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author | Divay Prakash <divayprakash@users.noreply.github.com> | 2018-10-24 09:07:44 +0530 |
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committer | GitHub <noreply@github.com> | 2018-10-24 09:07:44 +0530 |
commit | 227b07b1d0fa2781c85378d0cad341b73ffbcf71 (patch) | |
tree | b704751326edb45917d566807a4292db6cdb6573 | |
parent | 868b22058fe14b270c55116d8a5943c2d708415b (diff) | |
parent | 9a8e722661c1afd0702e2174df54f8682b1fea44 (diff) |
Merge pull request #3256 from kaymmm/julia-case
[julia/en] fix for #1483
-rw-r--r-- | julia.html.markdown | 76 |
1 files changed, 38 insertions, 38 deletions
diff --git a/julia.html.markdown b/julia.html.markdown index 15c09da4..2fe05c49 100644 --- a/julia.html.markdown +++ b/julia.html.markdown @@ -114,12 +114,12 @@ println("I'm Julia. Nice to meet you!") # => I'm Julia. Nice to meet you! #################################################### # You don't declare variables before assigning to them. -some_var = 5 # => 5 -some_var # => 5 +someVar = 5 # => 5 +someVar # => 5 # Accessing a previously unassigned variable is an error try - some_other_var # => ERROR: UndefVarError: some_other_var not defined + someOtherVar # => ERROR: UndefVarError: someOtherVar not defined catch e println(e) end @@ -286,62 +286,62 @@ d # => 5 e # => 4 # Dictionaries store mappings -empty_dict = Dict() # => Dict{Any,Any} with 0 entries +emptyDict = Dict() # => Dict{Any,Any} with 0 entries # You can create a dictionary using a literal -filled_dict = Dict("one" => 1, "two" => 2, "three" => 3) +filledDict = Dict("one" => 1, "two" => 2, "three" => 3) # => Dict{String,Int64} with 3 entries: # => "two" => 2, "one" => 1, "three" => 3 # Look up values with [] -filled_dict["one"] # => 1 +filledDict["one"] # => 1 # Get all keys -keys(filled_dict) +keys(filledDict) # => Base.KeySet for a Dict{String,Int64} with 3 entries. Keys: # => "two", "one", "three" # Note - dictionary keys are not sorted or in the order you inserted them. # Get all values -values(filled_dict) +values(filledDict) # => Base.ValueIterator for a Dict{String,Int64} with 3 entries. Values: # => 2, 1, 3 # Note - Same as above regarding key ordering. # Check for existence of keys in a dictionary with in, haskey -in(("one" => 1), filled_dict) # => true -in(("two" => 3), filled_dict) # => false -haskey(filled_dict, "one") # => true -haskey(filled_dict, 1) # => false +in(("one" => 1), filledDict) # => true +in(("two" => 3), filledDict) # => false +haskey(filledDict, "one") # => true +haskey(filledDict, 1) # => false # Trying to look up a non-existent key will raise an error try - filled_dict["four"] # => ERROR: KeyError: key "four" not found + filledDict["four"] # => ERROR: KeyError: key "four" not found catch e println(e) end # Use the get method to avoid that error by providing a default value -# get(dictionary, key, default_value) -get(filled_dict, "one", 4) # => 1 -get(filled_dict, "four", 4) # => 4 +# get(dictionary, key, defaultValue) +get(filledDict, "one", 4) # => 1 +get(filledDict, "four", 4) # => 4 # Use Sets to represent collections of unordered, unique values -empty_set = Set() # => Set(Any[]) +emptySet = Set() # => Set(Any[]) # Initialize a set with values -filled_set = Set([1, 2, 2, 3, 4]) # => Set([4, 2, 3, 1]) +filledSet = Set([1, 2, 2, 3, 4]) # => Set([4, 2, 3, 1]) # Add more values to a set -push!(filled_set, 5) # => Set([4, 2, 3, 5, 1]) +push!(filledSet, 5) # => Set([4, 2, 3, 5, 1]) # Check if the values are in the set -in(2, filled_set) # => true -in(10, filled_set) # => false +in(2, filledSet) # => true +in(10, filledSet) # => false # There are functions for set intersection, union, and difference. -other_set = Set([3, 4, 5, 6]) # => Set([4, 3, 5, 6]) -intersect(filled_set, other_set) # => Set([4, 3, 5]) -union(filled_set, other_set) # => Set([4, 2, 3, 5, 6, 1]) +otherSet = Set([3, 4, 5, 6]) # => Set([4, 3, 5, 6]) +intersect(filledSet, otherSet) # => Set([4, 3, 5]) +union(filledSet, otherSet) # => Set([4, 2, 3, 5, 6, 1]) setdiff(Set([1,2,3,4]), Set([2,3,5])) # => Set([4, 1]) #################################################### @@ -349,15 +349,15 @@ setdiff(Set([1,2,3,4]), Set([2,3,5])) # => Set([4, 1]) #################################################### # Let's make a variable -some_var = 5 +someVar = 5 # Here is an if statement. Indentation is not meaningful in Julia. -if some_var > 10 - println("some_var is totally bigger than 10.") -elseif some_var < 10 # This elseif clause is optional. - println("some_var is smaller than 10.") +if someVar > 10 + println("someVar is totally bigger than 10.") +elseif someVar < 10 # This elseif clause is optional. + println("someVar is smaller than 10.") else # The else clause is optional too. - println("some_var is indeed 10.") + println("someVar is indeed 10.") end # => prints "some var is smaller than 10" @@ -488,14 +488,14 @@ keyword_args(k1="mine") # => ["name2"=>"hello", "k1"=>"mine"] keyword_args() # => ["name2"=>"hello", "k1"=>4] # You can combine all kinds of arguments in the same function -function all_the_args(normal_arg, optional_positional_arg=2; keyword_arg="foo") - println("normal arg: $normal_arg") - println("optional arg: $optional_positional_arg") - println("keyword arg: $keyword_arg") +function all_the_args(normalArg, optionalPositionalArg=2; keywordArg="foo") + println("normal arg: $normalArg") + println("optional arg: $optionalPositionalArg") + println("keyword arg: $keywordArg") end # => all_the_args (generic function with 2 methods) -all_the_args(1, 3, keyword_arg=4) +all_the_args(1, 3, keywordArg=4) # => normal arg: 1 # => optional arg: 3 # => keyword arg: 4 @@ -616,7 +616,7 @@ supertype(SubString) # => AbstractString # <: is the subtyping operator struct Lion <: Cat # Lion is a subtype of Cat - mane_color + maneColor roar::AbstractString end @@ -627,7 +627,7 @@ Lion(roar::AbstractString) = Lion("green", roar) # This is an outer constructor because it's outside the type definition struct Panther <: Cat # Panther is also a subtype of Cat - eye_color + eyeColor Panther() = new("green") # Panthers will only have this constructor, and no default constructor. end @@ -695,7 +695,7 @@ fight(tigger, Panther()) # => The orange tiger wins! fight(tigger, Lion("ROAR")) # => The orange tiger wins! # Let's change the behavior when the Cat is specifically a Lion -fight(t::Tiger, l::Lion) = println("The $(l.mane_color)-maned lion wins!") +fight(t::Tiger, l::Lion) = println("The $(l.maneColor)-maned lion wins!") # => fight (generic function with 2 methods) fight(tigger, Panther()) # => The orange tiger wins! |