vcglib/apps/nexus/history.cpp

298 lines
8.5 KiB
C++
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#include <assert.h>
#include <map>
#include <iostream>
#include "history.h"
using namespace std;
using namespace nxs;
History::~History() {
if(buffer) delete []buffer;
nodes = NULL;
in_links= NULL;
out_links = NULL;
frags = NULL;
}
void History::Clear() {
if(buffer) delete []buffer;
buffer = NULL;
updates.clear();
}
void History::ClearQuick() {
if(buffer) delete []buffer;
buffer = NULL;
}
void History::ClearUpdates() {
updates.clear();
}
bool History::Load(unsigned int _size, char *mem) {
if(buffer) delete []buffer;
unsigned int is_quick = *(unsigned int *)mem;
bool success;
if(is_quick == 53) {
// cerr << "Load quick!\n";
success = LoadQuick(_size, mem);
} else if(is_quick == 32) {
// cerr << "Load updates\n";
success = LoadUpdates(_size, mem);
} else {
cerr << "Invalid history: " << is_quick << "\n";
return false;
}
return success;
}
bool History::LoadQuick(unsigned int _size, char *mem) {
buffer = mem;
nodes = (Node *)(buffer + 5 * sizeof(int));
in_links = (Link *)(nodes + n_nodes());
out_links = in_links + n_in_links();
frags = (Cell *)(out_links + n_out_links());
//check size is ok;
assert(n_nodes() * sizeof(Node) +
(n_in_links() + n_out_links()) * sizeof(Link) +
n_frags() * sizeof(Cell) +
5 * sizeof(int) == size);
size = _size;
return LoadPointers();
}
bool History::LoadUpdates(unsigned int _size, char *mem) {
unsigned int *tmp = (unsigned int *)mem;
updates.resize(tmp[1]);
unsigned int pos = 2;
for(unsigned int i = 0; i < updates.size(); i++) {
unsigned int erased = tmp[pos++];
unsigned int created = tmp[pos++];
updates[i].erased.resize(erased);
updates[i].created.resize(created);
for(unsigned int e = 0; e < erased; e++)
updates[i].erased[e] = tmp[pos++];
for(unsigned int e = 0; e < created; e++)
updates[i].created[e] = tmp[pos++];
}
delete []mem;
buffer = 0;
return true;
}
bool History::LoadPointers() {
//now convert integer to pointers
for(unsigned int i = 0; i < n_nodes(); i++) {
Node &node = nodes[i];
assert(((unsigned int)node.in_link_begin) <= n_in_links());
assert(((unsigned int)node.out_link_begin) <= n_out_links());
node.in_link_begin = in_links + (unsigned int)(node.in_link_begin);
node.out_link_begin = out_links + (unsigned int)(node.out_link_begin);
}
for(unsigned int i = 0; i < n_in_links(); i++) {
Link &link = in_links[i];
assert(((unsigned int)link.node) <= n_nodes());
assert(((unsigned int)link.frag_begin) <= n_frags());
link.node = nodes + (unsigned int)(link.node);
link.frag_begin = frags + (unsigned int)(link.frag_begin);
}
for(unsigned int i = 0; i < n_out_links(); i++) {
Link &link = out_links[i];
assert(((unsigned int)link.node) <= n_nodes());
assert(((unsigned int)link.frag_begin) <= n_frags());
link.node = nodes + (unsigned int)(link.node);
link.frag_begin = frags + (unsigned int)(link.frag_begin);
}
return true;
}
char *History::Save(unsigned int &_size) {
if(buffer) {
// cerr << "SaveQuick!\n";
return SaveQuick(_size);
} else {
// cerr << "Save updates\n";
return SaveUpdates(_size);
}
}
char *History::SaveQuick(unsigned int &_size) {
assert(buffer);
for(unsigned int i = 0; i < n_nodes(); i++) {
Node &node = nodes[i];
node.in_link_begin = (Link *)(node.in_link_begin - in_links);
node.out_link_begin = (Link *)(node.out_link_begin - out_links);
}
for(unsigned int i = 0; i < n_in_links(); i++) {
Link &link = in_links[i];
link.node = (Node *)(link.node - nodes);
link.frag_begin = (Cell *)(link.frag_begin - frags);
}
for(unsigned int i = 0; i < n_out_links(); i++) {
Link &link = out_links[i];
link.node = (Node *)(link.node - nodes);
link.frag_begin = (Cell *)(link.frag_begin - frags);
}
_size = size;
char *tmp = buffer;
buffer = NULL;
return tmp;
}
char *History::SaveUpdates(unsigned int &_size) {
vector<unsigned int> buf;
buf.push_back(32);
buf.push_back(updates.size());
for(unsigned int i = 0; i < updates.size(); i++) {
Update &update = updates[i];
buf.push_back(update.erased.size());
buf.push_back(update.created.size());
for(unsigned int e = 0; e < update.erased.size(); e++)
buf.push_back(update.erased[e]);
for(unsigned int e = 0; e < update.created.size(); e++)
buf.push_back(update.created[e]);
}
_size = buf.size() * sizeof(unsigned int);
char *mem = new char[_size];
memcpy(mem, &*buf.begin(), _size);
return mem;
}
bool History::UpdatesToQuick() {
//maps cell -> node containing it
map<unsigned int, unsigned int> cell_node;
//maps node -> Links
map<unsigned int, vector<Link> > node_inlinks;
map<unsigned int, vector<Link> > node_outlinks;
vector<Node> tmp_nodes;
tmp_nodes.resize(updates.size());
vector<Link> tmp_in_links;
vector<Link> tmp_out_links;
vector<Cell> tmp_frags;
unsigned int current_node = 0;
vector<Update>::iterator u;
for(u = updates.begin(); u != updates.end(); u++) {
Node &node = tmp_nodes[current_node];
//created cells belong to this node, we look also for max error.
for(unsigned int i = 0; i < (*u).created.size(); i++) {
unsigned int cell = (*u).created[i];
cell_node[cell] = current_node;
}
//Every erased cell already belonged to a node.
//node -> its cells
map<unsigned int, vector<unsigned int> > node_erased;
for(unsigned int i = 0; i < (*u).erased.size(); i++) {
unsigned int cell = (*u).erased[i];
assert(cell_node.count(cell));
node_erased[cell_node[cell]].push_back(cell);
}
//for every node with erased cells we build a fragment and
//put the corresponding cells in it.
map<unsigned int, vector<unsigned int> >::iterator e;
for(e = node_erased.begin(); e != node_erased.end(); e++) {
//node.in.push_back(innodes.size());
unsigned int floor_node = (*e).first;
vector<unsigned int> &cells = (*e).second;
Node &parent = tmp_nodes[floor_node];
Link inlink;
inlink.node = (Node *)floor_node;
inlink.frag_begin = (Cell *)(tmp_frags.size());
inlink.frag_size = cells.size();
Link outlink;
outlink.node = (Node *)current_node;
outlink.frag_begin = (Cell *)(tmp_frags.size());
outlink.frag_size = cells.size();
//Fill it with erased cells.
vector<unsigned int>::iterator k;
for(k = cells.begin(); k != cells.end(); k++) {
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Cell cell;
cell.patch = (*k);
tmp_frags.push_back(cell);
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}
//Add the new Frag to the node.
node_outlinks[floor_node].push_back(outlink);
node_inlinks[current_node].push_back(inlink);
//Update in and out of the nodes.
}
current_node++;
}
map<unsigned int, vector<Link> >::iterator k;
for(k = node_outlinks.begin(); k != node_outlinks.end(); k++) {
unsigned int inode = (*k).first;
vector<Link> &links = (*k).second;
tmp_nodes[inode].out_link_begin = (Link *)(tmp_out_links.size());
tmp_nodes[inode].out_link_size = links.size();
for(unsigned int i = 0; i < links.size(); i++)
tmp_out_links.push_back(links[i]);
}
for(k = node_inlinks.begin(); k != node_inlinks.end(); k++) {
unsigned int inode = (*k).first;
vector<Link> &links = (*k).second;
tmp_nodes[inode].in_link_begin = (Link *)(tmp_in_links.size());
tmp_nodes[inode].in_link_size = links.size();
for(unsigned int i = 0; i < links.size(); i++)
tmp_in_links.push_back(links[i]);
}
size = tmp_nodes.size() * sizeof(Node) +
tmp_in_links.size() * sizeof(Link) +
tmp_out_links.size() * sizeof(Link) +
tmp_frags.size() * sizeof(Cell) +
5 * sizeof(int);
if(buffer) delete []buffer;
buffer = new char[size];
quick() = 53;
n_nodes() = tmp_nodes.size();
n_in_links() = tmp_in_links.size();
n_out_links() = tmp_out_links.size();
n_frags() = tmp_frags.size();
nodes = (Node *)(buffer + 5 * sizeof(int));
in_links = (Link *)(nodes + n_nodes());
out_links = in_links + n_in_links();
frags = (Cell *)(out_links + n_out_links());
memcpy(nodes, &*tmp_nodes.begin(), tmp_nodes.size()*sizeof(Node));
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memcpy(in_links, &*tmp_in_links.begin(), tmp_in_links.size()*sizeof(Link));
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memcpy(out_links, &*tmp_out_links.begin(),
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tmp_out_links.size()*sizeof(Link));
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memcpy(frags, &*tmp_frags.begin(), tmp_frags.size() * sizeof(Cell));
return LoadPointers();
}