dart-sass/lib/src/utils.dart

// Copyright 2016 Google Inc. Use of this source code is governed by an
// MIT-style license that can be found in the LICENSE file or at
// https://opensource.org/licenses/MIT.

import 'dart:collection';
import 'dart:math' as math;

import 'package:charcode/charcode.dart';
import 'package:collection/collection.dart';
import 'package:source_span/source_span.dart';

import 'ast/node.dart';
import 'value/number.dart';

const _epsilon = 1 / (10 * SassNumber.precision);

class LinkedListValue<T> extends LinkedListEntry<LinkedListValue<T>> {
  final T value;

  LinkedListValue(this.value);
}

/// A pair of values.
class Pair<E, F> {
  final E first;
  final F last;

  Pair(this.first, this.last);

  String toString() => '($first, $last)';

  bool operator==(other) {
    if (other is! Pair) return false;
    return other.first == first && other.last == last;
  }

  int get hashCode => first.hashCode ^ last.hashCode;
}

bool listEquals/*<T>*/(List/*<T>*/ list1, List/*<T>*/ list2) =>
    const ListEquality().equals(list1, list2);

int listHash(List list) => const ListEquality().hash(list);

FileSpan spanForList(List<AstNode> nodes) {
  if (nodes.isEmpty) return null;
  return nodes.first.span.expand(nodes.last.span);
}

String unvendor(String name) {
  if (name.length < 2) return name;
  if (name.codeUnitAt(0) != $dash) return name;
  if (name.codeUnitAt(1) == $dash) return name;

  for (var i = 2; i < name.length; i++) {
    if (name.codeUnitAt(i) == $dash) return name.substring(i + 1);
  }
  return name;
}

bool equalsIgnoreCase(String string1, String string2) {
  if (string1 == null) return string2 == null;
  if (string2 == null) return false;
  if (string1.length != string2.length) return false;
  return string1.toUpperCase() == string2.toUpperCase();
}

bool almostEquals(num number1, num number2) =>
    (number1 - number2).abs() < _epsilon;

List/*<T>*/ longestCommonSubsequence/*<T>*/(List/*<T>*/ list1,
    List/*<T>*/ list2, {/*=T*/ select(/*=T*/ element1, /*=T*/ element2)}) {
  select ??= (element1, element2) => element1 == element2 ? element1 : null;

  var lengths = new List.generate(
      list1.length + 1, (_) => new List.filled(list2.length + 1, 0),
      growable: false);

  var selections = new List<List/*<T>*/>.generate(
      list1.length, (_) => new List/*<T>*/(list2.length),
      growable: false);

  // TODO(nweiz): Calling [select] here may be expensive. Can we use a memoizing
  // approach to avoid calling it O(n*m) times in most cases?
  for (var i = 0; i < list1.length; i++) {
    for (var j = 0; j < list2.length; j++) {
      var selection = select(list1[i], list2[j]);
      selections[i][j] = selection;
      lengths[i + 1][j + 1] = selection == null
          ? math.max(lengths[i + 1][j], lengths[i][j + 1])
          : lengths[i][j] + 1;
    }
  }

  List/*<T>*/ backtrack(int i, int j) {
    if (i == -1 || j == -1) return [];
    var selection = selections[i][j];
    if (selection != null) return backtrack(i - 1, j - 1)..add(selection);

    return lengths[i + 1][j] > lengths[i][j + 1]
        ? backtrack(i, j - 1)
        : backtrack(i - 1, j);
  }

  return backtrack(list1.length - 1, list2.length - 1);
}
Checked-mode clean. 2016-05-24 03:01:15 +02:00			`// Copyright 2016 Google Inc. Use of this source code is governed by an`
			`// MIT-style license that can be found in the LICENSE file or at`
			`// https://opensource.org/licenses/MIT.`

Simple perform. 2016-05-24 23:01:41 +02:00			`import 'dart:collection';`
some analysis fixes 2016-08-05 02:25:57 +02:00			`import 'dart:math' as math;`
Simple perform. 2016-05-24 23:01:41 +02:00
Add selector parsing. Not yet hooked up to perform. 2016-06-06 08:51:50 +02:00			`import 'package:charcode/charcode.dart';`
Fix most strong-mode errors. 2016-08-13 00:24:27 +02:00			`import 'package:collection/collection.dart';`
Checked-mode clean. 2016-05-24 03:01:15 +02:00			`import 'package:source_span/source_span.dart';`

			`import 'ast/node.dart';`
Add a dedicated serializer. 2016-06-03 22:36:20 +02:00			`import 'value/number.dart';`

Prefix all values. 2016-06-04 01:31:29 +02:00			`const _epsilon = 1 / (10 * SassNumber.precision);`
Checked-mode clean. 2016-05-24 03:01:15 +02:00
Partial media query parsing. Still needs classes, plain-CSS parsing, and to be hooked up to visitors. 2016-06-10 02:55:04 +02:00			`class LinkedListValue<T> extends LinkedListEntry<LinkedListValue<T>> {`
			`final T value;`

			`LinkedListValue(this.value);`
			`}`

Add maps. 2016-08-15 07:32:00 +02:00			`/// A pair of values.`
			`class Pair<E, F> {`
			`final E first;`
			`final F last;`

			`Pair(this.first, this.last);`

			`String toString() => '($first, $last)';`

			`bool operator==(other) {`
			`if (other is! Pair) return false;`
			`return other.first == first && other.last == last;`
			`}`

			`int get hashCode => first.hashCode ^ last.hashCode;`
			`}`

Fix most strong-mode errors. 2016-08-13 00:24:27 +02:00			`bool listEquals/<T>/(List/<T>/ list1, List/<T>/ list2) =>`
			`const ListEquality().equals(list1, list2);`

Add _selectorPseudoIsSuperselector. 2016-08-13 01:53:19 +02:00			`int listHash(List list) => const ListEquality().hash(list);`

SourceSpan -> FileSpan 2016-06-06 09:05:04 +02:00			`FileSpan spanForList(List<AstNode> nodes) {`
Checked-mode clean. 2016-05-24 03:01:15 +02:00			`if (nodes.isEmpty) return null;`
SourceSpan -> FileSpan 2016-06-06 09:05:04 +02:00			`return nodes.first.span.expand(nodes.last.span);`
Checked-mode clean. 2016-05-24 03:01:15 +02:00			`}`
Simple perform. 2016-05-24 23:01:41 +02:00
Add selector parsing. Not yet hooked up to perform. 2016-06-06 08:51:50 +02:00			`String unvendor(String name) {`
Use unvendor() in Pseudo. Also, fix unvendor(). 2016-08-19 23:25:44 +02:00			`if (name.length < 2) return name;`
			`if (name.codeUnitAt(0) != $dash) return name;`
			`if (name.codeUnitAt(1) == $dash) return name;`
Add selector parsing. Not yet hooked up to perform. 2016-06-06 08:51:50 +02:00
Use unvendor() in Pseudo. Also, fix unvendor(). 2016-08-19 23:25:44 +02:00			`for (var i = 2; i < name.length; i++) {`
			`if (name.codeUnitAt(i) == $dash) return name.substring(i + 1);`
Add selector parsing. Not yet hooked up to perform. 2016-06-06 08:51:50 +02:00			`}`
			`return name;`
			`}`

Partial media query parsing. Still needs classes, plain-CSS parsing, and to be hooked up to visitors. 2016-06-10 02:55:04 +02:00			`bool equalsIgnoreCase(String string1, String string2) {`
			`if (string1 == null) return string2 == null;`
			`if (string2 == null) return false;`
			`if (string1.length != string2.length) return false;`
			`return string1.toUpperCase() == string2.toUpperCase();`
Simple perform. 2016-05-24 23:01:41 +02:00			`}`
Add a dedicated serializer. 2016-06-03 22:36:20 +02:00
			`bool almostEquals(num number1, num number2) =>`
			`(number1 - number2).abs() < _epsilon;`
Partial media query parsing. Still needs classes, plain-CSS parsing, and to be hooked up to visitors. 2016-06-10 02:55:04 +02:00
Add an LCS implementation. 2016-08-02 20:36:34 +02:00			`List/<T>/ longestCommonSubsequence/<T>/(List/<T>/ list1,`
			`List/<T>/ list2, {/=T/ select(/=T/ element1, /=T/ element2)}) {`
			`select ??= (element1, element2) => element1 == element2 ? element1 : null;`

			`var lengths = new List.generate(`
			`list1.length + 1, (_) => new List.filled(list2.length + 1, 0),`
			`growable: false);`

Fix analysis. 2016-08-15 05:19:27 +02:00			`var selections = new List<List/<T>/>.generate(`
Add an LCS implementation. 2016-08-02 20:36:34 +02:00			`list1.length, (_) => new List/<T>/(list2.length),`
			`growable: false);`

			`// TODO(nweiz): Calling [select] here may be expensive. Can we use a memoizing`
			`// approach to avoid calling it O(n*m) times in most cases?`
			`for (var i = 0; i < list1.length; i++) {`
			`for (var j = 0; j < list2.length; j++) {`
			`var selection = select(list1[i], list2[j]);`
			`selections[i][j] = selection;`
			`lengths[i + 1][j + 1] = selection == null`
			`? math.max(lengths[i + 1][j], lengths[i][j + 1])`
			`: lengths[i][j] + 1;`
			`}`
			`}`

			`List/<T>/ backtrack(int i, int j) {`
			`if (i == -1 \|\| j == -1) return [];`
			`var selection = selections[i][j];`
			`if (selection != null) return backtrack(i - 1, j - 1)..add(selection);`

			`return lengths[i + 1][j] > lengths[i][j + 1]`
			`? backtrack(i, j - 1)`
			`: backtrack(i - 1, j);`
			`}`

			`return backtrack(list1.length - 1, list2.length - 1);`
			`}`