幾乎所有程式語言的hello, world程式(1)
阿新 • • 發佈:2019-01-21
簡介
“hello, world”程式是指在電腦螢幕上列印/輸出”hello, world”這行字串的應用程式。該範例最早出自1972年由貝爾實驗室成員布萊恩柯林漢撰寫的內部技術檔案”A Tutorial Introduction to the Language B”中,不久同作者於1974年所寫的”Programming in C: A Tutorial”也使用了這個範例,而以本文件所改寫的《C語言程式設計》也保留了這個範例。
但是需要注意的是,Hello World的標準程式是”hello, world”,沒有雙引號和驚歎號,全部小寫,並且在逗號後留有空格。
雖然都來自網路……但排版了好久好久好久……………………
1C-Enterprise
Message("Hello, World!");4Test
testcase printHelloWorld()
print("Hello World!")ABAP4
REPORT ZHB00001.
*Hello world in ABAP/4 *
WRITE: 'Hello world'.ACPI Source Language
Scope(\) {
Method(_WAK) {
Store ("Hello World", Debug)
Return(Package(2 Action!
PROC Main()
PrintE("Hello World!")
RETURNActionScript 3.0
var t:TextField=new TextField();
t.text="Hello World!";
addChild(t);Actionscript-Flash5
trace ("Hello World"); ActionScript-Flash8
class HelloWorld
{
private var helloWorldField:TextField;
public Actionscript-FlashMX
// Hello World in Actionscript (Flash MX onwards)
_root.createTextField("mytext",1,100,100,300,100);
mytext.multiline = true;
mytext.wordWrap = true;
mytext.border = false;
myformat = new TextFormat();
myformat.color = 0xff0000;
myformat.bullet = false;
myformat.underline = true;
mytext.text = "Hello World!";
mytext.setTextFormat(myformat);Ada
-- Hello World in Ada
with Text_IO;
procedure Hello_World is
begin
Text_IO.Put_Line("Hello World!");
end Hello_World;ADVPL
// Hello World in ADVPL
User Function Hello()
Local cMsg := "Hello, world!"
conout(cMsg)
MsgInfo(cMsg)
ReturnAlgol-60
'BEGIN'
'COMMENT' Hello World in Algol 60;
OUTPUT(4,'(''('Hello World!')',/')')
'END'Algol-68
( # Hello World in Algol 68 # print(("Hello World!",newline)))Alpha-Five-Xbasic
' Hello World in Alpha Five Xbasic
ui_msg_box("The 'Hello World' Collection", "Hello World", UI_ATTENTION_SYMBOL)amharic
// Hello World in Clipper
? "Hello World"
Amiga-E
-> Hello World in Amiga-E
PROC main() IS WriteF('Hello World\n')AMOS
Back to index
Rem Hello world in AMOS
Print "Hello world!"AngelScript
// Hello world in AngelScript
void main() { print("Hello world\n"); }Ante
9♦8♥J♦A♦2♣3♥7♠J♦A♦7♦J♦J♦A♦3♦J♦5♥6♦4♥J♥A♥6♠6♠J♥A♦8♦J♦A♦8♠J♦A♦3♦J♦A♦6♠J♦A♦8♠J♦A♥3♦2♠J♥A♥2♣6♠J♥
APC
// Hello World in the APC language for probes
probe program
{
on_entry log ("Hello, world!\n");
}APL
⍝ Hello World in APL
⎕←\'Hello World\'
AppleScript
-- "Hello World" in AppleScript:
display dialog "Hello World"Arena
// Hello world in Arena
print("Hello World!");Argh!
Hello World in Argh!. No comment character exists.
j world
lppppppPPPPPPsrfj
hello, * j
qPhArnoldC
IT'S SHOWTIME
TALK TO THE HAND "Hello World"
YOU HAVE BEEN TERMINATEDASP-CSharp
<!-- Hello World for ASP.NET using C# -->
<% @ Page Language="C#" %>
<% ="Hello World!" %>
ASP-JavaScript
<%@ language="javascript" %>
<html><body>
<%
Response.Write('Hello World!');
%>
</body></html>ASP-VBE
<!-- Hello World in ASP-VBE (Visual Basic Script Encided) -->
<html>
<script language="VBScript.Encode">#@~^[email protected]#@&HdTAK6PrCsVKP WMV[[email protected]#@&HwcAAA==^#[email protected]</script>
</html>ASP-VBS
Hello World for Microsoft ASP (in VBScript)
<%@ language="vbscript" %>
<html><body>
<%
Response.write "Hello World!"
%>
</body></html>
ASP.NET
<!-- Hello World in ASP.NET -->
<%= "Hello World!" %>Assembler-6502-AppleII
**********************************
* *
* HELLO WORLD FOR 6502 *
* APPLE ][, MERLIN ASSEMBLER *
* *
**********************************
STROUT EQU $DB3A ;OUTPUTS AY-POINTED NULL TERMINATED STRING
LDY #>HELLO
LDA #<HELLO
JMP STROUT
HELLO ASC "HELLO WORLD!",00Assembler-6502-C64
; Hello World for 6502 Assembler (C64)
ldy #0
beq in
loop:
jsr $ffd2
iny
in:
lda hello,y
bne loop
rts
hello: .tx "Hello World!"
.by 13,10,0
Assembler-68000-Amiga
; Hello World in 68000 Assembler for dos.library (Amiga)
move.l #DOS
move.l 4.w,a6
jsr -$0198(a6) ;OldOpenLibrary
move.l d0,a6
beq.s .Out
move.l #HelloWorld,d1
A) moveq #13,d2
jsr -$03AE(a6) ;WriteChars
B) jsr -$03B4 ;PutStr
move.l a6,a1
move.l 4.w,a6
jsr -$019E(a6) ;CloseLibrary
.Out rts
DOS dc.b 'dos.library',0
HelloWorld dc.b 'Hello World!',$A,0Assembler-68000-AtariST
; Hello World in 68000 Assembler (Atari ST)
move.l #helloworld,-(A7)
move #9,-(A7)
trap #1
addq.l #6,A7
move #0,-(A7)
trap #1
helloworld:
dc.b "Hello World!",$0d,$0a,0Assembler-68008
; Hello World in 68008 Assembler (Sinclar QL)
move.l #0,a0
lea.l mess,a1
move.w $d0,a2
jsr (a2)
rts
mess dc.w 12
dc.b 'Hello World!',10
endAssembler-8051
-- Hello World in Assembler for the Intel 8051 (MSC51)
Org 0
mov dptr,#msg
mov R0,#30h
loop:
clr a
movc a,@a+dptr
jz end
mov @R0,a
inc R0
inc dptr
sjmp loop
end:
jmp $
msg:
db 'Hello World",0
Assembler-ARM
; Hello World in ARM code assembler, with RISC OS software interrupt
SWI "OS_WriteS"
EQUS "Hello World!"
EQUB 0
ALIGN
MOV PC,R14Assembler-Darwin-PPC
; Hello World in Assembler for the Darwin Power-PC
.data
.cstring
.align 2
msg:
.asciz "Hello world!\n"
len = . - msg
.text
.align 2
.globl _start
_start:
li r0,4
li r3,1
lis r4,ha16(msg)
ori r4,r4,lo16(msg)
li r5,len
sc
li r0,1
li r3,0
sc
Assembler-DG-Nova
.TITL HELLO
02 ; "HELLO, WORLD" FOR NOVA RUNNING RDOS
03 ; USES PCHAR SYSTEM CALL
04 .NREL
05 .ENT START
06
07 START:
08 00000'022424 DOCHAR: LDA 0,@PMSG ; LOAD AC0 WITH NEXT CHARACTER,
09 00001'101015 MOV# 0,0,SNR ; TEST AC0;
10 00002'000412 JMP DONE ; SKIPPED IF NONZERO
11 00003'006017 .SYSTM
12 00004'010000 .PCHAR ; PRINT FIRST
13 00005'000413 JMP ER ; SKIPPED IF OK
14 00006'101300 MOVS 0,0 ; SWAP BYTES
15 00007'006017 .SYSTM
16 00010'010000 .PCHAR ; PRINT SECOND
17 00011'000407 JMP ER ; SKIPPED IF OK
18 00012'010412 ISZ PMSG ; POINT TO NEXT WORD
19 00013'000765 JMP DOCHAR ; GO AROUND AGAIN
20
21 00014'006017 DONE: .SYSTM ; NORMAL EXIT
22 00015'004400 .RTN
23 00016'000402 JMP ER
24 00017'063077 HALT
25 00020'006017 ER: .SYSTM ; ERROR EXIT
26 00021'006400 .ERTN
27 00022'063077 HALT
28 00023'063077 HALT
29
30 00024'000025'PMSG: .+1 ; ADDRESS OF FIRST WORD OF TEXT
31 ; NOTE BYTES ARE PACKED RIGHT-TO-LEFT BY DEFAULT
32 00025'042510 .TXT /HELLO, WORLD!<15><12>/ ; THAT'S CR LF
33 046114
34 026117
35 053440
36 051117
37 042114
38 006441
39 000012
40 00035'000000 0 ; FLAG WORD TO END STRING
41
42 .END STARTAssembler-HLA
; Hello World for Intel compatible High Level Assembler
program HELLO;
#include( "stdlib.hhf" );
begin HELLO;
stdout.put("Hello World",nl);
end HELLO;Assembler-IBM-370
ITLE 'Hello World for IBM Assembler/370 (VM/CMS)'
HELLO START
BALR 12,0
USING *,12
*
WRTERM 'Hello World!'
*
SR 15,15
BR 14
*
END HELLOAssembler-Intel
; Hello World for Intel Assembler (MSDOS)
mov ax,cs
mov ds,ax
mov ah,9
mov dx, offset Hello
int 21h
xor ax,ax
int 21h
Hello:
db "Hello World!",13,10,"$"Assembler-Itanium
/* Hello world for IA64 (Itanium) Assembly */
.HW:
stringz "Hello World"
.text
.align 16
.global main#
.proc main#
main:
.prologue 14, 32
.save ar.pfs, r33
alloc r33 = ar.pfs, 0, 4, 1, 0
.vframe r34
mov r34 = r12
adds r12 = -16, r12
mov r35 = r1
.save rp, r32
mov r32 = b0
.body
addl r14 = @ltoffx(.HW), r1
;;
ld8.mov r14 = [r14], .HW
;;
st8 [r34] = r14
ld8 r36 = [r34]
br.call.sptk.many b0 = puts#
mov r1 = r35
;;
mov ar.pfs = r33
mov b0 = r32
.restore sp
mov r12 = r34
br.ret.sptk.many b0Assembler-Linux
;; Hello World for the nasm Assembler (Linux)
SECTION .data
msg db "Hello, world!",0xa ;
len equ $ - msg
SECTION .text
global main
main:
mov eax,4 ; write system call
mov ebx,1 ; file (stdou)
mov ecx,msg ; string
mov edx,len ; strlen
int 0x80 ; call kernel
mov eax,1 ; exit system call
mov ebx,0
int 0x80 ; call kernelAssembler-MIPS
.globl main
main: jal hwbody #call Hello Word Procedure
trap 10 #exit
hwbody: addi $30, $30,-4 #we need to preserve
sw $4, 0($30) #existing values in register 4
addi $4,$0,72 # H
trap 101
addi $4,$0,101 # e
trap 101
addi $4,$0,108 # l
trap 101
trap 101 # l
addi $4,$0,111 # o
trap 101
addi $4,$0,32 # <space>
trap 101
addi $4,$0,87 # W
trap 101
addi $4,$0,111 # o
trap 101
addi $4,$0,114 # r
trap 101
addi $4,$0,108 # l
trap 101
addi $4,$0,100 # d
trap 101
addi $4,$0,33 # !
trap 101
addi $4,$0,10 # \n
trap 101
done: lw $4, 0($30) #restore values
addi $30, $30, 4 #in register 4
jr $31 #return to the mainAssembler-MMIX
* Hello World in Assembler
* for the MMIX Computer
LOC #100
Main GETA $255,String
TRAP 0,Fputs,StdOut
TRAP 0,Halt,0
String BYTE "Hello, world!",#a,0Assembler-PA-RISC
// Hello World written in PA-RISC 2.0 assembly code
.LEVEL 2.0N
.SPACE $TEXT$,SORT=8
.SUBSPA $CODE$,QUAD=0,ALIGN=4,ACCESS=0x2c,CODE_ONLY,SORT=24
main
.PROC
.CALLINFO CALLER,FRAME=16,SAVE_RP,ORDERING_AWARE
.ENTRY
STW %r2,-20(%r30) ;offset 0x0
LDO 64(%r30),%r30 ;offset 0x4
ADDIL LR'M$3-$global$,%r27,%r1 ;offset 0x8
LDO RR'M$3-$global$(%r1),%r1 ;offset 0xc
STW %r1,-56(%r30) ;offset 0x10
ADDIL LR'M$3-$global$+16,%r27,%r1 ;offset 0x14
LDO RR'M$3-$global$+16(%r1),%r26 ;offset 0x18
LDW -56(%r30),%r25 ;offset 0x1c
LDIL L'printf,%r31 ;offset 0x20
.CALL ARGW0=GR,ARGW1=GR,RTNVAL=GR ;in=25,26;out=28;
BE,L R'printf(%sr4,%r31),%r31 ;offset 0x24
COPY %r31,%r2 ;offset 0x28
LDW -84(%r30),%r2 ;offset 0x2c
BVE (%r2) ;offset 0x30
.EXIT
LDO -64(%r30),%r30 ;offset 0x34
.PROCEND ;
.SPACE $TEXT$
.SUBSPA $CODE$
.SPACE $PRIVATE$,SORT=16
.SUBSPA $DATA$,QUAD=1,ALIGN=8,ACCESS=0x1f,SORT=16
M$3
.ALIGN 8
.STRINGZ "Hello World"
.BLOCK 4
.STRINGZ "%s\n"
.IMPORT $global$,DATA
.SPACE $TEXT$
.SUBSPA $CODE$
.EXPORT main,ENTRY,PRIV_LEV=3,LONG_RETURN
.IMPORT printf,CODE
.ENDAssembler-PDP11
; Hello World in Assembler for the DEC PDP-11 with the
; RSX-11M-PLUS operating system
;
.title Hello
.ident /V0001A/
.mcall qiow$s, exit$s
.psect $code,ro,i
start: qiow$s #5,#5,,,,<#str, #len, #40>
exit$s
.psect $data,ro,d
str: .ascii / Hello World!/
len=.-str
.end startAssembler-PDP8
/ Hello World in Assembler for the DEC PDP-8
*200
hello, cla cll
tls / tls to set printer flag.
tad charac / set up index register
dca ir1 / for getting characters.
tad m6 / set up counter for
dca count / typing characters.
next, tad i ir1 / get a character.
jms type / type it.
isz count / done yet?
jmp next / no: type another.
hlt
type, 0 / type subroutine
tsf
jmp .-1
tls
cla
jmp i type
charac, . / used as initial value of ir1
310 / H
305 / E
314 / L
314 / L
317 / O
254 / ,
240 /
327 / W
317 / O
322 / R
314 / L
304 / D
241 / !
m6, -15
count, 0
ir1 = 10
$Assembler-VP
; Hello World in VP Assembler for intent (Amiga Anywhere)
.include 'tao'
tool 'home/hello',VP,TF_MAIN,8192,0
ent (-:-)
qcall lib/print,(hello_world.p : i~)
ret ()
entend
data
hello_world:
dc.b "Hello World!",ASCII_LF,0
toolendAssembler-Win32
; Hello world in Assembler for the Win32 architecture
TITLE Hello world in win32. Tasm
VERSION T310
Model use32 Flat,StdCall
start_code segment byte public 'code' use32
begin:
Call MessageBox, 0, offset sHallo, offset caption, 0
Call ExitProcess, 0
start_code Ends
start_data segment byte public 'data' use32
sHallo db 'Hello world',0
caption db "Hi",0
start_data Ends
End begin
Assembler-z390
; Hello World for z390 IBM compatible mainframe assembler
HELLO CSECT
USING *,15
WTO 'Hello World'
BR 14
END
Assembler-Z80-Console
; This is a "Hello World" program for Z80 and TMS9918 / TMS9928 / TMS9929 /
; V9938 or V9958 VDP.
; That means that this should work on SVI, MSX, Colecovision, Memotech,
; and many other Z80 based home computers or game consoles.
;
; Because we don't know what system is used, we don't know where RAM
; is, so we can't use stack in this program.
;
; This version of Hello World was written by Timo "NYYRIKKI" Soilamaa
; 17.10.2001
;
;----------------------------------------------------------------------
; Configure this part:
DATAP: EQU #98 ; VDP Data port #98 works on all MSX models
; (TMS9918/TMS9929/V9938 or V9958)
; #80 works on SVI
; (for other platforms you have to figure this out by your self)
CMDP: EQU #99 ; VDP Command port #99 works on all MSX models
; (TMS9918/TMS9929/V9938 or V9958)
; #81 works on SVI
; (for other platforms you have to figure this out by your self)
;-----------------------------------------------------------------------
; Program starts here:
ORG 0 ; Z80 starts always from here when power is turned on
DI ; We don't know, how interrupts works in this system, so we disable them.
; Let's set VDP write address to #0000
XOR A
OUT (CMDP),A
LD A,#40
OUT (CMDP),A
; Now let's clear first 16Kb of VDP memory
LD B,0
LD HL,#3FFF
LD C,DATAP
CLEAR:
OUT (C),B
DEC HL
LD A,H
OR L
NOP ; Let's wait 8 clock cycles just in case VDP is not quick enough.
NOP
JR NZ,CLEAR
; Now it is time to set up VDP registers:
;----------------------------------------
; Register 0 to #0
;
; Set mode selection bit M3 (maybe also M4 & M5) to zero and
; disable external video & horizontal interrupt
LD C,CMDP
LD E,#80
OUT (C),A
OUT (C),E
;----------------------------------------
; Register 1 to #50
;
; Select 40 column mode, enable screen and disable vertical interrupt
LD A,#50
INC E
OUT (C),A
OUT (C),E
;----------------------------------------
; Register 2 to #0
;
; Set pattern name table to #0000
XOR A
INC E
OUT (C),A
OUT (C),E
;----------------------------------------
; Register 3 is ignored as 40 column mode does not need color table
;
INC E
;----------------------------------------
; Register 4 to #1
; Set pattern generator table to #800
INC A
INC E
OUT (C),A
OUT (C),E
;----------------------------------------
; Registers 5 (Sprite attribute) & 6 (Sprite pattern) are ignored
; as 40 column mode does not have sprites
INC E
INC E
;----------------------------------------
; Register 7 to #F0
; Set colors to white on black
LD A,#F0
INC E
OUT (C),A
OUT (C),E
;----------------------------------------
; Let's set VDP write address to #808 so, that we can write
; character set to memory
; (No need to write SPACE it is clear char already)
LD A,8
OUT (C),A
LD A,#48
OUT (C),A
; Let's copy character set
LD HL,CHARS
LD B, CHARS_END-CHARS
COPYCHARS:
LD A,(HL)
OUT (DATAP),A
INC HL
NOP ; Let's wait 8 clock cycles just in case VDP is not quick enough.
NOP
DJNZ COPYCHARS
; Let's set write address to start of name table
XOR A
OUT (C),A
LD A,#40
OUT (C),A
; Let's put characters to screen
LD HL,ORDER
LD B,ORDER_END-ORDER
COPYORDER:
LD A,(HL)
OUT (DATAP),A
INC HL
JR OVERNMI
NOP
NOP
; Here is address #66, that is entry for NMI
RETN ;Return from NMI
OVERNMI:
DJNZ COPYORDER
; The end
HALT
; Character set:
; --------------
ORDER:
DEFB 1,2,3,3,4,0,5,4,6,3,7
ORDER_END:
CHARS:
; H
DEFB %10001000
DEFB %10001000
DEFB %10001000
DEFB %11111000
DEFB %10001000
DEFB %10001000
DEFB %10001000
DEFB %00000000
; e
DEFB %00000000
DEFB %00000000
DEFB %01110000
DEFB %10001000
DEFB %11111000
DEFB %10000000
DEFB %01110000
DEFB %00000000
; l
DEFB %01100000
DEFB %00100000
DEFB %00100000
DEFB %00100000
DEFB %00100000
DEFB %00100000
DEFB %01110000
DEFB %00000000
; o
DEFB %00000000
DEFB %00000000
DEFB %01110000
DEFB %10001000
DEFB %10001000
DEFB %10001000
DEFB %01110000
DEFB %00000000
; W
DEFB %10001000
DEFB %10001000
DEFB %10001000
DEFB %10101000
DEFB %10101000
DEFB %11011000
DEFB %10001000
DEFB %00000000
; r
DEFB %00000000
DEFB %00000000
DEFB %10110000
DEFB %11001000
DEFB %10000000
DEFB %10000000
DEFB %10000000
DEFB %00000000
; d
DEFB %00001000
DEFB %00001000
DEFB %01101000
DEFB %10011000
DEFB %10001000
DEFB %10011000
DEFB %01101000
DEFB %00000000
chars_end:Assembler-ZX81
; Hello World in Assembler for the ZX81 (Zilog Z80)
CALL SPRINT
DEFM HELLO WORLD.
DEFB FF
RET
SPRINT POP HL
LD A,(HL)
INC HL
PUSH HL
CP FF
RET Z
CALL PRINT
JR SPRINT
Asterisk
;; Hello world in Asterisk
exten => s,1,NoOp(Hello World)
ATS
// Hello world in ATS
implement main () = begin
print ("Hello, world!"); print_newline ()
endAutoHotkey
; Hello World in AutoHotkey
Msgbox Hello, World!
AutoIT3
;Hello, World for AutoIT3 http://www.autoitscript.com
msgbox(0,"Hello World",0)
AviSynth
# Hello World for AviSynth video editor
BlankClip()
Subtitle("Hello, world!")
AWK
# Hello world in AWK
BEGIN {
print "Hello World!"
}B
/* Hello World in B */
main() {
extern a, b, c;
putchar (a); putchar (b); putchar (c); putchar ('!*n');
}
a 'hell' ;
b 'o, w' ;
c 'orld' ;
BAL
Hello World in IBM mainframe Basic Assembler Language (BAL)
HELLO CSECT
STM R14,R12,12(R13)
LR R12,R15
USING HELLO,R12
LA R10,SAVEAREA
ST R13,4(R10)
ST R10,8(R13)
LR R13,R10
*
WTO 'HELLO WORLD',ROUTCDE=1
*
L R13,4(R13)
LM R14,R12,12(R13)
SR R15,R15
BCR B'1111',R14
*
SAVEAREA DS 18F
LTORG
R0 EQU 0
R1 EQU 1
R2 EQU 2
R3 EQU 3
R4 EQU 4
R5 EQU
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輸出Hello, World混亂C語言的原始碼
下面的所有程式都可以在GCC下編譯通過,只有最後一個需要動用C++的編譯器g++才能程式設計通過。
hello1.c #define _________ }
#defin
程式語言的底層描述(2)——棧指標esp和幀指標ebp
程式語言的底層描述(2)——棧指標esp和幀指標ebp
2014年10月11日 17:43:57 coreyspomu 閱讀數:3062更多
個人分類: 資訊標識和處理
本節我們重點討論棧指標esp和幀指標ebp,圍繞這兩個重要的暫存器,推匯出函式棧幀結構。
【程式語言學習 2 】(轉發)雜湊表(散列表)原理詳解
什麼是雜湊表?(其實就是把字元通過雜湊函式轉化為索引)
雜湊表(Hash table,也叫散列表),是根據關鍵碼值(Key value)而直接進行訪問的資料結構。也就是說,它通過把關鍵碼值對映到表中一個位置來訪問記錄,以加快查詢的速度。這個對映函式叫做雜湊函式
程式語言的底層描述(4)——遞迴函式彙編棧幀實現
這一節我們來討論遞迴函式棧幀實現。
一:mov和lea的含義和用法
在論述遞迴棧幀之前,回到第一節(1)中關於mov的闡述,說實話,就在寫這些文字之前,我以為自己理解了mov的含義,但是當看到lea操作時,大腦卻瞬間混亂,連之前認為熟練的mov也忽然打不到方向了。因此這裡
小程式學習之路--UI(1)
button.wxss
/* pages/button/button.wxss */
.container{
align-items: flex-start;
justify-content:
簡易小程式複習C語法基礎(1)
#include<stdio.h>
int main()
{
printf("Enter a number to sum:\n");
printf("Enter \"0\" if you want to quit.\n");
long su
一個屌絲程式設計師的感情線(1)
博主09年7月畢業,算起來差不多9年半了,中間曲曲折折,技術說起來進步不大,所以也沒有什麼乾貨跟大家分享。接下來博主打算分享一下自己的感情線,練習一下自己寫部落格(吹牛逼)的能力。
為什麼分享下感情的
Windows應用程式打包成exe檔案(1)- 工具簡單總結
最近有對一個Windows應用程式少許維護和修改。修改之後要釋出新的exe安裝檔案,打包exe檔案時,遇到了很頭疼的問題,還好最後解決了,記錄一下。
Visual Studio版本:Visual Studio 2017
Visual Studio 201
微信小程式-自定義NavBar元件(1)
最近公司專案忙得不可開交,各種不可描述的事情,然後學習基本停機。這個週末沒出去浪,就在家把之前王夫人給我設計的小程式做了做,然後一步步分享做的過程中遇到的問題和積累,希望大家爬坑過程中能幫到一些吧
元件化
元件化本身是一個可以講的很大,也可以濃縮為
微信小程式實現動態新增標籤(1)
說明:最近入住微信小程式,將自己所學經歷分享出來,包括學到的知識,踩到的坑,一起分享給大家,後續會慢慢更新:
首先針對一些幾乎沒有基礎的童鞋,附上一些連結,大致看完後能夠有能力製作簡單的小程式了:
另外特別推薦一波福利(樣式庫,也就是說,各種
【程式設計師眼中的統計學(1)】資訊圖形化:第一印象
package pictuer;
import java.awt.Dimension;
import java.awt.Font;
import java.io.PrintStream;
import java.text.DecimalFormat;
import java.text.Simpl
程式設計師生存技能表(1)--通用技能
有精力的情況下多溝通,抓住重點
反饋要及時,避免出問題不反饋,影響進度,方式(正式的郵件、臨時的微信等即時通訊、捉急的給個電話)
工作有大小,責任心無大小(態度要端正,客戶第一)
週報透明 (意義:大家互相瞭解工作與心得,有利於自己的判斷與成長,觀察是一種很重要的技能,不是單純的給領導彙報工作)(週報需體現
微信小程式開發的一些知識點(1)
應用程式入口下最多有五級頁面,每級頁面可以無限多,但是小程式對整個程式的大小有要求,而且比較小,所以實際開發中,頁面是有限制的。
app.js,app.json,app.wxss配置全域性的,要是在頁面和app中都配置了,則使用就近原則
各頁面.wxml骨架,.wxss樣
hadoop的第一個hello world程序(wordcount)
說明 內部 interrupt cat 兼容 str 文件 extend 代碼 在hadoop生態中,wordcount是hadoop世界的第一個hello world程序。
wordcount程序是用於對文本中出現的詞計數,從而得到詞頻,本例中的詞以空格分隔。
關於map
RecyclerView-錯誤收集:當你重新整理RecyclerView程式崩掉的時候(1)
報錯資訊
摸著後腦勺,一臉懵逼地看著Android Studio列印著下面這段日誌:
java.lang.IllegalArgumentException: Scrapped or attached views may not be recycled. i
.NET Core 小程式開發零基礎系列(1)——開發者啟用並牽手成功
最近幾個月本人與團隊一直與小程式打交道,對小程式的實戰開發算比較熟悉,也因一些朋友經常問我各種小程式問題,無不能一一回答,想了很久,決定還是空餘時間來寫寫文章吧,偶爾發現一個人安靜的時候寫文章特爽,不信大夥可以試試哦^_^
一般專案開發已快速為主,這時想到了一個小程式開源框架,盛派Senparc
go 語言 基礎 類型(1)
必須 const 表達式 基本 基本類 image 關鍵字 字符串 函數
變量
使用關鍵字 var定義變量,自動初始化為0值。如果提供初始化值,可省略變量類型,由編譯器自動推斷。
在函數內部可以使用 := 方式定義變量
func main() {
x := 123