/********************************************************************* * Copyright 2018, UCAR/Unidata * See netcdf/COPYRIGHT file for copying and redistribution conditions. *********************************************************************/ /* $Id: dump.c,v 1.3 2010/05/24 19:59:57 dmh Exp $ */ /* $Header: /upc/share/CVS/netcdf-3/ncgen/dump.c,v 1.3 2010/05/24 19:59:57 dmh Exp $ */ #include "includes.h" #include "dump.h" #define DEBUGSRC /* Forward */ static void dumpdataprim(NCConstant*,Bytebuffer*); char* indentstr(int n) { static char indentline[1024]; memset(indentline,' ',n+1); indentline[n+1] = '\0'; return indentline; } void dumpconstant(NCConstant* con, char* tag) { Bytebuffer* buf = bbNew(); Datalist* dl = builddatalist(1); dlappend(dl,con); bufdump(dl,buf); fprintf(stderr,"%s: %s\n",tag,bbContents(buf)); bbFree(buf); } void dumpdatalist(Datalist* list, char* tag) { Bytebuffer* buf = bbNew(); bufdump(list,buf); fprintf(stderr,"%s: %s\n",tag,bbContents(buf)); bbFree(buf); } void bufdump(Datalist* list, Bytebuffer* buf) { int i; NCConstant** dpl; unsigned int count; if(list == NULL) { bbCat(buf,"NULL"); return; } count = list->length; for(dpl=list->data,i=0;inctype) { case NC_COMPOUND: bbCat(buf,"{"); bufdump(dp->value.compoundv,buf); bbCat(buf,"}"); break; case NC_ARRAY: bbCat(buf,"["); bufdump(dp->value.compoundv,buf); bbCat(buf,"]"); break; case NC_VLEN: bbCat(buf,"{*"); bufdump(dp->value.compoundv,buf); bbCat(buf,"}"); break; default: if(isprimplus(dp->nctype) || dp->nctype == NC_FILLVALUE) { bbCat(buf," "); dumpdataprim(dp,buf); } else { char tmp[64]; sprintf(tmp,"?%d? ",dp->nctype); bbCat(buf,tmp); } break; } } } static void dumpdataprim(NCConstant* ci, Bytebuffer* buf) { char tmp[64]; ASSERT(isprimplus(ci->nctype) || ci->nctype == NC_FILLVALUE); switch (ci->nctype) { case NC_CHAR: { bbCat(buf,"'"); escapifychar(ci->value.charv,tmp,'\''); bbCat(buf,tmp); bbCat(buf,"'"); } break; case NC_BYTE: sprintf(tmp,"%hhd",ci->value.int8v); bbCat(buf,tmp); break; case NC_SHORT: sprintf(tmp,"%hd",ci->value.int16v); bbCat(buf,tmp); break; case NC_INT: sprintf(tmp,"%d",ci->value.int32v); bbCat(buf,tmp); break; case NC_FLOAT: sprintf(tmp,"%g",ci->value.floatv); bbCat(buf,tmp); break; case NC_DOUBLE: sprintf(tmp,"%lg",ci->value.doublev); bbCat(buf,tmp); break; case NC_UBYTE: sprintf(tmp,"%hhu",ci->value.int8v); bbCat(buf,tmp); break; case NC_USHORT: sprintf(tmp,"%hu",ci->value.uint16v); bbCat(buf,tmp); break; case NC_UINT: sprintf(tmp,"%u",ci->value.uint32v); bbCat(buf,tmp); break; case NC_INT64: sprintf(tmp,"%lld",ci->value.int64v); bbCat(buf,tmp); break; case NC_UINT64: sprintf(tmp,"%llu",ci->value.uint64v); bbCat(buf,tmp); break; case NC_ECONST: sprintf(tmp,"%s",ci->value.enumv->fqn); bbCat(buf,tmp); break; case NC_STRING: bbCat(buf,"\""); bbCat(buf,ci->value.stringv.stringv); bbCat(buf,"\""); break; case NC_OPAQUE: bbCat(buf,"0x"); bbCat(buf,ci->value.opaquev.stringv); break; case NC_FILLVALUE: bbCat(buf,"_"); break; default: PANIC1("dumpdataprim: bad type code:%d",ci->nctype); } } void dumpgroup(Symbol* g) { if(debug <= 1) return; fdebug("group %s {\n",(g==NULL?"null":g->name)); if(g != NULL && g->subnodes != NULL) { int i; for(i=0;isubnodes);i++) { Symbol* sym = (Symbol*)listget(g->subnodes,i); char* tname; if(sym->objectclass == NC_PRIM || sym->objectclass == NC_TYPE) { tname = nctypename(sym->subclass); } else tname = nctypename(sym->objectclass); fdebug(" %3d: %s\t%s\t%s\n", i, sym->name, tname, (sym->ref.is_ref?"ref":"") ); } } fdebug("}\n"); } void dumpconstant1(NCConstant* con) { switch (con->nctype) { case NC_COMPOUND: { Datalist* dl = con->value.compoundv; Bytebuffer* buf = bbNew(); bufdump(dl,buf); /* fprintf(stderr,"(0x%lx){",(unsigned long)dl);*/ fprintf(stderr,"{%s}",bbDup(buf)); bbFree(buf); } break; case NC_STRING: if(con->value.stringv.len > 0 && con->value.stringv.stringv != NULL) fprintf(stderr,"\"%s\"",con->value.stringv.stringv); else fprintf(stderr,"\"\""); break; case NC_OPAQUE: if(con->value.opaquev.len > 0 && con->value.opaquev.stringv != NULL) fprintf(stderr,"0x%s",con->value.opaquev.stringv); else fprintf(stderr,"0x--"); break; case NC_ECONST: fprintf(stderr,"%s",(con->value.enumv==NULL?"?":con->value.enumv->name)); break; case NC_FILLVALUE: fprintf(stderr,"_"); break; case NC_CHAR: fprintf(stderr,"'%c'",con->value.charv); break; case NC_BYTE: fprintf(stderr,"%hhd",con->value.int8v); break; case NC_UBYTE: fprintf(stderr,"%hhu",con->value.uint8v); break; case NC_SHORT: fprintf(stderr,"%hd",con->value.int16v); break; case NC_USHORT: fprintf(stderr,"%hu",con->value.uint16v); break; case NC_INT: fprintf(stderr,"%d",con->value.int32v); break; case NC_UINT: fprintf(stderr,"%u",con->value.uint32v); break; case NC_INT64: fprintf(stderr,"%lld",con->value.int64v); break; case NC_UINT64: fprintf(stderr,"%llu",con->value.uint64v); break; case NC_FLOAT: fprintf(stderr,"%g",con->value.floatv); break; case NC_DOUBLE: fprintf(stderr,"%g",con->value.doublev); break; default: fprintf(stderr,""); break; } fflush(stderr); } #define MAXELEM 8 #define MAXDEPTH 4 #if 0 void dumpsrc0(Datasrc* src,char* tag) { int i, count, index, depth; depth = MAXDEPTH; count = src->length; index = src->index; if(count > MAXELEM) count = MAXELEM; if(index > count) index = count; fprintf(stderr,"%s:: ",(tag?tag:"")); do { fprintf(stderr,"[%d/%d]",src->index,src->length); for(i=0;idata[i]); } fprintf(stderr,"^"); for(i=index;idata[i]); } if(count < src->length) fprintf(stderr,"..."); fprintf(stderr," | "); src = src->prev; } while(src != NULL && depth > 0); if(src != NULL) fprintf(stderr,"---"); fprintf(stderr,"\n"); fflush(stderr); } void dumpsrc(Datasrc* src,char* tag) { #ifndef DEBUGSRC if(debug == 0) return; #endif dumpsrc0(src,tag); } #endif