bool Hide_warnings = false; struct trace_stream { vector > > past_lines; // [(layer label, frame, line)] map frame; // accumulator for current line ostringstream* curr_stream; string curr_layer; string dump_layer; trace_stream() :curr_stream(NULL) {} ~trace_stream() { if (curr_stream) delete curr_stream; } ostringstream& stream(string layer) { newline(); curr_stream = new ostringstream; curr_layer = layer; return *curr_stream; } // be sure to call this before messing with curr_stream or curr_layer or frame void newline() { if (!curr_stream) return; string curr_contents = curr_stream->str(); curr_contents.erase(curr_contents.find_last_not_of("\r\n")+1); past_lines.push_back(pair >(curr_layer, pair(frame[curr_layer], curr_contents))); if (curr_layer == "dump") cerr << with_newline(curr_stream->str()); else if ((!dump_layer.empty() && prefix_match(dump_layer, curr_layer)) || (!Hide_warnings && curr_layer == "warn")) cerr << curr_layer << "/" << frame[curr_layer] << ": " << with_newline(curr_stream->str()); delete curr_stream; curr_stream = NULL; } string readable_contents(string layer) { // missing layer = everything, frame, hierarchical layers newline(); ostringstream output; string real_layer, frame; parse_layer_and_frame(layer, &real_layer, &frame); for (vector > >::iterator p = past_lines.begin(); p != past_lines.end(); ++p) if (layer.empty() || prefix_match(real_layer, p->first)) output << p->first << "/" << p->second.first << ": " << with_newline(p->second.second); return output.str(); } void dump_browseable_contents(string layer) { ofstream dump("dump"); dump << "
start
\n"; for (vector > >::iterator p = past_lines.begin(); p != past_lines.end(); ++p) { if (p->first != layer) continue; dump << "
"; dump << p->second.second; dump << "
\n"; } dump.close(); } string with_newline(string s) { if (s[s.size()-1] != '\n') return s+'\n'; return s; } }; trace_stream* Trace_stream = NULL; // Top-level helper. IMPORTANT: can't nest. #define trace(layer) !Trace_stream ? cerr /*print nothing*/ : Trace_stream->stream(layer) // Warnings should go straight to cerr by default since calls to trace() have // some unfriendly constraints (they delay printing, they can't nest) #define raise ((!Trace_stream || !Hide_warnings) ? cerr /*do print*/ : Trace_stream->stream("warn")) << __FILE__ << ":" << __LINE__ << " " // Just debug logging without any test support. #define dbg cerr << __FUNCTION__ << '(' << __FILE__ << ':' << __LINE__ << ") " // raise << die exits after printing -- unless Hide_warnings is set. struct die {}; ostream& operator<<(ostream& os, unused die) { if (Hide_warnings) return os; os << "dying"; exit(1); } #define CLEAR_TRACE delete Trace_stream, Trace_stream = new trace_stream; #define DUMP(layer) cerr << Trace_stream->readable_contents(layer) // Trace_stream is a resource, lease_tracer uses RAII to manage it. struct lease_tracer { lease_tracer() { Trace_stream = new trace_stream; } ~lease_tracer() { delete Trace_stream, Trace_stream = NULL; } }; #define START_TRACING_UNTIL_END_OF_SCOPE lease_tracer leased_tracer; void trace_all(const string& label, const list& in) { for (list::const_iterator p = in.begin(); p != in.end(); ++p) trace(label) << *p; } bool check_trace_contents(string FUNCTION, string FILE, int LINE, string expected) { // missing layer == anywhere, frame, hierarchical layers vector expected_lines = split(expected, ""); size_t curr_expected_line = 0; while (curr_expected_line < expected_lines.size() && expected_lines[curr_expected_line].empty()) ++curr_expected_line; if (curr_expected_line == expected_lines.size()) return true; Trace_stream->newline(); ostringstream output; string layer, frame, contents; parse_layer_frame_contents(expected_lines[curr_expected_line], &layer, &frame, &contents); for (vector > >::iterator p = Trace_stream->past_lines.begin(); p != Trace_stream->past_lines.end(); ++p) { if (!layer.empty() && !prefix_match(layer, p->first)) continue; if (!frame.empty() && strtol(frame.c_str(), NULL, 0) != p->second.first) continue; if (contents != p->second.second) continue; ++curr_expected_line; while (curr_expected_line < expected_lines.size() && expected_lines[curr_expected_line].empty()) ++curr_expected_line; if (curr_expected_line == expected_lines.size()) return true; parse_layer_frame_contents(expected_lines[curr_expected_line], &layer, &frame, &contents); } ++Num_failures; cerr << "\nF " << FUNCTION << "(" << FILE << ":" << LINE << "): missing [" << contents << "] in trace:\n"; DUMP(layer); Passed = false; return false; } void parse_layer_frame_contents(const string& orig, string* layer, string* frame, string* contents) { string layer_and_frame; parse_contents(orig, ": ", &layer_and_frame, contents); parse_layer_and_frame(layer_and_frame, layer, frame); } void parse_contents(const string& s, const string& delim, string* prefix, string* contents) { string::size_type pos = s.find(delim); if (pos == NOT_FOUND) { *prefix = ""; *contents = s; } else { *prefix = s.substr(0, pos); *contents = s.substr(pos+delim.size()); } } void parse_layer_and_frame(const string& orig, string* layer, string* frame) { size_t last_slash = orig.rfind('/'); if (last_slash == NOT_FOUND || last_slash == orig.size()-1 // trailing slash indicates hierarchical layer || orig.find_last_not_of("0123456789") != last_slash) { *layer = orig; *frame = ""; } else { *layer = orig.substr(0, last_slash); *frame = orig.substr(last_slash+1); } } bool check_trace_contents(string FUNCTION, string FILE, int LINE, string layer, string expected) { // empty layer == everything, multiple layers, hierarchical layers vector expected_lines = split(expected, ""); size_t curr_expected_line = 0; while (curr_expected_line < expected_lines.size() && expected_lines[curr_expected_line].empty()) ++curr_expected_line; if (curr_expected_line == expected_lines.size()) return true; Trace_stream->newline(); ostringstream output; vector layers = split(layer, ","); for (vector > >::iterator p = Trace_stream->past_lines.begin(); p != Trace_stream->past_lines.end(); ++p) { if (!layer.empty() && !any_prefix_match(layers, p->first)) continue; if (p->second.second != expected_lines[curr_expected_line]) continue; ++curr_expected_line; while (curr_expected_line < expected_lines.size() && expected_lines[curr_expected_line].empty()) ++curr_expected_line; if (curr_expected_line == expected_lines.size()) return true; } ++Num_failures; cerr << "\nF " << FUNCTION << "(" << FILE << ":" << LINE << "): missing [" << expected_lines[curr_expected_line] << "] in trace:\n"; DUMP(layer); Passed = false; return false; } #define CHECK_TRACE_CONTENTS(...) check_trace_contents(__FUNCTION__, __FILE__, __LINE__, __VA_ARGS__) int trace_count(string layer) { return trace_count(layer, ""); } int trace_count(string layer, string line) { Trace_stream->newline(); long result = 0; vector layers = split(layer, ","); for (vector > >::iterator p = Trace_stream->past_lines.begin(); p != Trace_stream->past_lines.end(); ++p) { if (any_prefix_match(layers, p->first)) if (line == "" || p->second.second == line) ++result; } return result; } int trace_count(string layer, int frame, string line) { Trace_stream->newline(); long result = 0; vector layers = split(layer, ","); for (vector > >::iterator p = Trace_stream->past_lines.begin(); p != Trace_stream->past_lines.end(); ++p) { if (any_prefix_match(layers, p->first) && p->second.first == frame) if (line == "" || p->second.second == line) ++result; } return result; } #define CHECK_TRACE_WARNS() CHECK(trace_count("warn") > 0) #define CHECK_TRACE_DOESNT_WARN() \ if (trace_count("warn") > 0) { \ ++Num_failures; \ cerr << "\nF " << __FUNCTION__ << "(" << __FILE__ << ":" << __LINE__ << "): unexpected warnings\n"; \ DUMP("warn"); \ Passed = false; \ return; \ } bool trace_doesnt_contain(string layer, string line) { return trace_count(layer, line) == 0; } bool trace_doesnt_contain(string expected) { vector tmp = split(expected, ": "); return trace_doesnt_contain(tmp[0], tmp[1]); } bool trace_doesnt_contain(string layer, int frame, string line) { return trace_count(layer, frame, line) == 0; } #define CHECK_TRACE_DOESNT_CONTAIN(...) CHECK(trace_doesnt_contain(__VA_ARGS__)) // manage layer counts in Trace_stream using RAII struct lease_trace_frame { string layer; lease_trace_frame(string l) :layer(l) { if (!Trace_stream) return; Trace_stream->newline(); ++Trace_stream->frame[layer]; } ~lease_trace_frame() { if (!Trace_stream) return; Trace_stream->newline(); --Trace_stream->frame[layer]; } }; #define new_trace_frame(layer) lease_trace_frame leased_frame(layer); bool check_trace_contents(string FUNCTION, string FILE, int LINE, string layer, int frame, string expected) { // multiple layers, hierarchical layers vector expected_lines = split(expected, ""); // hack: doesn't handle newlines in embedded in lines size_t curr_expected_line = 0; while (curr_expected_line < expected_lines.size() && expected_lines[curr_expected_line].empty()) ++curr_expected_line; if (curr_expected_line == expected_lines.size()) return true; Trace_stream->newline(); ostringstream output; vector layers = split(layer, ","); for (vector > >::iterator p = Trace_stream->past_lines.begin(); p != Trace_stream->past_lines.end(); ++p) { if (!layer.empty() && !any_prefix_match(layers, p->first)) continue; if (p->second.first != frame) continue; if (p->second.second != expected_lines[curr_expected_line]) continue; ++curr_expected_line; while (curr_expected_line < expected_lines.size() && expected_lines[curr_expected_line].empty()) ++curr_expected_line; if (curr_expected_line == expected_lines.size()) return true; } ++Num_failures; cerr << "\nF " << FUNCTION << "(" << FILE << ":" << LINE << "): missing [" << expected_lines[curr_expected_line] << "] in trace/" << frame << ":\n"; DUMP(layer); Passed = false; return false; } #define CHECK_TRACE_TOP(layer, expected) CHECK_TRACE_CONTENTS(layer, 1, expected) vector split(string s, string delim) { vector result; string::size_type begin=0, end=s.find(delim); while (true) { if (end == NOT_FOUND) { result.push_back(string(s, begin, NOT_FOUND)); break; } result.push_back(string(s, begin, end-begin)); begin = end+delim.size(); end = s.find(delim, begin); } return result; } bool any_prefix_match(const vector& pats, const string& needle) { if (pats.empty()) return false; if (*pats[0].rbegin() != '/') // prefix match not requested return find(pats.begin(), pats.end(), needle) != pats.end(); // first pat ends in a '/'; assume all pats do. for (vector::const_iterator p = pats.begin(); p != pats.end(); ++p) if (headmatch(needle, *p)) return true; return false; } bool prefix_match(const string& pat, const string& needle) { if (*pat.rbegin() != '/') // prefix match not requested return pat == needle; return headmatch(needle, pat); } bool headmatch(const string& s, const string& pat) { if (pat.size() > s.size()) return false; return std::mismatch(pat.begin(), pat.end(), s.begin()).first == pat.end(); }