-
設(shè)有由n個(gè)不相同的整數(shù)組成的數(shù)列�,記為:
a(1)���、a(2)���、……���、a(n)且a(i)<>a(j) (i<>j)
例如3����,18,7�,14���,10�,12�,23,41�,16����,24����。
若存在i1<i2<i3< … < ie 且有a(i1)<a(i2)< … <a(ie)則稱為長度為e的不下降序列����。如上例中3����,18�,23,24就是一個(gè)長度為4的不下降序列,同時(shí)也有3����,7�,10�,12,16,24長度為6的不下降序列。程序要求,當(dāng)原數(shù)列給出之后,求出最長的不下降序列。
標(biāo)簽:
整數(shù)
數(shù)列
上傳時(shí)間:
2013-12-14
上傳用戶:tonyshao
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嚴(yán)格按照BP網(wǎng)絡(luò)計(jì)算公式來設(shè)計(jì)的一個(gè)matlab程序,對(duì)BP網(wǎng)絡(luò)進(jìn)行了優(yōu)化設(shè)計(jì)
優(yōu)化1:設(shè)計(jì)了yyy,即在o(k)計(jì)算公式時(shí)���,當(dāng)網(wǎng)絡(luò)進(jìn)入平坦區(qū)時(shí)(<0.0001)學(xué)習(xí)率加大,出來后學(xué)習(xí)率又還原
優(yōu)化2:v(i,j)=v(i,j)+deltv(i,j)+a*dv(i,j)
標(biāo)簽:
matlab
yyy
BP網(wǎng)絡(luò)
計(jì)算公式
上傳時(shí)間:
2014-11-30
上傳用戶:妄想演繹師
-
My JSP 'TeacherMain.jsp' starting page
var $=function(id) {
return document.getElementById(id);
}
function show_menu(num){
for(i=0;i
標(biāo)簽:
C++
上傳時(shí)間:
2015-07-03
上傳用戶:xiyuzhu
-
#include<reg51.h>
#define uchar unsigned char
#define uint unsigned int
uint i,j;
sbit dula=P2^6;
sbit wela=P2^7;
uchar code table[]={0x3f,0x06,0x5b,0x4f,0x66,0x6d,
0x7d,0x07,0x7f,0x6f,0x77,0x7c,
0x39,0x5e,0x79,0x71};
void main()
{
j=0;
i=0;
TMOD=0X01;
TH0=(65536-50000)/256;
TL0=(65536-50000)%6;
EA=1;
ET0=1;
TR0=1;
while(1);
}
void time0() interrupt 1
{
TH0=(65536-50000)/256;
TL0=(65536-50000)%6;
i++;
if(i==15)
{
P0=table[j];
dula=1;
dula=0;
P0=0XC0;
wela=1;
wela=0;
j++;
i=0;
if(j==16)
{
j=0;
}
}
}
標(biāo)簽:
用定時(shí)器以間隔500MS在6位數(shù)碼管上依次顯示0����、1、 2�、3….C����、D���、E����、F,重復(fù)����。
上傳時(shí)間:
2016-02-11
上傳用戶:嬌縱Pamper
-
#include "STC90.h"
#include < intrins.h >
#define uchar unsigned char
#define uint unsigned int
#define led_port P1
sbit IR_RE = P3^2;
sbit led_r = P1^3;
sbit led_g = P1^4;
sbit led_b = P1^5;
sbit led_wd = P1^7;
sbit K1 =P3^0 ; //增加鍵
sbit K2 =P3^1 ; //減少鍵
sbit BEEP =P3^7 ; //蜂鳴器
uchar temp,temp1;
bit k=0; //紅外解碼判斷標(biāo)志位,為0則為有效信號(hào)���,為1則為無效
bit Flag2;
uchar date[4]={0,0,0,0}; //date數(shù)組為存放地址原碼,反碼����,數(shù)據(jù)原碼����,反碼
uint lade_1,lade_2,lade_3,lade_4;
uint num;
uchar date_ram,ee_temp,ee_temp1;
uchar WDT_NUM=0;
uchar const dofly[]={0x3f,0x06,0x5b,0x4f,0x66,0x6d,0x7d,0x07,0x7f,0x6f};// 顯示段碼值01234567
uchar code seg[]={7,6,5,4,3,2,1,0};//分別對(duì)應(yīng)相應(yīng)的數(shù)碼管點(diǎn)亮,即位碼
unsigned long disp_date;
void fade();
void fade1();
/*************************** 看門狗子程序*************************/
void watchdog_timer()
{
if(WDT_NUM==5)
{
WDT_NUM=0;
led_wd=!led_wd;
}
WDT_NUM++;
WDT_CONTR=0x3f;
}
/******************************************************************/
void delay(unsigned int cnt)
{
while(--cnt);
}
/*--------------------------延時(shí)1ms程子程序-----------------------*/
void delay_1ms(uint z)
{
uint x,y;
for(x=z;x>0;x--)
for(y=126;y>0;y--);
}
/*--------------------------延時(shí)1ms程子程序-----------------------*/
delay1000()
{
uchar i,j;
i=5;
do{j=95;
do{j--;}
while(j);
i--;
}
while(i);
}
/*---------------------------延時(shí)882us子程序-----------------------*/
delay882()
{
uchar i,j;
i=6;
do{j=71;
do{j--;}
while(j);
i--;
}while(i);
}
/*--------------------------延時(shí)2400us程子程序-----------------------*/
delay2400()
{
uchar i,j;
i=5;
do{j=237;
do{j--;}
while(j);
i--;
}while(i);
}
/**********************************************************************/
/*
void display()
{
uchar i;
for(i=0;i<8;i++)
{
P0=dofly[disp_date%10];//取顯示數(shù)據(jù),段碼
P2=seg[i]; //取位碼
delay_1ms(1);
disp_date/=10;
}
}
*/
/*********************************************************************/
uchar EEPROM_read(uint addr)//EEPROM字節(jié)讀
{
ISP_CONTR=0x83; //系統(tǒng)時(shí)鐘<12M時(shí)����,對(duì)ISP_CONTR寄存器設(shè)置的值�,本電路為11.0592M
ISP_CMD=1; //字節(jié)讀
ISP_ADDRH=(addr&0xff00)>>8;
ISP_ADDRL=addr&0x00ff;
ISP_TRIG=0x46;
ISP_TRIG=0xb9;
_nop_();
_nop_();
return ISP_DATA;
}
//--------------------------------------------------------------------
void EEPROM_write(uint addr,uchar dat)//EEPROM字節(jié)寫
{
ISP_CONTR=0x83; //系統(tǒng)時(shí)鐘<12M時(shí)�,對(duì)ISP_CONTR寄存器設(shè)置的值,本電路為11.0592M
ISP_CMD=2; //字節(jié)編程
ISP_ADDRH=(addr&0xff00)>>8;
ISP_ADDRL=addr&0x00ff;
ISP_DATA=dat;
ISP_TRIG=0x46;
ISP_TRIG=0xb9;
_nop_();
_nop_();
}
//--------------------------------------------------------------------
void EEPROM_ERASE(uint addr)//EEPROM扇區(qū)擦除
{
ISP_CONTR=0x83; //系統(tǒng)時(shí)鐘<12M時(shí)�,對(duì)ISP_CONTR寄存器設(shè)置的值���,本電路為11.0592M
ISP_CMD=3; //扇區(qū)擦除
ISP_ADDRH=(addr&0xff00)>>8;
ISP_ADDRL=addr&0x00ff;
ISP_TRIG=0x46;
ISP_TRIG=0xb9;
_nop_();
_nop_();
}
//**************************************************************
/*----------------------------------------------------------*/
/*-----------------------紅外解碼程序(核心)-----------------*/
/*----------------------------------------------------------*/
void IR_decode()
{
uchar i,j;
while(IR_RE==0);
delay2400();
if(IR_RE==1) //延時(shí)2.4ms后如果是高電平則是新碼
{
delay1000();
delay1000();
for(i=0;i<4;i++)
{
for(j=0;j<8;j++)
{
while(IR_RE==0); //等待地址碼第1位高電平到來
delay882(); //延時(shí)882us判斷此時(shí)引腳電平
///CY=IR_RE;
if(IR_RE==0)
{
date[i]>>=1;
date[i]=date[i]|0x00;
}
else if(IR_RE==1)
{
delay1000();
date[i]>>=1;
date[i]=date[i]|0x80;
}
} //1位數(shù)據(jù)接收結(jié)束
} //32位二進(jìn)制碼接收結(jié)束
}
}
/*
void LED_PWM()
{
lade_2=num; //384
lade_4=num; //384
while(lade_2!=0&Flag2==1)
{
for(lade_3=512;lade_3>lade_4;lade_3--)
//512
{
led_port=0x00;
delay(1);
}
lade_3=512; //512
lade_4--;
for(lade_1=0;lade_1<lade_2;lade_1++)
{
led_port=0x38; //c7
delay(1);
}
lade_1=0;
lade_2--;
if(temp!=0x0c&Flag2==1)
{
lade_2=0;
}
lade_2=num; //384
lade_4=num; //384
}
}
*/
void calc()
{
EEPROM_read(0x2000);
ee_temp1=ISP_DATA;
ee_temp=ee_temp1&0x0f;
//************************************* 1
/*
if(date[3]==0xff&Flag2==1)
{
if(num>=20)
{
num=num-80;
}
//else num=1;
LED_PWM();
}
if(date[3]==0xfe&Flag2==1)
{
if(num<=500)
{
num=num+80;
}
// else num=511;
LED_PWM();
}
if(ee_temp1==0xfd)
{
led_port=0x00;
watchdog_timer();
}
if(ee_temp1==0xfc)
{
led_port=0x00;
led_r=1;
led_g=1;
led_b=1;
watchdog_timer();
}
*/
//********************************************** 2
if(ee_temp1==0xfb)
{
led_port=0x00;
led_r=1;
watchdog_timer();
}
if(ee_temp1==0xfa)
{
led_port=0x00;
led_g=1;
watchdog_timer();
}
if(ee_temp1==0xf9)
{
led_port=0x00;
led_b=1;
watchdog_timer();
}
if(ee_temp1==0xf8)
{
led_port=0x00;
led_r=1;
led_g=1;
led_b=1;
watchdog_timer();
}
//************************************** 3
if(ee_temp1==0xf7)
{
uint fade_1,fade_2,fade_3,fade_4;
fade_2=448; //384
fade_4=448; //384
while(fade_2!=0&ee_temp==0x07)
{
for(fade_3=512;fade_3>fade_4;fade_3--)
//512
{
led_port=0x10;
delay(1);
}
fade_3=512; //512
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x08;
delay(1);
}
fade_1=0;
fade_2--;
if(ee_temp!=0x07)
{
fade_2=0;
}
watchdog_timer();
fade_2=448; //384
fade_4=448; //384
}
}
if(ee_temp1==0xf6)
{
uint fade_1,fade_2,fade_3,fade_4;
fade_2=448; //384
fade_4=448; //384
while(fade_2!=0&ee_temp==0x06)
{
for(fade_3=512;fade_3>fade_4;fade_3--)
//512
{
led_port=0x20;
delay(1);
}
fade_3=512; //512
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x10;
delay(1);
}
fade_1=0;
fade_2--;
if(ee_temp!=0x06)
{
fade_2=0;
}
watchdog_timer();
fade_2=448; //384
fade_4=448; //384
}
}
if(ee_temp1==0xf5)
{
uint fade_1,fade_2,fade_3,fade_4;
fade_2=448; //384
fade_4=448; //384
while(fade_2!=0&ee_temp==0x05)
{
for(fade_3=512;fade_3>fade_4;fade_3--)
//512
{
led_port=0x08;
delay(1);
}
fade_3=512; //512
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x20;
delay(1);
}
fade_1=0;
fade_2--;
if(ee_temp!=0x05)
{
fade_2=0;
}
watchdog_timer();
fade_2=448; //384
fade_4=448; //384
}
}
if(ee_temp1==0xf4)
{
while(ee_temp==4)
{
led_port=0x00;
led_r=1;
delay_1ms(200);
led_port=0x00;
led_r=1;
led_g=1;
delay_1ms(200);
led_port=0x00;
led_g=1;
delay_1ms(200);
watchdog_timer();
led_port=0x00;
led_g=1;
led_b=1;
delay_1ms(200);
led_port=0x00;
led_b=1;
delay_1ms(200);
led_port=0x00;
led_b=1;
led_r=1;
delay_1ms(200);
watchdog_timer();
}
}
//************************************** 4
if(ee_temp1==0xf3)
{
uint fade_1,fade_2,fade_3,fade_4;
fade_2=416; //384
fade_4=416; //384
while(fade_2!=0&ee_temp==0x03)
{
for(fade_3=512;fade_3>fade_4;fade_3--)
//512
{
led_port=0x10;
delay(1);
}
fade_3=512; //512
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x08;
delay(1);
}
fade_1=0;
fade_2--;
if(ee_temp!=0x03)
{
fade_2=0;
}
watchdog_timer();
fade_2=416; //384
fade_4=416; //384
}
}
if(ee_temp1==0xf2)
{
uint fade_1,fade_2,fade_3,fade_4;
fade_2=384; //384
fade_4=384; //384
while(fade_2!=0&ee_temp==0x02)
{
for(fade_3=512;fade_3>fade_4;fade_3--)
//512
{
led_port=0x20;
delay(1);
}
fade_3=512; //512
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x10;
delay(1);
}
fade_1=0;
fade_2--;
if(ee_temp!=0x02)
{
fade_2=0;
}
watchdog_timer();
fade_2=384; //384
fade_4=384; //384
}
}
if(ee_temp1==0xf1)
{
uint fade_1,fade_2,fade_3,fade_4;
fade_2=348; //384
fade_4=348; //384
while(fade_2!=0&ee_temp==0x01)
{
for(fade_3=512;fade_3>fade_4;fade_3--)
//512
{
led_port=0x08;
delay(1);
}
fade_3=512; //512
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x20;
delay(1);
}
fade_1=0;
fade_2--;
if(ee_temp!=0x01)
{
fade_2=0;
}
watchdog_timer();
fade_2=348; //384
fade_4=348; //384
}
}
if(ee_temp1==0xf0)
{
while(ee_temp==0)
{
led_port=0x00;
led_r=1;
delay_1ms(500);
watchdog_timer();
led_port=0x00;
led_g=1;
delay_1ms(500);
led_port=0x00;
led_b=1;
delay_1ms(500);
watchdog_timer();
}
}
//******************************************** 5
if(ee_temp1==0xef)
{
uint fade_1,fade_2,fade_3,fade_4;
fade_2=384; //384
fade_4=384; //384
while(fade_2!=0&ee_temp==0x0f)
{
for(fade_3=512;fade_3>fade_4;fade_3--)
//512
{
led_port=0x10;
delay(1);
}
fade_3=512; //512
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x08;
delay(1);
}
fade_1=0;
fade_2--;
if(ee_temp!=0x0f)
{
fade_2=0;
}
watchdog_timer();
fade_2=384; //384
fade_4=384; //384
}
}
if(ee_temp1==0xee)
{
uint fade_1,fade_2,fade_3,fade_4;
fade_2=320; //384
fade_4=320; //384
while(fade_2!=0&ee_temp==0x0e)
{
for(fade_3=512;fade_3>fade_4;fade_3--)
//512
{
led_port=0x20;
delay(1);
}
fade_3=512; //512
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x10;
delay(1);
}
fade_1=0;
fade_2--;
if(ee_temp!=0x0e)
{
fade_2=0;
}
watchdog_timer();
fade_2=320; //384
fade_4=320; //384
}
}
if(ee_temp1==0xed)
{
uint fade_1,fade_2,fade_3,fade_4;
fade_2=320; //384
fade_4=320; //384
while(fade_2!=0&ee_temp==0x0d)
{
for(fade_3=512;fade_3>fade_4;fade_3--)
//512
{
led_port=0x08;
delay(1);
}
fade_3=512; //512
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x20;
delay(1);
}
fade_1=0;
fade_2--;
if(ee_temp!=0x0d)
{
fade_2=0;
}
watchdog_timer();
fade_2=320; //384
fade_4=320; //384
}
}
if(ee_temp1==0xec)
fade();
//******************************************* 6
if(ee_temp1==0xeb)
{
led_port=0x00;
led_r=1;
led_g=1;
watchdog_timer();
}
if(ee_temp1==0xea)
{
led_port=0x00;
//led_r=0;
led_g=1;
led_b=1;
watchdog_timer();
}
if(ee_temp1==0xe9)
{
led_port=0x00;
led_r=1;
//led_g=0;
led_b=1;
watchdog_timer();
}
if(ee_temp1==0xe8)
fade1();
}
void fade()
{
// uchar i;
uint fade_1,fade_2,fade_3,fade_4;
fade_2=512;
fade_4=511;
while(fade_2!=0&ee_temp==0x0c)
{
for(fade_3=512;fade_3>fade_4;fade_3--)
{
led_port=0x10;
delay(1);
}
fade_3=512;
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x08;
delay(1);
}
fade_1=0;
fade_2--;
if(ee_temp!=0x0c)
{
fade_2=0;
}
}
watchdog_timer();
fade_2=512;
fade_4=511;
while(fade_2!=0&ee_temp==0x0c)
{
if(ee_temp!=0x0c)
{
fade_2=0;
}
for(fade_3=512;fade_3>fade_4;fade_3--)
{
led_port=0x20;
delay(1);
// watchdog_timer();
}
fade_3=512;
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x10;
delay(1);
// watchdog_timer();
}
fade_1=0;
fade_2--;
}
watchdog_timer();
fade_2=512;
fade_4=511;
while(fade_2!=0&ee_temp==0x0c)
{
if(ee_temp!=0x0c)
{
fade_2=0;
}
for(fade_3=512;fade_3>fade_4;fade_3--)
{
led_port=0x08;
delay(1);
watchdog_timer();
}
fade_3=512;
fade_4--;
watchdog_timer();
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x20;
delay(1);
watchdog_timer();
}
fade_1=0;
fade_2--;
}
watchdog_timer();
}
void fade1()
{
// uchar i;
uint fade_1,fade_2,fade_3,fade_4;
fade_2=128;
fade_4=127;
while(fade_2!=0&ee_temp==0x08)
{
for(fade_3=128;fade_3>fade_4;fade_3--)
{
led_port=0x10;
delay(1);
}
fade_3=128;
fade_4--;
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x08;
delay(1);
}
fade_1=0;
fade_2--;
if(ee_temp!=0x08)
{
fade_2=0;
}
}
watchdog_timer();
fade_2=128;
fade_4=127;
while(fade_2!=0&ee_temp==0x08)
{
if(ee_temp!=0x08)
{
fade_2=0;
}
for(fade_3=128;fade_3>fade_4;fade_3--)
{
led_port=0x20;
delay(1);
}
fade_3=128;
fade_4--;
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x10;
delay(1);
}
fade_1=0;
fade_2--;
}
watchdog_timer();
fade_2=128;
fade_4=127;
while(fade_2!=0&ee_temp==0x08)
{
if(ee_temp!=0x08)
{
fade_2=0;
}
for(fade_3=128;fade_3>fade_4;fade_3--)
{
led_port=0x08;
delay(1);
}
fade_3=128;
fade_4--;
for(fade_1=0;fade_1<fade_2;fade_1++)
{
led_port=0x20;
delay(1);
}
fade_1=0;
fade_2--;
}
watchdog_timer();
}
void init()
{
led_port=0x00;
/*
led_r=1;
delay_1ms(500);
led_port=0x00;
led_g=1;
delay_1ms(500);
led_port=0x00;
led_b=1;
delay_1ms(500);
led_port=0x00;
*/
delay_1ms(2);
WDT_CONTR=0x3f;
delay_1ms(500);
}
//********************************
void main()
{
init();
Flag2=0;
SP=0x60; //堆棧指針
EX0=1; //允許外部中斷0,用于檢測(cè)紅外遙控器按鍵
EA=1;
num=255;
while(1)
{
calc();
}
}
//********************************************************************
/*------------------------外部中斷0程序-------------------------*/
/*------------------主要用于處理紅外遙控鍵值--------------------*/
void int0() interrupt 0
{
uchar i;
Flag2=0; ///////
k=0;
EX0=0; //檢測(cè)到有效信號(hào)關(guān)中斷�,防止干擾
for(i=0;i<4;i++)
{
delay1000();
if(IR_RE==1){k=1;} //剛開始為9ms的引導(dǎo)碼.
}
led_port=0x00;
if(k==0)
{
IR_decode(); //如果接收到的是有效信號(hào)���,則調(diào)用解碼程序
if(date[3]>=0xe8)
{
if(date[3]<=0xfb)
{
temp1=date[3];
EEPROM_ERASE(0x2000); //STC_EEROM_0X2000 temp1
EEPROM_write(0x2000,temp1);
EEPROM_read(0x2000);
ee_temp1=ISP_DATA;
ee_temp=ee_temp1&0x0f;
/*
temp=date[3]&0x0f;
EEPROM_ERASE(0x2004); //STC_EEROM_0X2004 temp
EEPROM_write(0x2004,temp);
*/
}
else
{
EEPROM_read(0x2000);
ee_temp1=ISP_DATA;
ee_temp=ee_temp1&0x0f;
}
}
delay2400();
delay2400();
delay2400();
delay_1ms(500);
}
EX0=1; //開外部中斷����,允許新的遙控按鍵
}
標(biāo)簽:
RGB
紅外遙控
上傳時(shí)間:
2016-07-02
上傳用戶:184890962
-
void DFS(MGraph G, int i)
{
int j;
visited[i] = TRUE;
printf("%c ", G.vexs[i]);
for (j=0; j<G.numVertexes; ++j)
{
if (G.arc[i][j]!=INFINITY && !visited[j])
DFS(G, j);
}
}
標(biāo)簽:
多項(xiàng)式
代碼
計(jì)算
上傳時(shí)間:
2016-12-28
上傳用戶:chenyameng
-
#include "string.h"
#include "ctype.h"
#include "stdio.h"
search(char pd[])
{FILE *fp;
int time=0,i=0,j=0,add[80],k=0,m;
char *ch,
str[900];
m=strlen(pd);
if((fp=fopen("haha.txt","r"))==NULL)
{
printf("Cannot open this file\n");
exit(0);
}
for(;!feof(fp);i++)
{
str[i]=fgetc(fp);
if(tolower(str[i])==tolower(pd[k]))
{k++;
if(k==m)
if(!isalpha(i-m)&&!isalpha((str[i++]=fgetc(fp))))
{
time++;
add[j]=i-m+1;
j++;
k=0;
}
else k=0;
}
}
if(time)
{
printf("The time is:%d\n",time);
printf("The adders is:\n");
for(i=0;i
標(biāo)簽:
查詢學(xué)會(huì)少年宮
上傳時(shí)間:
2016-12-29
上傳用戶:767483511
-
#include "iostream" using namespace std;
class Matrix
{
private:
double** A; //矩陣A
double *b; //向量b
public:
int size;
Matrix(int );
~Matrix();
friend double* Dooli(Matrix& );
void Input();
void Disp();
};
Matrix::Matrix(int x) {
size=x;
//為向量b分配空間并初始化為0
b=new double [x];
for(int j=0;j<x;j++)
b[j]=0;
//為向量A分配空間并初始化為0
A=new double* [x];
for(int i=0;i<x;i++)
A[i]=new double [x];
for(int m=0;m<x;m++)
for(int n=0;n<x;n++)
A[m][n]=0;
}
Matrix::~Matrix() {
cout<<"正在析構(gòu)中~~~~"<<endl;
delete b;
for(int i=0;i<size;i++)
delete A[i];
delete A;
}
void Matrix::Disp()
{
for(int i=0;i<size;i++)
{
for(int j=0;j<size;j++)
cout<<A[i][j]<<" ";
cout<<endl;
}
}
void Matrix::Input()
{
cout<<"請(qǐng)輸入A:"<<endl;
for(int i=0;i<size;i++)
for(int j=0;j<size;j++){
cout<<"第"<<i+1<<"行"<<"第"<<j+1<<"列:"<<endl;
cin>>A[i][j];
}
cout<<"請(qǐng)輸入b:"<<endl;
for(int j=0;j<size;j++){
cout<<"第"<<j+1<<"個(gè):"<<endl;
cin>>b[j];
}
}
double* Dooli(Matrix& A) {
double *Xn=new double [A.size];
Matrix L(A.size),U(A.size);
//分別求得U,L的第一行與第一列
for(int i=0;i<A.size;i++)
U.A[0][i]=A.A[0][i];
for(int j=1;j<A.size;j++)
L.A[j][0]=A.A[j][0]/U.A[0][0];
//分別求得U���,L的第r行,第r列
double temp1=0,temp2=0;
for(int r=1;r<A.size;r++){
//U
for(int i=r;i<A.size;i++){
for(int k=0;k<r-1;k++)
temp1=temp1+L.A[r][k]*U.A[k][i];
U.A[r][i]=A.A[r][i]-temp1;
}
//L
for(int i=r+1;i<A.size;i++){
for(int k=0;k<r-1;k++)
temp2=temp2+L.A[i][k]*U.A[k][r];
L.A[i][r]=(A.A[i][r]-temp2)/U.A[r][r];
}
}
cout<<"計(jì)算U得:"<<endl;
U.Disp();
cout<<"計(jì)算L的:"<<endl;
L.Disp();
double *Y=new double [A.size];
Y[0]=A.b[0];
for(int i=1;i<A.size;i++ ){
double temp3=0;
for(int k=0;k<i-1;k++)
temp3=temp3+L.A[i][k]*Y[k];
Y[i]=A.b[i]-temp3;
}
Xn[A.size-1]=Y[A.size-1]/U.A[A.size-1][A.size-1];
for(int i=A.size-1;i>=0;i--){
double temp4=0;
for(int k=i+1;k<A.size;k++)
temp4=temp4+U.A[i][k]*Xn[k];
Xn[i]=(Y[i]-temp4)/U.A[i][i];
}
return Xn;
}
int main()
{
Matrix B(4);
B.Input();
double *X;
X=Dooli(B);
cout<<"~~~~解得:"<<endl;
for(int i=0;i<B.size;i++)
cout<<"X["<<i<<"]:"<<X[i]<<" ";
cout<<endl<<"呵呵呵呵呵";
return 0;
}
標(biāo)簽:
道理特分解法
上傳時(shí)間:
2018-05-20
上傳用戶:Aa123456789
-
function [alpha,N,U]=youxianchafen2(r1,r2,up,under,num,deta)
%[alpha,N,U]=youxianchafen2(a,r1,r2,up,under,num,deta)
%該函數(shù)用有限差分法求解有兩種介質(zhì)的正方形區(qū)域的二維拉普拉斯方程的數(shù)值解
%函數(shù)返回迭代因子����、迭代次數(shù)以及迭代完成后所求區(qū)域內(nèi)網(wǎng)格節(jié)點(diǎn)處的值
%a為正方形求解區(qū)域的邊長
%r1,r2分別表示兩種介質(zhì)的電導(dǎo)率
%up,under分別為上下邊界值
%num表示將區(qū)域每邊的網(wǎng)格剖分個(gè)數(shù)
%deta為迭代過程中所允許的相對(duì)誤差限
n=num+1; %每邊節(jié)點(diǎn)數(shù)
U(n,n)=0; %節(jié)點(diǎn)處數(shù)值矩陣
N=0; %迭代次數(shù)初值
alpha=2/(1+sin(pi/num));%超松弛迭代因子
k=r1/r2; %兩介質(zhì)電導(dǎo)率之比
U(1,1:n)=up; %求解區(qū)域上邊界第一類邊界條件
U(n,1:n)=under; %求解區(qū)域下邊界第一類邊界條件
U(2:num,1)=0;U(2:num,n)=0;
for i=2:num
U(i,2:num)=up-(up-under)/num*(i-1);%采用線性賦值對(duì)上下邊界之間的節(jié)點(diǎn)賦迭代初值
end
G=1;
while G>0 %迭代條件:不滿足相對(duì)誤差限要求的節(jié)點(diǎn)數(shù)目G不為零
Un=U; %完成第n次迭代后所有節(jié)點(diǎn)處的值
G=0; %每完成一次迭代將不滿足相對(duì)誤差限要求的節(jié)點(diǎn)數(shù)目歸零
for j=1:n
for i=2:num
U1=U(i,j); %第n次迭代時(shí)網(wǎng)格節(jié)點(diǎn)處的值
if j==1 %第n+1次迭代左邊界第二類邊界條件
U(i,j)=1/4*(2*U(i,j+1)+U(i-1,j)+U(i+1,j));
end
if (j>1)&&(j U2=1/4*(U(i,j+1)+ U(i-1,j)+ U(i,j-1)+ U(i+1,j));
U(i,j)=U1+alpha*(U2-U1); %引入超松弛迭代因子后的網(wǎng)格節(jié)點(diǎn)處的值
end
if i==n+1-j %第n+1次迭代兩介質(zhì)分界面(與網(wǎng)格對(duì)角線重合)第二類邊界條件
U(i,j)=1/4*(2/(1+k)*(U(i,j+1)+U(i+1,j))+2*k/(1+k)*(U(i-1,j)+U(i,j-1)));
end
if j==n %第n+1次迭代右邊界第二類邊界條件
U(i,n)=1/4*(2*U(i,j-1)+U(i-1,j)+U(i+1,j));
end
end
end
N=N+1 %顯示迭代次數(shù)
Un1=U; %完成第n+1次迭代后所有節(jié)點(diǎn)處的值
err=abs((Un1-Un)./Un1);%第n+1次迭代與第n次迭代所有節(jié)點(diǎn)值的相對(duì)誤差
err(1,1:n)=0; %上邊界節(jié)點(diǎn)相對(duì)誤差置零
err(n,1:n)=0; %下邊界節(jié)點(diǎn)相對(duì)誤差置零
G=sum(sum(err>deta))%顯示每次迭代后不滿足相對(duì)誤差限要求的節(jié)點(diǎn)數(shù)目G
end
標(biāo)簽:
有限差分
上傳時(shí)間:
2018-07-13
上傳用戶:Kemin
-
為微蕊的單片機(jī)與LCD interface
標(biāo)簽:
microchip
For
PIC
上傳時(shí)間:
2018-10-25
上傳用戶:mike329
