ref: f82edaa7ec6a2b9eed73f2a35819ae9e254cea54
dir: /src/asm/symbol.c/
/* * This file is part of RGBDS. * * Copyright (c) 1997-2018, Carsten Sorensen and RGBDS contributors. * * SPDX-License-Identifier: MIT */ /* * Symboltable and macroargs stuff */ #include <assert.h> #include <errno.h> #include <inttypes.h> #include <stdint.h> #include <stdio.h> #include <string.h> #include <time.h> #include "asm/asm.h" #include "asm/fstack.h" #include "asm/macro.h" #include "asm/main.h" #include "asm/mymath.h" #include "asm/output.h" #include "asm/section.h" #include "asm/symbol.h" #include "asm/util.h" #include "asm/warning.h" #include "extern/err.h" #include "hashmap.h" #include "helpers.h" #include "version.h" HashMap symbols; static char const *labelScope; /* Current section's label scope */ static struct Symbol *PCSymbol; static char savedTIME[256]; static char savedDATE[256]; static char savedTIMESTAMP_ISO8601_LOCAL[256]; static char savedTIMESTAMP_ISO8601_UTC[256]; static char savedDAY[3]; static char savedMONTH[3]; static char savedYEAR[20]; static char savedHOUR[3]; static char savedMINUTE[3]; static char savedSECOND[3]; static bool exportall; bool sym_IsPC(struct Symbol const *sym) { return sym == PCSymbol; } struct ForEachArgs { void (*func)(struct Symbol *symbol, void *arg); void *arg; }; static void forEachWrapper(void *_symbol, void *_argWrapper) { struct ForEachArgs *argWrapper = _argWrapper; struct Symbol *symbol = _symbol; argWrapper->func(symbol, argWrapper->arg); } void sym_ForEach(void (*func)(struct Symbol *, void *), void *arg) { struct ForEachArgs argWrapper = { .func = func, .arg = arg }; hash_ForEach(symbols, forEachWrapper, &argWrapper); } static int32_t Callback_NARG(void) { if (!macro_GetCurrentArgs()) { error("_NARG does not make sense outside of a macro\n"); return 0; } return macro_NbArgs(); } static int32_t Callback__LINE__(void) { return lexer_GetLineNo(); } static char const *Callback__FILE__(void) { /* * FIXME: this is dangerous, and here's why this is CURRENTLY okay. It's still bad, fix it. * There are only two call sites for this; one copies the contents directly, the other is * EQUS expansions, which cannot straddle file boundaries. So this should be fine. */ static char *buf = NULL; static size_t bufsize = 0; char const *fileName = fstk_GetFileName(); size_t j = 1; /* TODO: is there a way for a file name to be empty? */ assert(fileName[0]); /* The assertion above ensures the loop runs at least once */ for (size_t i = 0; fileName[i]; i++, j++) { /* Account for the extra backslash inserted below */ if (fileName[i] == '"') j++; /* Ensure there will be enough room; DO NOT PRINT ANYTHING ABOVE THIS!! */ if (j + 2 >= bufsize) { /* Always keep room for 2 tail chars */ bufsize = bufsize ? bufsize * 2 : 64; buf = realloc(buf, bufsize); if (!buf) fatalerror("Failed to grow buffer for file name: %s\n", strerror(errno)); } /* Escape quotes, since we're returning a string */ if (fileName[i] == '"') buf[j - 1] = '\\'; buf[j] = fileName[i]; } /* Write everything after the loop, to ensure the buffer has been allocated */ buf[0] = '"'; buf[j++] = '"'; buf[j] = '\0'; return buf; } static int32_t CallbackPC(void) { struct Section const *section = sect_GetSymbolSection(); return section ? section->org + sect_GetSymbolOffset() : 0; } /* * Get the value field of a symbol */ int32_t sym_GetValue(struct Symbol const *sym) { if (sym_IsNumeric(sym) && sym->hasCallback) return sym->numCallback(); if (sym->type == SYM_LABEL) /* TODO: do not use section's org directly */ return sym->value + sym_GetSection(sym)->org; return sym->value; } static void dumpFilename(struct Symbol const *sym) { if (!sym->src) fputs("<builtin>", stderr); else fstk_Dump(sym->src, sym->fileLine); } /* * Set a symbol's definition filename and line */ static void setSymbolFilename(struct Symbol *sym) { sym->src = fstk_GetFileStack(); sym->fileLine = lexer_GetLineNo(); } /* * Update a symbol's definition filename and line */ static void updateSymbolFilename(struct Symbol *sym) { struct FileStackNode *oldSrc = sym->src; setSymbolFilename(sym); /* If the old node was referenced, ensure the new one is */ if (oldSrc->referenced && oldSrc->ID != -1) out_RegisterNode(sym->src); /* TODO: unref the old node, and use `out_ReplaceNode` instead if deleting it */ } /* * Create a new symbol by name */ static struct Symbol *createsymbol(char const *s) { struct Symbol *symbol = malloc(sizeof(*symbol)); if (!symbol) fatalerror("Failed to create symbol '%s': %s\n", s, strerror(errno)); if (snprintf(symbol->name, MAXSYMLEN + 1, "%s", s) > MAXSYMLEN) warning(WARNING_LONG_STR, "Symbol name is too long: '%s'\n", s); symbol->isExported = false; symbol->isBuiltin = false; symbol->hasCallback = false; symbol->section = NULL; setSymbolFilename(symbol); symbol->ID = -1; symbol->next = NULL; hash_AddElement(symbols, symbol->name, symbol); return symbol; } /* * Creates the full name of a local symbol in a given scope, by prepending * the name with the parent symbol's name. */ static void fullSymbolName(char *output, size_t outputSize, char const *localName, char const *scopeName) { int ret = snprintf(output, outputSize, "%s%s", scopeName, localName); if (ret < 0) fatalerror("snprintf error when expanding symbol name: %s", strerror(errno)); else if ((size_t)ret >= outputSize) fatalerror("Symbol name is too long: '%s%s'\n", scopeName, localName); } struct Symbol *sym_FindExactSymbol(char const *name) { return hash_GetElement(symbols, name); } struct Symbol *sym_FindUnscopedSymbol(char const *name) { if (strchr(name, '.')) { error("Expected non-scoped symbol name, not \"%s\"\n", name); return NULL; } return sym_FindExactSymbol(name); } struct Symbol *sym_FindScopedSymbol(char const *name) { char const *dotPtr = strchr(name, '.'); if (dotPtr) { if (strchr(dotPtr + 1, '.')) fatalerror("'%s' is a nonsensical reference to a nested local symbol\n", name); /* If auto-scoped local label, expand the name */ if (dotPtr == name) { /* Meaning, the name begins with the dot */ char fullname[MAXSYMLEN + 1]; fullSymbolName(fullname, sizeof(fullname), name, labelScope); return sym_FindExactSymbol(fullname); } } return sym_FindExactSymbol(name); } struct Symbol const *sym_GetPC(void) { return PCSymbol; } static inline bool isReferenced(struct Symbol const *sym) { return sym->ID != -1; } /* * Purge a symbol */ void sym_Purge(char const *symName) { struct Symbol *symbol = sym_FindScopedSymbol(symName); if (!symbol) { error("'%s' not defined\n", symName); } else if (symbol->isBuiltin) { error("Built-in symbol '%s' cannot be purged\n", symName); } else if (isReferenced(symbol)) { error("Symbol \"%s\" is referenced and thus cannot be purged\n", symName); } else { /* Do not keep a reference to the label's name after purging it */ if (symbol->name == labelScope) labelScope = NULL; hash_RemoveElement(symbols, symbol->name); /* TODO: ideally, also unref the file stack nodes */ free(symbol); } } uint32_t sym_GetPCValue(void) { struct Section const *sect = sect_GetSymbolSection(); if (!sect) error("PC has no value outside a section\n"); else if (sect->org == -1) error("Expected constant PC but section is not fixed\n"); else return CallbackPC(); return 0; } /* * Return a constant symbol's value, assuming it's defined */ uint32_t sym_GetConstantSymValue(struct Symbol const *sym) { if (sym == PCSymbol) return sym_GetPCValue(); else if (!sym_IsConstant(sym)) error("\"%s\" does not have a constant value\n", sym->name); else return sym_GetValue(sym); return 0; } /* * Return a constant symbol's value */ uint32_t sym_GetConstantValue(char const *s) { struct Symbol const *sym = sym_FindScopedSymbol(s); if (sym == NULL) error("'%s' not defined\n", s); else return sym_GetConstantSymValue(sym); return 0; } char const *sym_GetCurrentSymbolScope(void) { return labelScope; } void sym_SetCurrentSymbolScope(char const *newScope) { labelScope = newScope; } /* * Create a symbol that will be non-relocatable and ensure that it * hasn't already been defined or referenced in a context that would * require that it be relocatable */ static struct Symbol *createNonrelocSymbol(char const *symbolName) { struct Symbol *symbol = sym_FindExactSymbol(symbolName); if (!symbol) { symbol = createsymbol(symbolName); } else if (sym_IsDefined(symbol)) { error("'%s' already defined at ", symbolName); dumpFilename(symbol); putc('\n', stderr); } return symbol; } /* * Add an equated symbol */ struct Symbol *sym_AddEqu(char const *symName, int32_t value) { struct Symbol *sym = createNonrelocSymbol(symName); sym->type = SYM_EQU; sym->value = value; return sym; } /* * Add a string equated symbol. * * If the desired symbol is a string it needs to be passed to this function with * quotes inside the string, like sym_AddString("name", "\"test\"), or the * assembler won't be able to use it with DB and similar. This is equivalent to * ``` name EQUS "\"test\"" ``` * * If the desired symbol is a register or a number, just the terminator quotes * of the string are enough: sym_AddString("M_PI", "3.1415"). This is the same * as ``` M_PI EQUS "3.1415" ``` */ struct Symbol *sym_AddString(char const *symName, char const *value) { struct Symbol *sym = createNonrelocSymbol(symName); size_t len = strlen(value); char *string = malloc(len + 1); if (string == NULL) fatalerror("No memory for string equate: %s\n", strerror(errno)); strcpy(string, value); sym->type = SYM_EQUS; /* TODO: use other fields */ sym->macroSize = len; sym->macro = string; return sym; } /* * Alter a SET symbols value */ struct Symbol *sym_AddSet(char const *symName, int32_t value) { struct Symbol *sym = sym_FindExactSymbol(symName); if (sym == NULL) { sym = createsymbol(symName); } else if (sym_IsDefined(sym) && sym->type != SYM_SET) { error("'%s' already defined as %s at ", symName, sym->type == SYM_LABEL ? "label" : "constant"); dumpFilename(sym); putc('\n', stderr); return sym; } else { updateSymbolFilename(sym); } sym->type = SYM_SET; sym->value = value; return sym; } /* * Add a label (aka "relocatable symbol") * @param name The label's full name (so `.name` is invalid) * @return The created symbol */ static struct Symbol *addLabel(char const *name) { assert(name[0] != '.'); /* The symbol name must have been expanded prior */ struct Symbol *sym = sym_FindExactSymbol(name); if (!sym) { sym = createsymbol(name); } else if (sym_IsDefined(sym)) { error("'%s' already defined at ", name); dumpFilename(sym); putc('\n', stderr); return NULL; } else { updateSymbolFilename(sym); } /* If the symbol already exists as a ref, just "take over" it */ sym->type = SYM_LABEL; sym->value = sect_GetSymbolOffset(); if (exportall) sym->isExported = true; sym->section = sect_GetSymbolSection(); if (sym && !sym->section) error("Label \"%s\" created outside of a SECTION\n", name); return sym; } /* * Add a local (.name or Parent.name) relocatable symbol */ struct Symbol *sym_AddLocalLabel(char const *name) { if (!labelScope) { error("Local label '%s' in main scope\n", name); return NULL; } char fullname[MAXSYMLEN + 1]; if (name[0] == '.') { /* If symbol is of the form `.name`, expand to the full `Parent.name` name */ fullSymbolName(fullname, sizeof(fullname), name, labelScope); name = fullname; /* Use the expanded name instead */ } else { size_t i = 0; /* Otherwise, check that `Parent` is in fact the current scope */ while (labelScope[i] && name[i] == labelScope[i]) i++; /* Assuming no dots in `labelScope` */ assert(strchr(&name[i], '.')); /* There should be at least one dot, though */ size_t parentLen = i + (strchr(&name[i], '.') - name); /* * Check that `labelScope[i]` ended the check, guaranteeing that `name` is at least * as long, and then that this was the entirety of the `Parent` part of `name`. */ if (labelScope[i] != '\0' || name[i] != '.') error("Not currently in the scope of '%.*s'\n", parentLen, name); if (strchr(&name[parentLen + 1], '.')) /* There will at least be a terminator */ fatalerror("'%s' is a nonsensical reference to a nested local label\n", name); } return addLabel(name); } /* * Add a relocatable symbol */ struct Symbol *sym_AddLabel(char const *name) { struct Symbol *sym = addLabel(name); /* Set the symbol as the new scope */ if (sym) labelScope = sym->name; return sym; } static uint32_t anonLabelID; /* * Add an anonymous label */ struct Symbol *sym_AddAnonLabel(void) { if (anonLabelID == UINT32_MAX) { error("Only %" PRIu32 " anonymous labels can be created!"); return NULL; } char name[MAXSYMLEN + 1]; sym_WriteAnonLabelName(name, 0, true); // The direction is important!! anonLabelID++; return addLabel(name); } /* * Write an anonymous label's name to a buffer */ void sym_WriteAnonLabelName(char buf[static MAXSYMLEN + 1], 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; } sprintf(buf, "!%u", id); } /* * Export a symbol */ void sym_Export(char const *symName) { if (symName[0] == '!') { error("Anonymous labels cannot be exported\n"); return; } struct 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; } /* * Add a macro definition */ struct Symbol *sym_AddMacro(char const *symName, int32_t defLineNo, char *body, size_t size) { struct Symbol *sym = createNonrelocSymbol(symName); sym->type = SYM_MACRO; sym->macroSize = size; sym->macro = body; setSymbolFilename(sym); /* TODO: is this really necessary? */ /* * 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 */ struct Symbol *sym_Ref(char const *symName) { struct Symbol *nsym = sym_FindScopedSymbol(symName); if (nsym == NULL) { char fullname[MAXSYMLEN + 1]; if (symName[0] == '.') { if (!labelScope) fatalerror("Local label reference '%s' in main scope\n", symName); fullSymbolName(fullname, sizeof(fullname), symName, labelScope); symName = fullname; } nsym = createsymbol(symName); nsym->type = SYM_REF; } return nsym; } /* * Set whether to export all relocatable symbols by default */ void sym_SetExportAll(bool set) { exportall = set; } /** * Returns a pointer to the first non-zero character in a string * Non-'0', not non-'\0'. */ static inline char const *removeLeadingZeros(char const *ptr) { while (*ptr == '0') ptr++; return ptr; } static inline struct Symbol *createBuiltinSymbol(char const *name) { struct Symbol *sym = createsymbol(name); sym->isBuiltin = true; sym->hasCallback = true; sym->src = NULL; sym->fileLine = 0; return sym; } /* * Initialize the symboltable */ void sym_Init(time_t now) { PCSymbol = createBuiltinSymbol("@"); struct Symbol *_NARGSymbol = createBuiltinSymbol("_NARG"); struct Symbol *__LINE__Symbol = createBuiltinSymbol("__LINE__"); struct Symbol *__FILE__Symbol = createBuiltinSymbol("__FILE__"); PCSymbol->type = SYM_LABEL; PCSymbol->section = NULL; PCSymbol->numCallback = CallbackPC; _NARGSymbol->type = SYM_EQU; _NARGSymbol->numCallback = Callback_NARG; __LINE__Symbol->type = SYM_EQU; __LINE__Symbol->numCallback = Callback__LINE__; __FILE__Symbol->type = SYM_EQUS; __FILE__Symbol->strCallback = Callback__FILE__; sym_AddSet("_RS", 0)->isBuiltin = true; sym_AddEqu("__RGBDS_MAJOR__", PACKAGE_VERSION_MAJOR)->isBuiltin = true; sym_AddEqu("__RGBDS_MINOR__", PACKAGE_VERSION_MINOR)->isBuiltin = true; sym_AddEqu("__RGBDS_PATCH__", PACKAGE_VERSION_PATCH)->isBuiltin = true; if (now == (time_t)-1) { warn("Couldn't determine current time"); /* Fall back by pretending we are at the Epoch */ now = 0; } const struct tm *time_utc = gmtime(&now); const struct tm *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); strftime(savedTIMESTAMP_ISO8601_UTC, sizeof(savedTIMESTAMP_ISO8601_UTC), "\"%Y-%m-%dT%H:%M:%SZ\"", time_utc); strftime(savedYEAR, sizeof(savedYEAR), "%Y", time_utc); strftime(savedMONTH, sizeof(savedMONTH), "%m", time_utc); strftime(savedDAY, sizeof(savedDAY), "%d", time_utc); strftime(savedHOUR, sizeof(savedHOUR), "%H", time_utc); strftime(savedMINUTE, sizeof(savedMINUTE), "%M", time_utc); strftime(savedSECOND, sizeof(savedSECOND), "%S", time_utc); #define addString(name, val) sym_AddString(name, val)->isBuiltin = true addString("__TIME__", savedTIME); addString("__DATE__", savedDATE); addString("__ISO_8601_LOCAL__", savedTIMESTAMP_ISO8601_LOCAL); addString("__ISO_8601_UTC__", savedTIMESTAMP_ISO8601_UTC); /* This cannot start with zeros */ addString("__UTC_YEAR__", savedYEAR); addString("__UTC_MONTH__", removeLeadingZeros(savedMONTH)); addString("__UTC_DAY__", removeLeadingZeros(savedDAY)); addString("__UTC_HOUR__", removeLeadingZeros(savedHOUR)); addString("__UTC_MINUTE__", removeLeadingZeros(savedMINUTE)); addString("__UTC_SECOND__", removeLeadingZeros(savedSECOND)); #undef addString labelScope = NULL; anonLabelID = 0; math_DefinePI(); }