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|
#include "Graph_functions.h"
#ifdef __cplusplus
extern "C" {
#endif
#include "Graph_includes.h"
DLLExport
real_array omc_Simulator_Files_ThermodynamicFunctions_BIPNRTL(threadData_t *threadData, modelica_integer _Nc, string_array _CAS)
{
real_array _BIP;
modelica_string _Us = NULL;
string_array _CAS_CAS;
real_array _BIPdb;
string_array _c_cc;
string_array _d_cc;
modelica_integer tmp1;
modelica_integer tmp2;
modelica_integer tmp3;
modelica_integer tmp4;
modelica_integer tmp5;
modelica_integer tmp6;
modelica_integer tmp7;
modelica_integer tmp8;
modelica_integer tmp9;
modelica_integer tmp10;
modelica_integer tmp11;
modelica_integer tmp12;
modelica_integer tmp13;
modelica_integer tmp14;
modelica_integer tmp15;
modelica_integer tmp16;
modelica_integer tmp17;
modelica_integer tmp18;
modelica_metatype tmpMeta[2] __attribute__((unused)) = {0};
_tailrecursive: OMC_LABEL_UNUSED
alloc_real_array(&_BIP, 3, (modelica_integer)_Nc, (modelica_integer)_Nc, ((modelica_integer) 2));
_Us = _OMC_LIT1;
_CAS_CAS = _OMC_LIT339;
_BIPdb = _OMC_LIT340;
alloc_string_array(&_c_cc, 2, (modelica_integer)_Nc, (modelica_integer)_Nc);
alloc_string_array(&_d_cc, 2, (modelica_integer)_Nc, (modelica_integer)_Nc);
tmp7 = ((modelica_integer) 1); tmp8 = 1; tmp9 = (modelica_integer)_Nc;
if(!tmp8)
{
FILE_INFO info = omc_dummyFileInfo;
omc_assert(threadData, info, "assertion range step != 0 failed");
}
else if(!(((tmp8 > 0) && (tmp7 > tmp9)) || ((tmp8 < 0) && (tmp7 < tmp9))))
{
modelica_integer _i;
for(_i = ((modelica_integer) 1); in_range_integer(_i, tmp7, tmp9); _i += tmp8)
{
tmp4 = ((modelica_integer) 1); tmp5 = 1; tmp6 = (modelica_integer)_Nc;
if(!tmp5)
{
FILE_INFO info = omc_dummyFileInfo;
omc_assert(threadData, info, "assertion range step != 0 failed");
}
else if(!(((tmp5 > 0) && (tmp4 > tmp6)) || ((tmp5 < 0) && (tmp4 < tmp6))))
{
modelica_integer _j;
for(_j = ((modelica_integer) 1); in_range_integer(_j, tmp4, tmp6); _j += tmp5)
{
tmp1 = ((modelica_integer) 1); tmp2 = 1; tmp3 = ((modelica_integer) 2);
if(!tmp2)
{
FILE_INFO info = omc_dummyFileInfo;
omc_assert(threadData, info, "assertion range step != 0 failed");
}
else if(!(((tmp2 > 0) && (tmp1 > tmp3)) || ((tmp2 < 0) && (tmp1 < tmp3))))
{
modelica_integer _k;
for(_k = ((modelica_integer) 1); in_range_integer(_k, tmp1, tmp3); _k += tmp2)
{
(*real_array_element_addr(&_BIP, 3, /* modelica_integer */ (modelica_integer)_i, /* modelica_integer */ (modelica_integer)_j, /* modelica_integer */ (modelica_integer)_k)) = 0.0;
}
}
}
}
}
}
tmp16 = ((modelica_integer) 1); tmp17 = 1; tmp18 = (modelica_integer)_Nc;
if(!tmp17)
{
FILE_INFO info = omc_dummyFileInfo;
omc_assert(threadData, info, "assertion range step != 0 failed");
}
else if(!(((tmp17 > 0) && (tmp16 > tmp18)) || ((tmp17 < 0) && (tmp16 < tmp18))))
{
modelica_integer _i;
for(_i = ((modelica_integer) 1); in_range_integer(_i, tmp16, tmp18); _i += tmp17)
{
tmp13 = ((modelica_integer) 1); tmp14 = 1; tmp15 = (modelica_integer)_Nc;
if(!tmp14)
{
FILE_INFO info = omc_dummyFileInfo;
omc_assert(threadData, info, "assertion range step != 0 failed");
}
else if(!(((tmp14 > 0) && (tmp13 > tmp15)) || ((tmp14 < 0) && (tmp13 < tmp15))))
{
modelica_integer _j;
for(_j = ((modelica_integer) 1); in_range_integer(_j, tmp13, tmp15); _j += tmp14)
{
tmpMeta[0] = stringAppend((*string_array_element_addr1(&_CAS, 1, /* modelica_integer */ (modelica_integer)_i)),_OMC_LIT1);
tmpMeta[1] = stringAppend(tmpMeta[0],(*string_array_element_addr1(&_CAS, 1, /* modelica_integer */ (modelica_integer)_j)));
(*string_array_element_addr2(&_c_cc, 2, /* modelica_integer */ (modelica_integer)_i, /* modelica_integer */ (modelica_integer)_j)) = tmpMeta[1];
tmpMeta[0] = stringAppend((*string_array_element_addr1(&_CAS, 1, /* modelica_integer */ (modelica_integer)_j)),_OMC_LIT1);
tmpMeta[1] = stringAppend(tmpMeta[0],(*string_array_element_addr1(&_CAS, 1, /* modelica_integer */ (modelica_integer)_i)));
(*string_array_element_addr2(&_d_cc, 2, /* modelica_integer */ (modelica_integer)_i, /* modelica_integer */ (modelica_integer)_j)) = tmpMeta[1];
tmp10 = ((modelica_integer) 1); tmp11 = 1; tmp12 = ((modelica_integer) 352);
if(!tmp11)
{
FILE_INFO info = omc_dummyFileInfo;
omc_assert(threadData, info, "assertion range step != 0 failed");
}
else if(!(((tmp11 > 0) && (tmp10 > tmp12)) || ((tmp11 < 0) && (tmp10 < tmp12))))
{
modelica_integer _k;
for(_k = ((modelica_integer) 1); in_range_integer(_k, tmp10, tmp12); _k += tmp11)
{
if((stringEqual((*string_array_element_addr2(&_c_cc, 2, /* modelica_integer */ (modelica_integer)_i, /* modelica_integer */ (modelica_integer)_j)), string_get(_OMC_LIT339, ((modelica_integer)_k)-1))))
{
(*real_array_element_addr(&_BIP, 3, /* modelica_integer */ (modelica_integer)_i, /* modelica_integer */ (modelica_integer)_j, /* modelica_integer */ ((modelica_integer) 1))) = real_get_2D(_OMC_LIT340, ((modelica_integer)_k)-1, 0);
(*real_array_element_addr(&_BIP, 3, /* modelica_integer */ (modelica_integer)_j, /* modelica_integer */ (modelica_integer)_i, /* modelica_integer */ ((modelica_integer) 1))) = real_get_2D(_OMC_LIT340, ((modelica_integer)_k)-1, 1);
(*real_array_element_addr(&_BIP, 3, /* modelica_integer */ (modelica_integer)_i, /* modelica_integer */ (modelica_integer)_j, /* modelica_integer */ ((modelica_integer) 2))) = real_get_2D(_OMC_LIT340, ((modelica_integer)_k)-1, 2);
(*real_array_element_addr(&_BIP, 3, /* modelica_integer */ (modelica_integer)_j, /* modelica_integer */ (modelica_integer)_i, /* modelica_integer */ ((modelica_integer) 2))) = real_get_2D(_OMC_LIT340, ((modelica_integer)_k)-1, 2);
}
if((stringEqual((*string_array_element_addr2(&_d_cc, 2, /* modelica_integer */ (modelica_integer)_i, /* modelica_integer */ (modelica_integer)_j)), string_get(_OMC_LIT339, ((modelica_integer)_k)-1))))
{
(*real_array_element_addr(&_BIP, 3, /* modelica_integer */ (modelica_integer)_j, /* modelica_integer */ (modelica_integer)_i, /* modelica_integer */ ((modelica_integer) 1))) = real_get_2D(_OMC_LIT340, ((modelica_integer)_k)-1, 0);
(*real_array_element_addr(&_BIP, 3, /* modelica_integer */ (modelica_integer)_i, /* modelica_integer */ (modelica_integer)_j, /* modelica_integer */ ((modelica_integer) 1))) = real_get_2D(_OMC_LIT340, ((modelica_integer)_k)-1, 1);
(*real_array_element_addr(&_BIP, 3, /* modelica_integer */ (modelica_integer)_i, /* modelica_integer */ (modelica_integer)_j, /* modelica_integer */ ((modelica_integer) 2))) = real_get_2D(_OMC_LIT340, ((modelica_integer)_k)-1, 2);
(*real_array_element_addr(&_BIP, 3, /* modelica_integer */ (modelica_integer)_j, /* modelica_integer */ (modelica_integer)_i, /* modelica_integer */ ((modelica_integer) 2))) = real_get_2D(_OMC_LIT340, ((modelica_integer)_k)-1, 2);
}
}
}
}
}
}
}
_return: OMC_LABEL_UNUSED
return _BIP;
}
modelica_metatype boxptr_Simulator_Files_ThermodynamicFunctions_BIPNRTL(threadData_t *threadData, modelica_metatype _Nc, modelica_metatype _CAS)
{
modelica_integer tmp1;
real_array _BIP;
modelica_metatype out_BIP;
tmp1 = mmc_unbox_integer(_Nc);
_BIP = omc_Simulator_Files_ThermodynamicFunctions_BIPNRTL(threadData, tmp1, *((base_array_t*)_CAS));
out_BIP = mmc_mk_modelica_array(_BIP);
return out_BIP;
}
DLLExport
modelica_real omc_Simulator_Files_ThermodynamicFunctions_Dens(threadData_t *threadData, real_array _LiqDen, modelica_real _Tc, modelica_real _T, modelica_real _P)
{
modelica_real _rho;
modelica_real _Tr;
modelica_real _R;
modelica_real tmp1;
modelica_real tmp2;
modelica_real tmp3;
modelica_real tmp4;
modelica_real tmp5;
modelica_real tmp6;
modelica_real tmp7;
modelica_real tmp8;
modelica_real tmp9;
modelica_real tmp10;
modelica_real tmp11;
modelica_real tmp12;
modelica_real tmp13;
modelica_real tmp14;
modelica_real tmp15;
modelica_real tmp16;
modelica_real tmp17;
modelica_real tmp18;
modelica_real tmp19;
modelica_real tmp20;
modelica_real tmp21;
modelica_real tmp22;
modelica_real tmp23;
modelica_real tmp24;
modelica_real tmp25;
modelica_real tmp26;
_tailrecursive: OMC_LABEL_UNUSED
_R = 8.314;
tmp1 = _Tc;
if (tmp1 == 0) {throwStreamPrint(threadData, "Division by zero %s", "T / Tc");}
_Tr = (_T) / tmp1;
if((_T < _Tc))
{
if(((*real_array_element_addr1(&_LiqDen, 1, /* modelica_integer */ ((modelica_integer) 1))) == 105.0))
{
tmp2 = (*real_array_element_addr1(&_LiqDen, 1, /* modelica_integer */ ((modelica_integer) 4)));
if (tmp2 == 0) {throwStreamPrint(threadData, "Division by zero %s", "T / LiqDen[4]");}
tmp3 = 1.0 - ((_T) / tmp2);
tmp4 = (*real_array_element_addr1(&_LiqDen, 1, /* modelica_integer */ ((modelica_integer) 5)));
if(tmp3 < 0.0 && tmp4 != 0.0)
{
tmp6 = modf(tmp4, &tmp7);
if(tmp6 > 0.5)
{
tmp6 -= 1.0;
tmp7 += 1.0;
}
else if(tmp6 < -0.5)
{
tmp6 += 1.0;
tmp7 -= 1.0;
}
if(fabs(tmp6) < 1e-10)
tmp5 = pow(tmp3, tmp7);
else
{
tmp9 = modf(1.0/tmp4, &tmp8);
if(tmp9 > 0.5)
{
tmp9 -= 1.0;
tmp8 += 1.0;
}
else if(tmp9 < -0.5)
{
tmp9 += 1.0;
tmp8 -= 1.0;
}
if(fabs(tmp9) < 1e-10 && ((unsigned long)tmp8 & 1))
{
tmp5 = -pow(-tmp3, tmp6)*pow(tmp3, tmp7);
}
else
{
throwStreamPrint(threadData, "%s:%d: Invalid root: (%g)^(%g)", __FILE__, __LINE__, tmp3, tmp4);
}
}
}
else
{
tmp5 = pow(tmp3, tmp4);
}
if(isnan(tmp5) || isinf(tmp5))
{
throwStreamPrint(threadData, "%s:%d: Invalid root: (%g)^(%g)", __FILE__, __LINE__, tmp3, tmp4);
}tmp10 = (*real_array_element_addr1(&_LiqDen, 1, /* modelica_integer */ ((modelica_integer) 3)));
tmp11 = -1.0 - (tmp5);
if(tmp10 < 0.0 && tmp11 != 0.0)
{
tmp13 = modf(tmp11, &tmp14);
if(tmp13 > 0.5)
{
tmp13 -= 1.0;
tmp14 += 1.0;
}
else if(tmp13 < -0.5)
{
tmp13 += 1.0;
tmp14 -= 1.0;
}
if(fabs(tmp13) < 1e-10)
tmp12 = pow(tmp10, tmp14);
else
{
tmp16 = modf(1.0/tmp11, &tmp15);
if(tmp16 > 0.5)
{
tmp16 -= 1.0;
tmp15 += 1.0;
}
else if(tmp16 < -0.5)
{
tmp16 += 1.0;
tmp15 -= 1.0;
}
if(fabs(tmp16) < 1e-10 && ((unsigned long)tmp15 & 1))
{
tmp12 = -pow(-tmp10, tmp13)*pow(tmp10, tmp14);
}
else
{
throwStreamPrint(threadData, "%s:%d: Invalid root: (%g)^(%g)", __FILE__, __LINE__, tmp10, tmp11);
}
}
}
else
{
tmp12 = pow(tmp10, tmp11);
}
if(isnan(tmp12) || isinf(tmp12))
{
throwStreamPrint(threadData, "%s:%d: Invalid root: (%g)^(%g)", __FILE__, __LINE__, tmp10, tmp11);
}
_rho = (1000.0) * (((*real_array_element_addr1(&_LiqDen, 1, /* modelica_integer */ ((modelica_integer) 2)))) * (tmp12));
}
else
{
if(((*real_array_element_addr1(&_LiqDen, 1, /* modelica_integer */ ((modelica_integer) 1))) == 106.0))
{
tmp17 = _Tr;
tmp18 = _Tr;
tmp19 = 1.0 - _Tr;
tmp20 = (*real_array_element_addr1(&_LiqDen, 1, /* modelica_integer */ ((modelica_integer) 3))) + ((*real_array_element_addr1(&_LiqDen, 1, /* modelica_integer */ ((modelica_integer) 4)))) * (_Tr) + ((*real_array_element_addr1(&_LiqDen, 1, /* modelica_integer */ ((modelica_integer) 5)))) * ((tmp17 * tmp17)) + ((*real_array_element_addr1(&_LiqDen, 1, /* modelica_integer */ ((modelica_integer) 6)))) * ((tmp18 * tmp18 * tmp18));
if(tmp19 < 0.0 && tmp20 != 0.0)
{
tmp22 = modf(tmp20, &tmp23);
if(tmp22 > 0.5)
{
tmp22 -= 1.0;
tmp23 += 1.0;
}
else if(tmp22 < -0.5)
{
tmp22 += 1.0;
tmp23 -= 1.0;
}
if(fabs(tmp22) < 1e-10)
tmp21 = pow(tmp19, tmp23);
else
{
tmp25 = modf(1.0/tmp20, &tmp24);
if(tmp25 > 0.5)
{
tmp25 -= 1.0;
tmp24 += 1.0;
}
else if(tmp25 < -0.5)
{
tmp25 += 1.0;
tmp24 -= 1.0;
}
if(fabs(tmp25) < 1e-10 && ((unsigned long)tmp24 & 1))
{
tmp21 = -pow(-tmp19, tmp22)*pow(tmp19, tmp23);
}
else
{
throwStreamPrint(threadData, "%s:%d: Invalid root: (%g)^(%g)", __FILE__, __LINE__, tmp19, tmp20);
}
}
}
else
{
tmp21 = pow(tmp19, tmp20);
}
if(isnan(tmp21) || isinf(tmp21))
{
throwStreamPrint(threadData, "%s:%d: Invalid root: (%g)^(%g)", __FILE__, __LINE__, tmp19, tmp20);
}
_rho = (1000.0) * (((*real_array_element_addr1(&_LiqDen, 1, /* modelica_integer */ ((modelica_integer) 2)))) * (tmp21));
}
}
}
else
{
tmp26 = (_T) * (_R);
if (tmp26 == 0) {throwStreamPrint(threadData, "Division by zero %s", "P / (T * R)");}
_rho = (0.001) * ((_P) / tmp26);
}
_return: OMC_LABEL_UNUSED
return _rho;
}
modelica_metatype boxptr_Simulator_Files_ThermodynamicFunctions_Dens(threadData_t *threadData, modelica_metatype _LiqDen, modelica_metatype _Tc, modelica_metatype _T, modelica_metatype _P)
{
modelica_real tmp1;
modelica_real tmp2;
modelica_real tmp3;
modelica_real _rho;
modelica_metatype out_rho;
tmp1 = mmc_unbox_real(_Tc);
tmp2 = mmc_unbox_real(_T);
tmp3 = mmc_unbox_real(_P);
_rho = omc_Simulator_Files_ThermodynamicFunctions_Dens(threadData, *((base_array_t*)_LiqDen), tmp1, tmp2, tmp3);
out_rho = mmc_mk_rcon(_rho);
return out_rho;
}
DLLExport
modelica_real omc_Simulator_Files_ThermodynamicFunctions_Psat(threadData_t *threadData, real_array _VP, modelica_real _T)
{
modelica_real _Pvap;
modelica_real tmp1;
modelica_real tmp2;
modelica_real tmp3;
modelica_real tmp4;
modelica_real tmp5;
modelica_real tmp6;
modelica_real tmp7;
modelica_real tmp8;
modelica_real tmp9;
_tailrecursive: OMC_LABEL_UNUSED
tmp1 = _T;
if (tmp1 == 0) {throwStreamPrint(threadData, "Division by zero %s", "VP[3] / T");}
tmp2 = _T;
if(!(tmp2 > 0.0))
{
FILE_INFO info = {"",0,0,0,0,0};
omc_assert(threadData, info, "Model error: Argument of log(T) was %g should be > 0", tmp2);
}tmp3 = _T;
tmp4 = (*real_array_element_addr1(&_VP, 1, /* modelica_integer */ ((modelica_integer) 6)));
if(tmp3 < 0.0 && tmp4 != 0.0)
{
tmp6 = modf(tmp4, &tmp7);
if(tmp6 > 0.5)
{
tmp6 -= 1.0;
tmp7 += 1.0;
}
else if(tmp6 < -0.5)
{
tmp6 += 1.0;
tmp7 -= 1.0;
}
if(fabs(tmp6) < 1e-10)
tmp5 = pow(tmp3, tmp7);
else
{
tmp9 = modf(1.0/tmp4, &tmp8);
if(tmp9 > 0.5)
{
tmp9 -= 1.0;
tmp8 += 1.0;
}
else if(tmp9 < -0.5)
{
tmp9 += 1.0;
tmp8 -= 1.0;
}
if(fabs(tmp9) < 1e-10 && ((unsigned long)tmp8 & 1))
{
tmp5 = -pow(-tmp3, tmp6)*pow(tmp3, tmp7);
}
else
{
throwStreamPrint(threadData, "%s:%d: Invalid root: (%g)^(%g)", __FILE__, __LINE__, tmp3, tmp4);
}
}
}
else
{
tmp5 = pow(tmp3, tmp4);
}
if(isnan(tmp5) || isinf(tmp5))
{
throwStreamPrint(threadData, "%s:%d: Invalid root: (%g)^(%g)", __FILE__, __LINE__, tmp3, tmp4);
}
_Pvap = exp((*real_array_element_addr1(&_VP, 1, /* modelica_integer */ ((modelica_integer) 2))) + ((*real_array_element_addr1(&_VP, 1, /* modelica_integer */ ((modelica_integer) 3)))) / tmp1 + ((*real_array_element_addr1(&_VP, 1, /* modelica_integer */ ((modelica_integer) 4)))) * (log(tmp2)) + ((*real_array_element_addr1(&_VP, 1, /* modelica_integer */ ((modelica_integer) 5)))) * (tmp5));
_return: OMC_LABEL_UNUSED
return _Pvap;
}
modelica_metatype boxptr_Simulator_Files_ThermodynamicFunctions_Psat(threadData_t *threadData, modelica_metatype _VP, modelica_metatype _T)
{
modelica_real tmp1;
modelica_real _Pvap;
modelica_metatype out_Pvap;
tmp1 = mmc_unbox_real(_T);
_Pvap = omc_Simulator_Files_ThermodynamicFunctions_Psat(threadData, *((base_array_t*)_VP), tmp1);
out_Pvap = mmc_mk_rcon(_Pvap);
return out_Pvap;
}
#ifdef __cplusplus
}
#endif
|
