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#pragma once
#include <mbgl/style/types.hpp>
#include <mbgl/style/property_value.hpp>
#include <mbgl/style/transition_options.hpp>
#include <mbgl/util/rapidjson.hpp>
#include <mbgl/util/optional.hpp>
#include <mbgl/util/color.hpp>
#include <mbgl/platform/log.hpp>
#include <string>
#include <array>
#include <vector>
namespace mbgl {
namespace style {
template <typename T>
optional<T> parseConstant(const char* name, const JSValue&);
template <> optional<bool> parseConstant(const char*, const JSValue&);
template <> optional<float> parseConstant(const char*, const JSValue&);
template <> optional<std::string> parseConstant(const char*, const JSValue&);
template <> optional<Color> parseConstant(const char*, const JSValue&);
template <> optional<TranslateAnchorType> parseConstant(const char*, const JSValue&);
template <> optional<RotateAnchorType> parseConstant(const char*, const JSValue&);
template <> optional<LineCapType> parseConstant(const char*, const JSValue&);
template <> optional<LineJoinType> parseConstant(const char*, const JSValue&);
template <> optional<SymbolPlacementType> parseConstant(const char*, const JSValue&);
template <> optional<TextAnchorType> parseConstant(const char*, const JSValue&);
template <> optional<TextJustifyType> parseConstant(const char*, const JSValue&);
template <> optional<TextTransformType> parseConstant(const char*, const JSValue&);
template <> optional<RotationAlignmentType> parseConstant(const char*, const JSValue&);
template <> optional<std::array<float, 2>> parseConstant(const char*, const JSValue&);
template <> optional<std::vector<float>> parseConstant(const char*, const JSValue&);
template <> optional<std::vector<std::string>> parseConstant(const char*, const JSValue&);
template <typename T>
PropertyValue<T> parseProperty(const char* name, const JSValue& value) {
if (!value.IsObject()) {
auto constant = parseConstant<T>(name, value);
if (!constant) {
return {};
}
return *constant;
}
if (!value.HasMember("stops")) {
Log::Warning(Event::ParseStyle, "function must specify a function type");
return {};
}
float base = 1.0f;
if (value.HasMember("base")) {
const JSValue& value_base = value["base"];
if (!value_base.IsNumber()) {
Log::Warning(Event::ParseStyle, "base must be numeric");
return {};
}
base = value_base.GetDouble();
}
const JSValue& stopsValue = value["stops"];
if (!stopsValue.IsArray()) {
Log::Warning(Event::ParseStyle, "stops function must specify a stops array");
return {};
}
std::vector<std::pair<float, T>> stops;
for (rapidjson::SizeType i = 0; i < stopsValue.Size(); ++i) {
const JSValue& stop = stopsValue[i];
if (!stop.IsArray()) {
Log::Warning(Event::ParseStyle, "function argument must be a numeric value");
return {};
}
if (stop.Size() != 2) {
Log::Warning(Event::ParseStyle, "stop must have zoom level and value specification");
return {};
}
const JSValue& z = stop[rapidjson::SizeType(0)];
if (!z.IsNumber()) {
Log::Warning(Event::ParseStyle, "zoom level in stop must be a number");
return {};
}
optional<T> v = parseConstant<T>(name, stop[rapidjson::SizeType(1)]);
if (!v) {
return {};
}
stops.emplace_back(z.GetDouble(), *v);
}
return Function<T>(stops, base);
}
optional<TransitionOptions> parseTransitionOptions(const char * name, const JSValue&);
} // namespace style
} // namespace mbgl
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