[AlgoDat]die Unterschiede C – Java
“Während ich studiere, schreibe ich hier kurze Zusammenfassungen für eine längere Erinnerung.”
Quellen für das Schreiben oder den Inhalt befinden sich normalerweise ganz unten.
"공부하면서 더 오래 상기시키기 위해 여기에 짧은 요약을 씁니다."
글이나 내용의 출처는 보통 하단에 있습니다.
Quellen für das Schreiben oder den Inhalt befinden sich normalerweise ganz unten.
"공부하면서 더 오래 상기시키기 위해 여기에 짧은 요약을 씁니다."
글이나 내용의 출처는 보통 하단에 있습니다.
OS : Window Editor: IntelliJ IDEA
Abgesehen von den konzeptionellen Unterschieden zwischen objektorientierten (Java) Programmiersprachen und prozeduralen (C) Programmiersprachen verfügt C nicht über eine JVM, automatische Speicherverwaltung etc.
Hier ist eine Tabelle, die die Unterschiede zeigt.
| Thing | C | Java |
|---|---|---|
| type of language | function oriented | object oriented |
| basic programming unit | function | class = ADT |
| portability of source code | possible with discipline | yes |
| portability of compiled code | no, recompile for each architecture | yes, bytecode is “write once, run anywhere” |
| security | limited | built-in to language |
| compilation | gcc hello.c creates machine language code | javac Hello.java creates Java virtual machine language bytecode |
| linking in the Math library | gcc -lm calculate.c | no special flags needed |
| joint compilation | gcc main.c helper1.c helper2.c | javac Main.java - any dependent files are automatically re-compiled if needed |
execution |
a.out loads and executes program |
java Hello interprets byte code |
hello, world |
#include<stdio.h> int main(void) { printf("Hello\n"); return 0;} |
public class HelloWorld {public static void main(String[] args) {System.out.println("Hello");}} |
| integer types | int usually 32 bit 2’s complement; long usually 32 bit 2’s complement | int is 32 bit 2’s complement; long is 32 bit 2’s complement |
| floating point types | float usually 32 bit 2’s complement; double usually 32 bit 2’s complement | float is 32 bit IEEE 754 binary floating point; double is 64 bit IEEE 754 |
boolean type |
use int: 0 for false, nonzero for true |
boolean is its own type - stores value true or false |
| character type | char is usually 8 bit ASCII | char is 16 bit UNICODE |
| for loops | for (i = 0; i < N; i++) | for (int i = 0; i < N; i++) |
array declarations |
int _a = malloc(N _ sizeof(\*a)); |
int[] a = new int[N]; |
array size |
arrays don't know their own size |
a.length |
strings |
'\0'-terminated character array |
built-in immutable String data type |
accessing a library |
#include <stdio.h> |
import java.io.File; |
accessing a library function |
#include "math.h" x = sqrt(2.2); all function and variables names are global |
x = Math.sqrt(2.2); functions have different namespaces |
| printing to standard output | printf(“sum = %d”, x); | System.out.println(“sum = “ + x); |
| formatted printing | printf(“avg = %3.2f”, avg); | System.out.printf(“avg = %3.2f”, avg) |
| reading from stdin | scanf(“%d”, &x); | Java library support, but easier to use our library int x = StdIn.readInt(); |
memory address |
pointer |
reference |
| manipulating pointers | *, &, + | no direct manipulation permitted |
| functions | int max(int a, int b) | public static int max(int a, int b) |
| pass-by-value | primitive data types, structs, and pointers are passed by value; array decays to pointer | all primitive data types and references (which includes arrays), are passed by value |
defining a data structure |
struct |
class - key difference is language support for defining methods to manipulate data |
| accessing a data structure | a.numerator for elements | a.numerator for instance variables, c = a.plus(b) for methods |
| pointer chasing | x->left->right | x.left.right |
allocating memory |
malloc |
new |
de-allocating memory |
free |
automatic garbage collection |
| memory allocation of data structures and arrays | heap, stack, data, or bss | heap |
| buffer overflow | segmentation fault, core dump, unpredicatable program | checked run-time error exception |
| declaring constants | const and #define | final |
variable auto-initialization |
not guaranteed |
instance variables (and array elements) initialized to 0, null, or false, compile-time error to access uninitialized variables |
| data hiding | opaque pointers and static | private |
| interface method | non-static function | public method |
data type for generic item |
void \ |
Object |
| casting | anything goes | checked exception at run-time or compile-time |
| demotions | automatic, but might lose precision | must explicitly cast, e.g., to convert from long to int |
| polymorphism | union | inheritence |
| overloading | no | yes for methods, no for operators |
| graphics | use external libraries | Java library support, use our standard drawing library |
null |
NULL |
null |
| enumeration | enum | typesafe enum |
| preprocessor | yes | no |
variable declaration |
at beginning of a block |
before you use it |
variable naming conventions |
sum_of_squares |
sumOfSquares |
commenting |
/* */ |
/* */ or // |
file naming conventions |
stack.c, stack.h |
Stack.java - file name matches name of class |
| callbacks | pointers to global functions | use interfaces for commmand dispatching |
| variable number of arguments | varargs | String … |
| assertions | assert | assert |
| exit and return value to OS | exit(1) | System.exit(1) |
Quelle:https://introcs.cs.princeton.edu/java/faq/c2java.html
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