Hi, did you meet with situation that one function from static lib did work, and other was throwing errors during runtime? I'm talking about connector c++ lib- result->getInt does work, but result->getString throws 'access violation'
but only when I want to assign value to variable
when I just call result->getString it doesn't complain
In proof theory and mathematical logic, sequent calculus is a family of formal systems sharing a certain style of inference and certain formal properties. The first sequent calculi, systems LK and LJ, were introduced by Gerhard Gentzen in 1934 as a tool for studying natural deduction in first-order logic (in classical and intuitionistic versions, respectively). Gentzen's so-called "Main Theorem" (Hauptsatz) about LK and LJ was the cut-elimination theorem, a result with far-reaching meta-theoretic consequences, including consistency. Gentzen further demonstrated the power and flexibility ...
I really don't understand some of Bjarne's exercises in his book TCPL: e.g. "What, on your system, are the restrictions on the pointer types char *, int *, and void*? For example, may an int* have an odd value? Hint: alignment"
Data structure alignment is the way data is arranged and accessed in computer memory. It consists of two separate but related issues: data alignment and data structure padding. When a modern computer reads from or writes to a memory address, it will do this in word sized chunks (e.g. 4 byte chunks on a 32-bit system). Data alignment means putting the data at a memory offset equal to some multiple of the word size, which increases the system's performance due to the way the CPU handles memory. To align the data, it may be necessary to insert some meaningless bytes between the end of the la...
Though compressing booleans into bitmaps is a rather aggressive space optimisation with some performance implications, and I doubt JVM does that to every bool.
most hardware these days are powerful enough that you can stuff your own server inside virtualbox - as long as you can get a static IP to serve to the world, you're all set...
I meant SOPA-in-the-abstract... ...there are enough laws on the books for the feds to act - the surprising thing about this news is the global reach of the feds
@Leoheart An object is an instance of a type. In order to use an object, there must be one. Objects are created from raw memory by executing a constructor that sets up the type's invariants. This is called construction.
@Leoheart This won't compile, because new T returns a T*, which you cannot assign to a T. (Are you sure you are in the right room? This is not the Java room, nor the C# one.)
@Leoheart The right side of the assignment is called a "new expression". It does two things. First, a chunk of memory big enough to house an object of type Base is allocated by calling the appropriate operator new. Then the constructor of Base is invoked at that address, creating a Base object. The address is then returned by the new expression and subsequently assigned to b.
Note that this two-step approach to object creation (1. memory allocation, 2. constructor call) is true even for objects created on the stack: Base b;. First, the memory is allocated on the stack, then the constructor is called at the address. After constructor finishes, there is an object where before was only raw memory.
When an object is destroyed (automatically for objects on the stack, manually — by invoking delete — for objects on the heap), the sequence is the opposite: First, the destructor is called, and then the memory is deallocated.
@Leoheart First off: There's nothing in the standard requiring compilers to use virtual tables. If they can do with dead kittens instead, then that's fine with the C++ standard.
Virtual tables are set up for an object before the constructor is called. They are set to the type for which the constructor is about to get called.
That is, in an inheritance scenario, where constructors are called from base to derived classes, in any constructor executed, you can never call a virtual function and arrive in on overload belonging to a type that's derived from the one the constructor is called.
(That's quite a mouthful. You might need some time to digest that. But it's important.)
striaght back to my question, implementation of it and how are the entries filled. what are the key value pair.. assuming its a map. Or it could even be an array.
or any damn data structure. What i want to understand is how are these entries filled, with what values, what do we consider here for efficiency..
Order can be arbitrary because to call a member, a class definition has to be available. The index to lookup can be determined by following the same arbitrary rules that were used to establish the table in the first place.
So you can order according to alphabetical order of member names, or lexicographical order of the token string, or whatever.
Rubber duck debugging, Rubber Ducking, or the Rubber Duckie Test is an informal term used in software engineering to refer to a method of debugging code. The name is a reference to an apocryphal story in which an unnamed expert programmer would keep a rubber duck by his desk at all times, and debug his code by forcing himself to explain it, line-by-line, to the duck.
The process is to meticulously explain code to an inanimate object, such as a rubber duck. It is expected that when the programmer comes across a piece of code that is incorrect, they will realize this.
Other debugging usa...
Because once an interviewer embarassed me in front of a team and i dont want to be embarassed again plus, ever good program should know most of the stuff which he may deal in.
Cat Plus, you program just asked me to commit suicide.
You may learn more from writing your own dynamic dispatch implementation in a language that doesn't support it (say, like C) than trying to reverse-engineer a preexisting one. YMMV.
@CatPlusPlus Now trying to wiggle out of this embarrassing situation, are we?
Constructors are called base first, derived later, so that base class sub-objects are constructed when derived constructors are executed. Before base::base is called, the virtual table pointer is initialized to the virtual table for base. After the constructor has executed, it's initialized to the virtual table for derived, and then derived::derived is called. Then it's set to derivedderived, and derivedderived::derivedderived is called.
"...the virtual table pointer is initialized to the virtual table for base." "...it's initialized to the virtual table for derived..."...it's set to derivedderived..."
The VT entries for Base will point to the Base implementations while the VT entries for the derived classes will point to their respective derived implementations.
I thought I had a need for std::mem_fn, but it turns out I need mem_fn-like functionality while still packaging an object with it. So like bind, except I don't want to use placeholders.
And in turn I need that to implement a smart operator which would be super neat with my own lazy-eval DSL.
Oh, I can use a utility that detects arity from pointer to members and then fill in a call to bind with appropriate placeholders.
I get these randomly ever since my last snapshot. I thought GCC couldn't handle specific TUs, but after reenabling them it can compile them. Sometimes.
For even more WTF the TU that just failed hasn't been modified for a long time.
Yep, apparently adding that arity_of trait to my type traits broke the TU.
I'm just a bit forlorn since I thought packaging a pointer-to-member + an object would be easy. I really want to move on to the interesting stuff (the DSL).
Welp, I'm just going to manually unpack whatever is convertible to a reference, so that'll pick up std::reference_wrapper.