mapnik/test/unit/vertex_adapter/offset_converter.cpp

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#include "catch.hpp"
#include "fake_path.hpp"
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// mapnik
#include <mapnik/offset_converter.hpp>
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#include <mapnik/util/math.hpp>
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// stl
#include <iostream>
namespace offset_test {
static double DELTA_BUFF = 0.5;
double dist(double x0, double y0, double x1, double y1)
{
double dx = x0 - x1;
double dy = y0 - y1;
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return std::sqrt(dx * dx + dy * dy);
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}
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void test_null_segment(double const& offset)
{
fake_path path = {};
mapnik::offset_converter<fake_path> off_path_new(path);
off_path_new.set_offset(offset);
double x0 = 0;
double y0 = 0;
REQUIRE(off_path_new.vertex(&x0, &y0) == mapnik::SEG_END);
REQUIRE(off_path_new.vertex(&x0, &y0) == mapnik::SEG_END);
REQUIRE(off_path_new.vertex(&x0, &y0) == mapnik::SEG_END);
}
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void test_invalid_segment(double const& offset)
{
std::vector<double> v_path = {1, 1, 1, 2};
fake_path path(v_path, true);
mapnik::offset_converter<fake_path> off_path_new(path);
off_path_new.set_offset(offset);
double x0 = 0;
double y0 = 0;
REQUIRE(off_path_new.vertex(&x0, &y0) == mapnik::SEG_END);
REQUIRE(off_path_new.vertex(&x0, &y0) == mapnik::SEG_END);
REQUIRE(off_path_new.vertex(&x0, &y0) == mapnik::SEG_END);
}
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void test_simple_segment(double const& offset)
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{
fake_path path = {0, 0, 1, 0}, off_path = {0, offset, 1, offset};
mapnik::offset_converter<fake_path> off_path_new(path);
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off_path_new.set_offset(offset);
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double x0, y0, x1, y1;
unsigned cmd0 = off_path_new.vertex(&x0, &y0);
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unsigned cmd1 = off_path.vertex(&x1, &y1);
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double d = dist(x0, y0, x1, y1);
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while (true)
{
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if (d > (std::abs(offset) + DELTA_BUFF))
{
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cmd0 = off_path_new.vertex(&x0, &y0);
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REQUIRE(cmd0 != mapnik::SEG_END);
d = dist(x0, y0, x1, y1);
REQUIRE(d <= (std::abs(offset) + DELTA_BUFF));
}
else
{
REQUIRE(d <= (std::abs(offset) + DELTA_BUFF));
}
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cmd1 = off_path.vertex(&x1, &y1);
if (cmd1 == mapnik::SEG_END)
break;
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d = dist(x0, y0, x1, y1);
bool done = false;
while (d <= (std::abs(offset) + DELTA_BUFF))
{
CHECK(true);
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cmd0 = off_path_new.vertex(&x0, &y0);
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if (cmd0 == mapnik::SEG_END)
{
done = true;
break;
}
}
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if (done)
break;
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}
}
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void test_straight_line(double const& offset)
{
fake_path path = {0, 0, 1, 0, 9, 0, 10, 0}, off_path = {0, offset, 1, offset, 9, offset, 10, offset};
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mapnik::offset_converter<fake_path> off_path_new(path);
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off_path_new.set_offset(offset);
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double x0, y0, x1, y1;
unsigned cmd0 = off_path_new.vertex(&x0, &y0);
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unsigned cmd1 = off_path.vertex(&x1, &y1);
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double d = dist(x0, y0, x1, y1);
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while (true)
{
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if (d > (std::abs(offset) + DELTA_BUFF))
{
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cmd0 = off_path_new.vertex(&x0, &y0);
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REQUIRE(cmd0 != mapnik::SEG_END);
d = dist(x0, y0, x1, y1);
REQUIRE(d <= (std::abs(offset) + DELTA_BUFF));
}
else
{
REQUIRE(d <= (std::abs(offset) + DELTA_BUFF));
}
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cmd1 = off_path.vertex(&x1, &y1);
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d = dist(x0, y0, x1, y1);
bool done = false;
while (d <= (std::abs(offset) + DELTA_BUFF))
{
CHECK(true);
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cmd0 = off_path_new.vertex(&x0, &y0);
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if (cmd0 == mapnik::SEG_END)
{
done = true;
break;
}
}
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if (done)
break;
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}
}
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void test_offset_curve(double const& offset)
{
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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::offset_converter<fake_path> off_path_new(path);
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off_path_new.set_offset(offset);
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double x0, y0, x1, y1;
unsigned cmd0 = off_path_new.vertex(&x0, &y0);
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unsigned cmd1 = off_path.vertex(&x1, &y1);
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double d = dist(x0, y0, x1, y1);
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while (true)
{
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if (d > (std::abs(offset) + DELTA_BUFF))
{
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cmd0 = off_path_new.vertex(&x0, &y0);
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REQUIRE(cmd0 != mapnik::SEG_END);
d = dist(x0, y0, x1, y1);
REQUIRE(d <= (std::abs(offset) + DELTA_BUFF));
}
else
{
REQUIRE(d <= (std::abs(offset) + DELTA_BUFF));
}
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cmd1 = off_path.vertex(&x1, &y1);
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d = dist(x0, y0, x1, y1);
bool done = false;
while (d <= (std::abs(offset) + DELTA_BUFF))
{
CHECK(true);
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cmd0 = off_path_new.vertex(&x0, &y0);
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if (cmd0 == mapnik::SEG_END)
{
done = true;
break;
}
}
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if (done)
break;
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}
}
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void test_s_shaped_curve(double const& offset)
{
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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::offset_converter<fake_path> off_path_new(path);
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off_path_new.set_offset(offset);
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double x0, y0, x1, y1;
unsigned cmd0 = off_path_new.vertex(&x0, &y0);
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unsigned cmd1 = off_path.vertex(&x1, &y1);
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double d = dist(x0, y0, x1, y1);
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while (true)
{
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if (d > (std::abs(offset) + DELTA_BUFF))
{
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cmd0 = off_path_new.vertex(&x0, &y0);
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REQUIRE(cmd0 != mapnik::SEG_END);
d = dist(x0, y0, x1, y1);
REQUIRE(d <= (std::abs(offset) + DELTA_BUFF));
}
else
{
REQUIRE(d <= (std::abs(offset) + DELTA_BUFF));
}
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cmd1 = off_path.vertex(&x1, &y1);
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d = dist(x0, y0, x1, y1);
bool done = false;
while (d <= (std::abs(offset) + DELTA_BUFF))
{
CHECK(true);
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cmd0 = off_path_new.vertex(&x0, &y0);
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if (cmd0 == mapnik::SEG_END)
{
done = true;
break;
}
}
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if (done)
break;
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}
}
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} // namespace offset_test
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TEST_CASE("offset converter")
{
SECTION("null segment")
{
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try
{
std::vector<double> offsets = {1, -1};
for (double offset : offsets)
{
// test simple straight line segment - should be easy to
// find the correspondance here.
offset_test::test_null_segment(offset);
}
}
catch (std::exception const& ex)
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{
std::cerr << ex.what() << "\n";
REQUIRE(false);
}
}
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SECTION("invalid segment")
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{
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try
{
std::vector<double> offsets = {1, -1};
for (double offset : offsets)
{
// test simple straight line segment - should be easy to
// find the correspondance here.
offset_test::test_invalid_segment(offset);
}
}
catch (std::exception const& ex)
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{
std::cerr << ex.what() << "\n";
REQUIRE(false);
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}
}
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SECTION("simple segment")
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{
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try
{
std::vector<double> offsets = {1, -1};
for (double offset : offsets)
{
// test simple straight line segment - should be easy to
// find the correspondance here.
offset_test::test_simple_segment(offset);
}
}
catch (std::exception const& ex)
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{
std::cerr << ex.what() << "\n";
REQUIRE(false);
}
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}
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SECTION("straight line")
{
try
{
std::vector<double> offsets = {1, -1};
for (double offset : offsets)
{
// test straight line consisting of more than one segment.
offset_test::test_straight_line(offset);
}
}
catch (std::exception const& ex)
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{
std::cerr << ex.what() << "\n";
REQUIRE(false);
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}
}
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SECTION("curve")
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{
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try
{
std::vector<double> offsets = {1, -1};
for (double offset : offsets)
{
offset_test::test_offset_curve(offset);
}
}
catch (std::exception const& ex)
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{
std::cerr << ex.what() << "\n";
REQUIRE(false);
}
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}
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SECTION("s curve")
{
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try
{
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std::vector<double> offsets = {1, -1};
for (double offset : offsets)
{
offset_test::test_s_shaped_curve(offset);
}
}
catch (std::exception const& ex)
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{
std::cerr << ex.what() << "\n";
REQUIRE(false);
}
}
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SECTION("offsect converter does not skip SEG_MOVETO or SEG_CLOSE vertices")
{
const double offset = 0.2;
fake_path path = {};
path.vertices_.emplace_back(-2, -2, mapnik::SEG_MOVETO);
path.vertices_.emplace_back(2, -2, mapnik::SEG_LINETO);
path.vertices_.emplace_back(2, 2, mapnik::SEG_LINETO);
path.vertices_.emplace_back(-2, 2, mapnik::SEG_LINETO);
path.vertices_.emplace_back(-2, -1.9, mapnik::SEG_LINETO);
path.vertices_.emplace_back(0, 0, mapnik::SEG_CLOSE);
path.vertices_.emplace_back(-1.9, -1.9, mapnik::SEG_MOVETO);
path.vertices_.emplace_back(1, -1, mapnik::SEG_LINETO);
path.vertices_.emplace_back(1, 1, mapnik::SEG_LINETO);
path.vertices_.emplace_back(-1, 1, mapnik::SEG_LINETO);
path.vertices_.emplace_back(-1, -1, mapnik::SEG_LINETO);
path.vertices_.emplace_back(0, 0, mapnik::SEG_CLOSE);
path.rewind(0);
mapnik::offset_converter<fake_path> off_path(path);
off_path.set_offset(offset);
unsigned cmd;
double x, y;
unsigned move_to_count = 0;
unsigned close_count = 0;
while ((cmd = off_path.vertex(&x, &y)) != mapnik::SEG_END)
{
switch (cmd)
{
case mapnik::SEG_MOVETO:
move_to_count++;
break;
case mapnik::SEG_CLOSE:
close_count++;
break;
}
}
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CHECK(move_to_count == 2);
CHECK(close_count == 2);
}
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}