run gofmt

api.go

@@ -33,69 +33,69 @@ import "time"
 
 func (conn *Connection) rqliteApiGet(apiOp apiOperation) ([]byte, error) {
 	var responseBody []byte
-	trace("%s: rqliteApiGet() called",conn.ID)
+	trace("%s: rqliteApiGet() called", conn.ID)
 
 	// only api_STATUS now - maybe someday BACKUP
-	if ( apiOp != api_STATUS ) {
+	if apiOp != api_STATUS {
 		return responseBody, errors.New("rqliteApiGet() called for invalid api operation")
 	}
 
 	// just to be safe, check this
 	peersToTry := conn.cluster.makePeerList()
-	if ( len(peersToTry) < 1 ) {
+	if len(peersToTry) < 1 {
 		return responseBody, errors.New("I don't have any cluster info")
 	}
-	trace("%s: I have a peer list %d peers long",conn.ID,len(peersToTry))
+	trace("%s: I have a peer list %d peers long", conn.ID, len(peersToTry))
 
 	// failure log is used so that if all peers fail, we can say something
 	// about why each failed
-	failureLog := make([]string,0)
+	failureLog := make([]string, 0)
 
 PeerLoop:
-  for peerNum, peerToTry := range peersToTry {
-    trace("%s: attemping to contact peer %d",conn.ID,peerNum)
-    // docs say default GET policy is up to 10 follows automatically
-    url := conn.assembleURL(api_STATUS,peerToTry)
-    req, err := http.NewRequest("GET",url,nil)
-    if ( err != nil ) { 
-			trace("%s: got error '%s' doing http.NewRequest", conn.ID,err.Error())
-			failureLog = append(failureLog,fmt.Sprintf("%s failed due to %s",url,err.Error()))
+	for peerNum, peerToTry := range peersToTry {
+		trace("%s: attemping to contact peer %d", conn.ID, peerNum)
+		// docs say default GET policy is up to 10 follows automatically
+		url := conn.assembleURL(api_STATUS, peerToTry)
+		req, err := http.NewRequest("GET", url, nil)
+		if err != nil {
+			trace("%s: got error '%s' doing http.NewRequest", conn.ID, err.Error())
+			failureLog = append(failureLog, fmt.Sprintf("%s failed due to %s", url, err.Error()))
 			continue PeerLoop
 		}
-    trace("%s: http.NewRequest() OK")
-		req.Header.Set("Content-Type","application/json")
+		trace("%s: http.NewRequest() OK")
+		req.Header.Set("Content-Type", "application/json")
 		client := &http.Client{}
 		client.Timeout = time.Duration(conn.timeout) * time.Second
 		response, err := client.Do(req)
-    if ( err != nil ) { 
-			trace("%s: got error '%s' doing client.Do", conn.ID,err.Error())
-			failureLog = append(failureLog,fmt.Sprintf("%s failed due to %s",url,err.Error()))
+		if err != nil {
+			trace("%s: got error '%s' doing client.Do", conn.ID, err.Error())
+			failureLog = append(failureLog, fmt.Sprintf("%s failed due to %s", url, err.Error()))
 			continue PeerLoop
 		}
 		defer response.Body.Close()
-    trace("%s: client.Do() OK")
+		trace("%s: client.Do() OK")
 		responseBody, err := ioutil.ReadAll(response.Body)
-    if ( err != nil ) { 
-			trace("%s: got error '%s' doing ioutil.ReadAll", conn.ID,err.Error())
-			failureLog = append(failureLog,fmt.Sprintf("%s failed due to %s",url,err.Error()))
+		if err != nil {
+			trace("%s: got error '%s' doing ioutil.ReadAll", conn.ID, err.Error())
+			failureLog = append(failureLog, fmt.Sprintf("%s failed due to %s", url, err.Error()))
 			continue PeerLoop
 		}
-    trace("%s: ioutil.ReadAll() OK")
-		if ( response.Status != "200 OK" ) {
-			trace("%s: got code %s",conn.ID,response.Status)
-			failureLog = append(failureLog,fmt.Sprintf("%s failed, got: %s",url,response.Status))
+		trace("%s: ioutil.ReadAll() OK")
+		if response.Status != "200 OK" {
+			trace("%s: got code %s", conn.ID, response.Status)
+			failureLog = append(failureLog, fmt.Sprintf("%s failed, got: %s", url, response.Status))
 			continue PeerLoop
 		}
 		// if we got here, we succeeded
-		trace("%s: api call OK, returning",conn.ID)
+		trace("%s: api call OK, returning", conn.ID)
 		return responseBody, nil
-  }
+	}
 
 	// if we got here, all peers failed.  Let's build a verbose error message
 	var stringBuffer bytes.Buffer
 	stringBuffer.WriteString("tried all peers unsuccessfully. here are the results:\n")
 	for n, v := range failureLog {
-		stringBuffer.WriteString(fmt.Sprintf("   peer #%d: %s\n",n,v))
+		stringBuffer.WriteString(fmt.Sprintf("   peer #%d: %s\n", n, v))
 	}
 	return responseBody, errors.New(stringBuffer.String())
 }
@@ -114,78 +114,80 @@ PeerLoop:
 
  * *****************************************************************/
 
-func (conn *Connection) rqliteApiPost (apiOp apiOperation, sqlStatements []string) ([]byte, error) {
+func (conn *Connection) rqliteApiPost(apiOp apiOperation, sqlStatements []string) ([]byte, error) {
 	var responseBody []byte
 
-	switch (apiOp) {
-		case api_QUERY:
-			trace("%s: rqliteApiGet() post called for a QUERY of %d statements",conn.ID,len(sqlStatements))
-		case api_WRITE:
-			trace("%s: rqliteApiGet() post called for a QUERY of %d statements",conn.ID,len(sqlStatements))
-		default:
-			return responseBody, errors.New("weird! called for an invalid apiOperation in rqliteApiPost()")
+	switch apiOp {
+	case api_QUERY:
+		trace("%s: rqliteApiGet() post called for a QUERY of %d statements", conn.ID, len(sqlStatements))
+	case api_WRITE:
+		trace("%s: rqliteApiGet() post called for a QUERY of %d statements", conn.ID, len(sqlStatements))
+	default:
+		return responseBody, errors.New("weird! called for an invalid apiOperation in rqliteApiPost()")
 	}
 
 	// jsonify the statements.  not really needed in the
 	// case of api_STATUS but doesn't hurt
 
-	jStatements , err := json.Marshal(sqlStatements)
-	if ( err != nil ) { return nil, err }
+	jStatements, err := json.Marshal(sqlStatements)
+	if err != nil {
+		return nil, err
+	}
 
 	// just to be safe, check this
 	peersToTry := conn.cluster.makePeerList()
-	if ( len(peersToTry) < 1 ) {
+	if len(peersToTry) < 1 {
 		return responseBody, errors.New("I don't have any cluster info")
 	}
 
 	// failure log is used so that if all peers fail, we can say something
 	// about why each failed
-	failureLog := make([]string,0)
+	failureLog := make([]string, 0)
 
 PeerLoop:
 	for peerNum, peer := range peersToTry {
-		trace("%s: trying peer #%d",conn.ID,peerNum)
+		trace("%s: trying peer #%d", conn.ID, peerNum)
 
 		// we're doing a post, and the RFCs say that if you get a 301, it's not
 		// automatically followed, so we have to do that ourselves
 
 		responseStatus := "Haven't Tried Yet"
 		var url string
-		for ( responseStatus == "Haven't Tried Yet" || responseStatus == "301 Moved Permanently" ) {
-			url = conn.assembleURL(apiOp,peer)
-			req, err := http.NewRequest("POST",url,bytes.NewBuffer(jStatements))
-    	if ( err != nil ) { 
-				trace("%s: got error '%s' doing http.NewRequest", conn.ID,err.Error())
-				failureLog = append(failureLog,fmt.Sprintf("%s failed due to %s",url,err.Error()))
+		for responseStatus == "Haven't Tried Yet" || responseStatus == "301 Moved Permanently" {
+			url = conn.assembleURL(apiOp, peer)
+			req, err := http.NewRequest("POST", url, bytes.NewBuffer(jStatements))
+			if err != nil {
+				trace("%s: got error '%s' doing http.NewRequest", conn.ID, err.Error())
+				failureLog = append(failureLog, fmt.Sprintf("%s failed due to %s", url, err.Error()))
 				continue PeerLoop
 			}
-			req.Header.Set("Content-Type","application/json")
+			req.Header.Set("Content-Type", "application/json")
 			client := &http.Client{}
 			response, err := client.Do(req)
-    	if ( err != nil ) { 
-				trace("%s: got error '%s' doing client.Do", conn.ID,err.Error())
-				failureLog = append(failureLog,fmt.Sprintf("%s failed due to %s",url,err.Error()))
+			if err != nil {
+				trace("%s: got error '%s' doing client.Do", conn.ID, err.Error())
+				failureLog = append(failureLog, fmt.Sprintf("%s failed due to %s", url, err.Error()))
 				continue PeerLoop
 			}
 			defer response.Body.Close()
 			responseBody, err = ioutil.ReadAll(response.Body)
-    	if ( err != nil ) { 
-				trace("%s: got error '%s' doing ioutil.ReadAll", conn.ID,err.Error())
-				failureLog = append(failureLog,fmt.Sprintf("%s failed due to %s",url,err.Error()))
+			if err != nil {
+				trace("%s: got error '%s' doing ioutil.ReadAll", conn.ID, err.Error())
+				failureLog = append(failureLog, fmt.Sprintf("%s failed due to %s", url, err.Error()))
 				continue PeerLoop
 			}
 			responseStatus = response.Status
-			if ( responseStatus == "301 Moved Permanently" ) {
+			if responseStatus == "301 Moved Permanently" {
 				v := response.Header["Location"]
-				failureLog = append(failureLog,fmt.Sprintf("%s redirected me to %s",url,v[0]))
+				failureLog = append(failureLog, fmt.Sprintf("%s redirected me to %s", url, v[0]))
 				url = v[0]
 				continue PeerLoop
-			} else if ( responseStatus == "200 OK" ) {
-				trace("%s: api call OK, returning",conn.ID)
+			} else if responseStatus == "200 OK" {
+				trace("%s: api call OK, returning", conn.ID)
 				return responseBody, nil
 			} else {
 				trace("%s: got error in responseStatus: %s", conn.ID, responseStatus)
-				failureLog = append(failureLog,fmt.Sprintf("%s failed, got: %s",url,response.Status))
+				failureLog = append(failureLog, fmt.Sprintf("%s failed, got: %s", url, response.Status))
 				continue PeerLoop
 			}
 		}
@@ -195,8 +197,7 @@ PeerLoop:
 	var stringBuffer bytes.Buffer
 	stringBuffer.WriteString("tried all peers unsuccessfully. here are the results:\n")
 	for n, v := range failureLog {
-		stringBuffer.WriteString(fmt.Sprintf("   peer #%d: %s\n",n,v))
+		stringBuffer.WriteString(fmt.Sprintf("   peer #%d: %s\n", n, v))
 	}
 	return responseBody, errors.New(stringBuffer.String())
 }
-

cluster.go

@@ -37,14 +37,13 @@ import "strings"
 
  * *****************************************************************/
 
-
 type peer struct {
-	hostname           string   //   hostname or "localhost"
-  port               string   //   "4001" or port, only ever used as a string
+	hostname string //   hostname or "localhost"
+	port     string //   "4001" or port, only ever used as a string
 }
 
 func (p *peer) String() string {
-	return fmt.Sprintf("%s:%s",p.hostname,p.port)
+	return fmt.Sprintf("%s:%s", p.hostname, p.port)
 }
 
 /* *****************************************************************
@@ -56,9 +55,9 @@ func (p *peer) String() string {
  * *****************************************************************/
 
 type rqliteCluster struct {
-	leader peer
+	leader     peer
 	otherPeers []peer
-	conn *Connection
+	conn       *Connection
 }
 
 /* *****************************************************************
@@ -72,16 +71,16 @@ type rqliteCluster struct {
  * *****************************************************************/
 
 func (rc *rqliteCluster) makePeerList() []peer {
-	trace("%s: makePeerList() called",rc.conn.ID)
+	trace("%s: makePeerList() called", rc.conn.ID)
 	var peerList []peer
-	peerList = append(peerList,rc.leader)
+	peerList = append(peerList, rc.leader)
 	for _, p := range rc.otherPeers {
-		peerList = append(peerList,p)
+		peerList = append(peerList, p)
 	}
 
-	trace("%s: makePeerList() returning this list:",rc.conn.ID)
+	trace("%s: makePeerList() returning this list:", rc.conn.ID)
 	for n, v := range peerList {
-		trace("%s: makePeerList() peer %d -> %s",rc.conn.ID,n,v.hostname + ":" + v.port)
+		trace("%s: makePeerList() peer %d -> %s", rc.conn.ID, n, v.hostname+":"+v.port)
 	}
 
 	return peerList
@@ -105,13 +104,13 @@ func (rc *rqliteCluster) makePeerList() []peer {
 func (conn *Connection) assembleURL(apiOp apiOperation, p peer) string {
 	var stringBuffer bytes.Buffer
 
-	if ( conn.wantsHTTPS == true ) {
+	if conn.wantsHTTPS == true {
 		stringBuffer.WriteString("https")
 	} else {
 		stringBuffer.WriteString("http")
 	}
 	stringBuffer.WriteString("://")
-	if ( conn.username != "" && conn.password != "" ) {
+	if conn.username != "" && conn.password != "" {
 		stringBuffer.WriteString(conn.username)
 		stringBuffer.WriteString(":")
 		stringBuffer.WriteString(conn.password)
@@ -122,26 +121,26 @@ func (conn *Connection) assembleURL(apiOp apiOperation, p peer) string {
 	stringBuffer.WriteString(p.port)
 
 	switch apiOp {
-		case api_STATUS:
-			stringBuffer.WriteString("/status")
-		case api_QUERY:
-			stringBuffer.WriteString("/db/query")
-		case api_WRITE:
-			stringBuffer.WriteString("/db/execute")
+	case api_STATUS:
+		stringBuffer.WriteString("/status")
+	case api_QUERY:
+		stringBuffer.WriteString("/db/query")
+	case api_WRITE:
+		stringBuffer.WriteString("/db/execute")
 	}
 
-	if ( apiOp == api_QUERY || apiOp == api_WRITE ) {
+	if apiOp == api_QUERY || apiOp == api_WRITE {
 		stringBuffer.WriteString("?timings&transaction&level=")
 		stringBuffer.WriteString(consistencyLevelNames[conn.consistencyLevel])
 	}
 
 	switch apiOp {
-		case api_QUERY:
-			trace("%s: assembled URL for an api_QUERY: %s",conn.ID,stringBuffer.String())
-		case api_STATUS:
-			trace("%s: assembled URL for an api_STATUS: %s",conn.ID,stringBuffer.String())
-		case api_WRITE:
-			trace("%s: assembled URL for an api_WRITE: %s",conn.ID,stringBuffer.String())
+	case api_QUERY:
+		trace("%s: assembled URL for an api_QUERY: %s", conn.ID, stringBuffer.String())
+	case api_STATUS:
+		trace("%s: assembled URL for an api_STATUS: %s", conn.ID, stringBuffer.String())
+	case api_WRITE:
+		trace("%s: assembled URL for an api_WRITE: %s", conn.ID, stringBuffer.String())
 	}
 
 	return stringBuffer.String()
@@ -160,22 +159,26 @@ func (conn *Connection) assembleURL(apiOp apiOperation, p peer) string {
  * *****************************************************************/
 
 func (conn *Connection) updateClusterInfo() error {
-	trace("%s: updateClusterInfo() called",conn.ID)
+	trace("%s: updateClusterInfo() called", conn.ID)
 
 	// start with a fresh new cluster
 	var rc rqliteCluster
 	rc.conn = conn
 
 	responseBody, err := conn.rqliteApiGet(api_STATUS)
-	if ( err != nil ) { return err }
-	trace("%s: updateClusterInfo() back from api call OK",conn.ID)
+	if err != nil {
+		return err
+	}
+	trace("%s: updateClusterInfo() back from api call OK", conn.ID)
 
 	sections := make(map[string]interface{})
-	err = json.Unmarshal(responseBody,&sections)
-	if ( err != nil ) { return err }
+	err = json.Unmarshal(responseBody, &sections)
+	if err != nil {
+		return err
+	}
 	sMap := sections["store"].(map[string]interface{})
 	leaderRaftAddr := sMap["leader"].(string)
-	trace("%s: leader from store section is %s",conn.ID,leaderRaftAddr)
+	trace("%s: leader from store section is %s", conn.ID, leaderRaftAddr)
 
 	// leader in this case is the RAFT address
 	// we want the HTTP address, so we'll use this as
@@ -185,32 +188,32 @@ func (conn *Connection) updateClusterInfo() error {
 	apiPeers := meta["APIPeers"].(map[string]interface{})
 
 	for raftAddr, httpAddr := range apiPeers {
-		trace("%s: examining httpAddr %s",conn.ID,httpAddr)
+		trace("%s: examining httpAddr %s", conn.ID, httpAddr)
 
 		/* httpAddr are usually hostname:port */
 		var p peer
-		parts := strings.Split(httpAddr.(string),":")
+		parts := strings.Split(httpAddr.(string), ":")
 		p.hostname = parts[0]
 		p.port = parts[1]
 
 		// so is this the leader?
-		if ( leaderRaftAddr == raftAddr ) {
-			trace ("%s: found leader at %s",conn.ID,httpAddr)
+		if leaderRaftAddr == raftAddr {
+			trace("%s: found leader at %s", conn.ID, httpAddr)
 			rc.leader = p
 		} else {
 			rc.otherPeers = append(rc.otherPeers, p)
 		}
 	}
 
-	if ( rc.leader.hostname == "" ) {
+	if rc.leader.hostname == "" {
 		return errors.New("could not determine leader from API status call")
 	}
 
 	// dump to trace
-	trace("%s: here is my cluster config:",conn.ID)
-	trace("%s: leader   : %s",conn.ID,rc.leader.String())
+	trace("%s: here is my cluster config:", conn.ID)
+	trace("%s: leader   : %s", conn.ID, rc.leader.String())
 	for n, v := range rc.otherPeers {
-		trace("%s: otherPeer #%d: %s",conn.ID,n,v.String())
+		trace("%s: otherPeer #%d: %s", conn.ID, n, v.String())
 	}
 
 	// now make it official
@@ -218,4 +221,3 @@ func (conn *Connection) updateClusterInfo() error {
 
 	return nil
 }
-

cluster_test.go

@@ -6,34 +6,33 @@ import "os"
 
 func TestInitCluster(t *testing.T) {
 
-TraceOn(os.Stderr)
+	TraceOn(os.Stderr)
 	t.Logf("trying Open")
 	conn, err := Open(testUrl())
-	if ( err != nil ) {
+	if err != nil {
 		t.Logf("--> FAILED")
 		t.Fatal(err)
 	}
 
 	l, err := conn.Leader()
-	if ( err != nil ) {
+	if err != nil {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
 
-	if ( len(l) < 1 ) {
+	if len(l) < 1 {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
 
 	p, err := conn.Peers()
-	if ( err != nil ) {
+	if err != nil {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
 
-	if ( len(p) < 1 ) {
+	if len(p) < 1 {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
 }
-

conn.go

@@ -49,23 +49,22 @@ var wantsTrace bool
 */
 
 type Connection struct {
-
 	cluster rqliteCluster
 
 	/*
-  name               type                default
-  */
+	  name               type                default
+	*/
 
-	username           string              //   username or ""
-	password           string              //   username or ""
-	consistencyLevel   consistencyLevel    //   WEAK
-	wantsHTTPS         bool                //   false unless connection URL is https
+	username         string           //   username or ""
+	password         string           //   username or ""
+	consistencyLevel consistencyLevel //   WEAK
+	wantsHTTPS       bool             //   false unless connection URL is https
 
 	// variables below this line need to be initialized in Open()
 
-	timeout            int                //   10
-	hasBeenClosed      bool               //   false
-	ID                 string             //   generated in init()
+	timeout       int    //   10
+	hasBeenClosed bool   //   false
+	ID            string //   generated in init()
 }
 
 /* *****************************************************************
@@ -76,7 +75,7 @@ type Connection struct {
 
 func (conn *Connection) Close() {
 	conn.hasBeenClosed = true
-	trace("%s: %s",conn.ID,"closing connection")
+	trace("%s: %s", conn.ID, "closing connection")
 }
 
 /* *****************************************************************
@@ -86,7 +85,7 @@ func (conn *Connection) Close() {
  * *****************************************************************/
 
 func (conn *Connection) ConsistencyLevel() (string, error) {
-	if ( conn.hasBeenClosed) {
+	if conn.hasBeenClosed {
 		return "", errClosed
 	}
 	return consistencyLevelNames[conn.consistencyLevel], nil
@@ -99,16 +98,16 @@ func (conn *Connection) ConsistencyLevel() (string, error) {
  * *****************************************************************/
 
 func (conn *Connection) Leader() (string, error) {
-	if ( conn.hasBeenClosed) {
+	if conn.hasBeenClosed {
 		return "", errClosed
 	}
-	trace("%s: Leader(), calling updateClusterInfo()",conn.ID)
+	trace("%s: Leader(), calling updateClusterInfo()", conn.ID)
 	err := conn.updateClusterInfo()
-	if ( err != nil ) {
-		trace("%s: Leader() got error from updateClusterInfo(): %s",conn.ID,err.Error())
+	if err != nil {
+		trace("%s: Leader() got error from updateClusterInfo(): %s", conn.ID, err.Error())
 		return "", err
 	} else {
-		trace("%s: Leader(), updateClusterInfo() OK",conn.ID)
+		trace("%s: Leader(), updateClusterInfo() OK", conn.ID)
 	}
 	return conn.cluster.leader.String(), nil
 }
@@ -120,23 +119,23 @@ func (conn *Connection) Leader() (string, error) {
  * *****************************************************************/
 
 func (conn *Connection) Peers() ([]string, error) {
-	if ( conn.hasBeenClosed) {
+	if conn.hasBeenClosed {
 		var ans []string
 		return ans, errClosed
 	}
-	plist := make ([]string,0)
+	plist := make([]string, 0)
 
-	trace("%s: Peers(), calling updateClusterInfo()",conn.ID)
+	trace("%s: Peers(), calling updateClusterInfo()", conn.ID)
 	err := conn.updateClusterInfo()
-	if ( err != nil ) {
-		trace("%s: Peers() got error from updateClusterInfo(): %s",conn.ID,err.Error())
+	if err != nil {
+		trace("%s: Peers() got error from updateClusterInfo(): %s", conn.ID, err.Error())
 		return plist, err
 	} else {
-		trace("%s: Peers(), updateClusterInfo() OK",conn.ID)
+		trace("%s: Peers(), updateClusterInfo() OK", conn.ID)
 	}
-	plist = append(plist,conn.cluster.leader.String())
+	plist = append(plist, conn.cluster.leader.String())
 	for _, p := range conn.cluster.otherPeers {
-		plist = append(plist,p.String())
+		plist = append(plist, p.String())
 	}
 	return plist, nil
 }
@@ -148,15 +147,15 @@ func (conn *Connection) Peers() ([]string, error) {
  * *****************************************************************/
 
 func (conn *Connection) SetConsistencyLevel(levelDesired string) error {
-	if ( conn.hasBeenClosed) {
+	if conn.hasBeenClosed {
 		return errClosed
 	}
 	_, ok := consistencyLevels[levelDesired]
-	if ( ok  ) {
+	if ok {
 		conn.consistencyLevel = consistencyLevels[levelDesired]
 		return nil
 	}
-	return errors.New(fmt.Sprintf("unknown consistency level: %s",levelDesired))
+	return errors.New(fmt.Sprintf("unknown consistency level: %s", levelDesired))
 }
 
 /* *****************************************************************
@@ -204,21 +203,21 @@ func (conn *Connection) initConnection(url string) error {
 
 	// do some sanity checks.  You know users.
 
-	if ( len(url) < 7 ) {
+	if len(url) < 7 {
 		return errors.New("url specified is impossibly short")
 	}
 
-	if ( strings.HasPrefix(url,"http") == false ) {
+	if strings.HasPrefix(url, "http") == false {
 		return errors.New("url does not start with 'http'")
 	}
 
 	u, err := nurl.Parse(url)
-	if ( err != nil ) {
+	if err != nil {
 		return err
 	}
-	trace("%s: net.url.Parse() OK",conn.ID)
+	trace("%s: net.url.Parse() OK", conn.ID)
 
-	if ( u.Scheme == "https" ) {
+	if u.Scheme == "https" {
 		conn.wantsHTTPS = true
 	}
 
@@ -233,27 +232,27 @@ func (conn *Connection) initConnection(url string) error {
 
 		// not guaranteed, so test if set
 		pass, isset := u.User.Password()
-		if ( isset ) {
+		if isset {
 			conn.password = pass
 		} else {
 			conn.password = ""
 		}
 	}
 
-	if ( u.Host == "" ) {
+	if u.Host == "" {
 		conn.cluster.leader.hostname = "localhost"
 	} else {
 		conn.cluster.leader.hostname = u.Host
 	}
 
-	if ( u.Host == "" ) {
+	if u.Host == "" {
 		conn.cluster.leader.hostname = "localhost"
 		conn.cluster.leader.port = "4001"
 	} else {
 		// SplitHostPort() should only return an error if there is no host port.
 		// I think.
 		h, p, err := net.SplitHostPort(u.Host)
-		if ( err != nil ) {
+		if err != nil {
 			conn.cluster.leader.hostname = u.Host
 		} else {
 			conn.cluster.leader.hostname = h
@@ -263,41 +262,39 @@ func (conn *Connection) initConnection(url string) error {
 
 	/*
 
-	at the moment, the only allowed query is "level=" with 
-	the desired consistency level
+		at the moment, the only allowed query is "level=" with
+		the desired consistency level
 
 	*/
 
 	// default
 	conn.consistencyLevel = cl_WEAK
 
-	if ( u.RawQuery != "" ) {
-		if ( u.RawQuery == "level=weak") {
+	if u.RawQuery != "" {
+		if u.RawQuery == "level=weak" {
 			// that's ok but nothing to do
-		} else if ( u.RawQuery == "level=strong" ) {
+		} else if u.RawQuery == "level=strong" {
 			conn.consistencyLevel = cl_STRONG
-		} else if ( u.RawQuery == "level=none" ) { // the fools!
+		} else if u.RawQuery == "level=none" { // the fools!
 			conn.consistencyLevel = cl_NONE
 		} else {
 			return errors.New("don't know what to do with this query: " + u.RawQuery)
 		}
 	}
 
-	trace("%s: parseDefaultPeer() is done:",conn.ID)
-	if ( conn.wantsHTTPS == true ) {
-		trace("%s:    %s -> %s",conn.ID,"wants https?","yes")
+	trace("%s: parseDefaultPeer() is done:", conn.ID)
+	if conn.wantsHTTPS == true {
+		trace("%s:    %s -> %s", conn.ID, "wants https?", "yes")
 	} else {
-		trace("%s:    %s -> %s",conn.ID,"wants https?","no")
+		trace("%s:    %s -> %s", conn.ID, "wants https?", "no")
 	}
-	trace("%s:    %s -> %s",conn.ID,"username",conn.username)
-	trace("%s:    %s -> %s",conn.ID,"password",conn.password)
-	trace("%s:    %s -> %s",conn.ID,"hostname",conn.cluster.leader.hostname)
-	trace("%s:    %s -> %s",conn.ID,"port",conn.cluster.leader.port)
-	trace("%s:    %s -> %s",conn.ID,"consistencyLevel",consistencyLevelNames[conn.consistencyLevel])
+	trace("%s:    %s -> %s", conn.ID, "username", conn.username)
+	trace("%s:    %s -> %s", conn.ID, "password", conn.password)
+	trace("%s:    %s -> %s", conn.ID, "hostname", conn.cluster.leader.hostname)
+	trace("%s:    %s -> %s", conn.ID, "port", conn.cluster.leader.port)
+	trace("%s:    %s -> %s", conn.ID, "consistencyLevel", consistencyLevelNames[conn.consistencyLevel])
 
 	conn.cluster.conn = conn
 
 	return nil
 }
-
-

gorqlite.go

@@ -10,7 +10,7 @@
 
 	Learn more about rqlite at: https://github.com/rqlite/rqlite
 
- */
+*/
 package gorqlite
 
 /*
@@ -33,16 +33,19 @@ import "strings"
  * *****************************************************************/
 
 type consistencyLevel int
+
 const (
 	cl_NONE consistencyLevel = iota
 	cl_WEAK
 	cl_STRONG
 )
+
 // used in several places, actually
 var consistencyLevelNames map[consistencyLevel]string
 var consistencyLevels map[string]consistencyLevel
 
 type apiOperation int
+
 const (
 	api_QUERY apiOperation = iota
 	api_STATUS
@@ -56,7 +59,7 @@ const (
  * *****************************************************************/
 
 func init() {
-  traceOut = ioutil.Discard
+	traceOut = ioutil.Discard
 
 	consistencyLevelNames = make(map[consistencyLevel]string)
 	consistencyLevelNames[cl_NONE] = "none"
@@ -70,7 +73,6 @@ func init() {
 
 }
 
-
 /* *****************************************************************
 Open() creates and returns a "connection" to rqlite.
 
@@ -99,7 +101,7 @@ func Open(connURL string) (Connection, error) {
 		return conn, err
 	}
 	conn.ID = fmt.Sprintf("%X-%X-%X-%X-%X", b[0:4], b[4:6], b[6:8], b[8:10], b[10:])
-	trace("%s: Open() called for url: %s",conn.ID,connURL)
+	trace("%s: Open() called for url: %s", conn.ID, connURL)
 
 	// set defaults
 	conn.timeout = 10
@@ -107,7 +109,7 @@ func Open(connURL string) (Connection, error) {
 
 	// parse the URL given
 	err = conn.initConnection(connURL)
-	if ( err != nil ) {
+	if err != nil {
 		return conn, err
 	}
 
@@ -146,7 +148,7 @@ func Open(connURL string) (Connection, error) {
 
 func trace(pattern string, args ...interface{}) {
 	// don't do the probably expensive Sprintf() if not needed
-	if ( wantsTrace == false ) {
+	if wantsTrace == false {
 		return
 	}
 
@@ -156,8 +158,8 @@ func trace(pattern string, args ...interface{}) {
 
 	// make sure there is one and only one newline
 	nlPattern := strings.TrimSpace(pattern) + "\n"
-	msg := fmt.Sprintf(nlPattern,args...)
-	traceOut.Write( []byte( msg ) )
+	msg := fmt.Sprintf(nlPattern, args...)
+	traceOut.Write([]byte(msg))
 }
 
 /*

query.go

@@ -91,12 +91,12 @@ QueryOne() is a convenience method that wraps Query() into a single-statement
 method.
 */
 func (conn *Connection) QueryOne(sqlStatement string) (qr QueryResult, err error) {
-  if ( conn.hasBeenClosed) {
+	if conn.hasBeenClosed {
 		qr.Err = errClosed
 		return qr, errClosed
-  }
-	sqlStatements := make([]string,0)
-	sqlStatements = append(sqlStatements,sqlStatement)
+	}
+	sqlStatements := make([]string, 0)
+	sqlStatements = append(sqlStatements, sqlStatement)
 	qra, err := conn.Query(sqlStatements)
 	return qra[0], err
 }
@@ -107,35 +107,35 @@ Query() is used to perform SELECT operations in the database.
 It takes an array of SQL statements and executes them in a single transaction, returning an array of QueryResult vars.
 */
 func (conn *Connection) Query(sqlStatements []string) (results []QueryResult, err error) {
-	results = make([]QueryResult,0)
+	results = make([]QueryResult, 0)
 
-  if ( conn.hasBeenClosed) {
+	if conn.hasBeenClosed {
 		var errResult QueryResult
 		errResult.Err = errClosed
-		results = append(results,errResult)
-    return results, errClosed
-  }
-	trace("%s: Query() for %d statements",conn.ID,len(sqlStatements))
+		results = append(results, errResult)
+		return results, errClosed
+	}
+	trace("%s: Query() for %d statements", conn.ID, len(sqlStatements))
 
 	// if we get an error POSTing, that's a showstopper
-	response, err := conn.rqliteApiPost(api_QUERY,sqlStatements)
-	if ( err != nil ) { 
-		trace("%s: rqliteApiCall() ERROR: %s",conn.ID,err.Error())
+	response, err := conn.rqliteApiPost(api_QUERY, sqlStatements)
+	if err != nil {
+		trace("%s: rqliteApiCall() ERROR: %s", conn.ID, err.Error())
 		var errResult QueryResult
 		errResult.Err = err
-		results = append(results,errResult)
+		results = append(results, errResult)
 		return results, err
 	}
-	trace("%s: rqliteApiCall() OK",conn.ID)
+	trace("%s: rqliteApiCall() OK", conn.ID)
 
 	// if we get an error Unmarshaling, that's a showstopper
 	var sections map[string]interface{}
-	err = json.Unmarshal(response,&sections)
-	if ( err != nil ) { 
-		trace("%s: json.Unmarshal() ERROR: %s",conn.ID,err.Error())
+	err = json.Unmarshal(response, &sections)
+	if err != nil {
+		trace("%s: json.Unmarshal() ERROR: %s", conn.ID, err.Error())
 		var errResult QueryResult
 		errResult.Err = err
-		results = append(results,errResult)
+		results = append(results, errResult)
 		return results, err
 	}
 
@@ -145,11 +145,11 @@ func (conn *Connection) Query(sqlStatements []string) (results []QueryResult, er
 	*/
 
 	resultsArray := sections["results"].([]interface{})
-	trace("%s: I have %d result(s) to parse",conn.ID,len(resultsArray))
+	trace("%s: I have %d result(s) to parse", conn.ID, len(resultsArray))
 
 	numStatementErrors := 0
 	for n, r := range resultsArray {
-		trace("%s: parsing result %d",conn.ID,n)
+		trace("%s: parsing result %d", conn.ID, n)
 		var thisQR QueryResult
 		thisQR.conn = conn
 
@@ -159,9 +159,9 @@ func (conn *Connection) Query(sqlStatements []string) (results []QueryResult, er
 		// did we get an error?
 		_, ok := thisResult["error"]
 		if ok {
-			trace("%s: have an error on this result: %s",conn.ID,thisResult["error"].(string))
+			trace("%s: have an error on this result: %s", conn.ID, thisResult["error"].(string))
 			thisQR.Err = errors.New(thisResult["error"].(string))
-			results = append(results,thisQR)
+			results = append(results, thisQR)
 			numStatementErrors++
 			continue
 		}
@@ -172,28 +172,28 @@ func (conn *Connection) Query(sqlStatements []string) (results []QueryResult, er
 		// column & type are an array of strings
 		c := thisResult["columns"].([]interface{})
 		t := thisResult["types"].([]interface{})
-		for i := 0; i < len(c) ; i++ {
-			thisQR.columns = append(thisQR.columns,c[i].(string))
-			thisQR.types = append(thisQR.types,t[i].(string))
+		for i := 0; i < len(c); i++ {
+			thisQR.columns = append(thisQR.columns, c[i].(string))
+			thisQR.types = append(thisQR.types, t[i].(string))
 		}
 
 		// and values are an array of arrays
-		if ( thisResult["values"] != nil ) {
+		if thisResult["values"] != nil {
 			thisQR.values = thisResult["values"].([]interface{})
 		} else {
-			trace("%s: fyi, no values this query",conn.ID)
+			trace("%s: fyi, no values this query", conn.ID)
 		}
 
 		thisQR.rowNumber = -1
 
-		trace("%s: this result (#col,time) %d %f",conn.ID,len(thisQR.columns),thisQR.Timing)
-		results = append(results,thisQR)
+		trace("%s: this result (#col,time) %d %f", conn.ID, len(thisQR.columns), thisQR.Timing)
+		results = append(results, thisQR)
 	}
 
-	trace("%s: finished parsing, returning %d results",conn.ID,len(results))
+	trace("%s: finished parsing, returning %d results", conn.ID, len(results))
 
-	if ( numStatementErrors > 0 ) {
-		return results, errors.New(fmt.Sprintf("there were %d statement errors",numStatementErrors))
+	if numStatementErrors > 0 {
+		return results, errors.New(fmt.Sprintf("there were %d statement errors", numStatementErrors))
 	} else {
 		return results, nil
 	}
@@ -217,12 +217,12 @@ then a QueryResult would hold any errors from that query, a list of columns and
 Query() returns an array of QueryResult vars, while QueryOne() returns a single variable.
 */
 type QueryResult struct {
-	conn *Connection
-	Err error
-	columns []string
-	types []string
-	Timing float64
-	values []interface{}
+	conn      *Connection
+	Err       error
+	columns   []string
+	types     []string
+	Timing    float64
+	values    []interface{}
 	rowNumber int64
 }
 
@@ -261,12 +261,12 @@ func (qr *QueryResult) Map() (map[string]interface{}, error) {
 	trace("%s: Map() called for row %d", qr.conn.ID, qr.rowNumber)
 	ans := make(map[string]interface{})
 
-	if ( qr.rowNumber == -1 ) {
+	if qr.rowNumber == -1 {
 		return ans, errors.New("you need to Next() before you Map(), sorry, it's complicated")
 	}
 
-	thisRowValues := qr.values[qr.rowNumber].([]interface {})
-	for i := 0; i<len(qr.columns); i++ {
+	thisRowValues := qr.values[qr.rowNumber].([]interface{})
+	for i := 0; i < len(qr.columns); i++ {
 		ans[qr.columns[i]] = thisRowValues[i]
 	}
 
@@ -293,7 +293,7 @@ A common idiom:
 	}
 */
 func (qr *QueryResult) Next() bool {
-	if ( qr.rowNumber >= int64(len(qr.values) - 1 )) {
+	if qr.rowNumber >= int64(len(qr.values)-1) {
 		return false
 	}
 
@@ -346,31 +346,31 @@ are a subset of the types JSON uses:
 booleans, JSON arrays, and JSON objects are not supported,
 since sqlite does not support them.
 */
-func (qr *QueryResult) Scan(dest... interface{}) error {
-	trace("%s: Scan() called for %d vars", qr.conn.ID,len(dest))
+func (qr *QueryResult) Scan(dest ...interface{}) error {
+	trace("%s: Scan() called for %d vars", qr.conn.ID, len(dest))
 
-	if ( qr.rowNumber == -1 ) {
+	if qr.rowNumber == -1 {
 		return errors.New("you need to Next() before you Scan(), sorry, it's complicated")
 	}
 
-	if ( len(dest) != len(qr.columns) ) {
+	if len(dest) != len(qr.columns) {
 		return errors.New(fmt.Sprintf("expected %d columns but got %d vars\n", len(qr.columns), len(dest)))
 	}
 
-	thisRowValues := qr.values[qr.rowNumber].([]interface {})
+	thisRowValues := qr.values[qr.rowNumber].([]interface{})
 	for n, d := range dest {
 		switch d.(type) {
-			case *int64:
-				f := int64(thisRowValues[n].(float64))
-				*d.(*int64) = f
-			case *float64:
-				f := float64(thisRowValues[n].(float64))
-				*d.(*float64) = f
-			case *string:
-				s := string(thisRowValues[n].(string))
-				*d.(*string) = s
-			default:
-				return errors.New(fmt.Sprintf("unknown destination type to scan into in variable #%d",n))
+		case *int64:
+			f := int64(thisRowValues[n].(float64))
+			*d.(*int64) = f
+		case *float64:
+			f := float64(thisRowValues[n].(float64))
+			*d.(*float64) = f
+		case *string:
+			s := string(thisRowValues[n].(string))
+			*d.(*string) = s
+		default:
+			return errors.New(fmt.Sprintf("unknown destination type to scan into in variable #%d", n))
 		}
 	}
 
@@ -393,4 +393,3 @@ This info may additionally conflict with the reality that your data is being JSO
 func (qr *QueryResult) Types() []string {
 	return qr.types
 }
-

query_test.go

@@ -2,7 +2,7 @@ package gorqlite
 
 import "testing"
 
-func TestQueryOne (t *testing.T) {
+func TestQueryOne(t *testing.T) {
 	var wr WriteResult
 	var qr QueryResult
 	var wResults []WriteResult
@@ -11,59 +11,59 @@ func TestQueryOne (t *testing.T) {
 
 	t.Logf("trying Open")
 	conn, err := Open(testUrl())
-	if ( err != nil ) {
+	if err != nil {
 		t.Logf("--> FATAL")
 		t.Fatal()
 	}
 
 	t.Logf("trying WriteOne DROP")
 	wr, err = conn.WriteOne("DROP TABLE IF EXISTS " + testTableName())
-	if ( err != nil ) {
+	if err != nil {
 		t.Logf("--> FATAL")
 		t.Fatal()
 	}
 
 	t.Logf("trying WriteOne CREATE")
 	wr, err = conn.WriteOne("CREATE TABLE " + testTableName() + " (id integer, name text)")
-	if ( err != nil ) {
+	if err != nil {
 		t.Logf("--> FATAL")
 		t.Fatal()
 	}
 
 	t.Logf("trying Write INSERT")
-	s := make([]string,0)
-	s = append(s,"INSERT INTO " + testTableName() + " (id, name) VALUES ( 1, 'Romulan' )")
-	s = append(s,"INSERT INTO " + testTableName() + " (id, name) VALUES ( 2, 'Vulcan' )")
-	s = append(s,"INSERT INTO " + testTableName() + " (id, name) VALUES ( 3, 'Klingon' )")
-	s = append(s,"INSERT INTO " + testTableName() + " (id, name) VALUES ( 4, 'Ferengi' )")
-	s = append(s,"INSERT INTO " + testTableName() + " (id, name) VALUES ( 5, 'Cardassian' )")
+	s := make([]string, 0)
+	s = append(s, "INSERT INTO "+testTableName()+" (id, name) VALUES ( 1, 'Romulan' )")
+	s = append(s, "INSERT INTO "+testTableName()+" (id, name) VALUES ( 2, 'Vulcan' )")
+	s = append(s, "INSERT INTO "+testTableName()+" (id, name) VALUES ( 3, 'Klingon' )")
+	s = append(s, "INSERT INTO "+testTableName()+" (id, name) VALUES ( 4, 'Ferengi' )")
+	s = append(s, "INSERT INTO "+testTableName()+" (id, name) VALUES ( 5, 'Cardassian' )")
 	wResults, err = conn.Write(s)
-	if ( err != nil ) {
+	if err != nil {
 		t.Logf("--> FATAL")
 		t.Fatal()
 	}
 
 	t.Logf("trying QueryOne")
 	qr, err = conn.QueryOne("SELECT name FROM " + testTableName() + " WHERE id > 3")
-	if ( err != nil ) {
+	if err != nil {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
 
 	t.Logf("trying Next()")
 	na := qr.Next()
-	if ( na != true ) {
+	if na != true {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
 
 	t.Logf("trying Map()")
 	r, err := qr.Map()
-	if ( err != nil ) {
+	if err != nil {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
-	if ( r["name"].(string) != "Ferengi" ) {
+	if r["name"].(string) != "Ferengi" {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
@@ -71,30 +71,30 @@ func TestQueryOne (t *testing.T) {
 	t.Logf("trying Scan(), also float64->int64 in Scan()")
 	var id int64
 	var name string
-	err = qr.Scan(&id,&name)
-	if ( err == nil ) {
-		t.Logf("--> FAILED (%s)",err.Error())
+	err = qr.Scan(&id, &name)
+	if err == nil {
+		t.Logf("--> FAILED (%s)", err.Error())
 		t.Fail()
 	}
 	err = qr.Scan(&name)
-	if ( err != nil ) {
-		t.Logf("--> FAILED (%s)",err.Error())
+	if err != nil {
+		t.Logf("--> FAILED (%s)", err.Error())
 		t.Fail()
 	}
-	if ( name != "Ferengi" ) {
-		t.Logf("--> FAILED, name should be 'Ferengi' but it's '%s'",name)
+	if name != "Ferengi" {
+		t.Logf("--> FAILED, name should be 'Ferengi' but it's '%s'", name)
 		t.Fail()
 	}
 	qr.Next()
 	err = qr.Scan(&name)
-	if ( name != "Cardassian" ) {
+	if name != "Cardassian" {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
 
 	t.Logf("trying WriteOne DROP")
 	wr, err = conn.WriteOne("DROP TABLE IF EXISTS " + testTableName() + "")
-	if ( err != nil ) {
+	if err != nil {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
@@ -104,18 +104,18 @@ func TestQueryOne (t *testing.T) {
 
 	t.Logf("trying WriteOne after Close")
 	wr, err = conn.WriteOne("DROP TABLE IF EXISTS " + testTableName() + "")
-	if ( err == nil ) {
+	if err == nil {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
 	_ = wr
 
 	t.Logf("trying Write after Close")
-	t1 := make([]string,0)
-	t1 = append(t1,"DROP TABLE IF EXISTS " + testTableName() + "")
-	t1 = append(t1,"DROP TABLE IF EXISTS " + testTableName() + "")
+	t1 := make([]string, 0)
+	t1 = append(t1, "DROP TABLE IF EXISTS "+testTableName()+"")
+	t1 = append(t1, "DROP TABLE IF EXISTS "+testTableName()+"")
 	wResults, err = conn.Write(t1)
-	if ( err == nil ) {
+	if err == nil {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
@@ -123,24 +123,22 @@ func TestQueryOne (t *testing.T) {
 
 	t.Logf("trying QueryOne after Close")
 	qr, err = conn.QueryOne("SELECT id FROM " + testTableName() + "")
-	if ( err == nil ) {
+	if err == nil {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
 	_ = qr
 
 	t.Logf("trying Query after Close")
-	t2 := make([]string,0)
-	t2 = append(t2,"SELECT id FROM " + testTableName() + "")
-	t2 = append(t2,"SELECT name FROM " + testTableName() + "")
-	t2 = append(t2,"SELECT id,name FROM " + testTableName() + "")
+	t2 := make([]string, 0)
+	t2 = append(t2, "SELECT id FROM "+testTableName()+"")
+	t2 = append(t2, "SELECT name FROM "+testTableName()+"")
+	t2 = append(t2, "SELECT id,name FROM "+testTableName()+"")
 	qResults, err = conn.Query(t2)
-	if ( err == nil ) {
+	if err == nil {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
 	_ = qResults
 
-	
 }
-

util_test.go

@@ -8,7 +8,7 @@ import "os"
 
 func testUrl() string {
 	url := os.Getenv("GORQLITE_TEST_URL")
-	if ( url == "" ) {
+	if url == "" {
 		url = "http://"
 	}
 	return url
@@ -16,10 +16,8 @@ func testUrl() string {
 
 func testTableName() string {
 	tableName := os.Getenv("GORQLITE_TEST_TABLE")
-	if ( tableName == "" ) {
+	if tableName == "" {
 		tableName = "gorqlite_test"
 	}
 	return tableName
 }
-
-

write.go

@@ -58,13 +58,13 @@ method.
 */
 
 func (conn *Connection) WriteOne(sqlStatement string) (wr WriteResult, err error) {
-  if ( conn.hasBeenClosed) {
+	if conn.hasBeenClosed {
 		wr.Err = errClosed
 		return wr, errClosed
-  }
-	sqlStatements := make([]string,0)
-	sqlStatements = append(sqlStatements,sqlStatement)
-	wra , err := conn.Write(sqlStatements)
+	}
+	sqlStatements := make([]string, 0)
+	sqlStatements = append(sqlStatements, sqlStatement)
+	wra, err := conn.Write(sqlStatements)
 	return wra[0], err
 }
 
@@ -78,34 +78,34 @@ All statements are executed as a single transaction.
 Write() returns an error if one is encountered during its operation.  If it's something like a call to the rqlite API, then it'll return that error.  If one statement out of several has an error, it will return a generic "there were %d statement errors" and you'll have to look at the individual statement's Err for more info.
 */
 func (conn *Connection) Write(sqlStatements []string) (results []WriteResult, err error) {
-	results = make([]WriteResult,0)
+	results = make([]WriteResult, 0)
 
-  if ( conn.hasBeenClosed) {
+	if conn.hasBeenClosed {
 		var errResult WriteResult
 		errResult.Err = errClosed
-		results = append(results,errResult)
+		results = append(results, errResult)
 		return results, errClosed
-  }
+	}
 
-	trace("%s: Write() for %d statements",conn.ID,len(sqlStatements))
+	trace("%s: Write() for %d statements", conn.ID, len(sqlStatements))
 
-	response, err := conn.rqliteApiPost(api_WRITE,sqlStatements)
-	if ( err != nil ) { 
-		trace("%s: rqliteApiCall() ERROR: %s",conn.ID,err.Error())
+	response, err := conn.rqliteApiPost(api_WRITE, sqlStatements)
+	if err != nil {
+		trace("%s: rqliteApiCall() ERROR: %s", conn.ID, err.Error())
 		var errResult WriteResult
 		errResult.Err = err
-		results = append(results,errResult)
+		results = append(results, errResult)
 		return results, err
 	}
-	trace("%s: rqliteApiCall() OK",conn.ID)
+	trace("%s: rqliteApiCall() OK", conn.ID)
 
 	var sections map[string]interface{}
-	err = json.Unmarshal(response,&sections)
-	if ( err != nil ) { 
-		trace("%s: json.Unmarshal() ERROR: %s",conn.ID,err.Error())
+	err = json.Unmarshal(response, &sections)
+	if err != nil {
+		trace("%s: json.Unmarshal() ERROR: %s", conn.ID, err.Error())
 		var errResult WriteResult
 		errResult.Err = err
-		results = append(results,errResult)
+		results = append(results, errResult)
 		return results, err
 	}
 
@@ -115,10 +115,10 @@ func (conn *Connection) Write(sqlStatements []string) (results []WriteResult, er
 	*/
 
 	resultsArray := sections["results"].([]interface{})
-	trace("%s: I have %d result(s) to parse",conn.ID,len(resultsArray))
+	trace("%s: I have %d result(s) to parse", conn.ID, len(resultsArray))
 	numStatementErrors := 0
 	for n, k := range resultsArray {
-		trace("%s: starting on result %d",conn.ID,n)
+		trace("%s: starting on result %d", conn.ID, n)
 		thisResult := k.(map[string]interface{})
 
 		var thisWR WriteResult
@@ -127,9 +127,9 @@ func (conn *Connection) Write(sqlStatements []string) (results []WriteResult, er
 		// did we get an error?
 		_, ok := thisResult["error"]
 		if ok {
-			trace("%s: have an error on this result: %s",conn.ID,thisResult["error"].(string))
+			trace("%s: have an error on this result: %s", conn.ID, thisResult["error"].(string))
 			thisWR.Err = errors.New(thisResult["error"].(string))
-			results = append(results,thisWR)
+			results = append(results, thisWR)
 			numStatementErrors += 1
 			continue
 		}
@@ -145,14 +145,14 @@ func (conn *Connection) Write(sqlStatements []string) (results []WriteResult, er
 		}
 		thisWR.Timing = thisResult["time"].(float64)
 
-		trace("%s: this result (LII,RA,T): %d %d %f",conn.ID,thisWR.LastInsertID,thisWR.RowsAffected,thisWR.Timing)
-		results = append(results,thisWR)
+		trace("%s: this result (LII,RA,T): %d %d %f", conn.ID, thisWR.LastInsertID, thisWR.RowsAffected, thisWR.Timing)
+		results = append(results, thisWR)
 	}
 
-	trace("%s: finished parsing, returning %d results",conn.ID,len(results))
+	trace("%s: finished parsing, returning %d results", conn.ID, len(results))
 
-	if ( numStatementErrors > 0 ) {
-		return results, errors.New(fmt.Sprintf("there were %d statement errors",numStatementErrors))
+	if numStatementErrors > 0 {
+		return results, errors.New(fmt.Sprintf("there were %d statement errors", numStatementErrors))
 	} else {
 		return results, nil
 	}
@@ -170,10 +170,9 @@ A WriteResult holds the result of a single statement sent to Write().
 Write() returns an array of WriteResult vars, while WriteOne() returns a single WriteResult.
 */
 type WriteResult struct {
-	Err error // don't trust the rest if this isn't nil
-	Timing float64
+	Err          error // don't trust the rest if this isn't nil
+	Timing       float64
 	RowsAffected int64 // affected by the change
 	LastInsertID int64 // if relevant, otherwise zero value
-	conn *Connection
+	conn         *Connection
 }
-

write_test.go

@@ -1,108 +1,108 @@
 package gorqlite
 
 import "testing"
+
 // import "os"
 
-func TestWriteOne (t *testing.T) {
+func TestWriteOne(t *testing.T) {
 	var wr WriteResult
 	var err error
 
 	t.Logf("trying Open")
 	conn, err := Open(testUrl())
-	if ( err != nil ) {
+	if err != nil {
 		t.Logf("--> FATAL")
 		t.Fatal(err)
 	}
 
 	t.Logf("trying WriteOne DROP")
 	wr, err = conn.WriteOne("DROP TABLE IF EXISTS " + testTableName() + "")
-	if ( err != nil ) {
+	if err != nil {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
 
 	t.Logf("trying WriteOne CTHULHU (should fail, bad SQL)")
 	wr, err = conn.WriteOne("CTHULHU")
-	if ( err == nil ) {
+	if err == nil {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
 
 	t.Logf("trying WriteOne CREATE")
 	wr, err = conn.WriteOne("CREATE TABLE " + testTableName() + " (id integer, name text)")
-	if ( err != nil ) {
+	if err != nil {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
 
 	t.Logf("trying WriteOne INSERT")
 	wr, err = conn.WriteOne("INSERT INTO " + testTableName() + " (id, name) VALUES ( 1, 'aaa bbb ccc' )")
-	if ( err != nil ) {
+	if err != nil {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
 
 	t.Logf("checking WriteOne RowsAffected")
-	if ( wr.RowsAffected != 1 ) {
+	if wr.RowsAffected != 1 {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
 
 	t.Logf("trying WriteOne DROP")
 	wr, err = conn.WriteOne("DROP TABLE IF EXISTS " + testTableName() + "")
-	if ( err != nil ) {
+	if err != nil {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
 
 }
 
-func TestWrite (t *testing.T) {
+func TestWrite(t *testing.T) {
 	var results []WriteResult
 	var err error
 	var s []string
 
 	t.Logf("trying Open")
 	conn, err := Open(testUrl())
-	if ( err != nil ) {
+	if err != nil {
 		t.Logf("--> FATAL")
 		t.Fatal(err)
 	}
 
 	t.Logf("trying Write DROP & CREATE")
-	s = make([]string,0)
-	s = append(s, "DROP TABLE IF EXISTS " + testTableName() + "")
-	s = append(s, "CREATE TABLE " + testTableName() + " (id integer, name text)")
+	s = make([]string, 0)
+	s = append(s, "DROP TABLE IF EXISTS "+testTableName()+"")
+	s = append(s, "CREATE TABLE "+testTableName()+" (id integer, name text)")
 	results, err = conn.Write(s)
-	if ( err != nil ) {
+	if err != nil {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
 
 	t.Logf("trying Write INSERT")
-	s = make([]string,0)
-	s = append (s, "INSERT INTO " + testTableName() + " (id, name) VALUES ( 1, 'aaa bbb ccc' )")
-	s = append (s, "INSERT INTO " + testTableName() + " (id, name) VALUES ( 2, 'ddd eee fff' )")
-	s = append (s, "INSERT INTO " + testTableName() + " (id, name) VALUES ( 3, 'ggg hhh iii' )")
-	s = append (s, "INSERT INTO " + testTableName() + " (id, name) VALUES ( 4, 'jjj kkk lll' )")
+	s = make([]string, 0)
+	s = append(s, "INSERT INTO "+testTableName()+" (id, name) VALUES ( 1, 'aaa bbb ccc' )")
+	s = append(s, "INSERT INTO "+testTableName()+" (id, name) VALUES ( 2, 'ddd eee fff' )")
+	s = append(s, "INSERT INTO "+testTableName()+" (id, name) VALUES ( 3, 'ggg hhh iii' )")
+	s = append(s, "INSERT INTO "+testTableName()+" (id, name) VALUES ( 4, 'jjj kkk lll' )")
 	results, err = conn.Write(s)
-	if ( err != nil ) {
+	if err != nil {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
-	if ( len(results) != 4 ) {
+	if len(results) != 4 {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
 
 	t.Logf("trying Write DROP")
-	s = make([]string,0)
-	s = append(s, "DROP TABLE IF EXISTS " + testTableName() + "")
+	s = make([]string, 0)
+	s = append(s, "DROP TABLE IF EXISTS "+testTableName()+"")
 	results, err = conn.Write(s)
-	if ( err != nil ) {
+	if err != nil {
 		t.Logf("--> FAILED")
 		t.Fail()
 	}
 
 }
-