//"use strict"; // Various namespace-like modules var STACK_ALIGN = TARGET_X86 ? 4 : 8; var LLVM = { LINKAGES: set('private', 'linker_private', 'linker_private_weak', 'linker_private_weak_def_auto', 'internal', 'available_externally', 'linkonce', 'common', 'weak', 'appending', 'extern_weak', 'linkonce_odr', 'weak_odr', 'externally_visible', 'dllimport', 'dllexport', 'unnamed_addr', 'thread_local'), VISIBILITIES: set('default', 'hidden', 'protected'), PARAM_ATTR: set('noalias', 'signext', 'zeroext', 'inreg', 'sret', 'nocapture', 'nest'), FUNC_ATTR: set('hidden', 'nounwind', 'define', 'inlinehint', '{'), CALLING_CONVENTIONS: set('ccc', 'fastcc', 'coldcc', 'cc10', 'x86_fastcallcc', 'x86_stdcallcc', 'cc11'), ACCESS_OPTIONS: set('volatile', 'atomic'), INVOKE_MODIFIERS: set('alignstack', 'alwaysinline', 'inlinehint', 'naked', 'noimplicitfloat', 'noinline', 'alwaysinline attribute.', 'noredzone', 'noreturn', 'nounwind', 'optsize', 'readnone', 'readonly', 'ssp', 'sspreq'), SHIFTS: set('ashr', 'lshr', 'shl'), PHI_REACHERS: set('branch', 'switch', 'invoke', 'indirectbr'), EXTENDS: set('sext', 'zext'), COMPS: set('icmp', 'fcmp'), CONVERSIONS: set('inttoptr', 'ptrtoint', 'uitofp', 'sitofp', 'fptosi', 'fptoui', 'fpext', 'fptrunc'), INTRINSICS_32: set('_llvm_memcpy_p0i8_p0i8_i64', '_llvm_memmove_p0i8_p0i8_i64', '_llvm_memset_p0i8_i64'), // intrinsics that need args converted to i32 in USE_TYPED_ARRAYS == 2 MATHOP_IGNORABLES: set('exact', 'nnan', 'ninf', 'nsz', 'arcp', 'fast'), }; LLVM.GLOBAL_MODIFIERS = set(keys(LLVM.LINKAGES).concat(['constant', 'global', 'hidden'])); var Debugging = { handleMetadata: function(lines) { for (var i = lines.length-1; i >= 0; i--) { if (/^!\d+ = metadata .*/.exec(lines[i])) { Debugging.processMetadata(lines); break; } } }, processMetadata: function(lines) { var llvmLineToMetadata = {}; var metadataToSourceLine = {}; var metadataToParentMetadata = {}; var metadataToFilename = {}; var form1 = new RegExp(/^ .*, !dbg !(\d+) *$/); var form2 = new RegExp(/^ .*, !dbg !(\d+) *; .*$/); var form3 = new RegExp(/^!(\d+) = metadata !{i32 (\d+), (?:i32 \d+|null), metadata !(\d+), .*}$/); var form3a = new RegExp(/^!(\d+) = metadata !{i32 \d+, (?:i32 \d+|metadata !\d+), (?:i32 \d+|null), (?:i32 \d+|null), metadata !(\d+), (?:i32 \d+|null)}.*/); var form3ab = new RegExp(/^!(\d+) = metadata !{i32 \d+, (?:metadata !\d+|i32 \d+|null), metadata !(\d+).*$/); var form3ac = new RegExp(/^!(\d+) = metadata !{i32 \d+, (?:metadata !\d+|null), metadata !"[^"]*", metadata !(\d+)[^\[]*.*$/); var form3ad = new RegExp(/^!(\d+) = metadata !{i32 \d+, (?:i32 \d+|null), (?:i32 \d+|null), metadata !"[^"]*", metadata !"[^"]*", metadata !"[^"]*", metadata !(\d+),.*$/); var form3ae = new RegExp(/^!(\d+) = metadata !{i32 \d+, metadata !(\d+).*$/); // LLVM 3.3 drops the first and last parameters. var form3b = new RegExp(/^!(\d+) = metadata !{(?:i32 \d+, )?metadata !"([^"]+)", metadata !"([^"]*)"(?:, (metadata !\d+|null))?}.*$/); var form3c = new RegExp(/^!(\d+) = metadata !{\w+\d* !?(\d+)[^\d].*$/); var form4 = new RegExp(/^!llvm.dbg.[\w\.]+ = .*$/); var form5 = new RegExp(/^!(\d+) = metadata !{.*$/); var form6 = new RegExp(/^ (tail )?call void \@llvm.dbg.\w+\(metadata .*$/); for (var i = 0; i < lines.length; i++) { var line = lines[i]; line = line.replace(/; +\[debug line = \d+:\d+\]/, ''); var skipLine = false; if (form6.exec(line)) { lines[i] = ';'; continue; } var calc = form1.exec(line) || form2.exec(line); if (calc) { llvmLineToMetadata[i+1] = calc[1]; lines[i] = line.replace(/, !dbg !\d+/, ''); continue; } calc = form3.exec(line); if (calc) { metadataToSourceLine[calc[1]] = calc[2]; metadataToParentMetadata[calc[1]] = calc[3]; lines[i] = ';'; // return an empty line, to keep line numbers of subsequent lines the same continue; } calc = form3a.exec(line) || form3ab.exec(line) || form3ac.exec(line) || form3ad.exec(line) || form3ae.exec(line); if (calc) { metadataToParentMetadata[calc[1]] = calc[2]; lines[i] = ';'; continue; } calc = form3b.exec(line); if (calc) { metadataToFilename[calc[1]] = /* LLVM 2.8<= : calc[3] + '/' + */ calc[2]; lines[i] = ';'; continue; } calc = form3c.exec(line) || form4.exec(line) || form5.exec(line); if (calc) { lines[i] = ';'; continue; } if (line[0] == '!') skipLine = true; lines[i] = skipLine ? ';' : line; } /* dprint("ll ==> meta: " + JSON.stringify(llvmLineToMetadata)); dprint("meta ==> sline: " + JSON.stringify(metadataToSourceLine)); dprint("meta ==> pmeta: " + JSON.stringify(metadataToParentMetadata)); dprint("meta ==> fname: " + JSON.stringify(metadataToFilename)); */ this.llvmLineToSourceLine = {}; this.llvmLineToSourceFile = {}; for (var l in llvmLineToMetadata) { var m = llvmLineToMetadata[l]; this.llvmLineToSourceLine[l] = metadataToSourceLine[m]; dprint('metadata', 'starting to recurse metadata for: ' + m); while (!metadataToFilename[m]) { dprint('metadata', 'recursing metadata, at: ' + m); m = metadataToParentMetadata[m]; assert(m, 'Confused as to parent metadata for llvm #' + l + ', metadata !' + m); } // Normalize Windows path slashes coming from LLVM metadata, so that forward slashes can be assumed as path delimiters. this.llvmLineToSourceFile[l] = metadataToFilename[m].replace(/\\5C/g, '/'); } this.on = true; }, clear: function() { this.llvmLineToSourceLine = {}; this.llvmLineToSourceFile = {}; this.on = false; }, getComment: function(lineNum) { if (!this.on) return null; return lineNum in this.llvmLineToSourceLine ? ' //@line ' + this.llvmLineToSourceLine[lineNum] + ' "' + this.llvmLineToSourceFile[lineNum] + '"' : ''; }, getAssociatedSourceFile: function(lineNum) { if (!this.on) return null; return lineNum in this.llvmLineToSourceLine ? this.llvmLineToSourceFile[lineNum] : null; }, getIdentifier: function(lineNum) { if (!this.on) return null; if (lineNum === undefined) { lineNum = Framework.currItem.lineNum; assert(lineNum !== undefined); } var approx = false; var sourceFile; while (lineNum >= 0) { var sourceFile = this.llvmLineToSourceFile[lineNum]; if (sourceFile) break; lineNum--; approx = true; } if (!sourceFile) return 'UNKNOWN'; return sourceFile.split('/').slice(-1)[0] + ':' + (approx ? '~' : '') + this.llvmLineToSourceLine[lineNum]; } }; var PreProcessor = { eliminateUnneededIntrinsics: function(lines) { // LLVM sometimes aggresively adds lifetime annotations, for example // // %0 = bitcast %"class.std::__1::__tree"** %this.addr.i to i8* ; [#uses=1 type=i8*] // call void @llvm.lifetime.start(i64 -1, i8* %0) nounwind // [..] // %6 = bitcast float* %__x.addr.i to i8* ; [#uses=1 type=i8*] // call void @llvm.lifetime.end(i64 -1, i8* %6) nounwind // // This greatly hurts us if we do not eliminate it ahead of time, because while we // will correctly do nothing for the lifetime intrinsic itself, the bitcast of the // parameter to it will prevent nativization of the variable being cast (!) for (var i = 0; i < lines.length; i++) { var line = lines[i]; if (/call void @llvm.lifetime.(start|end)\(i\d+ -1,.*/.exec(line)) { lines[i] = ';'; } } } }; var Variables = { globals: {}, indexedGlobals: {}, // for indexed globals, ident ==> index // Used in calculation of indexed globals nextIndexedOffset: 0, resolveAliasToIdent: function(ident) { while (1) { var varData = Variables.globals[ident]; if (!(varData && varData.targetIdent)) break; ident = varData.targetIdent; // might need to eval to turn (6) into 6 } return ident; }, }; var Types = { types: {}, fatTypes: {}, // With QUANTUM_SIZE=1, we store the full-size type data here flipTypes: function() { var temp = this.fatTypes; this.fatTypes = this.types; this.types = temp; }, structMetadata: {}, // Remove all data not needed during runtime (like line numbers, JS, etc.) cleanForRuntime: function() { values(this.types).forEach(function(type) { delete type.intertype; delete type.name_; delete type.lineNum; delete type.lines; delete type.needsFlattening; delete type.JS; }); keys(this.types).forEach(function(longer) { var shorter = longer.replace('%struct.', '').replace('%class.'); if (shorter === longer) return; if (shorter in this.types) return; this.types[shorter] = this.types[longer]; }, this); }, needAnalysis: {}, // Types noticed during parsing, that need analysis hasInlineJS: false, // whether the program has inline JS anywhere usesSIMD: false, // Set to true if we actually use precise i64 math: If PRECISE_I64_MATH is set, and also such math is actually // needed (+,-,*,/,% - we do not need it for bitops), or PRECISE_I64_MATH is 2 (forced) preciseI64MathUsed: (PRECISE_I64_MATH == 2) }; var firstTableIndex = FUNCTION_POINTER_ALIGNMENT * ((ASM_JS ? RESERVED_FUNCTION_POINTERS : 0) + 1); var Functions = { // All functions that will be implemented in this file. Maps id to signature implementedFunctions: {}, libraryFunctions: {}, // functions added from the library. value 2 means asmLibraryFunction unimplementedFunctions: {}, // library etc. functions that we need to index, maps id to signature indexedFunctions: {}, nextIndex: firstTableIndex, // Start at a non-0 (even, see below) value neededTables: set('v', 'vi', 'ii', 'iii'), // signatures that appeared (initialized with library stuff // we always use), and we will need a function table for blockAddresses: {}, // maps functions to a map of block labels to label ids aliases: {}, // in shared modules (MAIN_MODULE or SHARED_MODULE), a list of aliases for functions that have them getSignatureLetter: function(type) { switch(type) { case 'float': return 'f'; case 'double': return 'd'; case 'void': return 'v'; default: return 'i'; } }, getSignatureType: function(letter) { switch(letter) { case 'v': return 'void'; case 'i': return 'i32'; case 'f': return 'float'; case 'd': return 'double'; default: throw 'what is this sig? ' + sig; } }, getSignature: function(returnType, argTypes, hasVarArgs) { var sig = Functions.getSignatureLetter(returnType); for (var i = 0; i < argTypes.length; i++) { var type = argTypes[i]; if (!type) break; // varargs if (type in Runtime.FLOAT_TYPES) { sig += Functions.getSignatureLetter(type); } else { var chunks = getNumIntChunks(type); if (chunks > 0) { for (var j = 0; j < chunks; j++) sig += 'i'; } else if (type !== '...') { // some special type like a SIMD vector (anything but varargs, which we handle below) sig += Functions.getSignatureLetter(type); } } } if (hasVarArgs) sig += 'i'; return sig; }, // Mark a function as needing indexing. Python will coordinate them all getIndex: function(ident, sig) { var ret; if (phase != 'post' && singlePhase) { ret = "'{{ FI_" + toNiceIdent(ident) + " }}'"; // something python will replace later this.indexedFunctions[ident] = 0; } else { if (!singlePhase) return 'NO_INDEX'; // Should not index functions in post ret = this.indexedFunctions[ident]; assert(ret); ret = ret.toString(); } if (SIDE_MODULE && sig) { // sig can be undefined for the GL library functions ret = '((F_BASE_' + sig + ' + ' + ret + ')|0)'; } else if (BUILD_AS_SHARED_LIB) { ret = '(FUNCTION_TABLE_OFFSET + ' + ret + ')'; } return ret; }, getTable: function(sig) { return ASM_JS ? 'FUNCTION_TABLE_' + sig : 'FUNCTION_TABLE'; }, // Generate code for function indexing generateIndexing: function() { var tables = { pre: '' }; if (ASM_JS) { keys(Functions.neededTables).forEach(function(sig) { // add some default signatures that are used in the library tables[sig] = zeros(firstTableIndex); }); } for (var ident in this.indexedFunctions) { var sig = ASM_JS ? Functions.implementedFunctions[ident] || Functions.unimplementedFunctions[ident] || LibraryManager.library[ident.substr(1) + '__sig'] : 'x'; assert(sig, ident); if (!tables[sig]) tables[sig] = zeros(firstTableIndex); var index = this.indexedFunctions[ident]; for (var i = tables[sig].length; i < index; i++) { tables[sig][i] = 0; // keep flat } tables[sig][index] = ident; } var generated = false; var wrapped = {}; // whether we wrapped a lib func var maxTable = 0; for (var t in tables) { if (t == 'pre') continue; generated = true; var table = tables[t]; for (var i = 0; i < table.length; i++) { // Resolve multi-level aliases all the way down while (1) { var varData = Variables.globals[table[i]]; if (!(varData && varData.resolvedAlias && !/(FUNCTION_TABLE_OFFSET|F_BASE_)/.test(varData.resolvedAlias))) break; table[i] = table[+varData.resolvedAlias || eval(varData.resolvedAlias)]; // might need to eval to turn (6) into 6 } // Resolve library aliases if (table[i]) { var libName = LibraryManager.getRootIdent(table[i].substr(1)); if (libName && typeof libName == 'string') { table[i] = (libName.indexOf('Math_') < 0 ? '_' : '') + libName; } } if (ASM_JS) { var curr = table[i]; if (curr && curr != '0' && !Functions.implementedFunctions[curr]) { var short = toNiceIdent(curr); // fix Math.* to Math_* curr = t + '_' + short; // libfuncs can alias with different sigs, wrap each separately // This is a library function, we can't just put it in the function table, need a wrapper if (!wrapped[curr]) { var args = '', arg_coercions = '', call = short + '(', retPre = '', retPost = ''; if (t[0] != 'v') { var temp = asmFFICoercion('X', Functions.getSignatureType(t[0])).split('X'); retPre = 'return ' + temp[0]; retPost = temp[1]; } for (var j = 1; j < t.length; j++) { args += (j > 1 ? ',' : '') + 'a' + j; var type = Functions.getSignatureType(t[j]); arg_coercions += 'a' + j + '=' + asmCoercion('a' + j, type) + ';'; call += (j > 1 ? ',' : '') + asmCoercion('a' + j, type === 'float' ? 'double' : type); // ffi arguments must be doubles if they are floats } call += ')'; if (short == '_setjmp') printErr('WARNING: setjmp used via a function pointer. If this is for libc setjmp (not something of your own with the same name), it will break things'); tables.pre += 'function ' + curr + '__wrapper(' + args + ') { ' + arg_coercions + ' ; ' + retPre + call + retPost + ' }\n'; wrapped[curr] = 1; } table[i] = curr + '__wrapper'; } } } maxTable = Math.max(maxTable, table.length); } if (ASM_JS) maxTable = ceilPowerOfTwo(maxTable); for (var t in tables) { if (t == 'pre') continue; var table = tables[t]; // asm function table mask must be power of two, and non-asm must be aligned // if nonaliasing, then standardize function table size, to avoid aliasing pointers through the &M mask (in a small table using a big index) var fullSize = ASM_JS ? (ALIASING_FUNCTION_POINTERS ? ceilPowerOfTwo(table.length) : maxTable) : ((table.length+FUNCTION_POINTER_ALIGNMENT-1)&-FUNCTION_POINTER_ALIGNMENT); for (var i = table.length; i < fullSize; i++) { table[i] = 0; } // finalize table var indices = table.toString().replace('"', ''); if (BUILD_AS_SHARED_LIB) { // Shared libraries reuse the parent's function table. tables[t] = Functions.getTable(t) + '.push.apply(' + Functions.getTable(t) + ', [' + indices + ']);\n'; } else { tables[t] = 'var ' + Functions.getTable(t) + ' = [' + indices + '];\n'; if (SAFE_DYNCALLS) { tables[t] += 'var FUNCTION_TABLE_NAMES = ' + JSON.stringify(table).replace(/\n/g, '').replace(/,0/g, ',0\n') + ';\n'; } } } if (!generated && !ASM_JS) { tables['x'] = 'var FUNCTION_TABLE = [0, 0];\n'; // default empty table } Functions.tables = tables; } }; var LibraryManager = { library: null, structs: {}, loaded: false, load: function() { if (this.library) return; var libraries = ['library.js', 'library_path.js', 'library_fs.js', 'library_idbfs.js', 'library_memfs.js', 'library_nodefs.js', 'library_sockfs.js', 'library_tty.js', 'library_browser.js', 'library_sdl.js', 'library_gl.js', 'library_glut.js', 'library_xlib.js', 'library_egl.js', 'library_gc.js', 'library_jansson.js', 'library_openal.js', 'library_glfw.js', 'library_uuid.js', 'library_glew.js'].concat(additionalLibraries); for (var i = 0; i < libraries.length; i++) { eval(processMacros(preprocess(read(libraries[i])))); } /* // export code for CallHandlers.h printErr('============================'); for (var x in this.library) { var y = this.library[x]; if (typeof y === 'string' && x.indexOf('__sig') < 0 && x.indexOf('__postset') < 0 && y.indexOf(' ') < 0) { printErr('DEF_REDIRECT_HANDLER(' + x + ', ' + y + ');'); } } printErr('============================'); for (var x in this.library) { var y = this.library[x]; if (typeof y === 'string' && x.indexOf('__sig') < 0 && x.indexOf('__postset') < 0 && y.indexOf(' ') < 0) { printErr(' SETUP_CALL_HANDLER(' + x + ');'); } } printErr('============================'); // end export code for CallHandlers.h */ this.loaded = true; }, // Given an ident, see if it is an alias for something, and so forth, returning // the earliest ancestor (the root) getRootIdent: function(ident) { if (!this.library) return null; var ret = LibraryManager.library[ident]; if (!ret) return null; var last = ident; while (typeof ret === 'string') { last = ret; ret = LibraryManager.library[ret]; } return last; }, isStubFunction: function(ident) { if (SIDE_MODULE == 1) return false; // cannot eliminate these, as may be implement in the main module and imported by us var libCall = LibraryManager.library[ident.substr(1)]; return typeof libCall === 'function' && libCall.toString().replace(/\s/g, '') === 'function(){}' && !(ident in Functions.implementedFunctions); } }; // Safe way to access a C define. We check that we don't add library functions with missing defines. function cDefine(key) { return key in C_DEFINES ? C_DEFINES[key] : ('0 /* XXX missing C define ' + key + ' */'); } var PassManager = { serialize: function() { if (phase == 'pre') { print('\n//FORWARDED_DATA:' + JSON.stringify({ Types: Types, Variables: Variables, Functions: Functions, EXPORTED_FUNCTIONS: EXPORTED_FUNCTIONS, // needed for asm.js global constructors (ctors) Runtime: { GLOBAL_BASE: Runtime.GLOBAL_BASE } })); } else if (phase == 'funcs') { print('\n//FORWARDED_DATA:' + JSON.stringify({ Types: { hasInlineJS: Types.hasInlineJS, usesSIMD: Types.usesSIMD, preciseI64MathUsed: Types.preciseI64MathUsed }, Functions: { blockAddresses: Functions.blockAddresses, indexedFunctions: Functions.indexedFunctions, implementedFunctions: ASM_JS ? Functions.implementedFunctions : [], unimplementedFunctions: Functions.unimplementedFunctions, neededTables: Functions.neededTables } })); } else if (phase == 'post') { print('\n//FORWARDED_DATA:' + JSON.stringify({ Functions: { tables: Functions.tables } })); } else if (phase == 'glue') { print('\n//FORWARDED_DATA:' + JSON.stringify({ Functions: Functions, EXPORTED_FUNCTIONS: EXPORTED_FUNCTIONS })); } }, load: function(json) { var data = JSON.parse(json); for (var i in data.Types) { Types[i] = data.Types[i]; } for (var i in data.Variables) { Variables[i] = data.Variables[i]; } for (var i in data.Functions) { Functions[i] = data.Functions[i]; } EXPORTED_FUNCTIONS = data.EXPORTED_FUNCTIONS; /* print('\n//LOADED_DATA:' + phase + ':' + JSON.stringify({ Types: Types, Variables: Variables, Functions: Functions })); */ } }; var Framework = { currItem: null };