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#include "rssitem.h"
#include <unistd.h>
#include "3rd-party/catch.hpp"
#include "cache.h"
#include "configcontainer.h"
#include "rssfeed.h"
#include "test_helpers/envvar.h"
#include "test_helpers/stringmaker/optional.h"
using namespace newsboat;
TEST_CASE("RssItem::sort_flags() cleans up flags", "[RssItem]")
{
ConfigContainer cfg;
Cache rsscache(":memory:", &cfg);
RssItem item(&rsscache);
SECTION("Repeated letters do not erase other letters") {
std::string inputflags = "Abcdecf";
std::string result = "Abcdef";
item.set_flags(inputflags);
REQUIRE(result == item.flags());
}
SECTION("Non alpha characters in input flags are ignored") {
std::string inputflags = "Abcd";
item.set_flags(inputflags + "1234568790^\"#'é(£");
REQUIRE(inputflags == item.flags());
}
}
TEST_CASE("RssItem contains a number of matchable attributes", "[RssItem]")
{
ConfigContainer cfg;
Cache rsscache(":memory:", &cfg);
RssItem item(&rsscache);
SECTION("title") {
const auto attr = "title";
const auto title = "Example title";
item.set_title(title);
REQUIRE(item.attribute_value(attr) == title);
SECTION("it is encoded to the locale's charset") {
// Due to differences in how platforms handle //TRANSLIT in iconv,
// we can't compare results to a known-good value. Instead, we
// merely check that the result is *not* UTF-8.
test_helpers::LcCtypeEnvVar lc_ctype;
lc_ctype.set("C"); // This means ASCII
const auto title = "こんにちは"; // "good afternoon"
item.set_title(title);
REQUIRE_FALSE(item.attribute_value(attr) == title);
}
}
SECTION("link") {
const auto attr = "link";
const auto url = "http://example.com/newest-update.html";
item.set_link(url);
REQUIRE(item.attribute_value(attr) == url);
}
SECTION("author") {
const auto attr = "author";
const auto name = "John Doe";
item.set_author(name);
REQUIRE(item.attribute_value(attr) == name);
SECTION("it is encoded to the locale's charset") {
// Due to differences in how platforms handle //TRANSLIT in iconv,
// we can't compare results to a known-good value. Instead, we
// merely check that the result is *not* UTF-8.
test_helpers::LcCtypeEnvVar lc_ctype;
lc_ctype.set("C"); // This means ASCII
const auto author = "李白"; // "Li Bai"
item.set_author(author);
REQUIRE_FALSE(item.attribute_value(attr) == author);
}
}
SECTION("content") {
const auto attr = "content";
const auto description = "First line.\nSecond one.\nAnd finally the third";
item.set_description(description, "text/plain");
REQUIRE(item.attribute_value(attr) == description);
SECTION("it is encoded to the locale's charset") {
// Due to differences in how platforms handle //TRANSLIT in iconv,
// we can't compare results to a known-good value. Instead, we
// merely check that the result is *not* UTF-8.
test_helpers::LcCtypeEnvVar lc_ctype;
lc_ctype.set("C"); // This means ASCII
const auto description = "こんにちは"; // "good afternoon"
item.set_description(description, "text/plain");
REQUIRE_FALSE(item.attribute_value(attr) == description);
}
}
SECTION("date") {
test_helpers::TzEnvVar tzEnv;
tzEnv.set("UTC");
const auto attr = "date";
item.set_pubDate(1); // 1 second into the Unix epoch
REQUIRE(item.attribute_value(attr) == "Thu, 01 Jan 1970 00:00:01 +0000");
}
SECTION("guid") {
const auto attr = "guid";
const auto guid = "unique-identifier-of-this-item";
item.set_guid(guid);
REQUIRE(item.attribute_value(attr) == guid);
}
SECTION("unread") {
const auto attr = "unread";
SECTION("for read items, attribute equals \"no\"") {
item.set_unread(false);
REQUIRE(item.attribute_value(attr) == "no");
}
SECTION("for unread items, attribute equals \"yes\"") {
item.set_unread(true);
REQUIRE(item.attribute_value(attr) == "yes");
}
}
SECTION("enclosure_url") {
const auto attr = "enclosure_url";
const auto url = "https://example.com/podcast-ep-01.mp3";
item.set_enclosure_url(url);
REQUIRE(item.attribute_value(attr) == url);
}
SECTION("enclosure_type, MIME type of the enclosure") {
const auto attr = "enclosure_type";
const auto type = "audio/ogg";
item.set_enclosure_type(type);
REQUIRE(item.attribute_value(attr) == type);
}
SECTION("flags") {
const auto attr = "flags";
const auto flags = "abcdefg";
item.set_flags(flags);
REQUIRE(item.attribute_value(attr) == flags);
}
SECTION("age, the number of days since publication") {
const auto attr = "age";
item.set_pubDate(0); // beginning of Unix epoch
const auto check = [&item, &attr]() {
// time() returns seconds since Unix epoch, too
const auto current_time = ::time(nullptr);
const auto seconds_per_day = 24 * 60 * 60;
const auto unix_days = current_time / seconds_per_day;
REQUIRE(item.attribute_value(attr) == std::to_string(unix_days));
};
// check() evaluates current time twice: once explicitly by calling
// time(), once implicitly by calling attribute_value("age"). On
// a midnight, it's possible for the first call to execute on one day,
// and the second call to execute on the next day. That'll lead to the
// test failing. To avoid that, we perform a dirty trick: we run the
// test once, and if it fails, we immediately re-run it. If the failure
// was indeed caused by the aforementioned corner case, the second run
// can't fail (we're already in the next day, and it's inconceivable
// for code to run so slow that we're at the next midnight already). If
// the second call fails, that failure is going to fail the whole
// TEST_CASE, as it should.
try {
check();
} catch (...) {
check();
}
}
SECTION("articleindex, article's position in the itemlist") {
const auto attr = "articleindex";
const auto check = [&attr, &item](unsigned int index) {
item.set_index(index);
REQUIRE(item.attribute_value(attr) == std::to_string(index));
};
check(1);
check(3);
check(65535);
check(100500);
}
SECTION("unknown attributes are forwarded to parent feed") {
auto feed = std::make_shared<RssFeed>(&rsscache, "");
auto item = std::make_shared<RssItem>(&rsscache);
feed->add_item(item);
const auto feedindex = 42;
feed->set_index(feedindex);
const auto attr = "feedindex";
SECTION("no parent feed => attribute unavailable") {
REQUIRE(item->attribute_value(attr) == nonstd::nullopt);
}
SECTION("request forwarded to parent feed") {
item->set_feedptr(feed);
REQUIRE(item->attribute_value(attr) == std::to_string(feedindex));
}
}
}
TEST_CASE("set_title() removes superfluous whitespace", "[RssItem]")
{
ConfigContainer cfg;
Cache rsscache(":memory:", &cfg);
RssItem item(&rsscache);
SECTION("duplicate whitespace") {
item.set_title("lorem ipsum");
REQUIRE(item.title() == "lorem ipsum");
item.set_title("abc\n\r \tdef");
REQUIRE(item.title() == "abc def");
}
SECTION("leading whitespace") {
item.set_title("\n\r\t lorem ipsum");
REQUIRE(item.title() == "lorem ipsum");
}
SECTION("trailing whitespace") {
item.set_title("lorem ipsum\n\r\t ");
REQUIRE(item.title() == "lorem ipsum");
}
}
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