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#include "Reader.h"
#include <vector>
#include "Grid.h"
#include "LongVector3.h"
#include "Source.h"
#include "Utils.h"
#include "Wreck.h"
static constexpr long double SCALE {.0001};
static constexpr long double EXTENT {1000 * 50000};
static Grid& find_grid_for(std::vector<Grid>& grids, const LongVector3& position);
std::vector<Grid>
Reader::read(Source& source)
{
std::vector<Grid> grids;
for (auto& km : source.killmails()) {
auto& grid = find_grid_for(grids, km.position);
grid.wrecks.push_back(Wreck{Vector3{0, 0, 0}, km});
}
for (auto& grid : grids) {
LongVector3 average {0, 0, 0};
for (const auto& wreck : grid.wrecks) {
average.x += wreck.killmail.position.x;
average.y += wreck.killmail.position.y;
average.z += wreck.killmail.position.z;
}
const auto killmails = grid.wrecks.size();
average.x /= killmails;
average.y /= killmails;
average.z /= killmails;
for (auto& wreck : grid.wrecks) {
wreck.position = {
static_cast<float>((wreck.killmail.position.x - average.x) * SCALE),
static_cast<float>((wreck.killmail.position.y - average.y) * SCALE),
static_cast<float>((wreck.killmail.position.z - average.z) * SCALE),
};
}
grid.origin = average;
}
return grids;
}
Grid&
find_grid_for(std::vector<Grid>& grids, const LongVector3& position)
{
for (auto& grid : grids)
for (auto& wreck : grid.wrecks)
if (dist(position, wreck.killmail.position) < EXTENT)
return grid;
grids.push_back(Grid{});
return grids.back();
}
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