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1d
comment Recursive Descent Parser Stack Overflow
For handling left recursive rules in a left recursive parser, see stackoverflow.com/questions/2245962/…
2d
comment If quantum computers will be invented how does the technology standards like C language syntax will change?
Quantum C? What an interesting thought. Consider a quantum pointer... only when one actually does a fetch indirect does it actually choose a particular object (any maybe not even then, if you don't inspect the fetched value!) :-} Even more fun: is that curly brace actually in the code, or not? You might not know until you looked at the source code.
May
21
comment JavaParser - Get typed AST
For software, most people don't want an answer that is 95% correct, especially if that last 5% is a vast amount of work (import lookup, generics, type erasure, anonymous classes, class files, ...) That was not clear from your answer. Yes, one needs something like what you have done as a starting place.
May
21
comment JavaParser - Get typed AST
"Making your own AST parser" and adding what it necessary to compute types for language like Java is much bigger exercise than you might guess; my company has done this for our own tools. Building the AST is by far the easier part. I suggest you find something that already does this and use it. The Java compiler has some kind of internal API for accessing parsed programs; I would assume it has type information somewhere, too.
May
21
comment JavaParser - Get typed AST
A "bit" of work? To handle all of Java8?
May
20
comment Narrow Parsing in a Compiler
(If you compiler generates code with triples, the problem just moves. When do you get rid of a bunch of triples representing a function, if you are doing interprocedural optimization?) The conceptually cleanest answer is, "when there is no dependency on it". So, an ideal answer would build a dependency list.
May
20
comment Narrow Parsing in a Compiler
The bad news is you may have to keep around a bunch of partially processed trees (might be easier to simply not process them at all until the scope completes); the good news is that you don't often have to keep a lot of them around. (Imagine poor GCC compiling a 2 million line file). People tend to like function boundaries, because they are more or less self contain if you are to compile code in chunks with simple interfaces. As your compiler gets more sophisticated, life gets more compilicated; if you are going to do interprocedural optimization, when you do pitch the current tree?
May
20
comment Narrow Parsing in a Compiler
Its easy enough to block on undiscovered identifiers: you put a dummy id into the first symbol table where you think it might be, if that symbol table isn't "complete" yet (e.g., it is the symbol table for the class), and then you set processing of that tree aside. Eventually, the symbol gets defined (you can actively continue processing the tree then or put it off until the scope closes), If the scope closes and the symbol isn't defined, then you push it out to the next scope and repeat. Its just that you have to careful to do this. ...
May
20
comment Narrow Parsing in a Compiler
PS: You don't need the lexer hack. See stackoverflow.com/questions/243383/…
May
20
revised Narrow Parsing in a Compiler
added 2 characters in body
May
20
comment Narrow Parsing in a Compiler
This is one of the reasons people tend to build whole ASTs when they can: suddenly, nobody accesses something before it is available :-} People obviously build compilers that hand chunks like functions, and just pay the organizational price.
May
20
comment Narrow Parsing in a Compiler
.... What you are going to discover is that there isn't any really "neat" cutting point where the semantic analyzer has to look only inside what you hand it. And where it has to reach off the top of the tree you hand it, you better have a strategy to prevent it from touching something that doesn't exist yet (C++ famously allows a class member function to refer to a class member variable that hasn't yet been declared). Even if you hand off entire functions, they still call each other. Going all futures all the time, ensure that nobody accesses something before it is available :-}
May
20
comment Narrow Parsing in a Compiler
Actually, its exactly what you have in mind; we're just arguing about the size of the pieces and how you implement the futures bit. First, no matter what size granularity you pick (variable, expression, statement, block) you'll still have to manage the parser handiing off that size fragment when it gets it, and the "semantic analyzer" getting control and doing its thing, before handing control back to the parser. That's what a future would do anyway. ,,,
May
20
answered Narrow Parsing in a Compiler
May
19
comment Any ideas on how to implement a SUPER FAST generic .NET object dirty check?
I REPEAT, it doesn't matter what kind of hash function you use, simple or spectacular.. It will not be able to detect some changes. If you don't mind losing data, then and only then will hashing be an acceptable answer.
May
19
comment Any ideas on how to implement a SUPER FAST generic .NET object dirty check?
I THINK THIS QUESTION SHOULD NOT HAVE BEEN CLOSED. OP DIDNT ASK ABOUT HOW TO HASH. HE ASKED ABOUT HOW TO DETECT DIRTY.
May
19
comment Any ideas on how to implement a SUPER FAST generic .NET object dirty check?
Any kind of hashing that you might do, might not detect a change in the object state. (Hashes map complex structures into fixed-size values; if there are more bits in your object than in the hash result, there must be at last two object images that have the same hash [pidgeon hole principal]. I can imagine that missing a dirty object can be disastrous for your program.
May
19
comment Static checking of AngularJS
Don't confuse "syntactically correct" for "compiles properly", or syntax-checking for static-analysis.
May
19
comment How can you convert HTML, CSS, and Javascript into a EXE?
Why can't you compile HMTL to machine code? Mostly the "markup" has an equivalent "draw this on the screen" that should be relatively easy to compile to native code. JavaScript I would expect to be hard to compile to x86 code; it is too dynamic.
May
19
revised Indirection on a DEC PDP 8
deleted 13 characters in body