, but tend to be short strings (since they're

1
compiler/mono/Cargo.toml
View file

@ -7,6 +7,7 @@ edition = "2018"
[dependencies]
roc_collections = { path = "../collections" }
roc_exhaustive = { path = "../exhaustive" }
roc_region = { path = "../region" }
roc_module = { path = "../module" }
roc_types = { path = "../types" }

4
compiler/mono/src/decision_tree.rs
View file

@ -1,10 +1,10 @@
use crate::exhaustive::{Ctor, RenderAs, TagId, Union};
use crate::ir::{
BranchInfo, DestructType, Env, Expr, JoinPointId, Literal, Param, Pattern, Procs, Stmt,
};
use crate::layout::{Builtin, Layout, LayoutCache, TagIdIntType, UnionLayout};
use roc_builtins::bitcode::{FloatWidth, IntWidth};
use roc_collections::all::{MutMap, MutSet};
use roc_exhaustive::{Ctor, RenderAs, TagId, Union};
use roc_module::ident::TagName;
use roc_module::low_level::LowLevel;
use roc_module::symbol::Symbol;
@ -83,7 +83,7 @@ enum Test<'a> {
IsCtor {
tag_id: TagIdIntType,
tag_name: TagName,
union: crate::exhaustive::Union,
union: roc_exhaustive::Union,
arguments: Vec<(Pattern<'a>, Layout<'a>)>,
},
IsInt(i128, IntWidth),

438
compiler/mono/src/exhaustive.rs
View file

@ -1,67 +1,12 @@
use crate::{ir::DestructType, layout::TagIdIntType};
use roc_collections::all::{Index, MutMap};
use roc_module::ident::{Lowercase, TagName};
use crate::ir::DestructType;
use roc_collections::all::Index;
use roc_exhaustive::{
is_useful, Context, Ctor, Error, Guard, Literal, Pattern, RenderAs, TagId, Union,
};
use roc_module::ident::{TagIdIntType, TagName};
use roc_region::all::{Loc, Region};
use roc_std::RocDec;
use self::Pattern::*;
#[derive(Clone, Debug, PartialEq, Eq, Hash)]
pub struct Union {
pub alternatives: Vec<Ctor>,
pub render_as: RenderAs,
}
impl Union {
pub fn newtype_wrapper(tag_name: TagName, arity: usize) -> Self {
let alternatives = vec![Ctor {
name: tag_name,
tag_id: TagId(0),
arity,
}];
Union {
alternatives,
render_as: RenderAs::Tag,
}
}
}
#[derive(Clone, Debug, PartialEq, Eq, Hash)]
pub enum RenderAs {
Tag,
Opaque,
Record(Vec<Lowercase>),
Guard,
}
#[derive(Clone, Debug, PartialEq, Eq, Hash, Copy)]
pub struct TagId(pub TagIdIntType);
#[derive(Clone, Debug, PartialEq, Eq, Hash)]
pub struct Ctor {
pub name: TagName,
pub tag_id: TagId,
pub arity: usize,
}
#[derive(Clone, Debug, PartialEq)]
pub enum Pattern {
Anything,
Literal(Literal),
Ctor(Union, TagId, std::vec::Vec<Pattern>),
}
#[derive(Clone, Debug, PartialEq)]
pub enum Literal {
Int(i128),
U128(u128),
Bit(bool),
Byte(u8),
Float(u64),
Decimal(RocDec),
Str(Box<str>),
}
use Pattern::*;
fn simplify(pattern: &crate::ir::Pattern) -> Pattern {
use crate::ir::Pattern::*;
@ -153,33 +98,6 @@ fn simplify(pattern: &crate::ir::Pattern) -> Pattern {
}
}
/// Error
#[derive(Clone, Debug, PartialEq)]
pub enum Error {
Incomplete(Region, Context, Vec<Pattern>),
Redundant {
overall_region: Region,
branch_region: Region,
index: Index,
},
}
#[derive(Clone, Debug, PartialEq)]
pub enum Context {
BadArg,
BadDestruct,
BadCase,
}
#[derive(Clone, Debug, PartialEq)]
pub enum Guard {
HasGuard,
NoGuard,
}
/// Check
pub fn check(
region: Region,
patterns: &[(Loc<crate::ir::Pattern>, Guard)],
@ -204,128 +122,13 @@ pub fn check_patterns<'a>(
match to_nonredundant_rows(region, patterns) {
Err(err) => errors.push(err),
Ok(matrix) => {
let bad_patterns = is_exhaustive(&matrix, 1);
if !bad_patterns.is_empty() {
// TODO i suspect this is like a concat in in practice? code below can panic
// if this debug_assert! ever fails, the theory is disproven
debug_assert!(
bad_patterns.iter().map(|v| v.len()).sum::<usize>() == bad_patterns.len()
);
let heads = bad_patterns.into_iter().map(|mut v| v.remove(0)).collect();
errors.push(Error::Incomplete(region, context, heads));
if let Err(err) = roc_exhaustive::check(region, context, matrix) {
*errors = err;
}
}
}
}
/// EXHAUSTIVE PATTERNS
/// INVARIANTS:
///
/// The initial rows "matrix" are all of length 1
/// The initial count of items per row "n" is also 1
/// The resulting rows are examples of missing patterns
fn is_exhaustive(matrix: &PatternMatrix, n: usize) -> PatternMatrix {
if matrix.is_empty() {
vec![std::iter::repeat(Anything).take(n).collect()]
} else if n == 0 {
vec![]
} else {
let ctors = collect_ctors(matrix);
let num_seen = ctors.len();
if num_seen == 0 {
let new_matrix = matrix
.iter()
.filter_map(specialize_row_by_anything)
.collect();
let mut rest = is_exhaustive(&new_matrix, n - 1);
for row in rest.iter_mut() {
row.push(Anything);
}
rest
} else {
let alts = ctors.iter().next().unwrap().1;
let alt_list = &alts.alternatives;
let num_alts = alt_list.len();
if num_seen < num_alts {
let new_matrix = matrix
.iter()
.filter_map(specialize_row_by_anything)
.collect();
let rest: Vec<Vec<Pattern>> = is_exhaustive(&new_matrix, n - 1);
let last: _ = alt_list
.iter()
.filter_map(|r| is_missing(alts.clone(), &ctors, r));
let mut result = Vec::new();
for last_option in last {
for mut row in rest.clone() {
row.push(last_option.clone());
result.push(row);
}
}
result
} else {
let is_alt_exhaustive = |Ctor { arity, tag_id, .. }| {
let new_matrix = matrix
.iter()
.filter_map(|r| specialize_row_by_ctor(tag_id, arity, r))
.collect();
let rest: Vec<Vec<Pattern>> = is_exhaustive(&new_matrix, arity + n - 1);
let mut result = Vec::with_capacity(rest.len());
for row in rest {
result.push(recover_ctor(alts.clone(), tag_id, arity, row));
}
result
};
alt_list
.iter()
.cloned()
.map(is_alt_exhaustive)
.flatten()
.collect()
}
}
}
}
fn is_missing<T>(union: Union, ctors: &MutMap<TagId, T>, ctor: &Ctor) -> Option<Pattern> {
let Ctor { arity, tag_id, .. } = ctor;
if ctors.contains_key(tag_id) {
None
} else {
let anythings = std::iter::repeat(Anything).take(*arity).collect();
Some(Pattern::Ctor(union, *tag_id, anythings))
}
}
fn recover_ctor(
union: Union,
tag_id: TagId,
arity: usize,
mut patterns: Vec<Pattern>,
) -> Vec<Pattern> {
let mut rest = patterns.split_off(arity);
let args = patterns;
rest.push(Ctor(union, tag_id, args));
rest
}
/// REDUNDANT PATTERNS
/// INVARIANT: Produces a list of rows where (forall row. length row == 1)
@ -393,226 +196,3 @@ fn to_nonredundant_rows(
Ok(checked_rows)
}
/// Check if a new row "vector" is useful given previous rows "matrix"
fn is_useful(mut old_matrix: PatternMatrix, mut vector: Row) -> bool {
let mut matrix = Vec::with_capacity(old_matrix.len());
// this loop ping-pongs the rows between old_matrix and matrix
'outer: loop {
match vector.pop() {
_ if old_matrix.is_empty() => {
// No rows are the same as the new vector! The vector is useful!
break true;
}
None => {
// There is nothing left in the new vector, but we still have
// rows that match the same things. This is not a useful vector!
break false;
}
Some(first_pattern) => {
// NOTE: if there are bugs in this code, look at the ordering of the row/matrix
match first_pattern {
// keep checking rows that start with this Ctor or Anything
Ctor(_, id, args) => {
specialize_row_by_ctor2(id, args.len(), &mut old_matrix, &mut matrix);
std::mem::swap(&mut old_matrix, &mut matrix);
vector.extend(args);
}
Anything => {
// check if all alternatives appear in matrix
match is_complete(&old_matrix) {
Complete::No => {
// This Anything is useful because some Ctors are missing.
// But what if a previous row has an Anything?
// If so, this one is not useful.
for mut row in old_matrix.drain(..) {
if let Some(Anything) = row.pop() {
matrix.push(row);
}
}
std::mem::swap(&mut old_matrix, &mut matrix);
}
Complete::Yes(alternatives) => {
// All Ctors are covered, so this Anything is not needed for any
// of those. But what if some of those Ctors have subpatterns
// that make them less general? If so, this actually is useful!
for alternative in alternatives {
let Ctor { arity, tag_id, .. } = alternative;
let mut old_matrix = old_matrix.clone();
let mut matrix = vec![];
specialize_row_by_ctor2(
tag_id,
arity,
&mut old_matrix,
&mut matrix,
);
let mut vector = vector.clone();
vector.extend(std::iter::repeat(Anything).take(arity));
if is_useful(matrix, vector) {
break 'outer true;
}
}
break false;
}
}
}
Literal(literal) => {
// keep checking rows that start with this Literal or Anything
for mut row in old_matrix.drain(..) {
let head = row.pop();
let patterns = row;
match head {
Some(Literal(lit)) => {
if lit == literal {
matrix.push(patterns);
} else {
// do nothing
}
}
Some(Anything) => matrix.push(patterns),
Some(Ctor(_, _, _)) => panic!(
r#"Compiler bug! After type checking, constructors and literals should never align in pattern match exhaustiveness checks."#
),
None => panic!(
"Compiler error! Empty matrices should not get specialized."
),
}
}
std::mem::swap(&mut old_matrix, &mut matrix);
}
}
}
}
}
}
/// INVARIANT: (length row == N) ==> (length result == arity + N - 1)
fn specialize_row_by_ctor2(
tag_id: TagId,
arity: usize,
old_matrix: &mut PatternMatrix,
matrix: &mut PatternMatrix,
) {
for mut row in old_matrix.drain(..) {
let head = row.pop();
let mut patterns = row;
match head {
Some(Ctor(_, id, args)) =>
if id == tag_id {
patterns.extend(args);
matrix.push(patterns);
} else {
// do nothing
}
Some(Anything) => {
// TODO order!
patterns.extend(std::iter::repeat(Anything).take(arity));
matrix.push(patterns);
}
Some(Literal(_)) => panic!( "Compiler bug! After type checking, constructors and literal should never align in pattern match exhaustiveness checks."),
None => panic!("Compiler error! Empty matrices should not get specialized."),
}
}
}
/// INVARIANT: (length row == N) ==> (length result == arity + N - 1)
fn specialize_row_by_ctor(tag_id: TagId, arity: usize, row: &Row) -> Option<Row> {
let mut row = row.clone();
let head = row.pop();
let patterns = row;
match head {
Some(Ctor(_, id, args)) => {
if id == tag_id {
// TODO order!
let mut new_patterns = Vec::new();
new_patterns.extend(args);
new_patterns.extend(patterns);
Some(new_patterns)
} else {
None
}
}
Some(Anything) => {
// TODO order!
let new_patterns = std::iter::repeat(Anything)
.take(arity)
.chain(patterns)
.collect();
Some(new_patterns)
}
Some(Literal(_)) => unreachable!(
r#"Compiler bug! After type checking, a constructor can never align with a literal: that should be a type error!"#
),
None => panic!("Compiler error! Empty matrices should not get specialized."),
}
}
/// INVARIANT: (length row == N) ==> (length result == N-1)
fn specialize_row_by_anything(row: &Row) -> Option<Row> {
let mut row = row.clone();
match row.pop() {
Some(Anything) => Some(row),
_ => None,
}
}
/// ALL CONSTRUCTORS ARE PRESENT?
pub enum Complete {
Yes(Vec<Ctor>),
No,
}
fn is_complete(matrix: &PatternMatrix) -> Complete {
let ctors = collect_ctors(matrix);
let length = ctors.len();
let mut it = ctors.into_iter();
match it.next() {
None => Complete::No,
Some((_, Union { alternatives, .. })) => {
if length == alternatives.len() {
Complete::Yes(alternatives)
} else {
Complete::No
}
}
}
}
/// COLLECT CTORS
type RefPatternMatrix = [Vec<Pattern>];
type PatternMatrix = Vec<Vec<Pattern>>;
type Row = Vec<Pattern>;
fn collect_ctors(matrix: &RefPatternMatrix) -> MutMap<TagId, Union> {
let mut ctors = MutMap::default();
for row in matrix {
if let Some(Ctor(union, id, _)) = row.get(row.len() - 1) {
ctors.insert(*id, union.clone());
}
}
ctors
}

40
compiler/mono/src/ir.rs
View file

@ -1,6 +1,5 @@
#![allow(clippy::manual_map)]
use crate::exhaustive::{Ctor, Guard, RenderAs, TagId};
use crate::layout::{
Builtin, ClosureRepresentation, LambdaSet, Layout, LayoutCache, LayoutProblem,
RawFunctionLayout, TagIdIntType, UnionLayout, WrappedVariant,
@ -10,6 +9,7 @@ use bumpalo::Bump;
use roc_builtins::bitcode::{FloatWidth, IntWidth};
use roc_can::expr::{ClosureData, IntValue};
use roc_collections::all::{default_hasher, BumpMap, BumpMapDefault, MutMap};
use roc_exhaustive::{Ctor, Guard, RenderAs, TagId};
use roc_module::ident::{ForeignSymbol, Lowercase, TagName};
use roc_module::low_level::LowLevel;
use roc_module::symbol::{IdentIds, ModuleId, Symbol};
@ -95,7 +95,7 @@ pub enum OptLevel {
#[derive(Clone, Debug, PartialEq)]
pub enum MonoProblem {
PatternProblem(crate::exhaustive::Error),
PatternProblem(roc_exhaustive::Error),
}
#[derive(Debug, Clone, Copy)]
@ -1895,7 +1895,7 @@ fn patterns_to_when<'a>(
// see https://github.com/rtfeldman/roc/issues/786
// this must be fixed when moving exhaustiveness checking to the new canonical AST
for (pattern_var, pattern) in patterns.into_iter() {
let context = crate::exhaustive::Context::BadArg;
let context = roc_exhaustive::Context::BadArg;
let mono_pattern = match from_can_pattern(env, layout_cache, &pattern.value) {
Ok((pat, _assignments)) => {
// Don't apply any assignments (e.g. to initialize optional variables) yet.
@ -1921,7 +1921,7 @@ fn patterns_to_when<'a>(
pattern.region,
&[(
Loc::at(pattern.region, mono_pattern),
crate::exhaustive::Guard::NoGuard,
roc_exhaustive::Guard::NoGuard,
)],
context,
) {
@ -3279,12 +3279,12 @@ pub fn with_hole<'a>(
}
};
let context = crate::exhaustive::Context::BadDestruct;
let context = roc_exhaustive::Context::BadDestruct;
match crate::exhaustive::check(
def.loc_pattern.region,
&[(
Loc::at(def.loc_pattern.region, mono_pattern.clone()),
crate::exhaustive::Guard::NoGuard,
roc_exhaustive::Guard::NoGuard,
)],
context,
) {
@ -5619,12 +5619,12 @@ pub fn from_can<'a>(
hole,
)
} else {
let context = crate::exhaustive::Context::BadDestruct;
let context = roc_exhaustive::Context::BadDestruct;
match crate::exhaustive::check(
def.loc_pattern.region,
&[(
Loc::at(def.loc_pattern.region, mono_pattern.clone()),
crate::exhaustive::Guard::NoGuard,
roc_exhaustive::Guard::NoGuard,
)],
context,
) {
@ -5750,11 +5750,11 @@ fn to_opt_branches<'a>(
// NOTE exhaustiveness is checked after the construction of all the branches
// In contrast to elm (currently), we still do codegen even if a pattern is non-exhaustive.
// So we not only report exhaustiveness errors, but also correct them
let context = crate::exhaustive::Context::BadCase;
let context = roc_exhaustive::Context::BadCase;
match crate::exhaustive::check(region, &loc_branches, context) {
Ok(_) => {}
Err(errors) => {
use crate::exhaustive::Error::*;
use roc_exhaustive::Error::*;
let mut is_not_exhaustive = false;
let mut overlapping_branches = std::vec::Vec::new();
@ -7657,12 +7657,12 @@ pub enum Pattern<'a> {
BitLiteral {
value: bool,
tag_name: TagName,
union: crate::exhaustive::Union,
union: roc_exhaustive::Union,
},
EnumLiteral {
tag_id: u8,
tag_name: TagName,
union: crate::exhaustive::Union,
union: roc_exhaustive::Union,
},
StrLiteral(Box<str>),
@ -7676,7 +7676,7 @@ pub enum Pattern<'a> {
tag_id: TagIdIntType,
arguments: Vec<'a, (Pattern<'a>, Layout<'a>)>,
layout: UnionLayout<'a>,
union: crate::exhaustive::Union,
union: roc_exhaustive::Union,
},
OpaqueUnwrap {
opaque: Symbol,
@ -7817,8 +7817,8 @@ fn from_can_pattern_help<'a>(
arguments,
..
} => {
use crate::exhaustive::Union;
use crate::layout::UnionVariant::*;
use roc_exhaustive::Union;
let res_variant =
crate::layout::union_sorted_tags(env.arena, *whole_var, env.subs, env.target_info)
@ -7883,7 +7883,7 @@ fn from_can_pattern_help<'a>(
})
}
let union = crate::exhaustive::Union {
let union = roc_exhaustive::Union {
render_as: RenderAs::Tag,
alternatives: ctors,
};
@ -7974,7 +7974,7 @@ fn from_can_pattern_help<'a>(
})
}
let union = crate::exhaustive::Union {
let union = roc_exhaustive::Union {
render_as: RenderAs::Tag,
alternatives: ctors,
};
@ -8026,7 +8026,7 @@ fn from_can_pattern_help<'a>(
})
}
let union = crate::exhaustive::Union {
let union = roc_exhaustive::Union {
render_as: RenderAs::Tag,
alternatives: ctors,
};
@ -8069,7 +8069,7 @@ fn from_can_pattern_help<'a>(
arity: fields.len(),
});
let union = crate::exhaustive::Union {
let union = roc_exhaustive::Union {
render_as: RenderAs::Tag,
alternatives: ctors,
};
@ -8139,7 +8139,7 @@ fn from_can_pattern_help<'a>(
});
}
let union = crate::exhaustive::Union {
let union = roc_exhaustive::Union {
render_as: RenderAs::Tag,
alternatives: ctors,
};
@ -8194,7 +8194,7 @@ fn from_can_pattern_help<'a>(
arity: other_fields.len() - 1,
});
let union = crate::exhaustive::Union {
let union = roc_exhaustive::Union {
render_as: RenderAs::Tag,
alternatives: ctors,
};

1
reporting/Cargo.toml
View file

@ -7,6 +7,7 @@ edition = "2018"
[dependencies]
roc_collections = { path = "../compiler/collections" }
roc_exhaustive = { path = "../compiler/exhaustive" }
roc_region = { path = "../compiler/region" }
roc_module = { path = "../compiler/module" }
roc_parse = { path = "../compiler/parse" }

16
reporting/src/error/mono.rs
View file

@ -10,8 +10,8 @@ pub fn mono_problem<'b>(
filename: PathBuf,
problem: roc_mono::ir::MonoProblem,
) -> Report<'b> {
use roc_mono::exhaustive::Context::*;
use roc_mono::exhaustive::Error::*;
use roc_exhaustive::Context::*;
use roc_exhaustive::Error::*;
use roc_mono::ir::MonoProblem::*;
match problem {
@ -121,7 +121,7 @@ pub fn mono_problem<'b>(
pub fn unhandled_patterns_to_doc_block<'b>(
alloc: &'b RocDocAllocator<'b>,
patterns: Vec<roc_mono::exhaustive::Pattern>,
patterns: Vec<roc_exhaustive::Pattern>,
) -> RocDocBuilder<'b> {
alloc
.vcat(patterns.into_iter().map(|v| pattern_to_doc(alloc, v)))
@ -131,19 +131,19 @@ pub fn unhandled_patterns_to_doc_block<'b>(
fn pattern_to_doc<'b>(
alloc: &'b RocDocAllocator<'b>,
pattern: roc_mono::exhaustive::Pattern,
pattern: roc_exhaustive::Pattern,
) -> RocDocBuilder<'b> {
pattern_to_doc_help(alloc, pattern, false)
}
fn pattern_to_doc_help<'b>(
alloc: &'b RocDocAllocator<'b>,
pattern: roc_mono::exhaustive::Pattern,
pattern: roc_exhaustive::Pattern,
in_type_param: bool,
) -> RocDocBuilder<'b> {
use roc_mono::exhaustive::Literal::*;
use roc_mono::exhaustive::Pattern::*;
use roc_mono::exhaustive::RenderAs;
use roc_exhaustive::Literal::*;
use roc_exhaustive::Pattern::*;
use roc_exhaustive::RenderAs;
match pattern {
Anything => alloc.text("_"),