From: Linux Karlsson Date: Mon, 14 Jun 2010 18:20:24 +0000 (+0200) Subject: Added tests for l_fp string conversions. X-Git-Url: http://git.ipfire.org/gitweb.cgi?a=commitdiff_plain;h=b3c7032acacc79cafa3cb911ff88aefaf226cf11;p=thirdparty%2Fntp.git Added tests for l_fp string conversions. bk: 4c1672e8cDGv2_-w2lfEDZwprvAcvQ --- diff --git a/tests/libntp/Makefile.am b/tests/libntp/Makefile.am index c074a3c30a..ff6f24dd6b 100644 --- a/tests/libntp/Makefile.am +++ b/tests/libntp/Makefile.am @@ -13,6 +13,7 @@ tests_SOURCES = ../main.cpp \ decodenetnum.cpp \ hextoint.cpp \ hextolfp.cpp \ + lfptostr.cpp \ sfptostr.cpp INCLUDES = -I$(top_srcdir)/include -I$(top_srcdir)/lib/isc/include \ diff --git a/tests/libntp/lfptostr.cpp b/tests/libntp/lfptostr.cpp new file mode 100644 index 0000000000..d9348c50a5 --- /dev/null +++ b/tests/libntp/lfptostr.cpp @@ -0,0 +1,96 @@ +/* + * This file contains test for both mfptoa and mfptoms (which uses dolfptoa), + * since all these functions are very similar. + */ + +#include "libntptest.h" + +extern "C" { +#include "ntp_fp.h" +}; + +class lfptostrTest : public libntptest { +protected: + static const int LFP_MAX_PRECISION = 10; + static const int LFP_MAX_PRECISION_MS = 7; + + static const int ONE_FOURTH = 1073741824; // (1 << 30) + static const int HALF = (1 << 31); + static const int THREE_FOURTH = -ONE_FOURTH; + static const int HALF_PROMILLE_UP = 2147484; // slightly more than 0.0005 + static const int HALF_PROMILLE_DOWN = 2147483; // slightly less than 0.0005 +}; + +TEST_F(lfptostrTest, PositiveInteger) { + l_fp test = {200, 0}; // exact 200.0000000000 + + EXPECT_STREQ("200.0000000000", mfptoa(test.l_i, test.l_f, LFP_MAX_PRECISION)); + EXPECT_STREQ("200000.0000000", mfptoms(test.l_i, test.l_f, LFP_MAX_PRECISION_MS)); +} + +TEST_F(lfptostrTest, NegativeInteger) { + l_fp test = {-100, 0}; // -100 + + EXPECT_STREQ("-100.0000000000", lfptoa(&test, LFP_MAX_PRECISION)); + EXPECT_STREQ("-100000.0000000", lfptoms(&test, LFP_MAX_PRECISION_MS)); +} + +TEST_F(lfptostrTest, PositiveIntegerWithFraction) { + l_fp test = {200, ONE_FOURTH}; // 200.25 + + EXPECT_STREQ("200.2500000000", lfptoa(&test, LFP_MAX_PRECISION)); + EXPECT_STREQ("200250.0000000", lfptoms(&test, LFP_MAX_PRECISION_MS)); +} + +TEST_F(lfptostrTest, NegativeIntegerWithFraction) { + l_fp test = {-100, ONE_FOURTH}; // -99.75 + + EXPECT_STREQ("-99.7500000000", lfptoa(&test, LFP_MAX_PRECISION)); + EXPECT_STREQ("-99750.0000000", lfptoms(&test, LFP_MAX_PRECISION_MS)); +} + +TEST_F(lfptostrTest, RoundingDownToInteger) { + l_fp test = {10, ONE_FOURTH}; // 10.25 + + EXPECT_STREQ("10", lfptoa(&test, 0)); + EXPECT_STREQ("10250", lfptoms(&test, 0)); +} + +TEST_F(lfptostrTest, RoundingMiddleToInteger) { + l_fp test = {10, HALF}; // 10.5 + + EXPECT_STREQ("11", lfptoa(&test, 0)); + EXPECT_STREQ("10500", lfptoms(&test, 0)); +} + +TEST_F(lfptostrTest, RoundingUpToInteger) { + l_fp test = {5, THREE_FOURTH}; // 5.75 + + EXPECT_STREQ("6", lfptoa(&test, 0)); + EXPECT_STREQ("5750", lfptoms(&test, 0)); +} + +TEST_F(lfptostrTest, SingleDecimal) { + l_fp test = {8, ONE_FOURTH}; // 8.25 + + EXPECT_STREQ("8.3", lfptoa(&test, 1)); + EXPECT_STREQ("8250.0", lfptoms(&test, 1)); +} + +TEST_F(lfptostrTest, MillisecondsRoundingUp) { + l_fp test = {1, HALF_PROMILLE_UP}; //slightly more than 1.0005 + + EXPECT_STREQ("1.0", lfptoa(&test, 1)); + + EXPECT_STREQ("1000.5", lfptoms(&test, 1)); + EXPECT_STREQ("1001", lfptoms(&test, 0)); +} + +TEST_F(lfptostrTest, MillisecondsRoundingDown) { + l_fp test = {1, HALF_PROMILLE_DOWN}; // slightly less than 1.0005 + + EXPECT_STREQ("1.0", lfptoa(&test, 1)); + + EXPECT_STREQ("1000.5", lfptoms(&test, 1)); + EXPECT_STREQ("1000", lfptoms(&test, 0)); +}