diff options
Diffstat (limited to 'benchmark/bm_so_mandelbrot.rb')
-rw-r--r-- | benchmark/bm_so_mandelbrot.rb | 114 |
1 files changed, 57 insertions, 57 deletions
diff --git a/benchmark/bm_so_mandelbrot.rb b/benchmark/bm_so_mandelbrot.rb index 2c05878863..76331c64b8 100644 --- a/benchmark/bm_so_mandelbrot.rb +++ b/benchmark/bm_so_mandelbrot.rb @@ -1,57 +1,57 @@ -# The Computer Language Benchmarks Game
-# http://shootout.alioth.debian.org/
-#
-# contributed by Karl von Laudermann
-# modified by Jeremy Echols
-
-size = 600 # ARGV[0].to_i
-
-puts "P4\n#{size} #{size}"
-
-ITER = 49 # Iterations - 1 for easy for..in looping
-LIMIT_SQUARED = 4.0 # Presquared limit
-
-byte_acc = 0
-bit_num = 0
-
-count_size = size - 1 # Precomputed size for easy for..in looping
-
-# For..in loops are faster than .upto, .downto, .times, etc.
-for y in 0..count_size
- for x in 0..count_size
- zr = 0.0
- zi = 0.0
- cr = (2.0*x/size)-1.5
- ci = (2.0*y/size)-1.0
- escape = false
-
- # To make use of the for..in code, we use a dummy variable,
- # like one would in C
- for dummy in 0..ITER
- tr = zr*zr - zi*zi + cr
- ti = 2*zr*zi + ci
- zr, zi = tr, ti
-
- if (zr*zr+zi*zi) > LIMIT_SQUARED
- escape = true
- break
- end
- end
-
- byte_acc = (byte_acc << 1) | (escape ? 0b0 : 0b1)
- bit_num += 1
-
- # Code is very similar for these cases, but using separate blocks
- # ensures we skip the shifting when it's unnecessary, which is most cases.
- if (bit_num == 8)
- print byte_acc.chr
- byte_acc = 0
- bit_num = 0
- elsif (x == count_size)
- byte_acc <<= (8 - bit_num)
- print byte_acc.chr
- byte_acc = 0
- bit_num = 0
- end
- end
-end
+# The Computer Language Benchmarks Game +# http://shootout.alioth.debian.org/ +# +# contributed by Karl von Laudermann +# modified by Jeremy Echols + +size = 600 # ARGV[0].to_i + +puts "P4\n#{size} #{size}" + +ITER = 49 # Iterations - 1 for easy for..in looping +LIMIT_SQUARED = 4.0 # Presquared limit + +byte_acc = 0 +bit_num = 0 + +count_size = size - 1 # Precomputed size for easy for..in looping + +# For..in loops are faster than .upto, .downto, .times, etc. +for y in 0..count_size + for x in 0..count_size + zr = 0.0 + zi = 0.0 + cr = (2.0*x/size)-1.5 + ci = (2.0*y/size)-1.0 + escape = false + + # To make use of the for..in code, we use a dummy variable, + # like one would in C + for dummy in 0..ITER + tr = zr*zr - zi*zi + cr + ti = 2*zr*zi + ci + zr, zi = tr, ti + + if (zr*zr+zi*zi) > LIMIT_SQUARED + escape = true + break + end + end + + byte_acc = (byte_acc << 1) | (escape ? 0b0 : 0b1) + bit_num += 1 + + # Code is very similar for these cases, but using separate blocks + # ensures we skip the shifting when it's unnecessary, which is most cases. + if (bit_num == 8) + print byte_acc.chr + byte_acc = 0 + bit_num = 0 + elsif (x == count_size) + byte_acc <<= (8 - bit_num) + print byte_acc.chr + byte_acc = 0 + bit_num = 0 + end + end +end |