// -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- // // The contents of this file are subject to the Netscape Public // License Version 1.1 (the "License"); you may not use this file // except in compliance with the License. You may obtain a copy of // the License at http://www.mozilla.org/NPL/ // // Software distributed under the License is distributed on an "AS // IS" basis, WITHOUT WARRANTY OF ANY KIND, either express oqr // implied. See the License for the specific language governing // rights and limitations under the License. // // The Original Code is the JavaScript 2 Prototype. // // The Initial Developer of the Original Code is Netscape // Communications Corporation. Portions created by Netscape are // Copyright (C) 1998 Netscape Communications Corporation. All // Rights Reserved. // // JS2 shell. // #if 1 #define DEBUGGER_FOO #define INTERPRET_INPUT #else #undef DEBUGGER_FOO #undef INTERPRET_INPUT #endif #include #include "world.h" #include "interpreter.h" #include "icodegenerator.h" #ifdef DEBUGGER_FOO #include "debugger.h" #endif #if defined(XP_MAC) && !defined(XP_MAC_MPW) #include #include static char *mac_argv[] = {"js2", 0}; static void initConsole(StringPtr consoleName, const char* startupMessage, int &argc, char **&argv) { SIOUXSettings.autocloseonquit = false; SIOUXSettings.asktosaveonclose = false; SIOUXSetTitle(consoleName); // Set up a buffer for stderr (otherwise it's a pig). static char buffer[BUFSIZ]; setvbuf(stderr, buffer, _IOLBF, BUFSIZ); JavaScript::stdOut << startupMessage; argc = 1; argv = mac_argv; } #endif namespace JavaScript { namespace Shell { using namespace ICG; using namespace JSTypes; using namespace Interpreter; // Interactively read a line from the input stream in and put it into // s. Return false if reached the end of input before reading anything. static bool promptLine(LineReader &inReader, string &s, const char *prompt) { if (prompt) { stdOut << prompt; #ifdef XP_MAC_MPW // Print a CR after the prompt because MPW grabs the entire // line when entering an interactive command. stdOut << '\n'; #endif } return inReader.readLine(s) != 0; } World world; /* "filename" of the console */ const String ConsoleName = widenCString(""); const bool showTokens = false; #ifdef DEBUGGER_FOO Reader *sourceReader; /* Reader for console file */ static const Reader *ResolveFile (const String& fileName) { if (fileName == ConsoleName) return sourceReader; else { stdErr << "Could not locate source for file '" << fileName << "'\n"; return 0; } } JavaScript::Debugger::Shell jsd(world, stdin, JavaScript::stdOut, JavaScript::stdOut, &ResolveFile); #endif static JSValue print(Context *, const JSValues &argv) { size_t n = argv.size(); if (n > 1) { // the 'this' parameter is un-interesting stdOut << argv[1]; for (size_t i = 2; i < n; ++i) stdOut << ' ' << argv[i]; } stdOut << "\n"; return kUndefinedValue; } static JSValue dump(Context *, const JSValues &argv) { size_t n = argv.size(); if (n > 1) { // the 'this' parameter is un-interesting if (argv[1].isFunction()) { JSFunction *f = static_cast(argv[1].function); if (f->isNative()) stdOut << "Native function"; else stdOut << *f->getICode(); } else stdOut << "Not a function"; } stdOut << "\n"; return kUndefinedValue; } inline char narrow(char16 ch) { return char(ch); } static JSValue load(Context *cx, const JSValues &argv) { JSValue result; size_t n = argv.size(); if (n > 1) { for (size_t i = 1; i < n; ++i) { JSValue val = argv[i].toString(); if (val.isString()) { JSString& fileName = *val.string; std::string str(fileName.length(), char()); std::transform(fileName.begin(), fileName.end(), str.begin(), narrow); FILE* f = fopen(str.c_str(), "r"); if (f) { result = cx->readEvalFile(f, fileName); fclose(f); } } } } return result; } static JSValue loadxml(Context *cx, const JSValues &argv) { JSValue result; size_t n = argv.size(); if (n > 1) { for (size_t i = 1; i < n; ++i) { JSValue val = argv[i].toString(); if (val.isString()) { JSString& fileName = *val.string; std::string str(fileName.length(), char()); std::transform(fileName.begin(), fileName.end(), str.begin(), narrow); ICodeModule *icm = cx->loadClass(str.c_str()); if (icm) result = JSValue(new JSFunction(icm)); } } } return result; } static bool goGeorge = false; static JSValue george(Context *, const JSValues &) { goGeorge = !goGeorge; return JSValue(new JSString(goGeorge ? "George is going" : "George is taking a break")); } #if 0 // need a XP version of this, rip off from Monkey? #include static JSValue time(Context *cx, const JSValues &argv) { struct _timeb timebuffer; _ftime(&timebuffer); return JSValue((double)timebuffer.time * 1000 + timebuffer.millitm); } #endif /** * Poor man's instruction tracing facility. */ class Tracer : public Context::Listener { typedef InstructionStream::difference_type InstructionOffset; void listen(Context* context, Context::Event event) { if (goGeorge && (event & Context::EV_STEP)) { ICodeModule *iCode = context->getICode(); JSValues ®isters = context->getRegisters(); InstructionIterator pc = context->getPC(); InstructionOffset offset = (pc - iCode->its_iCode->begin()); printFormat(stdOut, "trace [%02u:%04u]: ", iCode->mID, offset); Instruction* i = *pc; stdOut << *i; if (i->op() != BRANCH && i->count() > 0) { stdOut << " ["; i->printOperands(stdOut, registers); stdOut << "]\n"; } else { stdOut << '\n'; } } } }; #define HAVE_GEORGE_TRACE_IT //#define TEST_XML_LOADER static void readEvalPrint(FILE *in, World &world) { JSScope global; Context cx(world, &global); #ifdef DEBUGGER_FOO jsd.attachToContext (&cx); #endif global.defineNativeFunction(world.identifiers["print"], print); global.defineNativeFunction(world.identifiers["dump"], dump); global.defineNativeFunction(world.identifiers["load"], load); global.defineNativeFunction(world.identifiers["loadxml"], loadxml); global.defineNativeFunction(world.identifiers["george"], george); // global.defineNativeFunction(world.identifiers["time"], time); String buffer; string line; LineReader inReader(in); #ifdef HAVE_GEORGE_TRACE_IT Tracer *george = new Tracer(); cx.addListener(george); #endif #ifdef TEST_XML_LOADER cx.loadClass("class.xml"); #endif while (promptLine(inReader, line, buffer.empty() ? "js> " : "> ")) { appendChars(buffer, line.data(), line.size()); try { Arena a; Parser p(world, a, buffer, ConsoleName); if (showTokens) { Lexer &l = p.lexer; while (true) { const Token &t = l.get(true); if (t.hasKind(Token::end)) break; stdOut << ' '; t.print(stdOut, true); } stdOut << '\n'; } else { StmtNode *parsedStatements = p.parseProgram(); ASSERT(p.lexer.peek(true).hasKind(Token::end)); { PrettyPrinter f(stdOut, 30); { PrettyPrinter::Block b(f, 2); f << "Program ="; f.linearBreak(1); StmtNode::printStatements(f, parsedStatements); } f.end(); } stdOut << '\n'; #ifdef INTERPRET_INPUT #ifdef DEBUGGER_FOO sourceReader = &(p.lexer.reader); #endif // Generate code for parsedStatements, which is a linked // list of zero or more statements ICodeModule* icm = cx.genCode(parsedStatements, ConsoleName); if (icm) { #ifdef SHOW_ICODE stdOut << *icm; #endif JSValue result = cx.interpret(icm, JSValues()); stdOut << "result = " << result << "\n"; delete icm; } #endif } clear(buffer); } catch (Exception &e) { /* If we got a syntax error on the end of input, * then wait for a continuation * of input rather than printing the error message. */ if (!(e.hasKind(Exception::syntaxError) && e.lineNum && e.pos == buffer.size() && e.sourceFile == ConsoleName)) { stdOut << '\n' << e.fullMessage(); clear(buffer); } } } stdOut << '\n'; } //#define HAVE_GEORGE_TRACE_IT char * tests[] = { #ifdef NEW_PARSER "function f(a,b,|'x' 'y' c=0) { return a+b+c; } print(f(1,2,x:3), 'should be 6'); return;", #endif "function fact(n) { if (n > 1) return n * fact(n-1); else return 1; } print(fact(6), \" should be 720\"); return;" , "a = { f1: 1, f2: 2}; print(a.f2++, \" should be 2\"); print(a.f2 <<= 1, \" should be 6\"); return;" , "class A { static var b = 3; static function s() { return b++; }function x() { return \"Ax\"; } function y() { return \"Ay\"; } } var a:A = new A; print(a.s(), \" should be 3\"); print(A.b, \" should be 4\"); return;", "class B extends A { function x() { return \"Bx\"; } } var b:B = new B; print(b.x(), \" should be Bx\"); print(b.y(), \" should be Ay\"); return;" }; static void testCompile() { JSScope glob; Context cx(world, &glob); #ifdef HAVE_GEORGE_TRACE_IT Tracer *george = new Tracer(); cx.addListener(george); #endif glob.defineNativeFunction(world.identifiers["print"], print); for (uint i = 0; i < sizeof(tests) / sizeof(char *); i++) { String testScript = widenCString(tests[i]); Arena a; Parser p(world, a, testScript, widenCString("testCompile")); StmtNode *parsedStatements = p.parseProgram(); ICodeGenerator icg(&cx, NULL, NULL, ICodeGenerator::kIsTopLevel, &Void_Type); StmtNode *s = parsedStatements; while (s) { icg.genStmt(s); s = s->next; } JSValue result = cx.interpret(icg.complete(), JSValues()); stdOut << "result = " << result << "\n"; } } } /* namespace Shell */ } /* namespace JavaScript */ #if defined(XP_MAC) && !defined(XP_MAC_MPW) int main(int argc, char **argv) { initConsole("\pJavaScript Shell", "Welcome to the js2 shell.\n", argc, argv); #else int main(int , char **) { #endif using namespace JavaScript; using namespace Shell; #if 1 testCompile(); #endif readEvalPrint(stdin, world); return 0; // return ProcessArgs(argv + 1, argc - 1); }