mapnik/tests/cpp_tests/line_offset_test.cpp

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// mapnik
#include <mapnik/coord.hpp>
#include <mapnik/text/vertex_cache.hpp>
// boost
#include <boost/detail/lightweight_test.hpp>
// stl
#include <stdexcept>
#include <iostream>
#include <fstream>
#include <vector>
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#include <tuple>
#include <algorithm>
// test
#include "utils.hpp"
struct fake_path
{
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using coord_type = std::tuple<double, double, unsigned>;
using cont_type = std::vector<coord_type>;
cont_type vertices_;
cont_type::iterator itr_;
fake_path(std::initializer_list<double> l)
: fake_path(l.begin(), l.size()) {
}
fake_path(std::vector<double> const &v)
: fake_path(v.begin(), v.size()) {
}
template <typename Itr>
fake_path(Itr itr, size_t sz) {
size_t num_coords = sz >> 1;
vertices_.reserve(num_coords);
for (size_t i = 0; i < num_coords; ++i) {
double x = *itr++;
double y = *itr++;
unsigned cmd = (i == 0) ? agg::path_cmd_move_to : agg::path_cmd_line_to;
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vertices_.push_back(std::make_tuple(x, y, cmd));
}
itr_ = vertices_.begin();
}
unsigned vertex(double *x, double *y) {
if (itr_ == vertices_.end()) {
return agg::path_cmd_stop;
}
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*x = std::get<0>(*itr_);
*y = std::get<1>(*itr_);
unsigned cmd = std::get<2>(*itr_);
++itr_;
return cmd;
}
void rewind(unsigned) {
itr_ = vertices_.begin();
}
};
double dist(mapnik::pixel_position const &a,
mapnik::pixel_position const &b)
{
mapnik::pixel_position d = a - b;
return std::sqrt(d.x*d.x + d.y*d.y);
}
namespace boost { namespace detail {
template<class T, class U>
inline void test_leq_impl(char const * expr1, char const * expr2,
char const * file, int line, char const * function,
T const & t, U const & u)
{
if( t > u )
{
BOOST_LIGHTWEIGHT_TEST_OSTREAM
<< file << "(" << line << "): test '" << expr1 << " == " << expr2
<< "' failed in function '" << function << "': "
<< "'" << t << "' > '" << u << "'" << std::endl;
++test_errors();
}
}
} }
#define BOOST_TEST_LEQ(expr1,expr2) ( ::boost::detail::test_leq_impl(#expr1, #expr2, __FILE__, __LINE__, BOOST_CURRENT_FUNCTION, expr1, expr2) )
void test_simple_segment(double const &offset)
{
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);
vc.reset(); vc.next_subpath();
off_vc.reset(); off_vc.next_subpath();
while (vc.move(dx)) {
double pos = vc.linear_position();
double off_pos = off_vc.position_closest_to(vc.current_position());
BOOST_TEST_LEQ(std::abs(pos - off_pos), 1.0e-6);
}
}
void test_straight_line(double const &offset) {
const double dx = 0.01;
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};
mapnik::vertex_cache vc(path), off_vc(off_path);
vc.reset(); vc.next_subpath();
off_vc.reset(); off_vc.next_subpath();
while (vc.move(dx)) {
double pos = vc.linear_position();
double off_pos = off_vc.position_closest_to(vc.current_position());
BOOST_TEST_LEQ(std::abs(pos - off_pos), 1.0e-6);
}
}
void test_offset_curve(double const &offset) {
const double dx = 0.01;
const double r = (1.0 + offset);
std::vector<double> pos, off_pos;
const size_t max_i = 1000;
for (size_t i = 0; i <= max_i; ++i) {
double x = M_PI * double(i) / max_i;
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));
}
fake_path path(pos), off_path(off_pos);
mapnik::vertex_cache vc(path), off_vc(off_path);
vc.reset(); vc.next_subpath();
off_vc.reset(); off_vc.next_subpath();
while (vc.move(dx)) {
double pos = vc.linear_position();
double off_pos = off_vc.position_closest_to(vc.current_position());
{
mapnik::vertex_cache::scoped_state s(off_vc);
off_vc.move(off_pos);
BOOST_TEST_LEQ(dist(vc.current_position(), off_vc.current_position()), (1.001 * offset));
}
BOOST_TEST_LEQ(std::abs((pos / vc.length()) - (off_pos / off_vc.length())), 1.0e-3);
}
}
void test_s_shaped_curve(double const &offset) {
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;
for (size_t i = 0; i <= max_i; ++i) {
double x = M_PI * double(i) / max_i;
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));
}
for (size_t i = 0; i <= max_i; ++i) {
double x = M_PI * double(i) / max_i;
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));
}
fake_path path(pos), off_path(off_pos);
mapnik::vertex_cache vc(path), off_vc(off_path);
vc.reset(); vc.next_subpath();
off_vc.reset(); off_vc.next_subpath();
while (vc.move(dx)) {
double off_pos = off_vc.position_closest_to(vc.current_position());
{
mapnik::vertex_cache::scoped_state s(off_vc);
off_vc.move(off_pos);
BOOST_TEST_LEQ(dist(vc.current_position(), off_vc.current_position()), (1.002 * offset));
}
}
}
int main(int argc, char** argv)
{
std::vector<std::string> args;
for (int i=1;i<argc;++i)
{
args.push_back(argv[i]);
}
bool quiet = std::find(args.begin(), args.end(), "-q")!=args.end();
try {
BOOST_TEST(set_working_dir(args));
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";
}
if (!::boost::detail::test_errors())
{
if (quiet) std::clog << "\x1b[1;32m.\x1b[0m";
else std::clog << "C++ line offset: \x1b[1;32m✓ \x1b[0m\n";
::boost::detail::report_errors_remind().called_report_errors_function = true;
}
else
{
return ::boost::report_errors();
}
}