// Call handlers: flexible map of call targets to arbitrary handling code // // Each handler needs DEF_CALL_HANDLER and SETUP_CALL_HANDLER // typedef std::string (JSWriter::*CallHandler)(const Instruction*, std::string Name, int NumArgs); typedef std::map CallHandlerMap; CallHandlerMap CallHandlers; // Definitions unsigned getNumArgOperands(const Instruction *I) { return ImmutableCallSite(I).arg_size(); } const Value *getActuallyCalledValue(const Instruction *I) { const Value *CV = ImmutableCallSite(I).getCalledValue(); // if the called value is a bitcast of a function, then we just call it directly, properly // for example, extern void x() in C will turn into void x(...) in LLVM IR, then the IR bitcasts // it to the proper form right before the call. this both causes an unnecessary indirect // call, and it is done with the wrong type. TODO: don't even put it into the function table if (const Function *F = dyn_cast(CV->stripPointerCasts())) { CV = F; } return CV; } #define DEF_CALL_HANDLER(Ident, Code) \ std::string CH_##Ident(const Instruction *CI, std::string Name, int NumArgs=-1) { Code } DEF_CALL_HANDLER(__default__, { if (!CI) return ""; // we are just called from a handler that was called from getFunctionIndex, only to ensure the handler was run at least once const Value *CV = getActuallyCalledValue(CI); bool NeedCasts = true; FunctionType *FT; bool Invoke = false; if (InvokeState == 1) { InvokeState = 2; Invoke = true; } std::string Sig; const Function *F = dyn_cast(CV); if (F) { NeedCasts = F->isDeclaration(); // if ffi call, need casts FT = F->getFunctionType(); } else { FT = dyn_cast(dyn_cast(CV->getType())->getElementType()); if (isAbsolute(CV->stripPointerCasts())) { Name = "abort /* segfault, call an absolute addr */ "; } else { // function pointer call ensureFunctionTable(FT); if (!Invoke) { Sig = getFunctionSignature(FT, &Name); Name = std::string("FUNCTION_TABLE_") + Sig + "[" + Name + " & #FM_" + Sig + "#]"; NeedCasts = false; // function table call, so stays in asm module } } } bool ForcedNumArgs = NumArgs != -1; if (!ForcedNumArgs) NumArgs = getNumArgOperands(CI); if (!FT->isVarArg() && !ForcedNumArgs) { int TypeNumArgs = FT->getNumParams(); if (TypeNumArgs != NumArgs) { if (EmscriptenAssertions) prettyWarning() << "unexpected number of arguments " << utostr(NumArgs) << " in call to '" << F->getName() << "', should be " << utostr(TypeNumArgs) << "\n"; if (NumArgs > TypeNumArgs) NumArgs = TypeNumArgs; // lop off the extra params that will not be used and just break validation } if (EmscriptenAssertions) { for (int i = 0; i < std::min(TypeNumArgs, NumArgs); i++) { Type *TypeType = FT->getParamType(i); Type *ActualType = CI->getOperand(i)->getType(); if (getFunctionSignatureLetter(TypeType) != getFunctionSignatureLetter(ActualType)) { prettyWarning() << "unexpected argument type " << *ActualType << " at index " << utostr(i) << " in call to '" << F->getName() << "', should be " << *TypeType << "\n"; } } } } if (EmscriptenAssertions) { Type *TypeType = FT->getReturnType(); Type *ActualType = CI->getType(); if (getFunctionSignatureLetter(TypeType) != getFunctionSignatureLetter(ActualType)) { prettyWarning() << "unexpected return type " << *ActualType << " in call to '" << F->getName() << "', should be " << *TypeType << "\n"; } } if (Invoke) { Sig = getFunctionSignature(FT, &Name); Name = "invoke_" + Sig; NeedCasts = true; } std::string text = Name + "("; if (Invoke) { // add first param if (F) { text += utostr(getFunctionIndex(F)); // convert to function pointer } else { text += getValueAsCastStr(CV); // already a function pointer } if (NumArgs > 0) text += ","; } // this is an ffi call if we need casts, and it is not a special Math_ builtin bool FFI = NeedCasts; if (FFI && Name.find("Math_") == 0) { if (Name == "Math_ceil" || Name == "Math_floor" || Name == "Math_min" || Name == "Math_max" || Name == "Math_sqrt" || Name == "Math_abs") { // This special Math builtin is optimizable with all types, including floats, so can treat it as non-ffi FFI = false; } } unsigned FFI_OUT = FFI ? ASM_FFI_OUT : 0; for (int i = 0; i < NumArgs; i++) { if (!NeedCasts) { text += getValueAsStr(CI->getOperand(i)); } else { text += getValueAsCastParenStr(CI->getOperand(i), ASM_NONSPECIFIC | FFI_OUT); } if (i < NumArgs - 1) text += ","; } text += ")"; // handle return value Type *InstRT = CI->getType(); Type *ActualRT = FT->getReturnType(); if (!InstRT->isVoidTy() && ActualRT->isVoidTy()) { // the function we are calling was cast to something returning a value, but it really // does not return a value getAssignIfNeeded(CI); // ensure the variable is defined, but do not emit it here // it should have 0 uses, but just to be safe } else if (!ActualRT->isVoidTy()) { unsigned FFI_IN = FFI ? ASM_FFI_IN : 0; text = getAssignIfNeeded(CI) + "(" + getCast(text, ActualRT, ASM_NONSPECIFIC | FFI_IN) + ")"; } return text; }) // exceptions support DEF_CALL_HANDLER(emscripten_preinvoke, { assert(InvokeState == 0); InvokeState = 1; return "__THREW__ = 0"; }) DEF_CALL_HANDLER(emscripten_postinvoke, { assert(InvokeState == 1 || InvokeState == 2); // normally 2, but can be 1 if the call in between was optimized out InvokeState = 0; return getAssign(CI) + "__THREW__; __THREW__ = 0"; }) DEF_CALL_HANDLER(emscripten_landingpad, { std::string Ret = getAssign(CI) + "___cxa_find_matching_catch(-1,-1"; unsigned Num = getNumArgOperands(CI); for (unsigned i = 1; i < Num-1; i++) { // ignore personality and cleanup XXX - we probably should not be doing that! Ret += ","; Ret += getValueAsCastStr(CI->getOperand(i)); } Ret += ")|0"; return Ret; }) DEF_CALL_HANDLER(emscripten_resume, { return "___resumeException(" + getValueAsCastStr(CI->getOperand(0)) + ")"; }) // setjmp support DEF_CALL_HANDLER(emscripten_prep_setjmp, { return getAdHocAssign("_setjmpTable", Type::getInt32Ty(CI->getContext())) + "STACKTOP; STACKTOP=(STACKTOP+168)|0;" + // XXX FIXME "HEAP32[_setjmpTable>>2]=0"; }) DEF_CALL_HANDLER(emscripten_setjmp, { // env, label, table Declares.insert("saveSetjmp"); return "_saveSetjmp(" + getValueAsStr(CI->getOperand(0)) + "," + getValueAsStr(CI->getOperand(1)) + ",_setjmpTable|0)|0"; }) DEF_CALL_HANDLER(emscripten_longjmp, { Declares.insert("longjmp"); return CH___default__(CI, "_longjmp"); }) DEF_CALL_HANDLER(emscripten_check_longjmp, { std::string Threw = getValueAsStr(CI->getOperand(0)); std::string Target = getJSName(CI); std::string Assign = getAssign(CI); return "if (((" + Threw + "|0) != 0) & ((threwValue|0) != 0)) { " + Assign + "_testSetjmp(HEAP32[" + Threw + ">>2]|0, _setjmpTable)|0; " + "if ((" + Target + "|0) == 0) { _longjmp(" + Threw + "|0, threwValue|0); } " + // rethrow "tempRet0 = threwValue; " + "} else { " + Assign + "-1; }"; }) DEF_CALL_HANDLER(emscripten_get_longjmp_result, { std::string Threw = getValueAsStr(CI->getOperand(0)); return getAssign(CI) + "tempRet0"; }) // emscripten instrinsics DEF_CALL_HANDLER(emscripten_debugger, { CanValidate = false; return "debugger"; }) // i64 support DEF_CALL_HANDLER(getHigh32, { return getAssign(CI) + "tempRet0"; }) DEF_CALL_HANDLER(setHigh32, { return "tempRet0 = " + getValueAsStr(CI->getOperand(0)); }) // XXX float handling here is not optimal #define TO_I(low, high) \ DEF_CALL_HANDLER(low, { \ std::string Input = getValueAsStr(CI->getOperand(0)); \ if (PreciseF32 && CI->getOperand(0)->getType()->isFloatTy()) Input = "+" + Input; \ return getAssign(CI) + "(~~" + Input + ")>>>0"; \ }) \ DEF_CALL_HANDLER(high, { \ std::string Input = getValueAsStr(CI->getOperand(0)); \ if (PreciseF32 && CI->getOperand(0)->getType()->isFloatTy()) Input = "+" + Input; \ return getAssign(CI) + "+Math_abs(" + Input + ") >= +1 ? " + Input + " > +0 ? (Math_min(+Math_floor(" + Input + " / +4294967296), +4294967295) | 0) >>> 0 : ~~+Math_ceil((" + Input + " - +(~~" + Input + " >>> 0)) / +4294967296) >>> 0 : 0"; \ }) TO_I(FtoILow, FtoIHigh); TO_I(DtoILow, DtoIHigh); DEF_CALL_HANDLER(BDtoILow, { return "HEAPF64[tempDoublePtr>>3] = " + getValueAsStr(CI->getOperand(0)) + ";" + getAssign(CI) + "HEAP32[tempDoublePtr>>2]|0"; }) DEF_CALL_HANDLER(BDtoIHigh, { return getAssign(CI) + "HEAP32[tempDoublePtr+4>>2]|0"; }) DEF_CALL_HANDLER(SItoF, { std::string Ret = "(+" + getValueAsCastParenStr(CI->getOperand(0), ASM_UNSIGNED) + ") + " + "(+4294967296*(+" + getValueAsCastParenStr(CI->getOperand(1), ASM_SIGNED) + "))"; if (PreciseF32 && CI->getType()->isFloatTy()) { Ret = "Math_fround(" + Ret + ")"; } return getAssign(CI) + Ret; }) DEF_CALL_HANDLER(UItoF, { std::string Ret = "(+" + getValueAsCastParenStr(CI->getOperand(0), ASM_UNSIGNED) + ") + " + "(+4294967296*(+" + getValueAsCastParenStr(CI->getOperand(1), ASM_UNSIGNED) + "))"; if (PreciseF32 && CI->getType()->isFloatTy()) { Ret = "Math_fround(" + Ret + ")"; } return getAssign(CI) + Ret; }) DEF_CALL_HANDLER(SItoD, { return getAssign(CI) + "(+" + getValueAsCastParenStr(CI->getOperand(0), ASM_UNSIGNED) + ") + " + "(+4294967296*(+" + getValueAsCastParenStr(CI->getOperand(1), ASM_SIGNED) + "))"; }) DEF_CALL_HANDLER(UItoD, { return getAssign(CI) + "(+" + getValueAsCastParenStr(CI->getOperand(0), ASM_UNSIGNED) + ") + " + "(+4294967296*(+" + getValueAsCastParenStr(CI->getOperand(1), ASM_UNSIGNED) + "))"; }) DEF_CALL_HANDLER(BItoD, { return "HEAP32[tempDoublePtr>>2] = " + getValueAsStr(CI->getOperand(0)) + ";" + "HEAP32[tempDoublePtr+4>>2] = " + getValueAsStr(CI->getOperand(1)) + ";" + getAssign(CI) + "+HEAPF64[tempDoublePtr>>3]"; }) // misc DEF_CALL_HANDLER(llvm_nacl_atomic_store_i32, { return "HEAP32[" + getValueAsStr(CI->getOperand(0)) + ">>2]=" + getValueAsStr(CI->getOperand(1)); }) #define UNROLL_LOOP_MAX 8 #define WRITE_LOOP_MAX 128 DEF_CALL_HANDLER(llvm_memcpy_p0i8_p0i8_i32, { if (CI) { ConstantInt *AlignInt = dyn_cast(CI->getOperand(3)); if (AlignInt) { ConstantInt *LenInt = dyn_cast(CI->getOperand(2)); if (LenInt) { // we can emit inline code for this unsigned Len = LenInt->getZExtValue(); if (Len <= WRITE_LOOP_MAX) { unsigned Align = AlignInt->getZExtValue(); if (Align > 4) Align = 4; else if (Align == 0) Align = 1; // align 0 means 1 in memcpy and memset (unlike other places where it means 'default/4') if (Align == 1 && Len > 1 && WarnOnUnaligned) { errs() << "emcc: warning: unaligned memcpy in " << CI->getParent()->getParent()->getName() << ":" << *CI << " (compiler's fault?)\n"; } unsigned Pos = 0; std::string Ret; std::string Dest = getValueAsStr(CI->getOperand(0)); std::string Src = getValueAsStr(CI->getOperand(1)); while (Len > 0) { // handle as much as we can in the current alignment unsigned CurrLen = Align*(Len/Align); unsigned Factor = CurrLen/Align; if (Factor <= UNROLL_LOOP_MAX) { // unroll for (unsigned Offset = 0; Offset < CurrLen; Offset += Align) { std::string Add = "+" + utostr(Pos + Offset); Ret += ";" + getHeapAccess(Dest + Add, Align) + "=" + getHeapAccess(Src + Add, Align) + "|0"; } } else { // emit a loop UsedVars["dest"] = UsedVars["src"] = UsedVars["stop"] = Type::getInt32Ty(TheModule->getContext())->getTypeID(); Ret += "dest=" + Dest + "+" + utostr(Pos) + "|0; src=" + Src + "+" + utostr(Pos) + "|0; stop=dest+" + utostr(CurrLen) + "|0; do { " + getHeapAccess("dest", Align) + "=" + getHeapAccess("src", Align) + "|0; dest=dest+" + utostr(Align) + "|0; src=src+" + utostr(Align) + "|0; } while ((dest|0) < (stop|0))"; } Pos += CurrLen; Len -= CurrLen; Align /= 2; } return Ret; } } } } Declares.insert("memcpy"); return CH___default__(CI, "_memcpy", 3) + "|0"; }) DEF_CALL_HANDLER(llvm_memset_p0i8_i32, { if (CI) { ConstantInt *AlignInt = dyn_cast(CI->getOperand(3)); if (AlignInt) { ConstantInt *LenInt = dyn_cast(CI->getOperand(2)); if (LenInt) { ConstantInt *ValInt = dyn_cast(CI->getOperand(1)); if (ValInt) { // we can emit inline code for this unsigned Len = LenInt->getZExtValue(); if (Len <= WRITE_LOOP_MAX) { unsigned Align = AlignInt->getZExtValue(); unsigned Val = ValInt->getZExtValue(); if (Align > 4) Align = 4; else if (Align == 0) Align = 1; // align 0 means 1 in memcpy and memset (unlike other places where it means 'default/4') if (Align == 1 && Len > 1 && WarnOnUnaligned) { errs() << "emcc: warning: unaligned memcpy in " << CI->getParent()->getParent()->getName() << ":" << *CI << " (compiler's fault?)\n"; } unsigned Pos = 0; std::string Ret; std::string Dest = getValueAsStr(CI->getOperand(0)); while (Len > 0) { // handle as much as we can in the current alignment unsigned CurrLen = Align*(Len/Align); unsigned FullVal = 0; for (unsigned i = 0; i < Align; i++) { FullVal <<= 8; FullVal |= Val; } unsigned Factor = CurrLen/Align; if (Factor <= UNROLL_LOOP_MAX) { // unroll for (unsigned Offset = 0; Offset < CurrLen; Offset += Align) { std::string Add = "+" + utostr(Pos + Offset); Ret += ";" + getHeapAccess(Dest + Add, Align) + "=" + utostr(FullVal) + "|0"; } } else { // emit a loop UsedVars["dest"] = UsedVars["stop"] = Type::getInt32Ty(TheModule->getContext())->getTypeID(); Ret += "dest=" + Dest + "+" + utostr(Pos) + "|0; stop=dest+" + utostr(CurrLen) + "|0; do { " + getHeapAccess("dest", Align) + "=" + utostr(FullVal) + "|0; dest=dest+" + utostr(Align) + "|0; } while ((dest|0) < (stop|0))"; } Pos += CurrLen; Len -= CurrLen; Align /= 2; } return Ret; } } } } } Declares.insert("memset"); return CH___default__(CI, "_memset", 3) + "|0"; }) DEF_CALL_HANDLER(llvm_memmove_p0i8_p0i8_i32, { Declares.insert("memmove"); return CH___default__(CI, "_memmove", 3) + "|0"; }) DEF_CALL_HANDLER(llvm_expect_i32, { return getAssign(CI) + getValueAsStr(CI->getOperand(0)); }) DEF_CALL_HANDLER(llvm_dbg_declare, { return ""; }) DEF_CALL_HANDLER(llvm_dbg_value, { return ""; }) DEF_CALL_HANDLER(llvm_lifetime_start, { return ""; }) DEF_CALL_HANDLER(llvm_lifetime_end, { return ""; }) DEF_CALL_HANDLER(llvm_invariant_start, { return ""; }) DEF_CALL_HANDLER(llvm_invariant_end, { return ""; }) DEF_CALL_HANDLER(llvm_prefetch, { return ""; }) DEF_CALL_HANDLER(llvm_flt_rounds, { // FLT_ROUNDS helper. We don't support setting the rounding mode dynamically, // so it's always round-to-nearest (1). return getAssign(CI) + "1"; }) DEF_CALL_HANDLER(bitshift64Lshr, { return CH___default__(CI, "_bitshift64Lshr", 3); }) DEF_CALL_HANDLER(bitshift64Ashr, { return CH___default__(CI, "_bitshift64Ashr", 3); }) DEF_CALL_HANDLER(bitshift64Shl, { return CH___default__(CI, "_bitshift64Shl", 3); }) DEF_CALL_HANDLER(llvm_ctlz_i32, { return CH___default__(CI, "_llvm_ctlz_i32", 1); }) DEF_CALL_HANDLER(llvm_cttz_i32, { return CH___default__(CI, "_llvm_cttz_i32", 1); }) // vector ops DEF_CALL_HANDLER(emscripten_float32x4_signmask, { return getAssign(CI) + "SIMD.float32x4.bitsToInt32x4(" + getValueAsStr(CI->getOperand(0)) + ").signMask"; }) DEF_CALL_HANDLER(emscripten_float32x4_min, { return CH___default__(CI, "SIMD.float32x4.min"); }) DEF_CALL_HANDLER(emscripten_float32x4_max, { return CH___default__(CI, "SIMD.float32x4.max"); }) DEF_CALL_HANDLER(emscripten_float32x4_sqrt, { return CH___default__(CI, "SIMD.float32x4.sqrt"); }) DEF_CALL_HANDLER(emscripten_float32x4_lessThan, { return CH___default__(CI, "SIMD.float32x4.lessThan"); }) DEF_CALL_HANDLER(emscripten_float32x4_lessThanOrEqual, { return CH___default__(CI, "SIMD.float32x4.lessThanOrEqual"); }) DEF_CALL_HANDLER(emscripten_float32x4_equal, { return CH___default__(CI, "SIMD.float32x4.equal"); }) DEF_CALL_HANDLER(emscripten_float32x4_greaterThanOrEqual, { return CH___default__(CI, "SIMD.float32x4.greaterThanOrEqual"); }) DEF_CALL_HANDLER(emscripten_float32x4_greaterThan, { return CH___default__(CI, "SIMD.float32x4.greaterThan"); }) DEF_CALL_HANDLER(emscripten_float32x4_and, { return getAssign(CI) + "SIMD.int32x4.bitsToFloat32x4(SIMD.int32x4.and(SIMD.float32x4.bitsToInt32x4(" + getValueAsStr(CI->getOperand(0)) + "),SIMD.float32x4.bitsToInt32x4(" + getValueAsStr(CI->getOperand(1)) + ")))"; }) DEF_CALL_HANDLER(emscripten_float32x4_andNot, { return getAssign(CI) + "SIMD.int32x4.bitsToFloat32x4(SIMD.int32x4.and(SIMD.int32x4.not(SIMD.float32x4.bitsToInt32x4(" + getValueAsStr(CI->getOperand(0)) + ")),SIMD.float32x4.bitsToInt32x4(" + getValueAsStr(CI->getOperand(1)) + ")))"; }) DEF_CALL_HANDLER(emscripten_float32x4_or, { return getAssign(CI) + "SIMD.int32x4.bitsToFloat32x4(SIMD.int32x4.or(SIMD.float32x4.bitsToInt32x4(" + getValueAsStr(CI->getOperand(0)) + "),SIMD.float32x4.bitsToInt32x4(" + getValueAsStr(CI->getOperand(1)) + ")))"; }) DEF_CALL_HANDLER(emscripten_float32x4_xor, { return getAssign(CI) + "SIMD.int32x4.bitsToFloat32x4(SIMD.int32x4.xor(SIMD.float32x4.bitsToInt32x4(" + getValueAsStr(CI->getOperand(0)) + "),SIMD.float32x4.bitsToInt32x4(" + getValueAsStr(CI->getOperand(1)) + ")))"; }) DEF_CALL_HANDLER(emscripten_int32x4_bitsToFloat32x4, { return CH___default__(CI, "SIMD.int32x4.bitsToFloat32x4"); }) DEF_CALL_HANDLER(emscripten_int32x4_toFloat32x4, { return CH___default__(CI, "SIMD.int32x4.toFloat32x4"); }) DEF_CALL_HANDLER(emscripten_float32x4_bitsToInt32x4, { return CH___default__(CI, "SIMD.float32x4.bitsToInt32x4"); }) DEF_CALL_HANDLER(emscripten_float32x4_toInt32x4, { return CH___default__(CI, "SIMD.float32x4.toInt32x4"); }) #define DEF_REDIRECT_HANDLER(name, to) \ DEF_CALL_HANDLER(name, { \ /* FIXME: do not redirect if this is implemented and not just a declare! */ \ Declares.insert(#to); \ Redirects[#name] = #to; \ return CH___default__(CI, "_" #to); \ }) #define DEF_BUILTIN_HANDLER(name, to) \ DEF_CALL_HANDLER(name, { \ return CH___default__(CI, #to); \ }) // Various simple redirects for our js libc, see library.js and LibraryManager.load DEF_REDIRECT_HANDLER(__01readdir64_, readdir); DEF_REDIRECT_HANDLER(__xpg_basename, basename); DEF_REDIRECT_HANDLER(stat64, stat); DEF_REDIRECT_HANDLER(fstat64, fstat); DEF_REDIRECT_HANDLER(lstat64, lstat); DEF_REDIRECT_HANDLER(__01fstat64_, fstat); DEF_REDIRECT_HANDLER(__01stat64_, stat); DEF_REDIRECT_HANDLER(__01lstat64_, lstat); DEF_REDIRECT_HANDLER(__01statvfs64_, statvfs); DEF_REDIRECT_HANDLER(__01fstatvfs64_, fstatvfs); DEF_REDIRECT_HANDLER(pathconf, fpathconf); DEF_REDIRECT_HANDLER(fdatasync, fsync); DEF_REDIRECT_HANDLER(ualarm, alarm); DEF_REDIRECT_HANDLER(execle, execl); DEF_REDIRECT_HANDLER(execlp, execl); DEF_REDIRECT_HANDLER(execv, execl); DEF_REDIRECT_HANDLER(execve, execl); DEF_REDIRECT_HANDLER(execvp, execl); DEF_REDIRECT_HANDLER(vfork, fork); DEF_REDIRECT_HANDLER(getegid, getgid); DEF_REDIRECT_HANDLER(getuid, getgid); DEF_REDIRECT_HANDLER(geteuid, getgid); DEF_REDIRECT_HANDLER(getpgrp, getgid); DEF_REDIRECT_HANDLER(getpid, getgid); DEF_REDIRECT_HANDLER(getppid, getgid); DEF_REDIRECT_HANDLER(getresgid, getresuid); DEF_REDIRECT_HANDLER(getsid, getpgid); DEF_REDIRECT_HANDLER(setegid, setgid); DEF_REDIRECT_HANDLER(setuid, setgid); DEF_REDIRECT_HANDLER(seteuid, setgid); DEF_REDIRECT_HANDLER(setsid, setgid); DEF_REDIRECT_HANDLER(setpgrp, setgid); DEF_REDIRECT_HANDLER(setregid, setpgid); DEF_REDIRECT_HANDLER(setreuid, setpgid); DEF_REDIRECT_HANDLER(setresuid, setpgid); DEF_REDIRECT_HANDLER(setresgid, setpgid); DEF_REDIRECT_HANDLER(open64, open); DEF_REDIRECT_HANDLER(lseek64, lseek); DEF_REDIRECT_HANDLER(ftruncate64, ftruncate); DEF_REDIRECT_HANDLER(__01open64_, open); DEF_REDIRECT_HANDLER(__01lseek64_, lseek); DEF_REDIRECT_HANDLER(__01truncate64_, truncate); DEF_REDIRECT_HANDLER(__01ftruncate64_, ftruncate); DEF_REDIRECT_HANDLER(getc, fgetc); DEF_REDIRECT_HANDLER(getc_unlocked, fgetc); DEF_REDIRECT_HANDLER(flockfile, ftrylockfile); DEF_REDIRECT_HANDLER(funlockfile, ftrylockfile); DEF_REDIRECT_HANDLER(putc, fputc); DEF_REDIRECT_HANDLER(putc_unlocked, fputc); DEF_REDIRECT_HANDLER(putchar_unlocked, putchar); DEF_REDIRECT_HANDLER(fseeko, fseek); DEF_REDIRECT_HANDLER(fseeko64, fseek); DEF_REDIRECT_HANDLER(ftello, ftell); DEF_REDIRECT_HANDLER(ftello64, ftell); DEF_REDIRECT_HANDLER(fopen64, fopen); DEF_REDIRECT_HANDLER(__01fopen64_, fopen); DEF_REDIRECT_HANDLER(__01freopen64_, freopen); DEF_REDIRECT_HANDLER(__01fseeko64_, fseek); DEF_REDIRECT_HANDLER(__01ftello64_, ftell); DEF_REDIRECT_HANDLER(__01tmpfile64_, tmpfile); DEF_REDIRECT_HANDLER(__isoc99_fscanf, fscanf); DEF_REDIRECT_HANDLER(_IO_getc, getc); DEF_REDIRECT_HANDLER(_IO_putc, putc); DEF_REDIRECT_HANDLER(_ZNSo3putEc, putchar); DEF_REDIRECT_HANDLER(__01mmap64_, mmap); DEF_BUILTIN_HANDLER(abs, Math_abs); DEF_BUILTIN_HANDLER(labs, Math_abs); DEF_REDIRECT_HANDLER(__cxa_atexit, atexit); DEF_REDIRECT_HANDLER(atol, atoi); DEF_REDIRECT_HANDLER(__environ, _environ); DEF_REDIRECT_HANDLER(arc4random, rand); DEF_REDIRECT_HANDLER(llvm_memcpy_i32, memcpy); DEF_REDIRECT_HANDLER(llvm_memcpy_i64, memcpy); DEF_REDIRECT_HANDLER(llvm_memcpy_p0i8_p0i8_i64, memcpy); DEF_REDIRECT_HANDLER(llvm_memmove_i32, memmove); DEF_REDIRECT_HANDLER(llvm_memmove_i64, memmove); DEF_REDIRECT_HANDLER(llvm_memmove_p0i8_p0i8_i64, memmove); DEF_REDIRECT_HANDLER(llvm_memset_i32, memset); DEF_REDIRECT_HANDLER(llvm_memset_p0i8_i64, memset); DEF_REDIRECT_HANDLER(strcoll, strcmp); DEF_REDIRECT_HANDLER(index, strchr); DEF_REDIRECT_HANDLER(rindex, strrchr); DEF_REDIRECT_HANDLER(_toupper, toupper); DEF_REDIRECT_HANDLER(_tolower, tolower); DEF_REDIRECT_HANDLER(terminate, __cxa_call_unexpected); DEF_BUILTIN_HANDLER(cos, Math_cos); DEF_BUILTIN_HANDLER(cosf, Math_cos); DEF_BUILTIN_HANDLER(cosl, Math_cos); DEF_BUILTIN_HANDLER(sin, Math_sin); DEF_BUILTIN_HANDLER(sinf, Math_sin); DEF_BUILTIN_HANDLER(sinl, Math_sin); DEF_BUILTIN_HANDLER(tan, Math_tan); DEF_BUILTIN_HANDLER(tanf, Math_tan); DEF_BUILTIN_HANDLER(tanl, Math_tan); DEF_BUILTIN_HANDLER(acos, Math_acos); DEF_BUILTIN_HANDLER(acosf, Math_acos); DEF_BUILTIN_HANDLER(acosl, Math_acos); DEF_BUILTIN_HANDLER(asin, Math_asin); DEF_BUILTIN_HANDLER(asinf, Math_asin); DEF_BUILTIN_HANDLER(asinl, Math_asin); DEF_BUILTIN_HANDLER(atan, Math_atan); DEF_BUILTIN_HANDLER(atanf, Math_atan); DEF_BUILTIN_HANDLER(atanl, Math_atan); DEF_BUILTIN_HANDLER(atan2, Math_atan2); DEF_BUILTIN_HANDLER(atan2f, Math_atan2); DEF_BUILTIN_HANDLER(atan2l, Math_atan2); DEF_BUILTIN_HANDLER(exp, Math_exp); DEF_BUILTIN_HANDLER(expf, Math_exp); DEF_BUILTIN_HANDLER(expl, Math_exp); DEF_REDIRECT_HANDLER(erfcf, erfc); DEF_REDIRECT_HANDLER(erfcl, erfc); DEF_REDIRECT_HANDLER(erff, erf); DEF_REDIRECT_HANDLER(erfl, erf); DEF_BUILTIN_HANDLER(log, Math_log); DEF_BUILTIN_HANDLER(logf, Math_log); DEF_BUILTIN_HANDLER(logl, Math_log); DEF_BUILTIN_HANDLER(sqrt, Math_sqrt); DEF_BUILTIN_HANDLER(sqrtf, Math_sqrt); DEF_BUILTIN_HANDLER(sqrtl, Math_sqrt); DEF_BUILTIN_HANDLER(fabs, Math_abs); DEF_BUILTIN_HANDLER(fabsf, Math_abs); DEF_BUILTIN_HANDLER(fabsl, Math_abs); DEF_BUILTIN_HANDLER(ceil, Math_ceil); DEF_BUILTIN_HANDLER(ceilf, Math_ceil); DEF_BUILTIN_HANDLER(ceill, Math_ceil); DEF_BUILTIN_HANDLER(floor, Math_floor); DEF_BUILTIN_HANDLER(floorf, Math_floor); DEF_BUILTIN_HANDLER(floorl, Math_floor); DEF_BUILTIN_HANDLER(pow, Math_pow); DEF_BUILTIN_HANDLER(powf, Math_pow); DEF_BUILTIN_HANDLER(powl, Math_pow); DEF_BUILTIN_HANDLER(llvm_sqrt_f32, Math_sqrt); DEF_BUILTIN_HANDLER(llvm_sqrt_f64, Math_sqrt); DEF_BUILTIN_HANDLER(llvm_pow_f32, Math_pow); DEF_BUILTIN_HANDLER(llvm_pow_f64, Math_pow); DEF_BUILTIN_HANDLER(llvm_log_f32, Math_log); DEF_BUILTIN_HANDLER(llvm_log_f64, Math_log); DEF_BUILTIN_HANDLER(llvm_exp_f32, Math_exp); DEF_BUILTIN_HANDLER(llvm_exp_f64, Math_exp); DEF_REDIRECT_HANDLER(cbrtf, cbrt); DEF_REDIRECT_HANDLER(cbrtl, cbrt); DEF_REDIRECT_HANDLER(frexpf, frexp); DEF_REDIRECT_HANDLER(__finite, finite); DEF_REDIRECT_HANDLER(__isinf, isinf); DEF_REDIRECT_HANDLER(__isnan, isnan); DEF_REDIRECT_HANDLER(copysignf, copysign); DEF_REDIRECT_HANDLER(copysignl, copysign); DEF_REDIRECT_HANDLER(hypotf, hypot); DEF_REDIRECT_HANDLER(hypotl, hypot); DEF_REDIRECT_HANDLER(sinhf, sinh); DEF_REDIRECT_HANDLER(sinhl, sinh); DEF_REDIRECT_HANDLER(coshf, cosh); DEF_REDIRECT_HANDLER(coshl, cosh); DEF_REDIRECT_HANDLER(tanhf, tanh); DEF_REDIRECT_HANDLER(tanhl, tanh); DEF_REDIRECT_HANDLER(asinhf, asinh); DEF_REDIRECT_HANDLER(asinhl, asinh); DEF_REDIRECT_HANDLER(acoshf, acosh); DEF_REDIRECT_HANDLER(acoshl, acosh); DEF_REDIRECT_HANDLER(atanhf, atanh); DEF_REDIRECT_HANDLER(atanhl, atanh); DEF_REDIRECT_HANDLER(exp2f, exp2); DEF_REDIRECT_HANDLER(exp2l, exp2); DEF_REDIRECT_HANDLER(expm1f, expm1); DEF_REDIRECT_HANDLER(expm1l, expm1); DEF_REDIRECT_HANDLER(roundf, round); DEF_REDIRECT_HANDLER(roundl, round); DEF_REDIRECT_HANDLER(lround, round); DEF_REDIRECT_HANDLER(lroundf, round); DEF_REDIRECT_HANDLER(lroundl, round); DEF_REDIRECT_HANDLER(llround, round); DEF_REDIRECT_HANDLER(llroundf, round); DEF_REDIRECT_HANDLER(llroundl, round); DEF_REDIRECT_HANDLER(rintf, rint); DEF_REDIRECT_HANDLER(rintl, rint); DEF_REDIRECT_HANDLER(lrint, rint); DEF_REDIRECT_HANDLER(lrintf, rint); DEF_REDIRECT_HANDLER(lrintl, rint); DEF_REDIRECT_HANDLER(llrintf, llrint); DEF_REDIRECT_HANDLER(llrintl, llrint); DEF_REDIRECT_HANDLER(nearbyint, rint); DEF_REDIRECT_HANDLER(nearbyintf, rint); DEF_REDIRECT_HANDLER(nearbyintl, rint); DEF_REDIRECT_HANDLER(truncf, trunc); DEF_REDIRECT_HANDLER(truncl, trunc); DEF_REDIRECT_HANDLER(fdimf, fdim); DEF_REDIRECT_HANDLER(fdiml, fdim); DEF_REDIRECT_HANDLER(fmaxf, fmax); DEF_REDIRECT_HANDLER(fmaxl, fmax); DEF_REDIRECT_HANDLER(fminf, fmin); DEF_REDIRECT_HANDLER(fminl, fmin); DEF_REDIRECT_HANDLER(fmaf, fma); DEF_REDIRECT_HANDLER(fmal, fma); DEF_REDIRECT_HANDLER(fmodf, fmod); DEF_REDIRECT_HANDLER(fmodl, fmod); DEF_REDIRECT_HANDLER(remainder, fmod); DEF_REDIRECT_HANDLER(remainderf, fmod); DEF_REDIRECT_HANDLER(remainderl, fmod); DEF_REDIRECT_HANDLER(log10f, log10); DEF_REDIRECT_HANDLER(log10l, log10); DEF_REDIRECT_HANDLER(log1pf, log1p); DEF_REDIRECT_HANDLER(log1pl, log1p); DEF_REDIRECT_HANDLER(log2f, log2); DEF_REDIRECT_HANDLER(log2l, log2); DEF_REDIRECT_HANDLER(nanf, nan); DEF_REDIRECT_HANDLER(nanl, nan); DEF_REDIRECT_HANDLER(sincosl, sincos); DEF_REDIRECT_HANDLER(__fpclassifyd, __fpclassify); DEF_REDIRECT_HANDLER(__fpclassifyf, __fpclassify); DEF_REDIRECT_HANDLER(__fpclassifyl, __fpclassify); DEF_REDIRECT_HANDLER(timelocal, mktime); DEF_REDIRECT_HANDLER(gnu_dev_makedev, makedev); DEF_REDIRECT_HANDLER(gnu_dev_major, major); DEF_REDIRECT_HANDLER(gnu_dev_minor, minor); DEF_REDIRECT_HANDLER(sigprocmask, sigaction); DEF_REDIRECT_HANDLER(killpg, kill); DEF_REDIRECT_HANDLER(waitid, wait); DEF_REDIRECT_HANDLER(waitpid, wait); DEF_REDIRECT_HANDLER(wait3, wait); DEF_REDIRECT_HANDLER(wait4, wait); DEF_REDIRECT_HANDLER(__errno, __errno_location); DEF_REDIRECT_HANDLER(__01getrlimit64_, getrlimit); DEF_REDIRECT_HANDLER(ntohl, htonl); DEF_REDIRECT_HANDLER(ntohs, htons); DEF_REDIRECT_HANDLER(SDL_LoadBMP, IMG_Load); DEF_REDIRECT_HANDLER(SDL_LoadBMP_RW, IMG_Load_RW); DEF_REDIRECT_HANDLER(Mix_CloseAudio, SDL_CloseAudio); DEF_REDIRECT_HANDLER(Mix_PlayChannelTimed, Mix_PlayChannel); DEF_REDIRECT_HANDLER(Mix_LoadMUS_RW, Mix_LoadWAV_RW); DEF_REDIRECT_HANDLER(Mix_FreeMusic, Mix_FreeChunk); DEF_REDIRECT_HANDLER(Mix_FadeInMusicPos, Mix_PlayMusic); DEF_REDIRECT_HANDLER(Mix_FadeOutMusic, Mix_HaltMusic); DEF_REDIRECT_HANDLER(TTF_RenderText_Blended, TTF_RenderText_Solid); DEF_REDIRECT_HANDLER(TTF_RenderText_Shaded, TTF_RenderText_Solid); DEF_REDIRECT_HANDLER(TTF_RenderUTF8_Solid, TTF_RenderText_Solid); DEF_REDIRECT_HANDLER(SDL_getenv, getenv); DEF_REDIRECT_HANDLER(SDL_RWFromMem, SDL_RWFromConstMem); // Setups void setupCallHandlers() { assert(CallHandlers.empty()); #define SETUP_CALL_HANDLER(Ident) \ CallHandlers["_" #Ident] = &JSWriter::CH_##Ident; SETUP_CALL_HANDLER(__default__); SETUP_CALL_HANDLER(emscripten_preinvoke); SETUP_CALL_HANDLER(emscripten_postinvoke); SETUP_CALL_HANDLER(emscripten_landingpad); SETUP_CALL_HANDLER(emscripten_resume); SETUP_CALL_HANDLER(emscripten_prep_setjmp); SETUP_CALL_HANDLER(emscripten_setjmp); SETUP_CALL_HANDLER(emscripten_longjmp); SETUP_CALL_HANDLER(emscripten_check_longjmp); SETUP_CALL_HANDLER(emscripten_get_longjmp_result); SETUP_CALL_HANDLER(emscripten_debugger); SETUP_CALL_HANDLER(getHigh32); SETUP_CALL_HANDLER(setHigh32); SETUP_CALL_HANDLER(FtoILow); SETUP_CALL_HANDLER(FtoIHigh); SETUP_CALL_HANDLER(DtoILow); SETUP_CALL_HANDLER(DtoIHigh); SETUP_CALL_HANDLER(BDtoILow); SETUP_CALL_HANDLER(BDtoIHigh); SETUP_CALL_HANDLER(SItoF); SETUP_CALL_HANDLER(UItoF); SETUP_CALL_HANDLER(SItoD); SETUP_CALL_HANDLER(UItoD); SETUP_CALL_HANDLER(BItoD); SETUP_CALL_HANDLER(llvm_nacl_atomic_store_i32); SETUP_CALL_HANDLER(llvm_memcpy_p0i8_p0i8_i32); SETUP_CALL_HANDLER(llvm_memset_p0i8_i32); SETUP_CALL_HANDLER(llvm_memmove_p0i8_p0i8_i32); SETUP_CALL_HANDLER(llvm_expect_i32); SETUP_CALL_HANDLER(llvm_dbg_declare); SETUP_CALL_HANDLER(llvm_dbg_value); SETUP_CALL_HANDLER(llvm_lifetime_start); SETUP_CALL_HANDLER(llvm_lifetime_end); SETUP_CALL_HANDLER(llvm_invariant_start); SETUP_CALL_HANDLER(llvm_invariant_end); SETUP_CALL_HANDLER(llvm_prefetch); SETUP_CALL_HANDLER(llvm_flt_rounds); SETUP_CALL_HANDLER(bitshift64Lshr); SETUP_CALL_HANDLER(bitshift64Ashr); SETUP_CALL_HANDLER(bitshift64Shl); SETUP_CALL_HANDLER(llvm_ctlz_i32); SETUP_CALL_HANDLER(llvm_cttz_i32); SETUP_CALL_HANDLER(emscripten_float32x4_signmask); SETUP_CALL_HANDLER(emscripten_float32x4_min); SETUP_CALL_HANDLER(emscripten_float32x4_max); SETUP_CALL_HANDLER(emscripten_float32x4_sqrt); SETUP_CALL_HANDLER(emscripten_float32x4_lessThan); SETUP_CALL_HANDLER(emscripten_float32x4_lessThanOrEqual); SETUP_CALL_HANDLER(emscripten_float32x4_equal); SETUP_CALL_HANDLER(emscripten_float32x4_greaterThanOrEqual); SETUP_CALL_HANDLER(emscripten_float32x4_greaterThan); SETUP_CALL_HANDLER(emscripten_float32x4_and); SETUP_CALL_HANDLER(emscripten_float32x4_andNot); SETUP_CALL_HANDLER(emscripten_float32x4_or); SETUP_CALL_HANDLER(emscripten_float32x4_xor); SETUP_CALL_HANDLER(emscripten_int32x4_bitsToFloat32x4); SETUP_CALL_HANDLER(emscripten_int32x4_toFloat32x4); SETUP_CALL_HANDLER(emscripten_float32x4_bitsToInt32x4); SETUP_CALL_HANDLER(emscripten_float32x4_toInt32x4); SETUP_CALL_HANDLER(__01readdir64_); SETUP_CALL_HANDLER(__xpg_basename); SETUP_CALL_HANDLER(stat64); SETUP_CALL_HANDLER(fstat64); SETUP_CALL_HANDLER(lstat64); SETUP_CALL_HANDLER(__01fstat64_); SETUP_CALL_HANDLER(__01stat64_); SETUP_CALL_HANDLER(__01lstat64_); SETUP_CALL_HANDLER(__01statvfs64_); SETUP_CALL_HANDLER(__01fstatvfs64_); SETUP_CALL_HANDLER(pathconf); SETUP_CALL_HANDLER(fdatasync); SETUP_CALL_HANDLER(ualarm); SETUP_CALL_HANDLER(execle); SETUP_CALL_HANDLER(execlp); SETUP_CALL_HANDLER(execv); SETUP_CALL_HANDLER(execve); SETUP_CALL_HANDLER(execvp); SETUP_CALL_HANDLER(vfork); SETUP_CALL_HANDLER(getegid); SETUP_CALL_HANDLER(getuid); SETUP_CALL_HANDLER(geteuid); SETUP_CALL_HANDLER(getpgrp); SETUP_CALL_HANDLER(getpid); SETUP_CALL_HANDLER(getppid); SETUP_CALL_HANDLER(getresgid); SETUP_CALL_HANDLER(getsid); SETUP_CALL_HANDLER(setegid); SETUP_CALL_HANDLER(setuid); SETUP_CALL_HANDLER(seteuid); SETUP_CALL_HANDLER(setsid); SETUP_CALL_HANDLER(setpgrp); SETUP_CALL_HANDLER(setregid); SETUP_CALL_HANDLER(setreuid); SETUP_CALL_HANDLER(setresuid); SETUP_CALL_HANDLER(setresgid); SETUP_CALL_HANDLER(open64); SETUP_CALL_HANDLER(lseek64); SETUP_CALL_HANDLER(ftruncate64); SETUP_CALL_HANDLER(__01open64_); SETUP_CALL_HANDLER(__01lseek64_); SETUP_CALL_HANDLER(__01truncate64_); SETUP_CALL_HANDLER(__01ftruncate64_); SETUP_CALL_HANDLER(getc); SETUP_CALL_HANDLER(getc_unlocked); SETUP_CALL_HANDLER(flockfile); SETUP_CALL_HANDLER(funlockfile); SETUP_CALL_HANDLER(putc); SETUP_CALL_HANDLER(putc_unlocked); SETUP_CALL_HANDLER(putchar_unlocked); SETUP_CALL_HANDLER(fseeko); SETUP_CALL_HANDLER(fseeko64); SETUP_CALL_HANDLER(ftello); SETUP_CALL_HANDLER(ftello64); SETUP_CALL_HANDLER(fopen64); SETUP_CALL_HANDLER(__01fopen64_); SETUP_CALL_HANDLER(__01freopen64_); SETUP_CALL_HANDLER(__01fseeko64_); SETUP_CALL_HANDLER(__01ftello64_); SETUP_CALL_HANDLER(__01tmpfile64_); SETUP_CALL_HANDLER(__isoc99_fscanf); SETUP_CALL_HANDLER(_IO_getc); SETUP_CALL_HANDLER(_IO_putc); SETUP_CALL_HANDLER(_ZNSo3putEc); SETUP_CALL_HANDLER(__01mmap64_); SETUP_CALL_HANDLER(abs); SETUP_CALL_HANDLER(labs); SETUP_CALL_HANDLER(__cxa_atexit); SETUP_CALL_HANDLER(atol); SETUP_CALL_HANDLER(__environ); SETUP_CALL_HANDLER(arc4random); SETUP_CALL_HANDLER(llvm_memcpy_i32); SETUP_CALL_HANDLER(llvm_memcpy_i64); SETUP_CALL_HANDLER(llvm_memcpy_p0i8_p0i8_i64); SETUP_CALL_HANDLER(llvm_memmove_i32); SETUP_CALL_HANDLER(llvm_memmove_i64); SETUP_CALL_HANDLER(llvm_memmove_p0i8_p0i8_i64); SETUP_CALL_HANDLER(llvm_memset_i32); SETUP_CALL_HANDLER(llvm_memset_p0i8_i64); SETUP_CALL_HANDLER(strcoll); SETUP_CALL_HANDLER(index); SETUP_CALL_HANDLER(rindex); SETUP_CALL_HANDLER(_toupper); SETUP_CALL_HANDLER(_tolower); SETUP_CALL_HANDLER(terminate); SETUP_CALL_HANDLER(cos); SETUP_CALL_HANDLER(cosf); SETUP_CALL_HANDLER(cosl); SETUP_CALL_HANDLER(sin); SETUP_CALL_HANDLER(sinf); SETUP_CALL_HANDLER(sinl); SETUP_CALL_HANDLER(tan); SETUP_CALL_HANDLER(tanf); SETUP_CALL_HANDLER(tanl); SETUP_CALL_HANDLER(acos); SETUP_CALL_HANDLER(acosf); SETUP_CALL_HANDLER(acosl); SETUP_CALL_HANDLER(asin); SETUP_CALL_HANDLER(asinf); SETUP_CALL_HANDLER(asinl); SETUP_CALL_HANDLER(atan); SETUP_CALL_HANDLER(atanf); SETUP_CALL_HANDLER(atanl); SETUP_CALL_HANDLER(atan2); SETUP_CALL_HANDLER(atan2f); SETUP_CALL_HANDLER(atan2l); SETUP_CALL_HANDLER(exp); SETUP_CALL_HANDLER(expf); SETUP_CALL_HANDLER(expl); SETUP_CALL_HANDLER(erfcf); SETUP_CALL_HANDLER(erfcl); SETUP_CALL_HANDLER(erff); SETUP_CALL_HANDLER(erfl); SETUP_CALL_HANDLER(log); SETUP_CALL_HANDLER(logf); SETUP_CALL_HANDLER(logl); SETUP_CALL_HANDLER(sqrt); SETUP_CALL_HANDLER(sqrtf); SETUP_CALL_HANDLER(sqrtl); SETUP_CALL_HANDLER(fabs); SETUP_CALL_HANDLER(fabsf); SETUP_CALL_HANDLER(fabsl); SETUP_CALL_HANDLER(ceil); SETUP_CALL_HANDLER(ceilf); SETUP_CALL_HANDLER(ceill); SETUP_CALL_HANDLER(floor); SETUP_CALL_HANDLER(floorf); SETUP_CALL_HANDLER(floorl); SETUP_CALL_HANDLER(pow); SETUP_CALL_HANDLER(powf); SETUP_CALL_HANDLER(powl); SETUP_CALL_HANDLER(llvm_sqrt_f32); SETUP_CALL_HANDLER(llvm_sqrt_f64); SETUP_CALL_HANDLER(llvm_pow_f32); SETUP_CALL_HANDLER(llvm_pow_f64); SETUP_CALL_HANDLER(llvm_log_f32); SETUP_CALL_HANDLER(llvm_log_f64); SETUP_CALL_HANDLER(llvm_exp_f32); SETUP_CALL_HANDLER(llvm_exp_f64); SETUP_CALL_HANDLER(cbrtf); SETUP_CALL_HANDLER(cbrtl); SETUP_CALL_HANDLER(frexpf); SETUP_CALL_HANDLER(__finite); SETUP_CALL_HANDLER(__isinf); SETUP_CALL_HANDLER(__isnan); SETUP_CALL_HANDLER(copysignf); SETUP_CALL_HANDLER(copysignl); SETUP_CALL_HANDLER(hypotf); SETUP_CALL_HANDLER(hypotl); SETUP_CALL_HANDLER(sinhf); SETUP_CALL_HANDLER(sinhl); SETUP_CALL_HANDLER(coshf); SETUP_CALL_HANDLER(coshl); SETUP_CALL_HANDLER(tanhf); SETUP_CALL_HANDLER(tanhl); SETUP_CALL_HANDLER(asinhf); SETUP_CALL_HANDLER(asinhl); SETUP_CALL_HANDLER(acoshf); SETUP_CALL_HANDLER(acoshl); SETUP_CALL_HANDLER(atanhf); SETUP_CALL_HANDLER(atanhl); SETUP_CALL_HANDLER(exp2f); SETUP_CALL_HANDLER(exp2l); SETUP_CALL_HANDLER(expm1f); SETUP_CALL_HANDLER(expm1l); SETUP_CALL_HANDLER(roundf); SETUP_CALL_HANDLER(roundl); SETUP_CALL_HANDLER(lround); SETUP_CALL_HANDLER(lroundf); SETUP_CALL_HANDLER(lroundl); SETUP_CALL_HANDLER(llround); SETUP_CALL_HANDLER(llroundf); SETUP_CALL_HANDLER(llroundl); SETUP_CALL_HANDLER(rintf); SETUP_CALL_HANDLER(rintl); SETUP_CALL_HANDLER(lrint); SETUP_CALL_HANDLER(lrintf); SETUP_CALL_HANDLER(lrintl); SETUP_CALL_HANDLER(llrintf); SETUP_CALL_HANDLER(llrintl); SETUP_CALL_HANDLER(nearbyint); SETUP_CALL_HANDLER(nearbyintf); SETUP_CALL_HANDLER(nearbyintl); SETUP_CALL_HANDLER(truncf); SETUP_CALL_HANDLER(truncl); SETUP_CALL_HANDLER(fdimf); SETUP_CALL_HANDLER(fdiml); SETUP_CALL_HANDLER(fmaxf); SETUP_CALL_HANDLER(fmaxl); SETUP_CALL_HANDLER(fminf); SETUP_CALL_HANDLER(fminl); SETUP_CALL_HANDLER(fmaf); SETUP_CALL_HANDLER(fmal); SETUP_CALL_HANDLER(fmodf); SETUP_CALL_HANDLER(fmodl); SETUP_CALL_HANDLER(remainder); SETUP_CALL_HANDLER(remainderf); SETUP_CALL_HANDLER(remainderl); SETUP_CALL_HANDLER(log10f); SETUP_CALL_HANDLER(log10l); SETUP_CALL_HANDLER(log1pf); SETUP_CALL_HANDLER(log1pl); SETUP_CALL_HANDLER(log2f); SETUP_CALL_HANDLER(log2l); SETUP_CALL_HANDLER(nanf); SETUP_CALL_HANDLER(nanl); SETUP_CALL_HANDLER(sincosl); SETUP_CALL_HANDLER(__fpclassifyd); SETUP_CALL_HANDLER(__fpclassifyf); SETUP_CALL_HANDLER(__fpclassifyl); SETUP_CALL_HANDLER(timelocal); SETUP_CALL_HANDLER(gnu_dev_makedev); SETUP_CALL_HANDLER(gnu_dev_major); SETUP_CALL_HANDLER(gnu_dev_minor); SETUP_CALL_HANDLER(sigprocmask); SETUP_CALL_HANDLER(killpg); SETUP_CALL_HANDLER(waitid); SETUP_CALL_HANDLER(waitpid); SETUP_CALL_HANDLER(wait3); SETUP_CALL_HANDLER(wait4); SETUP_CALL_HANDLER(__errno); SETUP_CALL_HANDLER(__01getrlimit64_); SETUP_CALL_HANDLER(ntohl); SETUP_CALL_HANDLER(ntohs); SETUP_CALL_HANDLER(SDL_LoadBMP); SETUP_CALL_HANDLER(SDL_LoadBMP_RW); SETUP_CALL_HANDLER(Mix_CloseAudio); SETUP_CALL_HANDLER(Mix_PlayChannelTimed); SETUP_CALL_HANDLER(Mix_LoadMUS_RW); SETUP_CALL_HANDLER(Mix_FreeMusic); SETUP_CALL_HANDLER(Mix_FadeInMusicPos); SETUP_CALL_HANDLER(Mix_FadeOutMusic); SETUP_CALL_HANDLER(TTF_RenderText_Blended); SETUP_CALL_HANDLER(TTF_RenderText_Shaded); SETUP_CALL_HANDLER(TTF_RenderUTF8_Solid); SETUP_CALL_HANDLER(SDL_getenv); SETUP_CALL_HANDLER(SDL_RWFromMem); } std::string handleCall(const Instruction *CI) { const Value *CV = getActuallyCalledValue(CI); if (isa(CV)) { errs() << "In function " << CI->getParent()->getParent()->getName() << "()\n"; report_fatal_error("asm() not supported, use EM_ASM() (see emscripten.h)"); } // Get the name to call this function by. If it's a direct call, meaning // which know which Function we're calling, avoid calling getValueAsStr, as // we don't need to use a function index. const std::string &Name = isa(CV) ? getJSName(CV) : getValueAsStr(CV); CallHandlerMap::iterator CH = CallHandlers.find("___default__"); if (isa(CV)) { CallHandlerMap::iterator Custom = CallHandlers.find(Name); if (Custom != CallHandlers.end()) CH = Custom; } return (this->*(CH->second))(CI, Name, -1); }