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#include <mbgl/test/util.hpp>
#include <mbgl/test/stub_geometry_tile_feature.hpp>
#include <mbgl/style/property_expression.hpp>
#include <mbgl/renderer/property_evaluator.hpp>
#include <mbgl/renderer/property_evaluation_parameters.hpp>
#include <mbgl/style/expression/dsl.hpp>
#include <mbgl/style/expression/format_section_override.hpp>
using namespace mbgl;
using namespace mbgl::style;
using namespace mbgl::style::expression;
using namespace mbgl::style::expression::dsl;
using namespace std::string_literals;
static StubGeometryTileFeature oneInteger {
PropertyMap {{ "property", uint64_t(1) }}
};
static StubGeometryTileFeature oneDouble {
PropertyMap {{ "property", 1.0 }}
};
static StubGeometryTileFeature oneString {
PropertyMap {{ "property", "1"s }}
};
static StubGeometryTileFeature oneColor {
PropertyMap {{ "color", "red"s }}
};
float evaluate(PropertyValue<float> value, float zoom) {
return value.evaluate(PropertyEvaluator<float>(PropertyEvaluationParameters(zoom), 0));
}
template<typename T>
auto createOverride(expression::type::Type exprType,
PossiblyEvaluatedPropertyValue<T> propValue,
std::string propName) {
return std::make_unique<FormatSectionOverride<T>>(std::move(exprType),
std::move(propValue),
std::move(propName));
}
TEST(PropertyExpression, Constant) {
EXPECT_EQ(2.0f, evaluate(PropertyValue<float>(2.0), 0));
EXPECT_EQ(3.8f, evaluate(PropertyValue<float>(3.8), 0));
EXPECT_EQ(22.0f, evaluate(PropertyValue<float>(22.0), 0));
EXPECT_EQ(2.0f, evaluate(PropertyValue<float>(2.0), 4));
EXPECT_EQ(3.8f, evaluate(PropertyValue<float>(3.8), 4));
EXPECT_EQ(22.0f, evaluate(PropertyValue<float>(22.0), 4));
EXPECT_EQ(2.0f, evaluate(PropertyValue<float>(2.0), 22));
EXPECT_EQ(3.8f, evaluate(PropertyValue<float>(3.8), 22));
EXPECT_EQ(22.0f, evaluate(PropertyValue<float>(22.0), 22));
}
TEST(PropertyExpression, Expression) {
PropertyExpression<float> expression(interpolate(linear(), zoom(), 0.0, literal(0.0), 1.0, literal(1.0)));
EXPECT_EQ(0.0, evaluate(expression, 0.0));
EXPECT_EQ(0.5, evaluate(expression, 0.5));
}
TEST(PropertyExpression, Defaults) {
EXPECT_EQ(1.0f, PropertyExpression<float>(number(get("property")), 0.0)
.evaluate(oneInteger, 2.0f));
EXPECT_EQ(1.0f, PropertyExpression<float>(number(get("property")), 0.0)
.evaluate(oneDouble, 2.0f));
EXPECT_EQ(0.0f, PropertyExpression<float>(number(get("property")), 0.0)
.evaluate(oneString, 2.0f));
EXPECT_EQ(2.0f, PropertyExpression<float>(number(get("property")))
.evaluate(oneString, 2.0f));
}
TEST(PropertyExpression, ZoomInterpolation) {
EXPECT_EQ(40.0f, PropertyExpression<float>(
interpolate(linear(), zoom(),
0.0, interpolate(linear(), number(get("property")), 1.0, literal(24.0)),
1.5, interpolate(linear(), number(get("property")), 1.0, literal(36.0)),
3.0, interpolate(linear(), number(get("property")), 1.0, literal(48.0))
), 0.0f)
.evaluate(2.0f, oneInteger, -1.0f)) << "Should interpolate between stops";
EXPECT_EQ(33.0, PropertyExpression<float>(
interpolate(linear(), zoom(),
5.0, interpolate(linear(), number(get("property")), 1.0, literal(33.0)),
10.0, interpolate(linear(), number(get("property")), 1.0, literal(66.0))
), 0.0f)
.evaluate(0.0f, oneInteger, -1.0f)) << "Use first stop output for input values from -inf to first stop";
EXPECT_EQ(66.0, PropertyExpression<float>(
interpolate(linear(), zoom(),
0.0, interpolate(linear(), number(get("property")), 1.0, literal(33.0)),
10.0, interpolate(linear(), number(get("property")), 1.0, literal(66.0))
), 0.0f)
.evaluate(20.0f, oneInteger, -1.0f)) << "Use last stop output for input values from last stop to +inf";
EXPECT_EQ(66.0f, PropertyExpression<float>(
interpolate(linear(), zoom(),
0.0, interpolate(linear(), number(get("property")), 1.0, literal(33.0)),
10.0, interpolate(linear(), number(get("property")), 1.0, literal(66.0))
), 0.0f)
.evaluate(10.0f, oneInteger, -1.0f)) << "Should interpolate TO the last stop.";
EXPECT_EQ(33.0f, PropertyExpression<float>(
interpolate(linear(), zoom(),
0.0, interpolate(linear(), number(get("property")), 1.0, literal(33.0)),
10.0, interpolate(linear(), number(get("property")), 1.0, literal(66.0))
), 0.0f)
.evaluate(0.0f, oneInteger, -1.0f)) << "Should interpolate TO the first stop";
}
TEST(PropertyExpression, Issue8460) {
PropertyExpression<float> fn1(
interpolate(linear(), zoom(),
15.0, interpolate(linear(), number(get("property")), 1.0, literal(0.0)),
15.2, interpolate(linear(), number(get("property")), 1.0, literal(600.0))
), 0.0f);
EXPECT_NEAR( 0.0f, fn1.evaluate(15.0f, oneInteger, -1.0f), 0.00);
EXPECT_NEAR(300.0f, fn1.evaluate(15.1f, oneInteger, -1.0f), 0.01);
EXPECT_NEAR(600.0f, fn1.evaluate(15.2f, oneInteger, -1.0f), 0.00);
EXPECT_NEAR(600.0f, fn1.evaluate(16.0f, oneInteger, -1.0f), 0.00);
PropertyExpression<float> fn2(
interpolate(linear(), zoom(),
15.0, interpolate(linear(), number(get("property")), 1.0, literal(0.0)),
15.2, interpolate(linear(), number(get("property")), 1.0, literal(300.0)),
18.0, interpolate(linear(), number(get("property")), 1.0, literal(600.0))
), 0.0f);
EXPECT_NEAR( 0.0f, fn2.evaluate(15.0f, oneInteger, -1.0f), 0.00);
EXPECT_NEAR(150.0f, fn2.evaluate(15.1f, oneInteger, -1.0f), 0.01);
EXPECT_NEAR(300.0f, fn2.evaluate(15.2f, oneInteger, -1.0f), 0.00);
EXPECT_NEAR(385.71f, fn2.evaluate(16.0f, oneInteger, -1.0f), 0.01);
EXPECT_NEAR(600.0f, fn2.evaluate(18.0f, oneInteger, -1.0f), 0.00);
EXPECT_NEAR(600.0f, fn2.evaluate(19.0f, oneInteger, -1.0f), 0.00);
}
TEST(PropertyExpression, FormatSectionOverride) {
using Value = expression::Value;
Value formattedSection =
std::unordered_map<std::string, Value>{ {"text-color", Value{Color::blue()}} };
auto ctx = expression::EvaluationContext(&oneDouble).withFormattedSection(&formattedSection);
PossiblyEvaluatedPropertyValue<Color> constantValueRed(Color::red());
PossiblyEvaluatedPropertyValue<Color> constantValueGreen(Color::green());
PossiblyEvaluatedPropertyValue<Color> ddsValueRed(toColor(string(get("color"))));
// Evaluation test
{
auto override1 = createOverride(expression::type::Color, constantValueGreen, "text-color");
PropertyExpression<Color> propExpr(std::move(override1));
EXPECT_EQ(Color::green(), propExpr.evaluate(15.0f, oneDouble, Color()));
EXPECT_EQ(Color::green(), propExpr.evaluate(oneDouble, Color()));
EXPECT_EQ(Color::blue(), propExpr.evaluate(ctx));
auto override2 = createOverride(expression::type::Color, ddsValueRed, "text-color");
PropertyExpression<Color> propExprDDS(std::move(override2));
EXPECT_EQ(Color::red(), propExprDDS.evaluate(oneColor, Color()));
EXPECT_EQ(Color::blue(), propExprDDS.evaluate(ctx));
}
// Equality test
{
auto override1 = createOverride(expression::type::Color, constantValueRed, "text-color");
auto override2 = createOverride(expression::type::Color, constantValueGreen, "text-color");
auto override3 = createOverride(expression::type::Color, constantValueGreen, "text-halo-color");
auto override4 = createOverride(expression::type::Color, ddsValueRed, "text-color");
EXPECT_TRUE(*override1 != *override2);
EXPECT_TRUE(*override2 != *override3);
EXPECT_TRUE(*override1 != *override4);
}
}
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