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https://github.com/uffejakobsen/acme.git
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ec2b7515ca
git-svn-id: https://svn.code.sf.net/p/acme-crossass/code-0/trunk@225 4df02467-bbd4-4a76-a152-e7ce94205b78
212 lines
4.1 KiB
Plaintext
212 lines
4.1 KiB
Plaintext
;ACME 0.96.5
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; "assert" macro
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!macro a @r {
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!if @r != 1 {
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!error "assertion failed"
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}
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}
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three = 3
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five = 5
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seven = 7
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fp = 123.456
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abcdef = $abcdef
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; literals
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+a 255 = $ff
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+a 255 = 0xFF
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+a 255 = %#1#1#1#1
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+a 255 = 0b1111####
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+a 255 = &377
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+a 33 = '!'
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; test monadic operators
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+a NOT 1 = -2
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+a -three = -3
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+a <abcdef = $ef
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+a >abcdef = $cd
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+a ^abcdef = $ab
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+a addr(abcdef) = abcdef
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+a int(abcdef) = abcdef
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+a float(three) = three
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+a three = float(three)
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+a float(fp) != int(fp)
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+a int(fp) != float(fp)
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+a float(three) = int(three)
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+a int(three) = float(three)
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+a sin(3.14) > 0
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+a cos(0.1) > 0.9
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+a tan(3.1415 / 2) > 1
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+a arcsin(1) > 1.57
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+a arccos(0) > 1.57
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+a arctan(1) > 0.78
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; test dyadic operators
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+a three^five = 3*3*3*3*3
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+a three*five = 15
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+a 15 / 2 = 7
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+a 15.0 / 2 = 7.5
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+a 15.0 DIV 2.0 = 7
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+a 17 % 3 = 2
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+a 3 << 3 = 24
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+a -5 >> 2 = -2
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+a 24 >> 3 = 3
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+a -1 >> 3 = -1
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+a 24 >>> 3 = 3
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+a five + three = 8
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+a five - three = 2
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+a 2*3 = 1+5
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+a 2<=3
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+a 2<=2
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+a 2<3
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+a 3>=3
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+a 3>=2
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+a 3>2
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+a 2!=3
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+a (abcdef & $a0c0e0) = $a0c0e0
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+a (abcdef | $ff0001) = $ffcdef
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; +a ($aa eor $55) = $ff
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+a ($aa xor $55) = $ff
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; priorities
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+a 3 + 4 * 5 = 23
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+a 4 * 5 + 3 = 23
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+a 4.1 * 5.1 + 3.1 > 23.1
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+a (15 or 3 xor 5) = (15 or (3 xor 5))
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+a (15 or 3 xor 5) != ((15 or 3) xor 5)
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+a (15 xor 3 and 5) = (15 xor (3 and 5))
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+a (15 xor 3 and 5) != ((15 xor 3) and 5)
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+a (5 and 3 = 3) = (5 and (3 = 3))
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+a (5 and 3 = 3) != ((5 and 3) = 3)
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+a (1 = 2 != 0) = (1 = (2 != 0))
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+a (1 = 2 != 0) != ((1 = 2) != 0)
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+a (0 != 3 < 2) = (0 != (3 < 2))
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+a (0 != 3 < 2) != ((0 != 3) < 2)
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; < and > comparisons have the same priority, so this actually checks left-associativity:
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+a (3 <= 3 > 0) = ((3 <= 3) > 0)
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+a (3 <= 3 > 0) != (3 <= (3 > 0))
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+a (<257 > 1) = ((<257) > 1)
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+a (<257 > 1) != (<(257 > 1))
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+a (<256 >> 4) = (<(256 >> 4))
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+a (<256 >> 4) != ((<256) >> 4)
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; shifts have the same priority, so this actually checks left-associativity:
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+a (16 >>> 2 >> 1) = ((16 >>> 2) >> 1)
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+a (16 >>> 2 >> 1) != (16 >>> (2 >> 1))
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+a (16 >> 2 << 1) = ((16 >> 2) << 1)
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+a (16 >> 2 << 1) != (16 >> (2 << 1))
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+a (8 << 4 >>> 2) = ((8 << 4) >>> 2)
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+a (8 << 4 >>> 2) != (8 << (4 >>> 2))
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+a (3 >> 1 + 5) = (3 >> (1 + 5))
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+a (3 >> 1 + 5) != ((3 >> 1) + 5)
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; + and - have the same priority, so this actually checks left-associativity:
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+a (3 - 5 + 7) = ((3 - 5) + 7)
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+a (3 - 5 + 7) != (3 - (5 + 7))
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; test left-associativity
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+a 11-5-3 = 3
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+a 11-5-3 != 9
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+a (3 + 5 * 7) = (3 + (5 * 7))
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+a (3 + 5 * 7) != ((3 + 5) * 7)
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; *, /, DIV and MOD have the same priority, so this actually checks left-associativity:
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+a (7 * 5 MOD 7) = ((7 * 5) MOD 7)
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+a (7 * 5 MOD 7) != (7 * (5 MOD 7))
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+a (-14 + 5) = ((-14) + 5)
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+a (-14 + 5) != (-(14 + 5))
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+a (-3^2) = -(3^2)
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+a (-3^2) != (-3)^2
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; test right-associativity
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+a 2^3^4 = 2^(3^4)
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+a 2^3^4 != (2^3)^4
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+a NOT 3 ^ 5 = ((NOT 3) ^ 5)
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+a NOT 3 ^ 5 != (NOT (3 ^ 5))
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+a int(3 + 4) + .8 = (int(3 + 4) + .8)
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+a int(3 + 4) + .8 != int((3 + 4) + .8)
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; test dyadics with different arg types
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; int/int
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+a 3 ^ 2 = 9
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+a 3 * 2 = 6
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+a 6 / 2 = 3
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+a 5 DIV 2 = 2
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+a 3 + 2 = 5
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+a 6 - 4 = 2
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+a 2 <= 3
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+a 2 < 3
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+a 3 >= 2
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+a 3 > 2
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+a 2 != 3
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+a 2 = 2
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+a 5 MOD 2 = 1
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+a 5 >>> 1 = 2
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+a (5 & 1) = 1
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+a (5 | 2) = 7
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; +a (5 EOR 2) = 7
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+a (5 XOR 2) = 7
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+a 5 << 2 = 20
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+a 5 >> 2 = 1
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; int/float
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+a 3 ^ 2.0 = 9
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+a 3 * 2.0 = 6
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+a 6 / 2.0 = 3
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+a 5 DIV 2.0 = 2
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+a 3 + 2.0 = 5
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+a 6 - 4.0 = 2
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+a 2 <= 3.0
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+a 2 < 3.0
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+a 3 >= 2.0
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+a 3 > 2.0
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+a 2 != 3.0
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+a 2 = 2.0
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+a 5 MOD 2.0 = 1
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+a 5 << 2.0 = 20
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+a 5 >> 2.0 = 1
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; float/int
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+a 3.0 ^ 2 = 9
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+a 3.0 * 2 = 6
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+a 6.0 / 2 = 3
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+a 5.0 DIV 2 = 2
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+a 3.0 + 2 = 5
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+a 6.0 - 4 = 2
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+a 2.0 <= 3
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+a 2.0 < 3
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+a 3.0 >= 2
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+a 3.0 > 2
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+a 2.0 != 3
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+a 2.0 = 2
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+a 5.0 MOD 2 = 1
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+a 5.0 << 2 = 20
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+a 5.0 >> 2 = 1.25
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; float/float
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+a 3.0 ^ 2.0 = 9
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+a 3.0 * 2.0 = 6
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+a 6.0 / 2.0 = 3
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+a 5.0 DIV 2.0 = 2
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+a 3.0 + 2.0 = 5
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+a 6.0 - 4.0 = 2
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+a 2.0 <= 3.0
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+a 2.0 < 3.0
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+a 3.0 >= 2.0
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+a 3.0 > 2.0
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+a 2.0 != 3.0
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+a 2.0 = 2.0
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+a 5.0 MOD 2.0 = 1
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+a 5.0 << 2.0 = 20
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+a 5.0 >> 2.0 = 1.25
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