gcc/testsuite/gcc.target/sparc/ultrasp6.c - gcc - Git at Google

 /* PR target/7784 */
 /* Originator: Peter van Hoof <p.van-hoof@qub.ac.uk> */

 /* { dg-do compile } */
 /* { dg-options "-O2 -mcpu=ultrasparc" } */

 void __assert (const char *, const char *, int);
 double HSRate(long, long, long, double, double, int);

 typedef struct
 {
   float EnergyErg;
   float ots;
 } EmLine;

 extern const int ipH_LIKE ;
 extern const int ipHYDROGEN ;
 extern const int ipH1s;
 extern const int ipH2s;
 extern const int ipH2p;

 extern EmLine ****EmisLines;

 typedef struct
 {
   long n;
   long s;
   long l;
 } Elevels;

 extern struct t_iso
 {
   float ***Pop2Ion;
   long int numLevels[2][30L];
 } iso;

 extern struct t_LineSave
 {
   long int nsum;
   long int ndsum;
   long int nComment;
   long int npxdd;
   long int ipass;
   char chHoldComments[10][200];
 } LineSave;

 extern struct t_hydro
 {
   int lgHydEmiss;
   float **pestrk ;
 } hydro;

 extern struct t_dense
 {
   double DensityLaw[10];
   float frad[500];
   float fhden[500];
   float den0;
   double eden;
 } dense;

 extern struct t_abund
 {
   float xIonFracs[30L +3][30L +1];
 } abund;

 extern struct t_CaseBHS
 {
   long int nDensity[2][8] , ntemp[2][8] , ncut[2][8] ;
   int lgHCaseBOK[2][8];
 } CaseBHS ;

 extern struct t_smbeta
 {
   float SimHBeta,
     cn4861,
     cn1216,
     sv4861,
     sv1216;
 } smbeta;

 extern struct t_phycon
 {
   float te;
 } phycon;


 extern struct t_sphere
 {
   int lgSphere;
   float covgeo;
 } sphere;

 void linadd(double xInten, float wavelength, char *chLab, char chInfo);

 extern struct t_radiusVar
 {
   int lgDrNeg;
   double dVeff;
 } radius;

 void lines_hydro(void)
 {
   long int i, nelem, ipHi, ipLo;
   double hbetab, em , EmisFac, pump;
   char chLabel[5];

   linadd(abund.xIonFracs[ipHYDROGEN][1]*iso.Pop2Ion[ipH_LIKE][ipHYDROGEN][3]*hydro.pestrk[3][2]*3.025e-12, 6563,"Strk",'i');

   linadd(abund.xIonFracs[ipHYDROGEN][1]*iso.Pop2Ion[ipH_LIKE][ipHYDROGEN][4]*hydro.pestrk[4][2]*4.084e-12, 4861,"Strk",'i');

   linadd(abund.xIonFracs[ipHYDROGEN][1]*iso.Pop2Ion[ipH_LIKE][ipHYDROGEN][4]*hydro.pestrk[4][3]*1.059e-12, 18751,"Strk",'i');

   linadd(abund.xIonFracs[ipHYDROGEN][1]*iso.Pop2Ion[ipH_LIKE][ipHYDROGEN][5]*hydro.pestrk[5][4]*4.900e-13, 40512,"Strk",'i');

   ((void)((LineSave.ipass <1 || EmisLines[ipH_LIKE][ipHYDROGEN][ipH2p][ipH1s].ots>= 0.) || (__assert("LineSave.ipass <1 || EmisLines[ipH_LIKE][ipHYDROGEN][ipH2p][ipH1s].ots>= 0.", "lines_hydro.c", 118), 0)));

   linadd(EmisLines[ipH_LIKE][ipHYDROGEN][3][ipH2s].ots*EmisLines[ipH_LIKE][ipHYDROGEN][3][ipH2s].EnergyErg, 6563,"Dest",'i');

   linadd(EmisLines[ipH_LIKE][ipHYDROGEN][5][4].ots*EmisLines[ipH_LIKE][ipHYDROGEN][5][4].EnergyErg,40516, "Dest",'i');

   smbeta.SimHBeta = smbeta.SimHBeta/(float)radius.dVeff*sphere.covgeo;

   linadd(smbeta.SimHBeta,4861,"Q(H)",'i');

   smbeta.SimHBeta = smbeta.SimHBeta*(float)radius.dVeff/sphere.covgeo;

   for( nelem=0; nelem < 30L; nelem++ )
   {
     int iCase;
     for( iCase=0; iCase<2; ++iCase )
     {
       char chAB[2]={'A','B'};
       char chLab[5]="Ca  ";

       for( ipLo=1+iCase; ipLo<(((6)<(iso.numLevels[ipH_LIKE][nelem])) ? (6) : (5)); ++ipLo )
       {
         for( ipHi=ipLo+1; ipHi< (((ipLo+5)<(iso.numLevels[ipH_LIKE][nelem])) ? (ipLo+5) : (iso.numLevels[ipH_LIKE][nelem])); ++ipHi )
         {
           float wl;

           hbetab = HSRate( ipHi,ipLo , nelem+1, phycon.te , dense.eden, chAB[iCase] );
           if( hbetab<=0. )
             CaseBHS.lgHCaseBOK[iCase][nelem] = 0;

           if( !hydro.lgHydEmiss )
             hbetab *= abund.xIonFracs[nelem][nelem+1]*dense.eden;

          linadd(hbetab,wl,chLab,'i' );
         }
       }
     }
   }
 }
	/* PR target/7784 */
	/* Originator: Peter van Hoof <p.van-hoof@qub.ac.uk> */

	/* { dg-do compile } */
	/* { dg-options "-O2 -mcpu=ultrasparc" } */

	void __assert (const char , const char , int);
	double HSRate(long, long, long, double, double, int);

	typedef struct
	{
	float EnergyErg;
	float ots;
	} EmLine;

	extern const int ipH_LIKE ;
	extern const int ipHYDROGEN ;
	extern const int ipH1s;
	extern const int ipH2s;
	extern const int ipH2p;

	extern EmLine ****EmisLines;

	typedef struct
	{
	long n;
	long s;
	long l;
	} Elevels;

	extern struct t_iso
	{
	float ***Pop2Ion;
	long int numLevels[2][30L];
	} iso;

	extern struct t_LineSave
	{
	long int nsum;
	long int ndsum;
	long int nComment;
	long int npxdd;
	long int ipass;
	char chHoldComments[10][200];
	} LineSave;

	extern struct t_hydro
	{
	int lgHydEmiss;
	float **pestrk ;
	} hydro;

	extern struct t_dense
	{
	double DensityLaw[10];
	float frad[500];
	float fhden[500];
	float den0;
	double eden;
	} dense;

	extern struct t_abund
	{
	float xIonFracs[30L +3][30L +1];
	} abund;

	extern struct t_CaseBHS
	{
	long int nDensity[2][8] , ntemp[2][8] , ncut[2][8] ;
	int lgHCaseBOK[2][8];
	} CaseBHS ;

	extern struct t_smbeta
	{
	float SimHBeta,
	cn4861,
	cn1216,
	sv4861,
	sv1216;
	} smbeta;

	extern struct t_phycon
	{
	float te;
	} phycon;


	extern struct t_sphere
	{
	int lgSphere;
	float covgeo;
	} sphere;

	void linadd(double xInten, float wavelength, char *chLab, char chInfo);

	extern struct t_radiusVar
	{
	int lgDrNeg;
	double dVeff;
	} radius;

	void lines_hydro(void)
	{
	long int i, nelem, ipHi, ipLo;
	double hbetab, em , EmisFac, pump;
	char chLabel[5];

	linadd(abund.xIonFracs[ipHYDROGEN][1]iso.Pop2Ion[ipH_LIKE][ipHYDROGEN][3]hydro.pestrk[3][2]*3.025e-12, 6563,"Strk",'i');

	linadd(abund.xIonFracs[ipHYDROGEN][1]iso.Pop2Ion[ipH_LIKE][ipHYDROGEN][4]hydro.pestrk[4][2]*4.084e-12, 4861,"Strk",'i');

	linadd(abund.xIonFracs[ipHYDROGEN][1]iso.Pop2Ion[ipH_LIKE][ipHYDROGEN][4]hydro.pestrk[4][3]*1.059e-12, 18751,"Strk",'i');

	linadd(abund.xIonFracs[ipHYDROGEN][1]iso.Pop2Ion[ipH_LIKE][ipHYDROGEN][5]hydro.pestrk[5][4]*4.900e-13, 40512,"Strk",'i');

	((void)((LineSave.ipass <1 \|\| EmisLines[ipH_LIKE][ipHYDROGEN][ipH2p][ipH1s].ots>= 0.) \|\| (__assert("LineSave.ipass <1 \|\| EmisLines[ipH_LIKE][ipHYDROGEN][ipH2p][ipH1s].ots>= 0.", "lines_hydro.c", 118), 0)));

	linadd(EmisLines[ipH_LIKE][ipHYDROGEN][3][ipH2s].ots*EmisLines[ipH_LIKE][ipHYDROGEN][3][ipH2s].EnergyErg, 6563,"Dest",'i');

	linadd(EmisLines[ipH_LIKE][ipHYDROGEN][5][4].ots*EmisLines[ipH_LIKE][ipHYDROGEN][5][4].EnergyErg,40516, "Dest",'i');

	smbeta.SimHBeta = smbeta.SimHBeta/(float)radius.dVeff*sphere.covgeo;

	linadd(smbeta.SimHBeta,4861,"Q(H)",'i');

	smbeta.SimHBeta = smbeta.SimHBeta*(float)radius.dVeff/sphere.covgeo;

	for( nelem=0; nelem < 30L; nelem++ )
	{
	int iCase;
	for( iCase=0; iCase<2; ++iCase )
	{
	char chAB[2]={'A','B'};
	char chLab[5]="Ca ";

	for( ipLo=1+iCase; ipLo<(((6)<(iso.numLevels[ipH_LIKE][nelem])) ? (6) : (5)); ++ipLo )
	{
	for( ipHi=ipLo+1; ipHi< (((ipLo+5)<(iso.numLevels[ipH_LIKE][nelem])) ? (ipLo+5) : (iso.numLevels[ipH_LIKE][nelem])); ++ipHi )
	{
	float wl;

	hbetab = HSRate( ipHi,ipLo , nelem+1, phycon.te , dense.eden, chAB[iCase] );
	if( hbetab<=0. )
	CaseBHS.lgHCaseBOK[iCase][nelem] = 0;

	if( !hydro.lgHydEmiss )
	hbetab = abund.xIonFracs[nelem][nelem+1]dense.eden;

	linadd(hbetab,wl,chLab,'i' );
	}
	}
	}
	}
	}