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authorepochqwert <epoch@hacking.allowed.org>2019-02-07 09:08:01 +0000
committerepochqwert <epoch@hacking.allowed.org>2019-02-07 09:08:01 +0000
commit750473faa49be1a3490d8336190ee920014d8169 (patch)
tree2f14646e064321419c7942981863f571e9a6339b /bin
parent9f4b99177d8e563f5cfceaf34277d79a681c41f7 (diff)
parent978e097ebfb50d70e5e45530cdf0fecc7654c641 (diff)
downloadhackvr-750473faa49be1a3490d8336190ee920014d8169.tar.gz
hackvr-750473faa49be1a3490d8336190ee920014d8169.zip
merge with testing
Diffstat (limited to 'bin')
-rwxr-xr-xbin/height2cyl.py77
1 files changed, 77 insertions, 0 deletions
diff --git a/bin/height2cyl.py b/bin/height2cyl.py
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+++ b/bin/height2cyl.py
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+#!/usr/bin/env python3
+import random
+import math
+import sys
+from PIL import Image
+#we're going to make triangles. lots of triangles.
+#since the heightmap is in a square pattern
+#we're going to have a point that is the average
+#of between the 4 around it.
+#subpixel[x,y] = pixel[x,y] pixel[x+1,y] pixel[x,y+1] pixel[x+1,y+1]
+#we can do this first.
+#then we draw 4 triangles that go around subpixel[x,y]
+#triangle pixel[x,y] pixel[x+1,y] subpixel[x,y]
+#triagnle pixel[x+1,y] pixel[x+1,y+1] subpixel[x,y]
+#triagnle pixel[x+1,y+1] pixel[x,y+1] subpixel[x,y]
+#triagnle pixel[x,y+1] pixel[x,y] subpixel[x,y]
+
+width=32
+height=16
+
+im=Image.open(sys.argv[1]).convert('L').resize((width,height)) #load image as greyscale
+#im=Image.open(sys.argv[1]).convert('L') #load image as greyscale
+width=im.width
+height=im.height
+pixel_derp=im.load()
+#print(dir(im))
+#print(dir(im.getdata().getpixel(0,0)))
+#quit()
+#width=6
+#height=6
+
+def trianglize(x1,y1,x2,y2,xs,ys):
+ x1%=width
+ y1%=height
+ x2%=width
+ y2%=height
+ xs%=width
+ ys%=height
+
+ yscale= 32 / height
+
+ tx1=math.sin(x1 / (width / (2 * math.pi)) ) * (pixel[x1][y1] / (127 / math.pi))
+ tz1=math.cos(x1 / (width / (2 * math.pi)) ) * (pixel[x1][y1] / (127 / math.pi))
+ ty1=-((y1 * yscale) / 5) + 15
+
+ tx2=math.sin(x2 / (width / (2 * math.pi)) ) * (pixel[x2][y2] / (127 / math.pi))
+ tz2=math.cos(x2 / (width / (2 * math.pi)) ) * (pixel[x2][y2] / (127 / math.pi))
+ ty2=-((y2 * yscale) / 5) + 15
+
+# xs=(xs * 2) + 1
+ tx3=math.sin(xs / (width / (2 * math.pi)) ) * (subpixel[xs][ys] / (127 / math.pi))
+ tz3=math.cos(xs / (width / (2 * math.pi)) ) * (subpixel[xs][ys] / (127 / math.pi))
+ ty3=-(((ys * yscale) + 1) / 5) + 15
+ print("test addshape 3 3 {} {} {} {} {} {} {} {} {}".format(tx1,ty1,tz1,tx2,ty2,tz2,tx3,ty3,tz3))
+
+
+#width=16
+#height=16
+pixel=[[0]*height for i in range(width)]
+subpixel=[[0]*height for i in range(width)]
+## initialize for testing:
+for y in range(0,height):
+ for x in range(0,width):
+# pixel[x][y]=random.randint(1,255)
+# pixel[x][y]=im.tobytes()[y * width + x]
+ pixel[x][y]=pixel_derp[x,y]
+# pixel[x][y]=y * 20
+#subpixel=pixel
+#im.show()
+
+for y in range(0,height-1):
+ for x in range(0,width):
+ subpixel[x][y] = ( pixel[x][y] + pixel[(x+1)%width][y] + pixel[x][(y+1)%height] + pixel[(x+1)%width][(y+1)%height] ) / 4
+ trianglize(x,y, x+1,y, x,y)
+ trianglize(x+1,y, x+1,y+1, x,y)
+ trianglize(x+1,y+1, x,y+1, x,y)
+ trianglize(x,y+1, x,y, x,y)