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#pragma once
#include <mbgl/renderer/cross_faded_property_evaluator.hpp>
#include <mbgl/style/property_expression.hpp>
#include <mbgl/util/interpolate.hpp>
#include <mbgl/util/variant.hpp>
#include <cmath>
namespace mbgl {
template <class T>
class PossiblyEvaluatedPropertyValue {
private:
using Value = variant<
T,
style::PropertyExpression<T>>;
Value value;
public:
PossiblyEvaluatedPropertyValue() = default;
PossiblyEvaluatedPropertyValue(Value v)
: value(std::move(v)) {}
bool isConstant() const {
return value.template is<T>();
}
optional<T> constant() const {
return value.match(
[&] (const T& t) { return optional<T>(t); },
[&] (const auto&) { return optional<T>(); });
}
T constantOr(const T& t) const {
return constant().value_or(t);
}
template <class... Ts>
auto match(Ts&&... ts) const {
return value.match(std::forward<Ts>(ts)...);
}
template <class Feature>
T evaluate(const Feature& feature, float zoom, T defaultValue) const {
return this->match(
[&] (const T& constant_) { return constant_; },
[&] (const style::PropertyExpression<T>& expression) {
return expression.evaluate(zoom, feature, defaultValue);
}
);
}
template <class Feature>
T evaluate(const Feature& feature, float zoom, const CanonicalTileID& canonical, T defaultValue) const {
return this->match([&](const T& constant_) { return constant_; },
[&](const style::PropertyExpression<T>& expression) {
return expression.evaluate(zoom, feature, canonical, defaultValue);
});
}
template <class Feature>
T evaluate(const Feature& feature, float zoom, const FeatureState& featureState, T defaultValue) const {
return this->match([&](const T& constant_) { return constant_; },
[&](const style::PropertyExpression<T>& expression) {
return expression.evaluate(zoom, feature, featureState, defaultValue);
});
}
};
template <class T>
class PossiblyEvaluatedPropertyValue<Faded<T>> {
private:
using Value = variant<
Faded<T>,
style::PropertyExpression<T>>;
Value value;
public:
PossiblyEvaluatedPropertyValue() = default;
PossiblyEvaluatedPropertyValue(Value v)
: value(std::move(v)) {}
bool isConstant() const {
return value.template is<Faded<T>>();
}
optional<Faded<T>> constant() const {
return value.match(
[&] (const Faded<T>& t) { return optional<Faded<T>>(t); },
[&] (const auto&) { return optional<Faded<T>>(); });
}
Faded<T> constantOr(const Faded<T>& t) const {
return constant().value_or(t);
}
template <class... Ts>
auto match(Ts&&... ts) const {
return value.match(std::forward<Ts>(ts)...);
}
template <class Feature>
Faded<T> evaluate(const Feature& feature,
float zoom,
const std::set<std::string>& availableImages,
const CanonicalTileID& canonical,
T defaultValue) const {
return this->match(
[&] (const Faded<T>& constant_) { return constant_; },
[&] (const style::PropertyExpression<T>& expression) {
if (!expression.isZoomConstant()) {
const T min =
expression.evaluate(std::floor(zoom), feature, availableImages, canonical, defaultValue);
const T max =
expression.evaluate(std::floor(zoom) + 1, feature, availableImages, canonical, defaultValue);
return Faded<T> {min, max};
} else {
const T evaluated = expression.evaluate(feature, availableImages, defaultValue);
return Faded<T> {evaluated, evaluated};
}
}
);
}
};
namespace util {
template <typename T>
struct Interpolator<PossiblyEvaluatedPropertyValue<T>> {
PossiblyEvaluatedPropertyValue<T> operator()(const PossiblyEvaluatedPropertyValue<T>& a,
const PossiblyEvaluatedPropertyValue<T>& b,
const double t) const {
if (a.isConstant() && b.isConstant()) {
return { interpolate(*a.constant(), *b.constant(), t) };
} else {
return { a };
}
}
};
} // namespace util
} // namespace mbgl
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