// Copyright 2013 Eric Messick (FixedImagePhoto.com/Contact) // Copyright 2018 Albert Graef #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // delay in ms before processing each XTest event // CurrentTime means no delay #define DELAY CurrentTime // we define these as extra KeySyms to represent mouse events #define XK_Button_0 0x2000000 // just an offset, not a real button #define XK_Button_1 0x2000001 #define XK_Button_2 0x2000002 #define XK_Button_3 0x2000003 #define XK_Scroll_Up 0x2000004 #define XK_Scroll_Down 0x2000005 #define PRESS 1 #define RELEASE 2 #define PRESS_RELEASE 3 #define HOLD 4 typedef struct _stroke { struct _stroke *next; // nonzero keysym indicates a key event KeySym keysym; int8_t press; // zero -> release, non-zero -> press // nonzero value indicates a shift event int8_t shift; // keysym == shift == 0 => MIDI event int status, data; // status and, if applicable, first data byte int step; // step size (1, 127 or 8191 by default, depending on status) // discrete steps (for special "modulus" translations only) int n_steps, *steps; // the incremental bit indicates an incremental control change (typically // used with endless rotary encoders) to be represented as a sign bit value uint8_t incr; // the swap bit indicates that 1st and 2nd data byte are to be swapped in // mod translations uint8_t swap; // the recursive bit indicates a MIDI message which is to be translated // recursively uint8_t recursive; // the dirty bit indicates a MIDI event for which a release event still // needs to be generated in key events uint8_t dirty; } stroke; typedef struct _stroke_data { // key (MIDI channel and, for note/CC/PB, data byte) uint8_t chan, data; // stroke data, indexed by press/release or up/down index stroke *s[2]; // step size int step[2], n_steps[2], *steps[2]; // incr flag (CC only) uint8_t is_incr; // modulus uint8_t mod; } stroke_data; typedef struct _translation { struct _translation *next; char *name; int is_default; regex_t regex; uint8_t portno; // these are indexed by shift status stroke_data *note[2]; stroke_data *notes[2]; stroke_data *pc[2]; stroke_data *cc[2]; stroke_data *ccs[2]; stroke_data *pb[2]; stroke_data *pbs[2]; stroke_data *kp[2]; stroke_data *kps[2]; stroke_data *cp[2]; stroke_data *cps[2]; // actual and allocated sizes (can be at most 16*128) uint16_t n_note[2], n_notes[2], n_pc[2], n_cc[2], n_ccs[2], n_pb[2], n_pbs[2], n_kp[2], n_kps[2], n_cp[2], n_cps[2]; uint16_t a_note[2], a_notes[2], a_pc[2], a_cc[2], a_ccs[2], a_pb[2], a_pbs[2], a_kp[2], a_kps[2], a_cp[2], a_cps[2]; } translation; extern void reload_callback(void); extern int read_config_file(void); extern translation *get_translation(char *win_title, char *win_class); extern void print_stroke_sequence(char *name, char *up_or_down, stroke *s, int mod, int step, int n_steps, int *steps, int val); extern translation *default_translation, *default_midi_translation[2]; extern int debug_regex, debug_strokes, debug_keys, debug_midi; extern int default_debug_regex, default_debug_strokes, default_debug_keys, default_debug_midi; extern char *config_file_name; extern int jack_num_outputs, system_passthrough, direct_feedback; extern int midi_octave, shift; extern char *jack_client_name;