github.com/ndarilek/terraform@v0.3.8-0.20150320140257-d3135c1b2bac/helper/schema/field_reader_map.go (about) 1 package schema 2 3 import ( 4 "fmt" 5 "strings" 6 ) 7 8 // MapFieldReader reads fields out of an untyped map[string]string to 9 // the best of its ability. 10 type MapFieldReader struct { 11 Map MapReader 12 Schema map[string]*Schema 13 } 14 15 func (r *MapFieldReader) ReadField(address []string) (FieldReadResult, error) { 16 k := strings.Join(address, ".") 17 schemaList := addrToSchema(address, r.Schema) 18 if len(schemaList) == 0 { 19 return FieldReadResult{}, nil 20 } 21 22 schema := schemaList[len(schemaList)-1] 23 switch schema.Type { 24 case TypeBool: 25 fallthrough 26 case TypeInt: 27 fallthrough 28 case TypeFloat: 29 fallthrough 30 case TypeString: 31 return r.readPrimitive(address, schema) 32 case TypeList: 33 return readListField(r, address, schema) 34 case TypeMap: 35 return r.readMap(k) 36 case TypeSet: 37 return r.readSet(address, schema) 38 case typeObject: 39 return readObjectField(r, address, schema.Elem.(map[string]*Schema)) 40 default: 41 panic(fmt.Sprintf("Unknown type: %s", schema.Type)) 42 } 43 } 44 45 func (r *MapFieldReader) readMap(k string) (FieldReadResult, error) { 46 result := make(map[string]interface{}) 47 resultSet := false 48 49 // If the name of the map field is directly in the map with an 50 // empty string, it means that the map is being deleted, so mark 51 // that is is set. 52 if v, ok := r.Map.Access(k); ok && v == "" { 53 resultSet = true 54 } 55 56 prefix := k + "." 57 r.Map.Range(func(k, v string) bool { 58 if strings.HasPrefix(k, prefix) { 59 key := k[len(prefix):] 60 if key != "#" { 61 result[key] = v 62 resultSet = true 63 } 64 } 65 66 return true 67 }) 68 69 var resultVal interface{} 70 if resultSet { 71 resultVal = result 72 } 73 74 return FieldReadResult{ 75 Value: resultVal, 76 Exists: resultSet, 77 }, nil 78 } 79 80 func (r *MapFieldReader) readPrimitive( 81 address []string, schema *Schema) (FieldReadResult, error) { 82 k := strings.Join(address, ".") 83 result, ok := r.Map.Access(k) 84 if !ok { 85 return FieldReadResult{}, nil 86 } 87 88 returnVal, err := stringToPrimitive(result, false, schema) 89 if err != nil { 90 return FieldReadResult{}, err 91 } 92 93 return FieldReadResult{ 94 Value: returnVal, 95 Exists: true, 96 }, nil 97 } 98 99 func (r *MapFieldReader) readSet( 100 address []string, schema *Schema) (FieldReadResult, error) { 101 // Get the number of elements in the list 102 countRaw, err := r.readPrimitive( 103 append(address, "#"), &Schema{Type: TypeInt}) 104 if err != nil { 105 return FieldReadResult{}, err 106 } 107 if !countRaw.Exists { 108 // No count, means we have no list 109 countRaw.Value = 0 110 } 111 112 // Create the set that will be our result 113 set := &Set{F: schema.Set} 114 115 // If we have an empty list, then return an empty list 116 if countRaw.Computed || countRaw.Value.(int) == 0 { 117 return FieldReadResult{ 118 Value: set, 119 Exists: countRaw.Exists, 120 Computed: countRaw.Computed, 121 }, nil 122 } 123 124 // Go through the map and find all the set items 125 prefix := strings.Join(address, ".") + "." 126 countExpected := countRaw.Value.(int) 127 countActual := make(map[string]struct{}) 128 completed := r.Map.Range(func(k, _ string) bool { 129 if !strings.HasPrefix(k, prefix) { 130 return true 131 } 132 if strings.HasPrefix(k, prefix+"#") { 133 // Ignore the count field 134 return true 135 } 136 137 // Split the key, since it might be a sub-object like "idx.field" 138 parts := strings.Split(k[len(prefix):], ".") 139 idx := parts[0] 140 141 var raw FieldReadResult 142 raw, err = r.ReadField(append(address, idx)) 143 if err != nil { 144 return false 145 } 146 if !raw.Exists { 147 // This shouldn't happen because we just verified it does exist 148 panic("missing field in set: " + k + "." + idx) 149 } 150 151 set.Add(raw.Value) 152 153 // Due to the way multimap readers work, if we've seen the number 154 // of fields we expect, then exit so that we don't read later values. 155 // For example: the "set" map might have "ports.#", "ports.0", and 156 // "ports.1", but the "state" map might have those plus "ports.2". 157 // We don't want "ports.2" 158 countActual[idx] = struct{}{} 159 if len(countActual) >= countExpected { 160 return false 161 } 162 163 return true 164 }) 165 if !completed && err != nil { 166 return FieldReadResult{}, err 167 } 168 169 return FieldReadResult{ 170 Value: set, 171 Exists: true, 172 }, nil 173 } 174 175 // MapReader is an interface that is given to MapFieldReader for accessing 176 // a "map". This can be used to have alternate implementations. For a basic 177 // map[string]string, use BasicMapReader. 178 type MapReader interface { 179 Access(string) (string, bool) 180 Range(func(string, string) bool) bool 181 } 182 183 // BasicMapReader implements MapReader for a single map. 184 type BasicMapReader map[string]string 185 186 func (r BasicMapReader) Access(k string) (string, bool) { 187 v, ok := r[k] 188 return v, ok 189 } 190 191 func (r BasicMapReader) Range(f func(string, string) bool) bool { 192 for k, v := range r { 193 if cont := f(k, v); !cont { 194 return false 195 } 196 } 197 198 return true 199 } 200 201 // MultiMapReader reads over multiple maps, preferring keys that are 202 // founder earlier (lower number index) vs. later (higher number index) 203 type MultiMapReader []map[string]string 204 205 func (r MultiMapReader) Access(k string) (string, bool) { 206 for _, m := range r { 207 if v, ok := m[k]; ok { 208 return v, ok 209 } 210 } 211 212 return "", false 213 } 214 215 func (r MultiMapReader) Range(f func(string, string) bool) bool { 216 done := make(map[string]struct{}) 217 for _, m := range r { 218 for k, v := range m { 219 if _, ok := done[k]; ok { 220 continue 221 } 222 223 if cont := f(k, v); !cont { 224 return false 225 } 226 227 done[k] = struct{}{} 228 } 229 } 230 231 return true 232 }