// Parse data type in context
func (p *ParamAnalyzer) parseDataType(path string, child *gen.ActionParam) gen.DataType {
param := p.rawParams[path].(map[string]interface{})
class := "String"
if c, ok := param["class"].(string); ok {
class = c
}
var res gen.DataType
switch class {
case "Integer":
i := gen.BasicDataType("int")
res = &i
case "String":
s := gen.BasicDataType("string")
res = &s
case "Array":
if child != nil {
res = &gen.ArrayDataType{child}
} else {
s := gen.BasicDataType("string")
p := p.newParam(fmt.Sprintf("%s[item]", path),
map[string]interface{}{}, &s)
res = &gen.ArrayDataType{p}
}
case "Enumerable":
res = new(gen.EnumerableDataType)
case "Hash":
if current, ok := p.parsed[path]; ok {
res = current.Type
o := res.(*gen.ObjectDataType)
o.Fields = appendSorted(o.Fields, child)
} else {
oname := p.typeName(path)
res = &gen.ObjectDataType{oname, []*gen.ActionParam{child}}
}
}
return res
}
// Analyze type given its json definition
func (a *ApiAnalyzer) AnalyzeType(typeDef map[string]interface{}, query string) (gen.DataType, error) {
n, ok := typeDef["name"].(string)
if !ok {
n = "Struct" // Assume inline struct (e.g. payload types)
}
if strings.HasSuffix(n, "FileUpload") {
// A little bit hacky but this is to make upload work with resticle
// The idea is that a type named "FileUpload" is assumed to define a multipart
// request with a file part.
// The type must define a "name" and "filename" string fields.
t, ok := a.RawTypes[n]
if !ok {
return nil, fmt.Errorf("Unknown type %s for %s", n, prettify(typeDef))
}
attrs, ok := t["attributes"]
if !ok {
return nil, fmt.Errorf("Invalid file upload type %s for %s: no attributes", n, prettify(typeDef))
}
mattrs, ok := attrs.(map[string]interface{})
if !ok {
return nil, fmt.Errorf("Invalid file upload type %s for %s: basic type", n, prettify(typeDef))
}
_, ok = mattrs["name"]
if !ok {
return nil, fmt.Errorf("Invalid file upload type %s for %s: no name", n, prettify(typeDef))
}
_, ok = mattrs["filename"]
if !ok {
return nil, fmt.Errorf("Invalid file upload type %s for %s: no filename", n, prettify(typeDef))
}
return &gen.UploadDataType{TypeName: n}, nil
}
if isBuiltInType(n) {
n = "String"
}
var dataType gen.DataType
switch n {
case "Integer":
i := gen.BasicDataType("int")
dataType = &i
case "Float":
f := gen.BasicDataType("float64")
dataType = &f
case "String":
s := gen.BasicDataType("string")
dataType = &s
case "Boolean":
b := gen.BasicDataType("bool")
dataType = &b
case "Object":
o := gen.BasicDataType("interface{}")
dataType = &o
case "DateTime":
t := gen.BasicDataType("*time.Time") // Need pointer for case where value is null
a.descriptor.NeedTime = true
dataType = &t
case "Collection", "Ids":
member, ok := typeDef["member_attribute"].(map[string]interface{})
if !ok {
return nil, fmt.Errorf("Missing \"member_attribute\" for %s", prettify(typeDef))
}
elemType, err := a.AnalyzeAttribute(n+"Member", query+"[]", member)
if err != nil {
return nil, fmt.Errorf("Failed to compute type of \"member_attribute\": %s", err)
}
dataType = &gen.ArrayDataType{elemType}
case "Struct":
attrs, ok := typeDef["attributes"].(map[string]interface{})
if !ok {
return nil, fmt.Errorf("Failed to retrieve attributes of struct for %s", prettify(typeDef))
}
obj, err := a.CreateType(query, attrs)
if err != nil {
return nil, err
}
dataType = obj
case "Hash":
keys, ok := typeDef["keys"].(map[string]interface{})
if !ok {
dataType = new(gen.EnumerableDataType)
} else {
obj, err := a.CreateType(query, keys)
if err != nil {
return nil, err
}
dataType = obj
}
default:
// First check if we already analyzed that type
if t := a.Registry.GetNamedType(n); t != nil {
return t, nil
}
// No then analyze it
t, ok := a.RawTypes[n]
if !ok {
return nil, fmt.Errorf("Unknown type %s for %s", n, prettify(typeDef))
}
attrs, ok := t["attributes"]
if !ok {
// No attribute, it's a string
s := gen.BasicDataType("string")
dataType = &s
} else {
att := attrs.(map[string]interface{})
obj := a.Registry.CreateNamedType(n)
obj.Fields = make([]*gen.ActionParam, len(att))
for idx, an := range sortedKeys(att) {
at := att[an]
aq := fmt.Sprintf("%s[%s]", query, an)
ap, err := a.AnalyzeAttribute(an, aq, at.(map[string]interface{}))
if err != nil {
return nil, err
}
obj.Fields[idx] = ap
}
// We're done
dataType = obj
}
}
return dataType, nil
}
analyzer = NewAnalyzer(params)
})
Context("with an empty path and a simple param", func() {
BeforeEach(func() {
path = ""
params = map[string]interface{}{"foo": map[string]interface{}{"class": "String"}}
})
It("Analyze returns the parsed param", func() {
analyzer.Analyze()
params := analyzer.Params
Ω(params).Should(HaveLen(1))
param := params[0]
Ω(param.Name).Should(Equal("foo"))
s := gen.BasicDataType("string")
Ω(param.Type).Should(BeEquivalentTo(&s))
})
})
Context("with a simple array param", func() {
BeforeEach(func() {
path = ""
params = map[string]interface{}{"foo": map[string]interface{}{"class": "Array"}}
})
It("Analyze returns the parsed param", func() {
analyzer.Analyze()
params := analyzer.Params
Ω(params).Should(HaveLen(1))
param := params[0]
