func TestSqlDelete(t *testing.T) {
db := datasource.NewContextSimple()
user1 := map[string]value.Value{
"user_id": value.NewIntValue(5),
"item_count": value.NewStringValue("5"),
"bval": value.NewBoolValue(true),
"bvalf": value.NewBoolValue(false),
"reg_date": value.NewStringValue("2014/11/01"),
"name": value.NewStringValue("bob")}
db.Insert(user1)
user2 := map[string]value.Value{
"user_id": value.NewIntValue(6),
"item_count": value.NewStringValue("5"),
"reg_date": value.NewStringValue("2012/11/01"),
"name": value.NewStringValue("allison")}
db.Insert(user2)
assert.Tf(t, len(db.Rows) == 2, "has 2 users")
verifySqlDelete(t, `
DELETE FROM mytable
WHERE yy(reg_date) == 14
`, db)
assert.Tf(t, len(db.Rows) == 1, "must have 1 rows: %v %v", len(db.Rows), db.Rows)
assert.Tf(t, db.Rows[0]["name"].ToString() == "allison", "%v", db.Rows)
}
func TestBuiltins(t *testing.T) {
for _, biTest := range builtinTests {
writeContext := datasource.NewContextSimple()
//u.Debugf("expr: %v", biTest.expr)
exprVm, err := vm.NewVm(biTest.expr)
assert.Tf(t, err == nil, "parse err: %v on %s", err, biTest.expr)
err = exprVm.Execute(writeContext, readContext)
if biTest.val.Err() {
assert.Tf(t, err != nil, "%v expected err: %v", biTest.expr, err)
} else {
tval := biTest.val
assert.Tf(t, err == nil, "not nil err: %s %v", biTest.expr, err)
val, ok := writeContext.Get("")
assert.Tf(t, ok, "Not ok Get? %#v", writeContext)
//u.Debugf("Type: %T %T", val, tval.Value)
switch testVal := biTest.val.(type) {
case value.StringsValue:
//u.Infof("Sweet, is StringsValue:")
sa := tval.(value.StringsValue).Value().([]string)
sb := val.Value().([]string)
sort.Strings(sa)
sort.Strings(sb)
assert.Tf(t, strings.Join(sa, ",") == strings.Join(sb, ","),
"should be == expect %v but was %v %v", tval.Value(), val.Value(), biTest.expr)
case value.MapValue:
if len(testVal.Val()) == 0 {
// we didn't expect it to work?
_, ok := val.(value.MapValue)
assert.Tf(t, !ok, "Was able to convert to mapvalue but should have failed %#v", val)
} else {
mv, ok := val.(value.MapValue)
assert.Tf(t, ok, "Was able to convert to mapvalue: %#v", val)
//u.Debugf("mv: %T %v", mv, val)
assert.Tf(t, len(testVal.Val()) == len(mv.Val()), "Should have same size maps")
mivals := mv.Val()
for k, v := range testVal.Val() {
valVal := mivals[k]
//u.Infof("k:%v v:%v valval:%v", k, v.Value(), valVal.Value())
assert.Equalf(t, valVal.Value(), v.Value(), "Must have found k/v: %v \n\t%#v \n\t%#v", k, v, valVal)
}
}
default:
assert.Tf(t, val.Value() == tval.Value(),
"should be == expect %v but was %v %v", tval.Value(), val.Value(), biTest.expr)
}
}
}
}
func TestRunExpr(t *testing.T) {
for _, test := range vmTests {
if *NameMatch != "" && !strings.Contains(test.name, *NameMatch) {
continue
}
//u.Debugf("about to parse: %v", test.qlText)
exprVm, err := NewVm(test.qlText)
//u.Infof("After Parse: %v err=%v", test.qlText, err)
switch {
case err == nil && !test.parseok:
t.Errorf("%q: 1 expected error; got none", test.name)
continue
case err != nil && test.parseok:
t.Errorf("%q: 2 unexpected error: %v", test.name, err)
continue
case err != nil && !test.parseok:
// expected error, got one
if testing.Verbose() {
u.Infof("%s: %s\n\t%s", test.name, test.qlText, err)
}
continue
}
writeContext := datasource.NewContextSimple()
err = exprVm.Execute(writeContext, test.context)
if exprVm.Tree != nil && exprVm.Tree.Root != nil {
//Eval(writeContext, exprVm.Tree.Root)
}
results, _ := writeContext.Get("")
//u.Infof("results: %T %v err=%v", results, results, err)
if err != nil && test.evalok {
t.Errorf("\n%s -- %v: \n\t%v\nexpected\n\t'%v'", test.name, test.qlText, results, test.result)
}
if test.result == nil && results != nil {
t.Errorf("%s - should have nil result, but got: %v", test.name, results)
continue
}
if test.result != nil && results == nil {
t.Errorf("%s - should have non-nil result but was nil", test.name)
continue
}
//u.Infof("results=%T %#v", results, results)
if test.result != nil && results.Value() != test.result {
t.Fatalf("\n%s -- %v: \n\t%v--%T\nexpected\n\t%v--%T", test.name, test.qlText, results.Value(), results.Value(), test.result, test.result)
} else if test.result == nil {
// we expected nil
}
}
}
func verifySqlWrite(t *testing.T, sql string) *datasource.ContextSimple {
sqlVm, err := NewSqlVm(sql)
assert.Tf(t, err == nil, "Should not err %v", err)
assert.Tf(t, sqlVm != nil, "Should create vm & parse sql %v", sqlVm)
writeContext := datasource.NewContextSimple()
err = sqlVm.ExecuteInsert(writeContext)
assert.Tf(t, err == nil, "non nil err: %v", err)
return writeContext
}
func runParse(repeat int, sql string, readContext expr.ContextReader) {
for i := 0; i < repeat; i++ {
sqlVm, err := expr.ParseSqlVm(sql)
if err != nil {
panic(err.Error())
}
sel := sqlVm.(*expr.SqlSelect)
writeContext := datasource.NewContextSimple()
_, err = vm.EvalSql(sel, writeContext, readContext)
if err != nil {
panic(err.Error())
}
}
}
func verifyBenchmarkSql(t *testing.B, sql string, readContext datasource.ContextReader) *datasource.ContextSimple {
sqlVm, err := NewSqlVm(sql)
if err != nil {
t.Fail()
}
writeContext := datasource.NewContextSimple()
err = sqlVm.Execute(writeContext, readContext)
if err != nil {
t.Fail()
}
return writeContext
}
func verifySql(t *testing.T, sql string, readrows []datasource.ContextReader) *datasource.ContextSimple {
sqlVm, err := NewSqlVm(sql)
assert.Tf(t, err == nil, "Should not err %v", err)
assert.Tf(t, sqlVm != nil, "Should create vm & parse sql %v", sqlVm)
writeContext := datasource.NewContextSimple()
for _, row := range readrows {
err = sqlVm.Execute(writeContext, row)
assert.Tf(t, err == nil, "non nil err: %v", err)
}
return writeContext
}
func BenchmarkVmExecuteNoParse(b *testing.B) {
readContext := datasource.NewContextSimpleData(
map[string]value.Value{
"int5": value.NewIntValue(5),
"item_count": value.NewStringValue("5"),
"reg_date": value.NewStringValue("2014/11/01"),
"user_id": value.NewStringValue("abc")},
)
sqlVm, err := NewSqlVm(bmSql[0])
if err != nil {
b.Fail()
}
writeContext := datasource.NewContextSimple()
b.ReportAllocs()
b.StartTimer()
for i := 0; i < b.N; i++ {
err = sqlVm.Execute(writeContext, readContext)
if err != nil {
b.Fail()
}
}
}
func TestFilterQlVm(t *testing.T) {
t.Parallel()
t1, _ := dateparse.ParseAny("12/18/2015")
//u.Infof("t1 %v", t1)
nminus1 := time.Now().Add(time.Hour * -1)
tr := true
user := &User{
Name: "Yoda",
Created: t1,
Updated: &nminus1,
Authenticated: true,
HasSession: &tr,
Address: Address{"Detroit", 55},
Roles: []string{"admin", "api"},
BankAmount: 55.5,
}
readers := []expr.ContextReader{
datasource.NewContextWrapper(user),
datasource.NewContextSimpleNative(map[string]interface{}{
"city": "Peoria, IL",
"zip": 5,
}),
}
nc := datasource.NewNestedContextReader(readers, time.Now())
hits := []string{
`FILTER name == "Yoda"`, // upper case sensitive name
`FILTER name != "yoda"`, // we should be case-sensitive by default
`FILTER name = "Yoda"`, // is equivalent to ==
`FILTER "Yoda" == name`, // reverse order of identity/value
`FILTER name != "Anakin"`, // negation on missing fields == true
`FILTER first_name != "Anakin"`, // key doesn't exist
`FILTER tolower(name) == "yoda"`, // use functions in evaluation
`FILTER FullName == "Yoda, Jedi"`, // use functions on structs in evaluation
`FILTER Address.City == "Detroit"`, // traverse struct with path.field
`FILTER name LIKE "*da"`, // LIKE
`FILTER name NOT LIKE "*kin"`, // LIKE Negation
`FILTER name CONTAINS "od"`, // Contains
`FILTER name NOT CONTAINS "kin"`, // Contains
`FILTER roles INTERSECTS ("user", "api")`, // Intersects
`FILTER roles NOT INTERSECTS ("user", "guest")`, // Intersects
`FILTER Created < "now-1d"`, // Date Math
`FILTER Updated > "now-2h"`, // Date Math
`FILTER *`, // match all
`FILTER OR (
EXISTS name, -- inline comments
EXISTS not_a_key, -- more inline comments
)`,
// show that line-breaks serve as expression separators
`FILTER OR (
EXISTS name
EXISTS not_a_key -- even if they have inline comments
)`,
//`FILTER a == "Yoda" AND b == "Peoria, IL" AND c == 5`,
`FILTER AND (name == "Yoda", city == "Peoria, IL", zip == 5, BankAmount > 50)`,
`FILTER AND (zip == 5, "Yoda" == name, OR ( city IN ( "Portland, OR", "New York, NY", "Peoria, IL" ) ) )`,
`FILTER OR (
EXISTS q,
AND (
zip > 0,
OR ( zip > 10000, zip < 100 )
),
NOT ( name == "Yoda" ) )`,
}
for _, q := range hits {
fs, err := rel.ParseFilterQL(q)
assert.Equal(t, nil, err)
match, err := NewFilterVm(nil).Matches(nc, fs)
assert.Equalf(t, nil, err, "error matching on query %q: %v", q, err)
assert.T(t, match, q)
}
misses := []string{
`FILTER name == "yoda"`, // casing
"FILTER OR (false, false, AND (true, false))",
`FILTER AND (name == "Yoda", city == "xxx", zip == 5)`,
}
for _, q := range misses {
fs, err := rel.ParseFilterQL(q)
assert.Equal(t, nil, err)
match, err := NewFilterVm(nil).Matches(nc, fs)
assert.Equal(t, nil, err)
assert.T(t, !match)
}
// Filter Select Statements
filterSelects := []fsel{
fsel{`select name, zip FROM mycontext FILTER name == "Yoda"`, map[string]interface{}{"name": "Yoda", "zip": 5}},
}
for _, test := range filterSelects {
//u.Debugf("about to parse: %v", test.qlText)
sel, err := rel.ParseFilterSelect(test.query)
assert.T(t, err == nil, "expected no error but got ", err, " for ", test.query)
writeContext := datasource.NewContextSimple()
_, err = EvalFilerSelect(sel, nil, writeContext, nc)
assert.T(t, err == nil, "expected no error but got ", err, " for ", test.query)
for key, val := range test.expect {
v := value.NewValue(val)
v2, ok := writeContext.Get(key)
assert.Tf(t, ok, "Get(%q)=%v but got: %#v", key, val, writeContext.Row())
assert.Equalf(t, v2.Value(), v.Value(), "?? %s %v!=%v %T %T", key, v.Value(), v2.Value(), v.Value(), v2.Value())
}
}
}
// Create handler function for evaluation (ie, field selection from tuples)
func (m *Projection) projectionEvaluator() MessageHandler {
out := m.MessageOut()
columns := m.sql.Columns
// if len(m.sql.From) > 1 && m.sql.From[0].Source != nil && len(m.sql.From[0].Source.Columns) > 0 {
// // we have re-written this query, lets build new list of columns
// columns = make(expr.Columns, 0)
// for _, from := range m.sql.From {
// for _, col := range from.Source.Columns {
// columns = append(columns, col)
// }
// }
// }
return func(ctx *expr.Context, msg datasource.Message) bool {
// defer func() {
// if r := recover(); r != nil {
// u.Errorf("crap, %v", r)
// }
// }()
//u.Infof("got projection message: %T %#v", msg, msg.Body())
var outMsg datasource.Message
switch mt := msg.(type) {
case *datasource.SqlDriverMessageMap:
// readContext := datasource.NewContextUrlValues(uv)
// use our custom write context for example purposes
writeContext := datasource.NewContextSimple()
outMsg = writeContext
//u.Debugf("about to project: %#v", mt)
for _, col := range columns {
if col.ParentIndex < 0 {
continue
}
//u.Debugf("col: idx:%v pidx:%v key:%v %s", col.Index, col.ParentIndex, col.Key(), col.Expr)
if col.Guard != nil {
ifColValue, ok := vm.Eval(mt, col.Guard)
if !ok {
u.Errorf("Could not evaluate if: %v", col.Guard.String())
//return fmt.Errorf("Could not evaluate if clause: %v", col.Guard.String())
}
//u.Debugf("if eval val: %T:%v", ifColValue, ifColValue)
switch ifColVal := ifColValue.(type) {
case value.BoolValue:
if ifColVal.Val() == false {
//u.Debugf("Filtering out col")
continue
}
}
}
if col.Star {
for k, v := range mt.Row() {
writeContext.Put(&expr.Column{As: k}, nil, value.NewValue(v))
}
} else {
v, ok := vm.Eval(mt, col.Expr)
if !ok {
u.Warnf("failed eval key=%v val=%#v expr:%s mt:%#v", col.Key(), v, col.Expr, mt)
} else if v == nil {
u.Debugf("evaled: key=%v val=%v", col.Key(), v)
writeContext.Put(col, mt, v)
} else {
//u.Debugf("evaled: key=%v val=%v", col.Key(), v.Value())
writeContext.Put(col, mt, v)
}
}
}
case *datasource.ContextUrlValues:
// readContext := datasource.NewContextUrlValues(uv)
// use our custom write context for example purposes
writeContext := datasource.NewContextSimple()
outMsg = writeContext
//u.Infof("about to project: colsct%v %#v", len(sql.Columns), outMsg)
for _, col := range columns {
//u.Debugf("col: %#v", col)
if col.Guard != nil {
ifColValue, ok := vm.Eval(mt, col.Guard)
if !ok {
u.Errorf("Could not evaluate if: %v", col.Guard.String())
//return fmt.Errorf("Could not evaluate if clause: %v", col.Guard.String())
}
//u.Debugf("if eval val: %T:%v", ifColValue, ifColValue)
switch ifColVal := ifColValue.(type) {
case value.BoolValue:
if ifColVal.Val() == false {
//u.Debugf("Filtering out col")
continue
}
}
}
if col.Star {
for k, v := range mt.Row() {
writeContext.Put(&expr.Column{As: k}, nil, v)
}
} else {
//u.Debugf("tree.Root: as?%v %#v", col.As, col.Expr)
v, ok := vm.Eval(mt, col.Expr)
//u.Debugf("evaled: ok?%v key=%v val=%v", ok, col.Key(), v)
if ok {
writeContext.Put(col, mt, v)
}
}
}
default:
u.Errorf("could not project msg: %T", msg)
}
//u.Debugf("completed projection for: %p %#v", out, outMsg)
select {
case out <- outMsg:
return true
case <-m.SigChan():
return false
}
}
}
// Create handler function for evaluation (ie, field selection from tuples)
func projectionEvaluator(sql *expr.SqlSelect, task TaskRunner) MessageHandler {
out := task.MessageOut()
//evaluator := vm.Evaluator(where)
return func(ctx *Context, msg datasource.Message) bool {
defer func() {
if r := recover(); r != nil {
u.Errorf("crap, %v", r)
}
}()
//u.Infof("got projection message: %#v", msg.Body())
var outMsg datasource.Message
switch mt := msg.(type) {
case *datasource.SqlDriverMessageMap:
// readContext := datasource.NewContextUrlValues(uv)
// use our custom write context for example purposes
writeContext := datasource.NewContextSimple()
outMsg = writeContext
//u.Infof("about to project: colsct%v %#v", len(sql.Columns), outMsg)
for _, from := range sql.From {
for _, col := range from.Columns {
//u.Debugf("col: %#v", col)
if col.Guard != nil {
ifColValue, ok := vm.Eval(mt, col.Guard)
if !ok {
u.Errorf("Could not evaluate if: %v", col.Guard.StringAST())
//return fmt.Errorf("Could not evaluate if clause: %v", col.Guard.String())
}
//u.Debugf("if eval val: %T:%v", ifColValue, ifColValue)
switch ifColVal := ifColValue.(type) {
case value.BoolValue:
if ifColVal.Val() == false {
//u.Debugf("Filtering out col")
continue
}
}
}
if col.Star {
for k, v := range mt.Vals {
writeContext.Put(&expr.Column{As: k}, nil, value.NewValue(v))
}
} else {
//u.Debugf("tree.Root: as?%v %v", col.As, col.Expr.String())
v, ok := vm.Eval(mt, col.Expr)
//u.Debugf("evaled: ok?%v key=%v val=%v", ok, col.Key(), v)
if ok {
writeContext.Put(col, mt, v)
}
}
}
}
case *datasource.ContextUrlValues:
// readContext := datasource.NewContextUrlValues(uv)
// use our custom write context for example purposes
writeContext := datasource.NewContextSimple()
outMsg = writeContext
//u.Infof("about to project: colsct%v %#v", len(sql.Columns), outMsg)
for _, col := range sql.Columns {
//u.Debugf("col: %#v", col)
if col.Guard != nil {
ifColValue, ok := vm.Eval(mt, col.Guard)
if !ok {
u.Errorf("Could not evaluate if: %v", col.Guard.StringAST())
//return fmt.Errorf("Could not evaluate if clause: %v", col.Guard.String())
}
//u.Debugf("if eval val: %T:%v", ifColValue, ifColValue)
switch ifColVal := ifColValue.(type) {
case value.BoolValue:
if ifColVal.Val() == false {
//u.Debugf("Filtering out col")
continue
}
}
}
if col.Star {
for k, v := range mt.Row() {
writeContext.Put(&expr.Column{As: k}, nil, v)
}
} else {
//u.Debugf("tree.Root: as?%v %#v", col.As, col.Expr)
v, ok := vm.Eval(mt, col.Expr)
//u.Debugf("evaled: ok?%v key=%v val=%v", ok, col.Key(), v)
if ok {
writeContext.Put(col, mt, v)
}
}
}
default:
u.Errorf("could not project msg: %T", msg)
}
//u.Debugf("completed projection for: %p %#v", out, outMsg)
select {
case out <- outMsg:
return true
case <-task.SigChan():
return false
}
}
}
