static void fprintCompliance(FILE *f, SmiNode *smiNode, int *typelen, int *namelen, int pass) { SmiElement *smiElement; SmiOption *smiOption; SmiRefinement *smiRefinement; int tlen = 0, nlen = 0; for (smiElement = smiGetFirstElement(smiNode); smiElement; smiElement = smiGetNextElement(smiElement)) { fprintGroup(f, smiGetElementNode(smiElement), 'm', (pass == 1) ? &tlen : typelen, (pass == 1) ? &nlen : namelen, pass); if (pass == 1) { if (typelen) { *typelen = *typelen < tlen ? tlen : *typelen; } if (namelen) { *namelen = *namelen < nlen ? nlen : *namelen; } } } for(smiOption = smiGetFirstOption(smiNode); smiOption; smiOption = smiGetNextOption(smiOption)) { fprintGroup(f, smiGetOptionNode(smiOption), 'c', (pass == 1) ? &tlen : typelen, (pass == 1) ? &nlen : namelen, pass); if (pass == 1) { if (typelen) { *typelen = *typelen < tlen ? tlen : *typelen; } if (namelen) { *namelen = *namelen < nlen ? nlen : *namelen; } } } for (smiRefinement = smiGetFirstRefinement(smiNode); smiRefinement; smiRefinement = smiGetNextRefinement(smiRefinement)) { fprintGroup(f, smiGetRefinementNode(smiRefinement), 'r', (pass == 1) ? &tlen : typelen, (pass == 1) ? &nlen : namelen, pass); if (pass == 1) { if (typelen) { *typelen = *typelen < tlen ? tlen : *typelen; } if (namelen) { *namelen = *namelen < nlen ? nlen : *namelen; } } } }
static void fprintRefinements(FILE *f, int indent, SmiNode *smiNode) { SmiRefinement *smiRefinement; int i; for(i = 0, smiRefinement = smiGetFirstRefinement(smiNode); smiRefinement; i++, smiRefinement = smiGetNextRefinement(smiRefinement)) { if (!i) { fprintSegment(f, indent, "<refinements>\n", 0); } fprintRefinement(f, indent + INDENT, smiRefinement); } if (i) { fprintSegment(f, indent, "</refinements>\n\n", 0); } }
static void fprintCompliances(FILE *f, SmiModule *smiModule) { int i, j; SmiNode *smiNode, *smiNode2; SmiType *smiType; SmiOption *smiOption; SmiRefinement *smiRefinement; SmiElement *smiElement; for(i = 0, smiNode = smiGetFirstNode(smiModule, SMI_NODEKIND_COMPLIANCE); smiNode; smiNode = smiGetNextNode(smiNode, SMI_NODEKIND_COMPLIANCE)) { if (!i && !silent) { fprint(f, "//\n// COMPLIANCE DEFINITIONS\n//\n\n"); } fprintSegment(f, INDENT, "", 0); fprint(f, "compliance %s {\n", smiNode->name); if (smiNode->oid) { fprintSegment(f, 2 * INDENT, "oid", INDENTVALUE); fprint(f, "%s;\n", getOidString(smiNode, 0)); } if ((smiNode->status != SMI_STATUS_CURRENT) && (smiNode->status != SMI_STATUS_UNKNOWN) && (smiNode->status != SMI_STATUS_MANDATORY) && (smiNode->status != SMI_STATUS_OPTIONAL)) { fprintSegment(f, 2 * INDENT, "status", INDENTVALUE); fprint(f, "%s;\n", getStringStatus(smiNode->status)); } if (smiNode->description) { fprintSegment(f, 2 * INDENT, "description", INDENTVALUE); fprint(f, "\n"); fprintMultilineString(f, 2 * INDENT, smiNode->description); fprint(f, ";\n"); } if (smiNode->reference) { fprintSegment(f, 2 * INDENT, "reference", INDENTVALUE); fprint(f, "\n"); fprintMultilineString(f, 2 * INDENT, smiNode->reference); fprint(f, ";\n"); } if ((smiElement = smiGetFirstElement(smiNode))) { fprint(f, "\n"); fprintSegment(f, 2 * INDENT, "mandatory", INDENTVALUE); fprint(f, "("); for (j = 0; smiElement; j++, smiElement = smiGetNextElement(smiElement)) { if (j) { fprint(f, ", "); } fprintWrapped(f, INDENTVALUE + 1, smiGetElementNode(smiElement)->name); /* TODO: non-local name if non-local */ } /* TODO: empty? -> print error */ fprint(f, ");\n"); } if ((smiOption = smiGetFirstOption(smiNode))) { fprint(f, "\n"); for(; smiOption; smiOption = smiGetNextOption(smiOption)) { smiNode2 = smiGetOptionNode(smiOption); fprintSegment(f, 2 * INDENT, "", 0); fprint(f, "optional %s {\n", smiNode2->name); fprintSegment(f, 3 * INDENT, "description", INDENTVALUE); fprint(f, "\n"); fprintMultilineString(f, 3 * INDENT, smiOption->description); fprint(f, ";\n"); fprintSegment(f, 2 * INDENT, "};\n", 0); } } if ((smiRefinement = smiGetFirstRefinement(smiNode))) { fprint(f, "\n"); for(; smiRefinement; smiRefinement = smiGetNextRefinement(smiRefinement)) { fprintSegment(f, 2 * INDENT, "", 0); fprint(f, "refine %s {\n", smiGetRefinementNode(smiRefinement)->name); smiType = smiGetRefinementType(smiRefinement); if (smiType) { fprintSegment(f, 3 * INDENT, "type", INDENTVALUE); fprint(f, "%s", getTypeString(smiType->basetype, smiGetParentType(smiType))); fprintSubtype(f, smiType); fprint(f, ";\n"); } smiType = smiGetRefinementWriteType(smiRefinement); if (smiType) { fprintSegment(f, 3 * INDENT, "writetype", INDENTVALUE); fprint(f, "%s", getTypeString(smiType->basetype, smiGetParentType(smiType))); fprintSubtype(f, smiType); fprint(f, ";\n"); } if (smiRefinement->access != SMI_ACCESS_UNKNOWN) { fprintSegment(f, 3 * INDENT, "access", INDENTVALUE); fprint(f, "%s;\n", getAccessString(smiRefinement->access)); } fprintSegment(f, 3 * INDENT, "description", INDENTVALUE); fprint(f, "\n"); fprintMultilineString(f, 3 * INDENT, smiRefinement->description); fprint(f, ";\n"); fprintSegment(f, 2 * INDENT, "};\n", 0); } } fprintSegment(f, INDENT, "", 0); fprint(f, "};\n\n"); i++; } }