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write.go
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write.go
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package xlsx
import "reflect"
// Writes an array to row r. Accepts a pointer to array type 'e',
// and writes the number of columns to write, 'cols'. If 'cols' is < 0,
// the entire array will be written if possible. Returns -1 if the 'e'
// doesn't point to an array, otherwise the number of columns written.
func (r *Row) WriteSlice(e interface{}, cols int) int {
if cols == 0 {
return cols
}
// it's a slice, so open up its values
v := reflect.ValueOf(e).Elem()
if v.Kind() != reflect.Slice { // is 'e' even a slice?
return -1
}
n := v.Len()
if cols < n && cols > 0 {
n = cols
}
var setCell func(reflect.Value)
setCell = func(val reflect.Value) {
switch val.Kind() { // underlying type of slice
case reflect.String:
cell := r.AddCell()
cell.SetString(val.Interface().(string))
case reflect.Int, reflect.Int8,
reflect.Int16, reflect.Int32:
cell := r.AddCell()
cell.SetInt(val.Interface().(int))
case reflect.Int64:
cell := r.AddCell()
cell.SetInt64(val.Interface().(int64))
case reflect.Bool:
cell := r.AddCell()
cell.SetBool(val.Interface().(bool))
case reflect.Float64, reflect.Float32:
cell := r.AddCell()
cell.SetFloat(val.Interface().(float64))
case reflect.Interface:
setCell(reflect.ValueOf(val.Interface()))
}
}
var i int
for i = 0; i < n; i++ {
setCell(v.Index(i))
}
return i
}
// Writes a struct to row r. Accepts a pointer to struct type 'e',
// and the number of columns to write, `cols`. If 'cols' is < 0,
// the entire struct will be written if possible. Returns -1 if the 'e'
// doesn't point to a struct, otherwise the number of columns written
func (r *Row) WriteStruct(e interface{}, cols int) int {
if cols == 0 {
return cols
}
v := reflect.ValueOf(e).Elem()
if v.Kind() != reflect.Struct {
return -1 // bail if it's not a struct
}
n := v.NumField() // number of fields in struct
if cols < n && cols > 0 {
n = cols
}
var k int
for i := 0; i < n; i, k = i+1, k+1 {
f := v.Field(i).Kind()
cell := r.AddCell()
switch f {
case reflect.Int, reflect.Int8,
reflect.Int16, reflect.Int32:
cell.SetInt(v.Field(i).Interface().(int))
case reflect.Int64:
cell.SetInt64(v.Field(i).Interface().(int64))
case reflect.String:
cell.SetString(v.Field(i).Interface().(string))
case reflect.Float64, reflect.Float32:
cell.SetFloat(v.Field(i).Interface().(float64))
case reflect.Bool:
cell.SetBool(v.Field(i).Interface().(bool))
default:
k-- // nothing set so reset to previous
}
}
return k
}