common: Port remote nicks to NickHighlightMatcher

[quassel.git] / src / common / util.cpp

diff --git a/src/common/util.cpp b/src/common/util.cpp
index a2c4e25..914c9a4 100644 (file)
--- a/src/common/util.cpp
+++ b/src/common/util.cpp
@@ -282,90 +282,7 @@ QString formatCurrentDateTimeInString(const QString &formatStr)
 }
 
 
-bool scopeMatch(const QString &string, const QString &scopeRule, const bool &isRegEx,
-                const bool &isCaseSensitive)
-{
-    // When isRegEx is false:
-    // A match happens when the string does NOT match ANY inverted rules and matches AT LEAST one
-    // normal rule, unless no normal rules exist (implicit wildcard match).  This gives inverted
-    // rules higher priority regardless of ordering.
-    //
-    // When isRegEx is true:
-    // A match happens when the normal regular expression matches.  If prefixed with '!', the match
-    // happens UNLESS the following regular expression matches.
-
-    // TODO: After switching to Qt 5, use of this should be split into two parts, one part that
-    // would generate compiled QRegularExpressions for match/inverted match, regenerating it on any
-    // rule changes, and another part that would check each message against these compiled rules.
-
-    // Cache case sensitivity
-    Qt::CaseSensitivity ruleExactCase = (isCaseSensitive ? Qt::CaseSensitive : Qt::CaseInsensitive);
-
-    if (isRegEx) {
-        // Regular expression tests
-        // -------
-        // Check if this is an inverted rule (starts with '!')
-        if (scopeRule.startsWith("!")) {
-            // Take the reminder of the string
-            QRegExp ruleRx(scopeRule.mid(1), ruleExactCase);
-            // Matching an inverted rule: matched (true) implies rule failure (false)
-            return !ruleRx.exactMatch(string);
-        } else {
-            QRegExp ruleRx(scopeRule, ruleExactCase);
-            // Matching a normal rule: matched (true) implies rule success (true)
-            return ruleRx.exactMatch(string);
-        }
-    } else {
-        // Wildcard expression tests
-        // -------
-        // Keep track if any matches are found
-        bool matches = false;
-        // Keep track if normal rules and inverted rules are found, allowing for implicit wildcard
-        bool normalRuleFound = false, invertedRuleFound = false;
-
-        // Split each scope rule by separator, ignoring empty parts
-        foreach(QString rule, scopeRule.split(";", QString::SkipEmptyParts)) {
-            // Trim whitespace from the start/end of the rule
-            rule = rule.trimmed();
-            // Ignore empty rules
-            if (rule.isEmpty())
-                continue;
-
-            // Check if this is an inverted rule (starts with '!')
-            if (rule.startsWith("!")) {
-                // Inverted rule found
-                invertedRuleFound = true;
-
-                // Take the reminder of the string
-                QRegExp ruleRx(rule.mid(1), ruleExactCase);
-                ruleRx.setPatternSyntax(QRegExp::Wildcard);
-                if (ruleRx.exactMatch(string)) {
-                    // Matches an inverted rule, full rule cannot match
-                    return false;
-                }
-            } else {
-                // Normal rule found
-                normalRuleFound = true;
-
-                QRegExp ruleRx(rule, ruleExactCase);
-                ruleRx.setPatternSyntax(QRegExp::Wildcard);
-                if (ruleRx.exactMatch(string)) {
-                    // Matches a normal rule, full rule might match
-                    matches = true;
-                    // Continue checking in case other inverted rules negate this
-                }
-            }
-        }
-        // No inverted rules matched, okay to match normally
-        // Return true if...
-        // ...we found a normal match
-        // ...implicit wildcard: we had inverted rules (that didn't match) and no normal rules
-        return matches || (invertedRuleFound && !normalRuleFound);
-    }
-}
-
-
-QString tryFormatUnixEpoch(const QString &possibleEpochDate)
+QString tryFormatUnixEpoch(const QString &possibleEpochDate, Qt::DateFormat dateFormat, bool useUTC)
 {
     // Does the string resemble a Unix epoch?  Parse as 64-bit time
     qint64 secsSinceEpoch = possibleEpochDate.toLongLong();
@@ -387,5 +304,50 @@ QString tryFormatUnixEpoch(const QString &possibleEpochDate)
 #endif
 
     // Return the localized date/time
-    return date.toString();
+    if (useUTC) {
+        // Return UTC time
+        return date.toUTC().toString(dateFormat);
+    } else if (dateFormat == Qt::DateFormat::ISODate) {
+        // Add in ISO local timezone information via special handling below
+        return formatDateTimeToOffsetISO(date);
+    } else {
+        // Return local time
+        return date.toString(dateFormat);
+    }
+}
+
+
+QString formatDateTimeToOffsetISO(const QDateTime &dateTime)
+{
+    if (!dateTime.isValid()) {
+        // Don't try to do anything with invalid date/time
+        return "formatDateTimeToISO() invalid date/time";
+    }
+
+#if 0
+    // The expected way to get a UTC offset on ISO8601 dates
+    return dateTime.toTimeSpec(Qt::OffsetFromUTC).toString(Qt::ISODate);
+#else
+    // Work around Qt bug that converts to UTC instead of including timezone information
+    // See https://bugreports.qt.io/browse/QTBUG-26161
+    //
+    // NOTE: Despite the bug report marking as fixed in Qt 5.2.0 (QT_VERSION >= 0x050200), this
+    // still appears broken in Qt 5.5.1.
+    //
+    // Credit to "user362638" for the solution below, modified to fit Quassel's needs
+    // https://stackoverflow.com/questions/18750569/qdatetime-isodate-with-timezone
+
+    // Get the local and UTC time
+    QDateTime local = QDateTime(dateTime);
+    QDateTime utc = local.toUTC();
+    utc.setTimeSpec(Qt::LocalTime);
+
+    // Find the UTC offset
+    int utcOffset = utc.secsTo(local);
+
+    // Force the local time to follow this offset
+    local.setUtcOffset(utcOffset);
+    // Now the output should be correct
+    return local.toString(Qt::ISODate);
+#endif
 }