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/***
* Copyright (C) Microsoft. All rights reserved.
* Licensed under the MIT license. See LICENSE.txt file in the project root for full license information.
*
* =+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+
*
* splitting_tests.cpp
*
* Tests for path and query splitting features of the uri class.
*
* =-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-
****/
#include "stdafx.h"
namespace tests
{
namespace functional
{
namespace uri_tests
{
using namespace web;
using namespace utility;
SUITE(splitting_tests)
{
TEST(split_string)
{
std::vector<utility::string_t> s = uri::split_path(U("/first/second/third"));
VERIFY_ARE_EQUAL(3u, s.size());
VERIFY_ARE_EQUAL(U("first"), s[0]);
VERIFY_ARE_EQUAL(U("second"), s[1]);
VERIFY_ARE_EQUAL(U("third"), s[2]);
}
TEST(split_encoded_string)
{
std::vector<utility::string_t> s = uri::split_path(utility::string_t(U("heh%2Ffirst/second/third")));
VERIFY_ARE_EQUAL(3u, s.size());
VERIFY_ARE_EQUAL(U("heh%2Ffirst"), s[0]);
VERIFY_ARE_EQUAL(U("second"), s[1]);
VERIFY_ARE_EQUAL(U("third"), s[2]);
}
TEST(split_no_slash)
{
std::vector<utility::string_t> s = uri::split_path(utility::string_t(U("noslash")));
VERIFY_ARE_EQUAL(1u, s.size());
VERIFY_ARE_EQUAL(U("noslash"), s[0]);
}
TEST(split_query_basic)
{
{
// Separating with '&'
std::map<utility::string_t, utility::string_t> keyMap =
uri::split_query(U("key1=value1&key2=value2&key3=value3"));
VERIFY_ARE_EQUAL(3u, keyMap.size());
auto iter = keyMap.begin();
VERIFY_ARE_EQUAL(U("key1"), iter->first);
VERIFY_ARE_EQUAL(U("value1"), iter->second);
++iter;
VERIFY_ARE_EQUAL(U("key2"), iter->first);
VERIFY_ARE_EQUAL(U("value2"), iter->second);
++iter;
VERIFY_ARE_EQUAL(U("key3"), iter->first);
VERIFY_ARE_EQUAL(U("value3"), iter->second);
}
{
// Separating with ';'
std::map<utility::string_t, utility::string_t> keyMap =
uri::split_query(U("key1=value1;key2=value2;key3=value3"));
VERIFY_ARE_EQUAL(3u, keyMap.size());
auto iter = keyMap.begin();
VERIFY_ARE_EQUAL(U("key1"), iter->first);
VERIFY_ARE_EQUAL(U("value1"), iter->second);
++iter;
VERIFY_ARE_EQUAL(U("key2"), iter->first);
VERIFY_ARE_EQUAL(U("value2"), iter->second);
++iter;
VERIFY_ARE_EQUAL(U("key3"), iter->first);
VERIFY_ARE_EQUAL(U("value3"), iter->second);
}
}
TEST(split_encoded_query)
{
{
// Separating with '&'
std::map<utility::string_t, utility::string_t> keyMap =
uri::split_query(utility::string_t(U("key=value%26key1%20=value1&key2=%5Evalue2&key3=value3%20")));
VERIFY_ARE_EQUAL(3u, keyMap.size());
auto iter = keyMap.begin();
VERIFY_ARE_EQUAL(U("key"), iter->first);
VERIFY_ARE_EQUAL(U("value%26key1%20=value1"), iter->second);
++iter;
VERIFY_ARE_EQUAL(U("key2"), iter->first);
VERIFY_ARE_EQUAL(U("%5Evalue2"), iter->second);
++iter;
VERIFY_ARE_EQUAL(U("key3"), iter->first);
VERIFY_ARE_EQUAL(U("value3%20"), iter->second);
}
{
// Separating with ';'
std::map<utility::string_t, utility::string_t> keyMap =
uri::split_query(utility::string_t(U("key=value%26key1%20=value1;key2=%5Evalue2;key3=value3%20")));
VERIFY_ARE_EQUAL(3u, keyMap.size());
auto iter = keyMap.begin();
VERIFY_ARE_EQUAL(U("key"), iter->first);
VERIFY_ARE_EQUAL(U("value%26key1%20=value1"), iter->second);
++iter;
VERIFY_ARE_EQUAL(U("key2"), iter->first);
VERIFY_ARE_EQUAL(U("%5Evalue2"), iter->second);
++iter;
VERIFY_ARE_EQUAL(U("key3"), iter->first);
VERIFY_ARE_EQUAL(U("value3%20"), iter->second);
}
}
TEST(split_query_empty)
{
std::map<utility::string_t, utility::string_t> keyMap = uri::split_query(U(""));
VERIFY_ARE_EQUAL(0u, keyMap.size());
}
TEST(split_query_single)
{
std::map<utility::string_t, utility::string_t> keyMap = uri::split_query(U("key1=44"));
VERIFY_ARE_EQUAL(1u, keyMap.size());
auto iter = keyMap.begin();
VERIFY_ARE_EQUAL(U("key1"), iter->first);
VERIFY_ARE_EQUAL(U("44"), iter->second);
}
TEST(split_query_no_value)
{
std::map<utility::string_t, utility::string_t> keyMap = uri::split_query(U("key1"));
VERIFY_ARE_EQUAL(0u, keyMap.size());
keyMap = uri::split_query(U("key1="));
VERIFY_ARE_EQUAL(1u, keyMap.size());
auto iter = keyMap.begin();
VERIFY_ARE_EQUAL(U("key1"), iter->first);
VERIFY_ARE_EQUAL(U(""), iter->second);
keyMap = uri::split_query(U("key1&"));
VERIFY_ARE_EQUAL(0u, keyMap.size());
}
TEST(split_query_no_key)
{
std::map<utility::string_t, utility::string_t> keyMap = uri::split_query(U("=value1"));
VERIFY_ARE_EQUAL(1u, keyMap.size());
auto iter = keyMap.begin();
VERIFY_ARE_EQUAL(U(""), iter->first);
VERIFY_ARE_EQUAL(U("value1"), iter->second);
}
TEST(split_query_end_with_amp)
{
{
// Separating with '&'
std::map<utility::string_t, utility::string_t> keyMap = uri::split_query(U("key1=44&"));
VERIFY_ARE_EQUAL(1u, keyMap.size());
auto iter = keyMap.begin();
VERIFY_ARE_EQUAL(U("key1"), iter->first);
VERIFY_ARE_EQUAL(U("44"), iter->second);
}
{
// Separating with ';'
std::map<utility::string_t, utility::string_t> keyMap = uri::split_query(U("key1=44;"));
VERIFY_ARE_EQUAL(1u, keyMap.size());
auto iter = keyMap.begin();
VERIFY_ARE_EQUAL(U("key1"), iter->first);
VERIFY_ARE_EQUAL(U("44"), iter->second);
}
}
} // SUITE(splitting_tests)
} // namespace uri_tests
} // namespace functional
} // namespace tests
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