Mercurial > hg > svcore
view base/test/TestVampRealTime.h @ 1394:9ef1cc26024c
Add Range01 normalisation method to ColumnOp. This is the normalisation that is actually used in the Colour 3D Plot layer historically when column normalisation is enabled (not Max1 after all).
author | Chris Cannam |
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date | Tue, 28 Feb 2017 14:04:16 +0000 |
parents | b7be05d57f0a |
children |
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/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* Sonic Visualiser An audio file viewer and annotation editor. Centre for Digital Music, Queen Mary, University of London. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. See the file COPYING included with this distribution for more information. */ #ifndef TEST_VAMP_REALTIME_H #include <QObject> #include <QtTest> #include <QDir> #include <iostream> #include <vamp-hostsdk/RealTime.h> using namespace std; #define ONE_MILLION 1000000 #define ONE_BILLION 1000000000 class TestVampRealTime : public QObject { Q_OBJECT void compareTexts(string s, const char *e) { QString actual(s.c_str()); QString expected(e); QCOMPARE(actual, expected); } typedef Vamp::RealTime RealTime; typedef long frame_type; private slots: void zero() { QCOMPARE(RealTime(0, 0), RealTime::zeroTime); QCOMPARE(RealTime(0, 0).sec, 0); QCOMPARE(RealTime(0, 0).nsec, 0); QCOMPARE(RealTime(0, 0).msec(), 0); QCOMPARE(RealTime(0, 0).usec(), 0); } void ctor() { QCOMPARE(RealTime(0, 0), RealTime(0, 0)); // wraparounds QCOMPARE(RealTime(0, ONE_BILLION/2), RealTime(1, -ONE_BILLION/2)); QCOMPARE(RealTime(0, -ONE_BILLION/2), RealTime(-1, ONE_BILLION/2)); QCOMPARE(RealTime(1, ONE_BILLION), RealTime(2, 0)); QCOMPARE(RealTime(1, -ONE_BILLION), RealTime(0, 0)); QCOMPARE(RealTime(-1, ONE_BILLION), RealTime(0, 0)); QCOMPARE(RealTime(-1, -ONE_BILLION), RealTime(-2, 0)); QCOMPARE(RealTime(2, -ONE_BILLION*2), RealTime(0, 0)); QCOMPARE(RealTime(2, -ONE_BILLION/2), RealTime(1, ONE_BILLION/2)); QCOMPARE(RealTime(-2, ONE_BILLION*2), RealTime(0, 0)); QCOMPARE(RealTime(-2, ONE_BILLION/2), RealTime(-1, -ONE_BILLION/2)); QCOMPARE(RealTime(0, 1).sec, 0); QCOMPARE(RealTime(0, 1).nsec, 1); QCOMPARE(RealTime(0, -1).sec, 0); QCOMPARE(RealTime(0, -1).nsec, -1); QCOMPARE(RealTime(1, -1).sec, 0); QCOMPARE(RealTime(1, -1).nsec, ONE_BILLION-1); QCOMPARE(RealTime(-1, 1).sec, 0); QCOMPARE(RealTime(-1, 1).nsec, -ONE_BILLION+1); QCOMPARE(RealTime(-1, -1).sec, -1); QCOMPARE(RealTime(-1, -1).nsec, -1); QCOMPARE(RealTime(2, -ONE_BILLION*2).sec, 0); QCOMPARE(RealTime(2, -ONE_BILLION*2).nsec, 0); QCOMPARE(RealTime(2, -ONE_BILLION/2).sec, 1); QCOMPARE(RealTime(2, -ONE_BILLION/2).nsec, ONE_BILLION/2); QCOMPARE(RealTime(-2, ONE_BILLION*2).sec, 0); QCOMPARE(RealTime(-2, ONE_BILLION*2).nsec, 0); QCOMPARE(RealTime(-2, ONE_BILLION/2).sec, -1); QCOMPARE(RealTime(-2, ONE_BILLION/2).nsec, -ONE_BILLION/2); } void fromSeconds() { QCOMPARE(RealTime::fromSeconds(0), RealTime(0, 0)); QCOMPARE(RealTime::fromSeconds(0.5).sec, 0); QCOMPARE(RealTime::fromSeconds(0.5).nsec, ONE_BILLION/2); QCOMPARE(RealTime::fromSeconds(0.5).usec(), ONE_MILLION/2); QCOMPARE(RealTime::fromSeconds(0.5).msec(), 500); QCOMPARE(RealTime::fromSeconds(0.5), RealTime(0, ONE_BILLION/2)); QCOMPARE(RealTime::fromSeconds(1), RealTime(1, 0)); QCOMPARE(RealTime::fromSeconds(1.5), RealTime(1, ONE_BILLION/2)); QCOMPARE(RealTime::fromSeconds(-0.5).sec, 0); QCOMPARE(RealTime::fromSeconds(-0.5).nsec, -ONE_BILLION/2); QCOMPARE(RealTime::fromSeconds(-0.5).usec(), -ONE_MILLION/2); QCOMPARE(RealTime::fromSeconds(-0.5).msec(), -500); QCOMPARE(RealTime::fromSeconds(-1.5).sec, -1); QCOMPARE(RealTime::fromSeconds(-1.5).nsec, -ONE_BILLION/2); QCOMPARE(RealTime::fromSeconds(-1.5).usec(), -ONE_MILLION/2); QCOMPARE(RealTime::fromSeconds(-1.5).msec(), -500); QCOMPARE(RealTime::fromSeconds(-0.5), RealTime(0, -ONE_BILLION/2)); QCOMPARE(RealTime::fromSeconds(-1), RealTime(-1, 0)); QCOMPARE(RealTime::fromSeconds(-1.5), RealTime(-1, -ONE_BILLION/2)); } void fromMilliseconds() { QCOMPARE(RealTime::fromMilliseconds(0), RealTime(0, 0)); QCOMPARE(RealTime::fromMilliseconds(500), RealTime(0, ONE_BILLION/2)); QCOMPARE(RealTime::fromMilliseconds(1000), RealTime(1, 0)); QCOMPARE(RealTime::fromMilliseconds(1500), RealTime(1, ONE_BILLION/2)); QCOMPARE(RealTime::fromMilliseconds(-0), RealTime(0, 0)); QCOMPARE(RealTime::fromMilliseconds(-500), RealTime(0, -ONE_BILLION/2)); QCOMPARE(RealTime::fromMilliseconds(-1000), RealTime(-1, 0)); QCOMPARE(RealTime::fromMilliseconds(-1500), RealTime(-1, -ONE_BILLION/2)); } #ifndef Q_OS_WIN void fromTimeval() { struct timeval tv; tv.tv_sec = 0; tv.tv_usec = 0; QCOMPARE(RealTime::fromTimeval(tv), RealTime(0, 0)); tv.tv_sec = 0; tv.tv_usec = ONE_MILLION/2; QCOMPARE(RealTime::fromTimeval(tv), RealTime(0, ONE_BILLION/2)); tv.tv_sec = 1; tv.tv_usec = 0; QCOMPARE(RealTime::fromTimeval(tv), RealTime(1, 0)); tv.tv_sec = 1; tv.tv_usec = ONE_MILLION/2; QCOMPARE(RealTime::fromTimeval(tv), RealTime(1, ONE_BILLION/2)); tv.tv_sec = 0; tv.tv_usec = -ONE_MILLION/2; QCOMPARE(RealTime::fromTimeval(tv), RealTime(0, -ONE_BILLION/2)); tv.tv_sec = -1; tv.tv_usec = 0; QCOMPARE(RealTime::fromTimeval(tv), RealTime(-1, 0)); tv.tv_sec = -1; tv.tv_usec = -ONE_MILLION/2; QCOMPARE(RealTime::fromTimeval(tv), RealTime(-1, -ONE_BILLION/2)); } #endif void assign() { RealTime r; r = RealTime(0, 0); QCOMPARE(r, RealTime::zeroTime); r = RealTime(0, ONE_BILLION/2); QCOMPARE(r.sec, 0); QCOMPARE(r.nsec, ONE_BILLION/2); r = RealTime(-1, -ONE_BILLION/2); QCOMPARE(r.sec, -1); QCOMPARE(r.nsec, -ONE_BILLION/2); } void plus() { QCOMPARE(RealTime(0, 0) + RealTime(0, 0), RealTime(0, 0)); QCOMPARE(RealTime(0, 0) + RealTime(0, ONE_BILLION/2), RealTime(0, ONE_BILLION/2)); QCOMPARE(RealTime(0, ONE_BILLION/2) + RealTime(0, ONE_BILLION/2), RealTime(1, 0)); QCOMPARE(RealTime(1, 0) + RealTime(0, ONE_BILLION/2), RealTime(1, ONE_BILLION/2)); QCOMPARE(RealTime(0, 0) + RealTime(0, -ONE_BILLION/2), RealTime(0, -ONE_BILLION/2)); QCOMPARE(RealTime(0, -ONE_BILLION/2) + RealTime(0, -ONE_BILLION/2), RealTime(-1, 0)); QCOMPARE(RealTime(-1, 0) + RealTime(0, -ONE_BILLION/2), RealTime(-1, -ONE_BILLION/2)); QCOMPARE(RealTime(1, 0) + RealTime(0, -ONE_BILLION/2), RealTime(0, ONE_BILLION/2)); QCOMPARE(RealTime(1, 0) + RealTime(0, -ONE_BILLION/2) + RealTime(0, -ONE_BILLION/2), RealTime(0, 0)); QCOMPARE(RealTime(1, 0) + RealTime(0, -ONE_BILLION/2) + RealTime(0, -ONE_BILLION/2) + RealTime(0, -ONE_BILLION/2), RealTime(0, -ONE_BILLION/2)); QCOMPARE(RealTime(0, ONE_BILLION/2) + RealTime(-1, 0), RealTime(0, -ONE_BILLION/2)); QCOMPARE(RealTime(0, -ONE_BILLION/2) + RealTime(1, 0), RealTime(0, ONE_BILLION/2)); } void minus() { QCOMPARE(RealTime(0, 0) - RealTime(0, 0), RealTime(0, 0)); QCOMPARE(RealTime(0, 0) - RealTime(0, ONE_BILLION/2), RealTime(0, -ONE_BILLION/2)); QCOMPARE(RealTime(0, ONE_BILLION/2) - RealTime(0, ONE_BILLION/2), RealTime(0, 0)); QCOMPARE(RealTime(1, 0) - RealTime(0, ONE_BILLION/2), RealTime(0, ONE_BILLION/2)); QCOMPARE(RealTime(0, 0) - RealTime(0, -ONE_BILLION/2), RealTime(0, ONE_BILLION/2)); QCOMPARE(RealTime(0, -ONE_BILLION/2) - RealTime(0, -ONE_BILLION/2), RealTime(0, 0)); QCOMPARE(RealTime(-1, 0) - RealTime(0, -ONE_BILLION/2), RealTime(0, -ONE_BILLION/2)); QCOMPARE(RealTime(1, 0) - RealTime(0, -ONE_BILLION/2), RealTime(1, ONE_BILLION/2)); QCOMPARE(RealTime(1, 0) - RealTime(0, -ONE_BILLION/2) - RealTime(0, -ONE_BILLION/2), RealTime(2, 0)); QCOMPARE(RealTime(1, 0) - RealTime(0, -ONE_BILLION/2) - RealTime(0, -ONE_BILLION/2) - RealTime(0, -ONE_BILLION/2), RealTime(2, ONE_BILLION/2)); QCOMPARE(RealTime(0, ONE_BILLION/2) - RealTime(-1, 0), RealTime(1, ONE_BILLION/2)); QCOMPARE(RealTime(0, -ONE_BILLION/2) - RealTime(1, 0), RealTime(-1, -ONE_BILLION/2)); } void negate() { QCOMPARE(-RealTime(0, 0), RealTime(0, 0)); QCOMPARE(-RealTime(1, 0), RealTime(-1, 0)); QCOMPARE(-RealTime(1, ONE_BILLION/2), RealTime(-1, -ONE_BILLION/2)); QCOMPARE(-RealTime(-1, -ONE_BILLION/2), RealTime(1, ONE_BILLION/2)); } void compare() { int sec, nsec; for (sec = -2; sec <= 2; sec += 2) { for (nsec = -1; nsec <= 1; nsec += 1) { QCOMPARE(RealTime(sec, nsec) < RealTime(sec, nsec), false); QCOMPARE(RealTime(sec, nsec) > RealTime(sec, nsec), false); QCOMPARE(RealTime(sec, nsec) == RealTime(sec, nsec), true); QCOMPARE(RealTime(sec, nsec) != RealTime(sec, nsec), false); QCOMPARE(RealTime(sec, nsec) <= RealTime(sec, nsec), true); QCOMPARE(RealTime(sec, nsec) >= RealTime(sec, nsec), true); } } RealTime prev(-3, 0); for (sec = -2; sec <= 2; sec += 2) { for (nsec = -1; nsec <= 1; nsec += 1) { RealTime curr(sec, nsec); QCOMPARE(prev < curr, true); QCOMPARE(prev > curr, false); QCOMPARE(prev == curr, false); QCOMPARE(prev != curr, true); QCOMPARE(prev <= curr, true); QCOMPARE(prev >= curr, false); QCOMPARE(curr < prev, false); QCOMPARE(curr > prev, true); QCOMPARE(curr == prev, false); QCOMPARE(curr != prev, true); QCOMPARE(curr <= prev, false); QCOMPARE(curr >= prev, true); prev = curr; } } } void frame() { int frames[] = { 0, 1, 2047, 2048, 6656, 32767, 32768, 44100, 44101, 999999999, 2000000000 }; int n = sizeof(frames)/sizeof(frames[0]); int rates[] = { 1, 2, 8000, 22050, 44100, 44101, 192000, 2000000001 }; int m = sizeof(rates)/sizeof(rates[0]); vector<vector<RealTime>> realTimes = { { { 0, 0 }, { 1, 0 }, { 2047, 0 }, { 2048, 0 }, { 6656, 0 }, { 32767, 0 }, { 32768, 0 }, { 44100, 0 }, { 44101, 0 }, { 999999999, 0 }, { 2000000000, 0 } }, { { 0, 0 }, { 0, 500000000 }, { 1023, 500000000 }, { 1024, 0 }, { 3328, 0 }, { 16383, 500000000 }, { 16384, 0 }, { 22050, 0 }, { 22050, 500000000 }, { 499999999, 500000000 }, { 1000000000, 0 } }, { { 0, 0 }, { 0, 125000 }, { 0, 255875000 }, { 0, 256000000 }, { 0, 832000000 }, { 4, 95875000 }, { 4, 96000000 }, { 5, 512500000 }, { 5, 512625000 }, { 124999, 999875000 }, { 250000, 0 } }, { { 0, 0 }, { 0, 45351 }, { 0, 92834467 }, { 0, 92879819 }, { 0, 301859410 }, { 1, 486031746 }, { 1, 486077098 }, { 2, 0 }, { 2, 45351 }, { 45351, 473877551 }, { 90702, 947845805 } }, { { 0, 0 }, { 0, 22676 }, { 0, 46417234 }, { 0, 46439909 }, { 0, 150929705 }, { 0, 743015873 }, { 0, 743038549 }, { 1, 0 }, { 1, 22676 }, { 22675, 736938776 }, { 45351, 473922902 } }, { { 0, 0 }, { 0, 22675 }, { 0, 46416181 }, { 0, 46438856 }, { 0, 150926283 }, { 0, 742999025 }, { 0, 743021700 }, { 0, 999977325 }, { 1, 0 }, { 22675, 222761389 }, { 45350, 445568128 } }, { { 0, 0 }, { 0, 5208 }, { 0, 10661458 }, { 0, 10666667 }, { 0, 34666667 }, { 0, 170661458 }, { 0, 170666667 }, { 0, 229687500 }, { 0, 229692708 }, { 5208, 333328125 }, { 10416, 666666667 } }, { { 0, 0 }, { 0, 0 }, { 0, 1023 }, { 0, 1024 }, { 0, 3328 }, { 0, 16383 }, { 0, 16384 }, { 0, 22050 }, { 0, 22050 }, { 0, 499999999 }, { 1, 0 } } }; for (int i = 0; i < n; ++i) { frame_type frame = frames[i]; for (int j = 0; j < m; ++j) { int rate = rates[j]; RealTime rt = RealTime::frame2RealTime(frame, rate); QCOMPARE(rt.sec, realTimes[j][i].sec); QCOMPARE(rt.nsec, realTimes[j][i].nsec); frame_type conv = RealTime::realTime2Frame(rt, rate); rt = RealTime::frame2RealTime(-frame, rate); frame_type negconv = RealTime::realTime2Frame(rt, rate); if (rate > ONE_BILLION) { // We don't have enough precision in RealTime // for this absurd sample rate, so a round trip // conversion may round QVERIFY(abs(frame - conv) < 2); QVERIFY(abs(-frame - negconv) < 2); } else { QCOMPARE(conv, frame); QCOMPARE(negconv, -frame); } } } } // Vamp SDK version just has toText, which is like our own // toMSText with true for its second arg void toText() { // we want to use QStrings, because then the Qt test library // will print out any conflicts. The compareTexts function // does this for us int halfSec = ONE_BILLION/2; // nsec RealTime rt = RealTime(0, 0); compareTexts(rt.toText(false), "0"); compareTexts(rt.toText(true), "0.000"); rt = RealTime(1, halfSec); compareTexts(rt.toText(false), "1.5"); compareTexts(rt.toText(true), "1.500"); rt = RealTime::fromSeconds(-1.5); compareTexts(rt.toText(false), "-1.5"); compareTexts(rt.toText(true), "-1.500"); rt = RealTime::fromSeconds(60); compareTexts(rt.toText(false), "1:00"); compareTexts(rt.toText(true), "1:00.000"); rt = RealTime::fromSeconds(61.05); compareTexts(rt.toText(false), "1:01.05"); compareTexts(rt.toText(true), "1:01.050"); rt = RealTime::fromSeconds(601.05); compareTexts(rt.toText(false), "10:01.05"); compareTexts(rt.toText(true), "10:01.050"); rt = RealTime::fromSeconds(3600); compareTexts(rt.toText(false), "1:00:00"); compareTexts(rt.toText(true), "1:00:00.000"); // For practical reasons our time display always rounds down rt = RealTime(3599, ONE_BILLION-1); compareTexts(rt.toText(false), "59:59.999"); compareTexts(rt.toText(true), "59:59.999"); rt = RealTime::fromSeconds(3600 * 4 + 60 * 5 + 3 + 0.01); compareTexts(rt.toText(false), "4:05:03.01"); compareTexts(rt.toText(true), "4:05:03.010"); rt = RealTime::fromSeconds(-(3600 * 4 + 60 * 5 + 3 + 0.01)); compareTexts(rt.toText(false), "-4:05:03.01"); compareTexts(rt.toText(true), "-4:05:03.010"); } }; #endif