/* * c_graph.c - (Un)Directed, (un)weighted Graph interface * * Copyright (C) 2014 Tobias Boege * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, * MA 02110-1301, USA. */ #define __C_GRAPH_C #include #include "gambas.h" #include "c_graph.h" static GB_HASHTABLE interfaces; BEGIN_METHOD_VOID(Graph_init) GB.HashTable.New(&interfaces, GB_COMP_BINARY); END_METHOD static void enum_func(void *x) { GB.Free(&x); } BEGIN_METHOD_VOID(Graph_exit) GB.HashTable.Enum(interfaces, (GB_HASHTABLE_ENUM_FUNC) enum_func); GB.HashTable.Free(&interfaces); END_METHOD BEGIN_METHOD_VOID(Graph_NoMethod) GB.Error("This method is not implemented."); END_METHOD BEGIN_PROPERTY(Graph_NoProperty) GB.Error("This property is not implemented."); END_PROPERTY BEGIN_METHOD(Graph_call, GB_BOOLEAN d; GB_BOOLEAN w) GB_CLASS GraphMatrixClass; GB.Push(2, GB_T_BOOLEAN, VARGOPT(d, 0), GB_T_BOOLEAN, VARGOPT(w, 0)); GraphMatrixClass = GB.FindClass("GraphMatrix"); GB.ReturnObject(GB.New(GraphMatrixClass, NULL, (void *) (intptr_t) 2)); END_METHOD #define get_func(func, arg, ret, need) \ do { \ GB_FUNCTION f; \ \ err = #func; \ if (GB.GetFunction(&f, _object, #func, arg, ret)) { \ if (need) \ goto error; \ else /* Clear error */ \ GB.Error(NULL); \ desc->func = NULL; \ } else { \ desc->func = f.desc; \ } \ } while(0) GRAPH_DESC *get_desc(void *_object) { GRAPH_DESC *desc; const char *err; GB.Alloc((void **) &desc, sizeof(*desc)); get_func(_getVertex, "s", NULL, 0); get_func(_getEdge, "ss", NULL, 0); get_func(_nextVertex, NULL, "s", 0); get_func(_nextEdge, NULL, "String[]", 0); get_func(_countVertices, NULL, "i", 0); get_func(_countEdges, NULL, "i", 0); get_func(_nextInEdge, NULL, "String[]", 0); get_func(_nextOutEdge, NULL, "String[]", 0); get_func(_nextAdjacent, NULL, "s", 0); get_func(_vertexProperty, ".", "b", 0); get_func(_edgeProperty, ".", "b", 0); get_func(_vertexUnknown, ".", "v", 0); get_func(_edgeUnknown, ".", "v", 0); return desc; error: GB.Error("Method \"&1\" not found", err); GB.Free((void **) &desc); return NULL; } #define THIS ((CGRAPH *) _object) BEGIN_METHOD_VOID(Graph_new) GRAPH_DESC *desc; char *name = GB.GetClassName(THIS); size_t len = GB.StringLength(name); if (GB.HashTable.Get(interfaces, name, len, (void **) &desc)) { desc = get_desc(THIS); GB.HashTable.Add(interfaces, name, len, desc); } THIS->desc = desc; THIS->vertex = NULL; GB.Array.New(&THIS->edge, GB_T_STRING, 2); THIS->tag.type = GB_T_NULL; END_METHOD BEGIN_METHOD_VOID(Graph_free) GB.StoreVariant(NULL, &THIS->tag); GB.Unref(&THIS->edge); GB.FreeString(&THIS->vertex); END_METHOD BEGIN_PROPERTY(Graph_Tag) if (READ_PROPERTY) { GB.ReturnVariant(&THIS->tag); return; } GB.StoreVariant(PROP(GB_VARIANT), &THIS->tag); END_PROPERTY #define SET_VERTEX() \ do { \ GB.FreeString(&THIS->vertex); \ THIS->vertex = GB.NewString(STRING(vert), LENGTH(vert));\ } while (0) #define SET_VERTEX_P() \ do { \ GB.FreeString(&THIS->vertex); \ THIS->vertex = GB.NewString(PSTRING(), PLENGTH()); \ } while (0) #define SET_EDGE() \ do { \ GB.StoreString(ARG(src), GB.Array.Get(THIS->edge, 0)); \ GB.StoreString(ARG(dst), GB.Array.Get(THIS->edge, 1)); \ } while (0) #define SET_EDGE_P() \ do { \ GB.StoreObject(VPROP(GB_OBJECT), &THIS->edge); \ } while (0) BEGIN_PROPERTY(Graph_Vertex) if (READ_PROPERTY) { GB.ReturnString(THIS->vertex); return; } SET_VERTEX_P(); END_PROPERTY BEGIN_PROPERTY(Graph_Edge) if (READ_PROPERTY) { GB.ReturnObject(THIS->edge); return; } SET_EDGE_P(); END_PROPERTY GB_DESC CGraph[] = { GB_DECLARE("Graph", sizeof(CGRAPH)), GB_NOT_CREATABLE(), GB_STATIC_METHOD("_init", NULL, Graph_init, NULL), GB_STATIC_METHOD("_exit", NULL, Graph_exit, NULL), GB_STATIC_METHOD("_call", "Graph", Graph_call, "[(Directed)b(Weighted)b]"), GB_METHOD("_new", NULL, Graph_new, NULL), GB_METHOD("_free", NULL, Graph_free, NULL), /* Graph */ GB_METHOD("_getVertex", ".Graph.Vertex", Graph_NoMethod, "(Vertex)s"), GB_METHOD("_getEdge", ".Graph.Edge", Graph_NoMethod, "(Src)s(Dst)s"), GB_METHOD("_nextVertex", "s", Graph_NoMethod, NULL), GB_METHOD("_nextEdge", "String[]", Graph_NoMethod, NULL), GB_METHOD("_countVertices", "i", Graph_NoMethod, NULL), GB_METHOD("_countEdges", "i", Graph_NoMethod, NULL), /* Vertex */ GB_METHOD("_nextInEdge", "String[]", Graph_NoMethod, NULL), GB_METHOD("_nextOutEdge", "String[]", Graph_NoMethod, NULL), /* Public */ GB_METHOD("Add", ".Graph.Vertex", Graph_NoMethod, "(Name)s"), GB_METHOD("Remove", NULL, Graph_NoMethod, "(Vertex)s"), GB_METHOD("Connect", ".Graph.Edge", Graph_NoMethod, "(Src)s(Dst)s"), GB_METHOD("Disconnect", NULL, Graph_NoMethod, "(Src)s(Dst)s"), GB_PROPERTY("Tag", "v", Graph_Tag), GB_PROPERTY("_Vertex", "s", Graph_Vertex), GB_PROPERTY("_Edge", "String[]", Graph_Edge), GB_PROPERTY_SELF("Vertices", ".Graph.Vertices"), GB_PROPERTY_SELF("Edges", ".Graph.Edges"), GB_PROPERTY_SELF("InEdges", ".Graph.InEdges"), GB_PROPERTY_SELF("OutEdges", ".Graph.OutEdges"), GB_PROPERTY_SELF("Adjacent", ".Graph.Adjacent"), GB_END_DECLARE }; /* * Call another method/property of this class and fail if not found. */ #define CALL_GRAPH(func, narg) \ do { \ GB_FUNCTION f; \ \ f.desc = THIS->desc->func; \ f.object = THIS; \ GB.Call(&f, narg, 0); \ } while (0) #define CALL_GRAPH_VAL(func, narg, arg, ret, retval) \ do { \ GB_FUNCTION f; \ \ if (GB.GetFunction(&f, _object, func, arg, ret)) { \ GB.Error("Method " func " not found"); \ return; \ } \ retval = GB.Call(&f, narg, 0); \ } while (0) /* * Try to call another method/property of this class. If found, return * afterwards. If not, continue. */ #define TRY_CALL_GRAPH(func, narg) \ do { \ if (THIS->desc->func) { \ CALL_GRAPH(func, narg); \ return; \ } \ } while (0) BEGIN_METHOD_VOID(GraphVertices_next) CALL_GRAPH(_nextVertex, 0); END_METHOD BEGIN_METHOD(GraphVertices_get, GB_STRING vert) SET_VERTEX(); GB.ReturnSelf(THIS); END_METHOD BEGIN_PROPERTY(GraphVertices_Count) CALL_GRAPH(_countVertices, 0); /* Default: enumerate the vertices, counting. Then use * TRY_CALL_GRAPH. */ END_PROPERTY GB_DESC CGraphVertices[] = { GB_DECLARE_VIRTUAL(".Graph.Vertices"), GB_METHOD("_next", "s", GraphVertices_next, NULL), GB_METHOD("_get", ".Graph.Vertex", GraphVertices_get, "(Vertex)s"), GB_PROPERTY_READ("Count", "i", GraphVertices_Count), GB_END_DECLARE }; BEGIN_METHOD_VOID(GraphEdges_next) CALL_GRAPH(_nextEdge, 0); END_METHOD BEGIN_METHOD(GraphEdges_get, GB_STRING src; GB_STRING dst) SET_EDGE(); GB.ReturnSelf(THIS); END_METHOD BEGIN_PROPERTY(GraphEdges_Count) CALL_GRAPH(_countEdges, 0); /* Default: enumerate the edges, counting. Then use * TRY_CALL_GRAPH. */ END_PROPERTY GB_DESC CGraphEdges[] = { GB_DECLARE_VIRTUAL(".Graph.Edges"), GB_METHOD("_next", "String[]", GraphEdges_next, NULL), GB_METHOD("_get", ".Graph.Edge", GraphEdges_get, "(Src)s(Dst)s"), GB_METHOD("Exist", "b", Graph_NoMethod, "(Src)s(Dst)s"), GB_PROPERTY_READ("Count", "i", GraphEdges_Count), GB_END_DECLARE }; BEGIN_METHOD(GraphInEdges_get, GB_STRING vert) SET_VERTEX(); GB.ReturnSelf(THIS); END_METHOD BEGIN_METHOD_VOID(GraphInEdges_next) CALL_GRAPH(_nextInEdge, 0); END_METHOD GB_DESC CGraphInEdges[] = { GB_DECLARE_VIRTUAL(".Graph.InEdges"), GB_METHOD("_get", ".Graph.InEdges", GraphInEdges_get, "(Vertex)s"), GB_METHOD("_next", "String[]", GraphInEdges_next, NULL), GB_END_DECLARE }; BEGIN_METHOD(GraphOutEdges_get, GB_STRING vert) SET_VERTEX(); GB.ReturnSelf(THIS); END_METHOD BEGIN_METHOD_VOID(GraphOutEdges_next) CALL_GRAPH(_nextOutEdge, 0); END_METHOD GB_DESC CGraphOutEdges[] = { GB_DECLARE_VIRTUAL(".Graph.OutEdges"), GB_METHOD("_get", ".Graph.OutEdges", GraphOutEdges_get, "(Vertex)s"), GB_METHOD("_next", "String[]", GraphOutEdges_next, NULL), GB_END_DECLARE }; BEGIN_METHOD(GraphAdjacent_get, GB_STRING vert) SET_VERTEX(); GB.ReturnSelf(THIS); END_METHOD BEGIN_METHOD_VOID(GraphAdjacent_next) CALL_GRAPH(_nextAdjacent, 0); END_METHOD GB_DESC CGraphAdjacent[] = { GB_DECLARE_VIRTUAL(".Graph.Adjacent"), GB_METHOD("_get", ".Graph.Adjacent", GraphAdjacent_get, "(Vertex)s"), GB_METHOD("_next", "s", GraphAdjacent_next, NULL), GB_END_DECLARE }; BEGIN_PROPERTY(GraphVertex_InDegree) /* Call ??? */ /* Default: enumerate */ assert(0); END_PROPERTY BEGIN_PROPERTY(GraphVertex_OutDegree) /* Call ??? */ /* Default: enumerate */ assert(0); END_PROPERTY BEGIN_METHOD_VOID(GraphVertex_property) CALL_GRAPH(_vertexProperty, GB.NParam()); END_METHOD BEGIN_METHOD_VOID(GraphVertex_unknown) CALL_GRAPH(_vertexUnknown, GB.NParam()); END_METHOD GB_DESC CGraphVertex[] = { GB_DECLARE_VIRTUAL(".Graph.Vertex"), GB_PROPERTY_READ("InDegree", "i", GraphVertex_InDegree), GB_PROPERTY_READ("OutDegree", "i", GraphVertex_OutDegree), GB_METHOD("_property", "b", GraphVertex_property, "."), GB_METHOD("_unknown", "v", GraphVertex_unknown, "."), GB_END_DECLARE }; BEGIN_PROPERTY(GraphEdge_Src) GB.ReturnString(GB.Array.Get(THIS->edge, 0)); END_PROPERTY BEGIN_PROPERTY(GraphEdge_Dst) GB.ReturnString(GB.Array.Get(THIS->edge, 1)); END_PROPERTY BEGIN_METHOD_VOID(GraphEdge_property) CALL_GRAPH(_edgeProperty, GB.NParam()); END_METHOD BEGIN_METHOD_VOID(GraphEdge_unknown) CALL_GRAPH(_edgeUnknown, GB.NParam()); END_METHOD GB_DESC CGraphEdge[] = { GB_DECLARE_VIRTUAL(".Graph.Edge"), GB_PROPERTY_READ("Src", "s", GraphEdge_Src), GB_PROPERTY_READ("Dst", "s", GraphEdge_Dst), GB_PROPERTY_READ("Source", "s", GraphEdge_Src), GB_PROPERTY_READ("Destination", "s", GraphEdge_Dst), GB_METHOD("_property", "b", GraphEdge_property, "."), GB_METHOD("_unknown", "v", GraphEdge_unknown, "."), GB_END_DECLARE };