cleanup and added support for multiple palettes

generators/staticSinePlasma.py

@@ -1,4 +1,4 @@
-#!/usr/bin/python
+#!/usr/bin/env python3
 
 # inspired by:
 # http://lodev.org/cgtutor/plasma.html
@@ -6,18 +6,24 @@
 import sys
 import time
 import math
-#import pygame
 import colorsys
 import blup.frame
 import blup.output
 import blup.animation
 import blup.writebml
+import argparse
+
+WIDTH = 22
+HEIGHT = 16
+DEPTH = 256
 
 
 class Plasma(object):
-    def __init__(self, width, height):
+    def __init__(self, width, height, test_palette=False, zoom=1):
         self.width = width
         self.height = height
+        self.test_palette = test_palette
+        self.zoom = zoom
 
         self.pixelvalues = [[0] * height for i in range(width)]
         self.pixelsReady = False
@@ -42,7 +48,10 @@ class Plasma(object):
         for x in range(self.width):
             rowvalues = self.pixelvalues[x]
             for y in range(self.height):
-                pixeldata[x][y] = palette.getColorValue(norm(rowvalues[y]))
+                if y == 0 and self.test_palette:
+                    pixeldata[x][y] = palette.getColorValue(x/(self.width-1))
+                else:
+                    pixeldata[x][y] = palette.getColorValue(norm(rowvalues[y]))
 
         return pixeldata
 
@@ -55,25 +64,26 @@ class Plasma(object):
             for y in range(self.height):
                 xx = x+self.offset
                 yy = y+self.offset
-                p = 128 + 128 * math.sin(xx / 9.0)
-                p += 128 + 128 * math.sin(yy / 16.0)
-                p += 128 + 128 * math.sin((yy + xx) / 16.0)
-                p += 128 + 128 * math.sin(math.sqrt(yy*yy + xx*xx) / 16.0)
-                p += 128 + 8 * math.sin(math.sqrt(yy* xx) / 16.0)
+                p = 128 + 128 * math.sin(xx / 9.0 * self.zoom)
+                p += 128 + 128 * math.sin(yy / 16.0 * self.zoom)
+                p += 128 + 128 * math.sin((yy + xx) / 16.0 * self.zoom)
+                p += 128 + 128 * math.sin(math.sqrt(yy*yy + xx*xx * self.zoom) / 16.0)
+                p += 128 + 8 * math.sin(math.sqrt(yy* xx * self.zoom) / 16.0)
                 self.pixelvalues[x][y] = p
         self.pixelsReady = True
 
-class Palette(object):
-    def __init__(self):
+class HSVPalette(object):
+    def __init__(self, depth):
         self.offset = 0
         self.cache = {}
+        self.depth = depth
 
     def getColorValue(self, x):
         x = round(x, 3)
         if x in self.cache:
             return self.cache[x]
         c = colorsys.hsv_to_rgb((x + self.offset) % 1, 1, 1)
-        c = list(map(lambda x: int(x * 255), c))
+        c = list(map(lambda x: int(x * (self.depth - 1)), c))
         self.cache[x] = c
         return c
 
@@ -83,76 +93,88 @@ class Palette(object):
         if self.offset > 1:
             self.offset -= 1
 
-##############################################
+class ExponentialHSVPalette(object):
+    def __init__(self, depth):
+        self.offset = 0
+        self.cache = {}
+        self.depth = depth
 
-w = 22
-h = 16
+    def getColorValue(self, x):
+        x = round(x, 3)
+        if x in self.cache:
+            return self.cache[x]
+        xx = (x + self.offset) % 1
+        a = 4
+        b = 3
+        c = colorsys.hsv_to_rgb((a**(xx*b)-1)/(a**b), 1, 1)
+        c = list(map(lambda x: int(x * (self.depth - 1)), c))
+        self.cache[x] = c
+        return c
 
-#w = 80
-#h = 18
+    def update(self):
+        self.cache = {}
+        self.offset += 0.01
+        if self.offset > 1:
+            self.offset -= 1
 
-scalex = 30
-scaley = 60
+class SingleColorPalette(object):
+    def __init__(self, depth):
+        self.cache = {}
+        self.depth = depth
+        self.h = 0
+
+    def getColorValue(self, x):
+        x = round(x, 3)
+        if x in self.cache:
+            return self.cache[x]
+        a = 4
+        b = 3
+        c = colorsys.hsv_to_rgb(self.h, 1, (a**(x*b)-1)/(a**b))
+        c = list(map(lambda x: int(x * (self.depth - 1)), c))
+        self.cache[x] = c
+        return c
 
-plasma = Plasma(w,h)
-palette= Palette()
+    def update(self):
+        self.cache = {}
+        self.h += 0.005
+        if self.h > 1:
+            self.h -= 1
 
-#screen = pygame.display.set_mode((w*scalex, h*scaley))
-#pygame.display.update()
+##############################################
 
-#dim = blup.frame.FrameDimension(w, h, 8, 3)
-dim = blup.frame.FrameDimension(w, h, 256, 3)
-#out = blup.output.getOutput('serialblup:/dev/ttyUSB0:115200')
-#out = blup.output.getOutput('colorfulshell')
-#out = blup.output.getOutput('e3blp:bastel0:4242')
+PALETTES = {
+    'hsv': HSVPalette,
+    'exponentialhsv': ExponentialHSVPalette,
+    'singlecolor': SingleColorPalette,
+}
+
+if __name__ == '__main__':
+    parser = argparse.ArgumentParser(description='Generate plasma animations')
+    parser.add_argument('-d', '--delay', type=int, default=50)
+    parser.add_argument('-n', '--num-frames', type=int, default=200)
+    parser.add_argument('-p', '--palette', choices=PALETTES.keys(), default='hsv')
+    parser.add_argument('-z', '--zoom', type=float, default=1)
+    parser.add_argument('--test-palette', action='store_true')
+    parser.add_argument('output_file')
+    args = parser.parse_args()
+
+    plasma = Plasma(WIDTH, HEIGHT, args.test_palette, zoom=args.zoom)
+    dim = blup.frame.FrameDimension(WIDTH, HEIGHT, DEPTH, 3)
+    palette = PALETTES[args.palette](DEPTH)
 
-if len(sys.argv) > 1:
-    outfile = sys.argv[1]
     anim = blup.animation.Animation(dim)
-else:
-    out = blup.output.getOutput('e3blp')
-    anim = None
-
-num_frames = 200
-delay = 50
-
-i = 0
-while i < num_frames:
-    #screen.fill((0,0,0))
-
-    #print 'updating palette...'
-    palette.update()
-    #print 'updating plasma...'
-    plasma.update()
-    #print 'applying palette...'
-    pixeldata = plasma.applyPalette(palette)
-
-    #print 'drawing...'
-    if anim is not None:
-        frame = blup.animation.AnimationFrame(dim, delay)
-    else:
-        frame = blup.frame.Frame(dim)
-
-    for x in range(w):
-        #rowdata = pixeldata[x]
-        for y in range(h):
-            #pygame.draw.rect(screen, pixeldata[x][y], (x*scalex, y*scaley, scalex, scaley), 0)
-            #pygame.draw.circle(screen, rowdata[y], (x, y), 1, 1)
-            frame.setPixel(x, y, pixeldata[x][y])
-            #print frame.channels, frame.depth
-    #print 'done drawing'
-
-    if anim is not None:
-        anim.addFrame(frame)
-        i += 1
-    else:
-        out.sendFrame(frame)
-        time.sleep(delay / 1000)
+    anim.tags['description'] = ' '.join(sys.argv)
+
 
-    #pygame.display.update()
-    #print 'done updating'
-    #time.sleep(0.05)
+    for i in range(args.num_frames):
+        palette.update()
+        plasma.update()
+        pixeldata = plasma.applyPalette(palette)
+        frame = blup.animation.AnimationFrame(dim, args.delay)
 
-if anim is not None:
-    writebml.writeBml(anim, outfile)
+        for x in range(WIDTH):
+            for y in range(HEIGHT):
+                frame.setPixel(x, y, pixeldata[x][y])
+        anim.addFrame(frame)
 
+    blup.writebml.writeBml(anim, args.output_file)