/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set et sw=2 ts=2: */
/***************************************************************************
* tasktree.cc
*
* Tue Mar 27 11:07:48 CEST 2012
* Copyright 2012 Jonas Suhr Christensen
* jsc@umbraculum.org
****************************************************************************/
/*
* This file is part of Munia.
*
* Munia is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* Munia is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Munia; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
*/
#include "tasktree.h"
#include "xmlparser.h"
#include "debug.h"
#include "xml_encode_decode.h"
#define ROOT_PARENT_ID -1
static inline std::string id2str(taskid_t id)
{
char buf[32];
sprintf(buf, "%u", id);
return buf;
}
std::string node::toXML(std::string prefix)
{
std::string xml;
xml += prefix + "\n";
xml += prefix + " " + xml_encode(data.title) + "\n";
xml += prefix + " \n";
NodeList::iterator ni = children.begin();
while(ni != children.end()) {
xml += (*ni)->toXML(prefix + " ");
ni++;
}
xml += prefix + " \n";
xml += prefix + "\n";
return xml;
}
static void concatTaskIdLists(TaskIdList& pre, TaskIdList& post) {
pre.insert(pre.end(), post.begin(), post.end());
// for(TaskIdList::iterator it = post.begin();
// it != post.end(); it++) {
// pre.push_back(
// }
}
TaskTree::TaskTree() {
root = NULL;
}
TaskTree::~TaskTree() {
// cleanup tree
}
static taskid_t rootid = -1;
TaskIdList TaskTree::insertAsChild(taskid_t parentid, taskid_t id, task_t data)
throw (std::exception)
{
TaskIdList affectedNodes;
// Initialize
if(!root) {
rootid = id;
node_t* node = createNode(id);
root = node;
node->data = data;
affectedNodes.push_back(id);
} else {
try {
node_t* parent = id2node.at(parentid);
node_t* child = createNode(id);
// printf("!!!!!!!id in insert: %d\n", data.id);
child->data = data;
insertChild(parent, child);
// affectedNodes.push_back(parentid);
affectedNodes.push_back(id);
TaskIdList ancestors = ancestorList(id);
concatTaskIdLists(affectedNodes, ancestors);
}
catch(std::exception& e) {
throw e;
}
}
// printf("Child %d added to %d, affecting %d nodes\n",
// id, parentid, affectedNodes.size());
return affectedNodes;
}
TaskIdList TaskTree::remove(taskid_t id)
throw (std::exception)
{
TaskIdList affectedNodes;
affectedNodes.push_back(id);
TaskIdList ancestors = ancestorList(id);
concatTaskIdLists(affectedNodes, ancestors);
// printf("Removing %d\n", id);
// printf("!!!!!affected nodes %d\n", affectedNodes.size());
node_t* node = id2node[id];
// printf("node: %p, id %d, parent %p\n", node, node->data.id, node->parent);
// printf("!!!!!size %d\n", node->parent->children.size());
node->parent->children.remove(node);
for(NodeList::iterator it = node->parent->children.begin();
it != node->parent->children.end();
it++) {
// printf("%p\n", *it);
}
// printf("!!!!!size %d\n", node->parent->children.size());
TaskIdList idlist = bfs(id);
TaskIdList::reverse_iterator it = idlist.rbegin();
while(it != idlist.rend()) {
task_t task = data(*it);
// node_t* n = id2node[task.id];
// delete(n);
it++;
}
return affectedNodes;
}
/*
TaskIdList TaskTree::move(taskid_t id, taskid_t toid)
throw (std::exception)
{
TaskIdList affectedNodes;
try {
node_t* child = id2node.at(id);
node_t* newparent = id2node.at(toid);
if(!child->parent) {
throw std::exception();
}
child->parent->children.remove(child);
newparent->children.push_back(child);
child->parent = newparent;
affectedNodes.push_back(id);
// affectedNodes.push_back(child->parent->id);
TaskIdList ancestors = ancestorList(id);
concatTaskIdLists(affectedNodes, ancestors);
affectedNodes.push_back(toid);
ancestors = ancestorList(toid);
}
catch(std::exception& e) {
throw e;
}
return affectedNodes;
}
*/
TaskIdList TaskTree::updateData(taskid_t id, task_t t)
throw (std::exception)
{
TaskIdList affectedNodes;
try {
node_t* node = id2node.at(id);
node->data = t;
affectedNodes.push_back(id);
TaskIdList ancestors = ancestorList(id);
concatTaskIdLists(affectedNodes, ancestors);
}
catch(std::exception& e) {
throw e;
}
return affectedNodes;
}
task_t TaskTree::data(taskid_t id)
throw (std::exception)
{
task_t t;
try {
node_t* node = id2node.at(id);
task_t tmp = node->data;
t.id = node->id;
t.title = tmp.title;
// printf("!!!!t.id and tmp.id in data: %d and %d\n", t.id, tmp.id);
if(node->parent) t.parentid = node->parent->id;
else {
if(t.id != rootid) throw std::exception();
t.parentid = -1;
}
}
catch(std::exception& e) {
throw e;
}
return t;
}
// bfs search from id in tree
TaskIdList TaskTree::bfs(taskid_t id)
throw (std::exception)
{
TaskIdList lst;
lst.push_back(id);
std::list queue;
node_t* current = id2node.at(id);
while(true) {
NodeList children = current->children;
for(NodeList::iterator it = children.begin(); it != children.end(); it++) {
node_t* child = *it;
queue.push_back(child);
lst.push_back(child->id);
}
if(!queue.empty()) {
current = queue.front();
queue.pop_front();
}
else {
break;
}
}
return lst;
}
TaskIdList TaskTree::ancestorList(taskid_t id)
throw (std::exception)
{
TaskIdList ancestors;
try {
node_t* current = id2node.at(id);
while(current->parent) {
ancestors.push_back(current->parent->id);
current = current->parent;
}
}
catch(std::exception& e) {
throw e;
}
// printf("Collected %d ancestors to %u\n", ancestors.size(), id);
// for(TaskIdList::iterator it = ancestors.begin();
// it != ancestors.end(); it++) {
// printf("\tancestor %u\n", *it);
// }
return ancestors;
}
node_t* TaskTree::createNode(taskid_t id) {
node_t* node = new node_t();
node->parent = NULL;
node->id = id;
id2node[id] = node;
return node;
}
void TaskTree::insertChild(node_t* parent, node_t* child) {
if(parent) parent->children.push_back(child);
else {
rootid = child->id;
root = child;
}
child->parent = parent;
}
static void printNode(node_t* node, std::string prefix) {
if(!node) return;
task_t t = node->data;
printf("%s- %u - %s (%p)\n", prefix.c_str(), node->id, t.title.c_str(), node);
NodeList::iterator it;
for(it = node->children.begin(); it != node->children.end(); it++) {
node_t* child = *it;
printNode(child, " " + prefix);
}
}
void TaskTree::toStdOut() {
printNode(root, "");
}
std::string TaskTree::toXML()
{
node_t *root = id2node.at(rootid);
std::string xml;
xml += "\n";
xml += "\n";
xml += root->toXML(" ");
xml += "";
return xml;
}
void TaskTree::fromXML(std::string xml)
{
XmlParser p(this);
p.parse(xml.c_str(), xml.size());
}
#ifdef TEST_TASKTREE
//Additional dependency files
//deps: debug.cc log.cc
//Required cflags (autoconf vars may be used)
//cflags: -I..
//Required link options (autoconf vars may be used)
//libs:
#include "test.h"
#include
#define ROOT_ID 0
#define LOSTFOUND_ID 1
#define FINISHED_ID 2
#define BACKLOG_ID 3
#define PROJECTS_ID 4
#define FIRST_TASK_ID 10
TEST_BEGIN;
TaskTree tree;
task_t t;
t.title = "root";
t.id = ROOT_ID;
tree.insertAsChild(0, ROOT_ID, t);
t.title = "Finished";
t.id = FINISHED_ID;
tree.insertAsChild(ROOT_ID, FINISHED_ID, t);
t.title = "Backlog";
t.id = BACKLOG_ID;
tree.insertAsChild(ROOT_ID, BACKLOG_ID, t);
t.title = "Lost+Found";
t.id = LOSTFOUND_ID;
tree.insertAsChild(ROOT_ID, LOSTFOUND_ID, t);
t.title = "Projects";
t.id = PROJECTS_ID;
tree.insertAsChild(ROOT_ID, PROJECTS_ID, t);
TEST_EQUAL_INT(5, tree.bfs(0).size(), "Testing BFS function");
TEST_EQUAL_INT(PROJECTS_ID, tree.data(PROJECTS_ID).id, "Testing project id");
TEST_EQUAL_INT(ROOT_ID, tree.data(ROOT_ID).id, "Testing root id");
TEST_END;
#endif/*TEST_TASKTREE*/