mapnik/test/unit/vertex_adapter/line_offset_test.cpp

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#include "catch.hpp"
#include "fake_path.hpp"
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// mapnik
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#include <mapnik/util/math.hpp>
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#include <mapnik/vertex_cache.hpp>
// stl
#include <iostream>
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double dist(mapnik::pixel_position const& a, mapnik::pixel_position const& b)
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{
mapnik::pixel_position d = a - b;
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return std::sqrt(d.x * d.x + d.y * d.y);
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}
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void test_simple_segment(double const& offset)
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{
const double dx = 0.01;
fake_path path = {0, 0, 1, 0}, off_path = {0, offset, 1, offset};
mapnik::vertex_cache vc(path), off_vc(off_path);
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vc.reset();
vc.next_subpath();
off_vc.reset();
off_vc.next_subpath();
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while (vc.move(dx))
{
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double pos = vc.linear_position();
double off_pos = off_vc.position_closest_to(vc.current_position());
REQUIRE(std::abs(pos - off_pos) < 1.0e-6);
}
}
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void test_straight_line(double const& offset)
{
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const double dx = 0.01;
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fake_path path = {0, 0, 0.1, 0, 0.9, 0, 1, 0}, off_path = {0, offset, 0.4, offset, 0.6, offset, 1, offset};
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mapnik::vertex_cache vc(path), off_vc(off_path);
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vc.reset();
vc.next_subpath();
off_vc.reset();
off_vc.next_subpath();
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while (vc.move(dx))
{
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double pos = vc.linear_position();
double off_pos = off_vc.position_closest_to(vc.current_position());
REQUIRE(std::abs(pos - off_pos) < 1.0e-6);
}
}
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void test_offset_curve(double const& offset)
{
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const double dx = 0.01;
const double r = (1.0 + offset);
std::vector<double> pos, off_pos;
const size_t max_i = 1000;
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for (size_t i = 0; i <= max_i; ++i)
{
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double x = mapnik::util::pi * double(i) / max_i;
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pos.push_back(-std::cos(x));
pos.push_back(std::sin(x));
off_pos.push_back(-r * std::cos(x));
off_pos.push_back(r * std::sin(x));
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}
fake_path path(pos), off_path(off_pos);
mapnik::vertex_cache vc(path), off_vc(off_path);
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vc.reset();
vc.next_subpath();
off_vc.reset();
off_vc.next_subpath();
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while (vc.move(dx))
{
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double mpos = vc.linear_position();
double moff_pos = off_vc.position_closest_to(vc.current_position());
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{
mapnik::vertex_cache::scoped_state s(off_vc);
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off_vc.move(moff_pos);
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auto eps = (1.001 * offset);
auto actual = dist(vc.current_position(), off_vc.current_position());
REQUIRE(actual < eps);
}
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REQUIRE(std::abs((mpos / vc.length()) - (moff_pos / off_vc.length())) < 1.0e-3);
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}
}
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void test_s_shaped_curve(double const& offset)
{
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const double dx = 0.01;
const double r = (1.0 + offset);
const double r2 = (1.0 - offset);
std::vector<double> pos, off_pos;
const size_t max_i = 1000;
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for (size_t i = 0; i <= max_i; ++i)
{
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double x = mapnik::util::pi * double(i) / max_i;
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pos.push_back(-std::cos(x) - 1);
pos.push_back(std::sin(x));
off_pos.push_back(-r * std::cos(x) - 1);
off_pos.push_back(r * std::sin(x));
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}
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for (size_t i = 0; i <= max_i; ++i)
{
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double x = mapnik::util::pi * double(i) / max_i;
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pos.push_back(-std::cos(x) + 1);
pos.push_back(-std::sin(x));
off_pos.push_back(-r2 * std::cos(x) + 1);
off_pos.push_back(-r2 * std::sin(x));
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}
fake_path path(pos), off_path(off_pos);
mapnik::vertex_cache vc(path), off_vc(off_path);
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vc.reset();
vc.next_subpath();
off_vc.reset();
off_vc.next_subpath();
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while (vc.move(dx))
{
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double moff_pos = off_vc.position_closest_to(vc.current_position());
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{
mapnik::vertex_cache::scoped_state s(off_vc);
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off_vc.move(moff_pos);
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REQUIRE(dist(vc.current_position(), off_vc.current_position()) < (1.002 * offset));
}
}
}
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TEST_CASE("offsets")
{
SECTION("line")
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{
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try
{
std::vector<double> offsets = {0.01, 0.02, 0.1, 0.2};
for (double offset : offsets)
{
// test simple straight line segment - should be easy to
// find the correspondance here.
test_simple_segment(offset);
// test straight line consisting of more than one segment.
test_straight_line(offset);
// test an offset outer curve
test_offset_curve(offset);
// test an offset along an S-shaped curve, which is harder
// because the positions along the offset are no longer
// linearly related to the positions along the original
// curve.
test_s_shaped_curve(offset);
}
} catch (std::exception const& ex)
{
std::cerr << ex.what() << "\n";
REQUIRE(false);
}
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}
}