diff options
Diffstat (limited to 'src/javascript/jsc/bindings/FFI.zig')
| -rw-r--r-- | src/javascript/jsc/bindings/FFI.zig | 538 |
1 files changed, 0 insertions, 538 deletions
diff --git a/src/javascript/jsc/bindings/FFI.zig b/src/javascript/jsc/bindings/FFI.zig deleted file mode 100644 index 5a4a61862..000000000 --- a/src/javascript/jsc/bindings/FFI.zig +++ /dev/null @@ -1,538 +0,0 @@ -// This is zig translate-c run on ffi.h -// it turns out: FFI.h is faster than our implementation that calls into C++ bindings -// so we just use this in some cases - -pub const @"bool" = bool; -pub const JSCell = ?*anyopaque; -const struct_unnamed_1 = extern struct { - payload: i32, - tag: i32, -}; -pub const union_EncodedJSValue = extern union { - asInt64: i64, - ptr: [*c]JSCell, - asBits: struct_unnamed_1, - asPtr: ?*anyopaque, - asDouble: f64, - asJSValue: @import("./bindings.zig").JSValue, -}; -pub const EncodedJSValue = union_EncodedJSValue; -pub export var ValueUndefined: EncodedJSValue = EncodedJSValue{ - .asInt64 = @bitCast(i64, @as(c_longlong, @as(c_int, 2) | @as(c_int, 8))), -}; -pub export var ValueTrue: EncodedJSValue = EncodedJSValue{ - .asInt64 = @bitCast(i64, @as(c_longlong, (@as(c_int, 2) | @as(c_int, 4)) | @as(c_int, 1))), -}; -pub const JSContext = ?*anyopaque; -pub inline fn JSVALUE_IS_CELL(arg_val: EncodedJSValue) @"bool" { - const val = arg_val; - return !(((@bitCast(c_ulonglong, val.asInt64) & @as(c_ulonglong, 18446181123756130304)) | @bitCast(c_ulonglong, @as(c_longlong, @as(c_int, 2)))) != 0); -} -pub inline fn JSVALUE_IS_INT32(arg_val: EncodedJSValue) @"bool" { - const val = arg_val; - return (@bitCast(c_ulonglong, val.asInt64) & @as(c_ulonglong, 18446181123756130304)) == @as(c_ulonglong, 18446181123756130304); -} -pub inline fn JSVALUE_IS_NUMBER(arg_val: EncodedJSValue) @"bool" { - const val = arg_val; - return (@bitCast(c_ulonglong, val.asInt64) & @as(c_ulonglong, 18446181123756130304)) != 0; -} -pub inline fn JSVALUE_TO_UINT64(arg_globalObject: ?*anyopaque, arg_value: EncodedJSValue) u64 { - var globalObject = arg_globalObject; - var value = arg_value; - if (JSVALUE_IS_INT32(value)) { - return @bitCast(u64, @as(c_longlong, JSVALUE_TO_INT32(value))); - } - if (JSVALUE_IS_NUMBER(value)) { - return @floatToInt(u64, JSVALUE_TO_DOUBLE(value)); - } - return JSVALUE_TO_UINT64_SLOW(globalObject, value); -} -pub inline fn JSVALUE_TO_INT64(arg_value: EncodedJSValue) i64 { - const value = arg_value; - if (JSVALUE_IS_INT32(value)) { - return @bitCast(i64, @as(c_longlong, JSVALUE_TO_INT32(value))); - } - if (JSVALUE_IS_NUMBER(value)) { - return @floatToInt(i64, JSVALUE_TO_DOUBLE(value)); - } - return JSVALUE_TO_INT64_SLOW(value); -} -pub extern fn JSVALUE_TO_UINT64_SLOW(globalObject: ?*anyopaque, value: EncodedJSValue) u64; -pub extern fn JSVALUE_TO_INT64_SLOW(value: EncodedJSValue) i64; -pub extern fn UINT64_TO_JSVALUE_SLOW(globalObject: ?*anyopaque, val: u64) EncodedJSValue; -pub extern fn INT64_TO_JSVALUE_SLOW(globalObject: ?*anyopaque, val: i64) EncodedJSValue; -pub inline fn UINT64_TO_JSVALUE(arg_globalObject: ?*anyopaque, arg_val: u64) EncodedJSValue { - var globalObject = arg_globalObject; - const val = arg_val; - if (val < @bitCast(c_ulonglong, @as(c_longlong, @as(c_long, 2147483648)))) { - return INT32_TO_JSVALUE(@bitCast(i32, @truncate(c_uint, val))); - } - if (val < @bitCast(c_ulonglong, @as(c_longlong, @as(c_long, 9007199254740991)))) { - return DOUBLE_TO_JSVALUE(@intToFloat(f64, val)); - } - return UINT64_TO_JSVALUE_SLOW(globalObject, val); -} -pub inline fn INT64_TO_JSVALUE(arg_globalObject: ?*anyopaque, arg_val: i64) EncodedJSValue { - var globalObject = arg_globalObject; - var val = arg_val; - if ((val >= @bitCast(c_longlong, @as(c_longlong, -@as(c_long, 2147483648)))) and (val <= @bitCast(c_longlong, @as(c_longlong, @as(c_long, 2147483648))))) { - return INT32_TO_JSVALUE(@bitCast(i32, @truncate(c_int, val))); - } - if ((val >= @bitCast(c_longlong, @as(c_longlong, -@as(c_long, 9007199254740991)))) and (val <= @bitCast(c_longlong, @as(c_longlong, @as(c_long, 9007199254740991))))) { - return DOUBLE_TO_JSVALUE(@intToFloat(f64, val)); - } - return INT64_TO_JSVALUE_SLOW(globalObject, val); -} -pub inline fn INT32_TO_JSVALUE(arg_val: i32) EncodedJSValue { - return .{ .asInt64 = @bitCast(i64, @as(c_ulonglong, 18446181123756130304) | @bitCast(c_ulonglong, @as(c_ulonglong, @bitCast(u32, arg_val)))) }; -} -pub inline fn DOUBLE_TO_JSVALUE(arg_val: f64) EncodedJSValue { - var res: EncodedJSValue = .{ .asDouble = arg_val }; - res.asInt64 += @as(c_longlong, 1) << @intCast(@import("std").math.Log2Int(c_longlong), 49); - return res; -} -pub inline fn FLOAT_TO_JSVALUE(arg_val: f32) EncodedJSValue { - var val = arg_val; - return DOUBLE_TO_JSVALUE(@floatCast(f64, val)); -} -pub inline fn BOOLEAN_TO_JSVALUE(arg_val: @"bool") EncodedJSValue { - var val = arg_val; - var res: EncodedJSValue = undefined; - res.asInt64 = @bitCast(i64, @as(c_longlong, if (@as(c_int, @boolToInt(val)) != 0) (@as(c_int, 2) | @as(c_int, 4)) | @as(c_int, 1) else (@as(c_int, 2) | @as(c_int, 4)) | @as(c_int, 0))); - return res; -} -pub inline fn PTR_TO_JSVALUE(arg_ptr: ?*anyopaque) EncodedJSValue { - var ptr = arg_ptr; - var val: EncodedJSValue = undefined; - val.asInt64 = @intCast(i64, @ptrToInt(ptr)) + (@as(c_longlong, 1) << @intCast(@import("std").math.Log2Int(c_longlong), 49)); - return val; -} -pub inline fn JSVALUE_TO_PTR(arg_val: EncodedJSValue) ?*anyopaque { - var val = arg_val; - return @intToPtr(?*anyopaque, val.asInt64 - (@as(c_longlong, 1) << @intCast(@import("std").math.Log2Int(c_longlong), 49))); -} -pub inline fn JSVALUE_TO_INT32(arg_val: EncodedJSValue) i32 { - var val = arg_val; - return @bitCast(i32, @truncate(c_int, val.asInt64)); -} -pub inline fn JSVALUE_TO_FLOAT(arg_val: EncodedJSValue) f32 { - var val = arg_val; - return @floatCast(f32, JSVALUE_TO_DOUBLE(val)); -} -pub inline fn JSVALUE_TO_DOUBLE(arg_val: EncodedJSValue) f64 { - var val = arg_val; - val.asInt64 -= @as(c_longlong, 1) << @intCast(@import("std").math.Log2Int(c_longlong), 49); - return val.asDouble; -} -pub inline fn JSVALUE_TO_BOOL(arg_val: EncodedJSValue) @"bool" { - var val = arg_val; - return val.asInt64 == @bitCast(c_longlong, @as(c_longlong, (@as(c_int, 2) | @as(c_int, 4)) | @as(c_int, 1))); -} -pub extern fn JSFunctionCall(globalObject: ?*anyopaque, callFrame: ?*anyopaque) ?*anyopaque; -pub const __block = @compileError("unable to translate macro: undefined identifier `__attribute__`"); // (no file):27:9 -pub const __INTMAX_C_SUFFIX__ = @compileError("unable to translate macro: undefined identifier `L`"); // (no file):69:9 -pub const __UINTMAX_C_SUFFIX__ = @compileError("unable to translate macro: undefined identifier `UL`"); // (no file):75:9 -pub const __FLT16_DENORM_MIN__ = @compileError("unable to translate C expr: unexpected token 'IntegerLiteral'"); // (no file):106:9 -pub const __FLT16_EPSILON__ = @compileError("unable to translate C expr: unexpected token 'IntegerLiteral'"); // (no file):110:9 -pub const __FLT16_MAX__ = @compileError("unable to translate C expr: unexpected token 'IntegerLiteral'"); // (no file):116:9 -pub const __FLT16_MIN__ = @compileError("unable to translate C expr: unexpected token 'IntegerLiteral'"); // (no file):119:9 -pub const __INT64_C_SUFFIX__ = @compileError("unable to translate macro: undefined identifier `LL`"); // (no file):179:9 -pub const __UINT32_C_SUFFIX__ = @compileError("unable to translate macro: undefined identifier `U`"); // (no file):201:9 -pub const __UINT64_C_SUFFIX__ = @compileError("unable to translate macro: undefined identifier `ULL`"); // (no file):209:9 -pub const __USER_LABEL_PREFIX__ = @compileError("unable to translate macro: undefined identifier `_`"); // (no file):292:9 -pub const __nonnull = @compileError("unable to translate macro: undefined identifier `_Nonnull`"); // (no file):322:9 -pub const __null_unspecified = @compileError("unable to translate macro: undefined identifier `_Null_unspecified`"); // (no file):323:9 -pub const __nullable = @compileError("unable to translate macro: undefined identifier `_Nullable`"); // (no file):324:9 -pub const __weak = @compileError("unable to translate macro: undefined identifier `__attribute__`"); // (no file):382:9 -pub const LOAD_ARGUMENTS_FROM_CALL_FRAME = @compileError("unable to translate macro: undefined identifier `argsPtr`"); // /Users/jarred/Code/bun/src/javascript/jsc/api/FFI.h:95:9 -pub const __llvm__ = @as(c_int, 1); -pub const __clang__ = @as(c_int, 1); -pub const __clang_major__ = @as(c_int, 13); -pub const __clang_minor__ = @as(c_int, 0); -pub const __clang_patchlevel__ = @as(c_int, 1); -pub const __clang_version__ = "13.0.1 "; -pub const __GNUC__ = @as(c_int, 4); -pub const __GNUC_MINOR__ = @as(c_int, 2); -pub const __GNUC_PATCHLEVEL__ = @as(c_int, 1); -pub const __GXX_ABI_VERSION = @as(c_int, 1002); -pub const __ATOMIC_RELAXED = @as(c_int, 0); -pub const __ATOMIC_CONSUME = @as(c_int, 1); -pub const __ATOMIC_ACQUIRE = @as(c_int, 2); -pub const __ATOMIC_RELEASE = @as(c_int, 3); -pub const __ATOMIC_ACQ_REL = @as(c_int, 4); -pub const __ATOMIC_SEQ_CST = @as(c_int, 5); -pub const __OPENCL_MEMORY_SCOPE_WORK_ITEM = @as(c_int, 0); -pub const __OPENCL_MEMORY_SCOPE_WORK_GROUP = @as(c_int, 1); -pub const __OPENCL_MEMORY_SCOPE_DEVICE = @as(c_int, 2); -pub const __OPENCL_MEMORY_SCOPE_ALL_SVM_DEVICES = @as(c_int, 3); -pub const __OPENCL_MEMORY_SCOPE_SUB_GROUP = @as(c_int, 4); -pub const __PRAGMA_REDEFINE_EXTNAME = @as(c_int, 1); -pub const __VERSION__ = "Homebrew Clang 13.0.1"; -pub const __OBJC_BOOL_IS_BOOL = @as(c_int, 1); -pub const __CONSTANT_CFSTRINGS__ = @as(c_int, 1); -pub const __BLOCKS__ = @as(c_int, 1); -pub const __clang_literal_encoding__ = "UTF-8"; -pub const __clang_wide_literal_encoding__ = "UTF-32"; -pub const __OPTIMIZE__ = @as(c_int, 1); -pub const __ORDER_LITTLE_ENDIAN__ = @as(c_int, 1234); -pub const __ORDER_BIG_ENDIAN__ = @as(c_int, 4321); -pub const __ORDER_PDP_ENDIAN__ = @as(c_int, 3412); -pub const __BYTE_ORDER__ = __ORDER_LITTLE_ENDIAN__; -pub const __LITTLE_ENDIAN__ = @as(c_int, 1); -pub const _LP64 = @as(c_int, 1); -pub const __LP64__ = @as(c_int, 1); -pub const __CHAR_BIT__ = @as(c_int, 8); -pub const __SCHAR_MAX__ = @as(c_int, 127); -pub const __SHRT_MAX__ = @as(c_int, 32767); -pub const __INT_MAX__ = @import("std").zig.c_translation.promoteIntLiteral(c_int, 2147483647, .decimal); -pub const __LONG_MAX__ = @import("std").zig.c_translation.promoteIntLiteral(c_long, 9223372036854775807, .decimal); -pub const __LONG_LONG_MAX__ = @as(c_longlong, 9223372036854775807); -pub const __WCHAR_MAX__ = @import("std").zig.c_translation.promoteIntLiteral(c_int, 2147483647, .decimal); -pub const __WINT_MAX__ = @import("std").zig.c_translation.promoteIntLiteral(c_int, 2147483647, .decimal); -pub const __INTMAX_MAX__ = @import("std").zig.c_translation.promoteIntLiteral(c_long, 9223372036854775807, .decimal); -pub const __SIZE_MAX__ = @import("std").zig.c_translation.promoteIntLiteral(c_ulong, 18446744073709551615, .decimal); -pub const __UINTMAX_MAX__ = @import("std").zig.c_translation.promoteIntLiteral(c_ulong, 18446744073709551615, .decimal); -pub const __PTRDIFF_MAX__ = @import("std").zig.c_translation.promoteIntLiteral(c_long, 9223372036854775807, .decimal); -pub const __INTPTR_MAX__ = @import("std").zig.c_translation.promoteIntLiteral(c_long, 9223372036854775807, .decimal); -pub const __UINTPTR_MAX__ = @import("std").zig.c_translation.promoteIntLiteral(c_ulong, 18446744073709551615, .decimal); -pub const __SIZEOF_DOUBLE__ = @as(c_int, 8); -pub const __SIZEOF_FLOAT__ = @as(c_int, 4); -pub const __SIZEOF_INT__ = @as(c_int, 4); -pub const __SIZEOF_LONG__ = @as(c_int, 8); -pub const __SIZEOF_LONG_DOUBLE__ = @as(c_int, 8); -pub const __SIZEOF_LONG_LONG__ = @as(c_int, 8); -pub const __SIZEOF_POINTER__ = @as(c_int, 8); -pub const __SIZEOF_SHORT__ = @as(c_int, 2); -pub const __SIZEOF_PTRDIFF_T__ = @as(c_int, 8); -pub const __SIZEOF_SIZE_T__ = @as(c_int, 8); -pub const __SIZEOF_WCHAR_T__ = @as(c_int, 4); -pub const __SIZEOF_WINT_T__ = @as(c_int, 4); -pub const __SIZEOF_INT128__ = @as(c_int, 16); -pub const __INTMAX_TYPE__ = c_long; -pub const __INTMAX_FMTd__ = "ld"; -pub const __INTMAX_FMTi__ = "li"; -pub const __UINTMAX_TYPE__ = c_ulong; -pub const __UINTMAX_FMTo__ = "lo"; -pub const __UINTMAX_FMTu__ = "lu"; -pub const __UINTMAX_FMTx__ = "lx"; -pub const __UINTMAX_FMTX__ = "lX"; -pub const __INTMAX_WIDTH__ = @as(c_int, 64); -pub const __PTRDIFF_TYPE__ = c_long; -pub const __PTRDIFF_FMTd__ = "ld"; -pub const __PTRDIFF_FMTi__ = "li"; -pub const __PTRDIFF_WIDTH__ = @as(c_int, 64); -pub const __INTPTR_TYPE__ = c_long; -pub const __INTPTR_FMTd__ = "ld"; -pub const __INTPTR_FMTi__ = "li"; -pub const __INTPTR_WIDTH__ = @as(c_int, 64); -pub const __SIZE_TYPE__ = c_ulong; -pub const __SIZE_FMTo__ = "lo"; -pub const __SIZE_FMTu__ = "lu"; -pub const __SIZE_FMTx__ = "lx"; -pub const __SIZE_FMTX__ = "lX"; -pub const __SIZE_WIDTH__ = @as(c_int, 64); -pub const __WCHAR_TYPE__ = c_int; -pub const __WCHAR_WIDTH__ = @as(c_int, 32); -pub const __WINT_TYPE__ = c_int; -pub const __WINT_WIDTH__ = @as(c_int, 32); -pub const __SIG_ATOMIC_WIDTH__ = @as(c_int, 32); -pub const __SIG_ATOMIC_MAX__ = @import("std").zig.c_translation.promoteIntLiteral(c_int, 2147483647, .decimal); -pub const __CHAR16_TYPE__ = c_ushort; -pub const __CHAR32_TYPE__ = c_uint; -pub const __UINTMAX_WIDTH__ = @as(c_int, 64); -pub const __UINTPTR_TYPE__ = c_ulong; -pub const __UINTPTR_FMTo__ = "lo"; -pub const __UINTPTR_FMTu__ = "lu"; -pub const __UINTPTR_FMTx__ = "lx"; -pub const __UINTPTR_FMTX__ = "lX"; -pub const __UINTPTR_WIDTH__ = @as(c_int, 64); -pub const __FLT16_HAS_DENORM__ = @as(c_int, 1); -pub const __FLT16_DIG__ = @as(c_int, 3); -pub const __FLT16_DECIMAL_DIG__ = @as(c_int, 5); -pub const __FLT16_HAS_INFINITY__ = @as(c_int, 1); -pub const __FLT16_HAS_QUIET_NAN__ = @as(c_int, 1); -pub const __FLT16_MANT_DIG__ = @as(c_int, 11); -pub const __FLT16_MAX_10_EXP__ = @as(c_int, 4); -pub const __FLT16_MAX_EXP__ = @as(c_int, 16); -pub const __FLT16_MIN_10_EXP__ = -@as(c_int, 4); -pub const __FLT16_MIN_EXP__ = -@as(c_int, 13); -pub const __FLT_DENORM_MIN__ = @as(f32, 1.40129846e-45); -pub const __FLT_HAS_DENORM__ = @as(c_int, 1); -pub const __FLT_DIG__ = @as(c_int, 6); -pub const __FLT_DECIMAL_DIG__ = @as(c_int, 9); -pub const __FLT_EPSILON__ = @as(f32, 1.19209290e-7); -pub const __FLT_HAS_INFINITY__ = @as(c_int, 1); -pub const __FLT_HAS_QUIET_NAN__ = @as(c_int, 1); -pub const __FLT_MANT_DIG__ = @as(c_int, 24); -pub const __FLT_MAX_10_EXP__ = @as(c_int, 38); -pub const __FLT_MAX_EXP__ = @as(c_int, 128); -pub const __FLT_MAX__ = @as(f32, 3.40282347e+38); -pub const __FLT_MIN_10_EXP__ = -@as(c_int, 37); -pub const __FLT_MIN_EXP__ = -@as(c_int, 125); -pub const __FLT_MIN__ = @as(f32, 1.17549435e-38); -pub const __DBL_DENORM_MIN__ = 4.9406564584124654e-324; -pub const __DBL_HAS_DENORM__ = @as(c_int, 1); -pub const __DBL_DIG__ = @as(c_int, 15); -pub const __DBL_DECIMAL_DIG__ = @as(c_int, 17); -pub const __DBL_EPSILON__ = 2.2204460492503131e-16; -pub const __DBL_HAS_INFINITY__ = @as(c_int, 1); -pub const __DBL_HAS_QUIET_NAN__ = @as(c_int, 1); -pub const __DBL_MANT_DIG__ = @as(c_int, 53); -pub const __DBL_MAX_10_EXP__ = @as(c_int, 308); -pub const __DBL_MAX_EXP__ = @as(c_int, 1024); -pub const __DBL_MAX__ = 1.7976931348623157e+308; -pub const __DBL_MIN_10_EXP__ = -@as(c_int, 307); -pub const __DBL_MIN_EXP__ = -@as(c_int, 1021); -pub const __DBL_MIN__ = 2.2250738585072014e-308; -pub const __LDBL_DENORM_MIN__ = @as(c_longdouble, 4.9406564584124654e-324); -pub const __LDBL_HAS_DENORM__ = @as(c_int, 1); -pub const __LDBL_DIG__ = @as(c_int, 15); -pub const __LDBL_DECIMAL_DIG__ = @as(c_int, 17); -pub const __LDBL_EPSILON__ = @as(c_longdouble, 2.2204460492503131e-16); -pub const __LDBL_HAS_INFINITY__ = @as(c_int, 1); -pub const __LDBL_HAS_QUIET_NAN__ = @as(c_int, 1); -pub const __LDBL_MANT_DIG__ = @as(c_int, 53); -pub const __LDBL_MAX_10_EXP__ = @as(c_int, 308); -pub const __LDBL_MAX_EXP__ = @as(c_int, 1024); -pub const __LDBL_MAX__ = @as(c_longdouble, 1.7976931348623157e+308); -pub const __LDBL_MIN_10_EXP__ = -@as(c_int, 307); -pub const __LDBL_MIN_EXP__ = -@as(c_int, 1021); -pub const __LDBL_MIN__ = @as(c_longdouble, 2.2250738585072014e-308); -pub const __POINTER_WIDTH__ = @as(c_int, 64); -pub const __BIGGEST_ALIGNMENT__ = @as(c_int, 8); -pub const __INT8_TYPE__ = i8; -pub const __INT8_FMTd__ = "hhd"; -pub const __INT8_FMTi__ = "hhi"; -pub const __INT8_C_SUFFIX__ = ""; -pub const __INT16_TYPE__ = c_short; -pub const __INT16_FMTd__ = "hd"; -pub const __INT16_FMTi__ = "hi"; -pub const __INT16_C_SUFFIX__ = ""; -pub const __INT32_TYPE__ = c_int; -pub const __INT32_FMTd__ = "d"; -pub const __INT32_FMTi__ = "i"; -pub const __INT32_C_SUFFIX__ = ""; -pub const __INT64_TYPE__ = c_longlong; -pub const __INT64_FMTd__ = "lld"; -pub const __INT64_FMTi__ = "lli"; -pub const __UINT8_TYPE__ = u8; -pub const __UINT8_FMTo__ = "hho"; -pub const __UINT8_FMTu__ = "hhu"; -pub const __UINT8_FMTx__ = "hhx"; -pub const __UINT8_FMTX__ = "hhX"; -pub const __UINT8_C_SUFFIX__ = ""; -pub const __UINT8_MAX__ = @as(c_int, 255); -pub const __INT8_MAX__ = @as(c_int, 127); -pub const __UINT16_TYPE__ = c_ushort; -pub const __UINT16_FMTo__ = "ho"; -pub const __UINT16_FMTu__ = "hu"; -pub const __UINT16_FMTx__ = "hx"; -pub const __UINT16_FMTX__ = "hX"; -pub const __UINT16_C_SUFFIX__ = ""; -pub const __UINT16_MAX__ = @import("std").zig.c_translation.promoteIntLiteral(c_int, 65535, .decimal); -pub const __INT16_MAX__ = @as(c_int, 32767); -pub const __UINT32_TYPE__ = c_uint; -pub const __UINT32_FMTo__ = "o"; -pub const __UINT32_FMTu__ = "u"; -pub const __UINT32_FMTx__ = "x"; -pub const __UINT32_FMTX__ = "X"; -pub const __UINT32_MAX__ = @import("std").zig.c_translation.promoteIntLiteral(c_uint, 4294967295, .decimal); -pub const __INT32_MAX__ = @import("std").zig.c_translation.promoteIntLiteral(c_int, 2147483647, .decimal); -pub const __UINT64_TYPE__ = c_ulonglong; -pub const __UINT64_FMTo__ = "llo"; -pub const __UINT64_FMTu__ = "llu"; -pub const __UINT64_FMTx__ = "llx"; -pub const __UINT64_FMTX__ = "llX"; -pub const __UINT64_MAX__ = @as(c_ulonglong, 18446744073709551615); -pub const __INT64_MAX__ = @as(c_longlong, 9223372036854775807); -pub const __INT_LEAST8_TYPE__ = i8; -pub const __INT_LEAST8_MAX__ = @as(c_int, 127); -pub const __INT_LEAST8_FMTd__ = "hhd"; -pub const __INT_LEAST8_FMTi__ = "hhi"; -pub const __UINT_LEAST8_TYPE__ = u8; -pub const __UINT_LEAST8_MAX__ = @as(c_int, 255); -pub const __UINT_LEAST8_FMTo__ = "hho"; -pub const __UINT_LEAST8_FMTu__ = "hhu"; -pub const __UINT_LEAST8_FMTx__ = "hhx"; -pub const __UINT_LEAST8_FMTX__ = "hhX"; -pub const __INT_LEAST16_TYPE__ = c_short; -pub const __INT_LEAST16_MAX__ = @as(c_int, 32767); -pub const __INT_LEAST16_FMTd__ = "hd"; -pub const __INT_LEAST16_FMTi__ = "hi"; -pub const __UINT_LEAST16_TYPE__ = c_ushort; -pub const __UINT_LEAST16_MAX__ = @import("std").zig.c_translation.promoteIntLiteral(c_int, 65535, .decimal); -pub const __UINT_LEAST16_FMTo__ = "ho"; -pub const __UINT_LEAST16_FMTu__ = "hu"; -pub const __UINT_LEAST16_FMTx__ = "hx"; -pub const __UINT_LEAST16_FMTX__ = "hX"; -pub const __INT_LEAST32_TYPE__ = c_int; -pub const __INT_LEAST32_MAX__ = @import("std").zig.c_translation.promoteIntLiteral(c_int, 2147483647, .decimal); -pub const __INT_LEAST32_FMTd__ = "d"; -pub const __INT_LEAST32_FMTi__ = "i"; -pub const __UINT_LEAST32_TYPE__ = c_uint; -pub const __UINT_LEAST32_MAX__ = @import("std").zig.c_translation.promoteIntLiteral(c_uint, 4294967295, .decimal); -pub const __UINT_LEAST32_FMTo__ = "o"; -pub const __UINT_LEAST32_FMTu__ = "u"; -pub const __UINT_LEAST32_FMTx__ = "x"; -pub const __UINT_LEAST32_FMTX__ = "X"; -pub const __INT_LEAST64_TYPE__ = c_longlong; -pub const __INT_LEAST64_MAX__ = @as(c_longlong, 9223372036854775807); -pub const __INT_LEAST64_FMTd__ = "lld"; -pub const __INT_LEAST64_FMTi__ = "lli"; -pub const __UINT_LEAST64_TYPE__ = c_ulonglong; -pub const __UINT_LEAST64_MAX__ = @as(c_ulonglong, 18446744073709551615); -pub const __UINT_LEAST64_FMTo__ = "llo"; -pub const __UINT_LEAST64_FMTu__ = "llu"; -pub const __UINT_LEAST64_FMTx__ = "llx"; -pub const __UINT_LEAST64_FMTX__ = "llX"; -pub const __INT_FAST8_TYPE__ = i8; -pub const __INT_FAST8_MAX__ = @as(c_int, 127); -pub const __INT_FAST8_FMTd__ = "hhd"; -pub const __INT_FAST8_FMTi__ = "hhi"; -pub const __UINT_FAST8_TYPE__ = u8; -pub const __UINT_FAST8_MAX__ = @as(c_int, 255); -pub const __UINT_FAST8_FMTo__ = "hho"; -pub const __UINT_FAST8_FMTu__ = "hhu"; -pub const __UINT_FAST8_FMTx__ = "hhx"; -pub const __UINT_FAST8_FMTX__ = "hhX"; -pub const __INT_FAST16_TYPE__ = c_short; -pub const __INT_FAST16_MAX__ = @as(c_int, 32767); -pub const __INT_FAST16_FMTd__ = "hd"; -pub const __INT_FAST16_FMTi__ = "hi"; -pub const __UINT_FAST16_TYPE__ = c_ushort; -pub const __UINT_FAST16_MAX__ = @import("std").zig.c_translation.promoteIntLiteral(c_int, 65535, .decimal); -pub const __UINT_FAST16_FMTo__ = "ho"; -pub const __UINT_FAST16_FMTu__ = "hu"; -pub const __UINT_FAST16_FMTx__ = "hx"; -pub const __UINT_FAST16_FMTX__ = "hX"; -pub const __INT_FAST32_TYPE__ = c_int; -pub const __INT_FAST32_MAX__ = @import("std").zig.c_translation.promoteIntLiteral(c_int, 2147483647, .decimal); -pub const __INT_FAST32_FMTd__ = "d"; -pub const __INT_FAST32_FMTi__ = "i"; -pub const __UINT_FAST32_TYPE__ = c_uint; -pub const __UINT_FAST32_MAX__ = @import("std").zig.c_translation.promoteIntLiteral(c_uint, 4294967295, .decimal); -pub const __UINT_FAST32_FMTo__ = "o"; -pub const __UINT_FAST32_FMTu__ = "u"; -pub const __UINT_FAST32_FMTx__ = "x"; -pub const __UINT_FAST32_FMTX__ = "X"; -pub const __INT_FAST64_TYPE__ = c_longlong; -pub const __INT_FAST64_MAX__ = @as(c_longlong, 9223372036854775807); -pub const __INT_FAST64_FMTd__ = "lld"; -pub const __INT_FAST64_FMTi__ = "lli"; -pub const __UINT_FAST64_TYPE__ = c_ulonglong; -pub const __UINT_FAST64_MAX__ = @as(c_ulonglong, 18446744073709551615); -pub const __UINT_FAST64_FMTo__ = "llo"; -pub const __UINT_FAST64_FMTu__ = "llu"; -pub const __UINT_FAST64_FMTx__ = "llx"; -pub const __UINT_FAST64_FMTX__ = "llX"; -pub const __FINITE_MATH_ONLY__ = @as(c_int, 0); -pub const __GNUC_STDC_INLINE__ = @as(c_int, 1); -pub const __GCC_ATOMIC_TEST_AND_SET_TRUEVAL = @as(c_int, 1); -pub const __CLANG_ATOMIC_BOOL_LOCK_FREE = @as(c_int, 2); -pub const __CLANG_ATOMIC_CHAR_LOCK_FREE = @as(c_int, 2); -pub const __CLANG_ATOMIC_CHAR16_T_LOCK_FREE = @as(c_int, 2); -pub const __CLANG_ATOMIC_CHAR32_T_LOCK_FREE = @as(c_int, 2); -pub const __CLANG_ATOMIC_WCHAR_T_LOCK_FREE = @as(c_int, 2); -pub const __CLANG_ATOMIC_SHORT_LOCK_FREE = @as(c_int, 2); -pub const __CLANG_ATOMIC_INT_LOCK_FREE = @as(c_int, 2); -pub const __CLANG_ATOMIC_LONG_LOCK_FREE = @as(c_int, 2); -pub const __CLANG_ATOMIC_LLONG_LOCK_FREE = @as(c_int, 2); -pub const __CLANG_ATOMIC_POINTER_LOCK_FREE = @as(c_int, 2); -pub const __GCC_ATOMIC_BOOL_LOCK_FREE = @as(c_int, 2); -pub const __GCC_ATOMIC_CHAR_LOCK_FREE = @as(c_int, 2); -pub const __GCC_ATOMIC_CHAR16_T_LOCK_FREE = @as(c_int, 2); -pub const __GCC_ATOMIC_CHAR32_T_LOCK_FREE = @as(c_int, 2); -pub const __GCC_ATOMIC_WCHAR_T_LOCK_FREE = @as(c_int, 2); -pub const __GCC_ATOMIC_SHORT_LOCK_FREE = @as(c_int, 2); -pub const __GCC_ATOMIC_INT_LOCK_FREE = @as(c_int, 2); -pub const __GCC_ATOMIC_LONG_LOCK_FREE = @as(c_int, 2); -pub const __GCC_ATOMIC_LLONG_LOCK_FREE = @as(c_int, 2); -pub const __GCC_ATOMIC_POINTER_LOCK_FREE = @as(c_int, 2); -pub const __PIC__ = @as(c_int, 2); -pub const __pic__ = @as(c_int, 2); -pub const __FLT_EVAL_METHOD__ = @as(c_int, 0); -pub const __FLT_RADIX__ = @as(c_int, 2); -pub const __DECIMAL_DIG__ = __LDBL_DECIMAL_DIG__; -pub const __SSP_STRONG__ = @as(c_int, 2); -pub const __AARCH64EL__ = @as(c_int, 1); -pub const __aarch64__ = @as(c_int, 1); -pub const __AARCH64_CMODEL_SMALL__ = @as(c_int, 1); -pub const __ARM_ACLE = @as(c_int, 200); -pub const __ARM_ARCH = @as(c_int, 8); -pub const __ARM_ARCH_PROFILE = 'A'; -pub const __ARM_64BIT_STATE = @as(c_int, 1); -pub const __ARM_PCS_AAPCS64 = @as(c_int, 1); -pub const __ARM_ARCH_ISA_A64 = @as(c_int, 1); -pub const __ARM_FEATURE_CLZ = @as(c_int, 1); -pub const __ARM_FEATURE_FMA = @as(c_int, 1); -pub const __ARM_FEATURE_LDREX = @as(c_int, 0xF); -pub const __ARM_FEATURE_IDIV = @as(c_int, 1); -pub const __ARM_FEATURE_DIV = @as(c_int, 1); -pub const __ARM_FEATURE_NUMERIC_MAXMIN = @as(c_int, 1); -pub const __ARM_FEATURE_DIRECTED_ROUNDING = @as(c_int, 1); -pub const __ARM_ALIGN_MAX_STACK_PWR = @as(c_int, 4); -pub const __ARM_FP = @as(c_int, 0xE); -pub const __ARM_FP16_FORMAT_IEEE = @as(c_int, 1); -pub const __ARM_FP16_ARGS = @as(c_int, 1); -pub const __ARM_SIZEOF_WCHAR_T = @as(c_int, 4); -pub const __ARM_SIZEOF_MINIMAL_ENUM = @as(c_int, 4); -pub const __ARM_NEON = @as(c_int, 1); -pub const __ARM_NEON_FP = @as(c_int, 0xE); -pub const __ARM_FEATURE_CRC32 = @as(c_int, 1); -pub const __ARM_FEATURE_CRYPTO = @as(c_int, 1); -pub const __ARM_FEATURE_AES = @as(c_int, 1); -pub const __ARM_FEATURE_SHA2 = @as(c_int, 1); -pub const __ARM_FEATURE_SHA3 = @as(c_int, 1); -pub const __ARM_FEATURE_SHA512 = @as(c_int, 1); -pub const __ARM_FEATURE_UNALIGNED = @as(c_int, 1); -pub const __ARM_FEATURE_FP16_VECTOR_ARITHMETIC = @as(c_int, 1); -pub const __ARM_FEATURE_FP16_SCALAR_ARITHMETIC = @as(c_int, 1); -pub const __ARM_FEATURE_DOTPROD = @as(c_int, 1); -pub const __ARM_FEATURE_ATOMICS = @as(c_int, 1); -pub const __ARM_FEATURE_FP16_FML = @as(c_int, 1); -pub const __ARM_FEATURE_COMPLEX = @as(c_int, 1); -pub const __ARM_FEATURE_JCVT = @as(c_int, 1); -pub const __ARM_FEATURE_QRDMX = @as(c_int, 1); -pub const __GCC_HAVE_SYNC_COMPARE_AND_SWAP_1 = @as(c_int, 1); -pub const __GCC_HAVE_SYNC_COMPARE_AND_SWAP_2 = @as(c_int, 1); -pub const __GCC_HAVE_SYNC_COMPARE_AND_SWAP_4 = @as(c_int, 1); -pub const __GCC_HAVE_SYNC_COMPARE_AND_SWAP_8 = @as(c_int, 1); -pub const __AARCH64_SIMD__ = @as(c_int, 1); -pub const __ARM64_ARCH_8__ = @as(c_int, 1); -pub const __ARM_NEON__ = @as(c_int, 1); -pub const __REGISTER_PREFIX__ = ""; -pub const __arm64 = @as(c_int, 1); -pub const __arm64__ = @as(c_int, 1); -pub const __APPLE_CC__ = @as(c_int, 6000); -pub const __APPLE__ = @as(c_int, 1); -pub const __STDC_NO_THREADS__ = @as(c_int, 1); -pub const __strong = ""; -pub const __unsafe_unretained = ""; -pub const __DYNAMIC__ = @as(c_int, 1); -pub const __ENVIRONMENT_MAC_OS_X_VERSION_MIN_REQUIRED__ = @import("std").zig.c_translation.promoteIntLiteral(c_int, 120400, .decimal); -pub const __MACH__ = @as(c_int, 1); -pub const __STDC__ = @as(c_int, 1); -pub const __STDC_HOSTED__ = @as(c_int, 1); -pub const __STDC_VERSION__ = @as(c_long, 201710); -pub const __STDC_UTF_16__ = @as(c_int, 1); -pub const __STDC_UTF_32__ = @as(c_int, 1); -pub const _DEBUG = @as(c_int, 1); -pub const __GCC_HAVE_DWARF2_CFI_ASM = @as(c_int, 1); -pub const IS_BIG_ENDIAN = @as(c_int, 0); -pub const USE_JSVALUE64 = @as(c_int, 1); -pub const USE_JSVALUE32_64 = @as(c_int, 0); -pub const @"true" = @as(c_int, 1); -pub const @"false" = @as(c_int, 0); -pub const DoubleEncodeOffsetBit = @as(c_int, 49); -pub const DoubleEncodeOffset = @as(c_longlong, 1) << DoubleEncodeOffsetBit; -pub const OtherTag = @as(c_int, 0x2); -pub const BoolTag = @as(c_int, 0x4); -pub const UndefinedTag = @as(c_int, 0x8); -pub const TagValueFalse = (OtherTag | BoolTag) | @"false"; -pub const TagValueTrue = (OtherTag | BoolTag) | @"true"; -pub const TagValueUndefined = OtherTag | UndefinedTag; -pub const TagValueNull = OtherTag; -pub const NotCellMask = NumberTag | OtherTag; -pub const MAX_INT32 = @import("std").zig.c_translation.promoteIntLiteral(c_int, 2147483648, .decimal); -pub const MAX_INT52 = @import("std").zig.c_translation.promoteIntLiteral(c_int, 9007199254740991, .decimal); -pub const NumberTag = @import("std").zig.c_translation.promoteIntLiteral(c_longlong, 0xfffe000000000000, .hexadecimal); |