/* * $Header: /cvsroot/pgsql/src/test/regress/regress.c,v 1.48 2001/08/16 20:38:56 tgl Exp $ */ #include "postgres.h" #include /* faked on sunos */ #include "utils/geo_decls.h" /* includes */ #include "executor/executor.h" /* For GetAttributeByName */ #include "commands/sequence.h" /* for nextval() */ #define P_MAXDIG 12 #define LDELIM '(' #define RDELIM ')' #define DELIM ',' typedef TupleTableSlot *TUPLE; extern Datum regress_dist_ptpath(PG_FUNCTION_ARGS); extern Datum regress_path_dist(PG_FUNCTION_ARGS); extern PATH *poly2path(POLYGON *poly); extern Datum interpt_pp(PG_FUNCTION_ARGS); extern void regress_lseg_construct(LSEG *lseg, Point *pt1, Point *pt2); extern Datum overpaid(PG_FUNCTION_ARGS); extern Datum boxarea(PG_FUNCTION_ARGS); extern char *reverse_name(char *string); extern int oldstyle_length(int n, text *t); /* ** Distance from a point to a path */ PG_FUNCTION_INFO_V1(regress_dist_ptpath); Datum regress_dist_ptpath(PG_FUNCTION_ARGS) { Point *pt = PG_GETARG_POINT_P(0); PATH *path = PG_GETARG_PATH_P(1); float8 result = 0.0; /* keep compiler quiet */ float8 tmp; int i; LSEG lseg; switch (path->npts) { case 0: PG_RETURN_NULL(); case 1: result = point_dt(pt, &path->p[0]); break; default: /* * the distance from a point to a path is the smallest * distance from the point to any of its constituent segments. */ Assert(path->npts > 1); for (i = 0; i < path->npts - 1; ++i) { regress_lseg_construct(&lseg, &path->p[i], &path->p[i + 1]); tmp = DatumGetFloat8(DirectFunctionCall2(dist_ps, PointPGetDatum(pt), LsegPGetDatum(&lseg))); if (i == 0 || tmp < result) result = tmp; } break; } PG_RETURN_FLOAT8(result); } /* this essentially does a cartesian product of the lsegs in the two paths, and finds the min distance between any two lsegs */ PG_FUNCTION_INFO_V1(regress_path_dist); Datum regress_path_dist(PG_FUNCTION_ARGS) { PATH *p1 = PG_GETARG_PATH_P(0); PATH *p2 = PG_GETARG_PATH_P(1); bool have_min = false; float8 min = 0.0; /* initialize to keep compiler quiet */ float8 tmp; int i, j; LSEG seg1, seg2; for (i = 0; i < p1->npts - 1; i++) { for (j = 0; j < p2->npts - 1; j++) { regress_lseg_construct(&seg1, &p1->p[i], &p1->p[i + 1]); regress_lseg_construct(&seg2, &p2->p[j], &p2->p[j + 1]); tmp = DatumGetFloat8(DirectFunctionCall2(lseg_distance, LsegPGetDatum(&seg1), LsegPGetDatum(&seg2))); if (!have_min || tmp < min) { min = tmp; have_min = true; } } } if (!have_min) PG_RETURN_NULL(); PG_RETURN_FLOAT8(min); } PATH * poly2path(poly) POLYGON *poly; { int i; char *output = (char *) palloc(2 * (P_MAXDIG + 1) * poly->npts + 64); char buf[2 * (P_MAXDIG) + 20]; sprintf(output, "(1, %*d", P_MAXDIG, poly->npts); for (i = 0; i < poly->npts; i++) { sprintf(buf, ",%*g,%*g", P_MAXDIG, poly->p[i].x, P_MAXDIG, poly->p[i].y); strcat(output, buf); } sprintf(buf, "%c", RDELIM); strcat(output, buf); return DatumGetPathP(DirectFunctionCall1(path_in, CStringGetDatum(output))); } /* return the point where two paths intersect, or NULL if no intersection. */ PG_FUNCTION_INFO_V1(interpt_pp); Datum interpt_pp(PG_FUNCTION_ARGS) { PATH *p1 = PG_GETARG_PATH_P(0); PATH *p2 = PG_GETARG_PATH_P(1); int i, j; LSEG seg1, seg2; bool found; /* We've found the intersection */ found = false; /* Haven't found it yet */ for (i = 0; i < p1->npts - 1 && !found; i++) { regress_lseg_construct(&seg1, &p1->p[i], &p1->p[i + 1]); for (j = 0; j < p2->npts - 1 && !found; j++) { regress_lseg_construct(&seg2, &p2->p[j], &p2->p[j + 1]); if (DatumGetBool(DirectFunctionCall2(lseg_intersect, LsegPGetDatum(&seg1), LsegPGetDatum(&seg2)))) found = true; } } if (!found) PG_RETURN_NULL(); /* * Note: DirectFunctionCall2 will kick out an error if lseg_interpt() * returns NULL, but that should be impossible since we know the two * segments intersect. */ PG_RETURN_DATUM(DirectFunctionCall2(lseg_interpt, LsegPGetDatum(&seg1), LsegPGetDatum(&seg2))); } /* like lseg_construct, but assume space already allocated */ void regress_lseg_construct(lseg, pt1, pt2) LSEG *lseg; Point *pt1; Point *pt2; { lseg->p[0].x = pt1->x; lseg->p[0].y = pt1->y; lseg->p[1].x = pt2->x; lseg->p[1].y = pt2->y; lseg->m = point_sl(pt1, pt2); } PG_FUNCTION_INFO_V1(overpaid); Datum overpaid(PG_FUNCTION_ARGS) { TUPLE tuple = (TUPLE) PG_GETARG_POINTER(0); bool isnull; int32 salary; salary = DatumGetInt32(GetAttributeByName(tuple, "salary", &isnull)); if (isnull) PG_RETURN_NULL(); PG_RETURN_BOOL(salary > 699); } /* New type "widget" * This used to be "circle", but I added circle to builtins, * so needed to make sure the names do not collide. - tgl 97/04/21 */ typedef struct { Point center; double radius; } WIDGET; WIDGET *widget_in(char *str); char *widget_out(WIDGET * widget); extern Datum pt_in_widget(PG_FUNCTION_ARGS); #define NARGS 3 WIDGET * widget_in(str) char *str; { char *p, *coord[NARGS], buf2[1000]; int i; WIDGET *result; if (str == NULL) return NULL; for (i = 0, p = str; *p && i < NARGS && *p != RDELIM; p++) if (*p == ',' || (*p == LDELIM && !i)) coord[i++] = p + 1; if (i < NARGS - 1) return NULL; result = (WIDGET *) palloc(sizeof(WIDGET)); result->center.x = atof(coord[0]); result->center.y = atof(coord[1]); result->radius = atof(coord[2]); sprintf(buf2, "widget_in: read (%f, %f, %f)\n", result->center.x, result->center.y, result->radius); return result; } char * widget_out(widget) WIDGET *widget; { char *result; if (widget == NULL) return NULL; result = (char *) palloc(60); sprintf(result, "(%g,%g,%g)", widget->center.x, widget->center.y, widget->radius); return result; } PG_FUNCTION_INFO_V1(pt_in_widget); Datum pt_in_widget(PG_FUNCTION_ARGS) { Point *point = PG_GETARG_POINT_P(0); WIDGET *widget = (WIDGET *) PG_GETARG_POINTER(1); PG_RETURN_BOOL(point_dt(point, &widget->center) < widget->radius); } #define ABS(X) ((X) >= 0 ? (X) : -(X)) PG_FUNCTION_INFO_V1(boxarea); Datum boxarea(PG_FUNCTION_ARGS) { BOX *box = PG_GETARG_BOX_P(0); double width, height; width = ABS(box->high.x - box->low.x); height = ABS(box->high.y - box->low.y); PG_RETURN_FLOAT8(width * height); } char * reverse_name(char *string) { int i; int len; char *new_string; if (!(new_string = palloc(NAMEDATALEN))) { fprintf(stderr, "reverse_name: palloc failed\n"); return NULL; } MemSet(new_string, 0, NAMEDATALEN); for (i = 0; i < NAMEDATALEN && string[i]; ++i) ; if (i == NAMEDATALEN || !string[i]) --i; len = i; for (; i >= 0; --i) new_string[len - i] = string[i]; return new_string; } /* This rather silly function is just to test that oldstyle functions * work correctly on toast-able inputs. */ int oldstyle_length(int n, text *t) { int len = 0; if (t) len = VARSIZE(t) - VARHDRSZ; return n + len; } #include "executor/spi.h" /* this is what you need to work with SPI */ #include "commands/trigger.h" /* -"- and triggers */ static TransactionId fd17b_xid = InvalidTransactionId; static TransactionId fd17a_xid = InvalidTransactionId; static int fd17b_level = 0; static int fd17a_level = 0; static bool fd17b_recursion = true; static bool fd17a_recursion = true; extern Datum funny_dup17(PG_FUNCTION_ARGS); PG_FUNCTION_INFO_V1(funny_dup17); Datum funny_dup17(PG_FUNCTION_ARGS) { TriggerData *trigdata = (TriggerData *) fcinfo->context; TransactionId *xid; int *level; bool *recursion; Relation rel; TupleDesc tupdesc; HeapTuple tuple; char *query, *fieldval, *fieldtype; char *when; int inserted; int selected = 0; int ret; if (!CALLED_AS_TRIGGER(fcinfo)) elog(ERROR, "funny_dup17: not fired by trigger manager"); tuple = trigdata->tg_trigtuple; rel = trigdata->tg_relation; tupdesc = rel->rd_att; if (TRIGGER_FIRED_BEFORE(trigdata->tg_event)) { xid = &fd17b_xid; level = &fd17b_level; recursion = &fd17b_recursion; when = "BEFORE"; } else { xid = &fd17a_xid; level = &fd17a_level; recursion = &fd17a_recursion; when = "AFTER "; } if (!TransactionIdIsCurrentTransactionId(*xid)) { *xid = GetCurrentTransactionId(); *level = 0; *recursion = true; } if (*level == 17) { *recursion = false; return PointerGetDatum(tuple); } if (!(*recursion)) return PointerGetDatum(tuple); (*level)++; SPI_connect(); fieldval = SPI_getvalue(tuple, tupdesc, 1); fieldtype = SPI_gettype(tupdesc, 1); query = (char *) palloc(100 + NAMEDATALEN * 3 + strlen(fieldval) + strlen(fieldtype)); sprintf(query, "insert into %s select * from %s where %s = '%s'::%s", SPI_getrelname(rel), SPI_getrelname(rel), SPI_fname(tupdesc, 1), fieldval, fieldtype); if ((ret = SPI_exec(query, 0)) < 0) elog(ERROR, "funny_dup17 (fired %s) on level %3d: SPI_exec (insert ...) returned %d", when, *level, ret); inserted = SPI_processed; sprintf(query, "select count (*) from %s where %s = '%s'::%s", SPI_getrelname(rel), SPI_fname(tupdesc, 1), fieldval, fieldtype); if ((ret = SPI_exec(query, 0)) < 0) elog(ERROR, "funny_dup17 (fired %s) on level %3d: SPI_exec (select ...) returned %d", when, *level, ret); if (SPI_processed > 0) { selected = DatumGetInt32(DirectFunctionCall1(int4in, CStringGetDatum(SPI_getvalue( SPI_tuptable->vals[0], SPI_tuptable->tupdesc, 1 )))); } elog(NOTICE, "funny_dup17 (fired %s) on level %3d: %d/%d tuples inserted/selected", when, *level, inserted, selected); SPI_finish(); (*level)--; if (*level == 0) *xid = InvalidTransactionId; return PointerGetDatum(tuple); } extern Datum ttdummy(PG_FUNCTION_ARGS); extern Datum set_ttdummy(PG_FUNCTION_ARGS); #define TTDUMMY_INFINITY 999999 static void *splan = NULL; static bool ttoff = false; PG_FUNCTION_INFO_V1(ttdummy); Datum ttdummy(PG_FUNCTION_ARGS) { TriggerData *trigdata = (TriggerData *) fcinfo->context; Trigger *trigger; /* to get trigger name */ char **args; /* arguments */ int attnum[2]; /* fnumbers of start/stop columns */ Datum oldon, oldoff; Datum newon, newoff; Datum *cvals; /* column values */ char *cnulls; /* column nulls */ char *relname; /* triggered relation name */ Relation rel; /* triggered relation */ HeapTuple trigtuple; HeapTuple newtuple = NULL; HeapTuple rettuple; TupleDesc tupdesc; /* tuple description */ int natts; /* # of attributes */ bool isnull; /* to know is some column NULL or not */ int ret; int i; if (!CALLED_AS_TRIGGER(fcinfo)) elog(ERROR, "ttdummy: not fired by trigger manager"); if (TRIGGER_FIRED_FOR_STATEMENT(trigdata->tg_event)) elog(ERROR, "ttdummy: can't process STATEMENT events"); if (TRIGGER_FIRED_AFTER(trigdata->tg_event)) elog(ERROR, "ttdummy: must be fired before event"); if (TRIGGER_FIRED_BY_INSERT(trigdata->tg_event)) elog(ERROR, "ttdummy: can't process INSERT event"); if (TRIGGER_FIRED_BY_UPDATE(trigdata->tg_event)) newtuple = trigdata->tg_newtuple; trigtuple = trigdata->tg_trigtuple; rel = trigdata->tg_relation; relname = SPI_getrelname(rel); /* check if TT is OFF for this relation */ if (ttoff) /* OFF - nothing to do */ { pfree(relname); return PointerGetDatum((newtuple != NULL) ? newtuple : trigtuple); } trigger = trigdata->tg_trigger; if (trigger->tgnargs != 2) elog(ERROR, "ttdummy (%s): invalid (!= 2) number of arguments %d", relname, trigger->tgnargs); args = trigger->tgargs; tupdesc = rel->rd_att; natts = tupdesc->natts; for (i = 0; i < 2; i++) { attnum[i] = SPI_fnumber(tupdesc, args[i]); if (attnum[i] < 0) elog(ERROR, "ttdummy (%s): there is no attribute %s", relname, args[i]); if (SPI_gettypeid(tupdesc, attnum[i]) != INT4OID) elog(ERROR, "ttdummy (%s): attributes %s and %s must be of abstime type", relname, args[0], args[1]); } oldon = SPI_getbinval(trigtuple, tupdesc, attnum[0], &isnull); if (isnull) elog(ERROR, "ttdummy (%s): %s must be NOT NULL", relname, args[0]); oldoff = SPI_getbinval(trigtuple, tupdesc, attnum[1], &isnull); if (isnull) elog(ERROR, "ttdummy (%s): %s must be NOT NULL", relname, args[1]); if (newtuple != NULL) /* UPDATE */ { newon = SPI_getbinval(newtuple, tupdesc, attnum[0], &isnull); if (isnull) elog(ERROR, "ttdummy (%s): %s must be NOT NULL", relname, args[0]); newoff = SPI_getbinval(newtuple, tupdesc, attnum[1], &isnull); if (isnull) elog(ERROR, "ttdummy (%s): %s must be NOT NULL", relname, args[1]); if (oldon != newon || oldoff != newoff) elog(ERROR, "ttdummy (%s): you can't change %s and/or %s columns (use set_ttdummy)", relname, args[0], args[1]); if (newoff != TTDUMMY_INFINITY) { pfree(relname); /* allocated in upper executor context */ return PointerGetDatum(NULL); } } else if (oldoff != TTDUMMY_INFINITY) /* DELETE */ { pfree(relname); return PointerGetDatum(NULL); } { text *seqname = DatumGetTextP(DirectFunctionCall1(textin, CStringGetDatum("ttdummy_seq"))); newoff = DirectFunctionCall1(nextval, PointerGetDatum(seqname)); /* nextval now returns int64; coerce down to int32 */ newoff = Int32GetDatum((int32) DatumGetInt64(newoff)); pfree(seqname); } /* Connect to SPI manager */ if ((ret = SPI_connect()) < 0) elog(ERROR, "ttdummy (%s): SPI_connect returned %d", relname, ret); /* Fetch tuple values and nulls */ cvals = (Datum *) palloc(natts * sizeof(Datum)); cnulls = (char *) palloc(natts * sizeof(char)); for (i = 0; i < natts; i++) { cvals[i] = SPI_getbinval((newtuple != NULL) ? newtuple : trigtuple, tupdesc, i + 1, &isnull); cnulls[i] = (isnull) ? 'n' : ' '; } /* change date column(s) */ if (newtuple) /* UPDATE */ { cvals[attnum[0] - 1] = newoff; /* start_date eq current date */ cnulls[attnum[0] - 1] = ' '; cvals[attnum[1] - 1] = TTDUMMY_INFINITY; /* stop_date eq INFINITY */ cnulls[attnum[1] - 1] = ' '; } else /* DELETE */ { cvals[attnum[1] - 1] = newoff; /* stop_date eq current date */ cnulls[attnum[1] - 1] = ' '; } /* if there is no plan ... */ if (splan == NULL) { void *pplan; Oid *ctypes; char *query; /* allocate space in preparation */ ctypes = (Oid *) palloc(natts * sizeof(Oid)); query = (char *) palloc(100 + 16 * natts); /* * Construct query: INSERT INTO _relation_ VALUES ($1, ...) */ sprintf(query, "INSERT INTO %s VALUES (", relname); for (i = 1; i <= natts; i++) { sprintf(query + strlen(query), "$%d%s", i, (i < natts) ? ", " : ")"); ctypes[i - 1] = SPI_gettypeid(tupdesc, i); } /* Prepare plan for query */ pplan = SPI_prepare(query, natts, ctypes); if (pplan == NULL) elog(ERROR, "ttdummy (%s): SPI_prepare returned %d", relname, SPI_result); pplan = SPI_saveplan(pplan); if (pplan == NULL) elog(ERROR, "ttdummy (%s): SPI_saveplan returned %d", relname, SPI_result); splan = pplan; } ret = SPI_execp(splan, cvals, cnulls, 0); if (ret < 0) elog(ERROR, "ttdummy (%s): SPI_execp returned %d", relname, ret); /* Tuple to return to upper Executor ... */ if (newtuple) /* UPDATE */ { HeapTuple tmptuple; tmptuple = SPI_copytuple(trigtuple); rettuple = SPI_modifytuple(rel, tmptuple, 1, &(attnum[1]), &newoff, NULL); SPI_freetuple(tmptuple); } else /* DELETE */ rettuple = trigtuple; SPI_finish(); /* don't forget say Bye to SPI mgr */ pfree(relname); return PointerGetDatum(rettuple); } PG_FUNCTION_INFO_V1(set_ttdummy); Datum set_ttdummy(PG_FUNCTION_ARGS) { int32 on = PG_GETARG_INT32(0); if (ttoff) /* OFF currently */ { if (on == 0) PG_RETURN_INT32(0); /* turn ON */ ttoff = false; PG_RETURN_INT32(0); } /* ON currently */ if (on != 0) PG_RETURN_INT32(1); /* turn OFF */ ttoff = true; PG_RETURN_INT32(1); }