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#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <ctype.h>
#include "main.h"
#include "config.h"
int g_midi_main_control = -1;
int g_midi_main_channel = 0;
int g_midi_two_octave_split = 50;
int g_midi_three_octave_split_1 = 33;
int g_midi_three_octave_split_2 = 66;
int g_midi_three_octave_split_inverse = 0;
int g_settled_timedelta = 10;
int g_settled_dist = 5;
int g_timetosilence = 30;
int g_pitch_factor = 256*128;
int g_pitchbend_delay = 500;
int g_min_y = 0, g_max_y;
int g_normalize_factor = 0;
static int g_current_string;
StringConfig
g_string_conf[MAX_LINECOUNT];
int g_string_count;
ConfigSource g_config_source = source_none;
int g_importing_config;
int g_calibration_running = 0;
void
config_reset()
{
//Reinitialise string config array
memset(g_string_conf, 0, sizeof(g_string_conf));
g_min_y = 0;
g_max_y = 1024;
g_current_string = 0;
g_midi_main_control = -1;
g_midi_main_channel = 0;
g_midi_two_octave_split = 50;
g_midi_three_octave_split_1 = 33;
g_midi_three_octave_split_2 = 66;
g_midi_three_octave_split_inverse = 0;
g_settled_dist = 5;
g_timetosilence = 30;
g_pitch_factor = 256*128;
g_pitchbend_delay = 500;
g_config_source = source_none;
}
static char *midi_note[] = {
"C-1", "C#-1", "D-1", "D#-1", "E-1", "F-1", "F#-1", "G-1", "G#-1", "A-1", "A#-1", "B-1",
"C0", "C#0", "D0", "D#0", "E0", "F0", "F#0", "G0", "G#0", "A0", "A#0", "B0",
"C1", "C#1", "D1", "D#1", "E1", "F1", "F#1", "G1", "G#1", "A1", "A#1", "B1",
"C2", "C#2", "D2", "D#2", "E2", "F2", "F#2", "G2", "G#2", "A2", "A#2", "B2",
"C3", "C#3", "D3", "D#3", "E3", "F3", "F#3", "G3", "G#3", "A3", "A#3", "B3",
"C4", "C#4", "D4", "D#4", "E4", "F4", "F#4", "G4", "G#4", "A4", "A#4", "B4",
"C5", "C#5", "D5", "D#5", "E5", "F5", "F#5", "G5", "G#5", "A5", "A#5", "B5",
"C6", "C#6", "D6", "D#6", "E6", "F6", "F#6", "G6", "G#6", "A6", "A#6", "B6",
"C7", "C#7", "D7", "D#7", "E7", "F7", "F#7", "G7", "G#7", "A7", "A#7", "B7",
"C8", "C#8", "D8", "D#8", "E8", "F8", "F#8", "G8", "G#8", "A8", "A#8", "B8",
"C9", "C#9", "D9", "D#9", "E9", "F9", "F#9", "G9", "G#9", "A9", "A#9", "B9"
};
static char *modifier_names[] = {
"none", "pitch_bend_up", "pitch_bend_down", "midi_control", "midi_control_inverse"
};
static char *mode_names[] = {
"midi_one_octave", "midi_two_octaves", "midi_three_octaves", "midi_control", "midi_control_inverse"
};
enum {
KEYWORD_STRINGS,
KEYWORD_STRING,
KEYWORD_LINE,
KEYWORD_LINEARIZE,
KEYWORD_PITCHBEND_DELAY,
KEYWORD_MODE,
KEYWORD_MODE_ONE_OCTAVE,
KEYWORD_MODE_TWO_OCTAVES,
KEYWORD_MODE_THREE_OCTAVES,
KEYWORD_MODE_CONTROL,
KEYWORD_MODE_CONTROL_INVERSE,
KEYWORD_CHANNEL,
KEYWORD_NOTE,
KEYWORD_AFTERTOUCH,
KEYWORD_NONE,
KEYWORD_PITCH_BEND_UP,
KEYWORD_PITCH_BEND_DOWN,
KEYWORD_MIDI_CONTROL,
KEYWORD_MIDI_CONTROL_INVERSE,
KEYWORD_CONTROLLER,
KEYWORD_TIMETOSILENCE,
KEYWORD_PITCHFACTOR,
KEYWORD_TWOOCTAVESPLIT,
KEYWORD_THREEOCTAVESPLIT_1,
KEYWORD_THREEOCTAVESPLIT_2,
KEYWORD_MIDI_MAIN_CONTROL,
KEYWORD_MIDI_MAIN_CHANNEL,
KEYWORD_SETTLED_DIST
};
typedef struct {
int id;
char *name;
} keyword;
static keyword keywords[] = {
{KEYWORD_STRINGS, "Strings"},
{KEYWORD_STRING, "String"},
{KEYWORD_LINE, "Line"},
{KEYWORD_LINEARIZE, "LineSquareFactor"},
{KEYWORD_PITCHBEND_DELAY, "PitchBendDelay"},
{KEYWORD_MODE, "Mode"},
{KEYWORD_MODE_ONE_OCTAVE, "midi_one_octave"},
{KEYWORD_MODE_TWO_OCTAVES, "midi_two_octaves"},
{KEYWORD_MODE_THREE_OCTAVES, "midi_three_octaves"},
{KEYWORD_MODE_CONTROL, "midi_control"},
{KEYWORD_MODE_CONTROL_INVERSE, "midi_control_inverse"},
{KEYWORD_CHANNEL, "Channel"},
{KEYWORD_NOTE, "Note"},
{KEYWORD_AFTERTOUCH, "AfterTouch"},
{KEYWORD_NONE, "none"},
{KEYWORD_PITCH_BEND_UP, "pitch_bend_up"},
{KEYWORD_PITCH_BEND_DOWN, "pitch_bend_down"},
{KEYWORD_MIDI_CONTROL, "midi_control"},
{KEYWORD_MIDI_CONTROL_INVERSE, "midi_control_inverse"},
{KEYWORD_CONTROLLER, "Controller"},
{KEYWORD_TIMETOSILENCE, "TimeToSilence"},
{KEYWORD_PITCHFACTOR, "PitchFactor"},
{KEYWORD_TWOOCTAVESPLIT, "midi_two_octave_split"},
{KEYWORD_THREEOCTAVESPLIT_1, "midi_three_octave_split_1"},
{KEYWORD_THREEOCTAVESPLIT_2, "midi_three_octave_split_2"},
{KEYWORD_MIDI_MAIN_CONTROL, "midi_main_control"},
{KEYWORD_MIDI_MAIN_CHANNEL, "midi_main_channel"},
{-1, 0}
};
static int
config_findkeyword(char **line)
{
char *_l = *line;
int i;
while (isspace(*_l))
++_l;
for (i = 0; keywords[i].name; ++i) {
size_t kl = strlen(keywords[i].name);
if (!strncasecmp(_l, keywords[i].name, kl)) {
if (!isspace(_l[kl]) && _l[kl])
continue;
_l += strlen(keywords[i].name);
/* Skip rest of white spaces */
while (isspace(*_l))
++_l;
*line = _l;
return keywords[i].id;
}
}
return -1;
}
static uint8_t
config_midi_note_from_string(char *string)
{
int i;
for (i = 0; i < sizeof(midi_note) / sizeof(*midi_note); ++i)
if (!strncasecmp(string, midi_note[i], strlen(midi_note[i])))
return i;
return 0xff;
}
char *
config_midi_note_to_string(int string)
{
return midi_note[string];
}
int
config_handle_line(char *line)
{
StringConfig *sc = g_string_conf + g_current_string;
int split_done = 0;
char *_line = line;
/* Skip leading spaces */
while (isspace(*line))
++line;
if (*line == 0 || *line == '#' || *line == '\n')
return 0;
switch (config_findkeyword(&line)) {
case KEYWORD_STRINGS:
g_string_count = atol(line);
if (!g_string_count || g_string_count > MAX_LINECOUNT) {
harfe_error(stderr, "Incorrect number of strings: %s\n", _line);
return -1;
}
harfe_debug("GLOBAL: Configuring expected lines %d\n", g_string_count);
break;
case KEYWORD_STRING:
g_current_string = atol(line) - 1;
harfe_debug("Switching to string: %d\n", g_current_string + 1);
if (g_current_string < 0 || g_current_string > g_string_count) {
harfe_error(stderr, "Incorrect string selected: %s\n", _line);
return -1;
}
break;
case KEYWORD_LINEARIZE:
g_normalize_factor = atol(line);
break;
case KEYWORD_PITCHBEND_DELAY:
g_pitchbend_delay = atol(line);
break;
case KEYWORD_LINE:
{
LLine *l = &sc->line;
if (sscanf(line, "%d %d %d %d", &l->p0.x, &l->p0.y, &l->p1.x, &l->p1.y) != 4) {
harfe_error(stderr, "Incorrect Line statement for string\n");
return -1;
}
if (l->p0.y > l->p1.y) {
LPoint tmp = l->p0;
l->p0 = l->p1;
l->p1 = tmp;
}
if (l->p0.y > g_min_y)
g_min_y = l->p0.y;
if (l->p0.y < g_max_y)
g_max_y = l->p1.y;
break;
}
case KEYWORD_MODE:
switch (config_findkeyword(&line)) {
case KEYWORD_MODE_ONE_OCTAVE:
sc->mode = midi_one_octave;
harfe_debug("String %d is midi_one_octave\n", 1 + g_current_string);
break;
case KEYWORD_MODE_TWO_OCTAVES:
sc->mode = midi_two_octaves;
harfe_debug("String %d is midi_two_octaves\n", 1 + g_current_string);
break;
case KEYWORD_MODE_THREE_OCTAVES:
sc->mode = midi_three_octaves;
harfe_debug("String %d is midi_three_octaves\n", 1 + g_current_string);
break;
case KEYWORD_MODE_CONTROL:
sc->mode = midi_control;
harfe_debug("String %d is midi_control\n", 1 + g_current_string);
break;
case KEYWORD_MODE_CONTROL_INVERSE:
sc->mode = midi_control_inv;
harfe_debug("String %d is midi_control_inverse\n", 1 + g_current_string);
break;
default:
harfe_error(stderr, "Illegal Mode for string: %s\n", _line);
return -1;
}
break;
case KEYWORD_CHANNEL:
sc->channel = atol(line);
if (sc->channel > 16) {
harfe_error(stderr, "Incorrect channel specified: %s.\n", _line);
return -1;
}
harfe_debug("String %d is on channel %d\n", 1 + g_current_string, sc->channel);
break;
case KEYWORD_NOTE:
sc->note = config_midi_note_from_string(line);
if (sc->note == 0xff) {
harfe_error(stderr, "Unknown midi note specified: %s.\n", _line);
return -1;
}
harfe_debug("String %d is midi note %d\n", 1 + g_current_string, sc->note);
break;
case KEYWORD_AFTERTOUCH:
switch (config_findkeyword(&line)) {
case KEYWORD_NONE:
sc->modifier = none;
harfe_debug("String %d does not act aftertouch\n", 1 + g_current_string);
break;
case KEYWORD_PITCH_BEND_UP:
sc->modifier = pitch_bend_up;
harfe_debug("String %d acts aftertouch as pitch_bend_up\n", 1 + g_current_string);
break;
case KEYWORD_PITCH_BEND_DOWN:
sc->modifier = pitch_bend_down;
harfe_debug("String %d acts aftertouch as pitch_bend_down\n", 1 + g_current_string);
break;
case KEYWORD_MIDI_CONTROL:
sc->modifier = midi_controller;
harfe_debug("String %d acts aftertouch as midi_controller\n", 1 + g_current_string);
break;
case KEYWORD_MIDI_CONTROL_INVERSE:
sc->modifier = midi_controller_inv;
harfe_debug("String %d acts aftertouch as midi_controller_inverse\n", 1 + g_current_string);
break;
default:
harfe_error(stderr, "Illegal Modifier for string: %s\n", _line);
return -1;
}
break;
case KEYWORD_PITCHFACTOR:
sc->pitch_factor = atol(line);
harfe_debug("String %d is given a custom pitch factor of %d\n", 1 + g_current_string, sc->pitch_factor);
break;
case KEYWORD_CONTROLLER:
sc->controller = atol(line);
harfe_debug("String %d is on midi_controller line %d\n", 1 + g_current_string, sc->controller);
break;
case KEYWORD_TIMETOSILENCE:
sc->timetosilence = atol(line);
harfe_debug("String %d has a timetosilence of %d\n", 1 + g_current_string, sc->timetosilence);
break;
case KEYWORD_TWOOCTAVESPLIT:
g_midi_two_octave_split = atol(line);
harfe_debug("Splitting TWO octaves at %d%%\n", g_midi_two_octave_split);
if (g_midi_two_octave_split < 0 || g_midi_two_octave_split > 100) {
harfe_error(stderr, "Invalid percentage in line: %s\n", _line);
exit(1);
}
break;
case KEYWORD_THREEOCTAVESPLIT_1:
g_midi_three_octave_split_1 = atol(line);
harfe_debug("Splitting THREE octaves top above %d%%\n", g_midi_three_octave_split_1);
if (g_midi_three_octave_split_1 < 0 || g_midi_three_octave_split_1 > 100) {
harfe_error(stderr, "Invalid percentage in line: %s\n", _line);
exit(1);
}
split_done = 1;
break;
case KEYWORD_THREEOCTAVESPLIT_2:
g_midi_three_octave_split_2 = atol(line);
harfe_debug("Splitting THREE octaves bottom below %d%%\n", g_midi_three_octave_split_2);
if (g_midi_three_octave_split_2 < 0 || g_midi_three_octave_split_2 > 100) {
harfe_error(stderr, "Invalid percentage in line: %s\n", _line);
return -1;
}
split_done = 1;
break;
case KEYWORD_MIDI_MAIN_CONTROL:
g_midi_main_control = atol(line);
harfe_debug("All Strings modify controller %d\n", g_midi_main_control);
if (g_midi_main_control > 127) {
harfe_error(stderr, "Invalid controller number %d in line: %s\n", g_midi_main_control, _line);
return -1;
}
break;
case KEYWORD_MIDI_MAIN_CHANNEL:
g_midi_main_channel = atol(line);
harfe_debug("All Strings modify controller %d on channel %d\n", g_midi_main_control, g_midi_main_channel);
if (g_midi_main_channel < 1 || g_midi_main_channel > 16) {
harfe_error(stderr, "Invalid channel number %d in line: %s\n", g_midi_main_channel, _line);
return -1;
}
break;
case KEYWORD_SETTLED_DIST:
g_settled_dist = atol(line);
harfe_debug("All AfterTouch events take place only after movement has slown down to %d points\n", g_settled_dist);
break;
default:
harfe_error(stderr, "Unhandled config line: %s\n", _line);
return -1;
}
if (!split_done)
return 0;
/* split also true for two octaves */
if (g_midi_three_octave_split_2 < g_midi_three_octave_split_1) {
g_midi_three_octave_split_inverse = g_midi_three_octave_split_1;
g_midi_three_octave_split_1 = g_midi_three_octave_split_2;
g_midi_three_octave_split_2 = g_midi_three_octave_split_inverse;
g_midi_three_octave_split_inverse = 1;
} else
g_midi_three_octave_split_inverse = 0;
return 0;
}
size_t
config_dumpglobals(char *out, size_t outsize)
{
int tos1 = g_midi_three_octave_split_inverse ? g_midi_three_octave_split_2 : g_midi_three_octave_split_1;
int tos2 = g_midi_three_octave_split_inverse ? g_midi_three_octave_split_1 : g_midi_three_octave_split_2;
size_t off = snprintf(out, outsize,
"Strings %d\n\nmidi_two_octave_split %d\nmidi_three_octave_split_1 %d\nmidi_three_octave_split_2 %d\n",
g_string_count, g_midi_two_octave_split, tos1, tos2 );
if (g_midi_main_control >= 0)
off += snprintf(out + off, outsize - off,
"midi_main_control %d\n\n", g_midi_main_control);
if (g_midi_main_channel > 0)
off += snprintf(out + off, outsize - off,
"midi_main_channel %d\n\n", g_midi_main_channel);
off += snprintf(out + off, outsize - off,
"LineSquareFactor %d\n\n", g_normalize_factor);
off += snprintf(out + off, outsize - off,
"PitchBendDelay %d\n\n", g_pitchbend_delay);
if (g_settled_dist != 5)
off += snprintf(out + off, outsize - off,
"SettledDist %d\n\n", g_settled_dist);
off += snprintf(out + off, outsize - off, "\n" );
return off;
}
size_t
config_dumpstring(int string, char *out, size_t outsize)
{
StringConfig *s = g_string_conf + string;
if (string < 0 || string > g_string_count || !out) {
if (out && outsize) *out = 0;
return 0;
}
size_t off = snprintf(out, outsize,
"String %d\n Line %d %d %d %d\n Mode %s\n Channel %d\n Note %s\n AfterTouch %s\n Controller %d\n",
string + 1, s->line.p0.x, s->line.p0.y, s->line.p1.x, s->line.p1.y,
mode_names[s->mode], s->channel, midi_note[s->note], modifier_names[s->modifier], s->controller );
if (s->timetosilence)
off += snprintf(out + off, outsize - off, " TimeToSilence %d\n", s->timetosilence);
if (s->pitch_factor)
off += snprintf(out + off, outsize - off, " PitchFactor %d\n", s->pitch_factor);
off += snprintf(out + off, outsize - off, "\n" );
return off;
}
void
config_reverse_strings()
{
int i;
for (i=0; i<g_string_count/2; ++i) {
LLine temp = g_string_conf[i].line;
g_string_conf[i].line = g_string_conf[g_string_count-i-1].line;
g_string_conf[g_string_count-i-1].line = temp;
}
g_config_source = source_edit;
}
void
config_flip_pitch()
{
int i;
for (i=0; i<g_string_count; ++i)
if (g_string_conf[i].modifier == pitch_bend_up)
g_string_conf[i].modifier = pitch_bend_down;
else if (g_string_conf[i].modifier == pitch_bend_down)
g_string_conf[i].modifier = pitch_bend_up;
g_config_source = source_edit;
}
void
config_flip_y()
{
g_midi_three_octave_split_inverse ^= 1;
config_flip_pitch();
}
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