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// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
/**
* Tests for the toString methods on collections and maps.
*/
library collection_to_string;
import "package:expect/expect.dart";
import 'dart:collection' show Queue, LinkedHashMap;
import 'dart:math' as Math;
// TODO(jjb): seed random number generator when API allows it
const int NUM_TESTS = 300;
const int MAX_COLLECTION_SIZE = 7;
Math.Random rand;
main() {
rand = new Math.Random();
smokeTest();
exactTest();
inexactTest();
}
/**
* Test a few simple examples.
*/
void smokeTest() {
// Non-const lists
Expect.equals([].toString(), '[]');
Expect.equals([1].toString(), '[1]');
Expect.equals(['Elvis'].toString(), '[Elvis]');
Expect.equals([null].toString(), '[null]');
Expect.equals([1, 2].toString(), '[1, 2]');
Expect.equals(['I', 'II'].toString(), '[I, II]');
Expect.equals(
[
[1, 2],
[3, 4],
[5, 6]
].toString(),
'[[1, 2], [3, 4], [5, 6]]');
// Const lists
Expect.equals((const []).toString(), '[]');
Expect.equals((const [1]).toString(), '[1]');
Expect.equals((const ['Elvis']).toString(), '[Elvis]');
Expect.equals((const [null]).toString(), '[null]');
Expect.equals((const [1, 2]).toString(), '[1, 2]');
Expect.equals((const ['I', 'II']).toString(), '[I, II]');
Expect.equals(
(const [
const [1, 2],
const [3, 4],
const [5, 6]
])
.toString(),
'[[1, 2], [3, 4], [5, 6]]');
// Non-const maps - Note that all keys are strings; the spec currently demands this
Expect.equals({}.toString(), '{}');
Expect.equals({'Elvis': 'King'}.toString(), '{Elvis: King}');
Expect.equals({'Elvis': null}.toString(), '{Elvis: null}');
Expect.equals({'I': 1, 'II': 2}.toString(), '{I: 1, II: 2}');
Expect.equals(
{
'X': {'I': 1, 'II': 2},
'Y': {'III': 3, 'IV': 4},
'Z': {'V': 5, 'VI': 6}
}.toString(),
'{X: {I: 1, II: 2}, Y: {III: 3, IV: 4}, Z: {V: 5, VI: 6}}');
// Const maps
Expect.equals(const {}.toString(), '{}');
Expect.equals(const {'Elvis': 'King'}.toString(), '{Elvis: King}');
Expect.equals({'Elvis': null}.toString(), '{Elvis: null}');
Expect.equals(const {'I': 1, 'II': 2}.toString(), '{I: 1, II: 2}');
Expect.equals(
const {
'X': const {'I': 1, 'II': 2},
'Y': const {'III': 3, 'IV': 4},
'Z': const {'V': 5, 'VI': 6}
}.toString(),
'{X: {I: 1, II: 2}, Y: {III: 3, IV: 4}, Z: {V: 5, VI: 6}}');
}
// SERIOUS "BASHER" TESTS
/**
* Generate a bunch of random collections (including Maps), and test that
* there string form is as expected. The collections include collections
* as elements, keys, and values, and include recursive references.
*
* This test restricts itself to collections with well-defined iteration
* orders (i.e., no HashSet, HashMap).
*/
void exactTest() {
for (int i = 0; i < NUM_TESTS; i++) {
// Choose a size from 0 to MAX_COLLECTION_SIZE, favoring larger sizes
int size =
Math.sqrt(random(MAX_COLLECTION_SIZE * MAX_COLLECTION_SIZE)).toInt();
StringBuffer stringRep = new StringBuffer();
Object o = randomCollection(size, stringRep, exact: true);
print(stringRep);
print(o);
Expect.equals(o.toString(), stringRep.toString());
}
}
/**
* Generate a bunch of random collections (including Maps), and test that
* there string form is as expected. The collections include collections
* as elements, keys, and values, and include recursive references.
*
* This test includes collections with ill-defined iteration orders (i.e.,
* HashSet, HashMap). As a consequence, it can't use equality tests on the
* string form. Instead, it performs equality tests on their "alphagrams."
* This might allow false positives, but it does give a fair amount of
* confidence.
*/
void inexactTest() {
for (int i = 0; i < NUM_TESTS; i++) {
// Choose a size from 0 to MAX_COLLECTION_SIZE, favoring larger sizes
int size =
Math.sqrt(random(MAX_COLLECTION_SIZE * MAX_COLLECTION_SIZE)).toInt();
StringBuffer stringRep = new StringBuffer();
Object o = randomCollection(size, stringRep, exact: false);
print(stringRep);
print(o);
Expect.equals(alphagram(o.toString()), alphagram(stringRep.toString()));
}
}
/**
* Return a random collection (or Map) of the specified size, placing its
* string representation into the given string buffer.
*
* If exact is true, the returned collections will not be, and will not contain
* a collection with ill-defined iteration order (i.e., a HashSet or HashMap).
*/
Object randomCollection(int size, StringBuffer stringRep, {bool exact}) {
return randomCollectionHelper(size, exact, stringRep, []);
}
/**
* Return a random collection (or map) of the specified size, placing its
* string representation into the given string buffer. The beingMade
* parameter is a list of collections currently under construction, i.e.,
* candidates for recursive references.
*
* If exact is true, the returned collections will not be, and will not contain
* a collection with ill-defined iteration order (i.e., a HashSet or HashMap).
*/
Object randomCollectionHelper(
int size, bool exact, StringBuffer stringRep, List beingMade) {
double interfaceFrac = rand.nextDouble();
if (exact) {
if (interfaceFrac < 1 / 3) {
return randomList(size, exact, stringRep, beingMade);
} else if (interfaceFrac < 2 / 3) {
return randomQueue(size, exact, stringRep, beingMade);
} else {
return randomMap(size, exact, stringRep, beingMade);
}
} else {
if (interfaceFrac < 1 / 4) {
return randomList(size, exact, stringRep, beingMade);
} else if (interfaceFrac < 2 / 4) {
return randomQueue(size, exact, stringRep, beingMade);
} else if (interfaceFrac < 3 / 4) {
return randomSet(size, exact, stringRep, beingMade);
} else {
return randomMap(size, exact, stringRep, beingMade);
}
}
}
/**
* Return a random List of the specified size, placing its string
* representation into the given string buffer. The beingMade
* parameter is a list of collections currently under construction, i.e.,
* candidates for recursive references.
*
* If exact is true, the returned collections will not be, and will not contain
* a collection with ill-defined iteration order (i.e., a HashSet or HashMap).
*/
List randomList(int size, bool exact, StringBuffer stringRep, List beingMade) {
return populateRandomCollection(size, exact, stringRep, beingMade, [], "[]");
}
/**
* Like randomList, but returns a queue.
*/
Queue randomQueue(
int size, bool exact, StringBuffer stringRep, List beingMade) {
return populateRandomCollection(
size, exact, stringRep, beingMade, new Queue(), "{}");
}
/**
* Like randomList, but returns a Set.
*/
Set randomSet(int size, bool exact, StringBuffer stringRep, List beingMade) {
// Until we have LinkedHashSet, method will only be called with exact==true
return populateRandomSet(size, exact, stringRep, beingMade, new Set());
}
/**
* Like randomList, but returns a map.
*/
Map randomMap(int size, bool exact, StringBuffer stringRep, List beingMade) {
if (exact) {
return populateRandomMap(
size, exact, stringRep, beingMade, new LinkedHashMap());
} else {
return populateRandomMap(size, exact, stringRep, beingMade,
randomBool() ? new Map() : new LinkedHashMap());
}
}
/**
* Populates the given empty collection with elements, emitting the string
* representation of the collection to stringRep. The beingMade parameter is
* a list of collections currently under construction, i.e., candidates for
* recursive references.
*
* If exact is true, the elements of the returned collections will not be,
* and will not contain a collection with ill-defined iteration order
* (i.e., a HashSet or HashMap).
*/
populateRandomCollection(int size, bool exact, StringBuffer stringRep,
List beingMade, var coll, String delimiters) {
beingMade.add(coll);
int start = stringRep.length;
stringRep.write(delimiters[0]);
List indices = [];
for (int i = 0; i < size; i++) {
indices.add(stringRep.length);
if (i != 0) stringRep.write(', ');
coll.add(randomElement(random(size), exact, stringRep, beingMade));
}
if (size > 5 && delimiters == "()") {
const int MAX_LENGTH = 80;
const int MIN_COUNT = 3;
const int MAX_COUNT = 100;
// It's an iterable, it may omit some elements.
int end = stringRep.length;
if (size > MAX_COUNT) {
// Last two elements are also omitted, just find the first three or
// first 60 characters.
for (int i = MIN_COUNT; i < size; i++) {
int startIndex = indices[i];
if (startIndex - start > MAX_LENGTH - 6) {
// Limit - ", ...)".length.
String prefix = stringRep.toString().substring(0, startIndex);
stringRep.clear();
stringRep.write(prefix);
stringRep.write(", ...");
}
}
} else if (stringRep.length - start > MAX_LENGTH - 1) {
// 80 - ")".length.
// Last two elements are always included. Middle ones may be omitted.
int lastTwoLength = end - indices[indices.length - 2];
// Try to find first element to omit.
for (int i = 3; i <= size - 3; i++) {
int elementEnd = indices[i + 1];
int lengthAfter = elementEnd - start;
int ellipsisSize = 5; // ", ...".length
if (i == size - 3) ellipsisSize = 0; // No ellipsis if we hit the end.
if (lengthAfter + ellipsisSize + lastTwoLength > MAX_LENGTH - 1) {
// Omit this element and everything up to the last two.
int elementStart = indices[i];
// Rewrite string buffer by copying it out, clearing, and putting
// the parts back in.
String buffer = stringRep.toString();
String prefix = buffer.substring(0, elementStart);
String suffix = buffer.substring(end - lastTwoLength, end);
stringRep.clear();
stringRep.write(prefix);
stringRep.write(", ...");
stringRep.write(suffix);
break;
}
}
}
}
stringRep.write(delimiters[1]);
beingMade.removeLast();
return coll;
}
/** Like populateRandomCollection, but for sets (elements must be hashable) */
Set populateRandomSet(
int size, bool exact, StringBuffer stringRep, List beingMade, Set set) {
stringRep.write('{');
for (int i = 0; i < size; i++) {
if (i != 0) stringRep.write(', ');
set.add(i);
stringRep.write(i);
}
stringRep.write('}');
return set;
}
/** Like populateRandomCollection, but for maps. */
Map populateRandomMap(
int size, bool exact, StringBuffer stringRep, List beingMade, Map map) {
beingMade.add(map);
stringRep.write('{');
for (int i = 0; i < size; i++) {
if (i != 0) stringRep.write(', ');
int key = i; // Ensures no duplicates
stringRep.write(key);
stringRep.write(': ');
Object val = randomElement(random(size), exact, stringRep, beingMade);
map[key] = val;
}
stringRep.write('}');
beingMade.removeLast();
return map;
}
/**
* Generates a random element which can be an int, a collection, or a map,
* and emits it to StringRep. The beingMade parameter is a list of collections
* currently under construction, i.e., candidates for recursive references.
*
* If exact is true, the returned element will not be, and will not contain
* a collection with ill-defined iteration order (i.e., a HashSet or HashMap).
*/
Object randomElement(
int size, bool exact, StringBuffer stringRep, List beingMade) {
Object result;
double elementTypeFrac = rand.nextDouble();
if (elementTypeFrac < 1 / 3) {
result = random(1000);
stringRep.write(result);
} else if (elementTypeFrac < 2 / 3) {
// Element is a random (new) collection
result = randomCollectionHelper(size, exact, stringRep, beingMade);
} else {
// Element is a random recursive ref
result = beingMade[random(beingMade.length)];
if (result is List) {
stringRep.write('[...]');
} else if (result is Set || result is Map || result is Queue) {
stringRep.write('{...}');
} else {
stringRep.write('(...)');
}
}
return result;
}
/** Returns a random int on [0, max) */
int random(int max) {
return rand.nextInt(max);
}
/** Returns a random boolean value. */
bool randomBool() {
return rand.nextBool();
}
/** Returns the alphabetized characters in a string. */
String alphagram(String s) {
// Calling [toList] to convert unmodifiable list to normal list.
List<int> chars = s.codeUnits.toList();
chars.sort((int a, int b) => a - b);
return new String.fromCharCodes(chars);
}