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#include <mbgl/test/util.hpp>
#include <mbgl/test/stub_file_source.hpp>
#include <mbgl/test/stub_map_observer.hpp>
#include <mbgl/test/fake_file_source.hpp>
#include <mbgl/test/fixture_log_observer.hpp>
#include <mbgl/map/map.hpp>
#include <mbgl/gl/context.hpp>
#include <mbgl/gl/headless_frontend.hpp>
#include <mbgl/util/default_thread_pool.hpp>
#include <mbgl/storage/network_status.hpp>
#include <mbgl/storage/default_file_source.hpp>
#include <mbgl/storage/online_file_source.hpp>
#include <mbgl/util/image.hpp>
#include <mbgl/util/io.hpp>
#include <mbgl/util/run_loop.hpp>
#include <mbgl/util/async_task.hpp>
#include <mbgl/style/style.hpp>
#include <mbgl/style/image.hpp>
#include <mbgl/style/layers/background_layer.hpp>
#include <mbgl/style/layers/symbol_layer.hpp>
#include <mbgl/style/sources/geojson_source.hpp>
#include <mbgl/util/color.hpp>
using namespace mbgl;
using namespace mbgl::style;
using namespace std::literals::string_literals;
template <class FileSource = StubFileSource>
class MapTest {
public:
util::RunLoop runLoop;
FileSource fileSource;
ThreadPool threadPool { 4 };
StubMapObserver observer;
HeadlessFrontend frontend;
Map map;
MapTest(float pixelRatio = 1, MapMode mode = MapMode::Static)
: frontend(pixelRatio, fileSource, threadPool)
, map(frontend, observer, frontend.getSize(), pixelRatio, fileSource, threadPool, mode) {
}
template <typename T = FileSource>
MapTest(const std::string& cachePath, const std::string& assetRoot,
float pixelRatio = 1, MapMode mode = MapMode::Static,
typename std::enable_if<std::is_same<T, DefaultFileSource>::value>::type* = 0)
: fileSource { cachePath, assetRoot }
, frontend(pixelRatio, fileSource, threadPool)
, map(frontend, observer, frontend.getSize(), pixelRatio, fileSource, threadPool, mode) {
}
};
TEST(Map, RendererState) {
MapTest<> test;
// Map hasn't notified the frontend about an update yet.
CameraOptions nullOptions;
ASSERT_EQ(test.frontend.getCameraOptions(), nullOptions);
LatLng coordinate { 1, 1 };
double zoom = 12.0;
double pitchInDegrees = 45.0;
double bearingInDegrees = 30.0;
test.map.getStyle().loadJSON(util::read_file("test/fixtures/api/empty.json"));
test.map.setLatLngZoom(coordinate, zoom);
test.map.setPitch(pitchInDegrees);
test.map.setBearing(bearingInDegrees);
test.runLoop.runOnce();
test.frontend.render(test.map);
// RendererState::getCameraOptions
const CameraOptions& options = test.frontend.getCameraOptions();
EXPECT_NEAR(options.center->latitude(), coordinate.latitude(), 1e-7);
EXPECT_NEAR(options.center->longitude(), coordinate.longitude(), 1e-7);
ASSERT_DOUBLE_EQ(*options.zoom, zoom);
ASSERT_DOUBLE_EQ(*options.pitch, pitchInDegrees);
EXPECT_NEAR(*options.angle, bearingInDegrees, 1e-7);
{
const LatLng& latLng = test.frontend.latLngForPixel(ScreenCoordinate { 0, 0 });
const ScreenCoordinate& point = test.frontend.pixelForLatLng(coordinate);
EXPECT_NEAR(coordinate.latitude(), latLng.latitude(), 1e-1);
EXPECT_NEAR(coordinate.longitude(), latLng.longitude(), 1e-1);
const Size size = test.map.getSize();
EXPECT_NEAR(point.x, size.width / 2.0, 1e-7);
EXPECT_NEAR(point.y, size.height / 2.0, 1e-7);
}
// RendererState::hasImage
test.map.getStyle().addImage(std::make_unique<style::Image>("default_marker", decodeImage(util::read_file("test/fixtures/sprites/default_marker.png")), 1.0));
// The frontend has not yet been notified about the newly-added image.
EXPECT_FALSE(test.frontend.hasImage("default_marker"));
test.runLoop.runOnce();
test.frontend.render(test.map);
EXPECT_TRUE(test.frontend.hasImage("default_marker"));
// RendererState::hasSource
auto source = std::make_unique<GeoJSONSource>("GeoJSONSource");
source->setGeoJSON( Geometry<double>{ Point<double>{ 0, 0 } } );
test.map.getStyle().addSource(std::move(source));
// The frontend has not yet been notified about the newly-added source.
EXPECT_FALSE(test.frontend.hasSource("GeoJSONSource"));
test.runLoop.runOnce();
test.frontend.render(test.map);
EXPECT_TRUE(test.frontend.hasSource("GeoJSONSource"));
// RendererState::hasLayer
test.map.getStyle().addLayer(std::make_unique<SymbolLayer>("SymbolLayer", "GeoJSONSource"));
// The frontend has not yet been notified about the newly-added source.
EXPECT_FALSE(test.frontend.hasLayer("SymbolLayer"));
test.runLoop.runOnce();
test.frontend.render(test.map);
EXPECT_TRUE(test.frontend.hasLayer("SymbolLayer"));
}
TEST(Map, LatLngBehavior) {
MapTest<> test;
test.map.setLatLngZoom({ 1, 1 }, 0);
auto latLng1 = test.map.getLatLng();
test.map.setLatLng({ 1, 1 });
auto latLng2 = test.map.getLatLng();
ASSERT_DOUBLE_EQ(latLng1.latitude(), latLng2.latitude());
ASSERT_DOUBLE_EQ(latLng1.longitude(), latLng2.longitude());
}
TEST(Map, LatLngBoundsToCamera) {
MapTest<> test;
test.map.setLatLngZoom({ 40.712730, -74.005953 }, 16.0);
LatLngBounds bounds = LatLngBounds::hull({15.68169,73.499857}, {53.560711, 134.77281});
CameraOptions virtualCamera = test.map.cameraForLatLngBounds(bounds, {});
ASSERT_TRUE(bounds.contains(*virtualCamera.center));
EXPECT_NEAR(*virtualCamera.zoom, 1.55467, 1e-5);
}
TEST(Map, LatLngBoundsToCameraWithAngle) {
MapTest<> test;
test.map.setLatLngZoom({ 40.712730, -74.005953 }, 16.0);
LatLngBounds bounds = LatLngBounds::hull({15.68169,73.499857}, {53.560711, 134.77281});
CameraOptions virtualCamera = test.map.cameraForLatLngBounds(bounds, {}, 35.0);
ASSERT_TRUE(bounds.contains(*virtualCamera.center));
EXPECT_NEAR(*virtualCamera.zoom, 1.21385, 1e-5);
EXPECT_NEAR(virtualCamera.angle.value_or(0), 35.0, 1e-5);
}
TEST(Map, LatLngBoundsToCameraWithAngleAndPitch) {
MapTest<> test;
test.map.setLatLngZoom({ 40.712730, -74.005953 }, 16.0);
LatLngBounds bounds = LatLngBounds::hull({15.68169,73.499857}, {53.560711, 134.77281});
CameraOptions virtualCamera = test.map.cameraForLatLngBounds(bounds, {}, 35, 20);
ASSERT_TRUE(bounds.contains(*virtualCamera.center));
EXPECT_NEAR(*virtualCamera.zoom, 13.66272, 1e-5);
ASSERT_DOUBLE_EQ(*virtualCamera.pitch, 20.0);
EXPECT_NEAR(virtualCamera.angle.value_or(0), 35.0, 1e-5);
}
TEST(Map, LatLngsToCamera) {
MapTest<> test;
std::vector<LatLng> latLngs{{ 40.712730, 74.005953 }, {15.68169,73.499857}, {30.82678, 83.4082}};
CameraOptions virtualCamera = test.map.cameraForLatLngs(latLngs, {}, 23.0);
EXPECT_NEAR(virtualCamera.angle.value_or(0), 23.0, 1e-5);
EXPECT_NEAR(virtualCamera.zoom.value_or(0), 2.75434, 1e-5);
EXPECT_NEAR(virtualCamera.center->latitude(), 28.49288, 1e-5);
EXPECT_NEAR(virtualCamera.center->longitude(), 74.97437, 1e-5);
}
TEST(Map, LatLngsToCameraWithAngleAndPitch) {
MapTest<> test;
std::vector<LatLng> latLngs{{ 40.712730, 74.005953 }, {15.68169,73.499857}, {30.82678, 83.4082}};
CameraOptions virtualCamera = test.map.cameraForLatLngs(latLngs, {}, 23, 20);
EXPECT_NEAR(virtualCamera.angle.value_or(0), 23.0, 1e-5);
EXPECT_NEAR(virtualCamera.zoom.value_or(0), 3.04378, 1e-5);
EXPECT_NEAR(virtualCamera.center->latitude(), 28.53718, 1e-5);
EXPECT_NEAR(virtualCamera.center->longitude(), 74.31746, 1e-5);
ASSERT_DOUBLE_EQ(*virtualCamera.pitch, 20.0);
}
TEST(Map, CameraToLatLngBounds) {
MapTest<> test;
test.map.setLatLngZoom({ 45, 90 }, 16);
LatLngBounds bounds = LatLngBounds::hull(
test.map.latLngForPixel({}),
test.map.latLngForPixel({ double(test.map.getSize().width), double(test.map.getSize().height) }));
CameraOptions camera = test.map.getCameraOptions({});
ASSERT_EQ(bounds, test.map.latLngBoundsForCamera(camera));
// Map::cameraForLatLngBounds only sets zoom and center.
CameraOptions virtualCamera = test.map.cameraForLatLngBounds(bounds, {});
ASSERT_NEAR(*camera.zoom, *virtualCamera.zoom, 1e-7);
ASSERT_NEAR(camera.center->latitude(), virtualCamera.center->latitude(), 1e-7);
ASSERT_NEAR(camera.center->longitude(), virtualCamera.center->longitude(), 1e-7);
}
TEST(Map, Offline) {
MapTest<DefaultFileSource> test {":memory:", "."};
auto expiredItem = [] (const std::string& path) {
Response response;
response.data = std::make_shared<std::string>(util::read_file("test/fixtures/map/offline/"s + path));
response.expires = Timestamp{ Seconds(0) };
return response;
};
const std::string prefix = "http://127.0.0.1:3000/";
test.fileSource.put(Resource::style(prefix + "style.json"), expiredItem("style.json"));
test.fileSource.put(Resource::source(prefix + "streets.json"), expiredItem("streets.json"));
test.fileSource.put(Resource::spriteJSON(prefix + "sprite", 1.0), expiredItem("sprite.json"));
test.fileSource.put(Resource::spriteImage(prefix + "sprite", 1.0), expiredItem("sprite.png"));
test.fileSource.put(Resource::tile(prefix + "{z}-{x}-{y}.vector.pbf", 1.0, 0, 0, 0, Tileset::Scheme::XYZ), expiredItem("0-0-0.vector.pbf"));
test.fileSource.put(Resource::glyphs(prefix + "{fontstack}/{range}.pbf", {{"Helvetica"}}, {0, 255}), expiredItem("glyph.pbf"));
NetworkStatus::Set(NetworkStatus::Status::Offline);
test.map.getStyle().loadURL(prefix + "style.json");
test::checkImage("test/fixtures/map/offline",
test.frontend.render(test.map),
0.0015,
0.1);
NetworkStatus::Set(NetworkStatus::Status::Online);
}
TEST(Map, SetStyleDefaultCamera) {
MapTest<> test;
test.map.getStyle().loadJSON(util::read_file("test/fixtures/api/empty.json"));
EXPECT_DOUBLE_EQ(test.map.getZoom(), 0.0);
EXPECT_DOUBLE_EQ(test.map.getPitch(), 0.0);
EXPECT_DOUBLE_EQ(test.map.getBearing(), 0.0);
EXPECT_EQ(test.map.getLatLng(), LatLng {});
test.map.getStyle().loadJSON(util::read_file("test/fixtures/api/empty-zoomed.json"));
EXPECT_DOUBLE_EQ(test.map.getZoom(), 0.0);
test.map.jumpTo(test.map.getStyle().getDefaultCamera());
EXPECT_DOUBLE_EQ(test.map.getZoom(), 0.5);
}
TEST(Map, SetStyleInvalidJSON) {
Log::setObserver(std::make_unique<FixtureLogObserver>());
bool fail = false;
{
MapTest<> test;
test.observer.didFailLoadingMapCallback = [&]() {
fail = true;
};
test.map.getStyle().loadJSON("invalid");
}
EXPECT_TRUE(fail);
auto observer = Log::removeObserver();
auto flo = static_cast<FixtureLogObserver*>(observer.get());
EXPECT_EQ(1u, flo->count({ EventSeverity::Error, Event::ParseStyle, -1,
"Failed to parse style: Invalid value. at offset 0" }));
auto unchecked = flo->unchecked();
EXPECT_TRUE(unchecked.empty()) << unchecked;
}
TEST(Map, SetStyleInvalidURL) {
MapTest<> test;
test.fileSource.styleResponse = [] (const Resource&) {
Response response;
response.error = std::make_unique<Response::Error>(
Response::Error::Reason::Other,
"Failed by the test case");
return response;
};
test.observer.didFailLoadingMapCallback = [&]() {
test.runLoop.stop();
};
test.map.getStyle().loadURL("mapbox://bar");
test.runLoop.run();
}
TEST(Map, DoubleStyleLoad) {
MapTest<> test;
test.map.getStyle().loadJSON("");
test.map.getStyle().loadJSON("");
}
TEST(Map, StyleFresh) {
// The map should continue to revalidate fresh styles.
MapTest<FakeFileSource> test;
test.map.getStyle().loadURL("mapbox://styles/test");
EXPECT_EQ(1u, test.fileSource.requests.size());
Response response;
response.data = std::make_shared<std::string>(util::read_file("test/fixtures/api/empty.json"));
response.expires = Timestamp::max();
test.fileSource.respond(Resource::Style, response);
EXPECT_EQ(1u, test.fileSource.requests.size());
}
TEST(Map, StyleExpired) {
// The map should allow expired styles to be revalidated until we get a fresh style.
using namespace std::chrono_literals;
MapTest<FakeFileSource> test;
test.map.getStyle().loadURL("mapbox://styles/test");
EXPECT_EQ(1u, test.fileSource.requests.size());
Response response;
response.data = std::make_shared<std::string>(util::read_file("test/fixtures/api/empty.json"));
response.expires = util::now() - 1h;
test.fileSource.respond(Resource::Style, response);
EXPECT_EQ(1u, test.fileSource.requests.size());
// Mutate layer. From now on, sending a response to the style won't overwrite it anymore, but
// we should continue to wait for a fresh response.
test.map.getStyle().addLayer(std::make_unique<style::BackgroundLayer>("bg"));
EXPECT_EQ(1u, test.fileSource.requests.size());
// Send another expired response, and confirm that we didn't overwrite the style, but continue
// to wait for a fresh response.
test.fileSource.respond(Resource::Style, response);
EXPECT_EQ(1u, test.fileSource.requests.size());
EXPECT_NE(nullptr, test.map.getStyle().getLayer("bg"));
// Send a fresh response, and confirm that we didn't overwrite the style, but continue to wait
// for a fresh response.
response.expires = util::now() + 1h;
test.fileSource.respond(Resource::Style, response);
EXPECT_EQ(1u, test.fileSource.requests.size());
EXPECT_NE(nullptr, test.map.getStyle().getLayer("bg"));
}
TEST(Map, StyleExpiredWithAnnotations) {
// Adding an annotation should not prevent revalidation of an expired style.
using namespace std::chrono_literals;
MapTest<FakeFileSource> test;
test.map.getStyle().loadURL("mapbox://styles/test");
EXPECT_EQ(1u, test.fileSource.requests.size());
Response response;
response.data = std::make_shared<std::string>(util::read_file("test/fixtures/api/empty.json"));
response.expires = util::now() - 1h;
test.fileSource.respond(Resource::Style, response);
EXPECT_EQ(1u, test.fileSource.requests.size());
test.map.addAnnotation(LineAnnotation { LineString<double> {{ { 0, 0 }, { 10, 10 } }} });
EXPECT_EQ(1u, test.fileSource.requests.size());
test.fileSource.respond(Resource::Style, response);
EXPECT_EQ(1u, test.fileSource.requests.size());
}
TEST(Map, StyleExpiredWithRender) {
// Rendering should not prevent revalidation of an expired style.
using namespace std::chrono_literals;
MapTest<FakeFileSource> test;
test.map.getStyle().loadURL("mapbox://styles/test");
EXPECT_EQ(1u, test.fileSource.requests.size());
Response response;
response.data = std::make_shared<std::string>(util::read_file("test/fixtures/api/empty.json"));
response.expires = util::now() - 1h;
test.fileSource.respond(Resource::Style, response);
EXPECT_EQ(1u, test.fileSource.requests.size());
test.frontend.render(test.map);
EXPECT_EQ(1u, test.fileSource.requests.size());
test.fileSource.respond(Resource::Style, response);
EXPECT_EQ(1u, test.fileSource.requests.size());
}
TEST(Map, StyleEarlyMutation) {
// An early mutation should not prevent the initial style load.
MapTest<FakeFileSource> test;
test.map.getStyle().loadURL("mapbox://styles/test");
test.map.getStyle().addLayer(std::make_unique<style::BackgroundLayer>("bg"));
Response response;
response.data = std::make_shared<std::string>(util::read_file("test/fixtures/api/water.json"));
test.fileSource.respond(Resource::Style, response);
EXPECT_EQ(1u, test.fileSource.requests.size());
EXPECT_NE(nullptr, test.map.getStyle().getLayer("water"));
}
TEST(Map, MapLoadingSignal) {
MapTest<> test;
bool emitted = false;
test.observer.willStartLoadingMapCallback = [&]() {
emitted = true;
};
test.map.getStyle().loadJSON(util::read_file("test/fixtures/api/empty.json"));
EXPECT_TRUE(emitted);
}
TEST(Map, MapLoadedSignal) {
MapTest<> test { 1, MapMode::Continuous };
test.observer.didFinishLoadingMapCallback = [&]() {
test.runLoop.stop();
};
test.map.getStyle().loadJSON(util::read_file("test/fixtures/api/empty.json"));
test.runLoop.run();
}
TEST(Map, StyleLoadedSignal) {
MapTest<> test;
// The map should emit a signal on style loaded
bool emitted = false;
test.observer.didFinishLoadingStyleCallback = [&]() {
emitted = true;
};
test.map.getStyle().loadJSON(util::read_file("test/fixtures/api/empty.json"));
EXPECT_TRUE(emitted);
// But not when the style couldn't be parsed
emitted = false;
test.map.getStyle().loadJSON("invalid");
EXPECT_FALSE(emitted);
}
// Test for https://github.com/mapbox/mapbox-gl-native/issues/7902
TEST(Map, TEST_REQUIRES_SERVER(StyleNetworkErrorRetry)) {
MapTest<OnlineFileSource> test;
test.map.getStyle().loadURL("http://127.0.0.1:3000/style-fail-once-500");
test.observer.didFinishLoadingStyleCallback = [&]() {
test.runLoop.stop();
};
test.runLoop.run();
}
TEST(Map, TEST_REQUIRES_SERVER(StyleNotFound)) {
MapTest<OnlineFileSource> test;
test.map.getStyle().loadURL("http://127.0.0.1:3000/style-fail-once-404");
using namespace std::chrono_literals;
util::Timer timer;
// Not found errors should not trigger a retry like other errors.
test.observer.didFinishLoadingStyleCallback = [&]() {
FAIL() << "Should not retry on not found!";
};
test.observer.didFailLoadingMapCallback = [&]() {
timer.start(Milliseconds(1100), 0s, [&] {
test.runLoop.stop();
});
};
test.runLoop.run();
// Should also not retry if the response has cache headers.
test.map.getStyle().loadURL("http://127.0.0.1:3000/style-fail-once-404-cache");
test.runLoop.run();
}
TEST(Map, AddLayer) {
MapTest<> test;
test.map.getStyle().loadJSON(util::read_file("test/fixtures/api/empty.json"));
auto layer = std::make_unique<BackgroundLayer>("background");
layer->setBackgroundColor({ { 1, 0, 0, 1 } });
test.map.getStyle().addLayer(std::move(layer));
test::checkImage("test/fixtures/map/add_layer", test.frontend.render(test.map));
}
TEST(Map, WithoutVAOExtension) {
MapTest<DefaultFileSource> test { ":memory:", "test/fixtures/api/assets" };
BackendScope scope { *test.frontend.getBackend() };
test.frontend.getBackend()->getContext().disableVAOExtension = true;
test.map.getStyle().loadJSON(util::read_file("test/fixtures/api/water.json"));
test::checkImage("test/fixtures/map/no_vao", test.frontend.render(test.map), 0.002);
}
TEST(Map, RemoveLayer) {
MapTest<> test;
test.map.getStyle().loadJSON(util::read_file("test/fixtures/api/empty.json"));
auto layer = std::make_unique<BackgroundLayer>("background");
layer->setBackgroundColor({{ 1, 0, 0, 1 }});
test.map.getStyle().addLayer(std::move(layer));
test.map.getStyle().removeLayer("background");
test::checkImage("test/fixtures/map/remove_layer", test.frontend.render(test.map));
}
TEST(Map, DisabledSources) {
MapTest<> test;
// Always load the same image tile for raster layers.
test.fileSource.response = [] (const Resource& res) -> optional<Response> {
if (res.url == "asset://tile.png") {
Response response;
response.data = std::make_shared<std::string>(
util::read_file("test/fixtures/map/disabled_layers/tile.png"));
return {std::move(response)};
}
return {};
};
test.map.setZoom(1);
// This stylesheet has two raster layers, one that starts at zoom 1, the other at zoom 0.
// We first render a map at zoom level 1, which should show both layers (both are "visible" due
// to an opacity of 0.5). Then, we are zooming back out to a zoom level of 0.5 and rerender.
// The "raster1" layer should not be visible anymore since it has minzoom 1, while "raster2"
// should still be there. Both layers have a distinct color through "raster-hue-rotate".
test.map.getStyle().loadJSON(R"STYLE(
{
"version": 8,
"name": "Test",
"sources": {
"raster": {
"type": "raster",
"tiles": [ "asset://tile.png" ],
"tileSize": 256
}
},
"layers": [{
"id": "background",
"type": "background",
"paint": {
"background-color": "white"
}
}, {
"id": "raster1",
"type": "raster",
"source": "raster",
"minzoom": 0
}, {
"id": "raster2",
"type": "raster",
"source": "raster",
"minzoom": 1,
"paint": {
"raster-hue-rotate": 180
}
}]
}
)STYLE");
test::checkImage("test/fixtures/map/disabled_layers/first", test.frontend.render(test.map));
test.map.setZoom(0.5);
test::checkImage("test/fixtures/map/disabled_layers/second", test.frontend.render(test.map));
}
TEST(Map, DontLoadUnneededTiles) {
MapTest<> test;
test.map.getStyle().loadJSON(R"STYLE({
"sources": {
"a": { "type": "vector", "tiles": [ "a/{z}/{x}/{y}" ] }
},
"layers": [{
"id": "a",
"type": "fill",
"source": "a",
"source-layer": "a",
"minzoom": 0.3,
"maxzoom": 1.6
}]
})STYLE");
using Tiles = std::unordered_set<std::string>;
Tiles tiles;
test.fileSource.tileResponse = [&](const Resource& rsc) {
tiles.emplace(rsc.url);
Response res;
res.noContent = true;
return res;
};
std::unordered_map<double, Tiles> referenceTiles = {
// Since the layer's minzoom is 0.3, we shouldn't load tiles before z0.3
{ 0.3, { "a/0/0/0" } },
{ 1.0, { "a/1/1/0", "a/1/0/1", "a/1/0/0", "a/1/1/1" } },
// Since the layer's maxzoom is 1.6, we should never load z2 or z3 tiles.
};
// Loop through zoom levels from 0 to 3 and check that the correct tiles are loaded at every
// step. The source is marked with maxzoom 1.0, which means that it won't be visible anymore
// after z1.0, so we should under no circumstances attempt to load z2 tiles.
for (unsigned zoom = 0; zoom <= 30; zoom++) { // times 10
// Note: using z += 0.1 in the loop doesn't produce accurate floating point numbers.
const double z = double(zoom) / 10;
tiles.clear();
test.map.setZoom(z);
test.frontend.render(test.map);
EXPECT_EQ(referenceTiles[z], tiles) << "zoom level " << z;
}
}
TEST(Map, TEST_DISABLED_ON_CI(ContinuousRendering)) {
util::RunLoop runLoop;
ThreadPool threadPool { 4 };
DefaultFileSource fileSource(":memory:", "test/fixtures/api/assets");
float pixelRatio { 1 };
using namespace std::chrono_literals;
util::Timer emergencyShutoff;
emergencyShutoff.start(10s, 0s, [&] {
runLoop.stop();
FAIL() << "Did not stop rendering";
});
util::Timer timer;
HeadlessFrontend frontend(pixelRatio, fileSource, threadPool);
StubMapObserver observer;
observer.didFinishRenderingFrameCallback = [&] (MapObserver::RenderMode) {
// Start a timer that ends the test one second from now. If we are continuing to render
// indefinitely, the timer will be constantly restarted and never trigger. Instead, the
// emergency shutoff above will trigger, failing the test.
timer.start(1s, 0s, [&] {
runLoop.stop();
});
};
Map map(frontend, observer, frontend.getSize(), pixelRatio, fileSource, threadPool, MapMode::Continuous);
map.getStyle().loadJSON(util::read_file("test/fixtures/api/water.json"));
runLoop.run();
}
TEST(Map, NoContentTiles) {
MapTest<DefaultFileSource> test {":memory:", "."};
using namespace std::chrono_literals;
// Insert a 204 No Content response for the 0/0/0 tile
Response response;
response.noContent = true;
response.expires = util::now() + 1h;
test.fileSource.put(Resource::tile("http://example.com/{z}-{x}-{y}.vector.pbf", 1.0, 0, 0, 0,
Tileset::Scheme::XYZ),
response);
test.map.getStyle().loadJSON(R"STYLE({
"version": 8,
"name": "Water",
"sources": {
"mapbox": {
"type": "vector",
"tiles": ["http://example.com/{z}-{x}-{y}.vector.pbf"]
}
},
"layers": [{
"id": "background",
"type": "background",
"paint": {
"background-color": "red"
}
}, {
"id": "water",
"type": "fill",
"source": "mapbox",
"source-layer": "water"
}]
})STYLE");
test::checkImage("test/fixtures/map/nocontent",
test.frontend.render(test.map),
0.0015,
0.1);
}
// https://github.com/mapbox/mapbox-gl-native/issues/12432
TEST(Map, Issue12432) {
MapTest<> test { 1, MapMode::Continuous };
test.fileSource.tileResponse = [&](const Resource&) {
Response result;
result.data = std::make_shared<std::string>(util::read_file("test/fixtures/map/issue12432/0-0-0.mvt"));
return result;
};
test.map.getStyle().loadJSON(R"STYLE({
"version": 8,
"sources": {
"mapbox": {
"type": "vector",
"tiles": ["http://example.com/{z}-{x}-{y}.vector.pbf"]
}
},
"layers": [{
"id": "water",
"type": "fill",
"source": "mapbox",
"source-layer": "water"
}]
})STYLE");
test.observer.didFinishLoadingMapCallback = [&]() {
test.map.getStyle().loadJSON(R"STYLE({
"version": 8,
"sources": {
"mapbox": {
"type": "vector",
"tiles": ["http://example.com/{z}-{x}-{y}.vector.pbf"]
}
},
"layers": [{
"id": "water",
"type": "line",
"source": "mapbox",
"source-layer": "water"
}]
})STYLE");
test.runLoop.stop();
};
test.runLoop.run();
}
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