Difference between revisions of "Scala (Language)"
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+ | == Official Materials == | ||
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+ | * [http://www.scala-lang.org/ Scala website] | ||
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== Notes == | == Notes == | ||
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* Seems like the <code>requires</code> clause is like <code>extends</code>, with the difference that the type being extended can be something like a trait or interface. | * Seems like the <code>requires</code> clause is like <code>extends</code>, with the difference that the type being extended can be something like a trait or interface. | ||
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+ | * Scala's behaviour to return the last computed value may be popular in functional programming communities, but it's nonetheless a problematic behaviour. Typing a keyword such as <code>return</code>, to express that this is the object to be returned, is not really asking too much. | ||
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[[Category:Computing]] | [[Category:Computing]] |
Latest revision as of 08:27, 24 December 2011
Official Materials
Notes
On "An Overview of the Scala Programming Language" An Overview of the Scala Programming Language, Second Edition, by Martin Odersky et.al
- The point of Scala's pattern matching feature is not quite clear to me.
- Scala's "id: type" syntax is rather less easy to read than Java's "type id" syntax.
- The "optional semicolon" idea is very problematic, delimitation of statements should be unambiguous, and the significance of tokens (whether semicolon or newline) should be unambiguous as well. Interpreting newline as a statement terminator if a statement terminator makes sense here is an idea that has wrought havoc in R already.
- The "value oriented" interpretation of the == operator seems problematic to me. What should the Scala programmer use to test for object identity?
- Also, the interpretation of "x == y" as "x.==(y)" might result in an asymmetry (loss of commutativity) which may prove particularly problematic. I'd generally consider it a good idea to have a mechanism that just is commutative, rather than having to rely on adherence to some kind of contract to ensure commutativity where that is required.
- The idea that language features such as comprehensions can be built on top of any type providing the appropriate methods / implementing the appropriate interfaces is quite attractive. Kind of like Python, where it's possible to pass any object implementing the methods read or readline where "normally" a file would be passed in.
- Interesting hack to declare parameters of type T as "=> T" ("function returning T") to lazily evaluate parameters of that type.
- According the "op1.operator(op2) is equivalent to op1 operator op2" rule, "op1 operator" represents a unary function that takes the missing operand. Hmm... is that awkward or just something to get used to?
- It's interesting that Scala uniformly supports abstraction via parameterisation and via abstract members. Does this result in a potential "many ways to do a thing" curse, though?
- The nonvariant / covariant / contravariant system of Scala seems very interesting. Perhaps it solves some of the problems of Java generics... although these problems are mainly due to prioritising backward compatibiltiy too much...
- The path dependent type concept is not (yet?) clear to me ... paths of what kind???
- Seems like the
requires
clause is likeextends
, with the difference that the type being extended can be something like a trait or interface.
- Scala's behaviour to return the last computed value may be popular in functional programming communities, but it's nonetheless a problematic behaviour. Typing a keyword such as
return
, to express that this is the object to be returned, is not really asking too much.