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/************************************************************************
FAUST Architecture File
Copyright (C) 2017 GRAME, Centre National de Creation Musicale
---------------------------------------------------------------------
This Architecture section 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 3 of
the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; If not, see <http://www.gnu.org/licenses/>.
EXCEPTION : As a special exception, you may create a larger work
that contains this FAUST architecture section and distribute
that work under terms of your choice, so long as this FAUST
architecture section is not modified.
************************************************************************/
#include <vector>
#include <tuple>
#include <iostream>
#include <string>
#include <math.h>
#include <cmath>
#include "faust/gui/UI.h"
#include "faust/dsp/dsp-bench.h"
#include "faust/misc.h"
#include "faust/gui/Soundfile.h"
// To be used by DSP code if no SoundUI is used
Soundfile* defaultsound = nullptr;
#if defined(ALL_TESTS)
#include "dsp_scal.h"
#include "dsp_scal_exp10.h"
#include "dsp_scal_mcd0.h"
#include "dsp_scal_mcd2.h"
#include "dsp_scal_mcd8.h"
#include "dsp_scal_mcd16.h"
#include "dsp_scal_mcd32.h"
#include "dsp_scal_mcd64.h"
#include "dsp_scal_os.h"
#include "dsp_vec0_4.h"
#include "dsp_vec0_8.h"
#include "dsp_vec0_16.h"
#include "dsp_vec0_32.h"
#include "dsp_vec0_64.h"
#include "dsp_vec0_128.h"
#include "dsp_vec0_256.h"
#include "dsp_vec0_512.h"
#include "dsp_vec0_fun_4.h"
#include "dsp_vec0_fun_8.h"
#include "dsp_vec0_fun_16.h"
#include "dsp_vec0_fun_32.h"
#include "dsp_vec0_fun_64.h"
#include "dsp_vec0_fun_128.h"
#include "dsp_vec0_fun_256.h"
#include "dsp_vec0_fun_512.h"
#include "dsp_vec1_4.h"
#include "dsp_vec1_8.h"
#include "dsp_vec1_16.h"
#include "dsp_vec1_32.h"
#include "dsp_vec1_64.h"
#include "dsp_vec1_128.h"
#include "dsp_vec1_256.h"
#include "dsp_vec1_512.h"
#include "dsp_vec0g_4.h"
#include "dsp_vec0g_8.h"
#include "dsp_vec0g_16.h"
#include "dsp_vec0g_32.h"
#include "dsp_vec0g_64.h"
#include "dsp_vec0g_128.h"
#include "dsp_vec0g_256.h"
#include "dsp_vec0g_512.h"
#include "dsp_vec1g_4.h"
#include "dsp_vec1g_8.h"
#include "dsp_vec1g_16.h"
#include "dsp_vec1g_32.h"
#include "dsp_vec1g_64.h"
#include "dsp_vec1g_128.h"
#include "dsp_vec1g_256.h"
#include "dsp_vec1g_512.h"
#elif defined(FAST_TESTS)
#include "dsp_scal.h"
#include "dsp_scal_exp10.h"
#include "dsp_scal_mcd0.h"
#include "dsp_scal_mcd8.h"
#include "dsp_scal_mcd32.h"
#include "dsp_scal_os.h"
#include "dsp_vec0_32.h"
#include "dsp_vec1_32.h"
#include "dsp_vec0g_32.h"
#include "dsp_vec1g_32.h"
#elif defined(SINGLE_TESTS)
#include "dsp_scal.h"
#endif
using namespace std;
ofstream* gFaustbenchLog = nullptr;
template <typename REAL>
static tuple<double, double, double> bench(dsp* dsp, int dsp_size, const string& name, int run, int buffer_size, bool is_trace, bool is_control, int ds, int us, int filter)
{
measure_dsp_real<REAL> mes(dsp, buffer_size, 5., is_trace, is_control, ds, us, filter); // Buffer_size and duration in sec of measure
// Keep best values
std::pair<double, double> best_res(0,0);
double best_cpu = 0.;
// Several runs
for (int i = 0; i < run; i++) {
mes.measure();
std::pair<double, double> res = mes.getStats();
if (is_trace) cout << name << " : " << res.first << " MBytes/sec, SD : " << res.second << "% (DSP CPU : " << (mes.getCPULoad() * 100) << "% at 44100 Hz)" << endl;
FAUSTBENCH_LOG<REAL>(res.first);
if (res.first > best_res.first) {
best_res = res;
best_cpu = mes.getCPULoad();
}
}
return make_tuple(best_res.first, best_res.second, best_cpu);
}
static bool compareFun(tuple<double, double, double> i, tuple<double, double, double> j)
{
return (std::get<0>(i) < std::get<0>(j));
}
extern "C" int bench_all(const char* name, int run, int buffer_size, bool is_trace, bool is_control, int ds, int us, int filter)
{
vector<tuple<double, double, double>> measures;
vector<string> options;
if (is_trace) {
cout << "DSP bench of " << name << " compiled in C++ running with FAUSTFLOAT = " << ((sizeof(FAUSTFLOAT) == 4) ? "float" : "double") << endl;
cout << "Running with 'compute' called with " << buffer_size << " samples" << endl;
}
dsp_scal dsp;
cout << "DSP inputs = " << dsp.getNumInputs() << " outputs = " << dsp.getNumOutputs() << endl;
#if defined(ALL_TESTS)
options.push_back("-scal" + OPTIONS);
options.push_back("-scal -exp10" + OPTIONS);
options.push_back("-scal -mcd 0" + OPTIONS);
options.push_back("-scal -mcd 2" + OPTIONS);
options.push_back("-scal -mcd 8" + OPTIONS);
options.push_back("-scal -mcd 16" + OPTIONS);
options.push_back("-scal -mcd 32" + OPTIONS);
options.push_back("-scal -mcd 64" + OPTIONS);
options.push_back("-scal -os" + OPTIONS);
options.push_back("-vec -lv 0 -vs 4" + OPTIONS);
options.push_back("-vec -lv 0 -vs 8" + OPTIONS);
options.push_back("-vec -lv 0 -vs 16" + OPTIONS);
options.push_back("-vec -lv 0 -vs 32" + OPTIONS);
options.push_back("-vec -lv 0 -vs 64" + OPTIONS);
options.push_back("-vec -lv 0 -vs 128" + OPTIONS);
options.push_back("-vec -lv 0 -vs 256" + OPTIONS);
options.push_back("-vec -lv 0 -vs 512" + OPTIONS);
options.push_back("-vec -fun -lv 0 -vs 4" + OPTIONS);
options.push_back("-vec -fun -lv 0 -vs 8" + OPTIONS);
options.push_back("-vec -fun -lv 0 -vs 16" + OPTIONS);
options.push_back("-vec -fun -lv 0 -vs 32" + OPTIONS);
options.push_back("-vec -fun -lv 0 -vs 64" + OPTIONS);
options.push_back("-vec -fun -lv 0 -vs 128" + OPTIONS);
options.push_back("-vec -fun -lv 0 -vs 256" + OPTIONS);
options.push_back("-vec -fun -lv 0 -vs 512" + OPTIONS);
options.push_back("-vec -lv 0 -g -vs 4" + OPTIONS);
options.push_back("-vec -lv 0 -g -vs 8" + OPTIONS);
options.push_back("-vec -lv 0 -g -vs 16" + OPTIONS);
options.push_back("-vec -lv 0 -g -vs 32" + OPTIONS);
options.push_back("-vec -lv 0 -g -vs 64" + OPTIONS);
options.push_back("-vec -lv 0 -g -vs 128" + OPTIONS);
options.push_back("-vec -lv 0 -g -vs 256" + OPTIONS);
options.push_back("-vec -lv 0 -g -vs 512" + OPTIONS);
options.push_back("-vec -lv 1 -vs 4" + OPTIONS);
options.push_back("-vec -lv 1 -vs 8" + OPTIONS);
options.push_back("-vec -lv 1 -vs 16" + OPTIONS);
options.push_back("-vec -lv 1 -vs 32" + OPTIONS);
options.push_back("-vec -lv 1 -vs 64" + OPTIONS);
options.push_back("-vec -lv 1 -vs 128" + OPTIONS);
options.push_back("-vec -lv 1 -vs 256" + OPTIONS);
options.push_back("-vec -lv 1 -vs 512" + OPTIONS);
options.push_back("-vec -lv 1 -g -vs 4" + OPTIONS);
options.push_back("-vec -lv 1 -g -vs 8" + OPTIONS);
options.push_back("-vec -lv 1 -g -vs 16" + OPTIONS);
options.push_back("-vec -lv 1 -g -vs 32" + OPTIONS);
options.push_back("-vec -lv 1 -g -vs 64" + OPTIONS);
options.push_back("-vec -lv 1 -g -vs 128" + OPTIONS);
options.push_back("-vec -lv 1 -g -vs 256" + OPTIONS);
options.push_back("-vec -lv 1 -g -vs 512" + OPTIONS);
#elif defined(FAST_TESTS)
options.push_back("-scal" + OPTIONS);
options.push_back("-scal -exp10" + OPTIONS);
options.push_back("-scal -mcd 0" + OPTIONS);
options.push_back("-scal -mcd 8" + OPTIONS);
options.push_back("-scal -mcd 32" + OPTIONS);
options.push_back("-scal -os" + OPTIONS);
options.push_back("-vec -lv 0 -vs 32" + OPTIONS);
options.push_back("-vec -lv 0 -vs 32 -g" + OPTIONS);
options.push_back("-vec -lv 1 -vs 32" + OPTIONS);
options.push_back("-vec -lv 1 -vs 32 -g" + OPTIONS);
#elif defined(SINGLE_TESTS)
options.push_back("-scal" + OPTIONS);
#endif
int ind = 0;
#if defined(ALL_TESTS)
// Scalar
measures.push_back(bench<FAUSTFLOAT>(new dsp_scal(), sizeof(dsp_scal), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_scal_exp10(), sizeof(dsp_scal_exp10), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_scal_mcd0(), sizeof(dsp_scal_mcd0), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_scal_mcd2(), sizeof(dsp_scal_mcd2), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_scal_mcd8(), sizeof(dsp_scal_mcd8), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_scal_mcd16(), sizeof(dsp_scal_mcd16), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_scal_mcd32(), sizeof(dsp_scal_mcd32), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_scal_mcd64(), sizeof(dsp_scal_mcd64), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_scal_os(), sizeof(dsp_scal_os), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
// Vector -lv 0
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec1_4(), sizeof(dsp_vec1_4), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec0_8(), sizeof(dsp_vec0_8), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec0_16(), sizeof(dsp_vec0_16), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec0_32(), sizeof(dsp_vec0_32), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec0_64(), sizeof(dsp_vec0_64), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec0_128(), sizeof(dsp_vec0_128), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec0_256(), sizeof(dsp_vec0_256), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec0_512(), sizeof(dsp_vec0_512), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec1_4(), sizeof(dsp_vec1_4), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec0g_8(), sizeof(dsp_vec0g_8), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec0g_16(), sizeof(dsp_vec0g_16), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec0g_32(), sizeof(dsp_vec0g_32), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec0g_64(), sizeof(dsp_vec0g_64), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec0g_128(), sizeof(dsp_vec0g_128), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec0g_256(), sizeof(dsp_vec0g_256), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec0g_512(), sizeof(dsp_vec0g_512), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
// Vector -lv 1
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec1_4(), sizeof(dsp_vec1_4), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec1_8(), sizeof(dsp_vec1_8), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec1_16(), sizeof(dsp_vec1_16), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec1_32(), sizeof(dsp_vec1_32), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec1_64(), sizeof(dsp_vec1_64), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec1_128(), sizeof(dsp_vec1_128), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec1_256(), sizeof(dsp_vec1_256), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec1_512(), sizeof(dsp_vec1_512), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec1g_4(), sizeof(dsp_vec1g_4), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec1g_8(), sizeof(dsp_vec1g_8), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec1g_16(), sizeof(dsp_vec1g_16), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec1g_32(), sizeof(dsp_vec1g_32), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec1g_64(), sizeof(dsp_vec1g_64), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec1g_128(), sizeof(dsp_vec1g_128), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec1g_256(), sizeof(dsp_vec1g_256), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec1g_512(), sizeof(dsp_vec1g_512), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
#elif defined(FAST_TESTS)
measures.push_back(bench<FAUSTFLOAT>(new dsp_scal(), sizeof(dsp_scal), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_scal_exp10(), sizeof(dsp_scal_exp10), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_scal_mcd0(), sizeof(dsp_scal_mcd0), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_scal_mcd8(), sizeof(dsp_scal_mcd8), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_scal_mcd32(), sizeof(dsp_scal_mcd32), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_scal_os(), sizeof(dsp_scal_os), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec0_32(), sizeof(dsp_vec0_32), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec0g_32(), sizeof(dsp_vec0g_32), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec1_32(), sizeof(dsp_vec1_32), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
measures.push_back(bench<FAUSTFLOAT>(new dsp_vec1g_32(), sizeof(dsp_vec1g_32), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
#elif defined(SINGLE_TESTS)
measures.push_back(bench<FAUSTFLOAT>(new dsp_scal(), sizeof(dsp_scal), options[ind++], run, buffer_size, is_trace, is_control, ds, us, filter));
#endif
vector<tuple<double, double, double>> measures1 = measures;
sort(measures1.begin(), measures1.end(), compareFun);
vector<tuple<double, double, double>>::iterator it = find(measures.begin(), measures.end(), measures1[measures1.size()-1]);
long int pos = distance(measures.begin(), it);
if (is_trace) {
tuple<double, double, double> res = measures1[measures1.size()-1];
cout << "Best value is : " << get<0>(res) << " MBytes/sec, SD : " << get<1>(res) << "% (DSP CPU : " << (get<2>(res) * 100) << " at 44100 Hz) with " << options[pos] << endl;
} else {
cout << options[pos] << endl;
}
return 1;
}
#ifndef TARGET_OS_IPHONE
int main(int argc, char* argv[])
{
if (isopt(argv, "-h") || isopt(argv, "-help")) {
cout << "faustbench [-notrace] [-control] [-run <num>] [-bs <frames>] [-us <factor>] [-ds <factor>] [-filter <filter(0..4)>] foo.dsp" << endl;
return 0;
}
//FAUSTBENCH_LOG<string>("faustbench C++");
bool is_trace = !isopt(argv, "-notrace");
bool is_control = isopt(argv, "-control");
int run = lopt(argv, "-run", 1);
int buffer_size = lopt(argv, "-bs", 512);
int ds = lopt(argv, "-ds", 0);
int us = lopt(argv, "-us", 0);
int filter = lopt(argv, "-filter", 0);
defaultsound = new Soundfile(MAX_CHAN, 1024, MAX_CHAN, 1, (sizeof(FAUSTFLOAT) == 8));
int res = bench_all(argv[0], run, buffer_size, is_trace, is_control, ds, us, filter);
delete defaultsound;
return res;
}
#endif
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