Centralize and document TRACE tags using X-macros (#7657)

* Introduce X-macro-based trace tag definition
- Created trace_tags.def to centralize TRACE tag definitions
- Each tag includes a symbolic name and description
- Set up enum class TraceTag for type-safe usage in TRACE macros

* Add script to generate Markdown documentation from trace_tags.def
- Python script parses trace_tags.def and outputs trace_tags.md

* Refactor TRACE_NEW to prepend TraceTag and pass enum to is_trace_enabled

* trace: improve trace tag handling system with hierarchical tagging

- Introduce hierarchical tag-class structure: enabling a tag class activates all child tags
- Unify TRACE, STRACE, SCTRACE, and CTRACE under enum TraceTag
- Implement initial version of trace_tag.def using X(tag, tag_class, description)
  (class names and descriptions to be refined in a future update)

* trace: replace all string-based TRACE tags with enum TraceTag
- Migrated all TRACE, STRACE, SCTRACE, and CTRACE macros to use enum TraceTag values instead of raw string literals

* trace : add cstring header

* trace : Add Markdown documentation generation from trace_tags.def via mk_api_doc.py

* trace : rename macro parameter 'class' to 'tag_class' and remove Unicode comment in trace_tags.h.

* trace : Add TODO comment for future implementation of tag_class activation

* trace : Disable code related to tag_class until implementation is ready (#7663).

src/ast/sls/sls_euf_plugin.cpp

@@ -88,14 +88,14 @@ namespace sls {
         g.explain<size_t>(explain, nullptr);
         g.end_explain();
         double reward = -1;
-        TRACE("euf",
+        TRACE(euf,
             for (auto p : explain) {
                 sat::literal l = to_literal(p);
                 tout << l << " " << mk_pp(ctx.atom(l.var()), m) << " " << ctx.is_unit(l) << "\n";
             });
         for (auto p : explain) {
             sat::literal l = to_literal(p);
-            CTRACE("euf", !ctx.is_true(l), tout << "not true " << l << "\n"; ctx.display(tout););
+            CTRACE(euf, !ctx.is_true(l), tout << "not true " << l << "\n"; ctx.display(tout););
             SASSERT(ctx.is_true(l));
 
             if (ctx.is_unit(l))
@@ -133,7 +133,7 @@ namespace sls {
             return;
 
         auto block = [&](euf::enode* a, euf::enode* b) {
-            TRACE("euf", tout << "block " << m_g->bpp(a) << " != " << m_g->bpp(b) << "\n");
+            TRACE(euf, tout << "block " << m_g->bpp(a) << " != " << m_g->bpp(b) << "\n");
             if (a->get_root() != b->get_root())
                 return;
             ptr_vector<size_t> explain;
@@ -197,7 +197,7 @@ namespace sls {
             g.mk(m.mk_false(), 0, 0, nullptr);
         // check for conflict with disequalities during propagation
         if (merge_eqs) {
-            TRACE("euf", tout << "root literals " << ctx.root_literals() << "\n");
+            TRACE(euf, tout << "root literals " << ctx.root_literals() << "\n");
             for (auto lit : ctx.root_literals()) {
                 if (!ctx.is_true(lit))
                     lit.neg();