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Location: cpp/openttd-patchpack/source/src/linkgraph/linkgraph.cpp
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Codechange: MacOS already has MIN/MAX macros defined
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includes a system headers which defines MIN/MAX.
This is caused because we use PreCompile Headers, and one of them
includes a system headers which defines MIN/MAX.
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* This file is part of OpenTTD.
* OpenTTD 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, version 2.
* OpenTTD 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 OpenTTD. If not, see <http://www.gnu.org/licenses/>.
*/
/** @file linkgraph.cpp Definition of link graph classes used for cargo distribution. */
#include "../stdafx.h"
#include "../core/pool_func.hpp"
#include "linkgraph.h"
#include "../safeguards.h"
/* Initialize the link-graph-pool */
LinkGraphPool _link_graph_pool("LinkGraph");
INSTANTIATE_POOL_METHODS(LinkGraph)
/**
* Create a node or clear it.
* @param xy Location of the associated station.
* @param st ID of the associated station.
* @param demand Demand for cargo at the station.
*/
LinkGraph::BaseNode::BaseNode(TileIndex xy, StationID st, uint demand)
{
this->xy = xy;
this->supply = 0;
this->demand = demand;
this->station = st;
this->last_update = CalendarTime::INVALID_DATE;
}
/**
* Create an edge.
*/
LinkGraph::BaseEdge::BaseEdge(NodeID dest_node)
{
this->capacity = 0;
this->usage = 0;
this->travel_time_sum = 0;
this->last_unrestricted_update = CalendarTime::INVALID_DATE;
this->last_restricted_update = CalendarTime::INVALID_DATE;
this->dest_node = dest_node;
}
/**
* Shift all dates by given interval.
* This is useful if the date has been modified with the cheat menu.
* @param interval Number of days to be added or subtracted.
*/
void LinkGraph::ShiftDates(TimerGameCalendar::Date interval)
{
this->last_compression += interval;
for (NodeID node1 = 0; node1 < this->Size(); ++node1) {
BaseNode &source = this->nodes[node1];
if (source.last_update != CalendarTime::INVALID_DATE) source.last_update += interval;
for (BaseEdge &edge : this->nodes[node1].edges) {
if (edge.last_unrestricted_update != CalendarTime::INVALID_DATE) edge.last_unrestricted_update += interval;
if (edge.last_restricted_update != CalendarTime::INVALID_DATE) edge.last_restricted_update += interval;
}
}
}
void LinkGraph::Compress()
{
this->last_compression = (TimerGameCalendar::date + this->last_compression).base() / 2;
for (NodeID node1 = 0; node1 < this->Size(); ++node1) {
this->nodes[node1].supply /= 2;
for (BaseEdge &edge : this->nodes[node1].edges) {
if (edge.capacity > 0) {
uint new_capacity = std::max(1U, edge.capacity / 2);
if (edge.capacity < (1 << 16)) {
edge.travel_time_sum = edge.travel_time_sum * new_capacity / edge.capacity;
} else if (edge.travel_time_sum != 0) {
edge.travel_time_sum = std::max<uint64_t>(1, edge.travel_time_sum / 2);
}
edge.capacity = new_capacity;
edge.usage /= 2;
}
}
}
}
/**
* Merge a link graph with another one.
* @param other LinkGraph to be merged into this one.
*/
void LinkGraph::Merge(LinkGraph *other)
{
TimerGameCalendar::Date age = TimerGameCalendar::date - this->last_compression + 1;
TimerGameCalendar::Date other_age = TimerGameCalendar::date - other->last_compression + 1;
NodeID first = this->Size();
for (NodeID node1 = 0; node1 < other->Size(); ++node1) {
Station *st = Station::Get(other->nodes[node1].station);
NodeID new_node = this->AddNode(st);
this->nodes[new_node].supply = LinkGraph::Scale(other->nodes[node1].supply, age, other_age);
st->goods[this->cargo].link_graph = this->index;
st->goods[this->cargo].node = new_node;
for (BaseEdge &e : other->nodes[node1].edges) {
BaseEdge &new_edge = this->nodes[new_node].edges.emplace_back(first + e.dest_node);
new_edge.capacity = LinkGraph::Scale(e.capacity, age, other_age);
new_edge.usage = LinkGraph::Scale(e.usage, age, other_age);
new_edge.travel_time_sum = LinkGraph::Scale(e.travel_time_sum, age, other_age);
}
}
delete other;
}
/**
* Remove a node from the link graph by overwriting it with the last node.
* @param id ID of the node to be removed.
*/
void LinkGraph::RemoveNode(NodeID id)
{
assert(id < this->Size());
NodeID last_node = this->Size() - 1;
Station::Get(this->nodes[last_node].station)->goods[this->cargo].node = id;
/* Erase node by swapping with the last element. Node index is referenced
* directly from station goods entries so the order and position must remain. */
this->nodes[id] = this->nodes.back();
this->nodes.pop_back();
for (auto &n : this->nodes) {
/* Find iterator position where an edge to id would be. */
auto [first, last] = std::equal_range(n.edges.begin(), n.edges.end(), id);
/* Remove potential node (erasing an empty range is safe). */
auto insert = n.edges.erase(first, last);
/* As the edge list is sorted, a potential edge to last_node will always be the last edge. */
if (!n.edges.empty() && n.edges.back().dest_node == last_node) {
/* Change dest ID and move into the spot of the deleted edge. */
n.edges.back().dest_node = id;
n.edges.insert(insert, n.edges.back());
n.edges.pop_back();
}
}
}
/**
* Add a node to the component and create empty edges associated with it. Set
* the station's last_component to this component. Calculate the distances to all
* other nodes. The distances to _all_ nodes are important as the demand
* calculator relies on their availability.
* @param st New node's station.
* @return New node's ID.
*/
NodeID LinkGraph::AddNode(const Station *st)
{
const GoodsEntry &good = st->goods[this->cargo];
NodeID new_node = this->Size();
this->nodes.emplace_back(st->xy, st->index, HasBit(good.status, GoodsEntry::GES_ACCEPTANCE));
return new_node;
}
/**
* Fill an edge with values from a link. Set the restricted or unrestricted
* update timestamp according to the given update mode.
* @param to Destination node of the link.
* @param capacity Capacity of the link.
* @param usage Usage to be added.
* @param mode Update mode to be used.
*/
void LinkGraph::BaseNode::AddEdge(NodeID to, uint capacity, uint usage, uint32_t travel_time, EdgeUpdateMode mode)
{
assert(!this->HasEdgeTo(to));
BaseEdge &edge = *this->edges.emplace(std::upper_bound(this->edges.begin(), this->edges.end(), to), to);
edge.capacity = capacity;
edge.usage = usage;
edge.travel_time_sum = static_cast<uint64_t>(travel_time) * capacity;
if (mode & EUM_UNRESTRICTED) edge.last_unrestricted_update = TimerGameCalendar::date;
if (mode & EUM_RESTRICTED) edge.last_restricted_update = TimerGameCalendar::date;
}
/**
* Creates an edge if none exists yet or updates an existing edge.
* @param to Target node.
* @param capacity Capacity of the link.
* @param usage Usage to be added.
* @param mode Update mode to be used.
*/
void LinkGraph::BaseNode::UpdateEdge(NodeID to, uint capacity, uint usage, uint32_t travel_time, EdgeUpdateMode mode)
{
assert(capacity > 0);
assert(usage <= capacity);
if (!this->HasEdgeTo(to)) {
this->AddEdge(to, capacity, usage, travel_time, mode);
} else {
this->GetEdge(to)->Update(capacity, usage, travel_time, mode);
}
}
/**
* Remove an outgoing edge from this node.
* @param to ID of destination node.
*/
void LinkGraph::BaseNode::RemoveEdge(NodeID to)
{
auto [first, last] = std::equal_range(this->edges.begin(), this->edges.end(), to);
this->edges.erase(first, last);
}
/**
* Update an edge. If mode contains UM_REFRESH refresh the edge to have at
* least the given capacity and usage, otherwise add the capacity, usage and travel time.
* In any case set the respective update timestamp(s), according to the given
* mode.
* @param capacity Capacity to be added/updated.
* @param usage Usage to be added.
* @param travel_time Travel time to be added, in ticks.
* @param mode Update mode to be applied.
*/
void LinkGraph::BaseEdge::Update(uint capacity, uint usage, uint32_t travel_time, EdgeUpdateMode mode)
{
assert(this->capacity > 0);
assert(capacity >= usage);
if (mode & EUM_INCREASE) {
if (this->travel_time_sum == 0) {
this->travel_time_sum = static_cast<uint64_t>(this->capacity + capacity) * travel_time;
} else if (travel_time == 0) {
this->travel_time_sum += this->travel_time_sum / this->capacity * capacity;
} else {
this->travel_time_sum += static_cast<uint64_t>(travel_time) * capacity;
}
this->capacity += capacity;
this->usage += usage;
} else if (mode & EUM_REFRESH) {
if (this->travel_time_sum == 0) {
this->capacity = std::max(this->capacity, capacity);
this->travel_time_sum = static_cast<uint64_t>(travel_time) * this->capacity;
} else if (capacity > this->capacity) {
this->travel_time_sum = this->travel_time_sum / this->capacity * capacity;
this->capacity = capacity;
}
this->usage = std::max(this->usage, usage);
}
if (mode & EUM_UNRESTRICTED) this->last_unrestricted_update = TimerGameCalendar::date;
if (mode & EUM_RESTRICTED) this->last_restricted_update = TimerGameCalendar::date;
}
/**
* Resize the component and fill it with empty nodes and edges. Used when
* loading from save games. The component is expected to be empty before.
* @param size New size of the component.
*/
void LinkGraph::Init(uint size)
{
assert(this->Size() == 0);
this->nodes.resize(size);
}
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