Mercurial > hg > ltpda
view src/c_sources/Vector.c @ 48:16aa66670d74 database-connection-manager
Fix LTPDA Preferences tooltip
author | Daniele Nicolodi <nicolodi@science.unitn.it> |
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date | Tue, 06 Dec 2011 19:07:27 +0100 |
parents | f0afece42f48 |
children |
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#include "Vector.h" /* * * * Ingo Diepholz 08-06-2011 * * $Id: Vector.c,v 1.1 2011/06/14 10:40:52 ingo Exp $ */ /*****************************************************************************/ /*** PLUS ***/ /*****************************************************************************/ Vector *vec_plus_s(Vector *v, double s) { plus_internal(v, s); return v; } Vector *s_plus_vec(double s, Vector *v) { plus_internal(v, s); return v; } Vector *vec_plus_vec(int num, Vector *v, ...) { int i; Vector *v1 = v; va_list args; va_start (args, v); /* get first and second vector */ for (i=1; i<num; i++) { Vector *v2 = va_arg(args, Vector * ); plus_internal_v(v1, v2); } va_end (args); return v1; } Vector *plus_internal_v(Vector *v1, Vector *v2) { long int ii; if (v1==NULL) { v1 = ALLOCATE(Vector); } if (v2==NULL) { return v1; } if ((v1->data == NULL) && (v2->data == NULL)) { /* nothing to do */ } else if ((v1->data != NULL) && (v2->data == NULL)) { /* nothing to do */ } else if ((v1->data == NULL) && (v2->data != NULL)) { /* Copy v2 to v1 */ v1 = copyVector(v2); } else { for (ii = v1->size-1; ii >= 0; ii--) v1->data[ii] += v2->data[ii]; } return v1; } Vector *plus_internal(Vector *v, double s) { long int ii; if (v==NULL) { v = ALLOCATE(Vector); } else { if (v->data == NULL) { /* nothing to do */ } else { for (ii = v->size-1; ii >= 0; ii--) v->data[ii] += s; } } return v; } /*****************************************************************************/ /*** MINUS ***/ /*****************************************************************************/ Vector *vec_minus_s(Vector *v, double s) { plus_internal(v, -s); return v; } Vector *s_minus_vec(double s, Vector *v) { plus_internal(times_internal(v, -1), s); return v; } /*****************************************************************************/ /*** TIMES ***/ /*****************************************************************************/ Vector *vec_times_s(Vector *v, double s) { times_internal(v, s); return v; } Vector *s_times_vec(double s, Vector *v) { times_internal(v, s); return v; } Vector *vec_times_vec(int num, Vector *v, ...) { int i; va_list args; /* get first and second vector */ Vector *v1 = v; va_start (args, v); for (i=1; i<num; i++) { Vector *v2 = va_arg(args, Vector * ); times_internal_v(v1, v2); } va_end (args); return v1; } Vector *times_internal_v(Vector *v1, Vector *v2) { long int ii; if (v1==NULL) { v1 = ALLOCATE(Vector); } if (v2==NULL) { return v1; } if ((v1->data == NULL) && (v2->data == NULL)) { /* nothing to do */ } else if ((v1->data != NULL) && (v2->data == NULL)) { /* nothing to do */ } else if ((v1->data == NULL) && (v2->data != NULL)) { /* Copy v2 to v1 */ v1 = copyVector(v2); } else { for (ii = v1->size-1; ii >= 0; ii--) v1->data[ii] *= v2->data[ii]; } return v1; } Vector *times_internal(Vector *v, double s) { long int ii; if (v==NULL) { v = ALLOCATE(Vector); } else { if (v->data == NULL) { /* nothing to do */ } else { for (ii = v->size-1; ii >= 0; ii--) { v->data[ii] *= s; } } } return v; } /*****************************************************************************/ /*** DIVIDE ***/ /*****************************************************************************/ Vector *vec_div_s(Vector *v, double s) { times_internal(v, 1/s); return v; } /*****************************************************************************/ /*** Arithmetic Operators ***/ /*****************************************************************************/ Vector *sin_of_vec(Vector *v) { long int ii; if (v==NULL) { v = ALLOCATE(Vector); } else { if (v->data == NULL) { /* nothing to do */ } else { for (ii = v->size-1; ii >= 0; ii--) { v->data[ii] = sin(v->data[ii]); } } } return v; } Vector *cos_of_vec(Vector *v) { long int ii; if (v==NULL) { v = ALLOCATE(Vector); } else { if (v->data == NULL) { /* nothing to do */ } else { for (ii = v->size-1; ii >= 0; ii--) { v->data[ii] = cos(v->data[ii]); } } } return v; } /*****************************************************************************/ /*** MISC ***/ /*****************************************************************************/ Vector *copyVector(Vector *in) { Vector *out = ALLOCATE(Vector); double *dout = ALLOCATE_ARRAY(double, in->size); double *din = in->data; long int i; out->data = dout; out->size = in->size; for ( i = out->size-1; i >= 0; i-- ) *dout++ = *din++; return out; } Vector *initVector(double *data, long int size) { Vector *v = ALLOCATE(Vector); v->data = data; v->size = size; return v; } char *toString(Vector *t) { static char retbuf[300] = ""; long int ll; if (t==NULL) { return "NULL"; } retbuf[0] = '\0'; strcpy(retbuf, "["); for(ll=0; ll<myMin(10,t->size); ll++) { sprintf(retbuf, "%s%16.15e, ", retbuf, t->data[ll]); } /* Remove last blank */ retbuf[strlen(retbuf)-2] = ']'; retbuf[strlen(retbuf)-1] = '\0'; return retbuf; } int myMin(long int a, long int b) { return ((a<b) ? a : b); } void freeVector(Vector *v) { if (v != NULL) { if (v->data && v->data != NULL) free(v->data); free(v); printMsg(DEBUG, "----------- Free !!!\n"); } } void printMsg(int level, char *format, ...) { char buffer[400]; char lvlMsg[10]; va_list args; va_start (args, format); vsprintf (buffer,format, args); if ((level!=NONE) && (VERBOSE_LEVEL>=level)) { switch(level){ case DEBUG: strcpy(lvlMsg, "DEBUG"); break; case INFO: strcpy(lvlMsg, "INFO"); break; case WARNING: strcpy(lvlMsg, "WARNING"); break; } printf("%-9s %s\n", lvlMsg, buffer); } va_end (args); }