/// <summary> /// Parse given input string in the concrete grammar. /// </summary> /// <param name="str">Input string to be parsed.</param> /// <param name="cat">Category (Type) to parse.</param> /// <param name="heuristics">Heuristic (see the GF C runtime docs).</param> /// <param name="Callback1">Callback function.</param> /// <param name="Callback2">Callback function.</param> /// <returns>Enumerates pairs of (abstract grammar) expressions and corresponding probability.</returns> public IEnumerable <Tuple <Expression, float> > Parse(string str, Type cat = null, double?heuristics = null, Action Callback1 = null, Action Callback2 = null) { var parse_pool = new NativeGU.NativeMemoryPool(); var exn = new NativeGU.NativeExceptionContext(parse_pool); cat = cat ?? Grammar.StartCat; using (var nativeStr = new Native.NativeString(str)) { var result_pool = new NativeGU.NativeMemoryPool(); var callbackMap = Native.pgf_new_callbacks_map(this.Ptr, parse_pool.Ptr); var iterator = Native.pgf_parse_with_heuristics(this.Ptr, cat.Ptr, nativeStr.Ptr, heuristics ?? -1, callbackMap, exn.Ptr, parse_pool.Ptr, result_pool.Ptr); if (iterator == IntPtr.Zero || exn.IsRaised) { throw new PGF.Exceptions.ParseErrorException(); } else { foreach (var ptr in NativeGU.IteratorToIEnumerable(iterator, parse_pool.Ptr)) { var exprProb = (Native.PgfExprProb)Marshal.PtrToStructure(ptr, typeof(Native.PgfExprProb)); yield return(Tuple.Create(Expression.FromPtr(exprProb.expr, result_pool), exprProb.prob)); } } } }
/// <summary> /// Get the bracketed (structured) linearization of an expression. /// </summary> /// <param name="e"></param> /// <returns></returns> public Bracket BracketedLinearize(Expression e) { var tmp_pool = new NativeGU.NativeMemoryPool(); var exn = new NativeGU.NativeExceptionContext(tmp_pool); var cts = Native.pgf_lzr_concretize(Ptr, e.Ptr, exn.Ptr, tmp_pool.Ptr); var ctree = IntPtr.Zero; NativeGU.gu_enum_next(cts, ref ctree, tmp_pool.Ptr); if (ctree == IntPtr.Zero) { return(null); } ctree = Native.pgf_lzr_wrap_linref(ctree, tmp_pool.Ptr); var builder = new Bracket.BracketBuilder(); var mem = Marshal.AllocHGlobal(Marshal.SizeOf <Native.PgfLinFuncs>()); Marshal.StructureToPtr <Native.PgfLinFuncs>(builder.LinFuncs, mem, false); Native.pgf_lzr_linearize(Ptr, ctree, 0, ref mem, tmp_pool.Ptr); var b = builder.Build(); Marshal.FreeHGlobal(mem); return(b); }
/// <summary> /// Read grammar from PGF file. /// </summary> /// <param name="fn">filename</param> /// <returns></returns> public static Grammar FromFile(string fn) { var obj = new Grammar(); var exn = new NativeGU.NativeExceptionContext(new NativeGU.NativeMemoryPool()); obj.pool = new NativeGU.NativeMemoryPool(); obj._ptr = Native.pgf_read(fn, obj.pool.Ptr, exn.Ptr); if (exn.IsRaised) { throw new PGF.Exceptions.PGFException($"Could not read PGF from file {fn}. ({System.IO.Directory.GetCurrentDirectory()})"); } return(obj); }
/// <summary> /// Get all possible linearization for an expression (see <see cref="Linearize(Expression)"/>). /// </summary> /// <param name="e"></param> /// <returns></returns> public IEnumerable <string> LinearizeAll(Expression e) { var tmp_pool = new NativeGU.NativeMemoryPool(); var exn = new NativeGU.NativeExceptionContext(tmp_pool); var cts = Native.pgf_lzr_concretize(Ptr, e.Ptr, exn.Ptr, tmp_pool.Ptr); if (exn.IsRaised || cts == IntPtr.Zero) { throw new PGF.Exceptions.PGFException("Could not linearize the abstract tree."); } return(NativeGU.IteratorToIEnumerable(cts, tmp_pool.Ptr).Select(LinearizeCnc)); }
/// <summary> /// Enumerate all expressions in the given category. /// </summary> /// <param name="cat"></param> /// <returns></returns> public IEnumerable <Expression> GenerateAll(Type cat = null) { cat = cat ?? StartCat; var tmp_pool = new NativeGU.NativeMemoryPool(); var exn = new NativeGU.NativeExceptionContext(tmp_pool); var result_pool = new NativeGU.NativeMemoryPool(); IntPtr ptr = IntPtr.Zero; var iterator = Native.pgf_generate_all(this._ptr, cat.Ptr, exn.Ptr, tmp_pool.Ptr, result_pool.Ptr); return(NativeGU.IteratorToIEnumerable(iterator, tmp_pool.Ptr).Select(p => { var exprProb = Marshal.PtrToStructure <Native.PgfExprProb>(ptr); return Expression.FromPtr(exprProb.expr, result_pool); })); }
/// <summary> /// Reduce expression. /// </summary> /// <param name="expr"></param> /// <returns></returns> public Expression Compute(Expression expr) { var tmp_pool = new NativeGU.NativeMemoryPool(); var exn = new NativeGU.NativeExceptionContext(tmp_pool); var result_pool = new NativeGU.NativeMemoryPool(); var newExpr = Native.pgf_compute(_ptr, expr.Ptr, exn.Ptr, pool.Ptr, result_pool.Ptr); if (exn.IsRaised || newExpr == IntPtr.Zero) { throw new PGF.Exceptions.PGFException("Could not reduce expression."); } else { return(Expression.FromPtr(newExpr, result_pool)); } }
/* * [StructLayout(LayoutKind.Sequential)] * public struct PGFClosure * { * public GuMapItor fn; * public IntPtr grammar; * public IntPtr obj; * }*/ public static string ReadString(Action <IntPtr, NativeGU.NativeExceptionContext> f) { var pool = new NativeGU.NativeMemoryPool(); var exn = new NativeGU.NativeExceptionContext(pool); var sbuf = NativeGU.gu_new_string_buf(pool.Ptr); var output = NativeGU.gu_string_buf_out(sbuf); f(output, exn); if (exn.IsRaised) { throw new Exception(); } var strPtr = NativeGU.gu_string_buf_freeze(sbuf, pool.Ptr); var str = Native.NativeString.StringFromNativeUtf8(strPtr); return(str); }
public static void MapIter(MapIterFunc iter, IntPtr _pgf, Action <string, IntPtr> action) { var pool = new NativeGU.NativeMemoryPool(); var exn = new NativeGU.NativeExceptionContext(pool); var f = new GuMapItor() { fn = (self, key, value, _err) => { action(Native.NativeString.StringFromNativeUtf8(key), value); if (exn.IsRaised) { throw new Exception(); } } }; iter(_pgf, ref f, exn.Ptr); }
/// <summary> /// Linearize expression, i.e. produce a string in the concrete grammar from an expression in the abstract grammar. /// </summary> /// <param name="e"></param> /// <returns></returns> public string Linearize(Expression e) { var tmp_pool = new NativeGU.NativeMemoryPool(); var exn = new NativeGU.NativeExceptionContext(tmp_pool); var buf = NativeGU.gu_new_string_buf(tmp_pool.Ptr); var out_ = NativeGU.gu_string_buf_out(buf); Native.pgf_linearize(Ptr, e.Ptr, out_, exn.Ptr); if (exn.IsRaised) { throw new PGF.Exceptions.PGFException(); } else { var cstr = NativeGU.gu_string_buf_freeze(buf, tmp_pool.Ptr); return(Native.NativeString.StringFromNativeUtf8(cstr)); } }
private T Read <T>(Func <IntPtr, IntPtr, IntPtr, IntPtr> reader, Func <IntPtr, NativeGU.NativeMemoryPool, T> factory, string str) { var tmp_pool = new NativeGU.NativeMemoryPool(); var exn = new NativeGU.NativeExceptionContext(tmp_pool); var result_pool = new NativeGU.NativeMemoryPool(); using (var strNative = new Native.NativeString(str)) { var in_ = NativeGU.gu_data_in(strNative.Ptr, strNative.Size, tmp_pool.Ptr); var expr = reader(in_, result_pool.Ptr, exn.Ptr); if (exn.IsRaised || expr == IntPtr.Zero) { throw new PGF.Exceptions.ParseErrorException(); } else { return(factory(expr, result_pool)); } } }
private string LinearizeCnc(IntPtr cnc) { var tmp_pool = new NativeGU.NativeMemoryPool(); var exn = new NativeGU.NativeExceptionContext(tmp_pool); var sbuf = NativeGU.gu_new_string_buf(tmp_pool.Ptr); var out_ = NativeGU.gu_string_buf_out(sbuf); var wrapped = Native.pgf_lzr_wrap_linref(cnc, tmp_pool.Ptr); Native.pgf_lzr_linearize_simple(Ptr, wrapped, 0, out_, exn.Ptr, tmp_pool.Ptr); if (exn.IsRaised) { throw new PGF.Exceptions.PGFException("Could not linearize abstract tree."); } var cstr = NativeGU.gu_string_buf_freeze(sbuf, tmp_pool.Ptr); return(Native.NativeString.StringFromNativeUtf8(cstr)); }