OPTION_SLOW_DOWN_INPUT = 1001,
OPTION_HTTP_PORT = 1002,
OPTION_TALLY_URL = 1003,
- OPTION_CUE_POINT_PADDING = 1004
+ OPTION_CUE_POINT_PADDING = 1004,
+ OPTION_MIDI_MAPPING = 1005
};
void usage()
fprintf(stderr, " -d, --working-directory DIR where to store frames and database\n");
fprintf(stderr, " --http-port PORT which port to listen on for output\n");
fprintf(stderr, " --tally-url URL URL to get tally color from (polled every 100 ms)\n");
+ fprintf(stderr, " --midi-mapping=FILE start with the given MIDI controller mapping\n");
}
void parse_flags(int argc, char *const argv[])
{ "http-port", required_argument, 0, OPTION_HTTP_PORT },
{ "tally-url", required_argument, 0, OPTION_TALLY_URL },
{ "cue-point-padding", required_argument, 0, OPTION_CUE_POINT_PADDING },
+ { "midi-mapping", required_argument, 0, OPTION_MIDI_MAPPING },
{ 0, 0, 0, 0 }
};
for (;;) {
global_flags.cue_point_padding_seconds = atof(optarg);
global_flags.cue_point_padding_set = true;
break;
+ case OPTION_MIDI_MAPPING:
+ global_flags.midi_mapping_filename = optarg;
+ break;
case OPTION_HELP:
usage();
exit(0);
std::string tally_url;
double cue_point_padding_seconds = 0.0; // Can be changed in the menus.
bool cue_point_padding_set = false;
+ std::string midi_mapping_filename; // Empty for none.
};
extern Flags global_flags;
--- /dev/null
+syntax = "proto2";
+
+import "midi_mapping.proto";
+
+message CameraMIDIMappingProto {
+ optional MIDIButtonProto button = 1;
+ optional int32 bank = 2;
+ optional MIDILightProto is_current = 3;
+}
+
+message MIDIMappingProto {
+ optional int32 num_controller_banks = 1 [default = 0]; // Max 5.
+
+ // Bank switching.
+ optional MIDIButtonProto prev_bank = 2;
+ optional MIDIButtonProto next_bank = 3;
+ optional MIDIButtonProto select_bank_1 = 4;
+ optional MIDIButtonProto select_bank_2 = 5;
+ optional MIDIButtonProto select_bank_3 = 6;
+ optional MIDIButtonProto select_bank_4 = 7;
+ optional MIDIButtonProto select_bank_5 = 8;
+ optional MIDILightProto bank_1_is_selected = 9;
+ optional MIDILightProto bank_2_is_selected = 10;
+ optional MIDILightProto bank_3_is_selected = 11;
+ optional MIDILightProto bank_4_is_selected = 12;
+ optional MIDILightProto bank_5_is_selected = 13;
+
+ // Controllers.
+ optional MIDIControllerProto jog = 16;
+ optional int32 jog_bank = 17;
+
+ // Buttons.
+ optional MIDIButtonProto preview = 18;
+ optional int32 preview_bank = 19;
+ optional MIDILightProto preview_enabled = 20;
+
+ optional MIDIButtonProto queue = 21;
+ optional int32 queue_bank = 22;
+ optional MIDILightProto queue_enabled = 23;
+
+ optional MIDIButtonProto play = 24;
+ optional int32 play_bank = 25;
+ optional MIDILightProto play_enabled = 26;
+
+ optional MIDIButtonProto cue_in = 27;
+ optional int32 cue_in_bank = 28;
+ optional MIDILightProto cue_in_enabled = 29; // In practice always true currently.
+
+ optional MIDIButtonProto cue_out = 30;
+ optional int32 cue_out_bank = 31;
+ optional MIDILightProto cue_out_enabled = 32; // In practice always true currently.
+
+ // Camera buttons.
+ repeated CameraMIDIMappingProto camera = 33;
+}
#include "flags.h"
#include "frame_on_disk.h"
#include "player.h"
+#include "futatabi_midi_mapping.pb.h"
#include "shared/aboutdialog.h"
#include "shared/disk_space_estimator.h"
#include "shared/post_to_main_thread.h"
extern int64_t current_pts;
+namespace {
+
+void set_pts_in(int64_t pts, int64_t current_pts, ClipProxy &clip)
+{
+ pts = std::max<int64_t>(pts, 0);
+ if (clip->pts_out == -1) {
+ pts = std::min(pts, current_pts);
+ } else {
+ pts = std::min(pts, clip->pts_out);
+ }
+ clip->pts_in = pts;
+}
+
+} // namespace
+
MainWindow::MainWindow()
: ui(new Ui::MainWindow),
- db(global_flags.working_directory + "/futatabi.db")
+ db(global_flags.working_directory + "/futatabi.db"),
+ midi_mapper(this)
{
global_mainwindow = this;
ui->setupUi(this);
});
});
set_output_status("paused");
+ enable_or_disable_queue_button();
defer_timeout = new QTimer(this);
defer_timeout->setSingleShot(true);
if (!global_flags.tally_url.empty()) {
start_tally();
}
+
+ if (!global_flags.midi_mapping_filename.empty()) {
+ MIDIMappingProto midi_mapping;
+ if (!load_midi_mapping_from_file(global_flags.midi_mapping_filename, &midi_mapping)) {
+ fprintf(stderr, "Couldn't load MIDI mapping '%s'; exiting.\n",
+ global_flags.midi_mapping_filename.c_str());
+ exit(1);
+ }
+ midi_mapper.set_midi_mapping(midi_mapping);
+ }
+ midi_mapper.refresh_lights();
+ midi_mapper.start_thread();
}
void MainWindow::change_num_cameras()
playlist_selection_changed();
}
+void MainWindow::jog_internal(JogDestination jog_destination, int row, int column, int stream_idx, int pts_delta)
+{
+ constexpr int camera_pts_per_pixel = 1500; // One click of most mice (15 degrees), multiplied by the default wheel_sensitivity.
+
+ int in_column, out_column, camera_column;
+ if (jog_destination == JOG_CLIP_LIST) {
+ in_column = int(ClipList::Column::IN);
+ out_column = int(ClipList::Column::OUT);
+ camera_column = -1;
+ } else if (jog_destination == JOG_PLAYLIST) {
+ in_column = int(PlayList::Column::IN);
+ out_column = int(PlayList::Column::OUT);
+ camera_column = int(PlayList::Column::CAMERA);
+ } else {
+ assert(false);
+ }
+
+ currently_deferring_model_changes = true;
+ {
+ current_change_id = (jog_destination == JOG_CLIP_LIST) ? "cliplist:" : "playlist:";
+ ClipProxy clip = (jog_destination == JOG_CLIP_LIST) ? cliplist_clips->mutable_clip(row) : playlist_clips->mutable_clip(row);
+ if (jog_destination == JOG_PLAYLIST) {
+ stream_idx = clip->stream_idx;
+ }
+
+ if (column == in_column) {
+ current_change_id += "in:" + to_string(row);
+ int64_t pts = clip->pts_in + pts_delta;
+ set_pts_in(pts, current_pts, clip);
+ preview_single_frame(pts, stream_idx, FIRST_AT_OR_AFTER);
+ } else if (column == out_column) {
+ current_change_id += "out:" + to_string(row);
+ int64_t pts = clip->pts_out + pts_delta;
+ pts = std::max(pts, clip->pts_in);
+ pts = std::min(pts, current_pts);
+ clip->pts_out = pts;
+ preview_single_frame(pts, stream_idx, LAST_BEFORE);
+ } else if (column == camera_column) {
+ current_change_id += "camera:" + to_string(row);
+ int angle_degrees = pts_delta;
+ if (last_mousewheel_camera_row == row) {
+ angle_degrees += leftover_angle_degrees;
+ }
+
+ int stream_idx = clip->stream_idx + angle_degrees / camera_pts_per_pixel;
+ stream_idx = std::max(stream_idx, 0);
+ stream_idx = std::min<int>(stream_idx, num_cameras - 1);
+ clip->stream_idx = stream_idx;
+
+ last_mousewheel_camera_row = row;
+ leftover_angle_degrees = angle_degrees % camera_pts_per_pixel;
+
+ // Don't update the live view, that's rarely what the operator wants.
+ }
+ }
+ currently_deferring_model_changes = false;
+}
+
void MainWindow::defer_timer_expired()
{
state_changed(deferred_state);
ui->preview_display->setMinimumWidth(ui->preview_display->height() * 16 / 9);
}
-void set_pts_in(int64_t pts, int64_t current_pts, ClipProxy &clip)
-{
- pts = std::max<int64_t>(pts, 0);
- if (clip->pts_out == -1) {
- pts = std::min(pts, current_pts);
- } else {
- pts = std::min(pts, clip->pts_out);
- }
- clip->pts_in = pts;
-}
-
bool MainWindow::eventFilter(QObject *watched, QEvent *event)
{
constexpr int dead_zone_pixels = 3; // To avoid that simple clicks get misinterpreted.
- constexpr int camera_degrees_per_pixel = 15; // One click of most mice.
int scrub_sensitivity = 100; // pts units per pixel.
int wheel_sensitivity = 100; // pts units per degree.
if (event->type() == QEvent::FocusIn || event->type() == QEvent::FocusOut) {
enable_or_disable_preview_button();
+ hidden_jog_column = -1;
}
unsigned stream_idx = ui->preview_display->get_stream_idx();
}
QTableView *destination;
- int in_column, out_column, camera_column;
+ JogDestination jog_destination;
if (watched == ui->clip_list->viewport()) {
destination = ui->clip_list;
- in_column = int(ClipList::Column::IN);
- out_column = int(ClipList::Column::OUT);
- camera_column = -1;
+ jog_destination = JOG_CLIP_LIST;
last_mousewheel_camera_row = -1;
} else if (watched == ui->playlist->viewport()) {
destination = ui->playlist;
- in_column = int(PlayList::Column::IN);
- out_column = int(PlayList::Column::OUT);
- camera_column = int(PlayList::Column::CAMERA);
+ jog_destination = JOG_PLAYLIST;
+ if (destination->columnAt(wheel->x()) != int(PlayList::Column::CAMERA)) {
+ last_mousewheel_camera_row = -1;
+ }
} else {
last_mousewheel_camera_row = -1;
return false;
}
+
int column = destination->columnAt(wheel->x());
int row = destination->rowAt(wheel->y());
if (column == -1 || row == -1)
return false;
}
- currently_deferring_model_changes = true;
- {
- current_change_id = (watched == ui->clip_list->viewport()) ? "cliplist:" : "playlist:";
- ClipProxy clip = (watched == ui->clip_list->viewport()) ? cliplist_clips->mutable_clip(row) : playlist_clips->mutable_clip(row);
- if (watched == ui->playlist->viewport()) {
- stream_idx = clip->stream_idx;
- }
-
- if (column != camera_column) {
- last_mousewheel_camera_row = -1;
- }
- if (column == in_column) {
- current_change_id += "in:" + to_string(row);
- int64_t pts = clip->pts_in + angle_delta * wheel_sensitivity;
- set_pts_in(pts, current_pts, clip);
- preview_single_frame(pts, stream_idx, FIRST_AT_OR_AFTER);
- } else if (column == out_column) {
- current_change_id += "out:" + to_string(row);
- int64_t pts = clip->pts_out + angle_delta * wheel_sensitivity;
- pts = std::max(pts, clip->pts_in);
- pts = std::min(pts, current_pts);
- clip->pts_out = pts;
- preview_single_frame(pts, stream_idx, LAST_BEFORE);
- } else if (column == camera_column) {
- current_change_id += "camera:" + to_string(row);
- int angle_degrees = angle_delta;
- if (last_mousewheel_camera_row == row) {
- angle_degrees += leftover_angle_degrees;
- }
-
- int stream_idx = clip->stream_idx + angle_degrees / camera_degrees_per_pixel;
- stream_idx = std::max(stream_idx, 0);
- stream_idx = std::min<int>(stream_idx, num_cameras - 1);
- clip->stream_idx = stream_idx;
-
- last_mousewheel_camera_row = row;
- leftover_angle_degrees = angle_degrees % camera_degrees_per_pixel;
-
- // Don't update the live view, that's rarely what the operator wants.
- }
- }
- currently_deferring_model_changes = false;
+ jog_internal(jog_destination, row, column, stream_idx, angle_delta * wheel_sensitivity);
return true; // Don't scroll.
} else if (event->type() == QEvent::MouseButtonRelease) {
scrubbing = false;
any_selected && selected->selectedRows().front().row() > 0);
ui->playlist_move_down_btn->setEnabled(
any_selected && selected->selectedRows().back().row() < int(playlist_clips->size()) - 1);
+
ui->play_btn->setEnabled(!playlist_clips->empty());
+ midi_mapper.set_play_enabled(!playlist_clips->empty());
if (!any_selected) {
set_output_status("paused");
}
}
-void MainWindow::clip_list_selection_changed(const QModelIndex ¤t, const QModelIndex &)
+void MainWindow::clip_list_selection_changed(const QModelIndex ¤t, const QModelIndex &previous)
{
int camera_selected = -1;
if (cliplist_clips->is_camera_column(current.column())) {
camera_selected = current.column() - int(ClipList::Column::CAMERA_1);
+
+ // See the comment on hidden_jog_column.
+ if (current.row() != previous.row()) {
+ hidden_jog_column = -1;
+ } else if (hidden_jog_column == -1) {
+ hidden_jog_column = previous.column();
+ }
+ } else {
+ hidden_jog_column = -1;
}
highlight_camera_input(camera_selected);
enable_or_disable_queue_button();
displays[i].frame->setStyleSheet("");
}
}
+ midi_mapper.highlight_camera_input(stream_idx);
}
void MainWindow::enable_or_disable_preview_button()
QItemSelectionModel *selected = ui->playlist->selectionModel();
if (selected->hasSelection()) {
ui->preview_btn->setEnabled(true);
+ midi_mapper.set_preview_enabled(true);
return;
}
}
// TODO: Perhaps only enable this if something is actually selected.
ui->preview_btn->setEnabled(!cliplist_clips->empty());
+ midi_mapper.set_preview_enabled(!cliplist_clips->empty());
}
void MainWindow::enable_or_disable_queue_button()
}
ui->queue_btn->setEnabled(enabled);
+ midi_mapper.set_queue_enabled(enabled);
}
void MainWindow::set_output_status(const string &status)
displays[stream_idx].display->setFrame(stream_idx, frame);
}
+void MainWindow::preview()
+{
+ post_to_main_thread([this] {
+ preview_clicked();
+ });
+}
+
+void MainWindow::queue()
+{
+ post_to_main_thread([this] {
+ queue_clicked();
+ });
+}
+
+void MainWindow::play()
+{
+ post_to_main_thread([this] {
+ play_clicked();
+ });
+}
+
+void MainWindow::jog(int delta)
+{
+ post_to_main_thread([this, delta] {
+ int64_t pts_delta = delta * (TIMEBASE / 60); // One click = frame at 60 fps.
+ if (ui->playlist->hasFocus()) {
+ QModelIndex selected = ui->playlist->selectionModel()->currentIndex();
+ if (selected.column() != -1 && selected.row() != -1) {
+ jog_internal(JOG_PLAYLIST, selected.row(), selected.column(), /*stream_idx=*/-1, pts_delta);
+ }
+ } else if (ui->clip_list->hasFocus()) {
+ QModelIndex selected = ui->clip_list->selectionModel()->currentIndex();
+ if (cliplist_clips->is_camera_column(selected.column()) &&
+ hidden_jog_column != -1) {
+ // See the definition on hidden_jog_column.
+ selected = selected.sibling(selected.row(), hidden_jog_column);
+ ui->clip_list->selectionModel()->setCurrentIndex(selected, QItemSelectionModel::ClearAndSelect);
+ hidden_jog_column = -1;
+ }
+ if (selected.column() != -1 && selected.row() != -1) {
+ jog_internal(JOG_CLIP_LIST, selected.row(), selected.column(), ui->preview_display->get_stream_idx(), pts_delta);
+ }
+ }
+ });
+}
+
+void MainWindow::switch_camera(unsigned camera_idx)
+{
+ post_to_main_thread([this, camera_idx] {
+ if (camera_idx < num_cameras) { // TODO: Also make this change a highlighted clip?
+ preview_angle_clicked(camera_idx);
+ }
+ });
+}
+
+void MainWindow::cue_in()
+{
+ post_to_main_thread([this] { cue_in_clicked(); });
+}
+
+void MainWindow::cue_out()
+{
+ post_to_main_thread([this] { cue_out_clicked(); });
+}
+
template<class Model>
void MainWindow::replace_model(QTableView *view, Model **model, Model *new_model)
{
#include "clip_list.h"
#include "db.h"
+#include "midi_mapper.h"
#include "state.pb.h"
#include <QLabel>
class QPushButton;
class QTableView;
-class MainWindow : public QMainWindow {
+class MainWindow : public QMainWindow, public ControllerReceiver {
Q_OBJECT
public:
void display_frame(unsigned stream_idx, const FrameOnDisk &frame);
+ // ControllerReceiver interface.
+ void preview() override;
+ void queue() override;
+ void play() override;
+ void jog(int delta) override;
+ void switch_camera(unsigned camera_idx) override;
+ void cue_in() override;
+ void cue_out() override;
+
+ // Raw receivers are not used.
+ void controller_changed(unsigned controller) override {}
+ void note_on(unsigned note) override {}
+
private:
Ui::MainWindow *ui;
int last_mousewheel_camera_row = -1;
int leftover_angle_degrees = 0;
+ // Normally, jog is only allowed if in the focus (well, selection) is
+ // on the in or out pts columns. However, changing camera (even when
+ // using a MIDI button) on the clip list changes the highlight,
+ // and we'd like to keep on jogging. Thus, as a special case, if you
+ // change to a camera column on the clip list (and don't change which
+ // clip you're looking at), the last column you were at will be stored here.
+ // If you then try to jog, we'll fetch the value from here and highlight it.
+ // Doing pretty much anything else is going to reset it back to -1, though.
+ int hidden_jog_column = -1;
+
// Some operations, notably scrubbing and scrolling, happen in so large increments
// that we want to group them instead of saving to disk every single time.
// If they happen (ie., we get a callback from the model that it's changed) while
QNetworkAccessManager http;
QNetworkReply *http_reply = nullptr;
+ MIDIMapper midi_mapper;
+
void change_num_cameras();
void cue_in_clicked();
void cue_out_clicked();
void playlist_remove();
void playlist_move(int delta);
+ enum JogDestination { JOG_CLIP_LIST, JOG_PLAYLIST };
+ void jog_internal(JogDestination jog_destination, int column, int row, int stream_idx, int pts_delta);
+
void defer_timer_expired();
void content_changed(); // In clip_list or play_list.
void state_changed(const StateProto &state); // Called post-filtering.
--- /dev/null
+#include "midi_mapper.h"
+
+#include <alsa/asoundlib.h>
+#include <assert.h>
+#include <errno.h>
+#include <fcntl.h>
+#include <google/protobuf/descriptor.h>
+#include <google/protobuf/io/zero_copy_stream_impl.h>
+#include <google/protobuf/message.h>
+#include <google/protobuf/text_format.h>
+#include <pthread.h>
+#include <poll.h>
+#include <stdint.h>
+#include <stdio.h>
+#include <sys/eventfd.h>
+#include <unistd.h>
+#include <algorithm>
+#include <functional>
+#include <thread>
+
+#include "defs.h"
+#include "futatabi_midi_mapping.pb.h"
+#include "shared/midi_mapper_util.h"
+#include "shared/text_proto.h"
+
+using namespace google::protobuf;
+using namespace std;
+using namespace std::placeholders;
+
+MIDIMapper::MIDIMapper(ControllerReceiver *receiver)
+ : receiver(receiver), mapping_proto(new MIDIMappingProto), midi_device(this)
+{
+}
+
+MIDIMapper::~MIDIMapper() {}
+
+bool load_midi_mapping_from_file(const string &filename, MIDIMappingProto *new_mapping)
+{
+ return load_proto_from_file(filename, new_mapping);
+}
+
+bool save_midi_mapping_to_file(const MIDIMappingProto &mapping_proto, const string &filename)
+{
+ return save_proto_to_file(mapping_proto, filename);
+}
+
+void MIDIMapper::set_midi_mapping(const MIDIMappingProto &new_mapping)
+{
+ lock_guard<mutex> lock(mu);
+ if (mapping_proto) {
+ mapping_proto->CopyFrom(new_mapping);
+ } else {
+ mapping_proto.reset(new MIDIMappingProto(new_mapping));
+ }
+
+ num_controller_banks = min(max(mapping_proto->num_controller_banks(), 1), 5);
+ current_controller_bank = 0;
+}
+
+void MIDIMapper::start_thread()
+{
+ midi_device.start_thread();
+}
+
+const MIDIMappingProto &MIDIMapper::get_current_mapping() const
+{
+ lock_guard<mutex> lock(mu);
+ return *mapping_proto;
+}
+
+ControllerReceiver *MIDIMapper::set_receiver(ControllerReceiver *new_receiver)
+{
+ lock_guard<mutex> lock(mu);
+ swap(receiver, new_receiver);
+ return new_receiver; // Now old receiver.
+}
+
+void MIDIMapper::controller_received(int controller, int value_int)
+{
+ int delta_value = value_int - 64; // For infinite controllers such as jog.
+
+ receiver->controller_changed(controller);
+
+ match_controller(controller, MIDIMappingProto::kJogFieldNumber, MIDIMappingProto::kJogBankFieldNumber,
+ delta_value, bind(&ControllerReceiver::jog, receiver, _1));
+}
+
+void MIDIMapper::note_on_received(int note)
+{
+ lock_guard<mutex> lock(mu);
+ receiver->note_on(note);
+
+ if (mapping_proto->has_prev_bank() &&
+ mapping_proto->prev_bank().note_number() == note) {
+ current_controller_bank = (current_controller_bank + num_controller_banks - 1) % num_controller_banks;
+ update_lights_lock_held();
+ }
+ if (mapping_proto->has_next_bank() &&
+ mapping_proto->next_bank().note_number() == note) {
+ current_controller_bank = (current_controller_bank + 1) % num_controller_banks;
+ update_lights_lock_held();
+ }
+ if (mapping_proto->has_select_bank_1() &&
+ mapping_proto->select_bank_1().note_number() == note) {
+ current_controller_bank = 0;
+ update_lights_lock_held();
+ }
+ if (mapping_proto->has_select_bank_2() &&
+ mapping_proto->select_bank_2().note_number() == note &&
+ num_controller_banks >= 2) {
+ current_controller_bank = 1;
+ update_lights_lock_held();
+ }
+ if (mapping_proto->has_select_bank_3() &&
+ mapping_proto->select_bank_3().note_number() == note &&
+ num_controller_banks >= 3) {
+ current_controller_bank = 2;
+ update_lights_lock_held();
+ }
+ if (mapping_proto->has_select_bank_4() &&
+ mapping_proto->select_bank_4().note_number() == note &&
+ num_controller_banks >= 4) {
+ current_controller_bank = 3;
+ update_lights_lock_held();
+ }
+ if (mapping_proto->has_select_bank_5() &&
+ mapping_proto->select_bank_5().note_number() == note &&
+ num_controller_banks >= 5) {
+ current_controller_bank = 4;
+ update_lights_lock_held();
+ }
+
+ match_button(note, MIDIMappingProto::kPreviewFieldNumber, MIDIMappingProto::kPreviewBankFieldNumber,
+ bind(&ControllerReceiver::preview, receiver));
+ match_button(note, MIDIMappingProto::kQueueFieldNumber, MIDIMappingProto::kQueueBankFieldNumber,
+ bind(&ControllerReceiver::queue, receiver));
+ match_button(note, MIDIMappingProto::kPlayFieldNumber, MIDIMappingProto::kPlayBankFieldNumber,
+ bind(&ControllerReceiver::play, receiver));
+
+ unsigned num_cameras = std::min(MAX_STREAMS, mapping_proto->camera_size());
+ for (unsigned camera_idx = 0; camera_idx < num_cameras; ++camera_idx) {
+ const CameraMIDIMappingProto &camera = mapping_proto->camera(camera_idx);
+ if (match_bank_helper(camera, CameraMIDIMappingProto::kBankFieldNumber, current_controller_bank) &&
+ match_button_helper(camera, CameraMIDIMappingProto::kButtonFieldNumber, note)) {
+ receiver->switch_camera(camera_idx);
+ }
+ }
+
+ match_button(note, MIDIMappingProto::kCueInFieldNumber, MIDIMappingProto::kCueInBankFieldNumber,
+ bind(&ControllerReceiver::cue_in, receiver));
+ match_button(note, MIDIMappingProto::kCueOutFieldNumber, MIDIMappingProto::kCueOutBankFieldNumber,
+ bind(&ControllerReceiver::cue_out, receiver));
+}
+
+void MIDIMapper::match_controller(int controller, int field_number, int bank_field_number, float value, function<void(float)> func)
+{
+ if (bank_mismatch(bank_field_number)) {
+ return;
+ }
+
+ if (match_controller_helper(*mapping_proto, field_number, controller)) {
+ func(value);
+ }
+}
+
+void MIDIMapper::match_button(int note, int field_number, int bank_field_number, function<void()> func)
+{
+ if (bank_mismatch(bank_field_number)) {
+ return;
+ }
+
+ if (match_button_helper(*mapping_proto, field_number, note)) {
+ func();
+ }
+}
+
+bool MIDIMapper::has_active_controller(int field_number, int bank_field_number)
+{
+ if (bank_mismatch(bank_field_number)) {
+ return false;
+ }
+
+ const FieldDescriptor *descriptor = mapping_proto->GetDescriptor()->FindFieldByNumber(field_number);
+ const Reflection *reflection = mapping_proto->GetReflection();
+ return reflection->HasField(*mapping_proto, descriptor);
+}
+
+bool MIDIMapper::bank_mismatch(int bank_field_number)
+{
+ return !match_bank_helper(*mapping_proto, bank_field_number, current_controller_bank);
+}
+
+void MIDIMapper::refresh_lights()
+{
+ lock_guard<mutex> lock(mu);
+ update_lights_lock_held();
+}
+
+void MIDIMapper::update_lights_lock_held()
+{
+ set<unsigned> active_lights; // Desired state.
+ if (current_controller_bank == 0) {
+ activate_mapped_light(*mapping_proto, MIDIMappingProto::kBank1IsSelectedFieldNumber, &active_lights);
+ }
+ if (current_controller_bank == 1) {
+ activate_mapped_light(*mapping_proto, MIDIMappingProto::kBank2IsSelectedFieldNumber, &active_lights);
+ }
+ if (current_controller_bank == 2) {
+ activate_mapped_light(*mapping_proto, MIDIMappingProto::kBank3IsSelectedFieldNumber, &active_lights);
+ }
+ if (current_controller_bank == 3) {
+ activate_mapped_light(*mapping_proto, MIDIMappingProto::kBank4IsSelectedFieldNumber, &active_lights);
+ }
+ if (current_controller_bank == 4) {
+ activate_mapped_light(*mapping_proto, MIDIMappingProto::kBank5IsSelectedFieldNumber, &active_lights);
+ }
+ if (preview_enabled_light) {
+ activate_mapped_light(*mapping_proto, MIDIMappingProto::kPreviewEnabledFieldNumber, &active_lights);
+ }
+ if (queue_enabled_light) {
+ activate_mapped_light(*mapping_proto, MIDIMappingProto::kQueueEnabledFieldNumber, &active_lights);
+ }
+ if (play_enabled_light) {
+ activate_mapped_light(*mapping_proto, MIDIMappingProto::kPlayEnabledFieldNumber, &active_lights);
+ }
+ if (current_highlighted_camera >= 0 && current_highlighted_camera < mapping_proto->camera_size()) {
+ const CameraMIDIMappingProto &camera = mapping_proto->camera(current_highlighted_camera);
+ activate_mapped_light(camera, CameraMIDIMappingProto::kIsCurrentFieldNumber, &active_lights);
+ }
+
+ // These are always enabled right now.
+ activate_mapped_light(*mapping_proto, MIDIMappingProto::kCueInFieldNumber, &active_lights);
+ activate_mapped_light(*mapping_proto, MIDIMappingProto::kCueOutFieldNumber, &active_lights);
+
+ midi_device.update_lights(active_lights);
+}
--- /dev/null
+#ifndef _MIDI_MAPPER_H
+#define _MIDI_MAPPER_H 1
+
+// MIDIMapper in Futatabi is much the same as MIDIMapper in Nageru
+// (it incoming MIDI messages from mixer controllers interprets them
+// according to a user-defined mapping, and calls back into a receiver),
+// and shares a fair amount of support code with it. However, it is
+// also somewhat different; there are no audio buses, in particular.
+// Also, DJ controllers typically have more buttons than audio controllers
+// since there's only one (or maybe two) channels, so banks are less
+// important, and thus, there's no highlighting. Also, the controllers
+// are somewhat different, e.g., you have jog to deal with.
+
+#include <atomic>
+#include <functional>
+#include <memory>
+#include <mutex>
+#include <set>
+#include <string>
+#include <thread>
+
+#include "defs.h"
+#include "shared/midi_device.h"
+
+class MIDIMappingProto;
+
+// Interface for receiving interpreted controller messages.
+class ControllerReceiver {
+public:
+ virtual ~ControllerReceiver() {}
+
+ virtual void preview() = 0;
+ virtual void queue() = 0;
+ virtual void play() = 0;
+ virtual void jog(int delta) = 0;
+ virtual void switch_camera(unsigned camera_idx) = 0;
+ virtual void cue_in() = 0;
+ virtual void cue_out() = 0;
+
+ // Raw events; used for the editor dialog only.
+ virtual void controller_changed(unsigned controller) = 0;
+ virtual void note_on(unsigned note) = 0;
+};
+
+class MIDIMapper : public MIDIReceiver {
+public:
+ MIDIMapper(ControllerReceiver *receiver);
+ virtual ~MIDIMapper();
+ void set_midi_mapping(const MIDIMappingProto &new_mapping);
+ void start_thread();
+ const MIDIMappingProto &get_current_mapping() const;
+
+ // Overwrites and returns the previous value.
+ ControllerReceiver *set_receiver(ControllerReceiver *new_receiver);
+
+ void refresh_lights();
+
+ void set_preview_enabled(bool enabled) {
+ preview_enabled_light = enabled;
+ refresh_lights();
+ }
+ void set_queue_enabled(bool enabled) {
+ queue_enabled_light = enabled;
+ refresh_lights();
+ }
+ void set_play_enabled(bool enabled) {
+ play_enabled_light = enabled;
+ refresh_lights();
+ }
+ void highlight_camera_input(int stream_idx) { // -1 for none.
+ current_highlighted_camera = stream_idx;
+ refresh_lights();
+ }
+
+ // MIDIReceiver.
+ void controller_received(int controller, int value) override;
+ void note_on_received(int note) override;
+ void update_num_subscribers(unsigned num_subscribers) override {}
+
+private:
+ void match_controller(int controller, int field_number, int bank_field_number, float value, std::function<void(float)> func);
+ void match_button(int note, int field_number, int bank_field_number, std::function<void()> func);
+ bool has_active_controller(int field_number, int bank_field_number); // Also works for buttons.
+ bool bank_mismatch(int bank_field_number);
+
+ void update_lights_lock_held();
+ void activate_lights_all_buses(int field_number, std::set<unsigned> *active_lights);
+
+ std::atomic<bool> should_quit{false};
+ int should_quit_fd;
+
+ mutable std::mutex mu;
+ ControllerReceiver *receiver; // Under <mu>.
+ std::unique_ptr<MIDIMappingProto> mapping_proto; // Under <mu>.
+ int num_controller_banks; // Under <mu>.
+ std::atomic<int> current_controller_bank{0};
+
+ std::atomic<bool> preview_enabled_light{false};
+ std::atomic<bool> queue_enabled_light{false};
+ std::atomic<bool> play_enabled_light{false};
+ std::atomic<int> current_highlighted_camera{-1};
+
+ MIDIDevice midi_device;
+};
+
+bool load_midi_mapping_from_file(const std::string &filename, MIDIMappingProto *new_mapping);
+bool save_midi_mapping_to_file(const MIDIMappingProto &mapping_proto, const std::string &filename);
+
+#endif // !defined(_MIDI_MAPPER_H)
# Protobuf compilation.
gen = generator(protoc, \
output : ['@BASENAME@.pb.cc', '@BASENAME@.pb.h'],
- arguments : ['--proto_path=@CURRENT_SOURCE_DIR@/futatabi', '--cpp_out=@BUILD_DIR@', '@INPUT@'])
-proto_generated = gen.process('futatabi/state.proto', 'futatabi/frame.proto')
+ arguments : ['--proto_path=@CURRENT_SOURCE_DIR@/futatabi', '--cpp_out=@BUILD_DIR@', '-I@CURRENT_SOURCE_DIR@/shared', '@INPUT@'])
+proto_generated = gen.process('futatabi/state.proto', 'futatabi/frame.proto', 'futatabi/futatabi_midi_mapping.proto')
# Preprocess Qt as needed.
moc_files = qt5.preprocess(
futatabi_srcs += ['futatabi/main.cpp', 'futatabi/player.cpp', 'futatabi/video_stream.cpp', 'futatabi/chroma_subsampler.cpp']
futatabi_srcs += ['futatabi/vaapi_jpeg_decoder.cpp', 'futatabi/db.cpp', 'futatabi/ycbcr_converter.cpp', 'futatabi/flags.cpp']
futatabi_srcs += ['futatabi/mainwindow.cpp', 'futatabi/jpeg_frame_view.cpp', 'futatabi/clip_list.cpp', 'futatabi/frame_on_disk.cpp']
-futatabi_srcs += ['futatabi/export.cpp']
+futatabi_srcs += ['futatabi/export.cpp', 'futatabi/midi_mapper.cpp']
futatabi_srcs += moc_files
futatabi_srcs += proto_generated