rapidjson/test/unittest/writertest.cpp

#include "unittest.h"
#include "rapidjson/document.h"
#include "rapidjson/reader.h"
#include "rapidjson/writer.h"
#include "rapidjson/stringbuffer.h"

using namespace rapidjson;

TEST(Writer, Compact) {
	StringStream s("{ \"hello\" : \"world\", \"t\" : true , \"f\" : false, \"n\": null, \"i\":123, \"pi\": 3.1416, \"a\":[1, 2, 3] } ");
	StringBuffer buffer;
	Writer<StringBuffer> writer(buffer);
	Reader reader;
	reader.Parse<0>(s, writer);
	EXPECT_STREQ("{\"hello\":\"world\",\"t\":true,\"f\":false,\"n\":null,\"i\":123,\"pi\":3.1416,\"a\":[1,2,3]}", buffer.GetString());
	EXPECT_EQ(77u, buffer.GetSize());
}

// json -> parse -> writer -> json
#define TEST_ROUNDTRIP(json) \
	{ \
		StringStream s(json); \
		StringBuffer buffer; \
		Writer<StringBuffer> writer(buffer); \
		Reader reader; \
		reader.Parse<0>(s, writer); \
		EXPECT_STREQ(json, buffer.GetString()); \
	}

TEST(Writer, Int) {
	TEST_ROUNDTRIP("[-1]");
	TEST_ROUNDTRIP("[-123]");
	TEST_ROUNDTRIP("[-2147483648]");
}

TEST(Writer, UInt) {
	TEST_ROUNDTRIP("[0]");
	TEST_ROUNDTRIP("[1]");
	TEST_ROUNDTRIP("[123]");
	TEST_ROUNDTRIP("[2147483647]");
	TEST_ROUNDTRIP("[4294967295]");
}

TEST(Writer, Int64) {
	TEST_ROUNDTRIP("[-1234567890123456789]");
	TEST_ROUNDTRIP("[-9223372036854775808]");
}

TEST(Writer, Uint64) {
	TEST_ROUNDTRIP("[1234567890123456789]");
	TEST_ROUNDTRIP("[9223372036854775807]");
}

TEST(Writer, String) {
	TEST_ROUNDTRIP("[\"Hello\"]");
	TEST_ROUNDTRIP("[\"Hello\\u0000World\"]");
	TEST_ROUNDTRIP("[\"\\\"\\\\/\\b\\f\\n\\r\\t\"]");
}

TEST(Writer,DoublePrecision) {
	const char json[] = "[1.2345,1.2345678,0.123456789012,1234567.8]";

	StringBuffer buffer;
	Writer<StringBuffer> writer(buffer);

	const int kDefaultDoublePrecision = 6;
	// handling the double precision
	EXPECT_EQ(writer.GetDoublePrecision(), kDefaultDoublePrecision);
	writer.SetDoublePrecision(17);
	EXPECT_EQ(writer.GetDoublePrecision(), 17);
	writer.SetDoublePrecision(-1); // negative equivalent to reset
	EXPECT_EQ(writer.GetDoublePrecision(), kDefaultDoublePrecision);
	writer.SetDoublePrecision(1);
	writer.SetDoublePrecision();   // reset again
	EXPECT_EQ(writer.GetDoublePrecision(), kDefaultDoublePrecision);

	{ // write with explicitly increased precision
		StringStream s(json);
		Reader reader;
		reader.Parse<0>(s, writer.SetDoublePrecision(12));
		EXPECT_EQ(writer.GetDoublePrecision(), 12);
		EXPECT_STREQ(json, buffer.GetString());
		buffer.Clear();
	}
	{ // explicit individual double precisions
		writer.SetDoublePrecision(2)
			.StartArray()
			.Double(1.2345,5)
			.Double(1.2345678,9)
			.Double(0.123456789012,12)
			.Double(1234567.8,8)
			.EndArray();

		EXPECT_EQ(writer.GetDoublePrecision(), 2);
		EXPECT_STREQ(json, buffer.GetString());
		buffer.Clear();
	}
	{ // write with default precision (output with precision loss)
		Document d;
		d.Parse<0>(json);
		d.Accept(writer.SetDoublePrecision());

		// parsed again to avoid platform-dependent floating point outputs
		// (e.g. width of exponents)
		d.Parse<0>(buffer.GetString());
		EXPECT_EQ(writer.GetDoublePrecision(), kDefaultDoublePrecision);
		EXPECT_DOUBLE_EQ(d[0u].GetDouble(), 1.2345);
		EXPECT_DOUBLE_EQ(d[1u].GetDouble(), 1.23457);
		EXPECT_DOUBLE_EQ(d[2u].GetDouble(), 0.123457);
		EXPECT_DOUBLE_EQ(d[3u].GetDouble(), 1234570);
		buffer.Clear();
	}
}

TEST(Writer, Transcode) {
	// UTF8 -> UTF16 -> UTF8
	StringStream s("{ \"hello\" : \"world\", \"t\" : true , \"f\" : false, \"n\": null, \"i\":123, \"pi\": 3.1416, \"a\":[1, 2, 3], \"dollar\":\"\x24\", \"cents\":\"\xC2\xA2\", \"euro\":\"\xE2\x82\xAC\", \"gclef\":\"\xF0\x9D\x84\x9E\" } ");
	StringBuffer buffer;
	Writer<StringBuffer, UTF16<>, UTF8<> > writer(buffer);
	GenericReader<UTF8<>, UTF16<> > reader;
	reader.Parse<0>(s, writer);
	EXPECT_STREQ("{\"hello\":\"world\",\"t\":true,\"f\":false,\"n\":null,\"i\":123,\"pi\":3.1416,\"a\":[1,2,3],\"dollar\":\"\x24\",\"cents\":\"\xC2\xA2\",\"euro\":\"\xE2\x82\xAC\",\"gclef\":\"\xF0\x9D\x84\x9E\"}", buffer.GetString());
}