#include "error.hh" #include #include #include "serialise.hh" #include namespace nix { const std::string nativeSystem = SYSTEM; void BaseError::addTrace(std::shared_ptr && e, hintformat hint, bool frame) { err.traces.push_front(Trace { .pos = std::move(e), .hint = hint, .frame = frame }); } void throwExceptionSelfCheck(){ // This is meant to be caught in initLibUtil() throw SysError("C++ exception handling is broken. This would appear to be a problem with the way Nix was compiled and/or linked and/or loaded."); } // c++ std::exception descendants must have a 'const char* what()' function. // This stringifies the error and caches it for use by what(), or similarly by msg(). const std::string & BaseError::calcWhat() const { if (what_.has_value()) return *what_; else { std::ostringstream oss; showErrorInfo(oss, err, loggerSettings.showTrace); what_ = oss.str(); return *what_; } } std::optional ErrorInfo::programName = std::nullopt; std::ostream & operator <<(std::ostream & os, const hintformat & hf) { return os << hf.str(); } std::ostream & operator <<(std::ostream & str, const AbstractPos & pos) { pos.print(str); str << ":" << pos.line; if (pos.column > 0) str << ":" << pos.column; return str; } std::optional AbstractPos::getCodeLines() const { if (line == 0) return std::nullopt; if (auto source = getSource()) { std::istringstream iss(*source); // count the newlines. int count = 0; std::string curLine; int pl = line - 1; LinesOfCode loc; do { std::getline(iss, curLine); ++count; if (count < pl) ; else if (count == pl) { loc.prevLineOfCode = curLine; } else if (count == pl + 1) { loc.errLineOfCode = curLine; } else if (count == pl + 2) { loc.nextLineOfCode = curLine; break; } if (!iss.good()) break; } while (true); return loc; } return std::nullopt; } // print lines of code to the ostream, indicating the error column. void printCodeLines(std::ostream & out, const std::string & prefix, const AbstractPos & errPos, const LinesOfCode & loc) { // previous line of code. if (loc.prevLineOfCode.has_value()) { out << std::endl << fmt("%1% %|2$5d|| %3%", prefix, (errPos.line - 1), *loc.prevLineOfCode); } if (loc.errLineOfCode.has_value()) { // line of code containing the error. out << std::endl << fmt("%1% %|2$5d|| %3%", prefix, (errPos.line), *loc.errLineOfCode); // error arrows for the column range. if (errPos.column > 0) { int start = errPos.column; std::string spaces; for (int i = 0; i < start; ++i) { spaces.append(" "); } std::string arrows("^"); out << std::endl << fmt("%1% |%2%" ANSI_RED "%3%" ANSI_NORMAL, prefix, spaces, arrows); } } // next line of code. if (loc.nextLineOfCode.has_value()) { out << std::endl << fmt("%1% %|2$5d|| %3%", prefix, (errPos.line + 1), *loc.nextLineOfCode); } } static std::string indent(std::string_view indentFirst, std::string_view indentRest, std::string_view s) { std::string res; bool first = true; while (!s.empty()) { auto end = s.find('\n'); if (!first) res += "\n"; res += chomp(std::string(first ? indentFirst : indentRest) + std::string(s.substr(0, end))); first = false; if (end == s.npos) break; s = s.substr(end + 1); } return res; } std::ostream & showErrorInfo(std::ostream & out, const ErrorInfo & einfo, bool showTrace) { std::string prefix; switch (einfo.level) { case Verbosity::lvlError: { prefix = ANSI_RED "error"; break; } case Verbosity::lvlNotice: { prefix = ANSI_RED "note"; break; } case Verbosity::lvlWarn: { prefix = ANSI_WARNING "warning"; break; } case Verbosity::lvlInfo: { prefix = ANSI_GREEN "info"; break; } case Verbosity::lvlTalkative: { prefix = ANSI_GREEN "talk"; break; } case Verbosity::lvlChatty: { prefix = ANSI_GREEN "chat"; break; } case Verbosity::lvlVomit: { prefix = ANSI_GREEN "vomit"; break; } case Verbosity::lvlDebug: { prefix = ANSI_WARNING "debug"; break; } default: assert(false); } // FIXME: show the program name as part of the trace? if (einfo.programName && einfo.programName != ErrorInfo::programName) prefix += fmt(" [%s]:" ANSI_NORMAL " ", einfo.programName.value_or("")); else prefix += ":" ANSI_NORMAL " "; std::ostringstream oss; /* * Traces * ------ * * The semantics of traces is a bit weird. We have only one option to * print them and to make them verbose (--show-trace). In the code they * are always collected, but they are not printed by default. The code * also collects more traces when the option is on. This means that there * is no way to print the simplified traces at all. * * I (layus) designed the code to attach positions to a restricted set of * messages. This means that we have a lot of traces with no position at * all, including most of the base error messages. For example "type * error: found a string while a set was expected" has no position, but * will come with several traces detailing it's precise relation to the * closest know position. This makes erroring without printing traces * quite useless. * * This is why I introduced the idea to always print a few traces on * error. The number 3 is quite arbitrary, and was selected so as not to * clutter the console on error. For the same reason, a trace with an * error position takes more space, and counts as two traces towards the * limit. * * The rest is truncated, unless --show-trace is passed. This preserves * the same bad semantics of --show-trace to both show the trace and * augment it with new data. Not too sure what is the best course of * action. * * The issue is that it is fundamentally hard to provide a trace for a * lazy language. The trace will only cover the current spine of the * evaluation, missing things that have been evaluated before. For * example, most type errors are hard to inspect because there is not * trace for the faulty value. These errors should really print the faulty * value itself. * * In function calls, the --show-trace flag triggers extra traces for each * function invocation. These work as scopes, allowing to follow the * current spine of the evaluation graph. Without that flag, the error * trace should restrict itself to a restricted prefix of that trace, * until the first scope. If we ever get to such a precise error * reporting, there would be no need to add an arbitrary limit here. We * could always print the full trace, and it would just be small without * the flag. * * One idea I had is for XxxError.addTrace() to perform nothing if one * scope has already been traced. Alternatively, we could stop here when * we encounter such a scope instead of after an arbitrary number of * traces. This however requires to augment traces with the notion of * "scope". * * This is particularly visible in code like evalAttrs(...) where we have * to make a decision between the two following options. * * ``` long traces * inline void EvalState::evalAttrs(Env & env, Expr * e, Value & v, const Pos & pos, std::string_view errorCtx) * { * try { * e->eval(*this, env, v); * if (v.type() != nAttrs) * throwTypeError("value is %1% while a set was expected", v); * } catch (Error & e) { * e.addTrace(pos, errorCtx); * throw; * } * } * ``` * * ``` short traces * inline void EvalState::evalAttrs(Env & env, Expr * e, Value & v, const Pos & pos, std::string_view errorCtx) * { * e->eval(*this, env, v); * try { * if (v.type() != nAttrs) * throwTypeError("value is %1% while a set was expected", v); * } catch (Error & e) { * e.addTrace(pos, errorCtx); * throw; * } * } * ``` * * The second example can be rewritten more concisely, but kept in this * form to highlight the symmetry. The first option adds more information, * because whatever caused an error down the line, in the generic eval * function, will get annotated with the code location that uses and * required it. The second option is less verbose, but does not provide * any context at all as to where and why a failing value was required. * * Scopes would fix that, by adding context only when --show-trace is * passed, and keeping the trace terse otherwise. * */ // Enough indent to align with with the `... ` // prepended to each element of the trace auto ellipsisIndent = " "; bool frameOnly = false; if (!einfo.traces.empty()) { size_t count = 0; for (const auto & trace : einfo.traces) { if (trace.hint.str().empty()) continue; if (frameOnly && !trace.frame) continue; if (!showTrace && count > 3) { oss << "\n" << ANSI_WARNING "(stack trace truncated; use '--show-trace' to show the full trace)" ANSI_NORMAL << "\n"; break; } count++; frameOnly = trace.frame; oss << "\n" << "… " << trace.hint.str() << "\n"; if (trace.pos && *trace.pos) { count++; oss << "\n" << ellipsisIndent << ANSI_BLUE << "at " ANSI_WARNING << *trace.pos << ANSI_NORMAL << ":"; if (auto loc = trace.pos->getCodeLines()) { oss << "\n"; printCodeLines(oss, "", *trace.pos, *loc); oss << "\n"; } } } oss << "\n" << prefix; } oss << einfo.msg << "\n"; if (einfo.errPos && *einfo.errPos) { oss << "\n" << ANSI_BLUE << "at " ANSI_WARNING << *einfo.errPos << ANSI_NORMAL << ":"; if (auto loc = einfo.errPos->getCodeLines()) { oss << "\n"; printCodeLines(oss, "", *einfo.errPos, *loc); oss << "\n"; } } auto suggestions = einfo.suggestions.trim(); if (!suggestions.suggestions.empty()) { oss << "Did you mean " << suggestions.trim() << "?" << std::endl; } out << indent(prefix, std::string(filterANSIEscapes(prefix, true).size(), ' '), chomp(oss.str())); return out; } }