Mercurial > hg > CbC > CbC_gcc
view gcc/d/dmd/dmodule.c @ 145:1830386684a0
gcc-9.2.0
| author | anatofuz |
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| date | Thu, 13 Feb 2020 11:34:05 +0900 |
| parents | |
| children |
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/* Compiler implementation of the D programming language * Copyright (C) 1999-2019 by The D Language Foundation, All Rights Reserved * written by Walter Bright * http://www.digitalmars.com * Distributed under the Boost Software License, Version 1.0. * http://www.boost.org/LICENSE_1_0.txt * https://github.com/D-Programming-Language/dmd/blob/master/src/module.c */ #include "root/dsystem.h" #include "root/rmem.h" #include "mars.h" #include "module.h" #include "parse.h" #include "scope.h" #include "identifier.h" #include "id.h" #include "import.h" #include "dsymbol.h" #include "expression.h" #include "lexer.h" #include "attrib.h" AggregateDeclaration *Module::moduleinfo; Module *Module::rootModule; DsymbolTable *Module::modules; Modules Module::amodules; Dsymbols Module::deferred; // deferred Dsymbol's needing semantic() run on them Dsymbols Module::deferred2; // deferred Dsymbol's needing semantic2() run on them Dsymbols Module::deferred3; // deferred Dsymbol's needing semantic3() run on them unsigned Module::dprogress; const char *lookForSourceFile(const char **path, const char *filename); StringExp *semanticString(Scope *sc, Expression *exp, const char *s); void Module::_init() { modules = new DsymbolTable(); } Module::Module(const char *filename, Identifier *ident, int doDocComment, int doHdrGen) : Package(ident) { const char *srcfilename; // printf("Module::Module(filename = '%s', ident = '%s')\n", filename, ident->toChars()); this->arg = filename; md = NULL; errors = 0; numlines = 0; members = NULL; isDocFile = 0; isPackageFile = false; needmoduleinfo = 0; selfimports = 0; rootimports = 0; insearch = 0; searchCacheIdent = NULL; searchCacheSymbol = NULL; searchCacheFlags = 0; decldefs = NULL; sictor = NULL; sctor = NULL; sdtor = NULL; ssharedctor = NULL; sshareddtor = NULL; stest = NULL; sfilename = NULL; importedFrom = NULL; srcfile = NULL; srcfilePath = NULL; docfile = NULL; debuglevel = 0; debugids = NULL; debugidsNot = NULL; versionlevel = 0; versionids = NULL; versionidsNot = NULL; macrotable = NULL; escapetable = NULL; doppelganger = 0; cov = NULL; covb = NULL; nameoffset = 0; namelen = 0; srcfilename = FileName::defaultExt(filename, global.mars_ext); if (global.run_noext && global.params.run && !FileName::ext(filename) && FileName::exists(srcfilename) == 0 && FileName::exists(filename) == 1) { FileName::free(srcfilename); srcfilename = FileName::removeExt(filename); // just does a mem.strdup(filename) } else if (!FileName::equalsExt(srcfilename, global.mars_ext) && !FileName::equalsExt(srcfilename, global.hdr_ext) && !FileName::equalsExt(srcfilename, "dd")) { error("source file name '%s' must have .%s extension", srcfilename, global.mars_ext); fatal(); } srcfile = new File(srcfilename); if (!FileName::absolute(srcfilename)) srcfilePath = getcwd(NULL, 0); objfile = setOutfile(global.params.objname, global.params.objdir, filename, global.obj_ext); if (doDocComment) setDocfile(); if (doHdrGen) hdrfile = setOutfile(global.params.hdrname, global.params.hdrdir, arg, global.hdr_ext); //objfile = new File(objfilename); } Module *Module::create(const char *filename, Identifier *ident, int doDocComment, int doHdrGen) { return new Module(filename, ident, doDocComment, doHdrGen); } void Module::setDocfile() { docfile = setOutfile(global.params.docname, global.params.docdir, arg, global.doc_ext); } /********************************************* * Combines things into output file name for .html and .di files. * Input: * name Command line name given for the file, NULL if none * dir Command line directory given for the file, NULL if none * arg Name of the source file * ext File name extension to use if 'name' is NULL * global.params.preservePaths get output path from arg * srcfile Input file - output file name must not match input file */ File *Module::setOutfile(const char *name, const char *dir, const char *arg, const char *ext) { const char *docfilename; if (name) { docfilename = name; } else { const char *argdoc; if (global.params.preservePaths) argdoc = arg; else argdoc = FileName::name(arg); // If argdoc doesn't have an absolute path, make it relative to dir if (!FileName::absolute(argdoc)) { //FileName::ensurePathExists(dir); argdoc = FileName::combine(dir, argdoc); } docfilename = FileName::forceExt(argdoc, ext); } if (FileName::equals(docfilename, srcfile->name->str)) { error("source file and output file have same name '%s'", srcfile->name->str); fatal(); } return new File(docfilename); } void Module::deleteObjFile() { if (global.params.obj) objfile->remove(); if (docfile) docfile->remove(); } const char *Module::kind() const { return "module"; } static void checkModFileAlias(OutBuffer *buf, OutBuffer *dotmods, Array<const char *> *ms, size_t msdim, const char *p) { /* Check and replace the contents of buf[] with * an alias string from global.params.modFileAliasStrings[] */ dotmods->writestring(p); for (size_t j = msdim; j--;) { const char *m = (*ms)[j]; const char *q = strchr(m, '='); assert(q); if (dotmods->offset <= (size_t)(q - m) && memcmp(dotmods->peekString(), m, q - m) == 0) { buf->reset(); size_t qlen = strlen(q + 1); if (qlen && (q[qlen] == '/' || q[qlen] == '\\')) --qlen; // remove trailing separator buf->write(q + 1, qlen); break; // last matching entry in ms[] wins } } dotmods->writeByte('.'); } Module *Module::load(Loc loc, Identifiers *packages, Identifier *ident) { //printf("Module::load(ident = '%s')\n", ident->toChars()); // Build module filename by turning: // foo.bar.baz // into: // foo\bar\baz const char *filename = ident->toChars(); if (packages && packages->dim) { OutBuffer buf; OutBuffer dotmods; Array<const char *> *ms = global.params.modFileAliasStrings; const size_t msdim = ms ? ms->dim : 0; for (size_t i = 0; i < packages->dim; i++) { Identifier *pid = (*packages)[i]; const char *p = pid->toChars(); buf.writestring(p); if (msdim) checkModFileAlias(&buf, &dotmods, ms, msdim, p); #if _WIN32 buf.writeByte('\\'); #else buf.writeByte('/'); #endif } buf.writestring(filename); if (msdim) checkModFileAlias(&buf, &dotmods, ms, msdim, filename); buf.writeByte(0); filename = (char *)buf.extractData(); } Module *m = new Module(filename, ident, 0, 0); m->loc = loc; /* Look for the source file */ const char *path; const char *result = lookForSourceFile(&path, filename); if (result) { m->srcfile = new File(result); if (path) m->srcfilePath = path; else if (!FileName::absolute(result)) m->srcfilePath = getcwd(NULL, 0); } if (!m->read(loc)) return NULL; if (global.params.verbose) { OutBuffer buf; if (packages) { for (size_t i = 0; i < packages->dim; i++) { Identifier *pid = (*packages)[i]; buf.writestring(pid->toChars()); buf.writeByte('.'); } } buf.printf("%s\t(%s)", ident->toChars(), m->srcfile->toChars()); message("import %s", buf.peekString()); } m = m->parse(); Compiler::loadModule(m); return m; } bool Module::read(Loc loc) { //printf("Module::read('%s') file '%s'\n", toChars(), srcfile->toChars()); if (srcfile->read()) { if (!strcmp(srcfile->toChars(), "object.d")) { ::error(loc, "cannot find source code for runtime library file 'object.d'"); errorSupplemental(loc, "dmd might not be correctly installed. Run 'dmd -man' for installation instructions."); const char *dmdConfFile = global.inifilename ? FileName::canonicalName(global.inifilename) : NULL; errorSupplemental(loc, "config file: %s", dmdConfFile ? dmdConfFile : "not found"); } else { // if module is not named 'package' but we're trying to read 'package.d', we're looking for a package module bool isPackageMod = (strcmp(toChars(), "package") != 0) && (strcmp(srcfile->name->name(), "package.d") == 0 || (strcmp(srcfile->name->name(), "package.di") == 0)); if (isPackageMod) ::error(loc, "importing package '%s' requires a 'package.d' file which cannot be found in '%s'", toChars(), srcfile->toChars()); else error(loc, "is in file '%s' which cannot be read", srcfile->toChars()); } if (!global.gag) { /* Print path */ if (global.path) { for (size_t i = 0; i < global.path->dim; i++) { const char *p = (*global.path)[i]; fprintf(stderr, "import path[%llu] = %s\n", (ulonglong)i, p); } } else fprintf(stderr, "Specify path to file '%s' with -I switch\n", srcfile->toChars()); fatal(); } return false; } return true; } Module *Module::parse() { //printf("Module::parse(srcfile='%s') this=%p\n", srcfile->name->toChars(), this); const char *srcname = srcfile->name->toChars(); //printf("Module::parse(srcname = '%s')\n", srcname); isPackageFile = (strcmp(srcfile->name->name(), "package.d") == 0 || strcmp(srcfile->name->name(), "package.di") == 0); utf8_t *buf = (utf8_t *)srcfile->buffer; size_t buflen = srcfile->len; if (buflen >= 2) { /* Convert all non-UTF-8 formats to UTF-8. * BOM : http://www.unicode.org/faq/utf_bom.html * 00 00 FE FF UTF-32BE, big-endian * FF FE 00 00 UTF-32LE, little-endian * FE FF UTF-16BE, big-endian * FF FE UTF-16LE, little-endian * EF BB BF UTF-8 */ unsigned le; unsigned bom = 1; // assume there's a BOM if (buf[0] == 0xFF && buf[1] == 0xFE) { if (buflen >= 4 && buf[2] == 0 && buf[3] == 0) { // UTF-32LE le = 1; Lutf32: OutBuffer dbuf; unsigned *pu = (unsigned *)(buf); unsigned *pumax = &pu[buflen / 4]; if (buflen & 3) { error("odd length of UTF-32 char source %u", buflen); fatal(); } dbuf.reserve(buflen / 4); for (pu += bom; pu < pumax; pu++) { unsigned u; u = le ? Port::readlongLE(pu) : Port::readlongBE(pu); if (u & ~0x7F) { if (u > 0x10FFFF) { error("UTF-32 value %08x greater than 0x10FFFF", u); fatal(); } dbuf.writeUTF8(u); } else dbuf.writeByte(u); } dbuf.writeByte(0); // add 0 as sentinel for scanner buflen = dbuf.offset - 1; // don't include sentinel in count buf = (utf8_t *) dbuf.extractData(); } else { // UTF-16LE (X86) // Convert it to UTF-8 le = 1; Lutf16: OutBuffer dbuf; unsigned short *pu = (unsigned short *)(buf); unsigned short *pumax = &pu[buflen / 2]; if (buflen & 1) { error("odd length of UTF-16 char source %u", buflen); fatal(); } dbuf.reserve(buflen / 2); for (pu += bom; pu < pumax; pu++) { unsigned u; u = le ? Port::readwordLE(pu) : Port::readwordBE(pu); if (u & ~0x7F) { if (u >= 0xD800 && u <= 0xDBFF) { unsigned u2; if (++pu > pumax) { error("surrogate UTF-16 high value %04x at EOF", u); fatal(); } u2 = le ? Port::readwordLE(pu) : Port::readwordBE(pu); if (u2 < 0xDC00 || u2 > 0xDFFF) { error("surrogate UTF-16 low value %04x out of range", u2); fatal(); } u = (u - 0xD7C0) << 10; u |= (u2 - 0xDC00); } else if (u >= 0xDC00 && u <= 0xDFFF) { error("unpaired surrogate UTF-16 value %04x", u); fatal(); } else if (u == 0xFFFE || u == 0xFFFF) { error("illegal UTF-16 value %04x", u); fatal(); } dbuf.writeUTF8(u); } else dbuf.writeByte(u); } dbuf.writeByte(0); // add 0 as sentinel for scanner buflen = dbuf.offset - 1; // don't include sentinel in count buf = (utf8_t *) dbuf.extractData(); } } else if (buf[0] == 0xFE && buf[1] == 0xFF) { // UTF-16BE le = 0; goto Lutf16; } else if (buflen >= 4 && buf[0] == 0 && buf[1] == 0 && buf[2] == 0xFE && buf[3] == 0xFF) { // UTF-32BE le = 0; goto Lutf32; } else if (buflen >= 3 && buf[0] == 0xEF && buf[1] == 0xBB && buf[2] == 0xBF) { // UTF-8 buf += 3; buflen -= 3; } else { /* There is no BOM. Make use of Arcane Jill's insight that * the first char of D source must be ASCII to * figure out the encoding. */ bom = 0; if (buflen >= 4) { if (buf[1] == 0 && buf[2] == 0 && buf[3] == 0) { // UTF-32LE le = 1; goto Lutf32; } else if (buf[0] == 0 && buf[1] == 0 && buf[2] == 0) { // UTF-32BE le = 0; goto Lutf32; } } if (buflen >= 2) { if (buf[1] == 0) { // UTF-16LE le = 1; goto Lutf16; } else if (buf[0] == 0) { // UTF-16BE le = 0; goto Lutf16; } } // It's UTF-8 if (buf[0] >= 0x80) { error("source file must start with BOM or ASCII character, not \\x%02X", buf[0]); fatal(); } } } /* If it starts with the string "Ddoc", then it's a documentation * source file. */ if (buflen >= 4 && memcmp(buf, "Ddoc", 4) == 0) { comment = buf + 4; isDocFile = 1; if (!docfile) setDocfile(); return this; } { Parser p(this, buf, buflen, docfile != NULL); p.nextToken(); members = p.parseModule(); md = p.md; numlines = p.scanloc.linnum; if (p.errors) ++global.errors; } if (srcfile->ref == 0) ::free(srcfile->buffer); srcfile->buffer = NULL; srcfile->len = 0; /* The symbol table into which the module is to be inserted. */ DsymbolTable *dst; if (md) { /* A ModuleDeclaration, md, was provided. * The ModuleDeclaration sets the packages this module appears in, and * the name of this module. */ this->ident = md->id; Package *ppack = NULL; dst = Package::resolve(md->packages, &this->parent, &ppack); assert(dst); Module *m = ppack ? ppack->isModule() : NULL; if (m && (strcmp(m->srcfile->name->name(), "package.d") != 0 && strcmp(m->srcfile->name->name(), "package.di") != 0)) { ::error(md->loc, "package name '%s' conflicts with usage as a module name in file %s", ppack->toPrettyChars(), m->srcfile->toChars()); } } else { /* The name of the module is set to the source file name. * There are no packages. */ dst = modules; // and so this module goes into global module symbol table /* Check to see if module name is a valid identifier */ if (!Identifier::isValidIdentifier(this->ident->toChars())) error("has non-identifier characters in filename, use module declaration instead"); } // Insert module into the symbol table Dsymbol *s = this; if (isPackageFile) { /* If the source tree is as follows: * pkg/ * +- package.d * +- common.d * the 'pkg' will be incorporated to the internal package tree in two ways: * import pkg; * and: * import pkg.common; * * If both are used in one compilation, 'pkg' as a module (== pkg/package.d) * and a package name 'pkg' will conflict each other. * * To avoid the conflict: * 1. If preceding package name insertion had occurred by Package::resolve, * later package.d loading will change Package::isPkgMod to PKGmodule and set Package::mod. * 2. Otherwise, 'package.d' wrapped by 'Package' is inserted to the internal tree in here. */ Package *p = new Package(ident); p->parent = this->parent; p->isPkgMod = PKGmodule; p->mod = this; p->tag = this->tag; // reuse the same package tag p->symtab = new DsymbolTable(); s = p; } if (!dst->insert(s)) { /* It conflicts with a name that is already in the symbol table. * Figure out what went wrong, and issue error message. */ Dsymbol *prev = dst->lookup(ident); assert(prev); if (Module *mprev = prev->isModule()) { if (FileName::compare(srcname, mprev->srcfile->toChars()) != 0) error(loc, "from file %s conflicts with another module %s from file %s", srcname, mprev->toChars(), mprev->srcfile->toChars()); else if (isRoot() && mprev->isRoot()) error(loc, "from file %s is specified twice on the command line", srcname); else error(loc, "from file %s must be imported with 'import %s;'", srcname, toPrettyChars()); // Bugzilla 14446: Return previously parsed module to avoid AST duplication ICE. return mprev; } else if (Package *pkg = prev->isPackage()) { if (pkg->isPkgMod == PKGunknown && isPackageFile) { /* If the previous inserted Package is not yet determined as package.d, * link it to the actual module. */ pkg->isPkgMod = PKGmodule; pkg->mod = this; pkg->tag = this->tag; // reuse the same package tag } else error(md ? md->loc : loc, "from file %s conflicts with package name %s", srcname, pkg->toChars()); } else assert(global.errors); } else { // Add to global array of all modules amodules.push(this); } return this; } void Module::importAll(Scope *) { //printf("+Module::importAll(this = %p, '%s'): parent = %p\n", this, toChars(), parent); if (_scope) return; // already done if (isDocFile) { error("is a Ddoc file, cannot import it"); return; } /* Note that modules get their own scope, from scratch. * This is so regardless of where in the syntax a module * gets imported, it is unaffected by context. * Ignore prevsc. */ Scope *sc = Scope::createGlobal(this); // create root scope if (md && md->msg) md->msg = semanticString(sc, md->msg, "deprecation message"); // Add import of "object", even for the "object" module. // If it isn't there, some compiler rewrites, like // classinst == classinst -> .object.opEquals(classinst, classinst) // would fail inside object.d. if (members->dim == 0 || ((*members)[0])->ident != Id::object || (*members)[0]->isImport() == NULL) { Import *im = new Import(Loc(), NULL, Id::object, NULL, 0); members->shift(im); } if (!symtab) { // Add all symbols into module's symbol table symtab = new DsymbolTable(); for (size_t i = 0; i < members->dim; i++) { Dsymbol *s = (*members)[i]; s->addMember(sc, sc->scopesym); } } // anything else should be run after addMember, so version/debug symbols are defined /* Set scope for the symbols so that if we forward reference * a symbol, it can possibly be resolved on the spot. * If this works out well, it can be extended to all modules * before any semantic() on any of them. */ setScope(sc); // remember module scope for semantic for (size_t i = 0; i < members->dim; i++) { Dsymbol *s = (*members)[i]; s->setScope(sc); } for (size_t i = 0; i < members->dim; i++) { Dsymbol *s = (*members)[i]; s->importAll(sc); } sc = sc->pop(); sc->pop(); // 2 pops because Scope::createGlobal() created 2 } void Module::semantic(Scope *) { if (semanticRun != PASSinit) return; //printf("+Module::semantic(this = %p, '%s'): parent = %p\n", this, toChars(), parent); semanticRun = PASSsemantic; // Note that modules get their own scope, from scratch. // This is so regardless of where in the syntax a module // gets imported, it is unaffected by context. Scope *sc = _scope; // see if already got one from importAll() if (!sc) { Scope::createGlobal(this); // create root scope } //printf("Module = %p, linkage = %d\n", sc->scopesym, sc->linkage); // Pass 1 semantic routines: do public side of the definition for (size_t i = 0; i < members->dim; i++) { Dsymbol *s = (*members)[i]; //printf("\tModule('%s'): '%s'.semantic()\n", toChars(), s->toChars()); s->semantic(sc); runDeferredSemantic(); } if (userAttribDecl) { userAttribDecl->semantic(sc); } if (!_scope) { sc = sc->pop(); sc->pop(); // 2 pops because Scope::createGlobal() created 2 } semanticRun = PASSsemanticdone; //printf("-Module::semantic(this = %p, '%s'): parent = %p\n", this, toChars(), parent); } void Module::semantic2(Scope*) { //printf("Module::semantic2('%s'): parent = %p\n", toChars(), parent); if (semanticRun != PASSsemanticdone) // semantic() not completed yet - could be recursive call return; semanticRun = PASSsemantic2; // Note that modules get their own scope, from scratch. // This is so regardless of where in the syntax a module // gets imported, it is unaffected by context. Scope *sc = Scope::createGlobal(this); // create root scope //printf("Module = %p\n", sc.scopesym); // Pass 2 semantic routines: do initializers and function bodies for (size_t i = 0; i < members->dim; i++) { Dsymbol *s = (*members)[i]; s->semantic2(sc); } if (userAttribDecl) { userAttribDecl->semantic2(sc); } sc = sc->pop(); sc->pop(); semanticRun = PASSsemantic2done; //printf("-Module::semantic2('%s'): parent = %p\n", toChars(), parent); } void Module::semantic3(Scope*) { //printf("Module::semantic3('%s'): parent = %p\n", toChars(), parent); if (semanticRun != PASSsemantic2done) return; semanticRun = PASSsemantic3; // Note that modules get their own scope, from scratch. // This is so regardless of where in the syntax a module // gets imported, it is unaffected by context. Scope *sc = Scope::createGlobal(this); // create root scope //printf("Module = %p\n", sc.scopesym); // Pass 3 semantic routines: do initializers and function bodies for (size_t i = 0; i < members->dim; i++) { Dsymbol *s = (*members)[i]; //printf("Module %s: %s.semantic3()\n", toChars(), s->toChars()); s->semantic3(sc); runDeferredSemantic2(); } if (userAttribDecl) { userAttribDecl->semantic3(sc); } sc = sc->pop(); sc->pop(); semanticRun = PASSsemantic3done; } /********************************** * Determine if we need to generate an instance of ModuleInfo * for this Module. */ int Module::needModuleInfo() { //printf("needModuleInfo() %s, %d, %d\n", toChars(), needmoduleinfo, global.params.cov); return needmoduleinfo || global.params.cov; } Dsymbol *Module::search(const Loc &loc, Identifier *ident, int flags) { /* Since modules can be circularly referenced, * need to stop infinite recursive searches. * This is done with the cache. */ //printf("%s Module::search('%s', flags = x%x) insearch = %d\n", toChars(), ident->toChars(), flags, insearch); if (insearch) return NULL; /* Qualified module searches always search their imports, * even if SearchLocalsOnly */ if (!(flags & SearchUnqualifiedModule)) flags &= ~(SearchUnqualifiedModule | SearchLocalsOnly); if (searchCacheIdent == ident && searchCacheFlags == flags) { //printf("%s Module::search('%s', flags = %d) insearch = %d searchCacheSymbol = %s\n", // toChars(), ident->toChars(), flags, insearch, searchCacheSymbol ? searchCacheSymbol->toChars() : "null"); return searchCacheSymbol; } unsigned int errors = global.errors; insearch = 1; Dsymbol *s = ScopeDsymbol::search(loc, ident, flags); insearch = 0; if (errors == global.errors) { // Bugzilla 10752: We can cache the result only when it does not cause // access error so the side-effect should be reproduced in later search. searchCacheIdent = ident; searchCacheSymbol = s; searchCacheFlags = flags; } return s; } bool Module::isPackageAccessible(Package *p, Prot protection, int flags) { if (insearch) // don't follow import cycles return false; if (flags & IgnorePrivateImports) protection = Prot(PROTpublic); // only consider public imports insearch = true; bool r = ScopeDsymbol::isPackageAccessible(p, protection); insearch = false; return r; } Dsymbol *Module::symtabInsert(Dsymbol *s) { searchCacheIdent = NULL; // symbol is inserted, so invalidate cache return Package::symtabInsert(s); } void Module::clearCache() { for (size_t i = 0; i < amodules.dim; i++) { Module *m = amodules[i]; m->searchCacheIdent = NULL; } } /******************************************* * Can't run semantic on s now, try again later. */ void Module::addDeferredSemantic(Dsymbol *s) { // Don't add it if it is already there for (size_t i = 0; i < deferred.dim; i++) { Dsymbol *sd = deferred[i]; if (sd == s) return; } //printf("Module::addDeferredSemantic('%s')\n", s->toChars()); deferred.push(s); } void Module::addDeferredSemantic2(Dsymbol *s) { //printf("Module::addDeferredSemantic2('%s')\n", s->toChars()); deferred2.push(s); } void Module::addDeferredSemantic3(Dsymbol *s) { //printf("Module::addDeferredSemantic3('%s')\n", s->toChars()); deferred3.push(s); } /****************************************** * Run semantic() on deferred symbols. */ void Module::runDeferredSemantic() { if (dprogress == 0) return; static int nested; if (nested) return; //if (deferred.dim) printf("+Module::runDeferredSemantic(), len = %d\n", deferred.dim); nested++; size_t len; do { dprogress = 0; len = deferred.dim; if (!len) break; Dsymbol **todo; Dsymbol **todoalloc = NULL; Dsymbol *tmp; if (len == 1) { todo = &tmp; } else { todo = (Dsymbol **)mem.xmalloc(len * sizeof(Dsymbol *)); todoalloc = todo; } memcpy(todo, deferred.tdata(), len * sizeof(Dsymbol *)); deferred.setDim(0); for (size_t i = 0; i < len; i++) { Dsymbol *s = todo[i]; s->semantic(NULL); //printf("deferred: %s, parent = %s\n", s->toChars(), s->parent->toChars()); } //printf("\tdeferred.dim = %d, len = %d, dprogress = %d\n", deferred.dim, len, dprogress); if (todoalloc) free(todoalloc); } while (deferred.dim < len || dprogress); // while making progress nested--; //printf("-Module::runDeferredSemantic(), len = %d\n", deferred.dim); } void Module::runDeferredSemantic2() { Module::runDeferredSemantic(); Dsymbols *a = &Module::deferred2; for (size_t i = 0; i < a->dim; i++) { Dsymbol *s = (*a)[i]; //printf("[%d] %s semantic2a\n", i, s->toPrettyChars()); s->semantic2(NULL); if (global.errors) break; } a->setDim(0); } void Module::runDeferredSemantic3() { Module::runDeferredSemantic2(); Dsymbols *a = &Module::deferred3; for (size_t i = 0; i < a->dim; i++) { Dsymbol *s = (*a)[i]; //printf("[%d] %s semantic3a\n", i, s->toPrettyChars()); s->semantic3(NULL); if (global.errors) break; } a->setDim(0); } /************************************ * Recursively look at every module this module imports, * return true if it imports m. * Can be used to detect circular imports. */ int Module::imports(Module *m) { //printf("%s Module::imports(%s)\n", toChars(), m->toChars()); for (size_t i = 0; i < aimports.dim; i++) { Module *mi = aimports[i]; if (mi == m) return true; if (!mi->insearch) { mi->insearch = 1; int r = mi->imports(m); if (r) return r; } } return false; } /************************************* * Return true if module imports itself. */ bool Module::selfImports() { //printf("Module::selfImports() %s\n", toChars()); if (selfimports == 0) { for (size_t i = 0; i < amodules.dim; i++) amodules[i]->insearch = 0; selfimports = imports(this) + 1; for (size_t i = 0; i < amodules.dim; i++) amodules[i]->insearch = 0; } return selfimports == 2; } /************************************* * Return true if module imports root module. */ bool Module::rootImports() { //printf("Module::rootImports() %s\n", toChars()); if (rootimports == 0) { for (size_t i = 0; i < amodules.dim; i++) amodules[i]->insearch = 0; rootimports = 1; for (size_t i = 0; i < amodules.dim; ++i) { Module *m = amodules[i]; if (m->isRoot() && imports(m)) { rootimports = 2; break; } } for (size_t i = 0; i < amodules.dim; i++) amodules[i]->insearch = 0; } return rootimports == 2; } bool Module::isCoreModule(Identifier *ident) { return this->ident == ident && parent && parent->ident == Id::core && !parent->parent; } /* =========================== ModuleDeclaration ===================== */ ModuleDeclaration::ModuleDeclaration(Loc loc, Identifiers *packages, Identifier *id) { this->loc = loc; this->packages = packages; this->id = id; this->isdeprecated = false; this->msg = NULL; } const char *ModuleDeclaration::toChars() { OutBuffer buf; if (packages && packages->dim) { for (size_t i = 0; i < packages->dim; i++) { Identifier *pid = (*packages)[i]; buf.writestring(pid->toChars()); buf.writeByte('.'); } } buf.writestring(id->toChars()); return buf.extractString(); } /* =========================== Package ===================== */ Package::Package(Identifier *ident) : ScopeDsymbol(ident) { this->isPkgMod = PKGunknown; this->mod = NULL; static unsigned packageTag = 0; this->tag = packageTag++; } const char *Package::kind() const { return "package"; } Module *Package::isPackageMod() { if (isPkgMod == PKGmodule) { return mod; } return NULL; } /** * Checks if pkg is a sub-package of this * * For example, if this qualifies to 'a1.a2' and pkg - to 'a1.a2.a3', * this function returns 'true'. If it is other way around or qualified * package paths conflict function returns 'false'. * * Params: * pkg = possible subpackage * * Returns: * see description */ bool Package::isAncestorPackageOf(const Package * const pkg) const { if (this == pkg) return true; if (!pkg || !pkg->parent) return false; return isAncestorPackageOf(pkg->parent->isPackage()); } void Package::semantic(Scope *) { if (semanticRun < PASSsemanticdone) semanticRun = PASSsemanticdone; } /**************************************************** * Input: * packages[] the pkg1.pkg2 of pkg1.pkg2.mod * Returns: * the symbol table that mod should be inserted into * Output: * *pparent the rightmost package, i.e. pkg2, or NULL if no packages * *ppkg the leftmost package, i.e. pkg1, or NULL if no packages */ DsymbolTable *Package::resolve(Identifiers *packages, Dsymbol **pparent, Package **ppkg) { DsymbolTable *dst = Module::modules; Dsymbol *parent = NULL; //printf("Package::resolve()\n"); if (ppkg) *ppkg = NULL; if (packages) { for (size_t i = 0; i < packages->dim; i++) { Identifier *pid = (*packages)[i]; Package *pkg; Dsymbol *p = dst->lookup(pid); if (!p) { pkg = new Package(pid); dst->insert(pkg); pkg->parent = parent; pkg->symtab = new DsymbolTable(); } else { pkg = p->isPackage(); assert(pkg); // It might already be a module, not a package, but that needs // to be checked at a higher level, where a nice error message // can be generated. // dot net needs modules and packages with same name // But we still need a symbol table for it if (!pkg->symtab) pkg->symtab = new DsymbolTable(); } parent = pkg; dst = pkg->symtab; if (ppkg && !*ppkg) *ppkg = pkg; if (pkg->isModule()) { // Return the module so that a nice error message can be generated if (ppkg) *ppkg = (Package *)p; break; } } } if (pparent) *pparent = parent; return dst; } Dsymbol *Package::search(const Loc &loc, Identifier *ident, int flags) { //printf("%s Package::search('%s', flags = x%x)\n", toChars(), ident->toChars(), flags); flags &= ~SearchLocalsOnly; // searching an import is always transitive if (!isModule() && mod) { // Prefer full package name. Dsymbol *s = symtab ? symtab->lookup(ident) : NULL; if (s) return s; //printf("[%s] through pkdmod: %s\n", loc.toChars(), toChars()); return mod->search(loc, ident, flags); } return ScopeDsymbol::search(loc, ident, flags); } /* =========================== ===================== */ /******************************************** * Look for the source file if it's different from filename. * Look for .di, .d, directory, and along global.path. * Does not open the file. * Output: * path the path where the file was found if it was not the current directory * Input: * filename as supplied by the user * global.path * Returns: * NULL if it's not different from filename. */ const char *lookForSourceFile(const char **path, const char *filename) { /* Search along global.path for .di file, then .d file. */ *path = NULL; const char *sdi = FileName::forceExt(filename, global.hdr_ext); if (FileName::exists(sdi) == 1) return sdi; const char *sd = FileName::forceExt(filename, global.mars_ext); if (FileName::exists(sd) == 1) return sd; if (FileName::exists(filename) == 2) { /* The filename exists and it's a directory. * Therefore, the result should be: filename/package.d * iff filename/package.d is a file */ const char *ni = FileName::combine(filename, "package.di"); if (FileName::exists(ni) == 1) return ni; FileName::free(ni); const char *n = FileName::combine(filename, "package.d"); if (FileName::exists(n) == 1) return n; FileName::free(n); } if (FileName::absolute(filename)) return NULL; if (!global.path) return NULL; for (size_t i = 0; i < global.path->dim; i++) { const char *p = (*global.path)[i]; const char *n = FileName::combine(p, sdi); if (FileName::exists(n) == 1) { *path = p; return n; } FileName::free(n); n = FileName::combine(p, sd); if (FileName::exists(n) == 1) { *path = p; return n; } FileName::free(n); const char *b = FileName::removeExt(filename); n = FileName::combine(p, b); FileName::free(b); if (FileName::exists(n) == 2) { const char *n2i = FileName::combine(n, "package.di"); if (FileName::exists(n2i) == 1) return n2i; FileName::free(n2i); const char *n2 = FileName::combine(n, "package.d"); if (FileName::exists(n2) == 1) { *path = p; return n2; } FileName::free(n2); } FileName::free(n); } return NULL; }