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kits.cpp
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/*
written at 2023 by Peter Semiletov
this code is the public domain
*/
#include <iostream>
#include <fstream>
#include <sstream>
#include <algorithm>
#include <string>
#include <chrono>
#include <stdio.h>
#include <stdlib.h>
#include <math.h>
#include <samplerate.h>
#include <sndfile.h>
#include "kits.h"
#include "utl.h"
using namespace std;
#define MAX_SAMPLES 32
float* CDrumLayer::load_whole_sample (const char *fname)
{
SF_INFO info;
SNDFILE *file = sf_open (fname, SFM_READ, &info);
if (! file)
return NULL;
if (info.channels == 0 || info.frames == 0)
return NULL;
float *buffer = new float [info.channels * info.frames];
sf_count_t zzz = sf_readf_float (file, buffer, info.frames);
sf_close (file);
samplerate = info.samplerate;
frames = info.frames;
samples_count = info.channels * info.frames;
channels = info.channels;
return buffer;
}
float* CDrumLayer::load_whole_sample_resampled (const char *fname, int sess_samplerate)
{
float *buffer = load_whole_sample (fname);
if (! buffer)
{
cout << "load error: " << fname << endl;
return 0;
}
if (samplerate == sess_samplerate)
return buffer;
float ratio = (float) 1.0f * sess_samplerate / samplerate;
size_t output_frames_count = (size_t) floor (frames * ratio);
size_t output_samples_count = output_frames_count * channels;
float *new_buffer = new float [output_samples_count];
SRC_DATA data;
data.src_ratio = ratio;
data.input_frames = frames;
data.output_frames = output_frames_count;
data.data_in = buffer;
data.data_out = new_buffer;
int error = src_simple (&data, SRC_SINC_BEST_QUALITY/*SRC_SINC_MEDIUM_QUALITY*/, channels);
if (error)
{
delete [] buffer;
delete [] new_buffer;
return 0;
}
samplerate = sess_samplerate;
frames = output_frames_count;
samples_count = channels * frames;
std::cout << fname << " loaded and resampled to " << samplerate << endl;
delete [] buffer;
return new_buffer;
}
void CDrumLayer::load (const char *fname)
{
data = load_whole_sample_resampled (fname, session_samplerate);
file_name = fname;
}
CDrumLayer::CDrumLayer (int sample_rate)
{
session_samplerate = sample_rate;
offset = 0;
dataoffset = 0;
data = 0;
}
void CDrumLayer::print()
{
cout << "sample layer -- start" << endl;
cout << "file_name: " << file_name << endl;
cout << "min: " << min << endl;
cout << "max: " << max << endl;
cout << "sample layer -- end" << endl;
}
CDrumLayer::~CDrumLayer()
{
if (data)
delete [] data;
}
CDrumSample::CDrumSample (int sample_rate)
{
session_samplerate = sample_rate;
current_layer = 0;
velocity = 0.0;
hihat_open = false;
hihat_close = false;
}
CDrumSample::~CDrumSample()
{
for (size_t i = 0; i < v_layers.size(); i++)
{
delete v_layers[i];
}
}
#define GAIN_MIN -60.0f
size_t CDrumSample::map_velo_to_layer_number (float velo)
{
if (v_layers.size() == 1)
return 0; //return zero pos layer if we have just one layer
size_t result = 0;
//search for layer within its min..max gain
for (size_t i = 0; i < v_layers.size(); i++)
{
if (v_layers[i]->min <= velo &&
(v_layers[i]->max > velo ||
(v_layers[i]->max == 1 && velo == 1)))
{
result = i;
break;
}
}
return result;
}
void CDrumSample::add_layer()
{
CDrumLayer *l = new CDrumLayer (session_samplerate);
v_layers.push_back (l);
}
void CDrumSample::print()
{
cout << "CDrumSample -- start" << endl;
cout << "id: " << id << endl;
cout << "name: " << name << endl;
cout << "midiOutNote: " << midiOutNote << endl;
for (auto l: v_layers)
{
l->print();
}
cout << "CDrumSample -- end" << endl;
}
void CDrumSample::print_stats()
{
// cout << "id: " << id << endl;
cout << "name: " << name << endl;
// cout << "midiOutNote: " << midiOutNote << endl;
}
CHydrogenXMLWalker::CHydrogenXMLWalker (CHydrogenKit *hkit)
{
kit = hkit;
drumkit_info_passed = false;
drumkitComponent_passed = false;
}
bool CHydrogenXMLWalker::for_each (pugi::xml_node &node)
{
string node_name = node.name();
pugi::xml_text txt = node.text();
//if (node_name == "drumkit_info")
// drumkit_info_passed = true;
if (node_name == "drumkitComponent")
drumkit_info_passed = true;
if (node_name == "instrument")
drumkitComponent_passed = true;
if (node_name == "name" && ! drumkit_info_passed)
kit->kit_name = txt.as_string();
if (node_name == "name" && drumkit_info_passed && drumkitComponent_passed)
if (kit->v_samples.size() != 0)
kit->v_samples.back()->name = txt.as_string();
if (node_name == "id" && drumkit_info_passed && drumkitComponent_passed && ! kit->scan_mode)
if (kit->v_samples.size() != 0)
kit->v_samples.back()->id = txt.as_int();
if (node_name == "min" && drumkit_info_passed && drumkitComponent_passed && ! kit->scan_mode)
if (kit->v_samples.size() != 0)
kit->v_samples.back()->v_layers.back()->min = txt.as_float();
if (node_name == "max" && drumkit_info_passed && drumkitComponent_passed && ! kit->scan_mode)
if (kit->v_samples.size() != 0)
kit->v_samples.back()->v_layers.back()->max = txt.as_float();
if (node_name == "image")
kit->image_fname = kit->kit_dir + "/" + txt.as_string();
if (node_name == "instrument")
{
drumkit_info_passed = true;
if (kit->v_samples.size() == MAX_SAMPLES) //WE DON'T LOAD MORE THAN 32 SAMPLES
return false;
kit->add_sample();
if (! kit->layers_supported) //non-layered
kit->v_samples.back()->add_layer(); //add default layer
}
if (node_name == "layer" && ! kit->scan_mode)
{
if (kit->v_samples.size() != 0)
kit->v_samples.back()->add_layer();
}
if (node_name == "filename")
{
std::string fname = txt.as_string();
std::string path = kit->kit_dir + "/" + fname;
std::string sample_name = kit->v_samples.back()->name;
for (auto signature: kit->v_hat_open_signatures)
{
if (findStringIC (sample_name, signature) || findStringIC (fname, signature))
{
kit->v_samples.back()->hihat_open = true;
break;
}
}
for (auto signature: kit->v_hat_close_signatures)
{
if (findStringIC (sample_name, signature) || findStringIC (fname, signature))
{
kit->v_samples.back()->hihat_close = true;
break;
}
}
if (! kit->scan_mode && kit->v_samples.size() != 0)
if (kit->v_samples.back()->v_layers.size() != 0)
kit->v_samples.back()->v_layers.back()->load (path.c_str());
}
return true;
}
void CHydrogenKit::load_txt (const std::string data)
{
// cout << "void CHydrogenKit::load_txt (const std::string data)\n";
if (data.empty())
return;
size_t i = kit_dir.rfind ("/");
kit_name = kit_dir.substr (i + 1);
stringstream st (data);
string line;
while (getline (st, line))
{
if (line.empty())
continue;
if (v_samples.size() == MAX_SAMPLES) //WE DON'T LOAD MORE THAN 32 SAMPLES
break;
size_t pos = line.find ("=");
if (pos == string::npos)
continue;
if (pos > line.size())
continue;
string sample_name = line.substr (0, pos);
string fname = line.substr (pos + 1, line.size() - pos);
if (fname.empty())
continue;
size_t check_for_list = fname.find (",");
if (check_for_list != string::npos)
{
vector <string> v_fnames = split_string_to_vector (fname, ",", false);
add_sample();
v_samples.back()->name = sample_name;
for (auto f: v_fnames)
{
string filename = kit_dir + "/" + f;
v_samples.back()->add_layer();
if (file_exists (filename) && ! scan_mode)
v_samples.back()->v_layers.back()->load (filename.c_str());
}
float part_size = (float) 1 / v_samples.back()->v_layers.size();
CDrumLayer *l;
//evaluate min and max velocities by the file position in the vector
for (size_t i = 0; i < v_samples.back()->v_layers.size(); i++)
{
l = v_samples.back()->v_layers[i];
float segment_start = part_size * i;
float segment_end = part_size * (i + 1) - 0.001;
//std::cout << "segment_start: " << segment_start << std::endl;
//std::cout << "segment_end: " << segment_end << std::endl;
l->min = segment_start;
l->max = segment_end;
}
l->max = 1.0f;
}
else
{
string filename = kit_dir + "/" + fname;
add_sample();
v_samples.back()->name = sample_name;
v_samples.back()->add_layer(); //add default layer
if (file_exists (filename) && ! scan_mode)
v_samples.back()->v_layers.back()->load (filename.c_str());
}
for (auto signature: v_hat_open_signatures)
{
if (findStringIC (sample_name, signature) || findStringIC (fname, signature))
{
v_samples.back()->hihat_open = true;
break;
}
}
for (auto signature: v_hat_close_signatures)
{
if (findStringIC (sample_name, signature) || findStringIC (fname, signature))
{
v_samples.back()->hihat_close = true;
break;
}
}
}
std::string kitimg = kit_dir + "/image.jpg";
if (! file_exists (kitimg))
kitimg = kit_dir + "/image.png";
if (file_exists (kitimg))
image_fname = kitimg;
}
std::string guess_sample_name (const std::string &raw)
{
std::string result;
std::string t = raw;
//remove .ext
t.pop_back();
t.pop_back();
t.pop_back();
t.pop_back();
//remove part before slash
size_t pos = t.find ("/");
if (pos != string::npos)
t = t.substr (pos + 1);
//remove all non-letters
for (size_t i = 0; i < t.size(); i++)
if (isalpha(t[i]))
result += t[i];
return result;
}
// trim from right
inline std::string& rtrim(std::string& s, const char* t = " \t\n\r\f\v")
{
s.erase(s.find_last_not_of(t) + 1);
return s;
}
void CHydrogenKit::load_sfz (const std::string data)
{
// cout << "void CHydrogenKit::load_sfz (const std::string data)\n";
if (data.empty())
return;
//change crlf in data to lf
std::string temp_data = string_replace_all (data, "\r\n", "\n");
temp_data = string_replace_all (data, "\\", "/");
bool multi_layered = false;
size_t pos = temp_data.find ("<group>");
if (pos != string::npos)
multi_layered = true;
size_t i = kit_dir.rfind ("/");
kit_name = kit_dir.substr (i + 1);
stringstream st (temp_data);
string line;
while (getline (st, line))
{
if (v_samples.size() == MAX_SAMPLES) //WE DON'T LOAD MORE THAN 32 SAMPLES
return;
if (line.empty())
continue;
if (line.find ("//") != string::npos)
continue;
string fname;
// cout << "parse line: " << line << endl;
if (line.find ("<group>") != string::npos)
add_sample();
if (line.find("<region>") != string::npos && ! multi_layered)
add_sample();
//parse filename for a layer
pos = line.find ("sample=");
if (pos != string::npos)
{
string just_name = line.substr (pos + 7);
just_name = rtrim (just_name); //remove trailing spaces if any
fname = kit_dir + "/" + just_name;
v_samples.back()->add_layer();
if (file_exists (fname))
{
if (! scan_mode)
v_samples.back()->v_layers.back()->load (fname.c_str());
v_samples.back()->name = guess_sample_name (just_name);
}
}
if (! scan_mode && multi_layered && v_samples.back()->v_layers.size() != 0)
{
float part_size = (float) 1 / v_samples.back()->v_layers.size();
CDrumLayer *l;
//evaluate min and max velocities by the file position in the vector
for (size_t i = 0; i < v_samples.back()->v_layers.size(); i++)
{
l = v_samples.back()->v_layers[i];
l->min = part_size * i;;
l->max = part_size * (i + 1) - 0.001;;
}
l->max = 1.0f;
}
if (! scan_mode && v_samples.size() > 0)
{
for (auto signature: v_hat_open_signatures)
{
if (findStringIC (v_samples.back()->name, signature))
{
v_samples.back()->hihat_open = true;
break;
}
}
for (auto signature: v_hat_close_signatures)
{
if (findStringIC (v_samples.back()->name, signature))
{
v_samples.back()->hihat_close = true;
break;
}
}
}
}
}
void CHydrogenKit::load (const char *fname, int sample_rate)
{
// cout << "void CHydrogenKit::load: " << fname << endl;
auto start = chrono::high_resolution_clock::now();
samplerate = sample_rate;
string filename = resolve_symlink (fname);
kit_filename = filename;
kit_dir = get_file_path (kit_filename);
std::string source = string_file_load (filename);
if (source.empty())
return;
if (ends_with (kit_filename, ".txt"))
{
load_txt (source);
return;
}
if (ends_with (kit_filename, ".sfz"))
{
load_sfz (source);
return;
}
//else Hydrogen format
pugi::xml_document doc;
// cout << "loading kit: " << fname << endl;
//cout << "source: " << source << endl;
size_t r = source.find ("<layer>");
if (r != std::string::npos)
layers_supported = true;
else
layers_supported = false;
//delete empty instruments
//because we don't want parse them
size_t idx_filename = source.rfind ("</filename>");
size_t idx_instrument = source.find ("<instrument>", idx_filename);
if (idx_instrument != std::string::npos)
if (idx_instrument > idx_filename)
//oops, we have empty instruments!
{
//первый пустой инструмент у нас уже есть, он находится по
//idx_instrument
//теперь найдем конец последнего
size_t idx_instrument_end = source.rfind ("</instrument>");
size_t sz_to_remove = idx_instrument_end - idx_instrument + 13;
source = source.erase (idx_instrument, sz_to_remove);
}
pugi::xml_parse_result result = doc.load_buffer (source.c_str(), source.size());
if (! result)
return;
CHydrogenXMLWalker walker (this);
doc.traverse (walker);
auto stop = chrono::high_resolution_clock::now();
auto duration_msecs = chrono::duration_cast<chrono::milliseconds>(stop - start);
std::cout << "loaded at: " << duration_msecs.count() << " msecs" << std::endl;
//seconds_counter_ev = duration_s.count();
}
CHydrogenKit::CHydrogenKit()
{
scan_mode = false;
layers_supported = false;
v_hat_open_signatures.push_back ("hat_o");
v_hat_open_signatures.push_back ("open");
v_hat_open_signatures.push_back ("swish");
v_hat_close_signatures.push_back ("close");
v_hat_close_signatures.push_back ("choke");
v_hat_close_signatures.push_back ("hat_c");
}
CHydrogenKit::~CHydrogenKit()
{
for (size_t i = 0; i < v_samples.size(); i++)
{
delete v_samples[i];
}
}
void CHydrogenKit::add_sample()
{
CDrumSample *s = new CDrumSample (samplerate);
v_samples.push_back (s);
}
void CHydrogenKit::print()
{
cout << "void CHydrogenKit::print() -- start" << endl;
for (size_t i = 0; i < v_samples.size(); i++)
{
v_samples[i]->print();
}
cout << "samples count:" << v_samples.size() << endl;
cout << "void CHydrogenKit::print() -- end" << endl;
}
void CHydrogenKit::print_stats()
{
cout << "void CHydrogenKit::print-stats() -- start" << endl;
cout << "kitname: " << kit_name << endl;
for (size_t i = 0; i < v_samples.size(); i++)
{
v_samples[i]->print_stats();
}
cout << "void CHydrogenKit::print-stats() -- end" << endl;
}
CHydrogenKitsScanner::CHydrogenKitsScanner()
{
}
CHydrogenKitsScanner::~CHydrogenKitsScanner()
{
for (size_t i = 0; i < v_scanned_kits.size(); i++)
{
delete v_scanned_kits[i];
}
}
void CHydrogenKitsScanner::scan()
{
std::vector <std::string> v_kits_locations;
v_kits_locations.push_back ("/usr/share/hydrogen/data/drumkits");
v_kits_locations.push_back ("/usr/local/share/hydrogen/data/drumkits");
v_kits_locations.push_back ("/usr/share/drmr/drumkits");
v_kits_locations.push_back ("/usr/share/drumrox-kits");
v_kits_locations.push_back (get_home_dir() + "/.hydrogen/data/drumkits");
v_kits_locations.push_back (get_home_dir() + "/.drmr/drumkits");
v_kits_locations.push_back (get_home_dir() + "/drumrox-kits");
v_kits_locations.push_back (get_home_dir() + "/sfz-kits");
std::vector <std::string> v_kits_dirs;
for (std::string i: v_kits_locations)
{
std::vector <std::string> v_kits_dirs_t = files_get_list (i);
v_kits_dirs.insert (v_kits_dirs.end(), v_kits_dirs_t.begin(), v_kits_dirs_t.end());
}
std::sort (v_kits_dirs.begin(), v_kits_dirs.end());
v_kits_dirs.erase (std::unique (v_kits_dirs.begin(), v_kits_dirs.end() ), v_kits_dirs.end() );
for (std::string kd: v_kits_dirs)
{
//cout << kd << endl;
//cout << get_kit_name (kd + "/drumkit.xml") << endl;
bool kit_exists = false;
std::string fname = kd + "/drumkit.xml";
if (file_exists (fname))
kit_exists = true;
else
{
fname = kd + "/drumkit.txt";
if (file_exists (fname))
kit_exists = true;
}
if (kd.find ("/sfz-kits") != string::npos)
{
//search sfz file
std::vector <std::string> v = files_get_list (kd, ".sfz");
if (v.size() != 0)
fname = v[0];
if (file_exists (fname))
kit_exists = true;
}
if (kit_exists)
{
CHydrogenKit *kit = new CHydrogenKit;
kit->scan_mode = true;
kit->load (fname.c_str(), 44100);
v_scanned_kits.push_back (kit);
// v_kits_names.push_back (kit->kit_name);
// m_kits.insert (pair<string,string> (kit->kit_name, fname));
}
}
std::sort (v_scanned_kits.begin(), v_scanned_kits.end(), [](CHydrogenKit* a, CHydrogenKit* b) {return a->kit_name < b->kit_name;});
for (auto i : v_scanned_kits)
{
v_kits_names.push_back (i->kit_name);
}
// std::sort ( v_kits_names.begin(), v_kits_names.end(), [](CHydrogenKit* a, CHydrogenKit* b){return a->kit_name < b->kit_name;});
//std::sort (v_kits_names.begin(), v_kits_names.end());
//v_kits_names.erase (std::unique( v_kits_names.begin(), v_kits_names.end() ), v_kits_names.end() );
}
void CHydrogenKitsScanner::print()
{
for (size_t i = 0; i < v_scanned_kits.size(); i++)
{
std::cout << i << ": ";
v_scanned_kits[i]->print_stats();
std::cout << v_scanned_kits[i]->kit_name << std::endl;
}
}