コード例 #1
0
void meter_tick(t_meter *x)
{
    meter_output(x);
    
    if(x->f_ramp == x->f_vector->getNumberOfChannels())
        x->f_ramp = 0;
    
    x->f_vector->process(x->f_signals, x->f_vector_coords + x->f_vector->getNumberOfChannels() * x->f_ramp);
    
    for(int i = 0; i < x->f_meter->getNumberOfChannels(); i++)
    {
        if(x->f_meter->getChannelEnergy(i) >= 0.)
            x->f_overled[i] = OVERLED_DRAWTIME;
        else
            x->f_overled[i] -= x->f_interval;
        
        if(x->f_overled[i] < 0)
            x->f_overled[i] = 0;
    }
    
	jbox_invalidate_layer((t_object *)x, NULL, s_leds_layer);
	jbox_invalidate_layer((t_object *)x, NULL, s_energy_layer);
    jbox_invalidate_layer((t_object *)x, NULL, s_velocity_layer);
	jbox_redraw((t_jbox *)x);
	if (sys_getdspstate())
		clock_fdelay(x->f_clock, x->f_interval);
}
コード例 #2
0
void hoa_meter_tick(t_hoa_meter *x)
{
    if(x->f_vector_type == hoa_sym_both)
        x->f_vector->process(x->f_signals, x->f_vector_coords);
    else if(x->f_vector_type == hoa_sym_velocity)
        x->f_vector->processVelocity(x->f_signals, x->f_vector_coords);
    else if(x->f_vector_type == hoa_sym_energy)
         x->f_vector->processEnergy(x->f_signals, x->f_vector_coords + 2);
    
    double peak;
    for (int i = 0; i < x->f_meter->getNumberOfChannels(); i++)
    {
        peak = x->f_meter->getChannelEnergy(i);
        if(peak >= 0.)
            x->f_over_leds[i] = 1000;
        else
            x->f_over_leds[i] -= x->f_interval;
        
        if(x->f_over_leds[i] < 0)
            x->f_over_leds[i] = 0;
    }
    
	ebox_invalidate_layer((t_ebox *)x, hoa_sym_leds_layer);
	ebox_invalidate_layer((t_ebox *)x, hoa_sym_vector_layer);
  	ebox_redraw((t_ebox *)x);
    
	if (sys_getdspstate())
		clock_delay(x->f_clock, x->f_interval);
}
コード例 #3
0
void number_tilde_tick(t_number_tilde *x)
{
    number_tilde_output(x);
	ebox_invalidate_layer((t_ebox *)x, gensym("value_layer"));
	ebox_redraw((t_ebox *)x);

	if(sys_getdspstate())
		clock_delay(x->f_clock, x->f_interval);
}
コード例 #4
0
void hoa_3d_scope_tick(t_hoa_3d_scope *x)
{
    x->f_scope->process(x->f_signals);

	jbox_invalidate_layer((t_object *)x, NULL, hoa_sym_harmonics_layer);
	jbox_redraw((t_jbox *)x);
	if (sys_getdspstate())
		clock_delay(x->f_clock, x->f_interval);
}
コード例 #5
0
void hoa_scope_tick(t_hoa_scope *x)
{
    x->f_scope->process(x->f_signals + x->f_index * x->f_scope->getNumberOfHarmonics());

    ebox_invalidate_layer((t_ebox *)x, hoa_sym_harmonics_layer);
    ebox_redraw((t_ebox *)x);
    if(sys_getdspstate())
        clock_delay(x->f_clock, x->f_interval);
}
コード例 #6
0
ファイル: hoa.scope~.cpp プロジェクト: natcl/HoaLibrary
void scope_tick(t_scope *x)
{
    x->f_viewer->processContribAndRep(x->f_harmonicsValues);
	jbox_invalidate_layer((t_object *)x, NULL, gensym("contrib_layer"));
	jbox_invalidate_layer((t_object *)x, NULL, gensym("harmonics_layer"));
	jbox_redraw((t_jbox *)x);
    if (sys_getdspstate())
		clock_delay(x->f_clock, x->f_interval);
}
コード例 #7
0
ファイル: c.scope~.cpp プロジェクト: rvega/CicmWrapper
void scope_tick(t_scope *x)
{
    ebox_invalidate_layer((t_ebox *)x, gensym("signal_layer"));
    ebox_redraw((t_ebox *)x);

    if(!sys_getdspstate())
    {
        x->f_startclock = 0;
        clock_unset(x->f_clock);
    }
}
コード例 #8
0
static void dsp_tilde_mousedown(t_dsp_tilde *x, t_object *patcherview, t_pt pt, long modifiers)
{
    if(sys_getdspstate())
    {
        dsp_tilde_stop(x);
    }
    else
    {
        dsp_tilde_start(x);
    }
}
コード例 #9
0
static void dsp_tilde_paint(t_dsp_tilde *x, t_object *view)
{
    t_rect rect;
    if(!x->f_init)
    {
        x->f_state = sys_getdspstate();
        x->f_init = 1;
    }
    
    ebox_get_rect_for_view((t_ebox *)x, &rect);
    draw_background(x, view, &rect);
}
コード例 #10
0
ファイル: j.meter~.cpp プロジェクト: avilleret/JamomaMax
void meter_clock(t_meter *x)
{	
	double delta = fabs(x->newEnvelope - x->envelope);
	x->envelope = x->newEnvelope;
	x->newEnvelope = 0;
	// Only re-draw if there was a change of some significance
	if (delta > kMinimumChangeForRedraw) 	
		jbox_redraw((t_jbox *)x);
	   	
    outlet_float(x->outlet, x->envelope); 
	if (sys_getdspstate()) {							// if dsp is on then we schedule another tick
		if (x->attrDefeat == 0)
			clock_delay(x->clock, kPollIntervalDefault);
	}
}
コード例 #11
0
ファイル: j.meter~.cpp プロジェクト: avilleret/JamomaMax
t_max_err meter_notify(t_meter *x, t_symbol *s, t_symbol *msg, void *sender, void *data)
{
	t_symbol*	name;
	
	if (msg == _sym_attr_modified) {
		
		name = (t_symbol *)object_method((t_object *)data, _sym_getname);

		if (name == _sym_bgcolor)
			jbox_redraw((t_jbox*)x);
		if (name == _sym_patching_rect || name == gensym("orientation"))
			meterEffectOrientation(x);
		if (name == gensym("defeat")) {
			if (sys_getdspstate())		{							// if dsp is on & defeat is off then we schedule another tick
				if (x->attrDefeat == 0)
					clock_delay(x->clock, kPollIntervalDefault);
										}
									 }
	}
	return jbox_notify((t_jbox*)x, s, msg, sender, data);
}
コード例 #12
0
void meter_tick(t_meter *x)
{
	if(x->f_drawvector == VECTOR_BOTH)
    {
        x->f_vector->process(x->f_signals, x->f_vector_coords);
    }
    else if(x->f_drawvector == VECTOR_VELOCITY)
    {
        x->f_vector->processVelocity(x->f_signals, x->f_vector_coords);
    }
    else if(x->f_drawvector == VECTOR_ENERGY)
    {
		x->f_vector->processEnergy(x->f_signals, x->f_vector_coords + 2);
    }
    
    x->f_meter->tick(1000 / x->f_interval);
	jbox_invalidate_layer((t_object *)x, NULL, hoa_sym_leds_layer);
	jbox_invalidate_layer((t_object *)x, NULL, hoa_sym_vectors_layer);
	jbox_redraw((t_jbox *)x);
	
	if (sys_getdspstate())
		clock_delay(x->f_clock, x->f_interval);
}
コード例 #13
0
ファイル: c.meter~.cpp プロジェクト: rvega/CicmWrapper
void meter_tick(t_meter *x)
{
    if(x->f_peak_value >= 0)
    {
        x->f_over_led_preserved = 1;
    }
    else if(x->f_over_led_preserved > 0)
    {
        x->f_over_led_preserved++;
    }
    if(x->f_over_led_preserved >= 1000. / x->f_interval)
    {
        x->f_over_led_preserved = 0;
    }
    
    meter_output(x);
    
	ebox_invalidate_layer((t_ebox *)x, gensym("leds_layer"));
	ebox_redraw((t_ebox *)x);
    
	if(sys_getdspstate())
		clock_delay(x->f_clock, x->f_interval);
}
コード例 #14
0
ファイル: pictmeter~.c プロジェクト: AlvaroBuitrago/max-test
void pictmeter_tick(t_pictmeter *x)
{
	// for the astute student of the Max SDK:
	//
	// this method is called by the scheduler thread
	// x->p_max is also accessed by the perform method in the audio thread
	// we could use a mutex or critical region to protect the following block of code from having the value of x->p_max modified during its execution.
	// however, mutexes and critical regions carry a performance penalty.
	//
	// in this case, due to the nature of what we are doing (drawing something every tenth of second showing the history of the previous samples),
	// the mutex or critical region will not add anything to the object, or protect us from crashes, and it carries a performance penalty.
	// so we have made a conscious decision to not use the aforementioned thread locking mechanisms.

	if (x->p_value != x->p_max) {
		x->p_value = x->p_max;
		if (x->p_value > 1.)
			x->p_value = 1.;
		x->p_max = 0;
		jbox_redraw((t_jbox *)x);
	}

	if (sys_getdspstate())	// if the dsp is still on, schedule a next pictmeter_tick() call
		clock_fdelay(x->p_clock, 100);
}
コード例 #15
0
ファイル: amaranth~.c プロジェクト: CNMAT/CNMAT-Externs
void amaranth_grain(t_amaranth *x, Symbol *s, short argc, Atom *argv) {
    if(sys_getdspstate() == 0) {
        return;
    }

    int g, samplesNeeded;
    float location,  dur,  trans;
    Symbol *bufName;

    if (argc != 4) {
        post("¥ amaranth~: grain needs exactly 4 arguments (location, duration, transposition, buffer)");
        return;
    }

    if (argv[0].a_type == A_FLOAT) location = argv[0].a_w.w_float;
    else if (argv[0].a_type == A_LONG) location = (float) argv[0].a_w.w_long;
    else {
        post("¥ amaranth~: grain location must be a number");
        return;
    }

    if (argv[1].a_type == A_FLOAT) dur = argv[1].a_w.w_float;
    else if (argv[1].a_type == A_LONG) dur = (float) argv[1].a_w.w_long;
    else {
        post("¥ amaranth~: grain duration must be a number");
        return;
    }

    if (argv[2].a_type == A_FLOAT) trans = argv[2].a_w.w_float;
    else if (argv[2].a_type == A_LONG) trans = (float) argv[2].a_w.w_long;
    else {
        post("¥ amaranth~: grain transposition ratio must be a number");
        return;
    }

    if (argv[3].a_type == A_SYM) bufName = argv[3].a_w.w_sym;
    else {
        post("¥ amaranth~: grain buffer name must be a symbol");
        return;
    }


    g = AllocGrain(x);
    if (g == -1) {
        outlet_bang(x->outlet);
        return;
    }

    // post("amaranth_grain(%p, %f, %f, %f, %s)", x, location, dur, trans, bufName->s_name);

    x->grains[g].buffer = SymbolToBuffer(bufName);

    if (x->grains[g].buffer == 0) {
        error("amaranth~: no buffer~ %s", bufName->s_name);
        FreeGrain(x, g);
        return;
    }


    x->grains[g].location = ((int) location * x->grains[g].buffer->b_sr * 0.001);
    x->grains[g].bufIndex = x->grains[g].location << 8;

    x->grains[g].bufStep = (int) (INTERPOLATION_TABLE_SIZE * trans);

    x->grains[g].duration = x->grains[g].samplesToGo = dur * sys_getsr() * 0.001;
    x->grains[g].transpose = trans;
    x->grains[g].windowPos = 0;
    x->grains[g].windowStep = (HANNING_WINDOW_TABLE_SIZE << 8) / x->grains[g].duration;

    samplesNeeded = x->grains[g].location + x->grains[g].duration / trans;

    if(samplesNeeded <= 1) {
        FreeGrain(x, g);
        return;
    }

    //if (samplesNeeded > x->grains[g].buffer->b_frames) {
    /* Buffer is too small; drop this grain */
    /* xxx make this complaint only happen once...*/
    /* post("¥ amaranth~: %ld-sample buffer %s is too small for loc %f, duration %f, trans %f",
    	 x->grains[g].buffer->b_frames, bufName->s_name, x->grains[g].location,
    	 x->grains[g].duration, trans); */
    //	FreeGrain(x, g);
    //	return;
    //}


    /* post("*** grain %ld, loc %ld, dur %ld, trans %f, buf %s", g, x->grains[g].location, x->grains[g].duration,
    	 x->grains[g].transpose, x->grains[g].buffer->b_name->s_name);
     */
}
コード例 #16
0
void hoa_scope_tick(t_hoa_scope *x)
{
    float value;
    float one, two;
    t_atom av[3];
    t_atom red[3];
    t_atom blue[3];
    x->f_scope->process(x->f_signals + x->f_index * x->f_scope->getNumberOfHarmonics());
	if (sys_getdspstate())
		clock_fdelay(x->f_clock, 500.);
    
    outlet_anything(x->f_out, gensym("reset"), 0, NULL);
    atom_setfloat(red, 1);
    atom_setfloat(red+1, 0);
    atom_setfloat(red+2, 0);
    atom_setfloat(blue, 0);
    atom_setfloat(blue+1, 0);
    atom_setfloat(blue+2, 1);

    for(int i = 0; i < x->f_scope->getNumberOfRows(); i++)
    {
        one  =   0;
        two = (double)i / (double)(x->f_scope->getNumberOfRows() - 1) * CICM_PI;
        value = x->f_scope->getValue(i, 0);
        if(value < 0)
        {
            outlet_anything(x->f_out, gensym("glcolor"), 3, blue);
            value= -value;
        }
        else
            outlet_anything(x->f_out, gensym("glcolor"), 3, red);
        
        atom_setfloat(av, value * sin(two) * cos(one));
        atom_setfloat(av+1, value * cos(two));
        atom_setfloat(av+2, value * sin(two) * sin(one));
        outlet_anything(x->f_out, gensym("moveto"), 3, av);
        for(int j = 1; j < x->f_scope->getNumberOfColumns(); j++)
        {
            one  =   (double)j / (double)x->f_scope->getNumberOfColumns() * CICM_2PI;
            value = x->f_scope->getValue(i, j);
            if(value < 0)
            {
                outlet_anything(x->f_out, gensym("glcolor"), 3, blue);
                value= -value;
            }
            else
                outlet_anything(x->f_out, gensym("glcolor"), 3, red);
            atom_setfloat(av, value * sin(two) * cos(one));
            atom_setfloat(av+1, value * cos(two));
            atom_setfloat(av+2, value * sin(two) * sin(one));
            outlet_anything(x->f_out, gensym("lineto"), 3, av);
        }
        
        one  =   0;
        value = x->f_scope->getValue(i, 0);
        if(value < 0)
        {
            outlet_anything(x->f_out, gensym("glcolor"), 3, blue);
            value= -value;
        }
        else
            outlet_anything(x->f_out, gensym("glcolor"), 3, red);
        
        atom_setfloat(av, value * sin(two) * cos(one));
        atom_setfloat(av+1, value * cos(two));
        atom_setfloat(av+2, value * sin(two) * sin(one));
        outlet_anything(x->f_out, gensym("lineto"), 3, av);

    }
    
    for(int j = 0; j < x->f_scope->getNumberOfColumns(); j++)
    {
        one  =   (double)j / (double)x->f_scope->getNumberOfColumns() * CICM_2PI;
        two  = 0.;
        value = x->f_scope->getValue(0, j);
        if(value < 0)
        {
            outlet_anything(x->f_out, gensym("glcolor"), 3, blue);
            value= -value;
        }
        else
            outlet_anything(x->f_out, gensym("glcolor"), 3, red);
        atom_setfloat(av, value * sin(two) * cos(one));
        atom_setfloat(av+1, value * cos(two));
        atom_setfloat(av+2, value * sin(two) * sin(one));
        outlet_anything(x->f_out, gensym("moveto"), 3, av);
        for(int i = 1; i < x->f_scope->getNumberOfRows(); i++)
        {
            two = (double)i / (double)(x->f_scope->getNumberOfRows() - 1) * CICM_PI;
            value = x->f_scope->getValue(i, j);
            if(value < 0)
            {
                outlet_anything(x->f_out, gensym("glcolor"), 3, blue);
                value= -value;
            }
            else
                outlet_anything(x->f_out, gensym("glcolor"), 3, red);
            atom_setfloat(av, value * sin(two) * cos(one));
            atom_setfloat(av+1, value * cos(two));
            atom_setfloat(av+2, value * sin(two) * sin(one));
            outlet_anything(x->f_out, gensym("lineto"), 3, av);
        }
    }
}
コード例 #17
0
void *multigrain_grain(t_multigrain *x, t_symbol *msg, short argc, t_atom *argv)
{
	short inserted;
	int j;
	float duration, incr, amplitude, pan;
	t_grain *grains;
	long eframes;
	long frames;
	float sr;
	float skip;
	if(!sys_getdspstate()){
		error("scheduler halted until DSP is turned on.");
		return NIL;
	}
	grains = x->grains;
     eframes = buffer_getframecount(buffer_ref_getobject(x->windowbuf));
	frames = buffer_getframecount(buffer_ref_getobject(x->wavebuf));

	sr = x->sr;
	
	if(argc < 5){
		error("grain takes 5 arguments, not %d",argc);
		post("duration increment amplitude pan skip(in ms)");
		return NIL;
	}
	duration = atom_getintarg(0,argc,argv);
	incr = atom_getfloatarg(1,argc,argv); // in ms
	amplitude = atom_getfloatarg(2,argc,argv);
	pan = atom_getfloatarg(3,argc,argv);
	skip = atom_getfloatarg(4,argc,argv) * .001 * sr;
	if(skip < 0){
		error("negative skip is illegal");
		return NIL;
	}
	if(skip >= frames){
		error("skip exceeds length of buffer");
		return NIL;
	}
	if(incr == 0.0){
		error("zero increment prohibited");
		return NIL;
	}
	if(duration <= 0.0){
		error("illegal duration:%f",duration);
		return NIL;
	}
	if(pan < 0.0 || pan > 1.0){
		error("illegal pan:%f",pan);
		return NIL;
	}
	inserted = 0;
	for(j = 0; j < MAXGRAINS; j++ ){
		if(!grains[j].active){
			grains[j].delay = 0.0;// immediate deployment
			grains[j].duration = (long) (.001 * x->sr * duration);
			grains[j].phase = skip;
			grains[j].ephase = 0.0;
			grains[j].amplitude = amplitude * .707;
//			grains[j].panL = amplitude * cos(pan * PIOVERTWO);
//			grains[j].panR = amplitude * sin(pan * PIOVERTWO);
			grains[j].esi =  (float)eframes / (float)grains[j].duration;
			grains[j].si = incr;
			grains[j].active = 1;
			return NIL;
		}
	}
	
	error("could not insert grain");
	return NIL;
	
}
コード例 #18
0
void multigrain_spray(t_multigrain *x)
{
	int i,j;
	long grainframes;
	long eframes = buffer_getframecount(buffer_ref_getobject(x->windowbuf));
	long b_frames = buffer_getframecount(buffer_ref_getobject(x->wavebuf));
	long horizon = x->horizon; // length of block for random events
	float mindur = x->mindur;
	float maxdur = x->maxdur;
	float min_incr = x->min_incr; // minimum incr for a grain (must be positive!)
	float max_incr = x->max_incr; // maximum incr for a grain (must be positive!)
	float minpan = x->minpan; // minimum pan for a grain
	float maxpan = x->maxpan; // maxium pan for a grain
	float minamp = x->minamp; // minimum amplitude for a grain
	float maxamp = x->maxamp; // maximum amplitude for a grain
	float transpose = x->transpose; // pitch scalar
	long minskip = x->minskip;
	long maxskip = x->maxskip;
	short steady = x->steady;
	float retro_odds = x->retro_odds;
	float pan;
	t_grain *grains = x->grains;
	short inserted;
	float tmp;
    long minchanr = x->minchanr;
    long maxchanr = x->maxchanr;
    long *changroup = x->changroup;
    long changroup_length = x->changroup_length;
    long dex;
    long groupflag = x->groupflag;
	if( !sys_getdspstate() ){
		return;
	}
	for( i = 0; i < x->events; i++ ){
		inserted = 0;
		for(j = 0; j < MAXGRAINS; j++ ){
			if(!grains[j].active){
				grains[j].active = 1;
				if(steady){
					grains[j].delay = (float)(i * horizon) / (float) x->events ;
				} else {
    				grains[j].delay = multigrain_boundrand(0.0,(float) horizon);
    			}
   				grains[j].duration = (long) multigrain_boundrand(mindur, maxdur);//frames for this grain
    			grains[j].ephase = 0.0;
    			pan = multigrain_boundrand(minpan, maxpan);
     			grains[j].amplitude = multigrain_boundrand(minamp, maxamp);
				grains[j].si = transpose * multigrain_boundrand(min_incr, max_incr);

                
                
                if(groupflag == 1){
                    dex = random() % changroup_length;
                    grains[j].output_channel = changroup[dex];
                } else {
                    grains[j].output_channel = minchanr + (random() % (maxchanr - minchanr));
                }
				grainframes = grains[j].duration * grains[j].si;//frames to be read from buffer
				grains[j].esi =  (float) eframes / (float) grains[j].duration;
				if(grainframes >= b_frames ){
				  	error("grain size %.0f is too long for buffer which is %d",grainframes, b_frames);
				  	grains[j].active = 0;
				  	goto nextgrain;
				}
				if(minskip > b_frames - grainframes){//bad minskip
				  	error("minskip time is illegal");
				  	grains[j].phase = 0.0;
				  	grains[j].endframe = grainframes - 1;
				} else {
					if(maxskip > b_frames - grainframes){
					  	grains[j].phase = multigrain_boundrand((float)minskip, (float) (b_frames - grainframes));
					  	//post("1. minskip %d maxskip %d",minskip,b_frames - grainframes);
					} else {
					  	grains[j].phase = multigrain_boundrand((float)minskip, (float)maxskip);
					  	//post("2. minskip %d maxskip %d",minskip,maxskip);
					}
					grains[j].endframe = grains[j].phase + grainframes - 1;
				}
				
				if( multigrain_boundrand(0.0,1.0) < retro_odds){//go backwards - make sure to test both boundaries
				  	grains[j].si *= -1.0;
				  	tmp = grains[j].phase;
				  	grains[j].phase = grains[j].endframe;
				  	grains[j].endframe = tmp;
				}
    			inserted = 1;
    			goto nextgrain;
    		}
		}
		if(! inserted){
			error("multigrain~: could not insert grain");
			return;
		}
	nextgrain: ;
	}
}
コード例 #19
0
void multigrain_pitchspray(t_multigrain *x)
{
	int i,j;
	long grainframes;
    long eframes = buffer_getframecount(buffer_ref_getobject(x->windowbuf));
	long b_frames = buffer_getframecount(buffer_ref_getobject(x->wavebuf));
	long minskip = x->minskip;
	long maxskip = x->maxskip;
	float retro_odds = x->retro_odds;
	long horizon = x->horizon; // length of block for random events
	float mindur = x->mindur;
	float maxdur = x->maxdur;
	float min_incr = x->min_incr; // minimum frequency for a grain
	float max_incr = x->max_incr; // maximum frequency for a grain
	float minamp = x->minamp; // minimum amplitude for a grain
	float maxamp = x->maxamp; // maximum amplitude for a grain
	float transpose = x->transpose; // pitch scalar
	float lowblock_increment = x->lowblock_increment;
	float highblock_increment = x->highblock_increment;
	short steady = x->steady;
	float pitch_deviation = x->pitch_deviation;
	float pdev = 0;
	float pdev_invert = 0;
	int index_min, index_max;
	int steps = x->pitchsteps;
	float *scale = x->pitchscale;
	int windex;
	short inserted = 0;
	short constrain_scale = x->constrain_scale;
	t_grain *grains = x->grains;
	float tmp;
	
	if(! sys_getdspstate()){
		// error("scheduler halted until DSP is turned on.");
		return;
	}
	
	if( steps < 2 ){
		error("scale is undefined");
		return;
	}
	if( pitch_deviation ){
		pdev = 1.0 + pitch_deviation;
		pdev_invert = 1.0 / pdev;
	}
	for( i = 0; i < x->events; i++ ){
		inserted = 0;
		for(j = 0; j < MAXGRAINS; j++ ){
			if(!grains[j].active){
				if(steady){
					grains[j].delay = (float)(i * horizon) / (float) x->events ;
				} else {
					grains[j].delay = multigrain_boundrand(0.0,(float) horizon);
    			}
    			grains[j].duration = (long) multigrain_boundrand(mindur, maxdur);
    			grains[j].phase = 0.0;
    			grains[j].ephase = 0.0;
    			grains[j].amplitude = multigrain_boundrand(minamp, maxamp);
    			grains[j].amplitude *= .707;//used directly only for "nopan"
                grains[j].output_channel = random() % x->output_channels;
    			
				if(constrain_scale){
					multigrain_constrain(&index_min,&index_max,min_incr, max_incr, scale, steps);
					windex = (int) multigrain_boundrand((float)index_min, (float)index_max);
				} else {
					windex = (int) multigrain_boundrand(0.0, (float)(steps));
				}
    			grains[j].si = transpose * scale[windex];
				//	post("windex %d scale[w] %f transpose %f si %f",windex, scale[windex], transpose, grains[j].si );
    			grainframes = grains[j].duration * grains[j].si;
    			grains[j].esi =  (float) eframes / (float) grains[j].duration;
    			
    			if( pitch_deviation ){
    				grains[j].si *= multigrain_boundrand(pdev_invert,pdev);
    			}
    			// post("new si: %f", grains[j].si);
    			/* must add this code to spray, and also do for high frequencies
				 */
    			if(lowblock_increment > 0.0) {
    				if(grains[j].si < lowblock_increment){
    					post("lowblock: aborted grain with %f frequency",grains[j].si);
    					grains[j].active = 0; // abort grain
    					goto nextgrain;
    				}
    			}
    			if(highblock_increment > 0.0) {
    				if(grains[j].si > highblock_increment){
    					post("highblock: aborted grain with %f frequency, greater than %f",
							 grains[j].si, highblock_increment);
    					grains[j].active = 0; // abort grain
    					goto nextgrain;
    				}
    			}
				/* set skip time into sample */
				if(grainframes >= b_frames ){
				  	error("grain size %.0f is too long for buffer which is %d",grainframes, b_frames);
				  	grains[j].active = 0;
				  	goto nextgrain;
				}
				if(minskip > b_frames - grainframes){//bad minskip
				  	error("minskip time is illegal");
				  	grains[j].phase = 0.0;
				  	grains[j].endframe = grainframes - 1;
				} else {
					if(maxskip > b_frames - grainframes){
					  	grains[j].phase = multigrain_boundrand((float)minskip, (float) (b_frames - grainframes));
					  	//post("1. minskip %d maxskip %d",minskip,b_frames - grainframes);
					} else {
					  	grains[j].phase = multigrain_boundrand((float)minskip, (float)maxskip);
					  	//post("2. minskip %d maxskip %d",minskip,maxskip);
					}
					grains[j].endframe = grains[j].phase + grainframes - 1;
				}
				
				
				if( multigrain_boundrand(0.0,1.0) < retro_odds){//go backwards - make sure to test both boundaries
				  	grains[j].si *= -1.0;
				  	tmp = grains[j].phase;
				  	grains[j].phase = grains[j].endframe;
				  	grains[j].endframe = tmp;
				}
				/*post("grain: grainframes %d phase %f endframe %f amp %f",
				 grainframes, grains[j].phase, grains[j].endframe, grains[j].amplitude);*/
				grains[j].active = 1;
    			inserted = 1;
    			goto nextgrain;
    		}
		}
		if(!inserted){
			error("could not insert grain with increment %f",grains[j].si);
			return;
		}
	nextgrain: ;
	}
}
コード例 #20
0
ファイル: hoa.meter3D~.cpp プロジェクト: sfm1234/HoaLibrary
void hoa_meter_tick(t_hoa_meter *x)
{
    jbox_redraw((t_jbox *)x);
	if (sys_getdspstate())
		clock_fdelay(x->f_clock, x->f_interval);
}
コード例 #21
0
/*
void bvplay_verbose(t_bvplay *x, t_symbol *msg, short argc, t_atom *argv)
{
	x->verbose = argv[0].a_w.w_long;
}
*/
void bvplay_notelist(t_bvplay *x, t_symbol *msg, short argc, t_atom *argv) 
{
//	int i;
//	t_buffer *b = x->l_buf;
	t_buffer *b;
	//////////////////////
	// set data from buffer size if uninitialized
/*
NB - THIS CRASHES IF THE DACS ARE NOT TURNED ON !!!
*/
	if( ! sys_getdspstate() ){
	    if( x->verbose )
			error("cannot receive notes when the DSP is off!");
		return;
	}
	if( x->active ){
		if( x->verbose )
			error("object still playing - cannot add note!");
		return;
	}
	b = x->l_buf;
	if( x->framesize != b->b_frames ) {
	    if( x->verbose ) {
			post("framesize reset");
		}
		x->framesize = b->b_frames ;
		x->buffer_duration = (float)  b->b_frames / (float) x->R ;
		if( x->verbose ) {
			post("there are %d frames in this buffer. Duration = %.2f, Channels: %d ",
				b->b_frames, x->buffer_duration, b->b_nchans);
		}
	}	
	else if( x->buffer_duration <= 0.0 ) {
		x->framesize = b->b_frames ;
		x->buffer_duration = (float)  b->b_frames / (float) x->R ;
		if( x->verbose ){
			post("there are %d frames in this buffer. Duration = %.2f ",
			b->b_frames, x->buffer_duration);
		}
	}
	if( x->buffer_duration <= 0.0 ) {
		post("buffer contains no data. Please fill it and try again");
		return;
	}
	
	// read note data
	if( argc != 4 ){
		if( x->verbose ){
			post("improper note data");
			post("notelist parameters: skiptime, duration, increment, amplitude");
		}
	}

x->notedata[0] = atom_getfloatarg(0,argc,argv) / 1000.0;
x->notedata[1] = atom_getfloatarg(1,argc,argv) / 1000.0;
x->notedata[2] = atom_getfloatarg(2,argc,argv);
x->notedata[3] = atom_getfloatarg(3,argc,argv);

	x->start_frame = x->notedata[0] * x->R;
	x->increment = x->notedata[2];
	x->index = x->findex = x->start_frame;

	if( x->increment == 0.0 ){
		if( x->verbose )
			post("zero increment!");
		return;
	}
	x->note_frames =  x->notedata[1] * x->increment  * x->R;
	x->end_frame = x->start_frame + x->note_frames;

    x->amp = x->notedata[3];
	if( x->start_frame < 0 || x->start_frame >= x->framesize){
		if( x->verbose )
			post("bad start time");
		return;
	}
	if( x->end_frame < 0 || x->end_frame >= x->framesize){
		if( x->verbose )
			post("bad end time");
		return;
	}

	x->active = 1;	
}