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chromium / chromium / src / 657e8d9a9139da0735d73fc0fc6d90a05f980319 / . / components / omnibox / browser / autocomplete_match_unittest.cc
blob: 73fc1533e3a4b0239b48fd8d1b831ee27e617795 [file] [log] [blame]
// Copyright 2014 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "components/omnibox/browser/autocomplete_match.h"
#include "base/basictypes.h"
#include "base/strings/utf_string_conversions.h"
#include "components/omnibox/browser/test_scheme_classifier.h"
#include "testing/gtest/include/gtest/gtest.h"
TEST(AutocompleteMatchTest, MoreRelevant) {
struct RelevantCases {
int r1;
int r2;
bool expected_result;
} cases[] = {
{ 10, 0, true },
{ 10, -5, true },
{ -5, 10, false },
{ 0, 10, false },
{ -10, -5, false },
{ -5, -10, true },
};
AutocompleteMatch m1(NULL, 0, false,
AutocompleteMatchType::URL_WHAT_YOU_TYPED);
AutocompleteMatch m2(NULL, 0, false,
AutocompleteMatchType::URL_WHAT_YOU_TYPED);
for (size_t i = 0; i < arraysize(cases); ++i) {
m1.relevance = cases[i].r1;
m2.relevance = cases[i].r2;
EXPECT_EQ(cases[i].expected_result,
AutocompleteMatch::MoreRelevant(m1, m2));
}
}
TEST(AutocompleteMatchTest, MergeClassifications) {
// Merging two empty vectors should result in an empty vector.
EXPECT_EQ(std::string(),
AutocompleteMatch::ClassificationsToString(
AutocompleteMatch::MergeClassifications(
AutocompleteMatch::ACMatchClassifications(),
AutocompleteMatch::ACMatchClassifications())));
// If one vector is empty and the other is "trivial" but non-empty (i.e. (0,
// NONE)), the non-empty vector should be returned.
EXPECT_EQ("0,0",
AutocompleteMatch::ClassificationsToString(
AutocompleteMatch::MergeClassifications(
AutocompleteMatch::ClassificationsFromString("0,0"),
AutocompleteMatch::ACMatchClassifications())));
EXPECT_EQ("0,0",
AutocompleteMatch::ClassificationsToString(
AutocompleteMatch::MergeClassifications(
AutocompleteMatch::ACMatchClassifications(),
AutocompleteMatch::ClassificationsFromString("0,0"))));
// Ditto if the one-entry vector is non-trivial.
EXPECT_EQ("0,1",
AutocompleteMatch::ClassificationsToString(
AutocompleteMatch::MergeClassifications(
AutocompleteMatch::ClassificationsFromString("0,1"),
AutocompleteMatch::ACMatchClassifications())));
EXPECT_EQ("0,1",
AutocompleteMatch::ClassificationsToString(
AutocompleteMatch::MergeClassifications(
AutocompleteMatch::ACMatchClassifications(),
AutocompleteMatch::ClassificationsFromString("0,1"))));
// Merge an unstyled one-entry vector with a styled one-entry vector.
EXPECT_EQ("0,1",
AutocompleteMatch::ClassificationsToString(
AutocompleteMatch::MergeClassifications(
AutocompleteMatch::ClassificationsFromString("0,0"),
AutocompleteMatch::ClassificationsFromString("0,1"))));
// Test simple cases of overlap.
EXPECT_EQ("0,3," "1,2",
AutocompleteMatch::ClassificationsToString(
AutocompleteMatch::MergeClassifications(
AutocompleteMatch::ClassificationsFromString("0,1," "1,0"),
AutocompleteMatch::ClassificationsFromString("0,2"))));
EXPECT_EQ("0,3," "1,2",
AutocompleteMatch::ClassificationsToString(
AutocompleteMatch::MergeClassifications(
AutocompleteMatch::ClassificationsFromString("0,2"),
AutocompleteMatch::ClassificationsFromString("0,1," "1,0"))));
// Test the case where both vectors have classifications at the same
// positions.
EXPECT_EQ("0,3",
AutocompleteMatch::ClassificationsToString(
AutocompleteMatch::MergeClassifications(
AutocompleteMatch::ClassificationsFromString("0,1," "1,2"),
AutocompleteMatch::ClassificationsFromString("0,2," "1,1"))));
// Test an arbitrary complicated case.
EXPECT_EQ("0,2," "1,0," "2,1," "4,3," "5,7," "6,3," "7,7," "15,1," "17,0",
AutocompleteMatch::ClassificationsToString(
AutocompleteMatch::MergeClassifications(
AutocompleteMatch::ClassificationsFromString(
"0,0," "2,1," "4,3," "7,7," "10,6," "15,0"),
AutocompleteMatch::ClassificationsFromString(
"0,2," "1,0," "5,7," "6,1," "17,0"))));
}
TEST(AutocompleteMatchTest, SupportsDeletion) {
// A non-deletable match with no duplicates.
AutocompleteMatch m(NULL, 0, false,
AutocompleteMatchType::URL_WHAT_YOU_TYPED);
EXPECT_FALSE(m.SupportsDeletion());
// A deletable match with no duplicates.
AutocompleteMatch m1(NULL, 0, true,
AutocompleteMatchType::URL_WHAT_YOU_TYPED);
EXPECT_TRUE(m1.SupportsDeletion());
// A non-deletable match, with non-deletable duplicates.
m.duplicate_matches.push_back(AutocompleteMatch(
NULL, 0, false, AutocompleteMatchType::URL_WHAT_YOU_TYPED));
m.duplicate_matches.push_back(AutocompleteMatch(
NULL, 0, false, AutocompleteMatchType::URL_WHAT_YOU_TYPED));
EXPECT_FALSE(m.SupportsDeletion());
// A non-deletable match, with at least one deletable duplicate.
m.duplicate_matches.push_back(AutocompleteMatch(
NULL, 0, true, AutocompleteMatchType::URL_WHAT_YOU_TYPED));
EXPECT_TRUE(m.SupportsDeletion());
}
TEST(AutocompleteMatchTest, Duplicates) {
struct DuplicateCases {
const wchar_t* input;
const std::string url1;
const std::string url2;
const bool expected_duplicate;
} cases[] = {
{ L"g", "http://www.google.com/", "https://www.google.com/", true },
{ L"g", "http://www.google.com/", "http://www.google.com", true },
{ L"g", "http://google.com/", "http://www.google.com/", true },
{ L"g", "http://www.google.com/", "HTTP://www.GOOGLE.com/", true },
{ L"g", "http://www.google.com/1", "http://www.google.com/1/", true },
{ L"g", "http://www.google.com/", "http://www.google.com", true },
{ L"g", "https://www.google.com/", "http://google.com", true },
{ L"g", "http://www.google.com/", "wss://www.google.com/", false },
{ L"g", "http://www.google.com/", "http://www.google.com/1", false },
{ L"g", "http://www.google.com/", "http://www.goo.com/", false },
{ L"g", "http://www.google.com/", "http://w2.google.com/", false },
{ L"g", "http://www.google.com/", "http://m.google.com/", false },
{ L"g", "http://www.google.com/", "http://www.google.com/?foo", false },
// Don't allow URLs with different schemes to be considered duplicates for
// certain inputs.
{ L"http://g", "http://google.com/",
"https://google.com/", false },
{ L"http://g", "http://blah.com/",
"https://blah.com/", true },
{ L"http://g", "http://google.com/1",
"https://google.com/1", false },
{ L"http://g hello", "http://google.com/",
"https://google.com/", false },
{ L"hello http://g", "http://google.com/",
"https://google.com/", false },
{ L"hello http://g", "http://blah.com/",
"https://blah.com/", true },
{ L"http://b http://g", "http://google.com/",
"https://google.com/", false },
{ L"http://b http://g", "http://blah.com/",
"https://blah.com/", false },
// If the user types unicode that matches the beginning of a
// punycode-encoded hostname then consider that a match.
{ L"x", "http://xn--1lq90ic7f1rc.cn/",
"https://xn--1lq90ic7f1rc.cn/", true },
{ L"http://\x5317 x", "http://xn--1lq90ic7f1rc.cn/",
"https://xn--1lq90ic7f1rc.cn/", false },
{ L"http://\x89c6 x", "http://xn--1lq90ic7f1rc.cn/",
"https://xn--1lq90ic7f1rc.cn/", true },
};
for (size_t i = 0; i < arraysize(cases); ++i) {
SCOPED_TRACE("input=" + base::WideToUTF8(cases[i].input) +
" url1=" + cases[i].url1 + " url2=" + cases[i].url2);
AutocompleteInput input(
base::WideToUTF16(cases[i].input), base::string16::npos, std::string(),
GURL(), metrics::OmniboxEventProto::INVALID_SPEC, false, false, true,
true, false, TestSchemeClassifier());
AutocompleteMatch m1(NULL, 100, false,
AutocompleteMatchType::URL_WHAT_YOU_TYPED);
m1.destination_url = GURL(cases[i].url1);
m1.ComputeStrippedDestinationURL(input, "zh-CN", NULL);
AutocompleteMatch m2(NULL, 100, false,
AutocompleteMatchType::URL_WHAT_YOU_TYPED);
m2.destination_url = GURL(cases[i].url2);
m2.ComputeStrippedDestinationURL(input, "zh-CN", NULL);
EXPECT_EQ(cases[i].expected_duplicate,
AutocompleteMatch::DestinationsEqual(m1, m2));
}
}