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geo.c
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geo.c
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/*
* Copyright (c) 2014, Matt Stancliff <[email protected]>.
* Copyright (c) 2015-2016, Salvatore Sanfilippo <[email protected]>.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* * Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* * Neither the name of Redis nor the names of its contributors may be used
* to endorse or promote products derived from this software without
* specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#include "geo.h"
#include "geohash_helper.h"
#include "debugmacro.h"
/* Things exported from t_zset.c only for geo.c, since it is the only other
* part of Redis that requires close zset introspection. */
unsigned char *zzlFirstInRange(unsigned char *zl, zrangespec *range);
int zslValueLteMax(double value, zrangespec *spec);
/* ====================================================================
* This file implements the following commands:
*
* - geoadd - add coordinates for value to geoset
* - georadius - search radius by coordinates in geoset
* - georadiusbymember - search radius based on geoset member position
* ==================================================================== */
/* ====================================================================
* geoArray implementation
* ==================================================================== */
/* Create a new array of geoPoints. */
geoArray *geoArrayCreate(void) {
geoArray *ga = zmalloc(sizeof(*ga));
/* It gets allocated on first geoArrayAppend() call. */
ga->array = NULL;
ga->buckets = 0;
ga->used = 0;
return ga;
}
/* Add a new entry and return its pointer so that the caller can populate
* it with data. */
geoPoint *geoArrayAppend(geoArray *ga) {
if (ga->used == ga->buckets) {
ga->buckets = (ga->buckets == 0) ? 8 : ga->buckets*2;
ga->array = zrealloc(ga->array,sizeof(geoPoint)*ga->buckets);
}
geoPoint *gp = ga->array+ga->used;
ga->used++;
return gp;
}
/* Destroy a geoArray created with geoArrayCreate(). */
void geoArrayFree(geoArray *ga) {
size_t i;
for (i = 0; i < ga->used; i++) sdsfree(ga->array[i].member);
zfree(ga->array);
zfree(ga);
}
/* ====================================================================
* Helpers
* ==================================================================== */
int decodeGeohash(double bits, double *xy) {
GeoHashBits hash = { .bits = (uint64_t)bits, .step = GEO_STEP_MAX };
return geohashDecodeToLongLatWGS84(hash, xy);
}
/* Input Argument Helper */
/* Take a pointer to the latitude arg then use the next arg for longitude.
* On parse error C_ERR is returned, otherwise C_OK. */
int extractLongLatOrReply(client *c, robj **argv, double *xy) {
int i;
for (i = 0; i < 2; i++) {
if (getDoubleFromObjectOrReply(c, argv[i], xy + i, NULL) !=
C_OK) {
return C_ERR;
}
}
if (xy[0] < GEO_LONG_MIN || xy[0] > GEO_LONG_MAX ||
xy[1] < GEO_LAT_MIN || xy[1] > GEO_LAT_MAX) {
addReplySds(c, sdscatprintf(sdsempty(),
"-ERR invalid longitude,latitude pair %f,%f\r\n",xy[0],xy[1]));
return C_ERR;
}
return C_OK;
}
/* Input Argument Helper */
/* Decode lat/long from a zset member's score.
* Returns C_OK on successful decoding, otherwise C_ERR is returned. */
int longLatFromMember(robj *zobj, robj *member, double *xy) {
double score = 0;
if (zsetScore(zobj, member->ptr, &score) == C_ERR) return C_ERR;
if (!decodeGeohash(score, xy)) return C_ERR;
return C_OK;
}
/* Check that the unit argument matches one of the known units, and returns
* the conversion factor to meters (you need to divide meters by the conversion
* factor to convert to the right unit).
*
* If the unit is not valid, an error is reported to the client, and a value
* less than zero is returned. */
double extractUnitOrReply(client *c, robj *unit) {
char *u = unit->ptr;
if (!strcmp(u, "m")) {
return 1;
} else if (!strcmp(u, "km")) {
return 1000;
} else if (!strcmp(u, "ft")) {
return 0.3048;
} else if (!strcmp(u, "mi")) {
return 1609.34;
} else {
addReplyError(c,
"unsupported unit provided. please use m, km, ft, mi");
return -1;
}
}
/* Input Argument Helper.
* Extract the dinstance from the specified two arguments starting at 'argv'
* that shouldbe in the form: <number> <unit> and return the dinstance in the
* specified unit on success. *conversions is populated with the coefficient
* to use in order to convert meters to the unit.
*
* On error a value less than zero is returned. */
double extractDistanceOrReply(client *c, robj **argv,
double *conversion) {
double distance;
if (getDoubleFromObjectOrReply(c, argv[0], &distance,
"need numeric radius") != C_OK) {
return -1;
}
if (distance < 0) {
addReplyError(c,"radius cannot be negative");
return -1;
}
double to_meters = extractUnitOrReply(c,argv[1]);
if (to_meters < 0) {
return -1;
}
if (conversion) *conversion = to_meters;
return distance * to_meters;
}
/* The default addReplyDouble has too much accuracy. We use this
* for returning location distances. "5.2145 meters away" is nicer
* than "5.2144992818115 meters away." We provide 4 digits after the dot
* so that the returned value is decently accurate even when the unit is
* the kilometer. */
void addReplyDoubleDistance(client *c, double d) {
char dbuf[128];
int dlen = snprintf(dbuf, sizeof(dbuf), "%.4f", d);
addReplyBulkCBuffer(c, dbuf, dlen);
}
/* Helper function for geoGetPointsInRange(): given a sorted set score
* representing a point, and another point (the center of our search) and
* a radius, appends this entry as a geoPoint into the specified geoArray
* only if the point is within the search area.
*
* returns C_OK if the point is included, or REIDS_ERR if it is outside. */
int geoAppendIfWithinRadius(geoArray *ga, double lon, double lat, double radius, double score, sds member) {
double distance, xy[2];
if (!decodeGeohash(score,xy)) return C_ERR; /* Can't decode. */
/* Note that geohashGetDistanceIfInRadiusWGS84() takes arguments in
* reverse order: longitude first, latitude later. */
if (!geohashGetDistanceIfInRadiusWGS84(lon,lat, xy[0], xy[1],
radius, &distance))
{
return C_ERR;
}
/* Append the new element. */
geoPoint *gp = geoArrayAppend(ga);
gp->longitude = xy[0];
gp->latitude = xy[1];
gp->dist = distance;
gp->member = member;
gp->score = score;
return C_OK;
}
/* Query a Redis sorted set to extract all the elements between 'min' and
* 'max', appending them into the array of geoPoint structures 'gparray'.
* The command returns the number of elements added to the array.
*
* Elements which are farest than 'radius' from the specified 'x' and 'y'
* coordinates are not included.
*
* The ability of this function to append to an existing set of points is
* important for good performances because querying by radius is performed
* using multiple queries to the sorted set, that we later need to sort
* via qsort. Similarly we need to be able to reject points outside the search
* radius area ASAP in order to allocate and process more points than needed. */
int geoGetPointsInRange(robj *zobj, double min, double max, double lon, double lat, double radius, geoArray *ga) {
/* minex 0 = include min in range; maxex 1 = exclude max in range */
/* That's: min <= val < max */
zrangespec range = { .min = min, .max = max, .minex = 0, .maxex = 1 };
size_t origincount = ga->used;
sds member;
if (zobj->encoding == OBJ_ENCODING_ZIPLIST) {
unsigned char *zl = zobj->ptr;
unsigned char *eptr, *sptr;
unsigned char *vstr = NULL;
unsigned int vlen = 0;
long long vlong = 0;
double score = 0;
if ((eptr = zzlFirstInRange(zl, &range)) == NULL) {
/* Nothing exists starting at our min. No results. */
return 0;
}
sptr = ziplistNext(zl, eptr);
while (eptr) {
score = zzlGetScore(sptr);
/* If we fell out of range, break. */
if (!zslValueLteMax(score, &range))
break;
/* We know the element exists. ziplistGet should always succeed */
ziplistGet(eptr, &vstr, &vlen, &vlong);
member = (vstr == NULL) ? sdsfromlonglong(vlong) :
sdsnewlen(vstr,vlen);
if (geoAppendIfWithinRadius(ga,lon,lat,radius,score,member)
== C_ERR) sdsfree(member);
zzlNext(zl, &eptr, &sptr);
}
} else if (zobj->encoding == OBJ_ENCODING_SKIPLIST) {
zset *zs = zobj->ptr;
zskiplist *zsl = zs->zsl;
zskiplistNode *ln;
if ((ln = zslFirstInRange(zsl, &range)) == NULL) {
/* Nothing exists starting at our min. No results. */
return 0;
}
while (ln) {
sds ele = ln->ele;
/* Abort when the node is no longer in range. */
if (!zslValueLteMax(ln->score, &range))
break;
ele = sdsdup(ele);
if (geoAppendIfWithinRadius(ga,lon,lat,radius,ln->score,ele)
== C_ERR) sdsfree(ele);
ln = ln->level[0].forward;
}
}
return ga->used - origincount;
}
/* Compute the sorted set scores min (inclusive), max (exclusive) we should
* query in order to retrieve all the elements inside the specified area
* 'hash'. The two scores are returned by reference in *min and *max. */
void scoresOfGeoHashBox(GeoHashBits hash, GeoHashFix52Bits *min, GeoHashFix52Bits *max) {
/* We want to compute the sorted set scores that will include all the
* elements inside the specified Geohash 'hash', which has as many
* bits as specified by hash.step * 2.
*
* So if step is, for example, 3, and the hash value in binary
* is 101010, since our score is 52 bits we want every element which
* is in binary: 101010?????????????????????????????????????????????
* Where ? can be 0 or 1.
*
* To get the min score we just use the initial hash value left
* shifted enough to get the 52 bit value. Later we increment the
* 6 bit prefis (see the hash.bits++ statement), and get the new
* prefix: 101011, which we align again to 52 bits to get the maximum
* value (which is excluded from the search). So we get everything
* between the two following scores (represented in binary):
*
* 1010100000000000000000000000000000000000000000000000 (included)
* and
* 1010110000000000000000000000000000000000000000000000 (excluded).
*/
*min = geohashAlign52Bits(hash);
hash.bits++;
*max = geohashAlign52Bits(hash);
}
/* Obtain all members between the min/max of this geohash bounding box.
* Populate a geoArray of GeoPoints by calling geoGetPointsInRange().
* Return the number of points added to the array. */
int membersOfGeoHashBox(robj *zobj, GeoHashBits hash, geoArray *ga, double lon, double lat, double radius) {
GeoHashFix52Bits min, max;
scoresOfGeoHashBox(hash,&min,&max);
return geoGetPointsInRange(zobj, min, max, lon, lat, radius, ga);
}
/* Search all eight neighbors + self geohash box */
int membersOfAllNeighbors(robj *zobj, GeoHashRadius n, double lon, double lat, double radius, geoArray *ga) {
GeoHashBits neighbors[9];
unsigned int i, count = 0, last_processed = 0;
int debugmsg = 0;
neighbors[0] = n.hash;
neighbors[1] = n.neighbors.north;
neighbors[2] = n.neighbors.south;
neighbors[3] = n.neighbors.east;
neighbors[4] = n.neighbors.west;
neighbors[5] = n.neighbors.north_east;
neighbors[6] = n.neighbors.north_west;
neighbors[7] = n.neighbors.south_east;
neighbors[8] = n.neighbors.south_west;
/* For each neighbor (*and* our own hashbox), get all the matching
* members and add them to the potential result list. */
for (i = 0; i < sizeof(neighbors) / sizeof(*neighbors); i++) {
if (HASHISZERO(neighbors[i])) {
if (debugmsg) D("neighbors[%d] is zero",i);
continue;
}
/* Debugging info. */
if (debugmsg) {
GeoHashRange long_range, lat_range;
geohashGetCoordRange(&long_range,&lat_range);
GeoHashArea myarea = {{0}};
geohashDecode(long_range, lat_range, neighbors[i], &myarea);
/* Dump center square. */
D("neighbors[%d]:\n",i);
D("area.longitude.min: %f\n", myarea.longitude.min);
D("area.longitude.max: %f\n", myarea.longitude.max);
D("area.latitude.min: %f\n", myarea.latitude.min);
D("area.latitude.max: %f\n", myarea.latitude.max);
D("\n");
}
/* When a huge Radius (in the 5000 km range or more) is used,
* adjacent neighbors can be the same, leading to duplicated
* elements. Skip every range which is the same as the one
* processed previously. */
if (last_processed &&
neighbors[i].bits == neighbors[last_processed].bits &&
neighbors[i].step == neighbors[last_processed].step)
{
if (debugmsg)
D("Skipping processing of %d, same as previous\n",i);
continue;
}
count += membersOfGeoHashBox(zobj, neighbors[i], ga, lon, lat, radius);
last_processed = i;
}
return count;
}
/* Sort comparators for qsort() */
static int sort_gp_asc(const void *a, const void *b) {
const struct geoPoint *gpa = a, *gpb = b;
/* We can't do adist - bdist because they are doubles and
* the comparator returns an int. */
if (gpa->dist > gpb->dist)
return 1;
else if (gpa->dist == gpb->dist)
return 0;
else
return -1;
}
static int sort_gp_desc(const void *a, const void *b) {
return -sort_gp_asc(a, b);
}
/* ====================================================================
* Commands
* ==================================================================== */
/* GEOADD key long lat name [long2 lat2 name2 ... longN latN nameN] */
void geoaddCommand(client *c) {
/* Check arguments number for sanity. */
if ((c->argc - 2) % 3 != 0) {
/* Need an odd number of arguments if we got this far... */
addReplyError(c, "syntax error. Try GEOADD key [x1] [y1] [name1] "
"[x2] [y2] [name2] ... ");
return;
}
int elements = (c->argc - 2) / 3;
int argc = 2+elements*2; /* ZADD key score ele ... */
robj **argv = zcalloc(argc*sizeof(robj*));
argv[0] = createRawStringObject("zadd",4);
argv[1] = c->argv[1]; /* key */
incrRefCount(argv[1]);
/* Create the argument vector to call ZADD in order to add all
* the score,value pairs to the requested zset, where score is actually
* an encoded version of lat,long. */
int i;
for (i = 0; i < elements; i++) {
double xy[2];
if (extractLongLatOrReply(c, (c->argv+2)+(i*3),xy) == C_ERR) {
for (i = 0; i < argc; i++)
if (argv[i]) decrRefCount(argv[i]);
zfree(argv);
return;
}
/* Turn the coordinates into the score of the element. */
GeoHashBits hash;
geohashEncodeWGS84(xy[0], xy[1], GEO_STEP_MAX, &hash);
GeoHashFix52Bits bits = geohashAlign52Bits(hash);
robj *score = createObject(OBJ_STRING, sdsfromlonglong(bits));
robj *val = c->argv[2 + i * 3 + 2];
argv[2+i*2] = score;
argv[3+i*2] = val;
incrRefCount(val);
}
/* Finally call ZADD that will do the work for us. */
replaceClientCommandVector(c,argc,argv);
zaddCommand(c);
}
#define SORT_NONE 0
#define SORT_ASC 1
#define SORT_DESC 2
#define RADIUS_COORDS (1<<0) /* Search around coordinates. */
#define RADIUS_MEMBER (1<<1) /* Search around member. */
#define RADIUS_NOSTORE (1<<2) /* Do not acceot STORE/STOREDIST option. */
/* GEORADIUS key x y radius unit [WITHDIST] [WITHHASH] [WITHCOORD] [ASC|DESC]
* [COUNT count] [STORE key] [STOREDIST key]
* GEORADIUSBYMEMBER key member radius unit ... options ... */
void georadiusGeneric(client *c, int flags) {
robj *key = c->argv[1];
robj *storekey = NULL;
int storedist = 0; /* 0 for STORE, 1 for STOREDIST. */
/* Look up the requested zset */
robj *zobj = NULL;
if ((zobj = lookupKeyReadOrReply(c, key, shared.emptyarray)) == NULL ||
checkType(c, zobj, OBJ_ZSET)) {
return;
}
/* Find long/lat to use for radius search based on inquiry type */
int base_args;
double xy[2] = { 0 };
if (flags & RADIUS_COORDS) {
base_args = 6;
if (extractLongLatOrReply(c, c->argv + 2, xy) == C_ERR)
return;
} else if (flags & RADIUS_MEMBER) {
base_args = 5;
robj *member = c->argv[2];
if (longLatFromMember(zobj, member, xy) == C_ERR) {
addReplyError(c, "could not decode requested zset member");
return;
}
} else {
addReplyError(c, "Unknown georadius search type");
return;
}
/* Extract radius and units from arguments */
double radius_meters = 0, conversion = 1;
if ((radius_meters = extractDistanceOrReply(c, c->argv + base_args - 2,
&conversion)) < 0) {
return;
}
/* Discover and populate all optional parameters. */
int withdist = 0, withhash = 0, withcoords = 0;
int sort = SORT_NONE;
long long count = 0;
if (c->argc > base_args) {
int remaining = c->argc - base_args;
for (int i = 0; i < remaining; i++) {
char *arg = c->argv[base_args + i]->ptr;
if (!strcasecmp(arg, "withdist")) {
withdist = 1;
} else if (!strcasecmp(arg, "withhash")) {
withhash = 1;
} else if (!strcasecmp(arg, "withcoord")) {
withcoords = 1;
} else if (!strcasecmp(arg, "asc")) {
sort = SORT_ASC;
} else if (!strcasecmp(arg, "desc")) {
sort = SORT_DESC;
} else if (!strcasecmp(arg, "count") && (i+1) < remaining) {
if (getLongLongFromObjectOrReply(c, c->argv[base_args+i+1],
&count, NULL) != C_OK) return;
if (count <= 0) {
addReplyError(c,"COUNT must be > 0");
return;
}
i++;
} else if (!strcasecmp(arg, "store") &&
(i+1) < remaining &&
!(flags & RADIUS_NOSTORE))
{
storekey = c->argv[base_args+i+1];
storedist = 0;
i++;
} else if (!strcasecmp(arg, "storedist") &&
(i+1) < remaining &&
!(flags & RADIUS_NOSTORE))
{
storekey = c->argv[base_args+i+1];
storedist = 1;
i++;
} else {
addReply(c, shared.syntaxerr);
return;
}
}
}
/* Trap options not compatible with STORE and STOREDIST. */
if (storekey && (withdist || withhash || withcoords)) {
addReplyError(c,
"STORE option in GEORADIUS is not compatible with "
"WITHDIST, WITHHASH and WITHCOORDS options");
return;
}
/* COUNT without ordering does not make much sense, force ASC
* ordering if COUNT was specified but no sorting was requested. */
if (count != 0 && sort == SORT_NONE) sort = SORT_ASC;
/* Get all neighbor geohash boxes for our radius search */
GeoHashRadius georadius =
geohashGetAreasByRadiusWGS84(xy[0], xy[1], radius_meters);
/* Search the zset for all matching points */
geoArray *ga = geoArrayCreate();
membersOfAllNeighbors(zobj, georadius, xy[0], xy[1], radius_meters, ga);
/* If no matching results, the user gets an empty reply. */
if (ga->used == 0 && storekey == NULL) {
addReply(c,shared.emptyarray);
geoArrayFree(ga);
return;
}
long result_length = ga->used;
long returned_items = (count == 0 || result_length < count) ?
result_length : count;
long option_length = 0;
/* Process [optional] requested sorting */
if (sort == SORT_ASC) {
qsort(ga->array, result_length, sizeof(geoPoint), sort_gp_asc);
} else if (sort == SORT_DESC) {
qsort(ga->array, result_length, sizeof(geoPoint), sort_gp_desc);
}
if (storekey == NULL) {
/* No target key, return results to user. */
/* Our options are self-contained nested multibulk replies, so we
* only need to track how many of those nested replies we return. */
if (withdist)
option_length++;
if (withcoords)
option_length++;
if (withhash)
option_length++;
/* The array len we send is exactly result_length. The result is
* either all strings of just zset members *or* a nested multi-bulk
* reply containing the zset member string _and_ all the additional
* options the user enabled for this request. */
addReplyArrayLen(c, returned_items);
/* Finally send results back to the caller */
int i;
for (i = 0; i < returned_items; i++) {
geoPoint *gp = ga->array+i;
gp->dist /= conversion; /* Fix according to unit. */
/* If we have options in option_length, return each sub-result
* as a nested multi-bulk. Add 1 to account for result value
* itself. */
if (option_length)
addReplyArrayLen(c, option_length + 1);
addReplyBulkSds(c,gp->member);
gp->member = NULL;
if (withdist)
addReplyDoubleDistance(c, gp->dist);
if (withhash)
addReplyLongLong(c, gp->score);
if (withcoords) {
addReplyArrayLen(c, 2);
addReplyHumanLongDouble(c, gp->longitude);
addReplyHumanLongDouble(c, gp->latitude);
}
}
} else {
/* Target key, create a sorted set with the results. */
robj *zobj;
zset *zs;
int i;
size_t maxelelen = 0;
if (returned_items) {
zobj = createZsetObject();
zs = zobj->ptr;
}
for (i = 0; i < returned_items; i++) {
zskiplistNode *znode;
geoPoint *gp = ga->array+i;
gp->dist /= conversion; /* Fix according to unit. */
double score = storedist ? gp->dist : gp->score;
size_t elelen = sdslen(gp->member);
if (maxelelen < elelen) maxelelen = elelen;
znode = zslInsert(zs->zsl,score,gp->member);
serverAssert(dictAdd(zs->dict,gp->member,&znode->score) == DICT_OK);
gp->member = NULL;
}
if (returned_items) {
zsetConvertToZiplistIfNeeded(zobj,maxelelen);
setKey(c,c->db,storekey,zobj);
decrRefCount(zobj);
notifyKeyspaceEvent(NOTIFY_ZSET,"georadiusstore",storekey,
c->db->id);
server.dirty += returned_items;
} else if (dbDelete(c->db,storekey)) {
signalModifiedKey(c,c->db,storekey);
notifyKeyspaceEvent(NOTIFY_GENERIC,"del",storekey,c->db->id);
server.dirty++;
}
addReplyLongLong(c, returned_items);
}
geoArrayFree(ga);
}
/* GEORADIUS wrapper function. */
void georadiusCommand(client *c) {
georadiusGeneric(c, RADIUS_COORDS);
}
/* GEORADIUSBYMEMBER wrapper function. */
void georadiusbymemberCommand(client *c) {
georadiusGeneric(c, RADIUS_MEMBER);
}
/* GEORADIUS_RO wrapper function. */
void georadiusroCommand(client *c) {
georadiusGeneric(c, RADIUS_COORDS|RADIUS_NOSTORE);
}
/* GEORADIUSBYMEMBER_RO wrapper function. */
void georadiusbymemberroCommand(client *c) {
georadiusGeneric(c, RADIUS_MEMBER|RADIUS_NOSTORE);
}
/* GEOHASH key ele1 ele2 ... eleN
*
* Returns an array with an 11 characters geohash representation of the
* position of the specified elements. */
void geohashCommand(client *c) {
char *geoalphabet= "0123456789bcdefghjkmnpqrstuvwxyz";
int j;
/* Look up the requested zset */
robj *zobj = lookupKeyRead(c->db, c->argv[1]);
if (zobj && checkType(c, zobj, OBJ_ZSET)) return;
/* Geohash elements one after the other, using a null bulk reply for
* missing elements. */
addReplyArrayLen(c,c->argc-2);
for (j = 2; j < c->argc; j++) {
double score;
if (!zobj || zsetScore(zobj, c->argv[j]->ptr, &score) == C_ERR) {
addReplyNull(c);
} else {
/* The internal format we use for geocoding is a bit different
* than the standard, since we use as initial latitude range
* -85,85, while the normal geohashing algorithm uses -90,90.
* So we have to decode our position and re-encode using the
* standard ranges in order to output a valid geohash string. */
/* Decode... */
double xy[2];
if (!decodeGeohash(score,xy)) {
addReplyNull(c);
continue;
}
/* Re-encode */
GeoHashRange r[2];
GeoHashBits hash;
r[0].min = -180;
r[0].max = 180;
r[1].min = -90;
r[1].max = 90;
geohashEncode(&r[0],&r[1],xy[0],xy[1],26,&hash);
char buf[12];
int i;
for (i = 0; i < 11; i++) {
int idx;
if (i == 10) {
/* We have just 52 bits, but the API used to output
* an 11 bytes geohash. For compatibility we assume
* zero. */
idx = 0;
} else {
idx = (hash.bits >> (52-((i+1)*5))) & 0x1f;
}
buf[i] = geoalphabet[idx];
}
buf[11] = '\0';
addReplyBulkCBuffer(c,buf,11);
}
}
}
/* GEOPOS key ele1 ele2 ... eleN
*
* Returns an array of two-items arrays representing the x,y position of each
* element specified in the arguments. For missing elements NULL is returned. */
void geoposCommand(client *c) {
int j;
/* Look up the requested zset */
robj *zobj = lookupKeyRead(c->db, c->argv[1]);
if (zobj && checkType(c, zobj, OBJ_ZSET)) return;
/* Report elements one after the other, using a null bulk reply for
* missing elements. */
addReplyArrayLen(c,c->argc-2);
for (j = 2; j < c->argc; j++) {
double score;
if (!zobj || zsetScore(zobj, c->argv[j]->ptr, &score) == C_ERR) {
addReplyNullArray(c);
} else {
/* Decode... */
double xy[2];
if (!decodeGeohash(score,xy)) {
addReplyNullArray(c);
continue;
}
addReplyArrayLen(c,2);
addReplyHumanLongDouble(c,xy[0]);
addReplyHumanLongDouble(c,xy[1]);
}
}
}
/* GEODIST key ele1 ele2 [unit]
*
* Return the distance, in meters by default, otherwise accordig to "unit",
* between points ele1 and ele2. If one or more elements are missing NULL
* is returned. */
void geodistCommand(client *c) {
double to_meter = 1;
/* Check if there is the unit to extract, otherwise assume meters. */
if (c->argc == 5) {
to_meter = extractUnitOrReply(c,c->argv[4]);
if (to_meter < 0) return;
} else if (c->argc > 5) {
addReply(c,shared.syntaxerr);
return;
}
/* Look up the requested zset */
robj *zobj = NULL;
if ((zobj = lookupKeyReadOrReply(c, c->argv[1], shared.null[c->resp]))
== NULL || checkType(c, zobj, OBJ_ZSET)) return;
/* Get the scores. We need both otherwise NULL is returned. */
double score1, score2, xyxy[4];
if (zsetScore(zobj, c->argv[2]->ptr, &score1) == C_ERR ||
zsetScore(zobj, c->argv[3]->ptr, &score2) == C_ERR)
{
addReplyNull(c);
return;
}
/* Decode & compute the distance. */
if (!decodeGeohash(score1,xyxy) || !decodeGeohash(score2,xyxy+2))
addReplyNull(c);
else
addReplyDoubleDistance(c,
geohashGetDistance(xyxy[0],xyxy[1],xyxy[2],xyxy[3]) / to_meter);
}