package parser import "git.tebibyte.media/arf/arf/types" // LookupSection looks returns the section under the give name. If the section // does not exist, nil is returned. func (tree SyntaxTree) LookupSection (name string) (section Section) { section = tree.sections[name] return } // Sections returns an iterator for the tree's sections func (tree SyntaxTree) Sections () (iterator types.Iterator[Section]) { iterator = types.NewIterator(tree.sections) return } // ResolveRequire returns the full path, from the filesystem root, of an import. // This method will return false for exists if the module has not been // imported. func (tree SyntaxTree) ResolveRequire (name string) (path string, exists bool) { path, exists = tree.requires[name] return } // Length returns the amount of names in the identifier. func (identifier Identifier) Length () (length int) { length = len(identifier.trail) return } // Item returns the name at the specified index. func (identifier Identifier) Item (index int) (item string) { item = identifier.trail[index] return } // Bite removes the first item from the identifier and returns it. func (identifier *Identifier) Bite () (item string) { item = identifier.trail[0] identifier.trail = identifier.trail[1:] return } // Kind returns the type's kind. func (what Type) Kind () (kind TypeKind) { kind = what.kind return } // Mutable returns whether or not the type's data is mutable. func (what Type) Mutable () (mutable bool) { mutable = what.mutable return } // Length returns the length of the type. If it is greater than 1, that means // the type is a fixed length array. func (what Type) Length () (length uint64) { length = 1 if what.length > 1 { length = what.length } return } // Name returns the name of the type, if it is a basic type. Otherwise, it // returns a zero value identifier. func (what Type) Name () (name Identifier) { if what.kind == TypeKindBasic { name = what.name } return } // Points returns the type that this type points to, or is an array of. If the // type is a basic type, this returns a zero value type. func (what Type) Points () (points Type) { if what.kind != TypeKindBasic { points = *what.points } return } // MembersLength returns the amount of new members the type specifier defines. // If it defines no new members, it returns zero. func (what Type) MembersLength () (length int) { length = len(what.members) return } // Member returns the member at index. func (what Type) Member (index int) (member TypeMember) { member = what.members[index] return } // BitWidth returns the bit width of the type member. If it is zero, it should // be treated as unspecified. func (member TypeMember) BitWidth () (width uint64) { width = member.bitWidth return } // Kind returns what kind of argument it is. func (argument Argument) Kind () (kind ArgumentKind) { kind = argument.kind return } // Value returns the underlying value of the argument. You can use Kind() to // find out what to cast this to. func (argument Argument) Value () (value any) { value = argument.value return } // Length returns the amount of members in the section. func (section EnumSection) Length () (length int) { length = len(section.members) return } // Item returns the member at index. func (section EnumSection) Item (index int) (member EnumMember) { member = section.members[index] return } // InputsLength returns the amount of inputs in the behavior. func (behavior FaceBehavior) IntputsLength () (length int) { length = len(behavior.inputs) return } // Input returns the input at index. func (behavior FaceBehavior) Input (index int) (input Declaration) { input = behavior.inputs[index] return } // OutputsLength returns the amount of outputs in the behavior. func (behavior FaceBehavior) OutputsLength () (length int) { length = len(behavior.outputs) return } // Output returns the output at index. func (behavior FaceBehavior) Output (index int) (output Declaration) { output = behavior.outputs[index] return } // Behaviors returns an iterator for the interface's behaviors. func (section FaceSection) Behaviors () (iterator types.Iterator[FaceBehavior]) { iterator = types.NewIterator(section.behaviors) return } // External returns whether or not the data section is external. func (section DataSection) External () (external bool) { external = section.external return } // Kind returns what kind of phrase it is. func (phrase Phrase) Kind () (kind PhraseKind) { kind = phrase.kind return } // ReturneesLength returns the amount of things the phrase returns to. func (phrase Phrase) ReturneesLength () (length int) { length = len(phrase.returnees) return } // Returnee returns the returnee at index. func (phrase Phrase) Returnee (index int) (returnee Argument) { returnee = phrase.returnees[index] return } // Block returns the block under the phrase, if it is a control flow statement. func (phrase Phrase) Block () (block Block) { block = phrase.block return } // Receiver returns the method receiver, if there is one. Otherwise, it returns // nil. func (section FuncSection) Receiver () (receiver *Declaration) { receiver = section.receiver return } // InputsLength returns the number of inputs in the function. func (section FuncSection) InputsLength () (length int) { length = len(section.inputs) return } // Input returns the input at index. func (section FuncSection) Input (index int) (input Declaration) { input = section.inputs[index] return } // OutputsLength returns the number of outputs in the function. func (section FuncSection) OutputsLength () (length int) { length = len(section.outputs) return } // Root returns the root block of the section. func (section FuncSection) Root () (root Block) { root = section.root return } // External returns whether or not the function is an external function or not. func (section FuncSection) External () (external bool) { external = section.external return }