func TestNewScopeAndPackage2(t *testing.T) {
c := initTestChecker()
c.NewScopeAndPackage()
c.sc.Insert(types.NewConst(0, c.pkg, "testfloat1",
types.New("float64"), exact.MakeFloat64(1)))
c.NewScopeAndPackage()
for _, name := range c.sc.Names() {
if name == "testfloat1" {
t.Errorf("scope not reset")
}
}
o := c.sc.Insert(types.NewConst(0, c.pkg, "testfloat1",
types.New("float64"), exact.MakeFloat64(2)))
if o != nil {
t.Errorf("did not reset scope")
}
}
//insertMetricValues inserts the values and rates of the metrics collected
// as constants into the scope used to evaluate the expressions
func (c *checker) InsertMetricValuesFromJSON() error {
//get metrics from json package
//TODO: get directly from metric context if available
resp, err := http.Get("http://" + c.hostport + "/api/v1/metrics.json/")
if err != nil {
return err
}
defer resp.Body.Close()
d := json.NewDecoder(resp.Body)
var metrics []metrics.MetricJSON
err = d.Decode(&metrics)
if err != nil {
return err
}
//insert metric value into scope
for _, m := range metrics {
switch val := m.Value.(type) {
case float64:
name := strings.Replace(m.Name, ".", "_", -1) + "_value"
c.sc.Insert(types.NewConst(0, c.pkg, name,
types.New("float64"), exact.MakeFloat64(val)))
case map[string]interface{}:
//TODO: make sure we don't panic in case something is not formatted
// like expected
if current, ok := val["current"]; ok {
name := strings.Replace(m.Name, ".", "_", -1) + "_current"
c.sc.Insert(types.NewConst(0, c.pkg, name,
types.New("float64"), exact.MakeFloat64(current.(float64))))
}
if rate, ok := val["rate"]; ok {
name := strings.Replace(m.Name, ".", "_", -1) + "_rate"
c.sc.Insert(types.NewConst(0, c.pkg, name,
types.New("float64"), exact.MakeFloat64(rate.(float64))))
}
default:
//a value type came up that wasn't anticipated
fmt.Fprintln(os.Stderr, reflect.TypeOf(val))
}
}
return nil
}
func (c *checker) InsertMetricValuesFromContext(m *metrics.MetricContext) error {
for metricName, metric := range m.Gauges {
name := strings.Replace(metricName, ".", "_", -1) + "_value"
c.sc.Insert(types.NewConst(0, c.pkg, name,
types.New("float64"), exact.MakeFloat64(metric.Get())))
sname := name + "_string"
c.sc.Insert(types.NewConst(0, c.pkg, sname,
types.New("string"), exact.MakeString(fmt.Sprintf("%0.2f", metric.Get()))))
}
for metricName, metric := range m.Counters {
name := strings.Replace(metricName, ".", "_", -1) + "_current"
c.sc.Insert(types.NewConst(0, c.pkg, name,
types.New("float64"), exact.MakeUint64(metric.Get())))
sname := name + "_string"
c.sc.Insert(types.NewConst(0, c.pkg, sname,
types.New("string"), exact.MakeString(fmt.Sprintf("%d", metric.Get()))))
name = strings.Replace(metricName, ".", "_", -1) + "_rate"
c.sc.Insert(types.NewConst(0, c.pkg, name,
types.New("float64"), exact.MakeFloat64(metric.ComputeRate())))
}
return nil
}
// Const = Name [Type] "=" ConstValue .
func (p *parser) parseConst(pkg *types.Package) *types.Const {
name := p.parseName()
var typ types.Type
if p.tok == '<' {
typ = p.parseType(pkg)
}
p.expect('=')
val, vtyp := p.parseConstValue()
if typ == nil {
typ = vtyp
}
return types.NewConst(token.NoPos, pkg, name, typ, val)
}
func (p *importer) obj(pkg *types.Package) {
var obj types.Object
switch tag := p.int(); tag {
case constTag:
obj = types.NewConst(token.NoPos, pkg, p.string(), p.typ(), p.value())
case typeTag:
// type object is added to scope via respective named type
_ = p.typ().(*types.Named)
return
case varTag:
obj = types.NewVar(token.NoPos, pkg, p.string(), p.typ())
case funcTag:
obj = types.NewFunc(token.NoPos, pkg, p.string(), p.typ().(*types.Signature))
default:
panic(fmt.Sprintf("unexpected object tag %d", tag))
}
if alt := pkg.Scope().Insert(obj); alt != nil {
panic(fmt.Sprintf("%s already declared", alt.Name()))
}
}
// ConstDecl = "const" ExportedName [ Type ] "=" Literal .
// Literal = bool_lit | int_lit | float_lit | complex_lit | rune_lit | string_lit .
// bool_lit = "true" | "false" .
// complex_lit = "(" float_lit "+" float_lit "i" ")" .
// rune_lit = "(" int_lit "+" int_lit ")" .
// string_lit = `"` { unicode_char } `"` .
//
func (p *parser) parseConstDecl() {
p.expectKeyword("const")
pkg, name := p.parseExportedName()
var typ0 types.Type
if p.tok != '=' {
typ0 = p.parseType()
}
p.expect('=')
var typ types.Type
var val exact.Value
switch p.tok {
case scanner.Ident:
// bool_lit
if p.lit != "true" && p.lit != "false" {
p.error("expected true or false")
}
typ = types.Typ[types.UntypedBool]
val = exact.MakeBool(p.lit == "true")
p.next()
case '-', scanner.Int:
// int_lit
typ, val = p.parseNumber()
case '(':
// complex_lit or rune_lit
p.next()
if p.tok == scanner.Char {
p.next()
p.expect('+')
typ = types.Typ[types.UntypedRune]
_, val = p.parseNumber()
p.expect(')')
break
}
_, re := p.parseNumber()
p.expect('+')
_, im := p.parseNumber()
p.expectKeyword("i")
p.expect(')')
typ = types.Typ[types.UntypedComplex]
val = exact.BinaryOp(re, token.ADD, exact.MakeImag(im))
case scanner.Char:
// rune_lit
typ = types.Typ[types.UntypedRune]
val = exact.MakeFromLiteral(p.lit, token.CHAR)
p.next()
case scanner.String:
// string_lit
typ = types.Typ[types.UntypedString]
val = exact.MakeFromLiteral(p.lit, token.STRING)
p.next()
default:
p.errorf("expected literal got %s", scanner.TokenString(p.tok))
}
if typ0 == nil {
typ0 = typ
}
pkg.Scope().Insert(types.NewConst(token.NoPos, pkg, name, typ0, val))
}