//////////////////////////////////////////////////////////////////////////////// // // Copyright 2006 - 2017, Paul Beckingham, Federico Hernandez. // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL // THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE // SOFTWARE. // // http://www.opensource.org/licenses/mit-license.php // //////////////////////////////////////////////////////////////////////////////// #include #include #include #include #include #include #include #include #include #include #include extern Context context; static std::vector * global_data = NULL; static std::vector global_keys; static bool sort_compare (int, int); //////////////////////////////////////////////////////////////////////////////// void sort_tasks ( std::vector & data, std::vector & order, const std::string& keys) { Timer timer; global_data = &data; // Split the key defs. global_keys = split (keys, ','); // Only sort if necessary. if (order.size ()) std::stable_sort (order.begin (), order.end (), sort_compare); context.time_sort_us += timer.total_us (); } //////////////////////////////////////////////////////////////////////////////// // Re-implementation, using direct Task access instead of data copies that // require re-parsing. // // Essentially a static implementation of a dynamic operator<. static bool sort_compare (int left, int right) { std::string field; bool ascending; bool breakIndicator; Column* column; int left_number; int right_number; float left_real; float right_real; for (auto& k : global_keys) { context.decomposeSortField (k, field, ascending, breakIndicator); // Urgency. if (field == "urgency") { left_real = (*global_data)[left].urgency (); right_real = (*global_data)[right].urgency (); if (left_real == right_real) continue; return ascending ? (left_real < right_real) : (left_real > right_real); } // Number. else if (field == "id") { left_number = (*global_data)[left].id; right_number = (*global_data)[right].id; if (left_number == right_number) continue; return ascending ? (left_number < right_number) : (left_number > right_number); } // String. else if (field == "description" || field == "project" || field == "status" || field == "tags" || field == "uuid" || field == "parent" || field == "imask" || field == "mask") { const std::string& left_string = (*global_data)[left].get_ref (field); const std::string& right_string = (*global_data)[right].get_ref (field); if (left_string == right_string) continue; return ascending ? (left_string < right_string) : (left_string > right_string); } // Due Date. else if (field == "due" || field == "end" || field == "entry" || field == "start" || field == "until" || field == "wait" || field == "modified" || field == "scheduled") { const std::string& left_string = (*global_data)[left].get_ref (field); const std::string& right_string = (*global_data)[right].get_ref (field); if (left_string != "" && right_string == "") return true; if (left_string == "" && right_string != "") return false; if (left_string == right_string) continue; return ascending ? (left_string < right_string) : (left_string > right_string); } // Depends string. else if (field == "depends") { // Raw data is a comma-separated list of uuids const std::string& left_string = (*global_data)[left].get_ref (field); const std::string& right_string = (*global_data)[right].get_ref (field); if (left_string == right_string) continue; if (left_string == "" && right_string != "") return ascending; if (left_string != "" && right_string == "") return !ascending; // Sort on the first dependency. left_number = context.tdb2.id (left_string.substr (0, 36)); right_number = context.tdb2.id (right_string.substr (0, 36)); if (left_number == right_number) continue; return ascending ? (left_number < right_number) : (left_number > right_number); } // Duration. else if (field == "recur") { const std::string& left_string = (*global_data)[left].get_ref (field); const std::string& right_string = (*global_data)[right].get_ref (field); if (left_string == right_string) continue; Duration left_duration (left_string); Duration right_duration (right_string); return ascending ? (left_duration < right_duration) : (left_duration > right_duration); } // UDAs. else if ((column = context.columns[field]) != NULL) { std::string type = column->type (); if (type == "numeric") { const float left_real = strtof (((*global_data)[left].get_ref (field)).c_str (), NULL); const float right_real = strtof (((*global_data)[right].get_ref (field)).c_str (), NULL); if (left_real == right_real) continue; return ascending ? (left_real < right_real) : (left_real > right_real); } else if (type == "string") { const std::string left_string = (*global_data)[left].get_ref (field); const std::string right_string = (*global_data)[right].get_ref (field); if (left_string == right_string) continue; // UDAs of the type string can have custom sort orders, which need to be considered. auto order = Task::customOrder.find (field); if (order != Task::customOrder.end ()) { // Guaranteed to be found, because of ColUDA::validate (). auto posLeft = std::find (order->second.begin (), order->second.end (), left_string); auto posRight = std::find (order->second.begin (), order->second.end (), right_string); return ascending ? (posLeft < posRight) : (posLeft > posRight); } else { // Empty values are unconditionally last, if no custom order was specified. if (left_string == "") return false; else if (right_string == "") return true; return ascending ? (left_string < right_string) : (left_string > right_string); } } else if (type == "date") { const std::string& left_string = (*global_data)[left].get_ref (field); const std::string& right_string = (*global_data)[right].get_ref (field); if (left_string != "" && right_string == "") return true; if (left_string == "" && right_string != "") return false; if (left_string == right_string) continue; return ascending ? (left_string < right_string) : (left_string > right_string); } else if (type == "duration") { const std::string& left_string = (*global_data)[left].get_ref (field); const std::string& right_string = (*global_data)[right].get_ref (field); if (left_string == right_string) continue; Duration left_duration (left_string); Duration right_duration (right_string); return ascending ? (left_duration < right_duration) : (left_duration > right_duration); } } else throw format (STRING_INVALID_SORT_COL, field); } return false; } ////////////////////////////////////////////////////////////////////////////////