package vm import ( "errors" "fmt" "strconv" "github.com/mediocregopher/ginger/lang" "llvm.org/llvm/bindings/go/llvm" ) type op interface { inType() valType outType() valType build(*Module) (llvm.Value, error) } type valType struct { term lang.Term llvm llvm.Type } func (vt valType) isInt() bool { return lang.Equal(Int, vt.term) } func (vt valType) eq(vt2 valType) bool { return lang.Equal(vt.term, vt2.term) && vt.llvm == vt2.llvm } // primitive valTypes var ( valTypeInt = valType{term: Int, llvm: llvm.Int64Type()} ) //////////////////////////////////////////////////////////////////////////////// // most types don't have an input, so we use this as a shortcut type voidIn struct{} func (voidIn) inType() valType { return valType{ term: lang.Tuple{}, llvm: llvm.VoidType(), } } //////////////////////////////////////////////////////////////////////////////// type intOp struct { voidIn c lang.Const } func (io intOp) outType() valType { return valTypeInt } func (io intOp) build(mod *Module) (llvm.Value, error) { ci, err := strconv.ParseInt(string(io.c), 10, 64) if err != nil { return llvm.Value{}, err } return llvm.ConstInt(llvm.Int64Type(), uint64(ci), false), nil } //////////////////////////////////////////////////////////////////////////////// type tupOp struct { voidIn els []op } func (to tupOp) outType() valType { termTypes := make(lang.Tuple, len(to.els)) llvmTypes := make([]llvm.Type, len(to.els)) for i := range to.els { elValType := to.els[i].outType() termTypes[i] = elValType.term llvmTypes[i] = elValType.llvm } vt := valType{term: lang.Tuple{Tuple, termTypes}} if len(llvmTypes) == 0 { vt.llvm = llvm.VoidType() } else { vt.llvm = llvm.StructType(llvmTypes, false) } return vt } func (to tupOp) build(mod *Module) (llvm.Value, error) { str := llvm.Undef(to.outType().llvm) var val llvm.Value var err error for i := range to.els { if val, err = to.els[i].build(mod); err != nil { str = mod.b.CreateInsertValue(str, val, i, "") } } return str, err } //////////////////////////////////////////////////////////////////////////////// type addOp struct { voidIn a, b op } func (ao addOp) outType() valType { return ao.a.outType() } func (ao addOp) build(mod *Module) (llvm.Value, error) { av, err := ao.a.build(mod) if err != nil { return llvm.Value{}, err } bv, err := ao.b.build(mod) if err != nil { return llvm.Value{}, err } return mod.b.CreateAdd(av, bv, ""), nil } //////////////////////////////////////////////////////////////////////////////// func termToOp(t lang.Term) (op, error) { aPat := func(a lang.Atom) lang.Tuple { return lang.Tuple{lang.AAtom, a} } cPat := func(t lang.Term) lang.Tuple { return lang.Tuple{lang.AConst, t} } tPat := func(el ...lang.Term) lang.Tuple { return lang.Tuple{Tuple, lang.Tuple(el)} } if !lang.Match(tPat(aPat(lang.AUnder), lang.TDblUnder), t) { return nil, fmt.Errorf("term %v does not look like a vm command", t) } k := t.(lang.Tuple)[0].(lang.Atom) v := t.(lang.Tuple)[1] // for when v is a Tuple argument, convenience function for casting vAsTup := func(n int) ([]op, error) { vop, err := termToOp(v) if err != nil { return nil, err } vtup, ok := vop.(tupOp) if !ok || len(vtup.els) != n { return nil, fmt.Errorf("op %v expects a %d-tuple argument", k, n) } return vtup.els, nil } switch k { case Int: if !lang.Match(cPat(lang.AUnder), v) { return nil, errors.New("int requires constant arg") } return intOp{c: v.(lang.Const)}, nil case Tuple: if !lang.Match(lang.Tuple{Tuple, lang.AUnder}, v) { return nil, errors.New("tup requires tuple arg") } tup := v.(lang.Tuple) tc := tupOp{els: make([]op, len(tup))} var err error for i := range tup { if tc.els[i], err = termToOp(tup[i]); err != nil { return nil, err } } return tc, nil case Add: els, err := vAsTup(2) if err != nil { return nil, err } else if !els[0].outType().eq(valTypeInt) { return nil, errors.New("add args must be numbers of the same type") } else if !els[1].outType().eq(valTypeInt) { return nil, errors.New("add args must be numbers of the same type") } return addOp{a: els[0], b: els[1]}, nil default: return nil, fmt.Errorf("op %v unknown, or its args are malformed", t) } }