/* SPDX-License-Identifier: MIT */ #include "asm/symbol.hpp" #include #include #include #include #include "error.hpp" #include "helpers.hpp" // assume #include "version.hpp" #include "asm/fstack.hpp" #include "asm/lexer.hpp" #include "asm/macro.hpp" #include "asm/output.hpp" #include "asm/warning.hpp" using namespace std::literals; std::unordered_map symbols; std::unordered_set purgedSymbols; static Symbol const *labelScope = nullptr; // Current section's label scope static Symbol *PCSymbol; static Symbol *NARGSymbol; static Symbol *RSSymbol; static char savedTIME[256]; static char savedDATE[256]; static char savedTIMESTAMP_ISO8601_LOCAL[256]; static char savedTIMESTAMP_ISO8601_UTC[256]; static bool exportAll; bool sym_IsPC(Symbol const *sym) { return sym == PCSymbol; } void sym_ForEach(void (*callback)(Symbol &)) { for (auto &it : symbols) callback(it.second); } static int32_t NARGCallback() { if (MacroArgs const *macroArgs = fstk_GetCurrentMacroArgs(); macroArgs) { return macroArgs->nbArgs(); } else { error("_NARG has no value outside of a macro\n"); return 0; } } static int32_t PCCallback() { return sect_GetSymbolSection()->org + sect_GetSymbolOffset(); } int32_t Symbol::getValue() const { assume(std::holds_alternative(data) || std::holds_alternative(data)); if (auto *value = std::get_if(&data); value) { return type == SYM_LABEL ? *value + getSection()->org : *value; } return getOutputValue(); } int32_t Symbol::getOutputValue() const { if (auto *value = std::get_if(&data); value) { return *value; } else if (auto *callback = std::get_if(&data); callback) { return (*callback)(); } else { return 0; } } ContentSpan const &Symbol::getMacro() const { assume((std::holds_alternative(data))); return std::get(data); } std::shared_ptr Symbol::getEqus() const { assume(std::holds_alternative>(data)); return std::get>(data); } static void dumpFilename(Symbol const &sym) { if (sym.src) { sym.src->dump(sym.fileLine); putc('\n', stderr); } else if (sym.isBuiltin) { fputs("\n", stderr); } else { fputs("\n", stderr); } } static void updateSymbolFilename(Symbol &sym) { std::shared_ptr oldSrc = std::move(sym.src); sym.src = fstk_GetFileStack(); sym.fileLine = sym.src ? lexer_GetLineNo() : 0; // If the old node was registered, ensure the new one is too if (oldSrc && oldSrc->ID != (uint32_t)-1) out_RegisterNode(sym.src); } static void alreadyDefinedError(Symbol const &sym, char const *asType) { if (sym.isBuiltin && !sym_FindScopedValidSymbol(sym.name)) { // `DEF()` would return false, so we should not claim the symbol is already defined error("'%s' is reserved for a built-in symbol\n", sym.name.c_str()); } else { error("'%s' already defined", sym.name.c_str()); if (asType) fprintf(stderr, " as %s", asType); fputs(" at ", stderr); dumpFilename(sym); } } static void redefinedError(Symbol const &sym) { assume(sym.isBuiltin); if (!sym_FindScopedValidSymbol(sym.name)) { // `DEF()` would return false, so we should not imply the symbol is already defined error("'%s' is reserved for a built-in symbol\n", sym.name.c_str()); } else { error("Built-in symbol '%s' cannot be redefined\n", sym.name.c_str()); } } static Symbol &createSymbol(std::string const &symName) { // The symbol name should have been expanded already assume(!symName.starts_with('.')); static uint32_t nextDefIndex = 0; Symbol &sym = symbols[symName]; sym.name = symName; sym.isExported = false; sym.isBuiltin = false; sym.section = nullptr; sym.src = fstk_GetFileStack(); sym.fileLine = sym.src ? lexer_GetLineNo() : 0; sym.ID = -1; sym.defIndex = nextDefIndex++; return sym; } static bool isAutoScoped(std::string const &symName) { // `labelScope` should be global if it's defined assume(!labelScope || labelScope->name.find('.') == std::string::npos); size_t dotPos = symName.find('.'); // If there are no dots, it's not a local label if (dotPos == std::string::npos) return false; // Check for nothing after the dot if (dotPos == symName.length() - 1) fatalerror("'%s' is a nonsensical reference to an empty local label\n", symName.c_str()); // Check for more than one dot if (symName.find('.', dotPos + 1) != std::string::npos) fatalerror("'%s' is a nonsensical reference to a nested local label\n", symName.c_str()); // Check for already-qualified local label if (dotPos > 0) return false; // Check for unqualifiable local label if (!labelScope) fatalerror("Unqualified local label '%s' in main scope\n", symName.c_str()); return true; } Symbol *sym_FindExactSymbol(std::string const &symName) { // The symbol name should have been expanded already assume(!symName.starts_with('.')); auto search = symbols.find(symName); return search != symbols.end() ? &search->second : nullptr; } Symbol *sym_FindScopedSymbol(std::string const &symName) { return sym_FindExactSymbol(isAutoScoped(symName) ? labelScope->name + symName : symName); } Symbol *sym_FindScopedValidSymbol(std::string const &symName) { Symbol *sym = sym_FindScopedSymbol(symName); // `@` has no value outside of a section if (sym_IsPC(sym) && !sect_GetSymbolSection()) { return nullptr; } // `_NARG` has no value outside of a macro if (sym == NARGSymbol && !fstk_GetCurrentMacroArgs()) { return nullptr; } return sym; } Symbol const *sym_GetPC() { return PCSymbol; } void sym_Purge(std::string const &symName) { Symbol *sym = sym_FindScopedValidSymbol(symName); if (!sym) { if (sym_IsPurgedScoped(symName)) error("'%s' was already purged\n", symName.c_str()); else error("'%s' not defined\n", symName.c_str()); } else if (sym->isBuiltin) { error("Built-in symbol '%s' cannot be purged\n", symName.c_str()); } else if (sym->ID != (uint32_t)-1) { error("Symbol \"%s\" is referenced and thus cannot be purged\n", symName.c_str()); } else { if (sym->isExported) warning(WARNING_PURGE_1, "Purging an exported symbol \"%s\"\n", symName.c_str()); else if (sym->isLabel()) warning(WARNING_PURGE_2, "Purging a label \"%s\"\n", symName.c_str()); // Do not keep a reference to the label after purging it if (labelScope == sym) labelScope = nullptr; purgedSymbols.emplace(sym->name); symbols.erase(sym->name); } } bool sym_IsPurgedExact(std::string const &symName) { // The symbol name should have been expanded already assume(!symName.starts_with('.')); return purgedSymbols.find(symName) != purgedSymbols.end(); } bool sym_IsPurgedScoped(std::string const &symName) { return sym_IsPurgedExact(isAutoScoped(symName) ? labelScope->name + symName : symName); } int32_t sym_GetRSValue() { return RSSymbol->getOutputValue(); } void sym_SetRSValue(int32_t value) { updateSymbolFilename(*RSSymbol); RSSymbol->data = value; } uint32_t Symbol::getConstantValue() const { if (isConstant()) return getValue(); if (sym_IsPC(this)) { if (!getSection()) error("PC has no value outside of a section\n"); else error("PC does not have a constant value; the current section is not fixed\n"); } else { error("\"%s\" does not have a constant value\n", name.c_str()); } return 0; } uint32_t sym_GetConstantValue(std::string const &symName) { if (Symbol const *sym = sym_FindScopedSymbol(symName); sym) return sym->getConstantValue(); if (sym_IsPurgedScoped(symName)) error("'%s' not defined; it was purged\n", symName.c_str()); else error("'%s' not defined\n", symName.c_str()); return 0; } Symbol const *sym_GetCurrentLabelScope() { return labelScope; } void sym_SetCurrentLabelScope(Symbol const *newScope) { labelScope = newScope; } static Symbol *createNonrelocSymbol(std::string const &symName, bool numeric) { Symbol *sym = sym_FindExactSymbol(symName); if (!sym) { sym = &createSymbol(symName); purgedSymbols.erase(sym->name); } else if (sym->isDefined()) { alreadyDefinedError(*sym, nullptr); return nullptr; // Don't allow overriding the symbol, that'd be bad! } else if (!numeric) { // The symbol has already been referenced, but it's not allowed error("'%s' already referenced at ", symName.c_str()); dumpFilename(*sym); return nullptr; // Don't allow overriding the symbol, that'd be bad! } return sym; } Symbol *sym_AddEqu(std::string const &symName, int32_t value) { Symbol *sym = createNonrelocSymbol(symName, true); if (!sym) return nullptr; sym->type = SYM_EQU; sym->data = value; return sym; } Symbol *sym_RedefEqu(std::string const &symName, int32_t value) { Symbol *sym = sym_FindExactSymbol(symName); if (!sym) return sym_AddEqu(symName, value); if (sym->isDefined() && sym->type != SYM_EQU) { alreadyDefinedError(*sym, "non-EQU"); return nullptr; } else if (sym->isBuiltin) { redefinedError(*sym); return nullptr; } updateSymbolFilename(*sym); sym->type = SYM_EQU; sym->data = value; return sym; } Symbol *sym_AddString(std::string const &symName, std::shared_ptr str) { Symbol *sym = createNonrelocSymbol(symName, false); if (!sym) return nullptr; sym->type = SYM_EQUS; sym->data = str; return sym; } Symbol *sym_RedefString(std::string const &symName, std::shared_ptr str) { Symbol *sym = sym_FindExactSymbol(symName); if (!sym) return sym_AddString(symName, str); if (sym->type != SYM_EQUS) { if (sym->isDefined()) { alreadyDefinedError(*sym, "non-EQUS"); } else { error("'%s' already referenced at ", symName.c_str()); dumpFilename(*sym); } return nullptr; } else if (sym->isBuiltin) { redefinedError(*sym); return nullptr; } updateSymbolFilename(*sym); sym->data = str; return sym; } Symbol *sym_AddVar(std::string const &symName, int32_t value) { Symbol *sym = sym_FindExactSymbol(symName); if (!sym) { sym = &createSymbol(symName); } else if (sym->isDefined() && sym->type != SYM_VAR) { alreadyDefinedError(*sym, sym->type == SYM_LABEL ? "label" : "constant"); return sym; } else { updateSymbolFilename(*sym); } sym->type = SYM_VAR; sym->data = value; return sym; } static Symbol *addLabel(std::string const &symName) { // The symbol name should have been expanded already assume(!symName.starts_with('.')); Symbol *sym = sym_FindExactSymbol(symName); if (!sym) { sym = &createSymbol(symName); } else if (sym->isDefined()) { alreadyDefinedError(*sym, nullptr); return nullptr; } else { updateSymbolFilename(*sym); } // If the symbol already exists as a ref, just "take over" it sym->type = SYM_LABEL; sym->data = (int32_t)sect_GetSymbolOffset(); // Don't export anonymous labels if (exportAll && !symName.starts_with('!')) sym->isExported = true; sym->section = sect_GetSymbolSection(); if (sym && !sym->section) error("Label \"%s\" created outside of a SECTION\n", symName.c_str()); return sym; } Symbol *sym_AddLocalLabel(std::string const &symName) { // The symbol name should be local, qualified or not assume(symName.find('.') != std::string::npos); return addLabel(isAutoScoped(symName) ? labelScope->name + symName : symName); } Symbol *sym_AddLabel(std::string const &symName) { Symbol *sym = addLabel(symName); // Set the symbol as the new scope if (sym) labelScope = sym; return sym; } static uint32_t anonLabelID = 0; Symbol *sym_AddAnonLabel() { if (anonLabelID == UINT32_MAX) { error("Only %" PRIu32 " anonymous labels can be created!", anonLabelID); return nullptr; } std::string anon = sym_MakeAnonLabelName(0, true); // The direction is important! anonLabelID++; return addLabel(anon); } std::string sym_MakeAnonLabelName(uint32_t ofs, bool neg) { uint32_t id = 0; if (neg) { if (ofs > anonLabelID) error( "Reference to anonymous label %" PRIu32 " before, when only %" PRIu32 " ha%s been created so far\n", ofs, anonLabelID, anonLabelID == 1 ? "s" : "ve" ); else id = anonLabelID - ofs; } else { ofs--; // We're referencing symbols that haven't been created yet... if (ofs > UINT32_MAX - anonLabelID) error( "Reference to anonymous label %" PRIu32 " after, when only %" PRIu32 " may still be created\n", ofs + 1, UINT32_MAX - anonLabelID ); else id = anonLabelID + ofs; } std::string anon("!"); anon += std::to_string(id); return anon; } void sym_Export(std::string const &symName) { if (symName.starts_with('!')) { error("Anonymous labels cannot be exported\n"); return; } Symbol *sym = sym_FindScopedSymbol(symName); // If the symbol doesn't exist, create a ref that can be purged if (!sym) sym = sym_Ref(symName); sym->isExported = true; } Symbol *sym_AddMacro(std::string const &symName, int32_t defLineNo, ContentSpan const &span) { Symbol *sym = createNonrelocSymbol(symName, false); if (!sym) return nullptr; sym->type = SYM_MACRO; sym->data = span; sym->src = fstk_GetFileStack(); // The symbol is created at the line after the `ENDM`, // override this with the actual definition line sym->fileLine = defLineNo; return sym; } // Flag that a symbol is referenced in an RPN expression // and create it if it doesn't exist yet Symbol *sym_Ref(std::string const &symName) { Symbol *sym = sym_FindScopedSymbol(symName); if (!sym) { sym = &createSymbol(isAutoScoped(symName) ? labelScope->name + symName : symName); sym->type = SYM_REF; } return sym; } // Set whether to export all relocatable symbols by default void sym_SetExportAll(bool set) { exportAll = set; } // Define the built-in symbols void sym_Init(time_t now) { PCSymbol = &createSymbol("@"s); PCSymbol->type = SYM_LABEL; PCSymbol->data = PCCallback; PCSymbol->isBuiltin = true; NARGSymbol = &createSymbol("_NARG"s); NARGSymbol->type = SYM_EQU; NARGSymbol->data = NARGCallback; NARGSymbol->isBuiltin = true; RSSymbol = sym_AddVar("_RS"s, 0); RSSymbol->isBuiltin = true; sym_AddString("__RGBDS_VERSION__"s, std::make_shared(get_package_version_string())) ->isBuiltin = true; sym_AddEqu("__RGBDS_MAJOR__"s, PACKAGE_VERSION_MAJOR)->isBuiltin = true; sym_AddEqu("__RGBDS_MINOR__"s, PACKAGE_VERSION_MINOR)->isBuiltin = true; sym_AddEqu("__RGBDS_PATCH__"s, PACKAGE_VERSION_PATCH)->isBuiltin = true; #ifdef PACKAGE_VERSION_RC sym_AddEqu("__RGBDS_RC__"s, PACKAGE_VERSION_RC)->isBuiltin = true; #endif if (now == (time_t)-1) { warn("Failed to determine current time"); // Fall back by pretending we are at the Epoch now = 0; } tm const *time_local = localtime(&now); strftime(savedTIME, sizeof(savedTIME), "\"%H:%M:%S\"", time_local); strftime(savedDATE, sizeof(savedDATE), "\"%d %B %Y\"", time_local); strftime( savedTIMESTAMP_ISO8601_LOCAL, sizeof(savedTIMESTAMP_ISO8601_LOCAL), "\"%Y-%m-%dT%H:%M:%S%z\"", time_local ); tm const *time_utc = gmtime(&now); strftime( savedTIMESTAMP_ISO8601_UTC, sizeof(savedTIMESTAMP_ISO8601_UTC), "\"%Y-%m-%dT%H:%M:%SZ\"", time_utc ); sym_AddString("__TIME__"s, std::make_shared(savedTIME))->isBuiltin = true; sym_AddString("__DATE__"s, std::make_shared(savedDATE))->isBuiltin = true; sym_AddString( "__ISO_8601_LOCAL__"s, std::make_shared(savedTIMESTAMP_ISO8601_LOCAL) ) ->isBuiltin = true; sym_AddString("__ISO_8601_UTC__"s, std::make_shared(savedTIMESTAMP_ISO8601_UTC)) ->isBuiltin = true; sym_AddEqu("__UTC_YEAR__"s, time_utc->tm_year + 1900)->isBuiltin = true; sym_AddEqu("__UTC_MONTH__"s, time_utc->tm_mon + 1)->isBuiltin = true; sym_AddEqu("__UTC_DAY__"s, time_utc->tm_mday)->isBuiltin = true; sym_AddEqu("__UTC_HOUR__"s, time_utc->tm_hour)->isBuiltin = true; sym_AddEqu("__UTC_MINUTE__"s, time_utc->tm_min)->isBuiltin = true; sym_AddEqu("__UTC_SECOND__"s, time_utc->tm_sec)->isBuiltin = true; }