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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 RELOOP_IGNORED_LASTS = set('return', 'unreachable', 'resume');
var addedLibraryItems = {};
var asmLibraryFunctions = [];
var SETJMP_LABEL = -1;
var INDENTATION = ' ';
var functionStubSigs = {};
// JSifier
function JSify(data, functionsOnly) {
//B.start('jsifier');
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');
if (phase == 'pre' || phase == 'glue') {
// 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])));
var preFile = BUILD_AS_SHARED_LIB || SIDE_MODULE ? 'preamble_sharedlib.js' : 'preamble.js';
var pre = processMacros(preprocess(read(preFile).replace('{{RUNTIME}}', getRuntime())));
print(pre);
// Populate implementedFunctions. Note that this is before types, and will be updated later.
data.unparsedFunctions.forEach(function(func) {
Functions.implementedFunctions[func.ident] = Functions.getSignature(func.returnType, func.params.map(function(param) { return param.type }));
});
}
}
if (mainPass) {
// Handle unparsed types TODO: Batch them
analyzer(intertyper(data.unparsedTypess[0].lines, true), true);
data.unparsedTypess = null;
// 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)
//B.start('jsifier-libload');
LibraryManager.load();
//B.stop('jsifier-libload');
if (phase == 'pre' || phase == 'glue') {
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 = [];
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) {
data.functionStubs.push({
intertype: 'functionStub',
ident: '_' + ident
});
});
}
}
// Functions
if (phase == 'funcs') { // || phase == 'pre') { // pre has function shells, just to defined implementedFunctions
var MAX_BATCH_FUNC_LINES = 1000;
while (data.unparsedFunctions.length > 0) {
var currFuncLines = [];
var currBaseLineNums = [];
while (currFuncLines.length == 0 ||
(data.unparsedFunctions.length > 0 && currFuncLines.length + data.unparsedFunctions[0].lines.length <= MAX_BATCH_FUNC_LINES)) {
currBaseLineNums.push([currFuncLines.length, data.unparsedFunctions[0].lineNum-1]);
currFuncLines = currFuncLines.concat(data.unparsedFunctions[0].lines); // for first one, assign, do not concat?
data.unparsedFunctions.shift();
}
dprint('unparsedFunctions','====================\n// Processing function batch of ' + currBaseLineNums.length +
' functions, ' + currFuncLines.length + ' lines, functions left: ' + data.unparsedFunctions.length);
if (DEBUG_MEMORY) MemoryDebugger.tick('pre-func');
JSify(analyzer(intertyper(currFuncLines, true, currBaseLineNums), true), true);
if (DEBUG_MEMORY) MemoryDebugger.tick('post-func');
}
currFuncLines = currBaseLineNums = null; // Do not hold on to anything from inside that loop (JS function scoping..)
data.unparsedFunctions = null;
}
// Actors
function makeEmptyStruct(type) {
var ret = [];
var typeData = Types.types[type];
assertTrue(typeData);
for (var i = 0; i < typeData.flatSize; i++) {
ret.push(0);
}
return ret;
}
function alignStruct(values, type) {
var typeData = Types.types[type];
assertTrue(typeData);
var ret = new Array(typeData.flatSize);
var index = 0;
var i = 0;
while (i < values.length) {
// Pad until the right place
var padded = typeData.flatFactor ? typeData.flatFactor*i : typeData.flatIndexes[i];
while (index < padded) {
ret[index++] = 0;
}
// Add current value(s)
var currValue = values[i];
if (USE_TYPED_ARRAYS == 2 && (typeData.fields[i] == 'i64' || (typeData.flatFactor && typeData.fields[0] == 'i64'))) {
// 'flatten' out the 64-bit value into two 32-bit halves
var parts = parseI64Constant(currValue, true);
ret[index++] = parts[0];
ret[index++] = 0;
ret[index++] = 0;
ret[index++] = 0;
ret[index++] = parts[1];
ret[index++] = 0;
ret[index++] = 0;
ret[index++] = 0;
} else {
currValue = flatten(currValue);
if (typeof currValue == 'object') {
for (var j = 0; j < currValue.length; j++) {
ret[index++] = currValue[j];
}
} else {
ret[index++] = currValue;
}
}
i += 1;
}
while (index < typeData.flatSize) {
ret[index++] = 0;
}
return ret;
}
// Gets an entire constant expression
function makeConst(value, type, ident) {
// Gets an array of constant items, separated by ',' tokens
function handleSegments(tokens) {
// Handle a single segment (after comma separation)
function handleSegment(segment) {
var ret;
if (segment.intertype === 'value') {
ret = segment.ident;
} else if (segment.intertype === 'emptystruct') {
ret = makeEmptyStruct(segment.type);
} else if (segment.intertype in PARSABLE_LLVM_FUNCTIONS) {
ret = finalizeLLVMFunctionCall(segment);
} else if (segment.intertype in STRUCT_LIST) {
ret = alignStruct(handleSegments(segment.contents), segment.type);
} else if (segment.intertype === 'string') {
ret = parseLLVMString(segment.text); // + ' /* ' + text + '*/';
} else if (segment.intertype === 'blockaddress') {
ret = finalizeBlockAddress(segment);
} else {
throw 'Invalid segment: ' + dump(segment);
}
assert(segment.type, 'Missing type for constant segment!');
return makeGlobalUse(indexizeFunctions(ret, segment.type));
};
return tokens.map(handleSegment)
}
//dprint('jsifier const: ' + JSON.stringify(value) + ',' + type + '\n');
if (value.intertype in PARSABLE_LLVM_FUNCTIONS) {
return [finalizeLLVMFunctionCall(value)];
} else if (Runtime.isNumberType(type) || pointingLevels(type) >= 1) {
return [makeGlobalUse(indexizeFunctions(parseNumerical(value.value), type))];
} else if (value.intertype === 'emptystruct') {
return makeEmptyStruct(type);
} else if (value.intertype === 'string') {
return parseLLVMString(value.text);
} else {
return alignStruct(handleSegments(value.contents), type);
}
}
function parseConst(value, type, ident) {
var constant = makeConst(value, type);
constant = flatten(constant).map(function(x) { return parseNumerical(x) })
return constant;
}
// globalVariable
function globalVariableHandler(item) {
function needsPostSet(value) {
if (typeof value !== 'string') return false;
// (' is ok, as it is something we can indexize later into a concrete int: ('{{ FI_ ...
return /^([(_][^']|CHECK_OVERFLOW|GLOBAL).*/.test(value);
}
item.intertype = 'GlobalVariableStub';
itemsDict.GlobalVariableStub.push(item);
assert(!item.lines); // FIXME remove this, after we are sure it isn't needed
if (item.ident == '_llvm_global_ctors') {
item.JS = '\n/* global initializers */ __ATINIT__.push(' +
item.ctors.map(function(ctor) { return '{ func: function() { ' + ctor + '() } }' }).join(',') +
');\n';
return;
}
var constant = null;
var allocator = (BUILD_AS_SHARED_LIB && !item.external) ? 'ALLOC_NORMAL' : 'ALLOC_STATIC';
var index = null;
if (item.external && BUILD_AS_SHARED_LIB) {
// External variables in shared libraries should not be declared as
// they would shadow similarly-named globals in the parent.
item.JS = '';
} else {
item.JS = makeGlobalDef(item.ident);
}
if (!NAMED_GLOBALS && isIndexableGlobal(item.ident)) {
index = makeGlobalUse(item.ident); // index !== null indicates we are indexing this
allocator = 'ALLOC_NONE';
}
Variables.globals[item.ident].named = item.named;
if (ASM_JS && (MAIN_MODULE || SIDE_MODULE) && !item.private_ && !NAMED_GLOBALS && isIndexableGlobal(item.ident)) {
// We need this to be named (and it normally would not be), so that it can be linked to and used from other modules
Variables.globals[item.ident].linkable = 1;
}
if (isBSS(item)) {
// If using indexed globals, go ahead and early out (no need to explicitly
// initialize).
if (!NAMED_GLOBALS) return;
// If using named globals, we can at least shorten the call to allocate by
// passing an integer representing the size of memory to alloc instead of
// an array of 0s of size length.
constant = Runtime.alignMemory(calcAllocatedSize(item.type));
} else {
if (item.external) {
if (Runtime.isNumberType(item.type) || isPointerType(item.type)) {
constant = zeros(Runtime.getNativeFieldSize(item.type));
} else {
constant = makeEmptyStruct(item.type);
}
} else {
constant = parseConst(item.value, item.type, item.ident);
}
assert(typeof constant === 'object');//, [typeof constant, JSON.stringify(constant), item.external]);
// This is a flattened object. We need to find its idents, so they can be assigned to later
var structTypes = null;
constant.forEach(function(value, i) {
if (needsPostSet(value)) { // ident, or expression containing an ident
if (!structTypes) structTypes = generateStructTypes(item.type);
itemsDict.GlobalVariablePostSet.push({
intertype: 'GlobalVariablePostSet',
JS: makeSetValue(makeGlobalUse(item.ident), i, value, structTypes[i], false, true) + ';' // ignore=true, since e.g. rtti and statics cause lots of safe_heap errors
});
constant[i] = '0';
} else {
if (typeof value === 'string') constant[i] = deParenCarefully(value);
}
});
if (item.external) {
// External variables in shared libraries should not be declared as
// they would shadow similarly-named globals in the parent, so do nothing here.
if (BUILD_AS_SHARED_LIB) return;
if (SIDE_MODULE) {
itemsDict.GlobalVariableStub.pop(); // remove this item
return;
}
// Library items need us to emit something, but everything else requires nothing.
if (!LibraryManager.library[item.ident.slice(1)]) return;
}
// ensure alignment
var extra = Runtime.alignMemory(constant.length) - constant.length;
if (item.ident.substr(0, 5) == '__ZTV') extra += Runtime.alignMemory(QUANTUM_SIZE);
while (extra-- > 0) constant.push(0);
}
// NOTE: This is the only place that could potentially create static
// allocations in a shared library.
constant = makePointer(constant, null, allocator, item.type, index);
var js = (index !== null ? '' : item.ident + '=') + constant;
if (js) js += ';';
if (!ASM_JS && NAMED_GLOBALS && (EXPORT_ALL || (item.ident in EXPORTED_GLOBALS))) {
js += '\nModule["' + item.ident + '"] = ' + item.ident + ';';
}
if (BUILD_AS_SHARED_LIB == 2 && !item.private_) {
// TODO: make the assert conditional on ASSERTIONS
js += 'if (globalScope) { assert(!globalScope["' + item.ident + '"]); globalScope["' + item.ident + '"] = ' + item.ident + ' }';
}
if (item.external && !NAMED_GLOBALS) {
js = 'var ' + item.ident + '=' + js; // force an explicit naming, even if unnamed globals, for asm forwarding
}
itemsDict.GlobalVariableStub.push({
intertype: 'GlobalVariable',
JS: js,
});
}
// alias
function aliasHandler(item) {
item.intertype = 'GlobalVariableStub';
itemsDict.GlobalVariableStub.push(item);
item.JS = 'var ' + item.ident + ';';
// Set the actual value in a postset, since it may be a global variable. We also order by dependencies there
Variables.globals[item.ident].targetIdent = item.value.ident;
var value = Variables.globals[item.ident].resolvedAlias = finalizeLLVMParameter(item.value);
if ((MAIN_MODULE || SIDE_MODULE) && isFunctionType(item.type)) {
var target = item.value.ident;
if (!Functions.aliases[target]) Functions.aliases[target] = [];
Functions.aliases[target].push(item.ident);
}
}
function processLibraryFunction(snippet, ident) {
snippet = snippet.toString();
assert(snippet.indexOf('XXX missing C define') == -1,
'Trying to include a library function with missing C defines: ' + ident + ' | ' + snippet);
// name the function; overwrite if it's already named
snippet = snippet.replace(/function(?:\s+([^(]+))?\s*\(/, 'function _' + ident + '(');
if (LIBRARY_DEBUG) {
snippet = snippet.replace('{', '{ var ret = (function() { if (Runtime.debug) Module.printErr("[library call:' + ident + ': " + Array.prototype.slice.call(arguments).map(Runtime.prettyPrint) + "]"); ');
snippet = snippet.substr(0, snippet.length-1) + '}).apply(this, arguments); if (Runtime.debug && typeof ret !== "undefined") Module.printErr(" [ return:" + Runtime.prettyPrint(ret)); return ret; \n}';
}
return snippet;
}
// functionStub
function functionStubHandler(item) {
// 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 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 (('_' + ident) in Functions.implementedFunctions) return '';
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 (ASM_JS && !redirectedIdent && (typeof target == 'function' || /Math_\w+/.exec(snippet))) {
Functions.libraryFunctions[ident] = 1;
}
} else if (typeof snippet === 'object') {
snippet = stringifyWithFunctions(snippet);
} else if (typeof snippet === 'function') {
isFunction = true;
snippet = processLibraryFunction(snippet, ident);
if (ASM_JS) Functions.libraryFunctions[ident] = 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'] || []);
}
if (ASM_JS) {
// 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;
}
});
});
}
// $ident's are special, we do not prefix them with a '_'.
if (ident[0] === '$') {
ident = ident.substr(1);
} else {
ident = '_' + ident;
}
if (VERBOSE) printErr('adding ' + ident + ' and deps ' + deps);
var depsText = (deps ? '\n' + deps.map(addFromLibrary).filter(function(x) { return x != '' }).join('\n') : '');
var contentText = isFunction ? snippet : ('var ' + ident + '=' + snippet + ';');
if (ASM_JS) {
var sig = LibraryManager.library[ident.substr(1) + '__sig'];
if (isFunction && sig && LibraryManager.library[ident.substr(1) + '__asm']) {
// asm library function, add it as generated code alongside the generated code
Functions.implementedFunctions[ident] = sig;
asmLibraryFunctions.push(contentText);
contentText = ' ';
EXPORTED_FUNCTIONS[ident] = 1;
Functions.libraryFunctions[ident.substr(1)] = 2;
}
}
if (SIDE_MODULE) return ';'; // we import into the side module js library stuff from the outside parent
if ((!ASM_JS || phase == 'pre' || phase == 'glue') &&
(EXPORT_ALL || (ident in EXPORTED_FUNCTIONS))) {
contentText += '\nModule["' + ident + '"] = ' + ident + ';';
}
return depsText + contentText;
}
itemsDict.functionStub.push(item);
if (IGNORED_FUNCTIONS.indexOf(item.ident) >= 0) return;
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
var cancel = false;
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'];
}
}
if (!LINKABLE && !LibraryManager.library.hasOwnProperty(shortident) && !LibraryManager.library.hasOwnProperty(shortident + '__inline')) {
if (ERROR_ON_UNDEFINED_SYMBOLS) error('unresolved symbol: ' + shortident);
else if (VERBOSE || WARN_ON_UNDEFINED_SYMBOLS) warn('unresolved symbol: ' + shortident);
if (ASM_JS) {
// emit a stub that will fail during runtime. this allows asm validation to succeed.
LibraryManager.library[shortident] = new Function("Module['printErr']('missing function: " + shortident + "'); abort(-1);");
} else {
cancel = true; // emit nothing, not even var X = undefined;
}
}
item.JS = cancel ? ';' : addFromLibrary(shortident);
}
}
// function splitter
function functionSplitter(item) {
item.lines.forEach(function(line) {
//B.start('jsifier-handle-' + line.intertype);
Framework.currItem = line;
line.funcData = item; // TODO: remove all these, access it globally
switch (line.intertype) {
case 'value': line.JS = valueHandler(line); break;
case 'noop': line.JS = noopHandler(line); break;
case 'var': line.JS = varHandler(line); break;
case 'store': line.JS = storeHandler(line); break;
case 'deleted': line.JS = deletedHandler(line); break;
case 'branch': line.JS = branchHandler(line); break;
case 'switch': line.JS = switchHandler(line); break;
case 'return': line.JS = returnHandler(line); break;
case 'resume': line.JS = resumeHandler(line); break;
case 'invoke': line.JS = invokeHandler(line); break;
case 'atomic': line.JS = atomicHandler(line); break;
case 'landingpad': line.JS = landingpadHandler(line); break;
case 'load': line.JS = loadHandler(line); break;
case 'extractvalue': line.JS = extractvalueHandler(line); break;
case 'insertvalue': line.JS = insertvalueHandler(line); break;
case 'insertelement': line.JS = insertelementHandler(line); break;
case 'extracttelement': line.JS = extractelementHandler(line); break;
case 'shufflevector': line.JS = shufflevectorHandler(line); break;
case 'indirectbr': line.JS = indirectbrHandler(line); break;
case 'alloca': line.JS = allocaHandler(line); break;
case 'va_arg': line.JS = va_argHandler(line); break;
case 'mathop': line.JS = mathopHandler(line); break;
case 'bitcast': line.JS = bitcastHandler(line); break;
case 'getelementptr': line.JS = getelementptrHandler(line); break;
case 'call': line.JS = callHandler(line); break;
case 'unreachable': line.JS = unreachableHandler(line); break;
default: throw 'what is this line? ' + dump(line);
}
//if (ASM_JS) assert(line.JS.indexOf('var ') < 0, dump(line));
if (line.assignTo) makeAssign(line);
Framework.currItem = null;
//B.stop('jsifier-handle-' + line.intertype);
});
//B.start('jsifier-frec');
functionReconstructor(item);
//B.stop('jsifier-frec');
}
// function for filtering functions for label debugging
if (LABEL_FUNCTION_FILTERS.length > 0) {
var LABEL_FUNCTION_FILTER_SET = set(LABEL_FUNCTION_FILTERS);
var functionNameFilterTest = function(ident) {
return (ident in LABEL_FUNCTION_FILTER_SET);
};
} else {
// no filters are specified, all function names are printed
var functionNameFilterTest = function(ident) {
return true;
}
}
// function reconstructor & post-JS optimizer
function functionReconstructor(func) {
// We have this function all reconstructed, go and finalize it's JS!
if (IGNORED_FUNCTIONS.indexOf(func.ident) >= 0) return null;
func.JS = '\n';
var paramIdents = func.params.map(function(param) {
return toNiceIdent(param.ident);
});
if (CLOSURE_ANNOTATIONS) {
func.JS += '/**\n';
paramIdents.forEach(function(param) {
func.JS += ' * @param {number} ' + param + '\n';
});
func.JS += ' * @return {number}\n'
func.JS += ' */\n';
}
if (PRINT_SPLIT_FILE_MARKER) {
func.JS += '\n//FUNCTION_BEGIN_MARKER\n'
var associatedSourceFile = "NO_SOURCE";
}
if (DLOPEN_SUPPORT) Functions.getIndex(func.ident);
func.JS += 'function ' + func.ident + '(' + paramIdents.join(',') + '){\n';
if (PGO) {
func.JS += INDENTATION + 'PGOMonitor.called["' + func.ident + '"] = 1;\n';
}
if (ASM_JS) {
// spell out argument types
func.params.forEach(function(param) {
func.JS += INDENTATION + param.ident + '=' + deParen(asmCoercion(param.ident, param.type)) + ';\n';
});
addVariable('label', 'i32', func);
if (func.setjmpTable) {
addVariable('setjmpLabel', 'i32', func);
addVariable('setjmpTable', 'i32', func);
}
// spell out local variables
var vars = values(func.variables).filter(function(v) {
return v.origin !== 'funcparam' &&
(!isIllegalType(getImplementationType(v)) || v.ident.indexOf('$', 1) > 0); // not illegal, or a broken up illegal (we have illegal chunks explicitly anyhow)
});
if (vars.length > 0) {
var chunkSize = 20;
var chunks = [];
var i = 0;
while (i < vars.length) {
chunks.push(vars.slice(i, i+chunkSize));
i += chunkSize;
}
for (i = 0; i < chunks.length; i++) {
func.JS += INDENTATION + 'var ' + chunks[i].map(function(v) {
return v.ident + '=' + asmInitializer(getImplementationType(v)); //, func.variables[v.ident].impl);
}).join(',') + ';\n';
}
}
}
if (CLOSURE_ANNOTATIONS) func.JS += '/** @type {number} */';
if (!ASM_JS) {
func.JS += INDENTATION + 'var label=0;\n';
}
if (ASM_JS) {
var hasByVal = false;
func.params.forEach(function(param) {
hasByVal = hasByVal || param.byVal;
});
if (hasByVal) {
func.JS += INDENTATION + 'var tempParam=0;\n';
}
}
if (func.hasVarArgsCall) {
func.JS += INDENTATION + 'var tempVarArgs=0;\n';
}
// Prepare the stack, if we need one. If we have other stack allocations, force the stack to be set up.
func.JS += INDENTATION + RuntimeGenerator.stackEnter(func.initialStack, func.otherStackAllocations) + ';\n';
// Make copies of by-value params
// XXX It is not clear we actually need this. While without this we fail, it does look like
// Clang normally does the copy itself, in the calling function. We only need this code
// when Clang optimizes the code and passes the original, not the copy, to the other
// function. But Clang still copies, the copy is just unused! Need to figure out if that
// is caused by our running just some optimizations (the safe ones), or if its a bug
// in Clang, or a bug in our understanding of the IR.
func.params.forEach(function(param) {
if (param.byVal) {
var type = removePointing(param.type);
var typeInfo = Types.types[type];
func.JS += INDENTATION + (ASM_JS ? '' : 'var ') + 'tempParam = ' + param.ident + '; ' + param.ident + '=' + RuntimeGenerator.stackAlloc(typeInfo.flatSize) + ';' +
makeCopyValues(param.ident, 'tempParam', typeInfo.flatSize, 'null', null, param.byVal) + ';\n';
}
});
if (LABEL_DEBUG && functionNameFilterTest(func.ident)) func.JS += " Module.print(INDENT + ' Entering: " + func.ident + ": ' + Array.prototype.slice.call(arguments)); INDENT += ' ';\n";
// Walk function blocks and generate JS
function walkBlock(block, indent) {
if (!block) return '';
dprint('relooping', 'walking block: ' + block.type + ',' + block.entries + ' : ' + block.labels.length);
function getLabelLines(label, relooping) {
if (!label) return '';
var ret = '';
if ((LABEL_DEBUG >= 2) && functionNameFilterTest(func.ident)) {
ret += INDENTATION + "Module.print(INDENT + '" + func.ident + ":" + label.ident + "');\n";
}
if (EXECUTION_TIMEOUT > 0) {
ret += INDENTATION + 'if (Date.now() - START_TIME >= ' + (EXECUTION_TIMEOUT*1000) + ') throw "Timed out!" + (new Error().stack);\n';
}
if (PRINT_SPLIT_FILE_MARKER && Debugging.on && Debugging.getAssociatedSourceFile(label.lines[label.lines.length-1].lineNum)) {
// Overwrite the associated source file for every line. The last line should contain the source file associated to
// the return value/address of outer most block (the marked function).
associatedSourceFile = Debugging.getAssociatedSourceFile(label.lines[label.lines.length-1].lineNum);
}
// for special labels we care about (for phi), mark that we visited them
var i = 0;
return ret + label.lines.map(function(line) {
var JS = line.JS;
if (!relooping) JS = INDENTATION + JS;
if (relooping && i == label.lines.length-1) {
if (line.intertype == 'branch' || line.intertype == 'switch') {
JS = ''; // just branching operations - done in the relooper, so nothing need be done here
} else if (line.intertype == 'invoke') {
JS = line.reloopingJS; // invokes have code that is not rendered in the relooper (the call inside a try-catch)
}
}
i++;
// invoke instructions span two lines, and the debug info is located
// on the second line, hence the +1
if (Debugging.on) JS += Debugging.getComment(line.lineNum + (line.intertype === 'invoke' ? 1 : 0));
//assert(JS.indexOf('\n') < 0, JS);
return JS;
}).join('\n');
}
var ret = '';
if (!RELOOP || func.forceEmulated) { // TODO: also if just 1 label?
if (block.labels.length > 1) {
if (block.entries.length == 1) {
ret += indent + 'label = ' + getLabelId(block.entries[0]) + '; ' + (SHOW_LABELS ? '/* ' + getOriginalLabelId(block.entries[0]) + ' */' : '') + '\n';
} // otherwise, should have been set before!
if (func.setjmpTable) {
if (!ASM_JS) {
var setjmpTable = {};
ret += indent + 'var mySetjmpIds = {};\n';
ret += indent + 'var setjmpTable = {';
func.setjmpTable.forEach(function(triple) { // original label, label we created for right after the setjmp, variable setjmp result goes into
ret += '"' + getLabelId(triple.oldLabel) + '": ' + 'function(value) { label = ' + getLabelId(triple.newLabel) + '; ' + triple.assignTo + ' = value },';
});
ret += 'dummy: 0';
ret += '};\n';
} else {
ret += makeVarDef('setjmpLabel') + '=0;\n';
ret += makeVarDef('setjmpTable') + '=' + RuntimeGenerator.stackAlloc(4 * (MAX_SETJMPS + 1) * 2) + ';\n';
ret += makeSetValue('setjmpTable', '0', '0', 'i32') + ';'; // initialize first entry to 0
}
}
ret += indent + 'while(1)';
if (func.setjmpTable && !ASM_JS) {
ret += 'try { ';
}
ret += 'switch(' + asmCoercion('label', 'i32') + '){\n';
ret += block.labels.map(function(label) {
return INDENTATION + 'case ' + getLabelId(label.ident) + ': ' + (SHOW_LABELS ? '// ' + getOriginalLabelId(label.ident) : '') + '\n'
+ getLabelLines(label);
}).join('\n') + '\n';
if (func.setjmpTable && ASM_JS) {
// emit a label in which we write to the proper local variable, before jumping to the actual label
ret += INDENTATION + 'case ' + SETJMP_LABEL + ': ';
ret += func.setjmpTable.map(function(triple) { // original label, label we created for right after the setjmp, variable setjmp result goes into
return 'if ((setjmpLabel|0) == ' + getLabelId(triple.oldLabel) + ') { ' + triple.assignTo + ' = threwValue; label = ' + triple.newLabel + ' }\n';
}).join(' else ');
if (ASSERTIONS) ret += 'else abort(-3);\n';
ret += '__THREW__ = threwValue = 0;\n';
ret += 'break;\n';
}
if (ASSERTIONS) ret += indent + INDENTATION + 'default: assert(0' + (ASM_JS ? '' : ', "bad label: " + label') + ');\n';
ret += indent + '}\n';
if (func.setjmpTable && !ASM_JS) {
ret += ' } catch(e) { if (!e.longjmp || !(e.id in mySetjmpIds)) throw(e); setjmpTable[setjmpLabels[e.id]](e.value) }';
}
if (ASM_JS && func.returnType !== 'void') ret += ' return ' + asmInitializer(func.returnType) + ';\n'; // Add a return
} else {
ret += (SHOW_LABELS ? indent + '/* ' + block.entries[0] + ' */' : '') + '\n' + getLabelLines(block.labels[0]);
}
ret += '\n';
} else {
// Reloop multiple blocks using the compiled relooper
//B.start('jsifier-reloop');
//Relooper.setDebug(1);
Relooper.init();
if (ASM_JS) Relooper.setAsmJSMode(1);
var blockMap = {};
// add blocks
for (var i = 0; i < block.labels.length; i++) {
var label = block.labels[i];
var content = getLabelLines(label, true);
//printErr(func.ident + ' : ' + label.ident + ' : ' + content + '\n');
var last = label.lines[label.lines.length-1];
if (!last.signedIdent) {
blockMap[label.ident] = Relooper.addBlock(content);
} else {
assert(last.intertype == 'switch');
blockMap[label.ident] = Relooper.addBlock(content, last.signedIdent);
}
}
// add branchings
function relevant(x) { return x && x.length > 2 ? x : 0 } // ignores ';' which valueJS and label*JS can be if empty
for (var i = 0; i < block.labels.length; i++) {
var label = block.labels[i];
var ident = label.ident;
var last = label.lines[label.lines.length-1];
//printErr('zz last ' + dump(last));
if (last.intertype == 'branch') {
if (last.label) { // 1 target
Relooper.addBranch(blockMap[ident], blockMap[last.label], 0, relevant(last.labelJS));
} else { // 2 targets
Relooper.addBranch(blockMap[ident], blockMap[last.labelTrue], last.valueJS, relevant(last.labelTrueJS));
Relooper.addBranch(blockMap[ident], blockMap[last.labelFalse], 0, relevant(last.labelFalseJS));
}
} else if (last.intertype == 'switch') {
last.groupedLabels.forEach(function(switchLabel) {
Relooper.addBranch(blockMap[ident], blockMap[switchLabel.label], switchLabel.value, relevant(switchLabel.labelJS));
});
Relooper.addBranch(blockMap[ident], blockMap[last.defaultLabel], 0, relevant(last.defaultLabelJS));
} else if (last.intertype == 'invoke') {
Relooper.addBranch(blockMap[ident], blockMap[last.toLabel], '!__THREW__', relevant(last.toLabelJS));
Relooper.addBranch(blockMap[ident], blockMap[last.unwindLabel], 0, relevant(last.unwindLabelJS));
} else if (last.intertype in RELOOP_IGNORED_LASTS) {
} else {
throw 'unknown reloop last line: ' + last.intertype;
}
}
ret += Relooper.render(blockMap[block.entries[0]]);
Relooper.cleanup();
//B.stop('jsifier-reloop');
}
return ret;
}
func.JS += walkBlock(func.block, INDENTATION);
// Finalize function
if (LABEL_DEBUG && functionNameFilterTest(func.ident)) func.JS += " INDENT = INDENT.substr(0, INDENT.length-2);\n";
// Ensure a return in a function with a type that returns, even if it lacks a return (e.g., if it aborts())
if (RELOOP && ASM_JS && func.lines.length > 0 && func.returnType != 'void') {
var lastCurly = func.JS.lastIndexOf('}');
var lastReturn = func.JS.lastIndexOf('return ');
if ((lastCurly < 0 && lastReturn < 0) || // no control flow, no return
(lastCurly >= 0 && lastReturn < lastCurly)) { // control flow, no return past last join
func.JS += ' return ' + asmInitializer(func.returnType) + ';\n';
}
}
func.JS += '}\n';
if (PRINT_SPLIT_FILE_MARKER) {
func.JS += '\n//FUNCTION_END_MARKER_OF_SOURCE_FILE_' + associatedSourceFile + '\n';
}
if (!ASM_JS && (EXPORT_ALL || (func.ident in EXPORTED_FUNCTIONS))) {
func.JS += 'Module["' + func.ident + '"] = ' + func.ident + ';';
}
if (!ASM_JS && INLINING_LIMIT && func.lines.length >= INLINING_LIMIT) {
func.JS += func.ident + '["X"]=1;';
}
if (BUILD_AS_SHARED_LIB == 2) {
// TODO: make the assert conditional on ASSERTIONS
func.JS += 'if (globalScope) { assert(!globalScope["' + func.ident + '"]); globalScope["' + func.ident + '"] = ' + func.ident + ' }';
}
func.JS = func.JS.replace(/\n *;/g, '\n'); // remove unneeded lines
if (MAIN_MODULE || SIDE_MODULE) {
// Clone the function for each of its aliases. We do not know which name it will be used by in another module,
// and we do not have a heavyweight metadata system to resolve aliases during linking
var aliases = Functions.aliases[func.ident];
if (aliases) {
var body = func.JS.substr(func.JS.indexOf('('));
aliases.forEach(function(alias) {
func.JS += '\n' + 'function ' + alias + body;
});
}
}
itemsDict.function.push(func);
}
function getVarData(funcData, ident) {
var local = funcData.variables[ident];
if (local) return local;
var global = Variables.globals[ident];
return global || null;
}
function getVarImpl(funcData, ident) {
if (ident === 'null' || isNumber(ident)) return VAR_NATIVIZED; // like nativized, in that we have the actual value right here
var data = getVarData(funcData, ident);
assert(data, 'What variable is this? |' + ident + '|');
return data.impl;
}
// An interitem that has |assignTo| is an assign to that item. They call this function which
// generates the actual assignment.
function makeAssign(item) {
var valueJS = item.JS;
item.JS = '';
if (CLOSURE_ANNOTATIONS) item.JS += '/** @type {number} */ ';
if (!ASM_JS || item.intertype != 'alloca' || item.funcData.variables[item.assignTo].impl == VAR_EMULATED) { // asm only needs non-allocas
item.JS += ((ASM_JS || item.overrideSSA) ? '' : 'var ') + toNiceIdent(item.assignTo);
}
var value = parseNumerical(valueJS);
var impl = getVarImpl(item.funcData, item.assignTo);
switch (impl) {
case VAR_NATIVE: {
break;
}
case VAR_NATIVIZED: {
// SSA, so this must be the alloca. No need for a value
if (!item.overrideSSA) value = '';
break;
}
case VAR_EMULATED: {
break;
}
default: throw 'zz unknown impl: ' + impl;
}
if (value && value != ';') {
item.JS += '=' + value;
}
if (item.JS[item.JS.length-1] != ';') {
item.JS += ';';
}
}
// Function lines
function valueHandler(item) {
if (item.vars) {
item.vars.forEach(function(v) {
addVariable(v[0], v[1]);
});
}
return item.ident;
}
function noopHandler(item) {
return ';';
}
function varHandler(item) { // assigns into phis become simple vars
return ASM_JS ? ';' : ('var ' + item.ident + ';');
}
function storeHandler(item) {
var value = finalizeLLVMParameter(item.value);
if (pointingLevels(item.pointerType) == 1) {
value = parseNumerical(value, item.valueType);
}
var impl = VAR_EMULATED;
if (item.pointer.intertype == 'value') {
impl = getVarImpl(item.funcData, item.ident);
}
if (item.valueType[item.valueType.length-1] === '>') {
// vector store TODO: move to makeSetValue?
var native = getVectorNativeType(item.valueType);
var base = getSIMDName(native);
return '(' + makeSetValue(item.ident, 0, value + '.x', native, 0, 0, item.align) + ',' +
makeSetValue(item.ident, 4, value + '.y', native, 0, 0, item.align) + ',' +
makeSetValue(item.ident, 8, value + '.z', native, 0, 0, item.align) + ',' +
makeSetValue(item.ident, 12, value + '.w', native, 0, 0, item.align) + ');';
}
switch (impl) {
case VAR_NATIVIZED:
if (isNumber(item.ident)) {
// Direct write to a memory address; this may be an intentional segfault, if not, it is a bug in the source
if (ASM_JS) {
return 'abort(' + item.ident + ')';
} else {
return 'throw "fault on write to ' + item.ident + '";';
}
}
return item.ident + '=' + value + ';'; // We have the actual value here
break;
case VAR_EMULATED:
if (item.pointer.intertype == 'value') {
return makeSetValue(makeGlobalUse(item.ident), 0, value, item.valueType, 0, 0, item.align) + ';';
} else {
return makeSetValue(0, finalizeLLVMParameter(item.pointer), value, item.valueType, 0, 0, item.align) + ';';
}
break;
default:
throw 'unknown [store] impl: ' + impl;
}
return null;
}
function deletedHandler(item) { return ';' }
function getOriginalLabelId(label) {
var funcData = Framework.currItem.funcData;
var labelIdsInverse = funcData.labelIdsInverse;
return labelIdsInverse[label];
}
function getLabelId(label) {
return label;
}
function makeBranch(label, lastLabel, labelIsVariable) { // lastLabel is deprecated
var pre = '';
if (label[0] == 'B') {
assert(!labelIsVariable, 'Cannot handle branches to variables with special branching options');
var parts = label.split('|');
var trueLabel = parts[1] || '';
var oldLabel = parts[2] || '';
var labelSetting = oldLabel ? 'label=' + getLabelId(oldLabel) + ';' +
(SHOW_LABELS ? ' /* to: ' + getOriginalLabelId(cleanLabel(oldLabel)) + ' */' : '') : ''; // TODO: optimize away the setting
if (label[1] == 'R') {
if (label[2] == 'N') { // BRNOL: break, no label setting
labelSetting = '';
}
return pre + labelSetting + 'break ' + trueLabel + ';';
} else if (label[1] == 'C') { // CONT
if (label[2] == 'N') { // BCNOL: continue, no label setting
labelSetting = '';
}
return pre + labelSetting + 'continue ' + trueLabel + ';';
} else if (label[1] == 'N') { // NOPP
return pre + ';'; // Returning no text might confuse this parser
} else if (label[1] == 'J') { // JSET
return pre + labelSetting + ';';
} else {
throw 'Invalid B-op in branch: ' + trueLabel + ',' + oldLabel;
}
} else {
if (!labelIsVariable) label = getLabelId(label);
return pre + 'label=' + label + ';' + (SHOW_LABELS ? ' /* to: ' + getOriginalLabelId(cleanLabel(label)) + ' */' : '') + 'break;';
}
}
function calcPhiSets(item) {
if (!item.phi) return null;
var phiSets = {};
item.dependent.params.forEach(function(param) {
if (!phiSets[param.targetLabel]) phiSets[param.targetLabel] = [];
phiSets[param.targetLabel].push(param);
param.valueJS = finalizeLLVMParameter(param.value);
});
return phiSets;
}
function getPhiSetsForLabel(phiSets, label) {
if (!phiSets) return '';
label = getOldLabel(label);
if (!phiSets[label]) return '';
var labelSets = phiSets[label];
// FIXME: Many of the |var |s here are not needed, but without them we get slowdowns with closure compiler. TODO: remove this workaround.
if (labelSets.length == 1) {
return (ASM_JS ? '' : 'var ') + labelSets[0].ident + '=' + labelSets[0].valueJS + ';';
}
// TODO: eliminate unneeded sets (to undefined etc.)
var deps = {}; // for each ident we will set, which others it depends on
var map = {};
labelSets.forEach(function(labelSet) {
deps[labelSet.ident] = {};
map[labelSet.ident] = labelSet;
});
labelSets.forEach(function(labelSet) {
walkInterdata(labelSet.value, function mark(item) {
if (item.intertype == 'value' && item.ident in deps && labelSet.ident != item.ident) {
deps[labelSet.ident][item.ident] = true;
}
});
});
var pre = '', post = '', idents;
mainLoop: while ((idents = keys(deps)).length > 0) {
var remove = function(ident) {
for (var i = 0; i < idents.length; i++) {
delete deps[idents[i]][ident];
}
delete deps[ident];
}
for (var i = 0; i < idents.length; i++) {
if (keys(deps[idents[i]]).length == 0) {
post = idents[i] + '=' + map[idents[i]].valueJS + ';' + post;
if (!ASM_JS) post = 'var ' + post;
else addVariable(idents[i], map[idents[i]].value.type);
remove(idents[i]);
continue mainLoop;
}
}
// If we got here, we have circular dependencies, and must break at least one.
pre += makeVarDef(idents[0]) + '$phi=' + map[idents[0]].valueJS + ';';
post += makeVarDef(idents[0]) + '=' + idents[0] + '$phi;';
addVariable(idents[0] + '$phi', map[idents[0]].value.type);
addVariable(idents[0], map[idents[0]].value.type);
remove(idents[0]);
}
return pre + post;
/* // Safe, unoptimized copying
var ret = '';
for (var i = 0; i < labelSets.length-1; i++) {
ret += 'var ' + labelSets[i].ident + '$phi = ' + labelSets[i].valueJS + ';';
}
ret += labelSets[labelSets.length-1].ident + ' = ' + labelSets[labelSets.length-1].valueJS + ';';
for (var i = 0; i < labelSets.length-1; i++) {
ret += labelSets[i].ident + ' = ' + labelSets[i].ident + '$phi;';
}
return ret;
*/
}
function branchHandler(item) {
var phiSets = calcPhiSets(item);
if (!item.value) {
return (item.labelJS = getPhiSetsForLabel(phiSets, item.label)) + makeBranch(item.label, item.currLabelId);
} else {
var condition = item.valueJS = finalizeLLVMParameter(item.value);
var labelTrue = (item.labelTrueJS = getPhiSetsForLabel(phiSets, item.labelTrue)) + makeBranch(item.labelTrue, item.currLabelId);
var labelFalse = (item.labelFalseJS = getPhiSetsForLabel(phiSets, item.labelFalse)) + makeBranch(item.labelFalse, item.currLabelId);
if (labelTrue == ';' && labelFalse == ';') return ';';
var head = 'if(' + condition + '){';
var head2 = 'if(!(' + condition + ')){';
var else_ = '}else{';
var tail = '}';
if (labelTrue == ';') {
return head2 + labelFalse + tail;
} else if (labelFalse == ';') {
return head + labelTrue + tail;
} else {
return head + labelTrue + else_ + labelFalse + tail;
}
}
}
function switchHandler(item) {
// use a switch if the range is not too big or sparse
var minn = Infinity, maxx = -Infinity;
item.switchLabels.forEach(function(switchLabel) {
var curr = Math.abs(parseInt(switchLabel.value));
minn = Math.min(minn, curr);
maxx = Math.max(maxx, curr);
});
var range = maxx - minn;
var useIfs = (item.switchLabels.length+1) < 6 || range > 10*1024 || (range/item.switchLabels.length) > 1024; // heuristics
if (VERBOSE && useIfs && item.switchLabels.length >= 6) {
warn('not optimizing llvm switch into js switch because range of values is ' + range + ', density is ' + range/item.switchLabels.length);
}
if (!useIfs && isIllegalType(item.type)) {
useIfs = true;
if (VERBOSE) warn('not optimizing llvm switch because illegal type ' + item.type);
}
var phiSets = calcPhiSets(item);
// Consolidate checks that go to the same label. This is important because it makes the relooper simpler and faster.
var targetLabels = {}; // for each target label, the list of values going to it
var switchLabelMap = {};
item.switchLabels.forEach(function(switchLabel) {
switchLabelMap[switchLabel.label] = switchLabel;
if (!targetLabels[switchLabel.label]) {
targetLabels[switchLabel.label] = [];
}
targetLabels[switchLabel.label].push(switchLabel.value);
});
var ret = '';
var first = true;
signedIdent = makeSignOp(item.ident, item.type, 're'); // we need to standardize for purpose of comparison
if (!useIfs) item.signedIdent = signedIdent;
if (RELOOP) {
item.groupedLabels = [];
}
if (!useIfs) {
ret += 'switch(' + signedIdent + '){';
}
// process target labels, sorting them so output is consistently ordered
keys(targetLabels).sort().forEach(function(targetLabel) {
if (!first && useIfs) {
ret += 'else ';
} else {
first = false;
}
var value;
if (useIfs) {
value = targetLabels[targetLabel].map(function(value) {
return makeComparison(signedIdent, '==', makeSignOp(value, item.type, 're'), item.type)
}).join('|');
ret += 'if(' + value + '){';
} else {
value = targetLabels[targetLabel].map(function(value) {
return 'case ' + makeSignOp(value, item.type, 're') + ':';
}).join('');
ret += value + '{';
}
var phiSet = getPhiSetsForLabel(phiSets, targetLabel);
ret += INDENTATION + '' + phiSet + makeBranch(targetLabel, item.currLabelId || null);
ret += '}';
if (RELOOP) {
item.groupedLabels.push({
label: targetLabel,
value: value,
labelJS: phiSet
});
}
});
var phiSet = item.defaultLabelJS = getPhiSetsForLabel(phiSets, item.defaultLabel);
if (useIfs) {
if (item.switchLabels.length > 0) ret += 'else{';
ret += phiSet + makeBranch(item.defaultLabel, item.currLabelId) + '';
if (item.switchLabels.length > 0) ret += '}';
} else {
ret += 'default:{';
ret += phiSet + makeBranch(item.defaultLabel, item.currLabelId) + '';
ret += '}';
ret += '}break;'; // finish switch and break, to move control flow properly (breaks from makeBranch just broke out of the switch)
}
if (item.value) {
ret += ' ' + toNiceIdent(item.value);
}
return ret;
}
function returnHandler(item) {
var ret = RuntimeGenerator.stackExit(item.funcData.initialStack, item.funcData.otherStackAllocations);
if (ret.length > 0) ret += ';';
if (LABEL_DEBUG && functionNameFilterTest(item.funcData.ident)) {
ret += "Module.print(INDENT + 'Exiting: " + item.funcData.ident + "');"
+ "INDENT = INDENT.substr(0, INDENT.length-2);";
}
ret += 'return';
var value = item.value ? finalizeLLVMParameter(item.value) : null;
if (!value && item.funcData.returnType != 'void') value = '0'; // no-value returns must become value returns if function returns
if (value) {
ret += ' ' + asmCoercion(value, item.type);
}
return ret + ';';
}
function resumeHandler(item) {
if (DISABLE_EXCEPTION_CATCHING && !(item.funcData.ident in EXCEPTION_CATCHING_WHITELIST)) return 'abort()';
if (item.ident == 0) {
// No exception to resume, so we can just bail.
// This is related to issue #917 and http://llvm.org/PR15518
return (EXCEPTION_DEBUG ? 'Module.print("no exception to resume")' : '') + ';';
}
// If there is no current exception, set this one as it (during a resume, the current exception can be wiped out)
var ptr = makeStructuralAccess(item.ident, 0);
return '___resumeException(' + asmCoercion(ptr, 'i32') + ')';
}
function invokeHandler(item) {
// Wrapping in a function lets us easily return values if we are
// in an assignment
var disabled = DISABLE_EXCEPTION_CATCHING == 2 && !(item.funcData.ident in EXCEPTION_CATCHING_WHITELIST);
var phiSets = calcPhiSets(item);
var call_ = makeFunctionCall(item, item.params, item.funcData, item.type, ASM_JS && !disabled, !!item.assignTo || !item.standalone, true);
var ret;
if (disabled) {
ret = call_ + ';';
} else if (ASM_JS) {
if (item.type != 'void') call_ = asmCoercion(call_, item.type); // ensure coercion to ffi in comma operator
call_ = call_.replace('; return', ''); // we auto-add returns when aborting, but do not need them here
if (item.type == 'void') {
ret = '__THREW__ = 0;' + call_ + ';';
} else {
ret = '(__THREW__ = 0,' + call_ + ');';
}
} else {
ret = '(function() { try { __THREW__ = 0; return '
+ call_ + ' '
+ '} catch(e) { '
+ 'if (typeof e != "number") throw e; '
+ 'if (ABORT) throw e; __THREW__ = 1; '
+ (EXCEPTION_DEBUG ? 'Module.print("Exception: " + e + ", currently at: " + (new Error().stack)); ' : '')
+ 'return null } })();';
}
ret = makeVarArgsCleanup(ret);
if (item.assignTo) {
var illegal = USE_TYPED_ARRAYS == 2 && isIllegalType(item.type);
var assignTo = illegal ? item.assignTo + '$r' : item.assignTo;
ret = makeVarDef(assignTo) + '=' + ret;
if (ASM_JS) addVariable(assignTo, item.type);
if (illegal) {
var bits = getBits(item.type);
for (var i = 0; i < bits/32; i++) {
var v = item.assignTo + '$' + i;
ret += makeVarDef(v) + '=' + (i == 0 ? assignTo : 'tempRet' + (i-1)) + ';'
if (ASM_JS) addVariable(v, 'i32');
}
}
item.assignTo = null;
}
item.reloopingJS = ret; // everything but the actual branching (which the relooper will do for us)
item.toLabelJS = getPhiSetsForLabel(phiSets, item.toLabel);
item.unwindLabelJS = (ASM_JS ? '__THREW__ = 0;' : '') + getPhiSetsForLabel(phiSets, item.unwindLabel);
ret += 'if (!__THREW__) { ' + item.toLabelJS + makeBranch(item.toLabel, item.currLabelId)
+ ' } else { ' + item.unwindLabelJS + makeBranch(item.unwindLabel, item.currLabelId) + ' }';
return ret;
}
function atomicHandler(item) {
var type = item.params[0].type;
var param1 = finalizeLLVMParameter(item.params[0]);
var param2 = finalizeLLVMParameter(item.params[1]);
switch (item.op) {
case 'add': return '(tempValue=' + makeGetValue(param1, 0, type) + ',' + makeSetValue(param1, 0, asmCoercion('tempValue+' + param2, type), type, null, null, null, null, ',') + ',tempValue)';
case 'sub': return '(tempValue=' + makeGetValue(param1, 0, type) + ',' + makeSetValue(param1, 0, asmCoercion('tempValue-' + param2, type), type, null, null, null, null, ',') + ',tempValue)';
case 'or': return '(tempValue=' + makeGetValue(param1, 0, type) + ',' + makeSetValue(param1, 0, 'tempValue|' + param2, type, null, null, null, null, ',') + ',tempValue)';
case 'and': return '(tempValue=' + makeGetValue(param1, 0, type) + ',' + makeSetValue(param1, 0, 'tempValue&' + param2, type, null, null, null, null, ',') + ',tempValue)';
case 'xor': return '(tempValue=' + makeGetValue(param1, 0, type) + ',' + makeSetValue(param1, 0, 'tempValue^' + param2, type, null, null, null, null, ',') + ',tempValue)';
case 'xchg': return '(tempValue=' + makeGetValue(param1, 0, type) + ',' + makeSetValue(param1, 0, param2, type, null, null, null, null, ',') + ',tempValue)';
case 'cmpxchg': {
var param3 = finalizeLLVMParameter(item.params[2]);
return '(tempValue=' + makeGetValue(param1, 0, type) + ',(' + makeGetValue(param1, 0, type) + '==(' + param2 + '|0) ? ' + asmCoercion(makeSetValue(param1, 0, param3, type, null, null, null, null, ','), 'i32') + ' : 0),tempValue)';
}
default: throw 'unhandled atomic op: ' + item.op;
}
}
function landingpadHandler(item) {
if (ASM_JS) {
addVariable(item.assignTo + '$0', 'i32');
addVariable(item.assignTo + '$1', 'i32');
}
if (DISABLE_EXCEPTION_CATCHING && !(item.funcData.ident in EXCEPTION_CATCHING_WHITELIST) && USE_TYPED_ARRAYS == 2) {
ret = makeVarDef(item.assignTo) + '$0 = 0; ' + makeVarDef(item.assignTo) + '$1 = 0;';
item.assignTo = null;
if (VERBOSE) warnOnce('landingpad, but exceptions are disabled!');
return ret;
}
var catchTypeArray = item.catchables.map(finalizeLLVMParameter).map(function(element) { return asmCoercion(element, 'i32') }).join(',');
var ret = asmCoercion('___cxa_find_matching_catch(-1, -1' + (catchTypeArray.length > 0 ? ',' + catchTypeArray : '') +')', 'i32');
if (USE_TYPED_ARRAYS == 2) {
ret = makeVarDef(item.assignTo) + '$0 = ' + ret + '; ' + makeVarDef(item.assignTo) + '$1 = tempRet0;';
item.assignTo = null;
}
return ret;
}
function loadHandler(item) {
var value = finalizeLLVMParameter(item.pointer);
if (item.valueType[item.valueType.length-1] === '>') {
// vector load
var native = getVectorNativeType(item.valueType);
var base = getSIMDName(native);
return base + '32x4(' + makeGetValue(value, 0, native, 0, item.unsigned, 0, item.align) + ',' +
makeGetValue(value, 4, native, 0, item.unsigned, 0, item.align) + ',' +
makeGetValue(value, 8, native, 0, item.unsigned, 0, item.align) + ',' +
makeGetValue(value, 12, native, 0, item.unsigned, 0, item.align) + ');';
}
var impl = item.ident ? getVarImpl(item.funcData, item.ident) : VAR_EMULATED;
switch (impl) {
case VAR_NATIVIZED: {
if (isNumber(item.ident)) {
// Direct read from a memory address; this may be an intentional segfault, if not, it is a bug in the source
if (ASM_JS) {
return asmFFICoercion('abort(' + item.ident + ')', item.type);
} else {
item.assignTo = null;
return 'throw "fault on read from ' + item.ident + '";';
}
}
return value; // We have the actual value here
}
case VAR_EMULATED: return makeGetValue(value, 0, item.type, 0, item.unsigned, 0, item.align);
default: throw "unknown [load] impl: " + impl;
}
}
function extractvalueHandler(item) {
assert(item.indexes.length == 1); // TODO: use getelementptr parsing stuff, for depth. For now, we assume that LLVM aggregates are flat,
// and we emulate them using simple JS objects { f1: , f2: , } etc., for speed
var index = item.indexes[0][0].text;
var valueType = Types.types[item.type].fields[index];
if (USE_TYPED_ARRAYS != 2 || valueType != 'i64') {
return item.ident + '.f' + index;
} else {
var assignTo = item.assignTo;
item.assignTo = null;
return 'var ' + assignTo + '$0 = ' + item.ident + '.f' + index + '[0];' +
'var ' + assignTo + '$1 = ' + item.ident + '.f' + index + '[1];';
}
}
function insertvalueHandler(item) {
assert(item.indexes.length == 1); // TODO: see extractvalue
var ret = '(', ident;
if (item.ident === '0') {
item.ident = 'tempValue';
ret += item.ident + ' = [' + makeEmptyStruct(item.type) + '], ';
}
return ret + item.ident + '.f' + item.indexes[0][0].text + '=' + finalizeLLVMParameter(item.value) + ', ' + item.ident + ')';
}
function insertelementHandler(item) {
var base = getVectorBaseType(item.type);
var ident = ensureVector(item.ident, base);
var laneOp = ((base == 'float') ? 'SIMD.float32x4.with' : 'SIMD.int32x4.with');
//return ident + '.with' + SIMDLane[finalizeLLVMParameter(item.index)] + '(' + finalizeLLVMParameter(item.value) + ')';
return laneOp + SIMDLane[finalizeLLVMParameter(item.index)] + '(' + ident + ',' + finalizeLLVMParameter(item.value) + ')';
}
function extractelementHandler(item) {
var base = getVectorBaseType(item.type);
var ident = ensureVector(item.ident, base);
var index = finalizeLLVMParameter(item.value);
assert(isNumber(index));
return ident + '.' + simdLane[index];
}
function shufflevectorHandler(item) {
var base = getVectorBaseType(item.type);
var first = ensureVector(item.ident, base);
var second = ensureVector(finalizeLLVMParameter(item.value), base);
var mask;
if (item.mask.intertype === 'value') {
assert(item.mask.ident === 'zeroinitializer');
mask = [0, 0, 0, 0];
} else {
assert(item.mask.intertype === 'vector');
mask = item.mask.idents;
}
for (var i = 0; i < 4; i++) assert(mask[0] == 0 || mask == 1);
i = 0;
return base + '32x4(' + mask.map(function(m) {
return (m == 1 ? second : first) + '.' + simdLane[i++];
}).join(',') + ')';
}
function indirectbrHandler(item) {
var phiSets = calcPhiSets(item);
var js = makeVarDef('ibr') + '=' + finalizeLLVMParameter(item.value) + ';';
if (ASM_JS) addVariable('ibr', 'i32');
for (var targetLabel in phiSets) {
js += 'if(' + makeComparison('ibr', '==', targetLabel, 'i32') + '){' + getPhiSetsForLabel(phiSets, targetLabel) + '}';
}
return js + makeBranch('ibr', item.currLabelId, true);
}
function allocaHandler(item) {
if (typeof item.allocatedIndex === 'number') {
if (item.allocatedSize === 0) return ''; // This will not actually be shown - it's nativized
return asmCoercion(getFastValue('sp', '+', item.allocatedIndex.toString()), 'i32');
} else {
return RuntimeGenerator.stackAlloc(getFastValue(calcAllocatedSize(item.allocatedType), '*', item.ident));
}
}
function va_argHandler(item) {
assert(TARGET_LE32);
var ident = item.value.ident;
var move = Runtime.STACK_ALIGN;
// store current list offset in tempInt, advance list offset by STACK_ALIGN, return list entry stored at tempInt
return '(tempInt=' + makeGetValue(ident, Runtime.QUANTUM_SIZE, '*') + ',' +
makeSetValue(ident, Runtime.QUANTUM_SIZE, 'tempInt + ' + move, '*', null, null, null, null, ',') + ',' +
makeGetValue(makeGetValue(ident, 0, '*'), 'tempInt', item.type) + ')';
}
var mathopHandler = processMathop;
function bitcastHandler(item) {
var temp = {
op: 'bitcast', variant: null, type: item.type,
assignTo: item.assignTo,
params: [item.params[0]] // XXX
};
var ret = processMathop(temp);
if (!temp.assignTo) item.assignTo = null; // If the assign was stolen, propagate that
return ret;
}
function makeFunctionCall(item, params, funcData, type, forceByPointer, hasReturn, invoke) {
var ident = item.ident;
// We cannot compile assembly. See comment in intertyper.js:'Call'
assert(ident != 'asm', 'Inline assembly cannot be compiled to JavaScript!');
var extCall = false;
if (ASM_JS && funcData.setjmpTable) forceByPointer = true; // in asm.js mode, we must do an invoke for each call
if (ASM_JS && DLOPEN_SUPPORT && !invoke && !funcData.setjmpTable) extCall = true; // go out, to be able to access other modules TODO: optimize
ident = Variables.resolveAliasToIdent(ident);
var shortident = ident.slice(1);
var simpleIdent = shortident;
if (isLocalVar(ident)) {
var callIdent = ident;
} else {
// Not a local var, check if in library
var callIdent = LibraryManager.getRootIdent(simpleIdent);
if (callIdent) {
simpleIdent = callIdent; // ident may not be in library, if all there is is ident__inline, but in this case it is
if (callIdent.indexOf('Math_') !== 0) {
callIdent = '_' + callIdent; // Not Math.*, so add the normal prefix
}
} else {
callIdent = ident;
}
if (callIdent == '0') return 'abort(-2)';
}
var args = [];
var argsTypes = [];
var varargs = [];
var varargsTypes = [];
var varargsByVals = {};
var ignoreFunctionIndexizing = [];
var useJSArgs = (simpleIdent + '__jsargs') in LibraryManager.library;
var hasVarArgs = isVarArgsFunctionType(type);
var normalArgs = (hasVarArgs && !useJSArgs) ? countNormalArgs(type, null, true) : -1;
var byPointer = getVarData(funcData, ident);
var byPointerForced = false;
if (forceByPointer && !byPointer) {
byPointer = byPointerForced = true;
}
params.forEach(function(param, i) {
var val = finalizeLLVMParameter(param);
if (!hasVarArgs || useJSArgs || i < normalArgs) {
args.push(val);
argsTypes.push(param.type);
} else {
var size;
if (param.byVal) {
varargsByVals[varargs.length] = param.byVal;
size = calcAllocatedSize(removeAllPointing(param.type));
} else {
size = Runtime.getNativeFieldSize(param.type);
}
size = Runtime.alignMemory(size, Runtime.STACK_ALIGN);
varargs.push(val);
varargs = varargs.concat(zeros(size-1));
// TODO: replace concats like this with push
varargsTypes.push(param.type);
varargsTypes = varargsTypes.concat(zeros(size-1));
}
});
args = args.map(function(arg, i) { return indexizeFunctions(arg, argsTypes[i]) });
if (ASM_JS) {
var ffiCall = (shortident in Functions.libraryFunctions || simpleIdent in Functions.libraryFunctions || byPointerForced || invoke || extCall || funcData.setjmpTable) &&
!(simpleIdent in JS_MATH_BUILTINS);
if (ffiCall) {
args = args.map(function(arg, i) { return asmCoercion(arg, ensureValidFFIType(argsTypes[i])) });
} else {
args = args.map(function(arg, i) { return asmEnsureFloat(arg, argsTypes[i]) });
}
}
varargs = varargs.map(function(vararg, i) {
if (ignoreFunctionIndexizing.indexOf(i) >= 0) return vararg;
return vararg === 0 ? 0 : indexizeFunctions(vararg, varargsTypes[i])
});
if (hasVarArgs && !useJSArgs) {
funcData.hasVarArgsCall = true;
if (varargs.length === 0) {
varargs = [0];
varargsTypes = ['i32'];
}
var offset = 0;
varargs = '(tempVarArgs=' + RuntimeGenerator.stackAlloc(varargs.length, ',') + ',' +
varargs.map(function(arg, i) {
var type = varargsTypes[i];
if (type == 0) return null;
arg = asmEnsureFloat(arg, type);
var ret;
assert(offset % Runtime.STACK_ALIGN == 0); // varargs must be aligned
if (!varargsByVals[i]) {
ret = makeSetValue(getFastValue('tempVarArgs', '+', offset), 0, arg, type, null, null, Runtime.STACK_ALIGN, null, ',');
offset += Runtime.alignMemory(Runtime.getNativeFieldSize(type), Runtime.STACK_ALIGN);
} else {
var size = calcAllocatedSize(removeAllPointing(type));
ret = makeCopyValues(getFastValue('tempVarArgs', '+', offset), arg, size, null, null, varargsByVals[i], ',');
offset += Runtime.forceAlign(size, Runtime.STACK_ALIGN);
}
return ret;
}).filter(function(arg) {
return arg !== null;
}).join(',') + ',tempVarArgs)';
varargs = asmCoercion(varargs, 'i32');
}
args = args.concat(varargs);
// Inline if either we inline whenever we can (and we can), or if there is no noninlined version
var inline = LibraryManager.library[simpleIdent + '__inline'];
var nonInlined = simpleIdent in LibraryManager.library;
if (inline && (INLINE_LIBRARY_FUNCS || !nonInlined)) {
return inline.apply(null, args); // Warning: inlining does not prevent recalculation of the arguments. They should be simple identifiers
}
if (ASM_JS && ident.indexOf('llvm_') >= 0) {
// remove unneeded arguments in llvm intrinsic functions, which the asm sig can show us. this lets us alias memset with llvm.memset, we just
// drop the final 2 args so things validate properly in asm
var libsig = LibraryManager.library[simpleIdent + '__sig'];
if (libsig) {
assert(!hasVarArgs);
while (libsig.length - 1 < args.length) {
args.pop();
argsTypes.pop();
}
}
}
if (callIdent in Functions.implementedFunctions) {
// LLVM sometimes bitcasts for no reason. We must call using the exact same type as the actual function is generated as.
var numArgs = Functions.implementedFunctions[callIdent].length - 1;
if (numArgs !== args.length) {
if (VERBOSE) warnOnce('Fixing function call arguments based on signature, on ' + [callIdent, args.length, numArgs]);
while (args.length > numArgs) { args.pop(); argsTypes.pop() }
while (args.length < numArgs) { args.push('0'); argsTypes.push('i32') }
}
}
var returnType = 'void';
if ((byPointer || ASM_JS) && hasReturn) {
returnType = getReturnType(type);
if (callIdent in Functions.implementedFunctions) {
// LLVM sometimes bitcasts for no reason. We must call using the exact same type as the actual function is generated as
var trueType = Functions.getSignatureType(Functions.implementedFunctions[callIdent][0]);
if (trueType !== returnType && !isIdenticallyImplemented(trueType, returnType)) {
if (VERBOSE) warnOnce('Fixing function call based on return type from signature, on ' + [callIdent, returnType, trueType]);
returnType = trueType;
if (trueType === 'void') {
item.assignTo = null;
}
}
}
}
// we alias llvm memset and such to normal memset. The target has a return value, while the original
// does not, so we need to fix that for the actual call target
if (ASM_JS) {
var sig = LibraryManager.library[simpleIdent + '__sig'];
if (sig && sig[0] !== 'v') {
returnType = Functions.getSignatureType(sig[0]);
}
}
if (byPointer) {
var sig = Functions.getSignature(returnType, argsTypes, hasVarArgs);
if (ASM_JS) {
assert(returnType.search(/\("'\[,/) == -1); // XXX need isFunctionType(type, out)
Functions.neededTables[sig] = 1;
var functionTableCall = !byPointerForced && !funcData.setjmpTable && !invoke && !extCall;
if (functionTableCall) {
// normal asm function pointer call
callIdent = '(' + callIdent + ')&{{{ FTM_' + sig + ' }}}'; // the function table mask is set in emscripten.py
} else {
// This is a call through an invoke_* or extCall, either a forced one, or a setjmp-required one
// note: no need to update argsTypes at this point
if (byPointerForced) Functions.unimplementedFunctions[callIdent] = sig;
args.unshift(byPointerForced ? Functions.getIndex(callIdent, sig) : asmCoercion(callIdent, 'i32'));
callIdent = (extCall ? 'extCall' : 'invoke') + '_' + sig;
}
} else if (SAFE_DYNCALLS) {
assert(!ASM_JS, 'cannot emit safe dyncalls in asm');
callIdent = '(tempInt=' + callIdent + ',tempInt < 0 || tempInt >= FUNCTION_TABLE.length-1 || !FUNCTION_TABLE[tempInt] ? abort("dyncall error: ' + sig + ' " + FUNCTION_TABLE_NAMES[tempInt]) : tempInt)';
}
if (!ASM_JS || functionTableCall) callIdent = Functions.getTable(sig) + '[' + callIdent + ']';
}
var ret = callIdent + '(' + args.join(',') + ')';
if (ASM_JS) { // TODO: do only when needed (library functions and Math.*?) XXX && simpleIdent in Functions.libraryFunctions) {
if (ffiCall) {
ret = asmFFICoercion(ret, returnType);
} else {
ret = asmCoercion(ret, returnType);
}
if (simpleIdent == 'abort' && funcData.returnType != 'void') {
ret += '; return ' + asmCoercion('0', funcData.returnType); // special case: abort() can happen without return, breaking the return type of asm functions. ensure a return
}
}
if (ASM_JS && funcData.setjmpTable) {
// check if a longjmp was done. If a setjmp happened, check if ours. If ours, go to a special label to handle it.
// otherwise, just return - the call to us must also have been an invoke, so the setjmp propagates that way
ret += '; if (((__THREW__|0) != 0) & ((threwValue|0) != 0)) { setjmpLabel = ' + asmCoercion('_testSetjmp(' + makeGetValue('__THREW__', 0, 'i32') + ', setjmpTable)', 'i32') + '; if ((setjmpLabel|0) > 0) { label = ' + SETJMP_LABEL + '; break } else return ' + (funcData.returnType != 'void' ? asmCoercion('0', funcData.returnType) : '') + ' } __THREW__ = threwValue = 0;';
}
return ret;
}
function makeVarArgsCleanup(js) {
if (js.indexOf('(tempVarArgs=') >= 0) {
if (js[js.length-1] == ';') {
return js + ' STACKTOP=tempVarArgs;';
} else {
assert(js.indexOf(';') < 0);
return '((' + js + '), STACKTOP=tempVarArgs)';
}
}
return js;
}
function getelementptrHandler(item) { return finalizeLLVMFunctionCall(item) }
function callHandler(item) {
if (item.standalone && LibraryManager.isStubFunction(item.ident)) return ';';
var ret = makeFunctionCall(item, item.params, item.funcData, item.type, false, !!item.assignTo || !item.standalone) + (item.standalone ? ';' : '');
return makeVarArgsCleanup(ret);
}
function unreachableHandler(item) {
var ret = '';
if (ASM_JS && item.funcData.returnType != 'void') ret = 'return ' + asmCoercion('0', item.funcData.returnType) + ';';
if (ASSERTIONS) {
ret = (ASM_JS ? 'abort()' : 'throw "Reached an unreachable!"') + ';' + ret;
}
return ret || ';';
}
// Final combiner
function finalCombiner() {
dprint('unparsedFunctions', 'Starting 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 ((phase == 'pre' || phase == 'glue') && !Variables.generatedGlobalBase && !BUILD_AS_SHARED_LIB) {
Variables.generatedGlobalBase = true;
// Globals are done, here is the rest of static memory
assert((TARGET_LE32 && Runtime.GLOBAL_BASE == 8) || (TARGET_X86 && Runtime.GLOBAL_BASE == 4)); // this is assumed in e.g. relocations for linkable modules
if (!SIDE_MODULE) {
print('STATIC_BASE = ' + Runtime.GLOBAL_BASE + ';\n');
print('STATICTOP = STATIC_BASE + ' + Runtime.alignMemory(Variables.nextIndexedOffset) + ';\n');
} else {
print('H_BASE = parentModule["_malloc"](' + Runtime.alignMemory(Variables.nextIndexedOffset) + ' + Runtime.GLOBAL_BASE);\n');
print('// STATICTOP = STATIC_BASE + ' + Runtime.alignMemory(Variables.nextIndexedOffset) + ';\n'); // comment as metadata only
}
}
var generated = itemsDict.function.concat(itemsDict.type).concat(itemsDict.GlobalVariableStub).concat(itemsDict.GlobalVariable);
print(generated.map(function(item) { return item.JS; }).join('\n'));
if (phase == 'pre' || phase == 'glue') {
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
print('/* memory initializer */ ' + makePointer(memoryInitialization, null, 'ALLOC_NONE', 'i8', 'Runtime.GLOBAL_BASE' + (SIDE_MODULE ? '+H_BASE' : ''), true));
} else if (phase !== 'glue') {
print('/* no memory initializer */'); // test purposes
}
if (phase !== 'glue') {
// Define postsets. These will be run in ATINIT, right before global initializers (which might need the postsets). We cannot
// run them now because the memory initializer might not have been applied yet.
print('function runPostSets() {\n');
print(itemsDict.GlobalVariablePostSet.map(function(item) { return item.JS }).join('\n'));
print('}\n');
}
if (USE_TYPED_ARRAYS == 2) {
if (!BUILD_AS_SHARED_LIB && !SIDE_MODULE) {
print('var tempDoublePtr = Runtime.alignMemory(allocate(12, "i8", ALLOC_STATIC), 8);\n');
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');
}
}
}
return;
}
// Print out global variables and postsets TODO: batching
if (phase == 'pre' || phase == 'glue') {
var legalizedI64sDefault = legalizedI64s;
legalizedI64s = false;
var globalsData = analyzer(intertyper(data.unparsedGlobalss[0].lines, true), true);
if (!NAMED_GLOBALS) {
sortGlobals(globalsData.globalVariables).forEach(function(g) {
var ident = g.ident;
if (!isIndexableGlobal(ident)) return;
assert(Variables.nextIndexedOffset % Runtime.STACK_ALIGN == 0);
Variables.indexedGlobals[ident] = Variables.nextIndexedOffset;
Variables.nextIndexedOffset += Runtime.alignMemory(calcAllocatedSize(Variables.globals[ident].type));
if (ident.substr(0, 5) == '__ZTV') { // leave room for null-terminating the vtable
Variables.nextIndexedOffset += Runtime.alignMemory(QUANTUM_SIZE);
}
});
}
JSify(globalsData, true);
globalsData = null;
data.unparsedGlobalss = 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) {
print('STACK_BASE = STACKTOP = Runtime.alignMemory(STATICTOP);\n');
print('staticSealed = true; // seal the static portion of memory\n');
print('STACK_MAX = STACK_BASE + ' + TOTAL_STACK + ';\n');
print('DYNAMIC_BASE = DYNAMICTOP = Runtime.alignMemory(STACK_MAX);\n');
print('assert(DYNAMIC_BASE < TOTAL_MEMORY, "TOTAL_MEMORY not big enough for stack");\n');
}
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'));
}
} else {
if (singlePhase) {
assert(data.unparsedGlobalss[0].lines.length == 0, dump([phase, data.unparsedGlobalss]));
assert(itemsDict.functionStub.length == 0, dump([phase, itemsDict.functionStub]));
}
}
if (abortExecution) throw 'Aborting compilation due to previous errors';
if (phase == 'pre' || phase == 'funcs') {
PassManager.serialize();
return;
}
// 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").
if (PRECISE_I64_MATH && Types.preciseI64MathUsed) {
if (!INCLUDE_FULL_LIBRARY) {
// first row are utilities called from generated code, second are needed from fastLong
['i64Add', 'i64Subtract', 'bitshift64Shl', 'bitshift64Lshr', 'bitshift64Ashr',
'llvm_ctlz_i32', 'llvm_cttz_i32'].forEach(function(func) {
if (!Functions.libraryFunctions[func] || (phase == 'glue' && func[0] === 'l' && !addedLibraryItems[func])) { // TODO: one-by-one in fastcomp glue mode
print(processLibraryFunction(LibraryManager.library[func], func)); // must be first to be close to generated code
Functions.implementedFunctions['_' + func] = LibraryManager.library[func + '__sig'];
Functions.libraryFunctions[func] = phase == 'glue' ? 2 : 1; // XXX
// limited dependency handling
var deps = LibraryManager.library[func + '__deps'];
if (deps) {
deps.forEach(function(dep) {
assert(typeof dep == 'function');
var text = dep();
assert(text.indexOf('\n') < 0);
text = text.replace('ALLOC_STATIC', 'ALLOC_DYNAMIC');
print('/* PRE_ASM */ ' + text + '\n');
});
}
}
});
}
print(read('fastLong.js'));
print('// EMSCRIPTEN_END_FUNCS\n');
print(read('long.js'));
} else {
print('// EMSCRIPTEN_END_FUNCS\n');
print('// Warning: printing of i64 values may be slightly rounded! No deep i64 math used, so precise i64 code not included');
print('var i64Math = null;');
}
if (Types.usesSIMD) {
print(read('simd.js'));
}
if (CORRUPTION_CHECK) {
assert(!ASM_JS, 'corruption checker is not compatible with asm.js');
print(processMacros(read('corruptionCheck.js')));
}
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(read('proxyWorker.js'));
}
if (RUNTIME_TYPE_INFO) {
Types.cleanForRuntime();
print('Runtime.typeInfo = ' + JSON.stringify(Types.types));
print('Runtime.structMetadata = ' + JSON.stringify(Types.structMetadata));
}
var postFile = BUILD_AS_SHARED_LIB || SIDE_MODULE ? 'postamble_sharedlib.js' : 'postamble.js';
var postParts = processMacros(preprocess(read(postFile))).split('{{GLOBAL_VARS}}');
print(postParts[0]);
Functions.generateIndexing(); // done last, as it may rely on aliases set in postsets
// Load runtime-linked libraries
RUNTIME_LINKED_LIBS.forEach(function(lib) {
print('eval(Module["read"]("' + lib + '"))(' + Functions.getTable('x') + '.length, this);');
});
print(postParts[1]);
var shellParts = read(shellFile).split('{{BODY}}');
print(processMacros(preprocess(shellParts[1])));
// Print out some useful metadata
if (RUNNING_JS_OPTS || PGO) {
var generatedFunctions = JSON.stringify(keys(Functions.implementedFunctions).filter(function(func) {
return IGNORED_FUNCTIONS.indexOf(func.ident) < 0;
}));
if (PGO) {
print('PGOMonitor.allGenerated = ' + generatedFunctions + ';\nremoveRunDependency("pgo");\n');
}
if (RUNNING_JS_OPTS) {
print('// EMSCRIPTEN_GENERATED_FUNCTIONS: ' + generatedFunctions + '\n');
}
}
PassManager.serialize();
}
// Data
if (mainPass) {
if (phase == 'pre') {
// types have been parsed, so we can figure out function signatures (which can use types)
data.unparsedFunctions.forEach(function(func) {
Functions.implementedFunctions[func.ident] = Functions.getSignature(func.returnType, func.params.map(function(param) { return param.type }));
});
}
data.functionStubs.forEach(functionStubHandler);
assert(data.functions.length == 0);
} else {
if (phase == 'pre') {
// ensure there is a global ctors, for runPostSets
if ('_llvm_global_ctors' in data.globalVariables) {
data.globalVariables._llvm_global_ctors.ctors.unshift('runPostSets'); // run postsets right before global initializers
hasCtors = true;
} else {
globalVariableHandler({
intertype: 'GlobalVariableStub',
ident: '_llvm_global_ctors',
type: '[1 x { i32, void ()* }]',
ctors: ["runPostSets"],
});
}
}
//B.start('jsifier-handle-gv');
sortGlobals(data.globalVariables).forEach(globalVariableHandler);
//B.stop('jsifier-handle-gv');
data.aliass.forEach(aliasHandler);
data.functions.forEach(functionSplitter);
}
//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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