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authorJohn Firebaugh <john.firebaugh@gmail.com>2017-06-16 10:16:11 -0700
committerJohn Firebaugh <john.firebaugh@gmail.com>2017-06-16 12:46:12 -0700
commite361bcf66823daa9ae6cae571193a5ba9613c3de (patch)
treed60071749713126967f9d2f69764bc1f040c746d /include/mbgl
parente1b0f94be0228d41e881aa52ff9529e815e5d59b (diff)
downloadqtlocation-mapboxgl-e361bcf66823daa9ae6cae571193a5ba9613c3de.tar.gz
[core] Fix composite function approximation for non-integer stops
Diffstat (limited to 'include/mbgl')
-rw-r--r--include/mbgl/style/function/composite_function.hpp75
1 files changed, 53 insertions, 22 deletions
diff --git a/include/mbgl/style/function/composite_function.hpp b/include/mbgl/style/function/composite_function.hpp
index 1b785f4670..c3de0726c0 100644
--- a/include/mbgl/style/function/composite_function.hpp
+++ b/include/mbgl/style/function/composite_function.hpp
@@ -49,8 +49,16 @@ public:
defaultValue(std::move(defaultValue_)) {
}
- std::tuple<Range<float>, Range<InnerStops>>
- coveringRanges(float zoom) const {
+ struct CoveringRanges {
+ float zoom;
+ Range<float> coveringZoomRange;
+ Range<InnerStops> coveringStopsRange;
+ };
+
+ // Return the relevant stop zoom values and inner stops that bracket a given zoom level. This
+ // is the first step toward evaluating the function, and is used for in the course of both partial
+ // evaluation of data-driven paint properties, and full evaluation of data-driven layout properties.
+ CoveringRanges coveringRanges(float zoom) const {
return stops.match(
[&] (const auto& s) {
assert(!s.stops.empty());
@@ -63,7 +71,8 @@ public:
minIt--;
}
- return std::make_tuple(
+ return CoveringRanges {
+ zoom,
Range<float> {
minIt == s.stops.end() ? s.stops.rbegin()->first : minIt->first,
maxIt == s.stops.end() ? s.stops.rbegin()->first : maxIt->first
@@ -72,38 +81,49 @@ public:
s.innerStops(minIt == s.stops.end() ? s.stops.rbegin()->second : minIt->second),
s.innerStops(maxIt == s.stops.end() ? s.stops.rbegin()->second : maxIt->second)
}
- );
+ };
}
);
}
+ // Given a range of zoom values (typically two adjacent integer zoom levels, e.g. 5.0 and 6.0),
+ // return the covering ranges for both. This is used in the course of partial evaluation for
+ // data-driven paint properties.
+ Range<CoveringRanges> rangeOfCoveringRanges(Range<float> zoomRange) {
+ return Range<CoveringRanges> {
+ coveringRanges(zoomRange.min),
+ coveringRanges(zoomRange.max)
+ };
+ }
+
+ // Given the covering ranges for range of zoom values (typically two adjacent integer zoom levels,
+ // e.g. 5.0 and 6.0), and a feature, return the results of fully evaluating the function for that
+ // feature at each of the two zoom levels. These two results are what go into the paint vertex buffers
+ // for vertices associated with this feature. The shader will interpolate between them at render time.
template <class Feature>
- Range<T> evaluate(Range<InnerStops> coveringStops,
- const Feature& feature,
- T finalDefaultValue) const {
- optional<Value> v = feature.getValue(property);
- if (!v) {
- return {
+ Range<T> evaluate(const Range<CoveringRanges>& ranges, const Feature& feature, T finalDefaultValue) {
+ optional<Value> value = feature.getValue(property);
+ if (!value) {
+ return Range<T> {
defaultValue.value_or(finalDefaultValue),
defaultValue.value_or(finalDefaultValue)
};
}
- auto eval = [&] (const auto& s) {
- return s.evaluate(*v).value_or(defaultValue.value_or(finalDefaultValue));
- };
return Range<T> {
- coveringStops.min.match(eval),
- coveringStops.max.match(eval)
+ evaluateFinal(ranges.min, *value, finalDefaultValue),
+ evaluateFinal(ranges.max, *value, finalDefaultValue)
};
}
- T evaluate(float zoom, const GeometryTileFeature& feature, T finalDefaultValue) const {
- std::tuple<Range<float>, Range<InnerStops>> ranges = coveringRanges(zoom);
- Range<T> resultRange = evaluate(std::get<1>(ranges), feature, finalDefaultValue);
- return util::interpolate(
- resultRange.min,
- resultRange.max,
- util::interpolationFactor(1.0f, std::get<0>(ranges), zoom));
+ // Fully evaluate the function for a zoom value and feature. This is used when evaluating data-driven
+ // layout properties.
+ template <class Feature>
+ T evaluate(float zoom, const Feature& feature, T finalDefaultValue) const {
+ optional<Value> value = feature.getValue(property);
+ if (!value) {
+ return defaultValue.value_or(finalDefaultValue);
+ }
+ return evaluateFinal(coveringRanges(zoom), *value, finalDefaultValue);
}
friend bool operator==(const CompositeFunction& lhs,
@@ -115,6 +135,17 @@ public:
std::string property;
Stops stops;
optional<T> defaultValue;
+
+private:
+ T evaluateFinal(const CoveringRanges& ranges, const Value& value, T finalDefaultValue) const {
+ auto eval = [&] (const auto& s) {
+ return s.evaluate(value).value_or(defaultValue.value_or(finalDefaultValue));
+ };
+ return util::interpolate(
+ ranges.coveringStopsRange.min.match(eval),
+ ranges.coveringStopsRange.max.match(eval),
+ util::interpolationFactor(1.0f, ranges.coveringZoomRange, ranges.zoom));
+ }
};
} // namespace style