std::vector<double> q::qList2Fp(K data) throw(std::string) { if (data == K_NIL) { throw std::string("nil floating-point list"); } else if (data->t <= 0) { throw std::string("not a floating-point list"); } assert(data->n >= 0); std::vector<double> result(static_cast<std::size_t>(data->n), 0.); switch (data->t) { case KB: case KG: case KH: case KI: case KJ: { std::vector<long long> decs = qList2Dec(data); struct Converter { double operator()(long long x) const { return static_cast<double>(x); } }; std::transform(decs.begin(), decs.end(), result.begin(), Converter()); break; } case KE: std::copy(kE(data), kE(data) + data->n, result.begin()); break; case KF: std::copy(kF(data), kF(data) + data->n, result.begin()); break; default: throw std::string("not a floating-point list"); } return result; }
int mlput(K x,K y){ int fstype=y->t,fsint=y->i,i=0,funcerr=0; K z; char b[2]={0,0}; mlint64 j={0,0}; //printf("%s:%d,%d\n","mlput",x->t,x->n); switch(x->t){ case -KB: case -KG: case -KC:b[0]=x->g;R MLPutString(ml_lp,b); case -KH:R MLPutInteger16(ml_lp,x->h); case -KI:R MLPutInteger32(ml_lp,x->i); case -KJ:*(J*)&j=x->j;R MLPutInteger64(ml_lp,j); case -KE:R MLPutReal32(ml_lp,x->e); case -KF:R MLPutReal64(ml_lp,x->f); case -KS:R MLPutSymbol(ml_lp,x->s); case KB: case KG: case KC:R MLPutByteString(ml_lp,kG(x),x->n); case KH:R MLPutInteger16List(ml_lp,kH(x),x->n); case KI:R MLPutInteger32List(ml_lp,kI(x),x->n); case KJ:R MLPutInteger64List(ml_lp,(mlint64*)kJ(x),x->n); case KE:R MLPutReal32List(ml_lp,kE(x),x->n); case KF:R MLPutReal64List(ml_lp,kF(x),x->n); case KS:if(!MLPutFunction(ml_lp,"List",x->n)){ R 0; }else{ for(i=0;i<x->n;i++)if(!MLPutSymbol(ml_lp,kS(x)[i]))R 0; } break; case 0: if(0==x->n){ R MLPutFunction(ml_lp, "List",0); }else if((3==x->n)&&(fstype==kK(x)[0]->t)){ z=kK(x)[2]; if(!MLPutFunction(ml_lp,kK(x)[1]->s,z->n)){R 0;}else{ switch(z->t){ case 0:for(i=0;i<z->n;i++)if(!mlput(kK(z)[i],y))R 0;break; case KH:for(i=0;i<z->n;i++)if(!MLPutInteger16(ml_lp,kH(z)[i]))R 0;break; case KI:for(i=0;i<z->n;i++)if(!MLPutInteger32(ml_lp,kI(z)[i]))R 0;break; case KJ:for(i=0;i<z->n;i++){*(J*)&j=kJ(z)[i];if(!MLPutInteger64(ml_lp,j))R 0;}break; case KE:for(i=0;i<z->n;i++)if(!MLPutReal32(ml_lp,kE(z)[i]))R 0;break; case KF:for(i=0;i<z->n;i++)if(!MLPutReal64(ml_lp,kF(z)[i]))R 0;break; case KS:for(i=0;i<z->n;i++)if(!MLPutSymbol(ml_lp,kS(z)[i]))R 0;break; case KC:for(i=0;i<z->n;i++){b[0]=kC(z)[i];if(!MLPutString(ml_lp,b))R 0;}break; default:break; } } }else{ if(!MLPutFunction(ml_lp,"List",x->n)){R 0;}else{for(i=0;i<x->n;i++)if(!mlput(kK(x)[i],y)){MLPutSymbol(ml_lp,"ParaErr");funcerr=1;}if(funcerr)R 0;} } break; default: R 0; } R 1; }
int main(int argc,char*argv[]) { K flip,result,columnNames,columnData; int row,col,nCols,nRows; int handle=khpu("localhost",1234,"user:password"); if(handle<0) exit(1); result = k(handle,"`asc",(K)0); std::string str = "([]a:til 10;b:reverse til 10;c:10#01010101010b;d:`a)"; result = k(handle,str.c_str(),(K)0); if(!result) printf("Network Error\n"),perror("Network"),exit(1); if(result->t==-128) printf("Server Error %s\n",result->s),kclose(handle),exit(1); // kclose(handle); if(result->t!=99&&result->t!=98) { printf("type %d\n",result->t); r0(result); exit(1); } flip = ktd(result); // if keyed table, unkey it. ktd decrements ref count of arg. // table (flip) is column names!list of columns (data) columnNames = kK(flip->k)[0]; columnData = kK(flip->k)[1]; nCols = columnNames->n; nRows = kK(columnData)[0]->n; for(row=0;row<nRows;row++) { if(0==row) { for(col=0;col<nCols;col++) { if(col>0)printf(","); printf("%s",kS(columnNames)[col]); } printf("\n"); } for(col=0;col<nCols;col++) { K obj=kK(columnData)[col]; if(col>0)printf(","); switch(obj->t) { case(1):{printf("%d",kG(obj)[row]);}break; case(4):{printf("%d",kG(obj)[row]);}break; case(5):{printf("%d",kH(obj)[row]);}break; case(6):{printf("%d",kI(obj)[row]);}break; case(7):{printf("%lld",kJ(obj)[row]);}break; case(8):{printf("%f",kE(obj)[row]);}break; case(9):{printf("%f",kF(obj)[row]);}break; case(11):{printf("%s",kS(obj)[row]);}break; default:{printf("unknown type");}break; } } printf("\n"); } r0(flip); return 0; }
//create ,pass and recieve a simple table. int eg7() { K cc,d,e,v,tab; K flip,result,columnNames,columnData; int row,col,nCols,nRows; cc=ktn(KS,2);kS(cc)[0]=ss("pid");kS(cc)[1]=ss("uid"); d=ktn(KS,3);kS(d)[0]=ss("ibm");kS(d)[1]=ss("gte");kS(d)[2]=ss("kvm"); e=ktn(KI,3);kI(e)[0]=1;kI(e)[1]=2;kI(e)[2]=3; v=knk(2,d,e); tab=xT(xD(cc,v)); flip=k(c,"{[x]a:update t:.z.t,y:.z.d from x;.tst.t:a;a}",tab,(K)0); //Turn into a dictionary. flip->k [transpose?] //Display table. [Borrowed from code.kx.com: // https://code.kx.com/trac/attachment/wiki/Cookbook/InterfacingWithC/csv.c ] columnNames=kK(flip->k)[0]; columnData=kK(flip->k)[1]; nCols=columnNames->n; nRows=kK(columnData)[0]->n; for(row=0;row<nRows;row++) { if(0==row) { for(col=0;col<nCols;col++) { if(col>0)printf(","); printf("%s",kS(columnNames)[col]); } printf("\n"); } for(col=0;col<nCols;col++) { K obj=kK(columnData)[col]; if(col>0)printf(","); switch(obj->t) { case(1):{printf("%d",kG(obj)[row]);}break; case(4):{printf("%d",kG(obj)[row]);}break; case(5):{printf("%d",kH(obj)[row]);}break; case(6):{printf("%d",kI(obj)[row]);}break; case(7):{printf("%lld",kJ(obj)[row]);}break; case(8):{printf("%f",kE(obj)[row]);}break; case(9):{printf("%f",kF(obj)[row]);}break; case(11):{printf("%s",kS(obj)[row]);}break; case(19):{printf("%i",kI(obj)[row]);}break; case(14):{printf("%i",kI(obj)[row]);}break; default:{printf("unknown type");}break; } } printf("\n"); } return 1; }
double *getklist(K p) { double *r; r=g_malloc(p->n*sizeof(double)); switch(p->t){ case 1 : case 4 : DO(p->n,r[i]=kG(p)[i]);break; case 5 : DO(p->n,r[i]=kH(p)[i]);break; case 6 : case 13 : case 14 : case 17 : case 18 : DO(p->n,r[i]=kI(p)[i]);break; case 7 : case 16 : DO(p->n,r[i]=kJ(p)[i]);break; case 8 : DO(p->n,r[i]=kE(p)[i]);break; case 9 : case 15 : DO(p->n,r[i]=kF(p)[i]);break; case 10 : DO(p->n,r[i]=kC(p)[i]);break; default : g_free(r);return (double *)kerr("invalid numeric type"); } return r; }