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authorAnand Thakker <anandthakker@users.noreply.github.com>2017-04-03 12:25:36 -0400
committerGitHub <noreply@github.com>2017-04-03 12:25:36 -0400
commitb5b4549b6d80e4a1f45e766161bafd52a064c91d (patch)
treed74a4beac8ae444c4b3c5536bd92c35492296b3f /include
parentd092841b19e0e235681f8e9ef3cd13ad1b4df149 (diff)
downloadqtlocation-mapboxgl-b5b4549b6d80e4a1f45e766161bafd52a064c91d.tar.gz
Fix edge case in composite function interpolation (#8613)
This fixes a bug where, for a zoom value greater than that of the highest zoom stop, composite function interpolation would return nan. (Blocking a render test over in #8593) * Add failing tests for composite function edge case The failing cases here are: - Should interpolate before the first stop - Should interpolate past the last stop * Fix edge case in composite function interpolation * Hold functions constant outside stop-defined domain
Diffstat (limited to 'include')
-rw-r--r--include/mbgl/style/function/composite_function.hpp9
1 files changed, 8 insertions, 1 deletions
diff --git a/include/mbgl/style/function/composite_function.hpp b/include/mbgl/style/function/composite_function.hpp
index b31329b75e..2b4ae504ca 100644
--- a/include/mbgl/style/function/composite_function.hpp
+++ b/include/mbgl/style/function/composite_function.hpp
@@ -56,9 +56,13 @@ public:
assert(!s.stops.empty());
auto minIt = s.stops.lower_bound(zoom);
auto maxIt = s.stops.upper_bound(zoom);
- if (minIt != s.stops.begin()) {
+
+ // lower_bound yields first element >= zoom, but we want the *last*
+ // element <= zoom, so if we found a stop > zoom, back up by one.
+ if (minIt != s.stops.begin() && minIt->first > zoom) {
minIt--;
}
+
return std::make_tuple(
Range<float> {
minIt == s.stops.end() ? s.stops.rbegin()->first : minIt->first,
@@ -96,6 +100,9 @@ public:
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);
+ // If the covering stop range is constant, just return the output value directly.
+ if (resultRange.min == resultRange.max) return resultRange.min;
+ // Otherwise, interpolate between the two stops.
return util::interpolate(
resultRange.min,
resultRange.max,