Link protocol bugfixs

libs3/alink.py

@@ -24,7 +24,7 @@ cmake ..
 cmake --build .
 
 '''
-import midix
+#import midix
 import sys
 
 prevphase = 0
@@ -61,7 +61,7 @@ def BeatEvent():
         #print("LINK BPM:",bpm)
         sys.stdout.write("Beat "+str(beats_str) + '  \r')
         sys.stdout.flush()
-        midix.SendUI('/beats', [beats_str])
+        #midix.SendUI('/beats', [beats_str])
 
         #alink.SendOSCUI('/states/cc/'+str(ccnumber), [value])
         currentbeat = float(beats_str)
@@ -84,7 +84,7 @@ def newtempo(tempo):
         lnk.startStopSyncEnabled = True
         bpm = tempo
         print(("New BPM", bpm))
-        midix.SendUI('/bpm', [bpm])
+        #midix.SendUI('/bpm', [bpm])
 
     else:
         print("Link is disabled")

libs3/commands.py

@@ -196,7 +196,7 @@ def NoteOn(note):
             gstt.Laser = note -24
             print("Current Laser switched to", gstt.Laser)
             plugins.sendWSall("/status Laser " + str(gstt.Laser))
-            plugins.SendAll(["/scim", str(gstt.Laser), "1"])
+            plugins.SendAll(["/scim", str(gstt.Laser), 1])
             
 
 def Scim(path, tags, args, source):
@@ -268,9 +268,18 @@ def handler(oscpath, args):
 
 
         if oscpath[1] == "pl":
+            print("new pl for", "/"+oscpath[1]+"/"+oscpath[2]+"/"+oscpath[3], ":", args[0])
+            # was r.set(oscpath, args[0])
+            r.set("/"+oscpath[1]+"/"+oscpath[2]+"/"+oscpath[3], args[0])
+
+
+        if oscpath[0] == "pl" :    
             r.set(oscpath, args[0])
 
 
+
+
+
         #/scene/scenenumber/start 0 or 1
         if oscpath[1] == "scene":
 

libs3/lj23layers.py

@@ -40,6 +40,9 @@ Laser objects (name and convenient group of parameters for one or several point
 "Destinations" : Tell for given Layer a scene/Laser ("destination"). 
 Each Layer can have different destination (i.e to display same stuff on different laser)
 
+Redis :
+- fromKey(keyname)                          Ask redis for a given key
+- toKey(keyname,keyvalue)                   Write to redis key 
 
 OSC and plugins functions :
 
@@ -325,6 +328,18 @@ def toRedis(n,a):
    # Store encoded data in Redis
    return r.set(n,encoded)
 
+# Ask redis for a given key
+def fromKey(keyname):
+
+   return r.get(keyname)
+
+# 
+# Write to redis key 
+def toKey(keyname,keyvalue):
+
+   # Store encoded data in Redis
+   return r.set(keyname,keyvalue)
+
 
 #
 # OSC functions

plugins/aurora/anim.py

@@ -27,13 +27,15 @@ sys.path.append(ljpath +'/../libs3/')
 
 #import from LJ
 sys.path.append(ljpath +'/libs3/')
-
-
 sys.path.append('../libs3')
 
 import lj23layers as lj
 import gstt
 
+# link
+currentBeat = 0.0
+currentBPM = 0
+
 screen_size = [700,700]
 xy_center = [screen_size[0]/2,screen_size[1]/2]
 
@@ -261,6 +263,17 @@ def sbilinear(samples, min, max):
     #print ('linear',samparray)
     return samparray
 
+'''
+lj.fromKey("/midi/cc/1/0")
+
+Linkbeat = lj.fromKey("/beat")
+if Linkbeat != currentbeat:
+    currentbeat = Linkbeat  
+
+Linkbpm = lj.fromKey("/bpm")
+if Linkbpm != currentbpm:
+    currentbpm = Linkbpm
+'''
 
 #
 # FXs
@@ -268,9 +281,24 @@ def sbilinear(samples, min, max):
 
 '''
 Beatstep memory 2 Aurora simplex
-
 '''
 
+
+def ScanV(LAY):
+
+    ccmidi0= int(lj.fromKey("/midi/cc/1/0"))
+
+    dots = []
+    arr = randlinear2(LAY['scandots'],0, LAY['lineSize']*ccmidi0/100)
+    #arr =  slinear(LAY['scandots'], LAY['lineSize'], 0)
+    #print(arr)
+    for y in arr:
+        #print(y, LAY['lineSize'] )
+        dots.append((0 + LAY['lineSize']/2, y - LAY['lineSize']/2, 0))
+
+    return dots
+
+''' Original
 def ScanV(LAY):
 
     dots = []
@@ -282,7 +310,7 @@ def ScanV(LAY):
         dots.append((0 + LAY['lineSize']/2, y - LAY['lineSize']/2, 0))
 
     return dots
-
+'''
 
 def ScanH(LAY):
 
@@ -293,7 +321,27 @@ def ScanH(LAY):
     #print(dots)
     return dots
 
+def Wave(LAY):
+    global currentBeat
 
+    currentBPM =lj.fromKey("/bpm")
+    LinkBeat = lj.fromKey("/beat")
+
+    # New Beat ?
+    if LinkBeat != currentBeat:
+        currentBeat = LinkBeat  
+    
+    dots = []
+    x = slinear(round(LAY['lineSize']), 0, LAY['lineSize'])
+    y = ssine(round(LAY['lineSize']), LAY['wavefreq'], 0)
+
+    for ww in range(round(LAY['lineSize'])):
+        dots.append((50+x[ww], 50+y[ww] * LAY['radius'], 0))
+
+    return dots
+
+
+''' Original 
 def Wave(LAY):
 
     dots = []
@@ -304,7 +352,7 @@ def Wave(LAY):
         dots.append((50+x[ww], 50+y[ww] * LAY['radius'], 0))
 
     return dots
-
+'''
 
 def Circle(LAY):
 

plugins/aurora/aurora.py

@@ -149,7 +149,7 @@ import sys
 import ast
 import os
 import time,traceback
-import midix, anim, user
+import midix
 import log
 
 ljpath = r'%s' % os.getcwd().replace('\\','/')
@@ -207,6 +207,8 @@ viewer_distance = 2.2
 
 inv = math.pi/2
 
+ccmidi =[0]*15
+
 print()
 log.info('Startup...')
 # print("Arguments parsing if needed...")
@@ -272,6 +274,7 @@ else:
 
 lj.Config(redisIP, ljscene, "aurora")
 
+import anim, user
 
 ccs =[[0] * 140] *4
 
@@ -1118,12 +1121,17 @@ def AllFX():
        
        # Generic generators : return dots list 
        else:
+
            dots = eval(LAY['FX']+"(LAY)")
            if LAY['FX'] != "Zero" or lent(dots) != 0:
-               #print(dots, LAY['color'])
+                #print(dots, LAY['color'])
-               lj.rPolyLineOneColor(dots, c = LAY['color'], layer = l, closed = LAY['closed'], xpos = LAY['Xcoord'] + LAY['stepvals'][LAY['step']] - (LAY['lineSize']/2), ypos = Layer[l]['Ycoord'], resize = LAY['scale'] * audioR, rotx = LAY['Xrotdirec'], roty = LAY['Yrotdirec'], rotz = LAY['Zrotdirec'])
+                for cc in range(15):
+                    ccmidi[cc] = int(lj.fromKey("/midi/cc/1/"+str(cc)))
+                    #print(ccmidi)
+                lj.rPolyLineOneColor(dots, c = LAY['color'], layer = l, closed = LAY['closed'], xpos = LAY['Xcoord'] + LAY['stepvals'][LAY['step']] - (LAY['lineSize']/2), ypos = Layer[l]['Ycoord'], resize = LAY['scale'] * audioR, rotx = LAY['Xrotdirec'], roty = LAY['Yrotdirec'], rotz = LAY['Zrotdirec'])
+                #lj.rPolyLineOneColor(dots, c = LAY['color'], layer = l, closed = LAY['closed'], xpos = LAY['Xcoord'] - (ccmidi[0]-64)*4 - (LAY['lineSize']/2), ypos = Layer[l]['Ycoord'] + (ccmidi[1]-64)*4, resize = LAY['scale'] * audioR * (ccmidi[2])/50, rotx = LAY['Xrotdirec']+(ccmidi[3]*3), roty = LAY['Yrotdirec']+(ccmidi[3]*3), rotz = LAY['Zrotdirec']+(ccmidi[3]*3))
            else:
-               lj.rPolyLineOneColor((0,0,0), c = 0, layer = l, closed = LAY['closed'], xpos = LAY['Xcoord'] + LAY['stepvals'][LAY['step']] - (LAY['lineSize']/2), ypos = Layer[l]['Ycoord'], resize = LAY['scale'] * audioR, rotx = LAY['Xrotdirec'], roty = LAY['Yrotdirec'], rotz = LAY['Zrotdirec'])
+                lj.rPolyLineOneColor((0,0,0), c = 0, layer = l, closed = LAY['closed'], xpos = LAY['Xcoord'] + LAY['stepvals'][LAY['step']] - (LAY['lineSize']/2), ypos = Layer[l]['Ycoord'], resize = LAY['scale'] * audioR, rotx = LAY['Xrotdirec'], roty = LAY['Yrotdirec'], rotz = LAY['Zrotdirec'])
            # OSC cc Audio reactive audioR -> size
            
            # Animation