ichthyo/LUMIERA.clone
1
0
Fork 0
Code Issues Pull requests Projects Releases Packages Wiki Activity Actions
LUMIERA.clone/tests/basics/time/time-quantisation-test.cpp
Ichthyostega 9393942366 Invocation: Analysis pertaining to storage for param data 
During Render Node invocation, automation parameter data must be maintained.
For the simple standard path, this just implies to store the ''absolute nominal Time''
directly in the invoking stack frame and let some parameter adaptors do the translation.
However, it is conceivable to have much more elaborate translation functions,
and thus we must be prepared to handle an arbitrary number of parameter slots,
where each slot has arbitrary storage requirements.

The conclusion is to start with an intrusive linked list of overflow buckets.
2024-12-07 18:15:44 +01:00

174 lines
5.8 KiB
C++
Raw Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/*
TimeQuantisation(Test) - handling of virtually grid aligned time values
Copyright (C)
2010, Hermann Vosseler <Ichthyostega@web.de>
  **Lumiera** 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 for further details.
* *****************************************************************/
/** @file time-quantisation-test.cpp
** unit test \ref TimeQuantisation_test
** @todo 2024/24 only two of the four timecode formats are implemented /////////////////////////////////////TICKET #736 : HMS and Seconds not implemented
*/
#include "lib/test/run.hpp"
#include "lib/test/test-helper.hpp"
#include "steam/asset/meta/time-grid.hpp"
#include "lib/time/timequant.hpp"
#include "lib/format-cout.hpp"
#include "lib/util.hpp"
#include <boost/lexical_cast.hpp>
using boost::lexical_cast;
using util::isnil;
using util::contains;
namespace lib {
namespace time{
namespace test{
using steam::asset::meta::TimeGrid;
/****************************************************//**
* @test verify handling of quantised time values.
* - the simple usage, just referring to an
* predefined grid by name
* - explicitly defining an quantiser
* - converting these quantised values into
* various timecode formats
* - error detection
*/
class TimeQuantisation_test : public Test
{
int
random_or_get (Arg arg)
{
if (isnil(arg))
{// use random time value for all tests
seedRand();
return 1 + rani(100'000);
}
else // use argument as 1/10 seconds
return 10 * lexical_cast<int> (arg[1]);
}
/**
* @param arg number as 1/10sec
* @note using random time 0..100s if no argument given
*/
virtual void
run (Arg arg)
{
Time ref (random_or_get(arg),0,0,0);
CHECK (TimeValue(0) < ref);
checkSimpleUsage (ref);
check_theFullStory (ref);
checkMultipleGrids (ref);
checkGridBinding (ref);
}
void
checkSimpleUsage (TimeValue org)
{
TimeGrid::build("my_simple_grid", 25); // "someone" has defined a time grid
QuTime qVal (org, "my_simple_grid"); // create time quantised to this grid
FrameNr count(qVal); // materialise this quantised time into..
int n = count; // frame count, accessible as plain number
CHECK (Time(FSecs(n, 25)) <= org); // verify quantisation: the original time
CHECK (org < Time(FSecs(n+1, 25))); // is properly bracketed by [n, n+1[
}
void
check_theFullStory (TimeValue org)
{
cout << "TEST rawTime:"<<Time{org} << endl;
PQuant fixQ (new FixedFrameQuantiser(25));
QuTime qVal (org, fixQ);
CHECK ( qVal == org); // Note: stores the raw value, but tagged with a grid
CHECK ( fixQ.get() == PQuant(qVal).get());
CHECK ( qVal.supports<format::Frames>());
CHECK ( qVal.supports<format::Smpte>());
SmpteTC smpteTCode = qVal.formatAs<format::Smpte>();
showTimeCode (smpteTCode);
HmsTC pureTimeCode = qVal.formatAs<format::Hms>();
showTimeCode (pureTimeCode); ////////////////////////////////////////////////////////////////TICKET #736 : HMS not implemented yet
FrameNr frameTCode = qVal.formatAs<format::Frames>();
showTimeCode (frameTCode);
Secs seconds = qVal.formatAs<format::Seconds>();
showTimeCode (seconds); ////////////////////////////////////////////////////////////////TICKET #736 : Seconds not implemented yet
}
template<class TC>
void
showTimeCode (TC timecodeValue)
{
cout << timecodeValue.describe()
<< " time = "<< timecodeValue.getTime()
<< " code = "<< timecodeValue
<< endl;
}
void
checkMultipleGrids (TimeValue org)
{
TimeGrid::build("my_alternate_grid", FrameRate::NTSC);
QuTime palVal (org, "my_simple_grid");
QuTime ntscVal (org, "my_alternate_grid");
CHECK (org == palVal);
CHECK (org == ntscVal);
FrameNr palNr (palVal);
FrameNr ntscNr(ntscVal);
CHECK (palNr <= ntscNr);
}
void
checkGridBinding (TimeValue org)
{
// refer to a grid not yet defined
VERIFY_ERROR (UNKNOWN_GRID, QuTime weird(org, "special_funny_grid"));
TimeGrid::build("special_funny_grid", 1); // provide the grid's definition (1 frame per second)
QuTime funny (org, "special_funny_grid"); // now OK, grid is known
int cnt = funny.formatAs<format::Frames>();
// and now performing quantisation is OK
SmpteTC smpte (funny); // also converting into SMPTE (which implies frame quantisation)
CHECK (0 == smpte.frames); // we have 1fps, thus the frame part is always zero!
CHECK (cnt % 60 == smpte.secs); // and the seconds part will be in sync with the frame count
}
};
/** Register this test class... */
LAUNCHER (TimeQuantisation_test, "unit common");
}}} // namespace lib::time::test
Reference in a new issue View git blame Copy permalink