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vmLetExpr.go
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vmLetExpr.go
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package vm
import (
"reflect"
"github.com/mattn/anko/ast"
"github.com/mattn/anko/env"
)
func (runInfo *runInfoStruct) invokeLetExpr() {
switch expr := runInfo.expr.(type) {
// IdentExpr
case *ast.IdentExpr:
if runInfo.env.SetValue(expr.Lit, runInfo.rv) != nil {
runInfo.err = nil
runInfo.env.DefineValue(expr.Lit, runInfo.rv)
}
// MemberExpr
case *ast.MemberExpr:
value := runInfo.rv
runInfo.expr = expr.Expr
runInfo.invokeExpr()
if runInfo.err != nil {
return
}
if runInfo.rv.Kind() == reflect.Interface && !runInfo.rv.IsNil() {
runInfo.rv = runInfo.rv.Elem()
}
if env, ok := runInfo.rv.Interface().(*env.Env); ok {
runInfo.err = env.SetValue(expr.Name, value)
if runInfo.err != nil {
runInfo.err = newError(expr, runInfo.err)
runInfo.rv = nilValue
}
return
}
if runInfo.rv.Kind() == reflect.Ptr {
runInfo.rv = runInfo.rv.Elem()
}
switch runInfo.rv.Kind() {
// Struct
case reflect.Struct:
field, found := runInfo.rv.Type().FieldByName(expr.Name)
if !found {
runInfo.err = newStringError(expr, "no member named '"+expr.Name+"' for struct")
runInfo.rv = nilValue
return
}
runInfo.rv = runInfo.rv.FieldByIndex(field.Index)
// From reflect CanSet:
// A Value can be changed only if it is addressable and was not obtained by the use of unexported struct fields.
// Often a struct has to be passed as a pointer to be set
if !runInfo.rv.CanSet() {
runInfo.err = newStringError(expr, "struct member '"+expr.Name+"' cannot be assigned")
runInfo.rv = nilValue
return
}
value, runInfo.err = convertReflectValueToType(value, runInfo.rv.Type())
if runInfo.err != nil {
runInfo.err = newStringError(expr, "type "+value.Type().String()+" cannot be assigned to type "+runInfo.rv.Type().String()+" for struct")
runInfo.rv = nilValue
return
}
runInfo.rv.Set(value)
return
// Map
case reflect.Map:
value, runInfo.err = convertReflectValueToType(value, runInfo.rv.Type().Elem())
if runInfo.err != nil {
runInfo.err = newStringError(expr, "type "+value.Type().String()+" cannot be assigned to type "+runInfo.rv.Type().Elem().String()+" for map")
runInfo.rv = nilValue
return
}
if runInfo.rv.IsNil() {
// make new map
item := reflect.MakeMap(runInfo.rv.Type())
item.SetMapIndex(reflect.ValueOf(expr.Name), value)
// assign new map
runInfo.rv = item
runInfo.expr = expr.Expr
runInfo.invokeLetExpr()
runInfo.rv = item.MapIndex(reflect.ValueOf(expr.Name))
return
}
runInfo.rv.SetMapIndex(reflect.ValueOf(expr.Name), value)
default:
runInfo.err = newStringError(expr, "type "+runInfo.rv.Kind().String()+" does not support member operation")
runInfo.rv = nilValue
}
// ItemExpr
case *ast.ItemExpr:
value := runInfo.rv
runInfo.expr = expr.Item
runInfo.invokeExpr()
if runInfo.err != nil {
return
}
item := runInfo.rv
runInfo.expr = expr.Index
runInfo.invokeExpr()
if runInfo.err != nil {
return
}
if item.Kind() == reflect.Interface && !item.IsNil() {
item = item.Elem()
}
switch item.Kind() {
// Slice && Array
case reflect.Slice, reflect.Array:
var index int
index, runInfo.err = tryToInt(runInfo.rv)
if runInfo.err != nil {
runInfo.err = newStringError(expr, "index must be a number")
runInfo.rv = nilValue
return
}
if index == item.Len() {
// try to do automatic append
value, runInfo.err = convertReflectValueToType(value, item.Type().Elem())
if runInfo.err != nil {
runInfo.err = newStringError(expr, "type "+value.Type().String()+" cannot be assigned to type "+item.Type().Elem().String()+" for slice index")
runInfo.rv = nilValue
return
}
item = reflect.Append(item, value)
runInfo.rv = item
runInfo.expr = expr.Item
runInfo.invokeLetExpr()
runInfo.rv = item.Index(index)
return
}
if index < 0 || index >= item.Len() {
runInfo.err = newStringError(expr, "index out of range")
runInfo.rv = nilValue
return
}
item = item.Index(index)
if !item.CanSet() {
runInfo.err = newStringError(expr, "index cannot be assigned")
runInfo.rv = nilValue
return
}
value, runInfo.err = convertReflectValueToType(value, item.Type())
if runInfo.err != nil {
runInfo.err = newStringError(expr, "type "+value.Type().String()+" cannot be assigned to type "+item.Type().String()+" for slice index")
runInfo.rv = nilValue
return
}
item.Set(value)
runInfo.rv = item
// Map
case reflect.Map:
runInfo.rv, runInfo.err = convertReflectValueToType(runInfo.rv, item.Type().Key())
if runInfo.err != nil {
runInfo.err = newStringError(expr, "index type "+runInfo.rv.Type().String()+" cannot be used for map index type "+item.Type().Key().String())
runInfo.rv = nilValue
return
}
value, runInfo.err = convertReflectValueToType(value, item.Type().Elem())
if runInfo.err != nil {
runInfo.err = newStringError(expr, "type "+value.Type().String()+" cannot be assigned to type "+item.Type().Elem().String()+" for map")
runInfo.rv = nilValue
return
}
if item.IsNil() {
// make new map
item = reflect.MakeMap(item.Type())
item.SetMapIndex(runInfo.rv, value)
mapIndex := runInfo.rv
// assign new map
runInfo.rv = item
runInfo.expr = expr.Item
runInfo.invokeLetExpr()
runInfo.rv = item.MapIndex(mapIndex)
return
}
item.SetMapIndex(runInfo.rv, value)
// String
case reflect.String:
var index int
index, runInfo.err = tryToInt(runInfo.rv)
if runInfo.err != nil {
runInfo.err = newStringError(expr, "index must be a number")
runInfo.rv = nilValue
return
}
value, runInfo.err = convertReflectValueToType(value, item.Type())
if runInfo.err != nil {
runInfo.err = newStringError(expr, "type "+value.Type().String()+" cannot be assigned to type "+item.Type().String())
runInfo.rv = nilValue
return
}
if index == item.Len() {
// automatic append
if item.CanSet() {
item.SetString(item.String() + value.String())
return
}
runInfo.rv = reflect.ValueOf(item.String() + value.String())
runInfo.expr = expr.Item
runInfo.invokeLetExpr()
return
}
if index < 0 || index >= item.Len() {
runInfo.err = newStringError(expr, "index out of range")
runInfo.rv = nilValue
return
}
if item.CanSet() {
item.SetString(item.Slice(0, index).String() + value.String() + item.Slice(index+1, item.Len()).String())
runInfo.rv = item
return
}
runInfo.rv = reflect.ValueOf(item.Slice(0, index).String() + value.String() + item.Slice(index+1, item.Len()).String())
runInfo.expr = expr.Item
runInfo.invokeLetExpr()
default:
runInfo.err = newStringError(expr, "type "+item.Kind().String()+" does not support index operation")
runInfo.rv = nilValue
}
// SliceExpr
case *ast.SliceExpr:
value := runInfo.rv
runInfo.expr = expr.Item
runInfo.invokeExpr()
if runInfo.err != nil {
return
}
item := runInfo.rv
if item.Kind() == reflect.Interface && !item.IsNil() {
item = item.Elem()
}
switch item.Kind() {
// Slice && Array
case reflect.Slice, reflect.Array:
var beginIndex int
endIndex := item.Len()
if expr.Begin != nil {
runInfo.expr = expr.Begin
runInfo.invokeExpr()
if runInfo.err != nil {
return
}
beginIndex, runInfo.err = tryToInt(runInfo.rv)
if runInfo.err != nil {
runInfo.err = newStringError(expr, "index must be a number")
runInfo.rv = nilValue
return
}
// (0 <= low) <= high <= len(a)
if beginIndex < 0 {
runInfo.err = newStringError(expr, "index out of range")
runInfo.rv = nilValue
return
}
}
if expr.End != nil {
runInfo.expr = expr.End
runInfo.invokeExpr()
if runInfo.err != nil {
return
}
endIndex, runInfo.err = tryToInt(runInfo.rv)
if runInfo.err != nil {
runInfo.err = newStringError(expr, "index must be a number")
runInfo.rv = nilValue
return
}
// 0 <= low <= (high <= len(a))
if endIndex > item.Len() {
runInfo.err = newStringError(expr, "index out of range")
runInfo.rv = nilValue
return
}
}
// 0 <= (low <= high) <= len(a)
if beginIndex > endIndex {
runInfo.err = newStringError(expr, "index out of range")
runInfo.rv = nilValue
return
}
sliceCap := item.Cap()
if expr.Cap != nil {
runInfo.expr = expr.Cap
runInfo.invokeExpr()
if runInfo.err != nil {
return
}
sliceCap, runInfo.err = tryToInt(runInfo.rv)
if runInfo.err != nil {
runInfo.err = newStringError(expr, "cap must be a number")
runInfo.rv = nilValue
return
}
// 0 <= low <= (high <= max <= cap(a))
if sliceCap < endIndex || sliceCap > item.Cap() {
runInfo.err = newStringError(expr, "cap out of range")
runInfo.rv = nilValue
return
}
}
item = item.Slice3(beginIndex, endIndex, sliceCap)
if !item.CanSet() {
runInfo.err = newStringError(expr, "slice cannot be assigned")
runInfo.rv = nilValue
return
}
item.Set(value)
// String
case reflect.String:
runInfo.err = newStringError(expr, "type string does not support slice operation for assignment")
runInfo.rv = nilValue
default:
runInfo.err = newStringError(expr, "type "+item.Kind().String()+" does not support slice operation")
runInfo.rv = nilValue
}
// DerefExpr
case *ast.DerefExpr:
value := runInfo.rv
runInfo.expr = expr.Expr
runInfo.invokeExpr()
if runInfo.err != nil {
return
}
runInfo.rv.Elem().Set(value)
runInfo.rv = value
default:
runInfo.err = newStringError(expr, "invalid operation")
runInfo.rv = nilValue
}
}