func (sw *SourceWriter) writeInstruction(n *parser.Instruction) { chld := n.Children() name := chld[0].(*parser.Name) if parser.IsBranch(name.Data) { sw.nestLevel++ } else { sw.nestLevel = 1 } sw.writeList(chld) }
func (*OptShorthand) Process(ast *parser.AST) (err error) { var instr *parser.Instruction var num parser.NumericNode var argv []parser.Node var name *parser.Name var word cpu.Word var ok bool nodes := ast.Root.Children() for i := range nodes { if instr, ok = nodes[i].(*parser.Instruction); !ok { continue } argv = instr.Children() name = argv[0].(*parser.Name) if name.Data != "ife" && name.Data != "ifn" { continue } if len(argv) < 3 { continue } num, ok = argv[1].(*parser.Expression).Children()[0].(parser.NumericNode) if !ok { continue } if word, err = num.Parse(); err != nil { return err } if ok && (word == 0xffff || word <= 0x1e) { argv[1], argv[2] = argv[2], argv[1] } } return }
// fixFunctionReturns finds 'return' instructions and replaces them // with appropriate `set pc, $__<name>_epilog` versions. func fixFunctionReturns(ast *parser.AST, f *parser.Function) { var instr *parser.Instruction var expr *parser.Expression var file, line, col int var code []parser.Node var ok bool name := f.Children()[0].(*parser.Name) exitLabel := "$__" + name.Data + "_epilog" list := f.Children()[1:] for i := range list { if instr, ok = list[i].(*parser.Instruction); !ok { continue } code = instr.Children() name = code[0].(*parser.Name) if name.Data != "return" { continue } file, line, col = instr.File(), instr.Line(), instr.Col() name.Data = "set" code = append(code, nil, nil) expr = parser.NewExpression(file, line, col) expr.SetChildren([]parser.Node{ parser.NewName(file, line, col, "pc"), }) code[1] = expr expr = parser.NewExpression(file, line, col) expr.SetChildren([]parser.Node{ parser.NewName(file, line, col, exitLabel), }) code[2] = expr instr.SetChildren(code) } }
// parseConstants finds constant definitions and references to them. // It replaces the references with the nodes denoting the value of // the respective constants. func parseConstants(ast *parser.AST, list []parser.Node) (out []parser.Node, err error) { var instr *parser.Instruction var expr *parser.Expression var name *parser.Name var ok bool consts := make(map[string][]parser.Node) for i := 0; i < len(list); i++ { if instr, ok = list[i].(*parser.Instruction); !ok { continue } name = instr.Children()[0].(*parser.Name) if name.Data != "equ" { continue } expr = instr.Children()[1].(*parser.Expression) name = expr.Children()[0].(*parser.Name) if _, ok = consts[name.Data]; ok { return nil, NewBuildError( ast.Files[instr.File()], instr.Line(), instr.Col(), "Duplicate constant %q.", name.Data) } expr = instr.Children()[2].(*parser.Expression) consts[name.Data] = expr.Children() // Remove constant node from AST. copy(list[i:], list[i+1:]) list = list[:len(list)-1] i-- } for k, v := range consts { list = replaceConstantRef(list, k, v) } return list, nil }