/* Copyright (C) 2006-2007 Paul Davis Author: Dave Robillard 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. 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, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include "pbd/malign.h" #include "pbd/compose.h" #include "pbd/debug.h" #include "ardour/debug.h" #include "ardour/midi_buffer.h" using namespace std; using namespace ARDOUR; using namespace PBD; // FIXME: mirroring for MIDI buffers? MidiBuffer::MidiBuffer(size_t capacity) : Buffer(DataType::MIDI, capacity) , _data(0) { if (capacity) { resize(_capacity); silence(_capacity); } } MidiBuffer::~MidiBuffer() { free(_data); } void MidiBuffer::resize(size_t size) { assert(size > 0); if (size < _capacity) { return; } free(_data); _size = 0; _capacity = size; cache_aligned_malloc ((void**) &_data, _capacity); assert(_data); } void MidiBuffer::copy(const MidiBuffer& copy) { assert(_capacity >= copy._size); _size = copy._size; memcpy(_data, copy._data, copy._size); } /** Read events from @a src starting at time @a offset into the START of this buffer, for * time duration @a nframes. Relative time, where 0 = start of buffer. * * Note that offset and nframes refer to sample time, NOT buffer offsets or event counts. */ void MidiBuffer::read_from (const Buffer& src, framecnt_t nframes, framecnt_t dst_offset, framecnt_t src_offset) { assert (src.type() == DataType::MIDI); assert (&src != this); const MidiBuffer& msrc = (MidiBuffer&) src; assert (_capacity >= msrc.size()); if (dst_offset == 0) { clear (); assert (_size == 0); } /* XXX use dst_offset somehow */ for (MidiBuffer::const_iterator i = msrc.begin(); i != msrc.end(); ++i) { const Evoral::MIDIEvent ev(*i, false); if (ev.time() >= src_offset && ev.time() < (nframes+src_offset)) { push_back (ev); } else { cerr << "MIDI event @ " << ev.time() << " skipped, not within range " << src_offset << " .. " << (nframes + src_offset) << endl; } } _silent = src.silent(); } void MidiBuffer::merge_from (const Buffer& src, framecnt_t /*nframes*/, framecnt_t /*dst_offset*/, framecnt_t /*src_offset*/) { const MidiBuffer* mbuf = dynamic_cast(&src); assert (mbuf); assert (mbuf != this); /* XXX use nframes, and possible offsets */ merge_in_place (*mbuf); } /** Push an event into the buffer. * * Note that the raw MIDI pointed to by ev will be COPIED and unmodified. * That is, the caller still owns it, if it needs freeing it's Not My Problem(TM). * Realtime safe. * @return false if operation failed (not enough room) */ bool MidiBuffer::push_back(const Evoral::MIDIEvent& ev) { const size_t stamp_size = sizeof(TimeType); /*cerr << "MidiBuffer: pushing event @ " << ev.time() << " size = " << ev.size() << endl;*/ if (_size + stamp_size + ev.size() >= _capacity) { cerr << "MidiBuffer::push_back failed (buffer is full)" << endl; return false; } if (!Evoral::midi_event_is_valid(ev.buffer(), ev.size())) { cerr << "WARNING: MidiBuffer ignoring illegal MIDI event" << endl; return false; } push_back(ev.time(), ev.size(), ev.buffer()); return true; } /** Push an event into the buffer. * @return false if operation failed (not enough room) */ bool MidiBuffer::push_back(TimeType time, size_t size, const uint8_t* data) { const size_t stamp_size = sizeof(TimeType); #ifndef NDEBUG if (DEBUG::MidiIO & PBD::debug_bits) { DEBUG_STR_DECL(a); DEBUG_STR_APPEND(a, string_compose ("midibuffer %1 push event @ %2 sz %3 ", this, time, size)); for (size_t i=0; i < size; ++i) { DEBUG_STR_APPEND(a,hex); DEBUG_STR_APPEND(a,"0x"); DEBUG_STR_APPEND(a,(int)data[i]); DEBUG_STR_APPEND(a,' '); } DEBUG_STR_APPEND(a,'\n'); DEBUG_TRACE (DEBUG::MidiIO, DEBUG_STR(a).str()); } #endif if (_size + stamp_size + size >= _capacity) { cerr << "MidiBuffer::push_back failed (buffer is full)" << endl; return false; } if (!Evoral::midi_event_is_valid(data, size)) { cerr << "WARNING: MidiBuffer ignoring illegal MIDI event" << endl; return false; } uint8_t* const write_loc = _data + _size; *((TimeType*)write_loc) = time; memcpy(write_loc + stamp_size, data, size); _size += stamp_size + size; _silent = false; return true; } /** Push an event into the buffer. * * Note that the raw MIDI pointed to by ev will be COPIED and unmodified. * That is, the caller still owns it, if it needs freeing it's Not My Problem(TM). * Realtime safe. * @return false if operation failed (not enough room) */ bool MidiBuffer::push_back(const jack_midi_event_t& ev) { const size_t stamp_size = sizeof(TimeType); if (_size + stamp_size + ev.size >= _capacity) { cerr << "MidiBuffer::push_back failed (buffer is full)" << endl; return false; } if (!Evoral::midi_event_is_valid(ev.buffer, ev.size)) { cerr << "WARNING: MidiBuffer ignoring illegal MIDI event" << endl; return false; } uint8_t* const write_loc = _data + _size; *((TimeType*)write_loc) = ev.time; memcpy(write_loc + stamp_size, ev.buffer, ev.size); _size += stamp_size + ev.size; _silent = false; return true; } /** Reserve space for a new event in the buffer. * * This call is for copying MIDI directly into the buffer, the data location * (of sufficient size to write \a size bytes) is returned, or 0 on failure. * This call MUST be immediately followed by a write to the returned data * location, or the buffer will be corrupted and very nasty things will happen. */ uint8_t* MidiBuffer::reserve(TimeType time, size_t size) { const size_t stamp_size = sizeof(TimeType); if (_size + stamp_size + size >= _capacity) { return 0; } // write timestamp uint8_t* write_loc = _data + _size; *((TimeType*)write_loc) = time; // move write_loc to begin of MIDI buffer data to write to write_loc += stamp_size; _size += stamp_size + size; _silent = false; return write_loc; } void MidiBuffer::silence (framecnt_t /*nframes*/, framecnt_t /*offset*/) { /* XXX iterate over existing events, find all in range given by offset & nframes, and delete them. */ _size = 0; _silent = true; } /** Merge \a other into this buffer. Realtime safe. */ bool MidiBuffer::merge_in_place(const MidiBuffer &other) { if (other.size() == 0) { return true; } if (_size == 0) { copy(other); return true; } if (_size + other.size() > _capacity) { cerr << "MidiBuffer::merge failed (no space)" << endl; return false; } #ifndef NDEBUG size_t test_orig_us_size = _size; size_t test_orig_them_size = other._size; TimeType test_time = 0; size_t test_us_count = 0; size_t test_them_count = 0; for (iterator i = begin(); i != end(); ++i) { assert(Evoral::midi_event_is_valid((*i).buffer(), (*i).size())); assert((*i).time() >= test_time); test_time = (*i).time(); ++test_us_count; } test_time = 0; for (const_iterator i = other.begin(); i != other.end(); ++i) { assert(Evoral::midi_event_is_valid((*i).buffer(), (*i).size())); assert((*i).time() >= test_time); test_time = (*i).time(); ++test_them_count; } #endif const_iterator them = other.begin(); iterator us = begin(); while (them != other.end()) { size_t sz = 0; ssize_t src = -1; /* gather up total size of events that are earlier than the event referenced by "us" */ while (them != other.end() && (*them).time() <= (*us).time()) { if (src == -1) { src = them.offset; } sz += sizeof (TimeType) + (*them).size(); ++them; } #if 0 if (us != end()) cerr << "us @ " << (*us).time() << endl; if (them != other.end()) cerr << "them @ " << (*them).time() << endl; #endif if (sz) { assert(src >= 0); /* move existing */ memmove (_data + us.offset + sz, _data + us.offset, _size - us.offset); /* increase _size */ _size += sz; assert(_size <= _capacity); /* insert new stuff */ memcpy (_data + us.offset, other._data + src, sz); /* update iterator to our own events. this is a miserable hack */ us.offset += sz; } else { /* advance past our own events to get to the correct insertion point for the next event(s) from "other" */ while (us != end() && (*us).time() < (*them).time()) { ++us; } } if (!(us != end())) { /* just append the rest of other */ memcpy (_data + us.offset, other._data + them.offset, other._size - them.offset); _size += other._size - them.offset; break; } } #ifndef NDEBUG assert(_size == test_orig_us_size + test_orig_them_size); size_t test_final_count = 0; test_time = 0; for (iterator i = begin(); i != end(); ++i) { // cerr << "CHECK " << test_final_count << " / " << test_us_count + test_them_count << endl; assert(Evoral::midi_event_is_valid((*i).buffer(), (*i).size())); assert((*i).time() >= test_time); test_time = (*i).time(); ++test_final_count; } assert(test_final_count = test_us_count + test_them_count); #endif return true; } /** Clear, and merge \a a and \a b into this buffer. * * \return true if complete merge was successful */ bool MidiBuffer::merge(const MidiBuffer& a, const MidiBuffer& b) { _size = 0; if (this == &a) { return merge_in_place(b); } else if (this == &b) { return merge_in_place(a); } const_iterator ai = a.begin(); const_iterator bi = b.begin(); resize(a.size() + b.size()); while (ai != a.end() && bi != b.end()) { if ((*ai).time() < (*bi).time()) { memcpy(_data + _size, (*ai).buffer(), (*ai).size()); _size += (*ai).size(); ++ai; } else { memcpy(_data + _size, (*bi).buffer(), (*bi).size()); _size += (*bi).size(); ++bi; } } while (ai != a.end()) { memcpy(_data + _size, (*ai).buffer(), (*ai).size()); _size += (*ai).size(); ++ai; } while (bi != b.end()) { memcpy(_data + _size, (*bi).buffer(), (*bi).size()); _size += (*bi).size(); ++bi; } return true; }