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@ -659,13 +659,14 @@ fight(Lion("RAR"),Lion("brown","rarrr")) #=> prints The lions come to a tie
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# Under the hood
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# You can take a look at the llvm intermediate code and the assembly code generated.
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# You can take a look at the llvm and the assembly code generated.
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square_area(l) = l * l # square_area (generic function with 1 method)
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square_area(5) #25
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code_native(square_area, (Int32,)) # What happens when we feed square_area an integer?
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# What happens when we feed square_area an integer?
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code_native(square_area, (Int32,))
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# .section __TEXT,__text,regular,pure_instructions
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# Filename: none
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# Source line: 1 # Prologue
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@ -673,7 +674,7 @@ code_native(square_area, (Int32,)) # What happens when we feed square_area an i
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# mov RBP, RSP
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# Source line: 1
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# movsxd RAX, EDI # Fetch l from memory?
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# imul RAX, RAX # 32bit square of l and store the result in RAX
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# imul RAX, RAX # Square l and store the result in RAX
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# pop RBP # Restore old base pointer
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# ret # Result will still be in RAX
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@ -684,7 +685,7 @@ code_native(square_area, (Float32,))
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# push RBP
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# mov RBP, RSP
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# Source line: 1
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# vmulss XMM0, XMM0, XMM0 # Scalar single precision multiplication (AVX) (in this case square the number)
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# vmulss XMM0, XMM0, XMM0 # Scalar single precision multiply (AVX)
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# pop RBP
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# ret
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@ -695,11 +696,12 @@ code_native(square_area, (Float64,))
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# push RBP
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# mov RBP, RSP
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# Source line: 1
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# vmulsd XMM0, XMM0, XMM0 # Scalar double precision multiplacation (AVX)
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# vmulsd XMM0, XMM0, XMM0 # Scalar double precision multiply (AVX)
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# pop RBP
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# ret
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#
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# Note that julia will use floating point instructions if any of the arguements are floats.
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# Note that julia will use floating point instructions if any of the
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# arguements are floats.
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# Let's calculate the area of a circle
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circle_area(r) = pi * r * r # circle_area (generic function with 1 method)
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circle_area(5) # 78.53981633974483
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