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Yes that's right with stretch(but I saw an article on the codeproject it used other function that you didnt have any change on your image) but if you have 100x100 image and want use of stretch to 32x32 image again you have loose quality
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Check the LoadImage() API. In that API, you can specify the desider X and Y size no matter what the actual size.
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I have designed a control with a base CWnd window and some CEdit childs in it. the childs have the WS_TABSTOP style. but when I press the tab button, nothing occurs (the focus is not changing between the childs). how should I solve the problem?
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You must on the design mode set tab for controls press Ctrl+D then you can see some numbers for each control 1,2,12,13,... with click on each control you can set tab order.
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When you create your "control with a base CWnd window" use CreateEx() instead of Create() and specify the first parameter dwExStyle with a value of WS_EX_CONTROLPARENT and any other extended styles you deem appropriate.
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Hello Friends,
cam anbody tell me how to add the picture in the RichEdit box.
Thnx in advance.
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Hello guyz.
I'm creating an MFC application, usually the output is application.exe but it won't run without VC++ installed. I want to make an exe file to distribute it without setup. Is it possible in VC++ 2003? If possible can somebody teach me how to do it.
Any message or comments would be a big help.
Thank you.
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Compile your program in release mode and use DependencyWalker (search on google) to see which dll's are needed for your application. Distribute those dll's with your application.
You could also link statically to the MFC, then I think you don't need to distribute any dlls.
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you can create folder and copy your 'exe' file to this folder and you must
copy to this folder 'dll' files that your program use.
and thats it. copy this folder to another PC and run you program,
but in this case you may get error message. (I get once error message. I forget one dll file)
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Exactly his problem is he didnt know what files his program need so Cedric's answer is perfect.
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Or maybe he is simply unaware of the concept of 'release build' and is missing mfc42D.dll.
We can't know since he did not give any information beyond a general nature of his problem.
Though I speak with the tongues of men and of angels, and have not money, I am become as a sounding brass, or a tinkling cymbal. George Orwell, "Keep the Aspidistra Flying", Opening words
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actually i work in visual studio 6.0 and here, three necessary dlls are required.these dlls should be placed in the same folder as the exe file.
MFC42D.DLL
MFCO42D.DLL
MSVCRTD.DLL
as far as i know, the same logic should apply for vc++ 2003 also.
but some more files may or may not be required.
to find them out,
1.run your exe in a separate system, where vc++ 2003 is not installed,
2.it will prompt saying xyz.dll missing.
3.find that dll in your system and place it in your new system, where your exe resides.
4.repeat the above steps till you will find your exe running.
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chandu004 wrote: in visual studio 6.0 and here, three necessary dlls are required.
Have you ever heard of the term 'release build'?
Do you know why and how to make one?
Why don't you do it?
Though I speak with the tongues of men and of angels, and have not money, I am become as a sounding brass, or a tinkling cymbal. George Orwell, "Keep the Aspidistra Flying", Opening words
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chandu004 wrote: MFC42D .DLL
MFCO42D .DLL
MSVCRTD .DLL
* you are in Debug mode, so you are not doing the right thing.
* in this way you can forget some dlls. use a software to find dependencyes like Cedric said.
Russell
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It is illegal to distribute MFC's debug DLLs.
"A good athlete is the result of a good and worthy opponent." - David Crow
"To have a respect for ourselves guides our morals; to have deference for others governs our manners." - Laurence Sterne
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When you create your project, set the option "Use MFC in a static library" instead of "Use MFC in a shared dll".
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Thank you for your comments.
Now at least i know where to start to.
Till next time. God Bless.
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SUBJECT : URGENT
help me to solve multiply matrix with angle 30 degree and -30 degree at positive and negative sequence based on transformer connection
A = | yt -yt*angle -30degree |
| -yt*angle 30degree yt |
B = | yt -yt*angle 30 degree |
|-yt * angle -30degree yt |
SEQUENCE COMPONENTS
Transformer Connection Equivalent Sequence Circuit / Admittance Matrix
Positive Negative
Y – G ∆ A B
Y ∆ A B
∆ Y – G B A
∆ Y B A
1) ASSIGNMENT: IMPROVING FAULT ANALYSIS BY USING SEQUENCE COMPONENTS.
CONDITION THAT SHOULD TO REFER FOR GETTING ADMITTANCE OF POSITIVE AND NEGATIVE SEQUENCE [ Y-MATRIX ]
2) COMPILER : VISUAL C++
3) DUE DATE : friday(5 OCT 2007 )
TIME ZONE: (GMT+8.00) KUALA LUMPUR, SINGAPORE
4) STUDY FIELD : ELECTRICAL ENGINEERING MAJORING POWER
BOOK REFER : HADI SAADAT, “POWER SYSTEM ANALYSIS” 2ND EDITION, MC GRAW HILL.
PROGRAMMING
/* MOHD FUAD BIN HAJI ABDUL LATIP
ASSIGNMENT FOR POWER SYSTEM ANALYSIS - PENYELESAIAN SISTEM TIDAK SEIMBANG
KEE97062
*/
#include <stdio.h>
#include <malloc.h>
#include <stdlib.h>
#include <math.h>
//******************************************************************************************
void invmatrik(float **c,int m)
{
int i,j,k,l;
for(i=1;i<=m;i++)
{
c[i][i]=(float)(1.0/c[i][i]);
for(j=1;j<=m;j++)
{
if(j!=i)
{
c[j][i]=c[j][i]*c[i][i];
for(k=1;k<=m;k++)
{
if(k!=i)
{
c[j][k]=c[j][k]-c[j][i]*c[i][k];
if(j==m)
{
c[i][k]=-c[i][i]*c[i][k];
}
}
}
}
}
}
k=m-1;
for(l=1;l<=k;l++){
c[m][l]=-c[m][m]*c[m][l];
}
}
//*****************************************************************************************
void kalimatrik(float **a,float **b,float **c,int tb)
{
int i,j,k,m=1;
float *sem;
sem=(float *)calloc((tb+1)*(tb+1),sizeof(float));
for(i=1;i<=tb*tb;i++)
sem[i]=0;
for(i=1;i<=tb;i++)
{
for(j=1;j<=tb;j++)
{
for(k=1;k<=tb;k++)
{
sem[m] +=a[i][k]*b[k][j];
}
m++;
}
}
m=1;
for(i=1;i<=tb;i++)
for(j=1;j<=tb;j++)
{
c[i][j]=sem[m];
m++;
}
i=0;
free(sem);
}
//********************************************************************************************
void addmatrik(float **A,float **B,float **net,int line)
{
int i,j;
for(i=1;i<=line;i++)
{
for(j=1;j<=line;j++)
{
net[i][j]=A[i][j] + B[i][j];
}
}
}
//********************************************************************************************
float realpart(float R,float X)
{
float Greal;
Greal = R/(R*R + X*X);
return (Greal);
}
float imgpart(float R,float X)
{
float Bimg = -X/(R*R + X*X);
return (Bimg);
}
//--------------------------------------------------------------------------------------------
struct data
{
int send,recv,trans_ada,jen_trans;
float R,X,S,Gzero,Bzero,zf;
};
struct generator
{
int bus,bumi;
float Xgen;
};
struct addbus
{
int nobus;
float G_tambah,B_tambah;
};
struct positif
{
int hantar,terima;
float Rpos,Xpos,Spos,Gpos,Bpos;
};
struct genpos
{
int buspos,bumipos;
float Xgenpos;
};
//*****************************************************************************************
#define saiz 1
#define max_char 10
#define INF 10000000000
int main(void)
{
FILE *fin,*fout,*input;
int jum_data,jum_gen,tambahnilai,i,j,k,jum_bus,pos_data,pos_bus,gen_pos,n,g;
float *realdiag, *imgdiag, **realmatrik, **imgmatrik, **netkaliG, **netkaliB,
**invG, **invB, **netadd,zn,*gpospe, *bpospe, **gposmatrik, **bposmatrik,
**jumkalig, **jumkalib, **jumadd, **gposinv, **bposinv,*Ifg,*IfgN,*IfbN,*Ifb,*Ifg0,
*Ifg2,*Ifb0,*Ifb2,**voltangagalG0,**voltangagalB0,**voltangagalG1a,**voltangagalB1a,
**voltangagalG1b,**voltangagalB1b,*A,*B,*C,*D,*E,*F,**voltfasaG0,**voltfasaB0,**voltfasaG1,
**voltfasaB1,**voltfasaG2,**voltfasaB2;
char file_name[max_char + saiz],file_namepos[max_char + saiz],yes;
struct data *dot;
struct generator *gen;
struct addbus *tambahnilaibus;
//@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
printf("\n\n\n");
printf("\t\t\tWELCOME TO UNSYMMETRICAL FAULT PROGRAM\n\n\n");
printf("\t\t\tCopyright (c) Fuad Latip 2000\n\n\n");
printf("\t\t~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~\n\n\n\n");
//@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
fout = fopen("JAWAPAN.txt","w+");
SEMULA:
{
fputs ("\tPlease enter the name of zero sequence file in format .txt:",stdout);
gets (file_name);
printf("\n\n");
if ((fin=fopen(file_name,"r"))==NULL)
{
printf("\t\a\aSORRY. File %s cannot opened.\n\tPlease try again\n\n\n",file_name);
goto SEMULA;
}
}
SEMULA2:
{
fputs ("\tPlease enter the name of positive sequence file in format .txt:",stdout);
gets (file_namepos);
printf("\n\n");
if ((input=fopen(file_namepos,"r"))==NULL)
{
printf("\n\t\a\aSORRY. File %s cannot opened.\n\tPlease try again\n\n\n",file_namepos);
goto SEMULA2;
}
}
//--------------------------------------------------------------------------------------
fscanf(fin,"%d",&jum_data);
fscanf(fin,"%d",&jum_bus);
dot = (struct data *)calloc(jum_data+1,sizeof(struct data));
for(j=1;j<=jum_data;j++)
{
dot[j].send=0;
dot[j].recv=0;
dot[j].trans_ada=0;
dot[j].jen_trans=0;
dot[j].R=0;
dot[j].X=0;
dot[j].S=0;
}
for(j=1;j<=jum_data;j++)
{
fscanf(fin,"%d %d %d %d %f %f %f",&dot[j].send,&dot[j].recv,&dot[j].trans_ada,&dot[j].jen_trans,&dot[j].R,&dot[j].X,&dot[j].S);
}
for(j=1;j<=jum_data;j++)
{
if(!dot[j].trans_ada==1 || (dot[j].trans_ada ==1 && dot[j].jen_trans ==1))
{
dot[j].Gzero = realpart(dot[j].R,dot[j].X);
dot[j].Bzero = imgpart(dot[j].R,dot[j].X);
}
else
{
dot[j].Gzero = 0;
dot[j].Bzero = 0;
}
}
//--------------------------------------------------------------------------------------
jum_gen =0;
fscanf(fin,"%d",&jum_gen);
gen = (struct generator *) calloc(jum_gen+1,sizeof(struct generator));
for(j=1;j<=jum_gen;j++)
{
fscanf(fin,"%d %d %f",&gen[j].bus,&gen[j].bumi,&gen[j].Xgen);
}
zn=0;
fscanf(fin,"%f",&zn);
fscanf(fin,"%f",&dot[j].zf);
tambahnilai = 0;
for(j=1;j<=jum_data;j++)
{
if(dot[j].trans_ada)
if(dot[j].jen_trans == 3 || dot[j].jen_trans == 4)
tambahnilai ++;
}
tambahnilaibus = (struct addbus *)calloc(tambahnilai+1,sizeof(struct addbus));
//--------------------------------------------------------------------------------------
realdiag = (float *)calloc(jum_bus+1,sizeof(float));
imgdiag = (float *)calloc(jum_bus+1,sizeof(float));
//--------------------------------------------------------------------------------------
i=1;
for(j=1;j<=jum_data;j++)
{
if(dot[j].trans_ada==1)
{
if(dot[j].jen_trans==2)
{
dot[j].Gzero = 0;
dot[j].Bzero = 0;
}
else
if(dot[j].jen_trans==3)//star grounded - delta
{
dot[j].Gzero = 0;
dot[j].Bzero = 0;
tambahnilaibus[i].nobus = dot[j].send;
tambahnilaibus[i].G_tambah = realpart(dot[j].R,dot[j].X);
tambahnilaibus[i].B_tambah = imgpart(dot[j].R,dot[j].X);
i++;
}
else
if(dot[j].jen_trans==4)//delta - star grounded
{
dot[j].Gzero = 0;
dot[j].Bzero = 0;
tambahnilaibus[i].nobus = dot[j].recv;
tambahnilaibus[i].G_tambah = realpart(dot[j].R,dot[j].X);
tambahnilaibus[i].B_tambah = imgpart(dot[j].R,dot[j].X);
i++;
}
}
}
//---------------------------------------------------------------------------------------------
realmatrik=(float **)calloc(jum_bus+1,sizeof(float *));
imgmatrik=(float **)calloc(jum_bus+1,sizeof(float *));
for(i=1;i<=jum_bus;i++)
{
realmatrik[i]=(float *)calloc(jum_bus+1,sizeof(float));
imgmatrik[i]=(float *)calloc(jum_bus+1,sizeof(float));
}
for(j=1;j<=jum_bus;j++)
{
realdiag[j]=0;
imgdiag[j]=0;
}
for(j=1;j<=jum_data;j++)
{
if(!dot[j].trans_ada==1 || (dot[j].trans_ada ==1 && dot[j].jen_trans ==1))
{
realdiag[dot[j].send]=realdiag[dot[j].send] + realpart(dot[j].R,dot[j].X);
imgdiag[dot[j].send]=imgdiag[dot[j].send] + imgpart(dot[j].R,dot[j].X) + dot[j].S/2;
realdiag[dot[j].recv]=realdiag[dot[j].recv] + realpart(dot[j].R,dot[j].X);
imgdiag[dot[j].recv]=imgdiag[dot[j].recv] + imgpart(dot[j].R,dot[j].X) + dot[j].S/2;
}
}
for(j=1;j<=tambahnilai;j++)
{
realdiag[tambahnilaibus[j].nobus] +=tambahnilaibus[j].G_tambah;
imgdiag[tambahnilaibus[j].nobus] +=tambahnilaibus[j].B_tambah;
}
for(j=1;j<=jum_gen;j++)
{
if(gen[j].bumi==1)
imgdiag[gen[j].bus] += imgpart(0,(gen[j].Xgen + 3*zn));
}
//------------------------------------------------------------------------------------------
for(j=1;j<=jum_bus;j++)
{
for(i=1;i<=jum_bus;i++)
{
realmatrik[j][i]=0;
imgmatrik[j][i]=0;
}
}
for(i=1;i<=jum_bus;i++)
{
realmatrik[i][i]=realdiag[i];
imgmatrik[i][i]=imgdiag[i];
}
for(k=1;k<=jum_data;k++)
{
realmatrik[dot[k].send][dot[k].recv]= -dot[k].Gzero;
imgmatrik[dot[k].send][dot[k].recv]= -dot[k].Bzero;
realmatrik[dot[k].recv][dot[k].send]= -dot[k].Gzero;
imgmatrik[dot[k].recv][dot[k].send]= -dot[k].Bzero;
}
//---------------------------------------------------------------------------------------
netkaliG=(float **)calloc(jum_bus+1,sizeof(float *));
netkaliB=(float **)calloc(jum_bus+1,sizeof(float *));
invG=(float **)calloc(jum_bus+1,sizeof(float *));
invB=(float **)calloc(jum_bus+1,sizeof(float *));
netadd=(float **)calloc(jum_bus+1,sizeof(float *));
for(i=1;i<=jum_bus;i++)
{
netkaliG[i]=(float *)calloc(jum_bus+1,sizeof(float));
netkaliB[i]=(float *)calloc(jum_bus+1,sizeof(float));
invG[i]=(float *)calloc(jum_bus+1,sizeof(float));
invB[i]=(float *)calloc(jum_bus+1,sizeof(float));
netadd[i]=(float *)calloc(jum_bus+1,sizeof(float));
}
//---------------------------------------------------------------------------------------
for(i=1;i<=jum_bus;i++)
{
for(j=1;j<=jum_bus;j++)
{
netkaliG[i][j]=0;
netkaliB[i][j]=0;
invG[i][j]=0;
invB[i][j]=0;
netadd[i][j]=0;
}
}
kalimatrik(realmatrik,realmatrik,netkaliG,jum_bus);
kalimatrik(imgmatrik,imgmatrik,netkaliB,jum_bus);
addmatrik(netkaliG,netkaliB,netadd,jum_bus);
invmatrik(netadd,jum_bus);
kalimatrik(realmatrik,netadd,invG,jum_bus);
kalimatrik(imgmatrik,netadd,invB,jum_bus);
for(i=1;i<=jum_bus;i++)
{
for(j=1;j<=jum_bus;j++)
{
invG[i][j] = -(invG[i][j]);
invB[i][j] = -(invB[i][j]);
}
}
//----------------------------------------------------------------------------------------
fprintf(fout,"MATRIX Y FOR ZERO SEQUENCE\n");
for(i=1;i<=jum_bus;i++)
{
for(j=1;j<=jum_bus;j++)
{
fprintf(fout,"%.4f %.4fj\t\t",realmatrik[i][j],imgmatrik[i][j]);
}
fprintf(fout,"\n");
}
fprintf(fout,"\n\n");
fprintf(fout,"INVERSE MATRIX Z FOR ZERO SEQUENCE\n");
for(i=1;i<=jum_bus;i++)
{
for(j=1;j<=jum_bus;j++)
{
fprintf(fout,"%.4f + %.4fj\t",invG[i][j],invB[i][j]);
}
fprintf(fout,"\n");
}
//##################################################################################
// JUJUK POSITIF
//##################################################################################
//----------------------------------------------------------------------------------
struct positif *pos;
struct genpos *gpos;
pos_data=0;
pos_bus=0;
fscanf(input,"%d",&pos_data);
fscanf(input,"%d",&pos_bus);
pos = (struct positif *)calloc(pos_data+1,sizeof(struct positif));
for(j=1;j<=pos_data;j++)
{
pos[j].hantar=0;
pos[j].terima=0;
pos[j].Rpos=0;
pos[j].Xpos=0;
pos[j].Spos=0;
}
for(i=1;i<=pos_data;i++)
{
fscanf(input,"%d %d %f %f %f", &pos[i].hantar,&pos[i].terima,&pos[i].Rpos,&pos[i].Xpos,&pos[i].Spos);
}
//----------------------------------------------------------------------------------------
for(k=1;k<=pos_data;k++)
{
pos[k].Gpos = realpart(pos[k].Rpos,pos[k].Xpos);
pos[k].Bpos = imgpart(pos[k].Rpos,pos[k].Xpos);
}
//----------------------------------------------------------------------------------------
// membina location
gpospe = (float *)calloc(pos_bus+1,sizeof(float));
bpospe = (float *)calloc(pos_bus+1,sizeof(float));
gposmatrik=(float **)calloc(pos_bus+1,sizeof(float *));
bposmatrik=(float **)calloc(pos_bus+1,sizeof(float *));
for(i=0;i<=pos_bus;i++)
{
gposmatrik[i]=(float *)calloc(pos_bus+1,sizeof(float));
bposmatrik[i]=(float *)calloc(pos_bus+1,sizeof(float));
}
//----------------------------------------------------------------------------------------
for(j=1;j<=pos_bus;j++)
{
gpospe[j]=0;
bpospe[j]=0;
}
for(j=1;j<=pos_data;j++)
{
gpospe[pos[j].hantar]=gpospe[pos[j].hantar] + realpart(pos[j].Rpos,pos[j].Xpos);
bpospe[pos[j].hantar]=bpospe[pos[j].hantar] + imgpart(pos[j].Rpos,pos[j].Xpos) + pos[j].Spos/2;
gpospe[pos[j].terima]=gpospe[pos[j].terima] + realpart(pos[j].Rpos,pos[j].Xpos);
bpospe[pos[j].terima]=bpospe[pos[j].terima] + imgpart(pos[j].Rpos,pos[j].Xpos) + pos[j].Spos/2;
}
//---------------------------------------------------------------------------------------
//penambahan nilai jika ada generator
gen_pos =0;
fscanf(input,"%d",&gen_pos);
gpos = (struct genpos *) calloc(gen_pos+1,sizeof(struct genpos));
for(j=1;j<=gen_pos;j++)
{
fscanf(input,"%d %d %f",&gpos[j].buspos,&gpos[j].bumipos,&gpos[j].Xgenpos);
}
for(i=1;i<=gen_pos;i++)
{
if(gpos[i].bumipos)
bpospe[gpos[i].buspos] += imgpart(0,(gpos[i].Xgenpos));
}
//------------------------------------------------------------------------------------
for(j=1;j<=pos_bus;j++)
{
for(i=1;i<=pos_bus;i++)
{
gposmatrik[j][i]=0;
bposmatrik[j][i]=0;
}
}
for(i=1;i<=pos_bus;i++)
{
gposmatrik[i][i]=gpospe[i];
bposmatrik[i][i]=bpospe[i];
}
for(k=1;k<=pos_data;k++)
{
gposmatrik[pos[k].hantar][pos[k].terima]= -pos[k].Gpos;
bposmatrik[pos[k].hantar][pos[k].terima]= -pos[k].Bpos;
gposmatrik[pos[k].terima][pos[k].hantar]= -pos[k].Gpos;
bposmatrik[pos[k].terima][pos[k].hantar]= -pos[k].Bpos;
}
//-------------------------------------------------------------------------------------
// inverse matrik
jumkalig=(float **)calloc(pos_bus+1,sizeof(float *));
jumkalib=(float **)calloc(pos_bus+1,sizeof(float *));
jumadd=(float **)calloc(pos_bus+1,sizeof(float *));
gposinv=(float **)calloc(pos_bus+1,sizeof(float *));
bposinv=(float **)calloc(pos_bus+1,sizeof(float *));
for(i=1;i<=pos_bus;i++)
{
jumkalig[i]=(float *)calloc(pos_bus+1,sizeof(float));
jumkalib[i]=(float *)calloc(pos_bus+1,sizeof(float));
jumadd[i]=(float *)calloc(pos_bus+1,sizeof(float));
gposinv[i]=(float *)calloc(pos_bus+1,sizeof(float));
bposinv[i]=(float *)calloc(pos_bus+1,sizeof(float));
}
for(j=1;j<=pos_bus;j++)
{
for(i=1;i<=pos_bus;i++)
{
jumkalig[j][i]=0;
jumkalib[j][i]=0;
jumadd[j][i]=0;
gposinv[j][i]=0;
bposinv[j][i]=0;
}
}
kalimatrik(gposmatrik,gposmatrik,jumkalig,pos_bus);
kalimatrik(bposmatrik,bposmatrik,jumkalib,pos_bus);
addmatrik(jumkalig,jumkalib,jumadd,pos_bus);
invmatrik(jumadd,pos_bus);
kalimatrik(gposmatrik,jumadd,gposinv,pos_bus);
kalimatrik(bposmatrik,jumadd,bposinv,pos_bus);
for(i=1;i<=pos_bus;i++)
{
for(j=1;j<=pos_bus;j++)
{
gposinv[i][j] = -(gposinv[i][j]);
bposinv[i][j] = -(bposinv[i][j]);
}
}
//--------------------------------------------------------------------------------------
fprintf(fout,"\n\n\n");
fprintf(fout,"MATRIX Y FOR POSITIVE/NEGATIVE SEQUENCE\n");
for(i=1;i<=pos_bus;i++)
{
for(j=1;j<=pos_bus;j++)
{
fprintf(fout,"%.4f %.4fj\t\t",gposmatrik[i][j],bposmatrik[i][j]);
}
fprintf(fout,"\n");
}
fprintf(fout,"\n\n");
fprintf(fout,"INVERSE MATRIX Z FOR POSITIVE/NEGATIVE SEQUENCE\n");
for(i=1;i<=pos_bus;i++)
{
for(j=1;j<=pos_bus;j++)
{
fprintf(fout,"%.4f + %.4fj\t",gposinv[i][j],bposinv[i][j]);
}
fprintf(fout,"\n");
}
//$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$
ULANG:
{
printf("\tPLEASE CHOOSE THE FAULT:\n");
printf("\t~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~\n");
printf("\t1. A PHASE TO GROUND FAULT\n\n");
printf("\t2. TWO PHASE TO GROUND FAULT\n\n");
printf("\t3. PHASE TO PHASE FAULT\n\n");
printf("\t4. 3-PHASE FAULT\n\n\n\n");
printf("\tYOUR CHOICE IS:");
scanf("%d",&n);
printf("\n");
if ((n==1 || n==2 || n==3 || n==4)==NULL)
{
printf("\n\n\n\n\n\n\n\n\n\n\n");
printf("\t\a\aYOU ARE ENTER INVALID NUMBER\n\tPLEASE CHOOSE BETWEEN 1-4 ONLY\n\n");
goto ULANG;
}
printf("\tMY CHOICE :%d\t",n);
printf("\n\n\n");
printf("\tFAULT OCCURED AT BUS NUMBER (BETWEEN BUS 1 UNTIL %d):",jum_bus);
scanf("%d",&g);
printf("\n");
printf("\tFAULT OCCURED AT BUS:%d\t",g);
printf("\n\n\n");
printf("\tALL INFORMATION ARE CORRECT?\n\tIF YES PLEASE TYPE 0 AND 1 IF NO:\t");
scanf("%d",&yes);
printf("\n\n");
}
if (yes==1) goto ULANG;
else if (yes==0)
{
printf("\n\t\t~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~\n\n");
printf("\t\t\a\a\aTHANK YOU FOR CHOOSING MY PROGRAM\n");
printf("\n\t\t YOU ANSWER AUTOMATICALLY SAVE IN FILE jawapan.txt\n");
printf("\n\n");
}
//------------------------------------------------------------------------------------------------------
//location untuk arus gagal dan voltan fasa
Ifg = (float *)calloc(jum_bus,sizeof(float));
IfgN = (float *)calloc(jum_bus,sizeof(float));
Ifb = (float *)calloc(jum_bus,sizeof(float));
IfbN = (float *)calloc(jum_bus,sizeof(float));
for(j=1;j<=jum_bus;j++)
{
Ifg[j]=0;
Ifb[j]=0;
IfgN[j]=0;
IfbN[j]=0;
}
voltangagalG0=(float **)calloc(jum_bus+1,sizeof(float *));
voltangagalG1a=(float **)calloc(jum_bus+1,sizeof(float *));
voltangagalG1b=(float **)calloc(jum_bus,sizeof(float *));
voltangagalB0=(float **)calloc(jum_bus,sizeof(float *));
voltangagalB1a=(float **)calloc(jum_bus,sizeof(float *));
voltangagalB1b=(float **)calloc(jum_bus,sizeof(float *));
for(i=1;i<=jum_bus;i++)
{
voltangagalG0[i]=(float *)calloc(jum_bus,sizeof(float));
voltangagalG1a[i]=(float *)calloc(jum_bus,sizeof(float));
voltangagalG1b[i]=(float *)calloc(jum_bus,sizeof(float));
voltangagalB0[i]=(float *)calloc(jum_bus,sizeof(float));
voltangagalB1a[i]=(float *)calloc(jum_bus,sizeof(float));
voltangagalB1b[i]=(float *)calloc(jum_bus,sizeof(float));
}
A = (float *)calloc(jum_bus,sizeof(float));
B = (float *)calloc(jum_bus,sizeof(float));
C = (float *)calloc(jum_bus,sizeof(float));
D = (float *)calloc(jum_bus,sizeof(float));
E = (float *)calloc(jum_bus,sizeof(float));
F = (float *)calloc(jum_bus,sizeof(float));
for(j=1;j<=jum_bus;j++)
{
A[j]=0;
B[j]=0;
C[j]=0;
D[j]=0;
E[j]=0;
F[j]=0;
}
Ifg2 = (float *)calloc(jum_bus,sizeof(float));
Ifg0 = (float *)calloc(jum_bus,sizeof(float));
Ifb2 = (float *)calloc(jum_bus,sizeof(float));
Ifb0 = (float *)calloc(jum_bus,sizeof(float));
voltfasaG0=(float **)calloc(jum_bus,sizeof(float *));
voltfasaG1=(float **)calloc(jum_bus,sizeof(float *));
voltfasaG2=(float **)calloc(jum_bus,sizeof(float *));
voltfasaB0=(float **)calloc(jum_bus,sizeof(float *));
voltfasaB1=(float **)calloc(jum_bus,sizeof(float *));
voltfasaB2=(float **)calloc(jum_bus,sizeof(float *));
for(i=1;i<=jum_bus;i++)
{
//voltan jujuk zero
voltfasaG0[i]=(float *)calloc(jum_bus,sizeof(float));
voltfasaG1[i]=(float *)calloc(jum_bus,sizeof(float));
//voltan jujuk positif
voltfasaG2[i]=(float *)calloc(jum_bus,sizeof(float));
voltfasaB0[i]=(float *)calloc(jum_bus,sizeof(float));
//voltan jujuk negatif
voltfasaB1[i]=(float *)calloc(jum_bus,sizeof(float));
voltfasaB2[i]=(float *)calloc(jum_bus,sizeof(float));
}
//$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$
//jika kes satu fasa ke bumi
if(n==1)
{
Ifg[g] = (invG[g][g] + gposinv[g][g]*2)/(((invG[g][g] + gposinv[g][g]*2)*(invG[g][g] + gposinv[g][g]*2))+
((invB[g][g]+bposinv[g][g]*2+dot[1].zf)*(invB[g][g]+bposinv[g][g]*2+dot[1].zf)));
Ifb[g] = -(invB[g][g]+bposinv[g][g]*2+dot[1].zf)/(((invG[g][g] + gposinv[g][g]*2)*(invG[g][g] + gposinv[g][g]*2))+
((invB[g][g]+bposinv[g][g]*2+dot[1].zf)*(invB[g][g]+bposinv[g][g]*2+dot[1].zf)));
IfgN[g] = Ifg[g]*(-3);
IfbN[g] = Ifb[g]*(-3);
fprintf(fout,"\n\n\n\n");
fprintf(fout,"A PHASE TO GROUND FAULT\n\n\n");
fprintf(fout,"\tCURRENTS AT FAULT BUS Ifa(0)=Ifa(1)=Ifa(2). CURRENT Ifb=Ifc=0\n");
fprintf(fout,"\n");
fprintf(fout,"\tIfa(real)=%.4f\tIfa(imaginary)=%.4f\n",Ifg[g],Ifb[g]);
fprintf(fout,"\n\n\n");
fprintf(fout,"\tTOTAL FAULT CURRENT 3Ifzero\n\n");
fprintf(fout,"\tIftotal(real)=%.4f\tIftotal(imaginary)=%.4f",IfgN[g],IfbN[g]);
//---------------------------------------------------------------------------------------
for(j=1;j<=jum_bus;j++)
{
//voltan fasa A
voltangagalG0[j][g] = ((-invG[j][g]*Ifg[g])+(invB[j][g]*Ifb[g])) + (1-((gposinv[j][g]*Ifg[g])-(bposinv[j][g]*Ifb[g]))) + ((-gposinv[j][g]*Ifg[g])+(bposinv[j][g]*Ifb[g]));
if(!Ifg[g]==0)
{
voltangagalB0[j][g] = ((-invG[j][g]*Ifb[g])-(invB[j][g]*Ifg[g])) + (1-((-gposinv[j][g]*Ifb[g])-(bposinv[j][g]*Ifg[g]))) + ((-gposinv[j][g]*Ifb[g])-(bposinv[j][g]*Ifg[g]));
}
else
if (Ifg[g]==0 || !Ifg[g]==0)
{
//voltan fasa B
voltangagalG1a[j][g] = ((-invG[j][g]*Ifg[g])+(invB[j][g]*Ifb[g])) + (1-((gposinv[j][g]*Ifg[g])-(bposinv[j][g]*Ifb[g])))*(-0.5) + ((-gposinv[j][g]*Ifg[g])+(bposinv[j][g]*Ifb[g]))*(-0.5);
voltangagalB1a[j][g] = ((-invG[j][g]*Ifb[g])-(invB[j][g]*Ifg[g])) + (1-((-gposinv[j][g]*Ifb[g])-(bposinv[j][g]*Ifg[g])))*(-0.8660) + ((-gposinv[j][g]*Ifb[g])-(bposinv[j][g]*Ifg[g]))*(0.8660);
//voltan fasa C
voltangagalG1b[j][g] = ((-invG[j][g]*Ifg[g])+(invB[j][g]*Ifb[g])) + (1-((gposinv[j][g]*Ifg[g])-(bposinv[j][g]*Ifb[g])))*(-0.5) + ((-gposinv[j][g]*Ifg[g])+(bposinv[j][g]*Ifb[g]))*(-0.5);
voltangagalB1b[j][g] = ((-invG[j][g]*Ifb[g])-(invB[j][g]*Ifg[g])) + (1-((-gposinv[j][g]*Ifb[g])-(bposinv[j][g]*Ifg[g])))*(0.8660) + ((-gposinv[j][g]*Ifb[g])-(bposinv[j][g]*Ifg[g]))*(-0.8660);
}
}
//------------------------------------------------------------
fprintf(fout,"\n\n\n");
fprintf(fout,"\t\t\t\t\t\tVOLTAGES ALL BUSES TO BUS %d \n\n",g);
for(j=1;j<=jum_bus;j++)
{
fprintf(fout,"V%d%dphaseA:%.4f+%.4fj\t",j,g,voltangagalG0[j][g],voltangagalB0[j][g]);
}
fprintf(fout,"\n");
fprintf(fout,"\n");
for(j=1;j<=jum_bus;j++)
{
fprintf(fout,"V%d%dphaseB:%.4f%.4fj\t",j,g,voltangagalG1a[j][g],voltangagalB1a[j][g]);
}
fprintf(fout,"\n");
fprintf(fout,"\n");
for(j=1;j<=jum_bus;j++)
{
fprintf(fout,"V%d%dphaseC:%.4f+%.4fj\t",j,g,voltangagalG1b[j][g],voltangagalB1b[j][g]);
}
fprintf(fout,"\n");
}
else
//---------------------------------------------------------------------------------
//jika kes dua fasa ke bumi
if(n==2)
{
//arus jujuk positif
A[g]=((gposinv[g][g]*(gposinv[g][g] + invG[g][g])) - ((bposinv[g][g]*(bposinv[g][g] + invB[g][g]))) + (invG[g][g]*gposinv[g][g]) - (invB[g][g]*bposinv[g][g]));
B[g]=((gposinv[g][g]*(bposinv[g][g] + invB[g][g])) + ((bposinv[g][g]*(gposinv[g][g] + invG[g][g]))) + (invG[g][g]*bposinv[g][g]) + (invB[g][g]*gposinv[g][g]));
Ifg[g] = (((A[g]*(invG[g][g] + gposinv[g][g])) + ((bposinv[g][g] + invB[g][g])*B[g]))/((A[g]*A[g]) + (B[g]*B[g])));
Ifb[g] = (((A[g]*(bposinv[g][g] + invB[g][g])) - ((invG[g][g] + gposinv[g][g])*B[g]))/((A[g]*A[g]) + (B[g]*B[g])));
fprintf(fout,"\n\n\n\n");
fprintf(fout,"\tTWO PHASE TO GROUND FAULT\n\n");
fprintf(fout,"\tPOITIVE SEQUENCE CURRENT=\treal=%.4f\timaginary=%.4fj\n",Ifg[g],Ifb[g]);
//arus jujuk negatif
C[g]=(((invG[g][g]*(gposinv[g][g]+invG[g][g]))-(invB[g][g]*(bposinv[g][g]+invB[g][g])))/(((gposinv[g][g]+invG[g][g])*(gposinv[g][g]+invG[g][g]))+((bposinv[g][g]+invB[g][g])*(bposinv[g][g]+invB[g][g]))));
D[g]=(((invG[g][g]*(bposinv[g][g]+invB[g][g]))+(invB[g][g]*(gposinv[g][g]+invG[g][g])))/(((gposinv[g][g]+invG[g][g])*(gposinv[g][g]+invG[g][g]))+((bposinv[g][g]+invB[g][g])*(bposinv[g][g]+invB[g][g]))));
Ifg2[g] = ((C[g]*(-Ifg[g])) + (Ifb[g]*D[g]));
Ifb2[g] = ((C[g]*Ifb[g]) + ((-Ifg[g])*D[g]));
fprintf(fout,"\tNEGATIVE SEQUENCE CURRENT=\treal=%.4f\timaginary=%.4fj\n",Ifg2[g],Ifb2[g]);
//arus jujuk zero
E[g]=(((gposinv[g][g]*(gposinv[g][g]+invG[g][g]))-(bposinv[g][g]*(bposinv[g][g]+invB[g][g])))/(((gposinv[g][g]+invG[g][g])*(gposinv[g][g]+invG[g][g]))+((bposinv[g][g]+invB[g][g])*(bposinv[g][g]+invB[g][g]))));
F[g]=(((gposinv[g][g]*(bposinv[g][g]+invB[g][g]))+(bposinv[g][g]*(gposinv[g][g]+invG[g][g])))/(((gposinv[g][g]+invG[g][g])*(gposinv[g][g]+invG[g][g]))+((bposinv[g][g]+invB[g][g])*(bposinv[g][g]+invB[g][g]))));
Ifg0[g] = ((E[g]*(-Ifg[g])) + (Ifb[g]*F[g]));
Ifb0[g] = ((E[g]*Ifb[g]) + ((-Ifg[g])*F[g]));
fprintf(fout,"\tZERO SEQUENCE CURRENT=\treal=%.4f\timaginary=%.4fj\n",Ifg0[g],Ifb0[g]);
fprintf(fout,"\n\n");
IfgN[g]=Ifg0[g]*3;
IfbN[g]=Ifb0[g]*3;
fprintf(fout,"\n\n\n");
fprintf(fout,"\tTOTAL FAULT CURRENT 3Ifzero\n\n");
fprintf(fout,"\tIftotal(real)=%.4f\tIftotal(imaginary)=%.4f",IfgN[g],IfbN[g]);
fprintf(fout,"\n\n\n");
for(j=1;j<=jum_bus;j++)
{
//voltan fasa A
voltfasaG0[j][g] = ((-invG[j][g]*Ifg0[g])+(invB[j][g]*Ifb0[g]));
voltfasaB0[j][g] = ((-invG[j][g]*Ifb0[g])-(invB[j][g]*Ifg0[g]));
voltfasaG1[j][g] = (1-((gposinv[j][g]*Ifg[g])-(bposinv[j][g]*Ifb[g])));
voltfasaB1[j][g] = (1-((gposinv[j][g]*Ifg[g])-(bposinv[j][g]*Ifb[g])));
voltfasaG2[j][g] = ((-gposinv[j][g]*Ifg2[g])+(bposinv[j][g]*Ifb2[g]));
voltfasaB2[j][g] = ((-gposinv[j][g]*Ifg2[g])+(bposinv[j][g]*Ifb2[g]));
}
for(j=1;j<=jum_bus;j++)
{
voltangagalG0[j][g] = voltfasaG0[j][g] + voltfasaG1[j][g] + voltfasaG2[j][g];
voltangagalB0[j][g] = voltfasaB0[j][g] + voltfasaB1[j][g] + voltfasaB2[j][g];
voltangagalG1a[j][g] = voltfasaG0[j][g] + voltfasaG1[j][g]*(-0.5) + voltfasaG2[j][g]*(-0.5);
voltangagalB1a[j][g] = voltfasaB0[j][g] + voltfasaB1[j][g]*(-0.8660) + voltfasaB2[j][g]*(0.8660);
voltangagalG1b[j][g] = voltfasaG0[j][g] + voltfasaG1[j][g]*(-0.5) + voltfasaG2[j][g]*(-0.5);
voltangagalB1b[j][g] = voltfasaB0[j][g] + voltfasaB1[j][g]*(0.8660) + voltfasaB2[j][g]*(-0.8660);
}
fprintf(fout,"\n\n\n");
fprintf(fout,"\t\t\t\t\t\tVOLTAGES ALL BUSES TO BUS %d \n\n",g);
for(j=1;j<=jum_bus;j++)
{
fprintf(fout,"V%d%dphaseA:%.4f+%.4fj\t",j,g,voltangagalG0[j][g],voltangagalB0[j][g]);
}
fprintf(fout,"\n");
fprintf(fout,"\n");
for(j=1;j<=jum_bus;j++)
{
fprintf(fout,"V%d%dphaseB:%.4f%.4fj\t",j,g,voltangagalG1a[j][g],voltangagalB1a[j][g]);
}
fprintf(fout,"\n");
fprintf(fout,"\n");
for(j=1;j<=jum_bus;j++)
{
fprintf(fout,"V%d%dphaseC:%.4f+%.4fj\t",j,g,voltangagalG1b[j][g],voltangagalB1b[j][g]);
}
fprintf(fout,"\n");
}
else
//kes satu fasa ke fasa
if(n==3)
{
//arus fasa zero =0
A[g] = (gposinv[g][g] + gposinv[g][g])*(gposinv[g][g] + gposinv[g][g]);
B[g] = (bposinv[g][g] + bposinv[g][g])*(bposinv[g][g] + bposinv[g][g]);
Ifg0[g]=0;
Ifb0[g]=0;
Ifg[g] = (gposinv[g][g] + gposinv[g][g])/(A[g] + B[g]);
Ifb[g] = -(bposinv[g][g] + bposinv[g][g])/(A[g] + B[g]);
Ifg2[g] = Ifg[g]*(-1);
Ifb2[g] = Ifb[g]*(-1);
IfgN[g] = Ifg0[g]*3;
IfbN[g] = Ifb0[g]*3;
fprintf(fout,"\n\n\n\n");
fprintf(fout,"PHASE TO PHASE FAULT\n\n\n");
fprintf(fout,"\tCURRENT AT FAULT BUS Ifa(0)= 0, Ifa(1)=-Ifa(2)\n");
fprintf(fout,"\n");
fprintf(fout,"\tIfa(real)=%.4f\tIfa(imaginary)=%.4f\n",Ifg[g],Ifb[g]);
fprintf(fout,"\n\n\n");
fprintf(fout,"\tTOTAL FAULT CURRENT 3Ifzero\n\n");
fprintf(fout,"\tIftotal(real)=%.4f\tIftotal(imaginary)=%.4f",IfgN[g],IfbN[g]);
for(j=1;j<=jum_bus;j++)
{
//voltan fasa A
voltfasaG0[j][g] = ((-invG[j][g]*Ifg0[g])+(invB[j][g]*Ifb0[g]));
voltfasaB0[j][g] = ((-invG[j][g]*Ifb0[g])-(invB[j][g]*Ifg0[g]));
voltfasaG1[j][g] = (1-((gposinv[j][g]*Ifg[g])-(bposinv[j][g]*Ifb[g])));
voltfasaB1[j][g] = (1-((gposinv[j][g]*Ifg[g])-(bposinv[j][g]*Ifb[g])));
voltfasaG2[j][g] = ((-gposinv[j][g]*Ifg2[g])+(bposinv[j][g]*Ifb2[g]));
voltfasaB2[j][g] = ((-gposinv[j][g]*Ifg2[g])+(bposinv[j][g]*Ifb2[g]));
}
for(j=1;j<=jum_bus;j++)
{
voltangagalG0[j][g] = voltfasaG0[j][g] + voltfasaG1[j][g] + voltfasaG2[j][g];
voltangagalB0[j][g] = voltfasaB0[j][g] + voltfasaB1[j][g] + voltfasaB2[j][g];
voltangagalG1a[j][g] = voltfasaG0[j][g] + voltfasaG1[j][g]*(-0.5) + voltfasaG2[j][g]*(-0.5);
voltangagalB1a[j][g] = voltfasaB0[j][g] + voltfasaB1[j][g]*(-0.8660) + voltfasaB2[j][g]*(0.8660);
voltangagalG1b[j][g] = voltfasaG0[j][g] + voltfasaG1[j][g]*(-0.5) + voltfasaG2[j][g]*(-0.5);
voltangagalB1b[j][g] = voltfasaB0[j][g] + voltfasaB1[j][g]*(0.8660) + voltfasaB2[j][g]*(-0.8660);
}
fprintf(fout,"\n\n\n");
fprintf(fout,"\t\t\t\t\t\tVOLTAGES ALL BUSES TO BUS %d \n\n",g);
for(j=1;j<=jum_bus;j++)
{
fprintf(fout,"V%d%dphaseA:%.4f+%.4fj\t",j,g,voltangagalG0[j][g],voltangagalB0[j][g]);
}
fprintf(fout,"\n");
fprintf(fout,"\n");
for(j=1;j<=jum_bus;j++)
{
fprintf(fout,"V%d%dphaseB:%.4f%.4fj\t",j,g,voltangagalG1a[j][g],voltangagalB1a[j][g]);
}
fprintf(fout,"\n");
fprintf(fout,"\n");
for(j=1;j<=jum_bus;j++)
{
fprintf(fout,"V%d%dphaseC:%.4f+%.4fj\t",j,g,voltangagalG1b[j][g],voltangagalB1b[j][g]);
}
fprintf(fout,"\n");
}
else
//kes 3 fasa ke bumi @ BALANCED FAULT
if(n==4)
{
float *Voltanreal,*Voltanimag, *Voltanmagnitud, *Voltanangle;
Voltanreal = (float *)calloc(jum_bus+1,sizeof(float));
Voltanimag = (float *)calloc(jum_bus+1,sizeof(float));
Voltanmagnitud = (float *)calloc(jum_bus+1,sizeof(float));
Voltanangle = (float *)calloc(jum_bus+1,sizeof(float));
for(i=1;i<=jum_bus;i++)
{
Voltanreal[i] = 1 - ((gposinv[i][g]*gposinv[g][g]+ bposinv[i][g]*bposinv[g][g])/(gposinv[g][g]*gposinv[g][g]+ bposinv[g][g]*bposinv[g][g]));
Voltanimag[i] = 1 - ((bposinv[i][g]*gposinv[g][g]- gposinv[i][g]*bposinv[g][g])/(gposinv[g][g]*gposinv[g][g]+ bposinv[g][g]*bposinv[g][g]));
Voltanmagnitud[i] = sqrt(Voltanreal[i]*Voltanreal[i] + Voltanimag[i]*Voltanimag[i]);
//Voltanangle[i]= (atan(Voltanimag[i]/ Voltanreal[i])*180)/3.142;
}
fprintf(fout,"\n\n\n");
fprintf(fout,"\t\t\t\t\t\tVOLTAGES ALL BUSES \n\n");
for(i=1;i<=jum_bus;i++)
{
fprintf(fout,"voltan[%d]= %.4f Angle[%d]=%.4f\n",i,Voltanmagnitud[i],i,Voltanmagnitud[i]);
}
}
return 0;
}
ZERO-SEQUENCE INPUT
( file_name : zero.txt ) POSITIVE/NEGATIVE SEQUENCE INPUT
( file_namepos : pos1.txt )
14
11
1 2 1 4 0 0.06 0
2 3 0 0 0 0.60 0
2 5 0 0 0 0.30 0
2 6 0 0 0 0.90 0
3 4 0 0 0 0.80 0
3 6 0 0 0 0.80 0
4 6 0 0 0 1.00 0
4 9 0 0 0 1.10 0
4 10 1 1 0 0.08 0
5 7 0 0 0 0.80 0
6 8 0 0 0 0.95 0
7 8 0 0 0 0.70 0
7 11 1 3 0 0.34 0
8 9 0 0 0 0.90 0
3
1 1 0.06
10 1 0.04
11 1 0.08
0.05
14
11
1 2 0 0.06 0
2 3 0 0.3 0
2 5 0 0.15 0
2 6 0 0.45 0
3 4 0 0.40 0
3 6 0 0.40 0
4 6 0 0.60 0
4 9 0 0.70 0
4 10 0 0.08 0
5 7 0 0.43 0
6 8 0 0.48 0
7 8 0 0.35 0
7 11 0 0.10 0
8 9 0 0.48 0
3
1 1 0.20
10 1 0.15
11 1 0.25
adik1310
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If I had any control over these forums, I would ban you, ban your children and ban your childrens children.
Please don't ever post a message that size again.
As for your user name 'adik1310', I will never even bother to read your posts again.
Waldermort
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nicely said Waldermort,
atleast, now he has to delete his post or repost it in short.
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WalderMort wrote: If I had any control over these forums, I would ban you, ban your children and ban your childrens children.
Mwahaha . You should have cursed him up to the seventh generation (that's the standard ) !
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Cedric Moonen wrote: You should have cursed him up to the seventh generation
LMAO, I guess I was kinda soft on him
Waldermort
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LMAO ?????
Please, to the english native speakers. Can you please write correctly? :P
Greetings.
--------
M.D.V.
If something has a solution... Why do we have to worry about?. If it has no solution... For what reason do we have to worry about?
Help me to understand what I'm saying, and I'll explain it better to you
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