/************************************************************************* * Copyright (c) 2011 AT&T Intellectual Property * All rights reserved. This program and the accompanying materials * are made available under the terms of the Eclipse Public License v1.0 * which accompanies this distribution, and is available at * http://www.eclipse.org/legal/epl-v10.html * * Contributors: Details at https://graphviz.org *************************************************************************/ #pragma once #include #include "cdt.h" #ifdef __cplusplus extern "C" { #endif #ifdef _WIN32 # ifdef EXPORT_CGRAPH # define CGRAPH_API __declspec(dllexport) # else # define CGRAPH_API __declspec(dllimport) # endif #else # define CGRAPH_API /* nothing */ #endif #ifndef FALSE #define FALSE (0) #endif #ifndef TRUE #define TRUE (!FALSE) #endif #ifndef NOT #define NOT(x) (!(x)) #endif #ifndef NIL #define NIL(type) ((type)0) #endif #define NILgraph NIL(Agraph_t*) #define NILnode NIL(Agnode_t*) #define NILedge NIL(Agedge_t*) #define NILsym NIL(Agsym_t*) typedef uint64_t IDTYPE; /* forward struct type declarations */ typedef struct Agtag_s Agtag_t; typedef struct Agobj_s Agobj_t; /* generic object header */ typedef struct Agraph_s Agraph_t; /* graph, subgraph (or hyperedge) */ typedef struct Agnode_s Agnode_t; /* node (atom) */ typedef struct Agedge_s Agedge_t; /* node pair */ typedef struct Agdesc_s Agdesc_t; /* graph descriptor */ typedef struct Agmemdisc_s Agmemdisc_t; /* memory allocator */ typedef struct Agiddisc_s Agiddisc_t; /* object ID allocator */ typedef struct Agiodisc_s Agiodisc_t; /* IO services */ typedef struct Agdisc_s Agdisc_t; /* union of client discipline methods */ typedef struct Agdstate_s Agdstate_t; /* client state (closures) */ typedef struct Agsym_s Agsym_t; /* string attribute descriptors */ typedef struct Agattr_s Agattr_t; /* string attribute container */ typedef struct Agcbdisc_s Agcbdisc_t; /* client event callbacks */ typedef struct Agcbstack_s Agcbstack_t; /* enclosing state for cbdisc */ typedef struct Agclos_s Agclos_t; /* common fields for graph/subgs */ typedef struct Agrec_s Agrec_t; /* generic runtime record */ typedef struct Agdatadict_s Agdatadict_t; /* set of dictionaries per graph */ typedef struct Agedgepair_s Agedgepair_t; /* the edge object */ typedef struct Agsubnode_s Agsubnode_t; /* Header of a user record. These records are attached by client programs dynamically at runtime. A unique string ID must be given to each record attached to the same object. Cgraph has functions to create, search for, and delete these records. The records are maintained in a circular list, with obj->data pointing somewhere in the list. The search function has an option to lock this pointer on a given record. The application must be written so only one such lock is outstanding at a time. */ struct Agrec_s { char *name; Agrec_t *next; /* following this would be any programmer-defined data */ }; /* Object tag for graphs, nodes, and edges. While there may be several structs for a given node or edges, there is only one unique ID (per main graph). */ struct Agtag_s { unsigned objtype:2; /* see literal tags below */ unsigned mtflock:1; /* move-to-front lock, see above */ unsigned attrwf:1; /* attrs written (parity, write.c) */ unsigned seq:(sizeof(unsigned) * 8 - 4); /* sequence no. */ IDTYPE id; /* client ID */ }; /* object tags */ #define AGRAPH 0 /* can't exceed 2 bits. see Agtag_t. */ #define AGNODE 1 #define AGOUTEDGE 2 #define AGINEDGE 3 /* (1 << 1) indicates an edge tag. */ #define AGEDGE AGOUTEDGE /* synonym in object kind args */ /* a generic graph/node/edge header */ struct Agobj_s { Agtag_t tag; Agrec_t *data; }; #define AGTAG(obj) (((Agobj_t*)(obj))->tag) #define AGTYPE(obj) (AGTAG(obj).objtype) #define AGID(obj) (AGTAG(obj).id) #define AGSEQ(obj) (AGTAG(obj).seq) #define AGATTRWF(obj) (AGTAG(obj).attrwf) #define AGDATA(obj) (((Agobj_t*)(obj))->data) /* This is the node struct allocated per graph (or subgraph). It resides in the n_dict of the graph. The node set is maintained by libdict, but transparently to libgraph callers. Every node may be given an optional string name at its time of creation, or it is permissible to pass NIL(char*) for the name. */ struct Agsubnode_s { /* the node-per-graph-or-subgraph record */ Dtlink_t seq_link; /* must be first */ Dtlink_t id_link; Agnode_t *node; /* the object */ Dtlink_t *in_id, *out_id; /* by node/ID for random access */ Dtlink_t *in_seq, *out_seq; /* by node/sequence for serial access */ }; struct Agnode_s { Agobj_t base; Agraph_t *root; Agsubnode_t mainsub; /* embedded for main graph */ }; struct Agedge_s { Agobj_t base; Dtlink_t id_link; /* main graph only */ Dtlink_t seq_link; Agnode_t *node; /* the endpoint node */ }; struct Agedgepair_s { Agedge_t out, in; }; struct Agdesc_s { /* graph descriptor */ unsigned directed:1; /* if edges are asymmetric */ unsigned strict:1; /* if multi-edges forbidden */ unsigned no_loop:1; /* if no loops */ unsigned maingraph:1; /* if this is the top level graph */ unsigned flatlock:1; /* if sets are flattened into lists in cdt */ unsigned no_write:1; /* if a temporary subgraph */ unsigned has_attrs:1; /* if string attr tables should be initialized */ unsigned has_cmpnd:1; /* if may contain collapsed nodes */ }; /* disciplines for external resources needed by libgraph */ struct Agmemdisc_s { /* memory allocator */ void *(*open) (Agdisc_t*); /* independent of other resources */ void *(*alloc) (void *state, size_t req); void *(*resize) (void *state, void *ptr, size_t old, size_t req); void (*free) (void *state, void *ptr); void (*close) (void *state); }; struct Agiddisc_s { /* object ID allocator */ void *(*open) (Agraph_t * g, Agdisc_t*); /* associated with a graph */ long (*map) (void *state, int objtype, char *str, IDTYPE *id, int createflag); long (*alloc) (void *state, int objtype, IDTYPE id); void (*free) (void *state, int objtype, IDTYPE id); char *(*print) (void *state, int objtype, IDTYPE id); void (*close) (void *state); void (*idregister) (void *state, int objtype, void *obj); }; struct Agiodisc_s { int (*afread) (void *chan, char *buf, int bufsize); int (*putstr) (void *chan, const char *str); int (*flush) (void *chan); /* sync */ /* error messages? */ }; struct Agdisc_s { /* user's discipline */ Agmemdisc_t *mem; Agiddisc_t *id; Agiodisc_t *io; }; /* default resource disciplines */ CGRAPH_API extern Agmemdisc_t AgMemDisc; CGRAPH_API extern Agiddisc_t AgIdDisc; CGRAPH_API extern Agiodisc_t AgIoDisc; CGRAPH_API extern Agdisc_t AgDefaultDisc; struct Agdstate_s { void *mem; void *id; /* IO must be initialized and finalized outside Cgraph, * and channels (FILES) are passed as void* arguments. */ }; typedef void (*agobjfn_t) (Agraph_t * g, Agobj_t * obj, void *arg); typedef void (*agobjupdfn_t) (Agraph_t * g, Agobj_t * obj, void *arg, Agsym_t * sym); struct Agcbdisc_s { struct { agobjfn_t ins; agobjupdfn_t mod; agobjfn_t del; } graph, node, edge; }; struct Agcbstack_s { /* object event callbacks */ Agcbdisc_t *f; /* methods */ void *state; /* closure */ Agcbstack_t *prev; /* kept in a stack, unlike other disciplines */ }; struct Agclos_s { Agdisc_t disc; /* resource discipline functions */ Agdstate_t state; /* resource closures */ Dict_t *strdict; /* shared string dict */ uint64_t seq[3]; /* local object sequence number counter */ Agcbstack_t *cb; /* user and system callback function stacks */ unsigned char callbacks_enabled; /* issue user callbacks or hold them? */ Dict_t *lookup_by_name[3]; Dict_t *lookup_by_id[3]; }; struct Agraph_s { Agobj_t base; Agdesc_t desc; Dtlink_t link; Dict_t *n_seq; /* the node set in sequence */ Dict_t *n_id; /* the node set indexed by ID */ Dict_t *e_seq, *e_id; /* holders for edge sets */ Dict_t *g_dict; /* subgraphs - descendants */ Agraph_t *parent, *root; /* subgraphs - ancestors */ Agclos_t *clos; /* shared resources */ }; CGRAPH_API void agpushdisc(Agraph_t * g, Agcbdisc_t * disc, void *state); CGRAPH_API int agpopdisc(Agraph_t * g, Agcbdisc_t * disc); CGRAPH_API int agcallbacks(Agraph_t * g, int flag); /* return prev value */ /* graphs */ CGRAPH_API Agraph_t *agopen(char *name, Agdesc_t desc, Agdisc_t * disc); CGRAPH_API int agclose(Agraph_t * g); CGRAPH_API Agraph_t *agread(void *chan, Agdisc_t * disc); CGRAPH_API Agraph_t *agmemread(const char *cp); CGRAPH_API Agraph_t *agmemconcat(Agraph_t *g, const char *cp); CGRAPH_API void agreadline(int); CGRAPH_API void agsetfile(const char *); CGRAPH_API Agraph_t *agconcat(Agraph_t * g, void *chan, Agdisc_t * disc); CGRAPH_API int agwrite(Agraph_t * g, void *chan); CGRAPH_API int agisdirected(Agraph_t * g); CGRAPH_API int agisundirected(Agraph_t * g); CGRAPH_API int agisstrict(Agraph_t * g); CGRAPH_API int agissimple(Agraph_t * g); /* nodes */ CGRAPH_API Agnode_t *agnode(Agraph_t * g, char *name, int createflag); CGRAPH_API Agnode_t *agidnode(Agraph_t * g, IDTYPE id, int createflag); CGRAPH_API Agnode_t *agsubnode(Agraph_t * g, Agnode_t * n, int createflag); CGRAPH_API Agnode_t *agfstnode(Agraph_t * g); CGRAPH_API Agnode_t *agnxtnode(Agraph_t * g, Agnode_t * n); CGRAPH_API Agnode_t *aglstnode(Agraph_t * g); CGRAPH_API Agnode_t *agprvnode(Agraph_t * g, Agnode_t * n); CGRAPH_API Agsubnode_t *agsubrep(Agraph_t * g, Agnode_t * n); CGRAPH_API int agnodebefore(Agnode_t *u, Agnode_t *v); /* we have no shame */ /* edges */ CGRAPH_API Agedge_t *agedge(Agraph_t * g, Agnode_t * t, Agnode_t * h, char *name, int createflag); CGRAPH_API Agedge_t *agidedge(Agraph_t * g, Agnode_t * t, Agnode_t * h, IDTYPE id, int createflag); CGRAPH_API Agedge_t *agsubedge(Agraph_t * g, Agedge_t * e, int createflag); CGRAPH_API Agedge_t *agfstin(Agraph_t * g, Agnode_t * n); CGRAPH_API Agedge_t *agnxtin(Agraph_t * g, Agedge_t * e); CGRAPH_API Agedge_t *agfstout(Agraph_t * g, Agnode_t * n); CGRAPH_API Agedge_t *agnxtout(Agraph_t * g, Agedge_t * e); CGRAPH_API Agedge_t *agfstedge(Agraph_t * g, Agnode_t * n); CGRAPH_API Agedge_t *agnxtedge(Agraph_t * g, Agedge_t * e, Agnode_t * n); /* generic */ CGRAPH_API Agraph_t *agraphof(void* obj); CGRAPH_API Agraph_t *agroot(void* obj); CGRAPH_API int agcontains(Agraph_t *, void *); CGRAPH_API char *agnameof(void *); CGRAPH_API int agrelabel_node(Agnode_t * n, char *newname); CGRAPH_API int agdelete(Agraph_t * g, void *obj); CGRAPH_API int agdelsubg(Agraph_t * g, Agraph_t * sub); /* could be agclose */ CGRAPH_API int agdelnode(Agraph_t * g, Agnode_t * arg_n); CGRAPH_API int agdeledge(Agraph_t * g, Agedge_t * arg_e); CGRAPH_API int agobjkind(void *); /* strings */ CGRAPH_API char *agstrdup(Agraph_t *, const char *); CGRAPH_API char *agstrdup_html(Agraph_t *, const char *); CGRAPH_API int aghtmlstr(const char *); CGRAPH_API char *agstrbind(Agraph_t * g, const char *); CGRAPH_API int agstrfree(Agraph_t *, const char *); CGRAPH_API char *agcanon(char *, int); CGRAPH_API char *agstrcanon(char *, char *); CGRAPH_API char *agcanonStr(char *str); /* manages its own buf */ /* definitions for dynamic string attributes */ struct Agattr_s { /* dynamic string attributes */ Agrec_t h; /* common data header */ Dict_t *dict; /* shared dict to interpret attr field */ char **str; /* the attribute string values */ }; struct Agsym_s { /* symbol in one of the above dictionaries */ Dtlink_t link; char *name; /* attribute's name */ char *defval; /* its default value for initialization */ int id; /* its index in attr[] */ unsigned char kind; /* referent object type */ unsigned char fixed; /* immutable value */ unsigned char print; /* always print */ }; struct Agdatadict_s { /* set of dictionaries per graph */ Agrec_t h; /* installed in list of graph recs */ struct { Dict_t *n, *e, *g; } dict; }; CGRAPH_API Agsym_t *agattr(Agraph_t * g, int kind, char *name, const char *value); CGRAPH_API Agsym_t *agattrsym(void *obj, char *name); CGRAPH_API Agsym_t *agnxtattr(Agraph_t * g, int kind, Agsym_t * attr); CGRAPH_API int agcopyattr(void *oldobj, void *newobj); CGRAPH_API void *agbindrec(void *obj, const char *name, unsigned int recsize, int move_to_front); CGRAPH_API Agrec_t *aggetrec(void *obj, const char *name, int move_to_front); CGRAPH_API int agdelrec(void *obj, const char *name); CGRAPH_API void aginit(Agraph_t * g, int kind, const char *rec_name, int rec_size, int move_to_front); CGRAPH_API void agclean(Agraph_t * g, int kind, char *rec_name); CGRAPH_API char *agget(void *obj, char *name); CGRAPH_API char *agxget(void *obj, Agsym_t * sym); CGRAPH_API int agset(void *obj, char *name, const char *value); CGRAPH_API int agxset(void *obj, Agsym_t * sym, const char *value); CGRAPH_API int agsafeset(void* obj, char* name, const char* value, const char* def); /* definitions for subgraphs */ CGRAPH_API Agraph_t *agsubg(Agraph_t * g, char *name, int cflag); /* constructor */ CGRAPH_API Agraph_t *agidsubg(Agraph_t * g, IDTYPE id, int cflag); /* constructor */ CGRAPH_API Agraph_t *agfstsubg(Agraph_t * g); CGRAPH_API Agraph_t *agnxtsubg(Agraph_t * subg); CGRAPH_API Agraph_t *agparent(Agraph_t * g); /* set cardinality */ CGRAPH_API int agnnodes(Agraph_t * g); CGRAPH_API int agnedges(Agraph_t * g); CGRAPH_API int agnsubg(Agraph_t * g); CGRAPH_API int agdegree(Agraph_t * g, Agnode_t * n, int in, int out); CGRAPH_API int agcountuniqedges(Agraph_t * g, Agnode_t * n, int in, int out); /* memory */ CGRAPH_API void *agalloc(Agraph_t * g, size_t size); CGRAPH_API void *agrealloc(Agraph_t * g, void *ptr, size_t oldsize, size_t size); CGRAPH_API void agfree(Agraph_t * g, void *ptr); /* an engineering compromise is a joy forever */ CGRAPH_API void aginternalmapclearlocalnames(Agraph_t * g); #define agnew(g,t) ((t*)agalloc(g,sizeof(t))) #define agnnew(g,n,t) ((t*)agalloc(g,(n)*sizeof(t))) /* support for extra API misuse warnings if available */ #ifdef __GNUC__ #define PRINTF_LIKE(index, first) __attribute__((format(printf, index, first))) #else #define PRINTF_LIKE(index, first) /* nothing */ #endif /* error handling */ typedef enum { AGWARN, AGERR, AGMAX, AGPREV } agerrlevel_t; typedef int (*agusererrf) (char*); CGRAPH_API agerrlevel_t agseterr(agerrlevel_t); CGRAPH_API char *aglasterr(void); CGRAPH_API int agerr(agerrlevel_t level, const char *fmt, ...) PRINTF_LIKE(2, 3); CGRAPH_API void agerrorf(const char *fmt, ...) PRINTF_LIKE(1, 2); CGRAPH_API void agwarningf(const char *fmt, ...) PRINTF_LIKE(1, 2); CGRAPH_API int agerrors(void); CGRAPH_API int agreseterrors(void); CGRAPH_API agusererrf agseterrf(agusererrf); #undef PRINTF_LIKE /* data access macros */ /* this assumes that e[0] is out and e[1] is inedge, see edgepair in edge.c */ #define AGIN2OUT(e) ((e)-1) #define AGOUT2IN(e) ((e)+1) #define AGOPP(e) ((AGTYPE(e)==AGINEDGE)?AGIN2OUT(e):AGOUT2IN(e)) #define AGMKOUT(e) (AGTYPE(e) == AGOUTEDGE? (e): AGIN2OUT(e)) #define AGMKIN(e) (AGTYPE(e) == AGINEDGE? (e): AGOUT2IN(e)) #define AGTAIL(e) (AGMKIN(e)->node) #define AGHEAD(e) (AGMKOUT(e)->node) #define AGEQEDGE(e,f) (AGMKOUT(e) == AGMKOUT(f)) /* These macros are also exposed as functions, so they can be linked against. */ #define agtail(e) AGTAIL(e) #define aghead(e) AGHEAD(e) #define agopp(e) AGOPP(e) #define ageqedge(e,f) AGEQEDGE(e,f) #define TAILPORT_ID "tailport" #define HEADPORT_ID "headport" CGRAPH_API extern Agdesc_t Agdirected; CGRAPH_API extern Agdesc_t Agstrictdirected; CGRAPH_API extern Agdesc_t Agundirected; CGRAPH_API extern Agdesc_t Agstrictundirected; /* fast graphs */ void agflatten(Agraph_t * g, int flag); typedef Agsubnode_t Agnoderef_t; typedef Dtlink_t Agedgeref_t; #define AGHEADPOINTER(g) ((Agnoderef_t*)(g->n_seq->data->hh._head)) #define AGRIGHTPOINTER(rep) ((Agnoderef_t*)((rep)->seq_link.right?((void*)((rep)->seq_link.right) - offsetof(Agsubnode_t,seq_link)):0)) #define AGLEFTPOINTER(rep) ((Agnoderef_t*)((rep)->seq_link.hl._left?((void*)((rep)->seq_link.hl._left) - offsetof(Agsubnode_t,seq_link)):0)) #define FIRSTNREF(g) (agflatten(g,1), AGHEADPOINTER(g)) #define NEXTNREF(g,rep) (AGRIGHTPOINTER(rep) == AGHEADPOINTER(g)?0:AGRIGHTPOINTER(rep)) #define PREVNREF(g,rep) (((rep)==AGHEADPOINTER(g))?0:(AGLEFTPOINTER(rep))) #define LASTNREF(g) (agflatten(g,1), AGHEADPOINTER(g)?AGLEFTPOINTER(AGHEADPOINTER(g)):0) #define NODEOF(rep) ((rep)->node) #define FIRSTOUTREF(g,sn) (agflatten(g,1), (sn)->out_seq) #define LASTOUTREF(g,sn) (agflatten(g,1), (Agedgeref_t*)dtlast(sn->out_seq)) #define FIRSTINREF(g,sn) (agflatten(g,1), (sn)->in_seq) #define NEXTEREF(g,rep) ((rep)->right) #define PREVEREF(g,rep) ((rep)->hl._left) /* this is expedient but a bit slimey because it "knows" that dict entries of both nodes and edges are embedded in main graph objects but allocated separately in subgraphs */ #define AGSNMAIN(sn) ((sn)==(&((sn)->node->mainsub))) #define EDGEOF(sn,rep) (AGSNMAIN(sn)?((Agedge_t*)((unsigned char*)(rep) - offsetof(Agedge_t,seq_link))) : ((Dthold_t*)(rep))->obj) #ifdef __cplusplus } #endif