ref: c91dbe4ce9c30623ba6e686fd17efae935aa0cc5
dir: /tpl/internal/go_templates/texttemplate/hugo_template.go/
// Copyright 2019 The Hugo Authors. All rights reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package template import ( "io" "reflect" "github.com/gohugoio/hugo/common/hreflect" "github.com/gohugoio/hugo/tpl/internal/go_templates/texttemplate/parse" ) /* This files contains the Hugo related addons. All the other files in this package is auto generated. */ // Export it so we can populate Hugo's func map with it, which makes it faster. var GoFuncs = builtinFuncs() // Preparer prepares the template before execution. type Preparer interface { Prepare() (*Template, error) } // ExecHelper allows some custom eval hooks. type ExecHelper interface { GetFunc(tmpl Preparer, name string) (reflect.Value, bool) GetMethod(tmpl Preparer, receiver reflect.Value, name string) (method reflect.Value, firstArg reflect.Value) GetMapValue(tmpl Preparer, receiver, key reflect.Value) (reflect.Value, bool) } // Executer executes a given template. type Executer interface { Execute(p Preparer, wr io.Writer, data interface{}) error } type executer struct { helper ExecHelper } func NewExecuter(helper ExecHelper) Executer { return &executer{helper: helper} } func (t *executer) Execute(p Preparer, wr io.Writer, data interface{}) error { tmpl, err := p.Prepare() if err != nil { return err } value, ok := data.(reflect.Value) if !ok { value = reflect.ValueOf(data) } state := &state{ helper: t.helper, prep: p, tmpl: tmpl, wr: wr, vars: []variable{{"$", value}}, } return tmpl.executeWithState(state, value) } // Prepare returns a template ready for execution. func (t *Template) Prepare() (*Template, error) { return t, nil } func (t *Template) executeWithState(state *state, value reflect.Value) (err error) { defer errRecover(&err) if t.Tree == nil || t.Root == nil { state.errorf("%q is an incomplete or empty template", t.Name()) } state.walk(value, t.Root) return } // Below are modifed structs etc. The changes are marked with "Added for Hugo." // state represents the state of an execution. It's not part of the // template so that multiple executions of the same template // can execute in parallel. type state struct { tmpl *Template prep Preparer // Added for Hugo. helper ExecHelper // Added for Hugo. wr io.Writer node parse.Node // current node, for errors vars []variable // push-down stack of variable values. depth int // the height of the stack of executing templates. } func (s *state) evalFunction(dot reflect.Value, node *parse.IdentifierNode, cmd parse.Node, args []parse.Node, final reflect.Value) reflect.Value { s.at(node) name := node.Ident var function reflect.Value var ok bool if s.helper != nil { // Added for Hugo. function, ok = s.helper.GetFunc(s.prep, name) } if !ok { function, ok = findFunction(name, s.tmpl) } if !ok { s.errorf("%q is not a defined function", name) } return s.evalCall(dot, function, cmd, name, args, final) } // evalField evaluates an expression like (.Field) or (.Field arg1 arg2). // The 'final' argument represents the return value from the preceding // value of the pipeline, if any. func (s *state) evalField(dot reflect.Value, fieldName string, node parse.Node, args []parse.Node, final, receiver reflect.Value) reflect.Value { if !receiver.IsValid() { if s.tmpl.option.missingKey == mapError { // Treat invalid value as missing map key. s.errorf("nil data; no entry for key %q", fieldName) } return zero } typ := receiver.Type() receiver, isNil := indirect(receiver) if receiver.Kind() == reflect.Interface && isNil { // Calling a method on a nil interface can't work. The // MethodByName method call below would panic. s.errorf("nil pointer evaluating %s.%s", typ, fieldName) return zero } // Unless it's an interface, need to get to a value of type *T to guarantee // we see all methods of T and *T. ptr := receiver if ptr.Kind() != reflect.Interface && ptr.Kind() != reflect.Ptr && ptr.CanAddr() { ptr = ptr.Addr() } // Added for Hugo. var first reflect.Value var method reflect.Value if s.helper != nil { method, first = s.helper.GetMethod(s.prep, ptr, fieldName) } else { method = ptr.MethodByName(fieldName) } if method.IsValid() { if first != zero { return s.evalCall(dot, method, node, fieldName, args, final, first) } return s.evalCall(dot, method, node, fieldName, args, final) } hasArgs := len(args) > 1 || final != missingVal // It's not a method; must be a field of a struct or an element of a map. switch receiver.Kind() { case reflect.Struct: tField, ok := receiver.Type().FieldByName(fieldName) if ok { field := receiver.FieldByIndex(tField.Index) if tField.PkgPath != "" { // field is unexported s.errorf("%s is an unexported field of struct type %s", fieldName, typ) } // If it's a function, we must call it. if hasArgs { s.errorf("%s has arguments but cannot be invoked as function", fieldName) } return field } case reflect.Map: // If it's a map, attempt to use the field name as a key. nameVal := reflect.ValueOf(fieldName) if nameVal.Type().AssignableTo(receiver.Type().Key()) { if hasArgs { s.errorf("%s is not a method but has arguments", fieldName) } var result reflect.Value if s.helper != nil { // Added for Hugo. result, _ = s.helper.GetMapValue(s.prep, receiver, nameVal) } else { result = receiver.MapIndex(nameVal) } if !result.IsValid() { switch s.tmpl.option.missingKey { case mapInvalid: // Just use the invalid value. case mapZeroValue: result = reflect.Zero(receiver.Type().Elem()) case mapError: s.errorf("map has no entry for key %q", fieldName) } } return result } case reflect.Ptr: etyp := receiver.Type().Elem() if etyp.Kind() == reflect.Struct { if _, ok := etyp.FieldByName(fieldName); !ok { // If there's no such field, say "can't evaluate" // instead of "nil pointer evaluating". break } } if isNil { s.errorf("nil pointer evaluating %s.%s", typ, fieldName) } } s.errorf("can't evaluate field %s in type %s", fieldName, typ) panic("not reached") } // evalCall executes a function or method call. If it's a method, fun already has the receiver bound, so // it looks just like a function call. The arg list, if non-nil, includes (in the manner of the shell), arg[0] // as the function itself. func (s *state) evalCall(dot, fun reflect.Value, node parse.Node, name string, args []parse.Node, final reflect.Value, first ...reflect.Value) reflect.Value { if args != nil { args = args[1:] // Zeroth arg is function name/node; not passed to function. } typ := fun.Type() numFirst := len(first) numIn := len(args) + numFirst // // Added for Hugo if final != missingVal { numIn++ } numFixed := len(args) + len(first) if typ.IsVariadic() { numFixed = typ.NumIn() - 1 // last arg is the variadic one. if numIn < numFixed { s.errorf("wrong number of args for %s: want at least %d got %d", name, typ.NumIn()-1, len(args)) } } else if numIn != typ.NumIn() { s.errorf("wrong number of args for %s: want %d got %d", name, typ.NumIn(), numIn) } if !goodFunc(typ) { // TODO: This could still be a confusing error; maybe goodFunc should provide info. s.errorf("can't call method/function %q with %d results", name, typ.NumOut()) } // Build the arg list. argv := make([]reflect.Value, numIn) // Args must be evaluated. Fixed args first. i := len(first) for ; i < numFixed && i < len(args)+numFirst; i++ { argv[i] = s.evalArg(dot, typ.In(i), args[i-numFirst]) } // Now the ... args. if typ.IsVariadic() { argType := typ.In(typ.NumIn() - 1).Elem() // Argument is a slice. for ; i < len(args)+numFirst; i++ { argv[i] = s.evalArg(dot, argType, args[i-numFirst]) } } // Add final value if necessary. if final != missingVal { t := typ.In(typ.NumIn() - 1) if typ.IsVariadic() { if numIn-1 < numFixed { // The added final argument corresponds to a fixed parameter of the function. // Validate against the type of the actual parameter. t = typ.In(numIn - 1) } else { // The added final argument corresponds to the variadic part. // Validate against the type of the elements of the variadic slice. t = t.Elem() } } argv[i] = s.validateType(final, t) } // Added for Hugo for i := 0; i < len(first); i++ { argv[i] = s.validateType(first[i], typ.In(i)) } v, err := safeCall(fun, argv) // If we have an error that is not nil, stop execution and return that // error to the caller. if err != nil { s.at(node) s.errorf("error calling %s: %v", name, err) } if v.Type() == reflectValueType { v = v.Interface().(reflect.Value) } return v } func isTrue(val reflect.Value) (truth, ok bool) { return hreflect.IsTruthfulValue(val), true }