@ -88,6 +88,28 @@ type renderable struct {
vals chartutil . Values
}
// alterFuncMap takes the Engine's FuncMap and adds context-specific functions.
//
// The resulting FuncMap is only valid for the passed-in template.
func ( e * Engine ) alterFuncMap ( t * template . Template ) template . FuncMap {
// Clone the func map because we are adding context-specific functions.
var funcMap template . FuncMap = map [ string ] interface { } { }
for k , v := range e . FuncMap {
funcMap [ k ] = v
}
// Add the 'include' function here so we can close over t.
funcMap [ "include" ] = func ( name string , data interface { } ) string {
buf := bytes . NewBuffer ( nil )
if err := t . ExecuteTemplate ( buf , name , data ) ; err != nil {
buf . WriteString ( err . Error ( ) )
}
return buf . String ( )
}
return funcMap
}
// render takes a map of templates/values and renders them.
func ( e * Engine ) render ( tpls map [ string ] renderable ) ( map [ string ] string , error ) {
// Basically, what we do here is start with an empty parent template and then
@ -105,10 +127,13 @@ func (e *Engine) render(tpls map[string]renderable) (map[string]string, error) {
// but will still emit <no value> for others. We mitigate that later.
t . Option ( "missingkey=zero" )
}
funcMap := e . alterFuncMap ( t )
files := [ ] string { }
for fname , r := range tpls {
log . Printf ( "Preparing template %s" , fname )
t = t . New ( fname ) . Funcs ( e. F uncMap)
t = t . New ( fname ) . Funcs ( f uncMap)
if _ , err := t . Parse ( r . tpl ) ; err != nil {
return map [ string ] string { } , fmt . Errorf ( "parse error in %q: %s" , fname , err )
}