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/*
* (C) Copyright 1996- ECMWF.
*
* This software is licensed under the terms of the Apache Licence Version 2.0
* which can be obtained at http://www.apache.org/licenses/LICENSE-2.0.
* In applying this licence, ECMWF does not waive the privileges and immunities
* granted to it by virtue of its status as an intergovernmental organisation nor
* does it submit to any jurisdiction.
*/
#include "eckit/testing/Test.h"
#include "eckit/types/FloatCompare.h"
#include "eckit/value/Value.h"
#include "test_value_helper.h"
using namespace std;
using namespace eckit;
using namespace eckit::testing;
using namespace eckit::test::value_helper;
using eckit::types::is_approximately_equal;
namespace eckit::test {
//----------------------------------------------------------------------------------------------------------------------
// Note that orderedMap[1] would intepret "1" as a key (as it should). To check the underlying order
// we can dereference the ordered list of keys, then use that key in orderedMap[key].
static Value& atIndex(Value& orderedMap, int index) {
return orderedMap.element(orderedMap.keys()[index]);
}
//----------------------------------------------------------------------------------------------------------------------
CASE("Data is correctly moved into/out of OrderedMap") {
Value om = Value::makeOrderedMap();
om[123] = 1234;
om["abc"] = "abcd";
om[Value(123.45)] = 123.456;
om[Value(true)] = false;
EXPECT(om.keys()[0] == Value(123));
EXPECT(om[123] == Value(1234));
EXPECT(atIndex(om, 0) == Value(1234));
EXPECT(om.keys()[1] == Value("abc"));
EXPECT(om["abc"] == Value("abcd"));
EXPECT(atIndex(om, 1) == Value("abcd"));
EXPECT(Value(123.456) != Value(123.45));
EXPECT(om.keys()[2] == Value(123.45));
EXPECT(om[Value(123.45)] == Value(123.456));
EXPECT(atIndex(om, 2) == Value(123.456));
EXPECT(om.keys()[3] == Value(true));
EXPECT(om[Value(true)] == Value(false));
EXPECT(atIndex(om, 3) == Value(false));
Value om_clone(om);
// EXPECT(om == om_clone); // compare not implemented
EXPECT(atIndex(om, 0) == atIndex(om_clone, 0));
EXPECT(om[123] == om_clone[123]);
om_clone[123] = 4321;
EXPECT(atIndex(om, 0) != atIndex(om_clone, 0));
EXPECT(om[123] != om_clone[123]);
// EXPECT(om != om_clone); // compare not implemented
EXPECT(om.keys().size() == om_clone.keys().size());
om_clone["new_key"] = Value("new_value");
EXPECT(om.keys().size() != om_clone.keys().size());
// Invalid conversions
EXPECT_THROWS_AS(om.as<bool>(), BadConversion);
EXPECT_THROWS_AS(om.as<long long>(), BadConversion);
EXPECT_THROWS_AS(om.as<double>(), BadConversion);
EXPECT_THROWS_AS(om.as<std::string>(), BadConversion);
EXPECT_THROWS_AS(om.as<Time>(), BadConversion);
EXPECT_THROWS_AS(om.as<Date>(), BadConversion);
EXPECT_THROWS_AS(om.as<DateTime>(), BadConversion);
}
CASE("Types are reported correctly for OrderedMap") {
Value om = Value::makeOrderedMap();
om[123] = 1234;
om["abc"] = "abcd";
om[Value(123.45)] = 123.456;
om[Value(true)] = false;
EXPECT(om.isMap());
EXPECT(om.isOrderedMap());
EXPECT(!om.isNil());
EXPECT(!om.isBool());
EXPECT(!om.isNumber());
EXPECT(!om.isDouble());
EXPECT(!om.isString());
EXPECT(!om.isList());
EXPECT(!om.isDate());
EXPECT(!om.isTime());
EXPECT(!om.isDateTime());
}
CASE("Test comparisons using OrderedMap") {
Value om1 = Value::makeOrderedMap();
Value om2 = Value::makeOrderedMap();
Value om3 = Value::makeOrderedMap();
Value om4 = Value::makeOrderedMap();
SECTION("Test empty maps") {
EXPECT(om1.compare(om2) == 0);
EXPECT(om2.compare(om1) == 0);
om2[123] = 1234;
EXPECT(om1.compare(om2) == -1);
EXPECT(om2.compare(om1) == 1);
}
SECTION("Equal OrderedMaps") {
om1[123] = 1234;
om2[123] = 1234;
EXPECT(om1.compare(om1) == 0);
EXPECT(om1.compare(om2) == 0);
EXPECT(om2.compare(om1) == 0);
}
SECTION("Number of keys mismatch") {
om1[123] = 1234;
om1["xyz"] = "abcd";
om2[123] = 1234;
EXPECT(om1.compare(om2) == 1); // om1 is greater than om2 (it's got more keys)
EXPECT(om2.compare(om1) == -1); // om3 is less than om3 (it's got fewer keys)
}
SECTION("Keys mismatch") {
om1["1"] = 2;
om1["2"] = 3;
om1["3"] = 4;
om2["2"] = 2;
om2["3"] = 3;
om2["4"] = 4;
EXPECT(om2.compare(om1) == 1); // First key is larger
EXPECT(om1.compare(om2) == -1); // First key is smaller
}
SECTION("Values mismatch") {
om1["1"] = 1;
om1["2"] = 2;
om1["3"] = 3;
om2["1"] = 2;
om2["2"] = 3;
om2["3"] = 4;
EXPECT(om2.compare(om1) == 1); // First value is larger
EXPECT(om1.compare(om2) == -1); // First value is smaller
}
SECTION("Check order of insertion is used for comparison, not key order") {
om1[2] = 100; // < should use this for value comparison, even though 2 > 1
om1[1] = 200;
om2[2] = 200; // < should use this for value comparison, even though 2 > 1
om2[1] = 100;
EXPECT(om2.compare(om1) == 1); // First value is larger
EXPECT(om1.compare(om2) == -1); // First value is smaller
om1[3] = 300;
EXPECT(om1.compare(om2) == 1); // More keys in om1
EXPECT(om2.compare(om1) == -1);
om2[3] = 500;
EXPECT(om1.compare(om2) == -1); // 3rd value is larger in om2
EXPECT(om2.compare(om1) == 1);
}
SECTION("Check keys are compared by order of insertion") {
om1[2] = 100;
om1[1] = 200;
om2[2] = 100;
om2[1] = 200;
om3[1] = 200;
om3[2] = 100;
om4[1] = 100;
om4[2] = 200;
EXPECT(om2.compare(om1) == 0); // Keys are equal and inserted in same order
EXPECT(om1.compare(om2) == 0); // Keys are equal and inserted in same order
EXPECT(om1.compare(om3) == 1); // Keys are equal but inserted in wrong order, values also in wrong order
EXPECT(om1.compare(om4) == 1); // Keys are equal but inserted in wrong order, values in correct order
}
}
CASE("Check order is preserved when cloning") {
Value om1 = Value::makeOrderedMap();
om1["c"] = 1;
om1["b"] = 2;
om1["a"] = 3;
Value om2 = om1.clone();
EXPECT(om2.compare(om1) == 0); // Keys are equal and inserted in same order
EXPECT(om1.compare(om2) == 0); // Keys are equal and inserted in same order
}
CASE("Check comparisons with other types of data.") {
Value om1 = Value::makeOrderedMap();
om1[123] = 1234;
om1["abc"] = "abcd";
om1[Value(123.45)] = 123.456;
om1[Value(true)] = false;
EXPECT(om1.compare(Value(true)) < 0);
EXPECT(om1.compare(Value(123)) < 0);
EXPECT(om1.compare(Value(123.45)) < 0);
EXPECT(om1.compare(Value(std::string("test string"))) < 0);
EXPECT(om1.compare(ValueList()) < 0);
EXPECT(om1.compare(Value(Date(2016, 3, 30))) < 0);
ValueMap vm;
vm[Value(true)] = false;
Value val(vm);
EXPECT(om1.compare(vm) < 0);
// Check comparisons with other types of data (see test_value_typeordering).
EXPECT(om1.compare(Value(true)) < 0);
EXPECT(om1.compare(Value(1)) < 0);
EXPECT(om1.compare(Value(1234.5)) < 0);
EXPECT(om1.compare(Value("test str")) < 0);
EXPECT(om1.compare(Value()) < 0);
EXPECT(om1.compare(Value::makeList()) < 0);
EXPECT(om1.compare(Value(Date(2016, 5, 1))) < 0);
EXPECT(om1.compare(Value(Time(1000))) < 0);
EXPECT(om1.compare(Value(DateTime())) < 0);
EXPECT(om1.compare(om1) == 0);
}
CASE("Test indexing for OrderedMap") {
Value om = Value::makeOrderedMap();
om[123] = 1234;
om["abc"] = "abcd";
om[Value(123.45)] = 123.456;
om[Value(true)] = false;
// Check with existent keys of the various types
EXPECT(om[123].as<long long>() == 1234);
EXPECT(om["abc"].as<std::string>() == "abcd");
EXPECT(om[std::string("abc")].as<std::string>() == "abcd");
EXPECT(om[Value(true)].as<bool>() == false); // indexing without wrapping "true" as "Value(true)" does not work
EXPECT(om[Value(123)].as<long long>() == 1234);
EXPECT(om[Value("abc")].as<std::string>() == "abcd");
EXPECT(om[Value(std::string("abc"))].as<std::string>() == "abcd");
EXPECT(is_approximately_equal(om[Value(123.45)].as<double>(), 123.456, 1.0e-10));
EXPECT(om[Value(true)].as<bool>() == false);
// Test the contains() function
EXPECT(om.contains(123));
EXPECT(om.contains("abc"));
EXPECT(om.contains(std::string("abc")));
EXPECT(om.contains(Value(123.45)));
EXPECT(om.contains(Value(true)));
/// This code should not work!!! const has gone screwey
const Value const_om = Value::makeOrderedMap();
const_om[123] = 1234;
Log::info() << const_om << std::endl;
// EXPECT(!const_om.contains(123));
}
CASE("Test that addition is invalid for OrderedMap") {
// There are no valid OrderedMap addition operations.
Value om = Value::makeOrderedMap();
om[123] = 1234;
EXPECT_THROWS_AS(ValueAdd(om, true), BadOperator);
EXPECT_THROWS_AS(ValueAdd(om, 1234), BadOperator);
EXPECT_THROWS_AS(ValueAdd(om, 66.6), BadOperator);
EXPECT_THROWS_AS(ValueAdd(om, "hi"), BadOperator);
EXPECT_THROWS_AS(ValueAdd(om, Date(2016, 3, 31)), BadOperator);
EXPECT_THROWS_AS(ValueAdd(om, ValueList()), BadOperator);
EXPECT_THROWS_AS(ValueAdd(om, ValueMap()), BadOperator);
EXPECT_THROWS_AS(ValueAdd(om, Value::makeOrderedMap()), BadOperator);
EXPECT_THROWS_AS(ValueAdd(true, om), BadOperator);
EXPECT_THROWS_AS(ValueAdd(1234, om), BadOperator);
EXPECT_THROWS_AS(ValueAdd(66.6, om), BadOperator);
EXPECT_THROWS_AS(ValueAdd("hi", om), BadOperator);
EXPECT_THROWS_AS(ValueAdd(Date(2016, 3, 31), om), BadOperator);
EXPECT_THROWS_AS(ValueAdd(ValueList(), om), BadOperator);
EXPECT_THROWS_AS(ValueAdd(ValueMap(), om), BadOperator);
EXPECT_THROWS_AS(ValueAdd(Value::makeOrderedMap(), om), BadOperator);
EXPECT_THROWS_AS(ValueAddSelf(om, true), BadOperator);
EXPECT_THROWS_AS(ValueAddSelf(om, 1234), BadOperator);
EXPECT_THROWS_AS(ValueAddSelf(om, 66.6), BadOperator);
EXPECT_THROWS_AS(ValueAddSelf(om, "hi"), BadOperator);
EXPECT_THROWS_AS(ValueAddSelf(om, Date(2016, 3, 31)), BadOperator);
EXPECT_THROWS_AS(ValueAddSelf(om, ValueList()), BadOperator);
EXPECT_THROWS_AS(ValueAddSelf(om, ValueMap()), BadOperator);
EXPECT_THROWS_AS(ValueAddSelf(om, Value::makeOrderedMap()), BadOperator);
}
CASE("Test that subtraction is invalid for OrderedMap") {
// There are no valid OrderedMap subtraction operations.
Value om = Value::makeOrderedMap();
om[123] = 1234;
EXPECT_THROWS_AS(ValueSub(om, true), BadOperator);
EXPECT_THROWS_AS(ValueSub(om, 1234), BadOperator);
EXPECT_THROWS_AS(ValueSub(om, 66.6), BadOperator);
EXPECT_THROWS_AS(ValueSub(om, "hi"), BadOperator);
EXPECT_THROWS_AS(ValueSub(om, Date(2016, 3, 31)), BadOperator);
EXPECT_THROWS_AS(ValueSub(om, ValueList()), BadOperator);
EXPECT_THROWS_AS(ValueSub(om, ValueMap()), BadOperator);
EXPECT_THROWS_AS(ValueSub(om, Value::makeOrderedMap()), BadOperator);
EXPECT_THROWS_AS(ValueSub(true, om), BadOperator);
EXPECT_THROWS_AS(ValueSub(1234, om), BadOperator);
EXPECT_THROWS_AS(ValueSub(66.6, om), BadOperator);
EXPECT_THROWS_AS(ValueSub("hi", om), BadOperator);
EXPECT_THROWS_AS(ValueSub(Date(2016, 3, 31), om), BadOperator);
EXPECT_THROWS_AS(ValueSub(ValueList(), om), BadOperator);
EXPECT_THROWS_AS(ValueSub(ValueMap(), om), BadOperator);
EXPECT_THROWS_AS(ValueSub(Value::makeOrderedMap(), om), BadOperator);
EXPECT_THROWS_AS(ValueSubSelf(om, true), BadOperator);
EXPECT_THROWS_AS(ValueSubSelf(om, 1234), BadOperator);
EXPECT_THROWS_AS(ValueSubSelf(om, 66.6), BadOperator);
EXPECT_THROWS_AS(ValueSubSelf(om, "hi"), BadOperator);
EXPECT_THROWS_AS(ValueSubSelf(om, Date(2016, 3, 31)), BadOperator);
EXPECT_THROWS_AS(ValueSubSelf(om, ValueList()), BadOperator);
EXPECT_THROWS_AS(ValueSubSelf(om, ValueMap()), BadOperator);
EXPECT_THROWS_AS(ValueSubSelf(om, Value::makeOrderedMap()), BadOperator);
}
CASE("Tets that multiplication is invalid for OrderedMap") {
// There are no valid OrderedMap multiplication operations.
Value om = Value::makeOrderedMap();
om[123] = 1234;
EXPECT_THROWS_AS(ValueMul(om, true), BadOperator);
EXPECT_THROWS_AS(ValueMul(om, 1234), BadOperator);
EXPECT_THROWS_AS(ValueMul(om, 66.6), BadOperator);
EXPECT_THROWS_AS(ValueMul(om, "hi"), BadOperator);
EXPECT_THROWS_AS(ValueMul(om, Date(2016, 3, 31)), BadOperator);
EXPECT_THROWS_AS(ValueMul(om, ValueList()), BadOperator);
EXPECT_THROWS_AS(ValueMul(om, ValueMap()), BadOperator);
EXPECT_THROWS_AS(ValueMul(om, Value::makeOrderedMap()), BadOperator);
EXPECT_THROWS_AS(ValueMul(true, om), BadOperator);
EXPECT_THROWS_AS(ValueMul(1234, om), BadOperator);
EXPECT_THROWS_AS(ValueMul(66.6, om), BadOperator);
EXPECT_THROWS_AS(ValueMul("hi", om), BadOperator);
EXPECT_THROWS_AS(ValueMul(Date(2016, 3, 31), om), BadOperator);
EXPECT_THROWS_AS(ValueMul(ValueList(), om), BadOperator);
EXPECT_THROWS_AS(ValueMul(ValueMap(), om), BadOperator);
EXPECT_THROWS_AS(ValueMul(Value::makeOrderedMap(), om), BadOperator);
EXPECT_THROWS_AS(ValueMulSelf(om, true), BadOperator);
EXPECT_THROWS_AS(ValueMulSelf(om, 1234), BadOperator);
EXPECT_THROWS_AS(ValueMulSelf(om, 66.6), BadOperator);
EXPECT_THROWS_AS(ValueMulSelf(om, "hi"), BadOperator);
EXPECT_THROWS_AS(ValueMulSelf(om, Date(2016, 3, 31)), BadOperator);
EXPECT_THROWS_AS(ValueMulSelf(om, ValueList()), BadOperator);
EXPECT_THROWS_AS(ValueMulSelf(om, ValueMap()), BadOperator);
EXPECT_THROWS_AS(ValueMulSelf(om, Value::makeOrderedMap()), BadOperator);
}
CASE("Test that division is invalid for OrderedMap") {
// There are no valid OrderedMap division operations.
Value om = Value::makeOrderedMap();
om[123] = 1234;
EXPECT_THROWS_AS(ValueDiv(om, true), BadOperator);
EXPECT_THROWS_AS(ValueDiv(om, 1234), BadOperator);
EXPECT_THROWS_AS(ValueDiv(om, 66.6), BadOperator);
EXPECT_THROWS_AS(ValueDiv(om, "hi"), BadOperator);
EXPECT_THROWS_AS(ValueDiv(om, Date(2016, 3, 31)), BadOperator);
EXPECT_THROWS_AS(ValueDiv(om, ValueList()), BadOperator);
EXPECT_THROWS_AS(ValueDiv(om, ValueMap()), BadOperator);
EXPECT_THROWS_AS(ValueDiv(om, Value::makeOrderedMap()), BadOperator);
EXPECT_THROWS_AS(ValueDiv(true, om), BadOperator);
EXPECT_THROWS_AS(ValueDiv(1234, om), BadOperator);
EXPECT_THROWS_AS(ValueDiv(66.6, om), BadOperator);
EXPECT_THROWS_AS(ValueDiv("hi", om), BadOperator);
EXPECT_THROWS_AS(ValueDiv(Date(2016, 3, 31), om), BadOperator);
EXPECT_THROWS_AS(ValueDiv(ValueList(), om), BadOperator);
EXPECT_THROWS_AS(ValueDiv(ValueMap(), om), BadOperator);
EXPECT_THROWS_AS(ValueDiv(Value::makeOrderedMap(), om), BadOperator);
EXPECT_THROWS_AS(ValueDivSelf(om, true), BadOperator);
EXPECT_THROWS_AS(ValueDivSelf(om, 1234), BadOperator);
EXPECT_THROWS_AS(ValueDivSelf(om, 66.6), BadOperator);
EXPECT_THROWS_AS(ValueDivSelf(om, "hi"), BadOperator);
EXPECT_THROWS_AS(ValueDivSelf(om, Date(2016, 3, 31)), BadOperator);
EXPECT_THROWS_AS(ValueDivSelf(om, ValueList()), BadOperator);
EXPECT_THROWS_AS(ValueDivSelf(om, ValueMap()), BadOperator);
EXPECT_THROWS_AS(ValueDivSelf(om, Value::makeOrderedMap()), BadOperator);
}
CASE("Test that the module operator is invalid for OrderedMap") {
// There are no valid OrderedMap modulo operations.
Value om = Value::makeOrderedMap();
om[123] = 1234;
EXPECT_THROWS_AS(ValueMod(om, true), BadOperator);
EXPECT_THROWS_AS(ValueMod(om, 1234), BadOperator);
EXPECT_THROWS_AS(ValueMod(om, 66.6), BadOperator);
EXPECT_THROWS_AS(ValueMod(om, "hi"), BadOperator);
EXPECT_THROWS_AS(ValueMod(om, Date(2016, 3, 31)), BadOperator);
EXPECT_THROWS_AS(ValueMod(om, ValueList()), BadOperator);
EXPECT_THROWS_AS(ValueMod(om, ValueMap()), BadOperator);
EXPECT_THROWS_AS(ValueMod(true, om), BadOperator);
EXPECT_THROWS_AS(ValueMod(1234, om), BadOperator);
EXPECT_THROWS_AS(ValueMod(66.6, om), BadOperator);
EXPECT_THROWS_AS(ValueMod("hi", om), BadOperator);
EXPECT_THROWS_AS(ValueMod(Date(2016, 3, 31), om), BadOperator);
EXPECT_THROWS_AS(ValueMod(ValueList(), om), BadOperator);
EXPECT_THROWS_AS(ValueMod(ValueMap(), om), BadOperator);
EXPECT_THROWS_AS(ValueModSelf(om, true), BadOperator);
EXPECT_THROWS_AS(ValueModSelf(om, 1234), BadOperator);
EXPECT_THROWS_AS(ValueModSelf(om, 66.6), BadOperator);
EXPECT_THROWS_AS(ValueModSelf(om, "hi"), BadOperator);
EXPECT_THROWS_AS(ValueModSelf(om, Date(2016, 3, 31)), BadOperator);
EXPECT_THROWS_AS(ValueModSelf(om, ValueList()), BadOperator);
EXPECT_THROWS_AS(ValueModSelf(om, ValueMap()), BadOperator);
}
CASE("Can remove key from OrderedMap") {
Value om = Value::makeOrderedMap();
om[123] = 1234;
om["abc"] = "abcd";
om[Value(true)] = Value("on");
EXPECT(om.contains(123));
EXPECT(om.contains("abc"));
// remove existing values
EXPECT(om.remove(123) == Value(1234));
EXPECT(om.remove("abc") == Value("abcd"));
EXPECT(om.remove("xxxx") == Value()); // remove non-existing values
EXPECT(om.remove(true) == Value("on"));
EXPECT(om.remove("zzzz") == Value()); // remove non-existing values
}
CASE("Test head/tail functionality for OrderedMap") {
Value om = Value::makeOrderedMap();
om[123] = 1234;
/// EXPECT_THROWS_AS(om.head(), AssertationError);
/// EXPECT_THROWS_AS(om.tail(), AssertationError);
EXPECT(true);
}
CASE("Hash of a value") {
auto create = [](Value& m) {
m[123] = 1234;
m[234] = 2345;
m[777] = 7777;
m["abc"] = "def";
m[true] = false;
};
auto hash = [](Value& m) -> std::string {
std::unique_ptr<Hash> h(make_hash());
m.hash(*h);
return h->digest();
};
Value orderedMap = Value::makeOrderedMap();
Value sortedMap = Value::makeMap();
create(orderedMap);
create(sortedMap);
std::string orderedHash = hash(orderedMap);
std::string sortedHash = hash(sortedMap);
// std::cout << "MD5 ordered " << orderedHash << std::endl;
// std::cout << "MD5 sorted " << sortedHash << std::endl;
EXPECT(orderedHash == sortedHash);
EXPECT(orderedHash == "4259b7e50da09908c9fba2584b71db79");
}
//----------------------------------------------------------------------------------------------------------------------
} // namespace eckit::test
int main(int argc, char* argv[]) {
return run_tests(argc, argv);
}
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