rustdoc-search: build args, return, and generics on one unifier

This enhances generics with the "unboxing" behavior where A<T>
matches T. It makes this unboxing transitive over generics.
This commit is contained in:
Michael Howell 2023-06-02 19:58:44 -07:00
parent 04f4493722
commit 9946d67579
4 changed files with 178 additions and 138 deletions

View File

@ -53,7 +53,7 @@ let ParsedQuery;
* parent: (Object|null|undefined),
* path: string,
* ty: (Number|null|number),
* type: (Array<?>|null)
* type: FunctionSearchType?
* }}
*/
let Row;
@ -135,7 +135,7 @@ let RawFunctionType;
/**
* @typedef {{
* inputs: Array<FunctionType>,
* outputs: Array<FunctionType>,
* output: Array<FunctionType>,
* }}
*/
let FunctionSearchType;

View File

@ -1178,67 +1178,79 @@ function initSearch(rawSearchIndex) {
}
/**
* This function checks if the object (`row`) generics match the given type (`elem`)
* generics.
* This function checks generics in search query `queryElem` can all be found in the
* search index (`fnType`),
*
* @param {Row} row - The object to check.
* @param {QueryElement} elem - The element from the parsed query.
* @param {FunctionType} fnType - The object to check.
* @param {QueryElement} queryElem - The element from the parsed query.
*
* @return {boolean} - Returns true if a match, false otherwise.
*/
function checkGenerics(row, elem) {
if (row.generics.length === 0 || elem.generics.length === 0) {
return false;
function checkGenerics(fnType, queryElem) {
return unifyFunctionTypes(fnType.generics, queryElem.generics);
}
// This function is called if the names match, but we need to make
// sure that all generics match as well.
//
/**
* This function checks if a list of search query `queryElems` can all be found in the
* search index (`fnTypes`).
*
* @param {Array<FunctionType>} fnTypes - The objects to check.
* @param {Array<QueryElement>} queryElems - The elements from the parsed query.
*
* @return {boolean} - Returns true if a match, false otherwise.
*/
function unifyFunctionTypes(fnTypes, queryElems) {
// This search engine implements order-agnostic unification. There
// should be no missing duplicates (generics have "bag semantics"),
// and the row is allowed to have extras.
if (elem.generics.length <= 0 || row.generics.length < elem.generics.length) {
if (queryElems.length === 0) {
return true;
}
if (!fnTypes || fnTypes.length === 0) {
return false;
}
const elems = new Map();
const addEntryToElems = function addEntryToElems(entry) {
if (entry.id === -1) {
/**
* @type Map<integer, FunctionType[]>
*/
const fnTypeSet = new Map();
const addFnTypeToFnTypeSet = function addFnTypeToFnTypeSet(fnType) {
if (fnType.id === -1) {
// Pure generic, needs to check into it.
for (const inner_entry of entry.generics) {
addEntryToElems(inner_entry);
for (const innerFnType of fnType.generics) {
addFnTypeToFnTypeSet(innerFnType);
}
return;
}
let currentEntryElems;
if (elems.has(entry.id)) {
currentEntryElems = elems.get(entry.id);
let currentFnTypeList;
if (fnTypeSet.has(fnType.id)) {
currentFnTypeList = fnTypeSet.get(fnType.id);
} else {
currentEntryElems = [];
elems.set(entry.id, currentEntryElems);
currentFnTypeList = [];
fnTypeSet.set(fnType.id, currentFnTypeList);
}
currentEntryElems.push(entry);
currentFnTypeList.push(fnType);
};
for (const entry of row.generics) {
addEntryToElems(entry);
for (const fnType of fnTypes) {
addFnTypeToFnTypeSet(fnType);
}
// We need to find the type that matches the most to remove it in order
// to move forward.
const handleGeneric = generic => {
if (!elems.has(generic.id)) {
const handleQueryElem = queryElem => {
if (!fnTypeSet.has(queryElem.id)) {
return false;
}
const matchElems = elems.get(generic.id);
const matchIdx = matchElems.findIndex(tmp_elem => {
if (generic.generics.length > 0 && !checkGenerics(tmp_elem, generic)) {
const currentFnTypeList = fnTypeSet.get(queryElem.id);
const matchIdx = currentFnTypeList.findIndex(fnType => {
if (!typePassesFilter(queryElem.typeFilter, fnType.ty)) {
return false;
}
return typePassesFilter(generic.typeFilter, tmp_elem.ty);
return queryElem.generics.length === 0 || checkGenerics(fnType, queryElem);
});
if (matchIdx === -1) {
return false;
}
matchElems.splice(matchIdx, 1);
if (matchElems.length === 0) {
elems.delete(generic.id);
currentFnTypeList.splice(matchIdx, 1);
if (currentFnTypeList.length === 0) {
fnTypeSet.delete(queryElem.id);
}
return true;
};
@ -1246,31 +1258,58 @@ function initSearch(rawSearchIndex) {
// that have them, removing matching ones from the "bag," then do the
// ones with no type filter, which can match any entry regardless of its
// own type.
for (const generic of elem.generics) {
if (generic.typeFilter === TY_PRIMITIVE &&
generic.id === typeNameIdOfArrayOrSlice) {
const genericArray = {
const needsUnboxed = [];
for (const queryElem of queryElems) {
if (queryElem.typeFilter === TY_PRIMITIVE &&
queryElem.id === typeNameIdOfArrayOrSlice) {
const queryElemArray = {
id: typeNameIdOfArray,
typeFilter: TY_PRIMITIVE,
generics: generic.generics,
generics: queryElem.generics,
};
const genericSlice = {
const queryElemSlice = {
id: typeNameIdOfSlice,
typeFilter: TY_PRIMITIVE,
generics: generic.generics,
generics: queryElem.generics,
};
if (!handleGeneric(genericArray) && !handleGeneric(genericSlice)) {
if (!handleQueryElem(queryElemArray) && !handleQueryElem(queryElemSlice)) {
needsUnboxed.push(queryElem);
}
} else if (queryElem.typeFilter !== -1 && !handleQueryElem(queryElem)) {
needsUnboxed.push(queryElem);
}
}
for (const queryElem of queryElems) {
if (queryElem.typeFilter === -1 && !handleQueryElem(queryElem)) {
needsUnboxed.push(queryElem);
}
}
// If the current item does not match, try [unboxing] the generic.
// [unboxing]:
// https://ndmitchell.com/downloads/slides-hoogle_fast_type_searching-09_aug_2008.pdf
unboxing: while (needsUnboxed.length !== 0) {
for (const [i, queryElem] of needsUnboxed.entries()) {
if (handleQueryElem(queryElem)) {
needsUnboxed.splice(i, 1);
continue unboxing;
}
}
for (const [id, fnTypeList] of fnTypeSet) {
for (const [i, fnType] of fnTypeList.entries()) {
if (fnType.generics.length !== 0) {
fnTypeList.splice(i, 1);
for (const innerFnType of fnType.generics) {
addFnTypeToFnTypeSet(innerFnType);
}
if (fnTypeList.length === 0) {
fnTypeSet.delete(id);
}
continue unboxing;
}
}
}
return false;
}
} else if (generic.typeFilter !== -1 && !handleGeneric(generic)) {
return false;
}
}
for (const generic of elem.generics) {
if (generic.typeFilter === -1 && !handleGeneric(generic)) {
return false;
}
}
return true;
}
@ -1278,13 +1317,13 @@ function initSearch(rawSearchIndex) {
* This function checks if the object (`row`) matches the given type (`elem`) and its
* generics (if any).
*
* @param {Row} row
* @param {Array<FunctionType>} list
* @param {QueryElement} elem - The element from the parsed query.
*
* @return {boolean} - Returns true if found, false otherwise.
*/
function checkIfInGenerics(row, elem) {
for (const entry of row.generics) {
function checkIfInList(list, elem) {
for (const entry of list) {
if (checkType(entry, elem)) {
return true;
}
@ -1304,7 +1343,7 @@ function initSearch(rawSearchIndex) {
function checkType(row, elem) {
if (row.id === -1) {
// This is a pure "generic" search, no need to run other checks.
return row.generics.length > 0 ? checkIfInGenerics(row, elem) : false;
return row.generics.length > 0 ? checkIfInList(row.generics, elem) : false;
}
const matchesExact = row.id === elem.id;
@ -1322,59 +1361,7 @@ function initSearch(rawSearchIndex) {
// If the current item does not match, try [unboxing] the generic.
// [unboxing]:
// https://ndmitchell.com/downloads/slides-hoogle_fast_type_searching-09_aug_2008.pdf
return checkIfInGenerics(row, elem);
}
/**
* This function checks if the object (`row`) has an argument with the given type (`elem`).
*
* @param {Row} row
* @param {QueryElement} elem - The element from the parsed query.
* @param {Array<integer>} skipPositions - Do not return one of these positions.
*
* @return {integer} - Returns the position of the match, or -1 if none.
*/
function findArg(row, elem, skipPositions) {
if (row && row.type && row.type.inputs && row.type.inputs.length > 0) {
let i = 0;
for (const input of row.type.inputs) {
if (skipPositions.indexOf(i) !== -1) {
i += 1;
continue;
}
if (checkType(input, elem)) {
return i;
}
i += 1;
}
}
return -1;
}
/**
* This function checks if the object (`row`) returns the given type (`elem`).
*
* @param {Row} row
* @param {QueryElement} elem - The element from the parsed query.
* @param {Array<integer>} skipPositions - Do not return one of these positions.
*
* @return {integer} - Returns the position of the matching item, or -1 if none.
*/
function checkReturned(row, elem, skipPositions) {
if (row && row.type && row.type.output.length > 0) {
let i = 0;
for (const ret_ty of row.type.output) {
if (skipPositions.indexOf(i) !== -1) {
i += 1;
continue;
}
if (checkType(ret_ty, elem)) {
return i;
}
i += 1;
}
}
return -1;
return checkIfInList(row.generics, elem);
}
function checkPath(contains, ty, maxEditDistance) {
@ -1575,14 +1562,14 @@ function initSearch(rawSearchIndex) {
const fullId = row.id;
const searchWord = searchWords[pos];
const in_args = findArg(row, elem, []);
if (in_args !== -1) {
const in_args = row.type && row.type.inputs && checkIfInList(row.type.inputs, elem);
if (in_args) {
// path_dist is 0 because no parent path information is currently stored
// in the search index
addIntoResults(results_in_args, fullId, pos, -1, 0, 0, maxEditDistance);
}
const returned = checkReturned(row, elem, []);
if (returned !== -1) {
const returned = row.type && row.type.output && checkIfInList(row.type.output, elem);
if (returned) {
addIntoResults(results_returned, fullId, pos, -1, 0, 0, maxEditDistance);
}
@ -1638,32 +1625,15 @@ function initSearch(rawSearchIndex) {
* @param {Object} results
*/
function handleArgs(row, pos, results) {
if (!row || (filterCrates !== null && row.crate !== filterCrates)) {
if (!row || (filterCrates !== null && row.crate !== filterCrates) || !row.type) {
return;
}
// If the result is too "bad", we return false and it ends this search.
function checkArgs(elems, callback) {
const skipPositions = [];
for (const elem of elems) {
// There is more than one parameter to the query so all checks should be "exact"
const position = callback(
row,
elem,
skipPositions
);
if (position !== -1) {
skipPositions.push(position);
} else {
return false;
}
}
return true;
}
if (!checkArgs(parsedQuery.elems, findArg)) {
if (!unifyFunctionTypes(row.type.inputs, parsedQuery.elems)) {
return;
}
if (!checkArgs(parsedQuery.returned, checkReturned)) {
if (!unifyFunctionTypes(row.type.output, parsedQuery.returned)) {
return;
}
@ -1750,12 +1720,9 @@ function initSearch(rawSearchIndex) {
elem = parsedQuery.returned[0];
for (i = 0, nSearchWords = searchWords.length; i < nSearchWords; ++i) {
row = searchIndex[i];
in_returned = checkReturned(
row,
elem,
[]
);
if (in_returned !== -1) {
in_returned = row.type &&
unifyFunctionTypes(row.type.output, parsedQuery.returned);
if (in_returned) {
addIntoResults(
results_others,
row.id,

View File

@ -0,0 +1,68 @@
// exact-check
const EXPECTED = [
{
'query': '-> Result<Object, bool>',
'others': [
{ 'path': 'nested_unboxed', 'name': 'something' },
],
},
{
'query': '-> Result<Object<i32, u32>, bool>',
'others': [
{ 'path': 'nested_unboxed', 'name': 'something' },
],
},
{
'query': '-> Object, bool',
'others': [
{ 'path': 'nested_unboxed', 'name': 'something' },
],
},
{
'query': '-> Object<i32, u32>, bool',
'others': [
{ 'path': 'nested_unboxed', 'name': 'something' },
],
},
{
'query': '-> i32, u32, bool',
'others': [
{ 'path': 'nested_unboxed', 'name': 'something' },
],
},
{
'query': '-> Result<i32, u32, bool>',
'others': [
{ 'path': 'nested_unboxed', 'name': 'something' },
],
},
{
'query': '-> Result<Object<i32>, bool>',
'others': [
{ 'path': 'nested_unboxed', 'name': 'something' },
],
},
{
'query': '-> Result<Object<u32>, bool>',
'others': [
{ 'path': 'nested_unboxed', 'name': 'something' },
],
},
{
'query': '-> Result<Object<i32>, u32, bool>',
'others': [],
},
{
'query': '-> Result<i32, Object<u32>, bool>',
'others': [],
},
{
'query': '-> Result<i32, u32, Object<bool>>',
'others': [],
},
{
'query': '-> Result<Object<i32>, Object<u32>, bool>',
'others': [],
},
];

View File

@ -0,0 +1,5 @@
pub struct Object<T, U>(T, U);
pub fn something() -> Result<Object<i32, u32>, bool> {
loop {}
}