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//"use strict";
// Convert analyzed data to javascript. Everything has already been calculated
// before this stage, which just does the final conversion to JavaScript.
// Handy sets
var STRUCT_LIST = set('struct', 'list');
var addedLibraryItems = {};
var asmLibraryFunctions = [];
var SETJMP_LABEL = -1;
var INDENTATION = ' ';
var functionStubSigs = {};
// Some JS-implemented library functions are proxied to be called on the main browser thread, if the Emscripten runtime is executing in a Web Worker.
// Each such proxied function is identified via an ordinal number (this is not the same namespace as function pointers in general).
var proxiedFunctionTable = ["null" /* Reserve index 0 for an undefined function*/];
// proxiedFunctionInvokers contains bodies of the functions that will perform the proxying. These
// are generated in a map to keep track which ones have already been emitted, to avoid outputting duplicates.
// map: pair(sig, syncOrAsync) -> function body
var proxiedFunctionInvokers = {};
// We include asm2wasm imports if we may interpret (where we call out to JS to do some math stuff)
// or if the trap mode is 'js' (where we do the same). However, we always need some of them (like
// the frem import because % is in asm.js but not in wasm). But we can avoid emitting all the others
// in many cases.
var NEED_ALL_ASM2WASM_IMPORTS = BINARYEN_METHOD != 'native-wasm' || BINARYEN_TRAP_MODE == 'js';
// used internally. set when there is a main() function.
// also set when in a linkable module, as the main() function might
// arrive from a dynamically-linked library, and not necessarily
// the current compilation unit.
var HAS_MAIN = ('_main' in IMPLEMENTED_FUNCTIONS) || MAIN_MODULE || SIDE_MODULE;
// JSifier
function JSify(data, functionsOnly) {
var mainPass = !functionsOnly;
var itemsDict = { type: [], GlobalVariableStub: [], functionStub: [], function: [], GlobalVariable: [], GlobalVariablePostSet: [] };
if (mainPass) {
var shellFile = SHELL_FILE ? SHELL_FILE : (BUILD_AS_SHARED_LIB || SIDE_MODULE ? 'shell_sharedlib.js' : 'shell.js');
// We will start to print out the data, but must do so carefully - we are
// dealing with potentially *huge* strings. Convenient replacements and
// manipulations may create in-memory copies, and we may OOM.
//
// Final shape that will be created:
// shell
// (body)
// preamble
// runtime
// generated code
// postamble
// global_vars
//
// First, we print out everything until the generated code. Then the
// functions will print themselves out as they are parsed. Finally, we
// will call finalCombiner in the main pass, to print out everything
// else. This lets us not hold any strings in memory, we simply print
// things out as they are ready.
var shellParts = read(shellFile).split('{{BODY}}');
print(processMacros(preprocess(shellParts[0], shellFile)));
var pre;
if (BUILD_AS_SHARED_LIB || SIDE_MODULE) {
pre = processMacros(preprocess(read('preamble_sharedlib.js'), 'preamble_sharedlib.js'));
} else {
pre = processMacros(preprocess(read('support.js'), 'support.js')) +
processMacros(preprocess(read('preamble.js'), 'preamble.js'));
}
print(pre);
}
if (mainPass) {
// Add additional necessary items for the main pass. We can now do this since types are parsed (types can be used through
// generateStructInfo in library.js)
LibraryManager.load();
var libFuncsToInclude;
if (INCLUDE_FULL_LIBRARY) {
assert(!(BUILD_AS_SHARED_LIB || SIDE_MODULE), 'Cannot have both INCLUDE_FULL_LIBRARY and BUILD_AS_SHARED_LIB/SIDE_MODULE set.')
libFuncsToInclude = (MAIN_MODULE || SIDE_MODULE) ? DEFAULT_LIBRARY_FUNCS_TO_INCLUDE.slice(0) : [];
for (var key in LibraryManager.library) {
if (!key.match(/__(deps|postset|inline|asm|sig)$/)) {
libFuncsToInclude.push(key);
}
}
} else {
libFuncsToInclude = DEFAULT_LIBRARY_FUNCS_TO_INCLUDE;
}
libFuncsToInclude.forEach(function(ident) {
var finalName = '_' + ident;
if (ident[0] === '$') {
finalName = ident.substr(1);
}
data.functionStubs.push({
intertype: 'functionStub',
finalName: finalName,
ident: '_' + ident
});
});
}
function processLibraryFunction(snippet, ident, finalName) {
// It is possible that when printing the function as a string on Windows, the js interpreter we are in returns the string with Windows
// line endings \r\n. This is undesirable, since line endings are managed in the form \n in the output for binary file writes, so
// make sure the endings are uniform.
snippet = snippet.toString().replace(/\r\n/gm,"\n");
assert(snippet.indexOf('XXX missing C define') == -1,
'Trying to include a library function with missing C defines: ' + finalName + ' | ' + snippet);
// name the function; overwrite if it's already named
snippet = snippet.replace(/function(?:\s+([^(]+))?\s*\(/, 'function ' + finalName + '(');
if (LIBRARY_DEBUG && !LibraryManager.library[ident + '__asm']) {
snippet = snippet.replace('{', '{ var ret = (function() { if (runtimeDebug) Module.printErr("[library call:' + finalName + ': " + Array.prototype.slice.call(arguments).map(prettyPrint) + "]"); ');
snippet = snippet.substr(0, snippet.length-1) + '}).apply(this, arguments); if (runtimeDebug && typeof ret !== "undefined") Module.printErr(" [ return:" + prettyPrint(ret)); return ret; \n}';
}
return snippet;
}
// Generates a function that invokes a proxied function call from the calling thread to the main browser thread.
function generateProxiedCallInvoker(sig, sync /*async if false*/) {
if (sig.length == 0) throw 'Function signature cannot be empty!';
function argsList(num) { // ", p0, p1, p2, p3, p4"
var s = '';
for(var i = 0; i < num; ++i) s += ', p' + i;
return s;
}
var func = "function _emscripten_" + (sync ? '' : 'a') + 'sync_run_in_browser_thread_' + sig + '(func' + argsList(sig.length-1) + ') {\n';
if (sync) func += ' var waitAddress = stackSave();\n';
function sizeofType(t) {
switch(t) {
case 'd': return 8;
// case 'I': return 8; // int64 // TODO: For wasm, we'll have to have something like this
case 'i': return 4;
case 'f': return 4;
case 'v': return 0;
// TODO: Smaller sizes?
default: throw 'unsupported type in signature: ' + t;
}
}
var sizeofReturn = sizeofType(sig[0]);
if (sync) {
if (sizeofReturn == 4) func += ' var returnValue = waitAddress + 4;\n';
else if (sizeofReturn == 8) func += ' var returnValue = waitAddress + 8;\n'; // Retain alignment of each type
}
if (sync) func += ' Atomics.store(HEAP32, waitAddress >> 2, 0);\n';
function argsDict(num) { // ", p0: p0, p1: p1, p2: p2, p3: p3, p4: p4"
var s = '';
for(var i = 0; i < num; ++i) s += ', p' + i + ': p' + i;
return s;
}
// This is ad-hoc numbering scheme to map signatures to IDs, and must agree with call handler in src/library_pthread.js.
// Signatures with numbers 0-19 are for functions that return void, int or float, and ID numbers >= 32 are for functions that return a double.
// Once proxied function calls no longer go through postMessage()s but instead in the heap, this will need to change, since int vs float will matter.
const idForFunctionReturningDouble = 32;
var functionCallOrdinal = sig.length + (sig[0] == 'd' ? idForFunctionReturningDouble : 0);
if (sig.length > 10) throw 'Proxying functions with 10 or more function parameters is not supported!';
// next line generates a form: "postMessage({ proxiedCall: 9, func: func, waitAddress: waitAddress, returnValue: returnValue, p0: p0, p1: p1, p2: p2, p3: p3, p4: p4, p5: p5, p6: p6, p7: p7 });"
func += ' postMessage({ proxiedCall: ' + functionCallOrdinal + ', func: func' + (sync ? ', waitAddress: waitAddress' : '') + (sync && sizeofReturn > 0 ? ', returnValue: returnValue' : '') + argsDict(sig.length-1) + ' });\n';
if (sync) {
func += ' Atomics.wait(HEAP32, waitAddress >> 2, 0);\n';
switch(sig[0]) {
case 'i': func += ' return HEAP32[returnValue >> 2];\n'; break;
case 'f': func += ' return HEAPF32[returnValue >> 2];\n'; break;
case 'd': func += ' return HEAPF64[returnValue >> 3];\n'; break;
//case 'I': func += ' return HEAP64[returnValue >> 3];\n'; // TODO: For wasm
// TODO: Smaller sizes?
}
}
func += '}';
return func;
}
// functionStub
function functionStubHandler(item) {
// special logic
if (item.ident.startsWith('___cxa_find_matching_catch_')) {
var num = +item.ident.split('_').slice(-1)[0];
LibraryManager.library[item.ident.substr(1)] = function() {
return ___cxa_find_matching_catch.apply(null, arguments);
};
}
// note the signature
if (item.returnType && item.params) {
functionStubSigs[item.ident] = Functions.getSignature(item.returnType.text, item.params.map(function(arg) { return arg.type }), false);
}
function addFromLibrary(ident) {
if (ident in addedLibraryItems) return '';
addedLibraryItems[ident] = true;
// dependencies can be JS functions, which we just run
if (typeof ident == 'function') return ident();
// don't process any special identifiers. These are looked up when processing the base name of the identifier.
if (ident.endsWith('__sig') || ident.endsWith('__proxy') || ident.endsWith('__asm') || ident.endsWith('__inline') || ident.endsWith('__deps') || ident.endsWith('__postset')) {
return '';
}
// $ident's are special, we do not prefix them with a '_'.
if (ident[0] === '$') {
var finalName = ident.substr(1);
} else {
var finalName = '_' + ident;
}
// if the function was implemented in compiled code, we just need to export it so we can reach it from JS
if (finalName in IMPLEMENTED_FUNCTIONS) {
EXPORTED_FUNCTIONS[finalName] = 1;
// stop here: we don't need to add anything from our js libraries, not even deps, compiled code is on it
return '';
}
// Don't replace implemented functions with library ones (which can happen when we add dependencies).
// Note: We don't return the dependencies here. Be careful not to end up where this matters
if (finalName in Functions.implementedFunctions) return '';
var noExport = false;
if ((!LibraryManager.library.hasOwnProperty(ident) && !LibraryManager.library.hasOwnProperty(ident + '__inline')) || SIDE_MODULE) {
if (!(finalName in IMPLEMENTED_FUNCTIONS)) {
if (VERBOSE || ident.substr(0, 11) !== 'emscripten_') { // avoid warning on emscripten_* functions which are for internal usage anyhow
if (!LINKABLE) {
if (ERROR_ON_UNDEFINED_SYMBOLS) error('unresolved symbol: ' + ident);
else if (VERBOSE || WARN_ON_UNDEFINED_SYMBOLS) warn('unresolved symbol: ' + ident);
}
}
}
if (!(MAIN_MODULE || SIDE_MODULE)) {
// emit a stub that will fail at runtime
LibraryManager.library[shortident] = new Function("Module['printErr']('missing function: " + shortident + "'); abort(-1);");
} else {
var target = (MAIN_MODULE ? '' : 'parent') + "Module['_" + shortident + "']";
var assertion = '';
if (ASSERTIONS) assertion = 'if (!' + target + ') abort("external function \'' + shortident + '\' is missing. perhaps a side module was not linked in? if this function was expected to arrive from a system library, try to build the MAIN_MODULE with EMCC_FORCE_STDLIBS=1 in the environment");';
LibraryManager.library[shortident] = new Function(assertion + "return " + target + ".apply(null, arguments);");
if (SIDE_MODULE) {
// no dependencies, just emit the thunk
Functions.libraryFunctions[finalName] = 1;
return processLibraryFunction(LibraryManager.library[shortident], ident, finalName);
}
noExport = true;
}
}
var snippet = LibraryManager.library[ident];
var redirectedIdent = null;
var deps = LibraryManager.library[ident + '__deps'] || [];
deps.forEach(function(dep) {
if (typeof snippet === 'string' && !(dep in LibraryManager.library)) warn('missing library dependency ' + dep + ', make sure you are compiling with the right options (see #ifdefs in src/library*.js)');
});
var isFunction = false;
if (typeof snippet === 'string') {
var target = LibraryManager.library[snippet];
if (target) {
// Redirection for aliases. We include the parent, and at runtime make ourselves equal to it.
// This avoid having duplicate functions with identical content.
redirectedIdent = snippet;
deps.push(snippet);
snippet = '_' + snippet;
}
// In asm, we need to know about library functions. If there is a target, though, then no
// need to consider this a library function - we will call directly to it anyhow
if (!redirectedIdent && (typeof target == 'function' || /Math_\w+/.exec(snippet))) {
Functions.libraryFunctions[finalName] = 1;
}
} else if (typeof snippet === 'object') {
snippet = stringifyWithFunctions(snippet);
} else if (typeof snippet === 'function') {
isFunction = true;
snippet = processLibraryFunction(snippet, ident, finalName);
Functions.libraryFunctions[finalName] = 1;
}
var postsetId = ident + '__postset';
var postset = LibraryManager.library[postsetId];
if (postset && !addedLibraryItems[postsetId] && !SIDE_MODULE) {
addedLibraryItems[postsetId] = true;
itemsDict.GlobalVariablePostSet.push({
intertype: 'GlobalVariablePostSet',
JS: postset + ';'
});
}
if (redirectedIdent) {
deps = deps.concat(LibraryManager.library[redirectedIdent + '__deps'] || []);
}
// In asm, dependencies implemented in C might be needed by JS library functions.
// We don't know yet if they are implemented in C or not. To be safe, export such
// special cases.
[LIBRARY_DEPS_TO_AUTOEXPORT].forEach(function(special) {
deps.forEach(function(dep) {
if (dep == special && !EXPORTED_FUNCTIONS[dep]) {
EXPORTED_FUNCTIONS[dep] = 1;
}
});
});
if (VERBOSE) printErr('adding ' + finalName + ' and deps ' + deps + ' : ' + (snippet + '').substr(0, 40));
var depsText = (deps ? '\n' + deps.map(addFromLibrary).filter(function(x) { return x != '' }).join('\n') : '');
var contentText;
if (isFunction) {
// Emit the body of a JS library function.
var proxyingMode = LibraryManager.library[ident + '__proxy'];
if (proxyingMode && proxyingMode !== 'sync' && proxyingMode !== 'async') {
throw 'Invalid proxyingMode ' + ident + '__proxy: \'' + proxyingMode + '\' specified!';
}
if (USE_PTHREADS && proxyingMode) {
var sig = LibraryManager.library[ident + '__sig'];
if (!sig) throw 'Missing function signature field "' + ident + '__sig"! (Using proxying mode requires specifying the signature of the function)';
sig = sig.replace(/f/g, 'i'); // TODO: Implement float signatures.
var synchronousCall = (proxyingMode === 'sync');
var invokerKey = sig + (synchronousCall ? '_sync' : '_async');
if (!proxiedFunctionInvokers[invokerKey]) proxiedFunctionInvokers[invokerKey] = generateProxiedCallInvoker(sig, synchronousCall);
var proxyingFunc = synchronousCall ? '_emscripten_sync_run_in_browser_thread_' : '_emscripten_async_run_in_browser_thread_';
if (sig.length > 1) {
// If the function takes parameters, forward those to the proxied function call
snippet = snippet.replace(/function\s+(.*)?\s*\((.*?)\)\s*{/, 'function $1($2) {\nif (ENVIRONMENT_IS_PTHREAD) return ' + proxyingFunc + sig + '(' + proxiedFunctionTable.length + ', $2);');
} else {
// No parameters to the function
snippet = snippet.replace(/function (.*)? {/, 'function $1 {\nif (ENVIRONMENT_IS_PTHREAD) return ' + proxyingFunc + sig + '(' + proxiedFunctionTable.length + ');');
}
contentText = snippet;
proxiedFunctionTable.push(finalName);
} else {
contentText = snippet; // Regular JS function that will be executed in the context of the calling thread.
}
} else if (typeof snippet === 'string' && snippet.indexOf(';') == 0) {
contentText = 'var ' + finalName + snippet;
if (snippet[snippet.length-1] != ';' && snippet[snippet.length-1] != '}') contentText += ';';
} else {
contentText = 'var ' + finalName + '=' + snippet + ';';
}
var sig = LibraryManager.library[ident + '__sig'];
if (isFunction && sig && LibraryManager.library[ident + '__asm']) {
// asm library function, add it as generated code alongside the generated code
Functions.implementedFunctions[finalName] = sig;
asmLibraryFunctions.push(contentText);
contentText = ' ';
Functions.libraryFunctions[finalName] = 2;
noExport = true; // if it needs to be exported, that will happen in emscripten.py
}
// asm module exports are done in emscripten.py, after the asm module is ready. Here
// we also export library methods as necessary.
if ((EXPORT_ALL || (finalName in EXPORTED_FUNCTIONS)) && !noExport) {
contentText += '\nModule["' + finalName + '"] = ' + finalName + ';';
}
if (!LibraryManager.library[ident + '__asm']) {
// If we are not an asm library func, and we have a dep that is, then we need to call
// into the asm module to reach that dep. so it must be exported from the asm module.
// We set EXPORTED_FUNCTIONS here to tell emscripten.py to do that.
deps.forEach(function(dep) {
if (LibraryManager.library[dep + '__asm']) {
EXPORTED_FUNCTIONS['_' + dep] = 0;
}
});
}
return depsText + contentText;
}
itemsDict.functionStub.push(item);
var shortident = item.ident.substr(1);
if (BUILD_AS_SHARED_LIB) {
// Shared libraries reuse the runtime of their parents.
item.JS = '';
} else {
// If this is not linkable, anything not in the library is definitely missing
if (item.ident in DEAD_FUNCTIONS) {
if (LibraryManager.library[shortident + '__asm']) {
warn('cannot kill asm library function ' + item.ident);
} else {
LibraryManager.library[shortident] = new Function("Module['printErr']('dead function: " + shortident + "'); abort(-1);");
delete LibraryManager.library[shortident + '__inline'];
delete LibraryManager.library[shortident + '__deps'];
}
}
item.JS = addFromLibrary(shortident);
}
}
// Final combiner
function finalCombiner() {
var splitPostSets = splitter(itemsDict.GlobalVariablePostSet, function(x) { return x.ident && x.dependencies });
itemsDict.GlobalVariablePostSet = splitPostSets.leftIn;
var orderedPostSets = splitPostSets.splitOut;
var limit = orderedPostSets.length * orderedPostSets.length;
for (var i = 0; i < orderedPostSets.length; i++) {
for (var j = i+1; j < orderedPostSets.length; j++) {
if (orderedPostSets[j].ident in orderedPostSets[i].dependencies) {
var temp = orderedPostSets[i];
orderedPostSets[i] = orderedPostSets[j];
orderedPostSets[j] = temp;
i--;
limit--;
assert(limit > 0, 'Could not sort postsets!');
break;
}
}
}
itemsDict.GlobalVariablePostSet = itemsDict.GlobalVariablePostSet.concat(orderedPostSets);
//
if (!mainPass) {
if (!Variables.generatedGlobalBase && !BUILD_AS_SHARED_LIB) {
Variables.generatedGlobalBase = true;
// Globals are done, here is the rest of static memory
if (!SIDE_MODULE) {
print('STATIC_BASE = GLOBAL_BASE;\n');
print('STATICTOP = STATIC_BASE + ' + Runtime.alignMemory(Variables.nextIndexedOffset) + ';\n');
} else {
print('gb = alignMemory(getMemory({{{ STATIC_BUMP }}}, ' + MAX_GLOBAL_ALIGN + ' || 1));\n');
print('// STATICTOP = STATIC_BASE + ' + Runtime.alignMemory(Variables.nextIndexedOffset) + ';\n'); // comment as metadata only
}
if (BINARYEN) {
// export static base and bump, needed for linking in wasm binary's memory, dynamic linking, etc.
print('var STATIC_BUMP = {{{ STATIC_BUMP }}};');
print('Module["STATIC_BASE"] = STATIC_BASE;');
print('Module["STATIC_BUMP"] = STATIC_BUMP;');
}
}
var generated = itemsDict.function.concat(itemsDict.type).concat(itemsDict.GlobalVariableStub).concat(itemsDict.GlobalVariable);
print(generated.map(function(item) { return item.JS; }).join('\n'));
if (memoryInitialization.length > 0) {
// apply postsets directly into the big memory initialization
itemsDict.GlobalVariablePostSet = itemsDict.GlobalVariablePostSet.filter(function(item) {
var m;
if (m = /^HEAP([\dFU]+)\[([()>\d]+)\] *= *([()|\d{}\w_' ]+);?$/.exec(item.JS)) {
var type = getTypeFromHeap(m[1]);
var bytes = Runtime.getNativeTypeSize(type);
var target = eval(m[2]) << log2(bytes);
var value = m[3];
try {
value = eval(value);
} catch(e) {
// possibly function table {{{ FT_* }}} etc.
if (value.indexOf('{{ ') < 0) return true;
}
writeInt8s(memoryInitialization, target - Runtime.GLOBAL_BASE, value, type);
return false;
}
return true;
});
// write out the singleton big memory initialization value
if (USE_PTHREADS) {
print('if (!ENVIRONMENT_IS_PTHREAD) {') // Pthreads should not initialize memory again, since it's shared with the main thread.
}
print('/* memory initializer */ ' + makePointer(memoryInitialization, null, 'ALLOC_NONE', 'i8', 'GLOBAL_BASE' + (SIDE_MODULE ? '+H_BASE' : ''), true));
if (USE_PTHREADS) {
print('}')
}
} else {
print('/* no memory initializer */'); // test purposes
}
if (!BUILD_AS_SHARED_LIB && !SIDE_MODULE) {
if (USE_PTHREADS) {
print('var tempDoublePtr;\n');
print('if (!ENVIRONMENT_IS_PTHREAD) tempDoublePtr = alignMemory(allocate(12, "i8", ALLOC_STATIC), 8);\n');
} else {
print('var tempDoublePtr = ' + makeStaticAlloc(8) + '\n');
}
if (ASSERTIONS) print('assert(tempDoublePtr % 8 == 0);\n');
print('function copyTempFloat(ptr) { // functions, because inlining this code increases code size too much\n');
print(' HEAP8[tempDoublePtr] = HEAP8[ptr];\n');
print(' HEAP8[tempDoublePtr+1] = HEAP8[ptr+1];\n');
print(' HEAP8[tempDoublePtr+2] = HEAP8[ptr+2];\n');
print(' HEAP8[tempDoublePtr+3] = HEAP8[ptr+3];\n');
print('}\n');
print('function copyTempDouble(ptr) {\n');
print(' HEAP8[tempDoublePtr] = HEAP8[ptr];\n');
print(' HEAP8[tempDoublePtr+1] = HEAP8[ptr+1];\n');
print(' HEAP8[tempDoublePtr+2] = HEAP8[ptr+2];\n');
print(' HEAP8[tempDoublePtr+3] = HEAP8[ptr+3];\n');
print(' HEAP8[tempDoublePtr+4] = HEAP8[ptr+4];\n');
print(' HEAP8[tempDoublePtr+5] = HEAP8[ptr+5];\n');
print(' HEAP8[tempDoublePtr+6] = HEAP8[ptr+6];\n');
print(' HEAP8[tempDoublePtr+7] = HEAP8[ptr+7];\n');
print('}\n');
}
print('// {{PRE_LIBRARY}}\n'); // safe to put stuff here that statically allocates
return;
}
// Print out global variables and postsets TODO: batching
var legalizedI64sDefault = legalizedI64s;
legalizedI64s = false;
var globalsData = {functionStubs: []}
JSify(globalsData, true);
globalsData = null;
var generated = itemsDict.functionStub.concat(itemsDict.GlobalVariablePostSet);
generated.forEach(function(item) { print(indentify(item.JS || '', 2)); });
legalizedI64s = legalizedI64sDefault;
if (!BUILD_AS_SHARED_LIB && !SIDE_MODULE) {
if (USE_PTHREADS) {
print('\n // proxiedFunctionTable specifies the list of functions that can be called either synchronously or asynchronously from other threads in postMessage()d or internally queued events. This way a pthread in a Worker can synchronously access e.g. the DOM on the main thread.')
print('\nvar proxiedFunctionTable = [' + proxiedFunctionTable.join() + '];\n');
for(i in proxiedFunctionInvokers) print(proxiedFunctionInvokers[i]+'\n');
print('if (!ENVIRONMENT_IS_PTHREAD) {\n // Only main thread initializes these, pthreads copy them over at thread worker init time (in pthread-main.js)');
}
print('DYNAMICTOP_PTR = staticAlloc(4);\n');
print('STACK_BASE = STACKTOP = alignMemory(STATICTOP);\n');
if (STACK_START > 0) print('if (STACKTOP < ' + STACK_START + ') STACK_BASE = STACKTOP = alignMemory(' + STACK_START + ');\n');
print('STACK_MAX = STACK_BASE + TOTAL_STACK;\n');
print('DYNAMIC_BASE = alignMemory(STACK_MAX);\n');
print('HEAP32[DYNAMICTOP_PTR>>2] = DYNAMIC_BASE;\n');
print('staticSealed = true; // seal the static portion of memory\n');
if (ASSERTIONS) print('assert(DYNAMIC_BASE < TOTAL_MEMORY, "TOTAL_MEMORY not big enough for stack");\n');
if (USE_PTHREADS) print('}\n');
}
if (SPLIT_MEMORY) {
print('assert(STACK_MAX < SPLIT_MEMORY, "SPLIT_MEMORY size must be big enough so the entire static memory + stack can fit in one chunk, need " + STACK_MAX);\n');
}
print('var ASSERTIONS = ' + !!ASSERTIONS + ';\n');
print(preprocess(read('arrayUtils.js')));
// Export all arrayUtils.js functions
print(maybeExport('intArrayFromString'));
print(maybeExport('intArrayToString'));
if (SUPPORT_BASE64_EMBEDDING) {
print(preprocess(read('base64Utils.js')));
// Export all base64Utils.js functions
print(maybeExport('intArrayFromBase64'));
print(maybeExport('tryParseAsDataURI'));
}
if (asmLibraryFunctions.length > 0) {
print('// ASM_LIBRARY FUNCTIONS');
function fix(f) { // fix indenting to not confuse js optimizer
f = f.substr(f.indexOf('f')); // remove initial spaces before 'function'
f = f.substr(0, f.lastIndexOf('\n')+1); // remove spaces and last } XXX assumes function has multiple lines
return f + '}'; // add unindented } to match function
}
print(asmLibraryFunctions.map(fix).join('\n'));
}
if (abortExecution) throw 'Aborting compilation due to previous errors';
// This is the main 'post' pass. Print out the generated code that we have here, together with the
// rest of the output that we started to print out earlier (see comment on the
// "Final shape that will be created").
print('// EMSCRIPTEN_END_FUNCS\n');
if (HEADLESS) {
print('if (!ENVIRONMENT_IS_WEB) {');
print(read('headlessCanvas.js'));
print('\n');
print(read('headless.js').replace("'%s'", "'http://emscripten.org'").replace("'?%s'", "''").replace("'?%s'", "'/'").replace('%s,', 'null,').replace('%d', '0'));
print('}');
}
if (PROXY_TO_WORKER) {
print('if (ENVIRONMENT_IS_WORKER) {\n');
print(read('webGLWorker.js'));
print(processMacros(preprocess(read('proxyWorker.js'), 'proxyWorker.js')));
print('}');
}
if (DETERMINISTIC) {
print(read('deterministic.js'));
}
var postFile = BUILD_AS_SHARED_LIB || SIDE_MODULE ? 'postamble_sharedlib.js' : 'postamble.js';
var postParts = processMacros(preprocess(read(postFile), postFile)).split('{{GLOBAL_VARS}}');
print(postParts[0]);
print(postParts[1]);
var shellParts = read(shellFile).split('{{BODY}}');
print(processMacros(preprocess(shellParts[1], shellFile)));
// Print out some useful metadata
if (RUNNING_JS_OPTS || PGO) {
var generatedFunctions = JSON.stringify(keys(Functions.implementedFunctions));
if (PGO) {
print('PGOMonitor.allGenerated = ' + generatedFunctions + ';\nremoveRunDependency("pgo");\n');
}
if (RUNNING_JS_OPTS) {
print('// EMSCRIPTEN_GENERATED_FUNCTIONS: ' + generatedFunctions + '\n');
}
}
PassManager.serialize();
}
// Data
if (mainPass) {
data.functionStubs.forEach(functionStubHandler);
}
//B.start('jsifier-fc');
finalCombiner();
//B.stop('jsifier-fc');
dprint('framework', 'Big picture: Finishing JSifier, main pass=' + mainPass);
//B.stop('jsifier');
}
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