package parser import "git.tebibyte.media/arf/arf/types" import "git.tebibyte.media/arf/arf/lexer" import "git.tebibyte.media/arf/arf/infoerr" // parseFunc parses a function section. func (parser *ParsingOperation) parseFuncSection () ( section *FuncSection, err error, ) { err = parser.expect(lexer.TokenKindName) if err != nil { return } section = &FuncSection { location: parser.token.Location() } // get permission err = parser.nextToken(lexer.TokenKindPermission) if err != nil { return } section.permission = parser.token.Value().(types.Permission) // get name err = parser.nextToken(lexer.TokenKindName) if err != nil { return } section.name = parser.token.Value().(string) // get arguments err = parser.nextToken(lexer.TokenKindNewline) if err != nil { return } err = parser.nextToken() if err != nil { return } err = parser.parseFuncArguments(section) if err != nil { return } return } // parseFuncArguments parses a function's inputs, outputs, and reciever if that // exists. func (parser *ParsingOperation) parseFuncArguments ( into *FuncSection, ) ( err error, ) { for { // if we've left the block, stop parsing if !parser.token.Is(lexer.TokenKindIndent) || parser.token.Value().(int) != 1 { if into.receiver != nil { err = parser.token.NewError ( "func section terminated without a " + "separator token", infoerr.ErrorKindError) } return } // determine whether this is an input, output, or the method // reciever err = parser.nextToken ( lexer.TokenKindAt, lexer.TokenKindLessThan, lexer.TokenKindGreaterThan, lexer.TokenKindSeparator) if err != nil { return } startToken := parser.token if parser.token.Is(lexer.TokenKindSeparator) { // if we have encountered a separator, that means our // work is done here. err = parser.expect(lexer.TokenKindNewline) return } switch startToken.Kind() { case lexer.TokenKindAt: reciever := Declaration { } reciever.location = parser.token.Location() // get name err = parser.nextToken(lexer.TokenKindName) if err != nil { return } reciever.name = parser.token.Value().(string) err = parser.nextToken() if err != nil { return } if into.receiver != nil { err = startToken.NewError ( "cannot have more than one method " + "receiver", infoerr.ErrorKindError) return } else { into.receiver = &reciever } err = parser.expect(lexer.TokenKindNewline) if err != nil { return } err = parser.nextToken() if err != nil { return } case lexer.TokenKindGreaterThan: input := Declaration { } input.location = parser.token.Location() // get name err = parser.nextToken(lexer.TokenKindName) if err != nil { return } input.name = parser.token.Value().(string) err = parser.nextToken() if err != nil { return } into.inputs = append(into.inputs, input) err = parser.expect(lexer.TokenKindNewline) if err != nil { return } err = parser.nextToken() if err != nil { return } case lexer.TokenKindLessThan: output := FuncOutput { } output.location = parser.token.Location() // get name err = parser.nextToken(lexer.TokenKindName) if err != nil { return } output.name = parser.token.Value().(string) err = parser.nextToken() if err != nil { return } // parse default value if parser.token.Is(lexer.TokenKindNewline) { err = parser.nextToken() if err != nil { return } output.defaultValue, err = parser.parseInitializationValues(1) into.outputs = append(into.outputs, output) if err != nil { return } } else { output.defaultValue, err = parser.parseArgument() into.outputs = append(into.outputs, output) if err != nil { return } err = parser.expect(lexer.TokenKindNewline) if err != nil { return } err = parser.nextToken() if err != nil { return } } } } }