Mercurial > hg > CbC > old > device
view mc-code-i64.c @ 935:7672a37e7545 default tip
Raspbery PI ARM support begin
| author | kono |
|---|---|
| date | Sat, 24 Dec 2016 03:02:57 +0000 |
| parents | 4a7eb50b4f17 |
| children |
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/* Micro Codu Generation Part for intel386 */ /************************************************************************ ** Copyright (C) 2006 Shinji Kono ** 連絡先: 琉球大学情報工学科 河野 真治 ** (E-Mail Address: kono@ie.u-ryukyu.ac.jp) ** ** このソースのいかなる複写,改変,修正も許諾します。ただし、 ** その際には、誰が貢献したを示すこの部分を残すこと。 ** 再配布や雑誌の付録などの問い合わせも必要ありません。 ** 営利利用も上記に反しない範囲で許可します。 ** バイナリの配布の際にはversion messageを保存することを条件とします。 ** このプログラムについては特に何の保証もしない、悪しからず。 ** ** Everyone is permitted to do anything on this program ** including copying, modifying, improving, ** as long as you don't try to pretend that you wrote it. ** i.e., the above copyright notice has to appear in all copies. ** Binary distribution requires original version messages. ** You don't have to ask before copying, redistribution or publishing. ** THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE. ***********************************************************************/ #include <stdio.h> #include "mc.h" #include "mc-parse.h" #include "mc-codegen.h" #include "mc-code.h" #include "mc-inline.h" #ifdef __APPLE__ #define USE_SSE2 #define USE_PIC #endif #if defined(__GNUC__) && __GNUC__ >= 4 #include "mc-include.c" static char *init_src0 = "\ typedef struct __builtin_va_list { \n\ long long_last; \n\ long float_first; \n\ long float_last; \n\ long stack_top; \n\ long arg; \n\ long top; \n\ } __builtin_va_list; \n\ \n\ #define __builtin_va_start(__ap0,v) \\\n\ { \\\n\ __builtin_va_list *__ap = &__ap0; \\\n\ long __top = __ap->top = (long)&__my_va_list; \\\n\ __ap->long_last = __top +8*6; \\\n\ __ap->float_first = __ap->long_last; \\\n\ __asm__ __volatile__(\" movq %%rbp, %0\" : \"=r\" __ap->stack_top);\\\n\ long __adr = (long)(&v) + sizeof(v); \\\n\ if (__adr >= __ap->stack_top) __ap->arg = __ap->float_first = __adr; \\\n\ if (__builtin_types_compatible_p(typeof(v),double)) \\\n\ __ap->float_first = __adr; \\\n\ __ap->arg = __adr; \\\n\ } \n\ \n\ #define __builtin_va_arg(__ap0,type) ({ \\\n\ __builtin_va_list *__ap = &__ap0; \\\n\ long __arg; \\\n\ if (__builtin_types_compatible_p(type,double) \\\n\ && __ap->float_first < __ap->stack_top) { \\\n\ __arg = __ap->float_first; \\\n\ __ap->float_first = __ap->float_first+8; \\\n\ if (__ap->float_first==__ap->float_last) \\\n\ __ap->float_first = __ap->stack_top+16;\\\n\ } else { \\\n\ __arg = __ap->arg; \\\n\ __ap->arg = __ap->arg+8; \\\n\ if (__ap->arg==__ap->long_last) \\\n\ __ap->arg = __ap->stack_top+16; \\\n\ } \\\n\ *((type *)(__arg)); \\\n\ }) \n\ \n" "\ #define __builtin_va_end(v)\n\ #define __inline inline \n\ #define __inline__ inline \n\ " #ifdef __llvm__ #ifdef __APPLE__ "\ #define OBJC_NEW_PROPERTIES 1\n\ #define _LP64 1\n\ #define __APPLE_CC__ 6000\n\ #define __APPLE__ 1\n\ #define __ATOMIC_ACQUIRE 2\n\ #define __ATOMIC_ACQ_REL 4\n\ #define __ATOMIC_CONSUME 1\n\ #define __ATOMIC_RELAXED 0\n\ #define __ATOMIC_RELEASE 3\n\ #define __ATOMIC_SEQ_CST 5\n\ // #define __BLOCKS__ 1\n\ #define __BYTE_ORDER__ __ORDER_LITTLE_ENDIAN__\n\ #define __CHAR16_TYPE__ unsigned short\n\ #define __CHAR32_TYPE__ unsigned int\n\ #define __CHAR_BIT__ 8\n\ #define __CONSTANT_CFSTRINGS__ 1\n\ #define __DBL_DENORM_MIN__ 4.9406564584124654e-324\n\ #define __DBL_DIG__ 15\n\ #define __DBL_EPSILON__ 2.2204460492503131e-16\n\ #define __DBL_HAS_DENORM__ 1\n\ #define __DBL_HAS_INFINITY__ 1\n\ #define __DBL_HAS_QUIET_NAN__ 1\n\ #define __DBL_MANT_DIG__ 53\n\ #define __DBL_MAX_10_EXP__ 308\n\ #define __DBL_MAX_EXP__ 1024\n\ #define __DBL_MAX__ 1.7976931348623157e+308\n\ #define __DBL_MIN_10_EXP__ (-307)\n\ #define __DBL_MIN_EXP__ (-1021)\n\ #define __DBL_MIN__ 2.2250738585072014e-308\n\ #define __DECIMAL_DIG__ 21\n\ #define __DYNAMIC__ 1\n\ #define __ENVIRONMENT_MAC_OS_X_VERSION_MIN_REQUIRED__ 1090\n\ #define __FINITE_MATH_ONLY__ 0\n\ #define __FLT_DENORM_MIN__ 1.40129846e-45F\n\ #define __FLT_DIG__ 6\n\ #define __FLT_EPSILON__ 1.19209290e-7F\n\ #define __FLT_EVAL_METHOD__ 0\n\ #define __FLT_HAS_DENORM__ 1\n\ #define __FLT_HAS_INFINITY__ 1\n\ #define __FLT_HAS_QUIET_NAN__ 1\n\ #define __FLT_MANT_DIG__ 24\n\ #define __FLT_MAX_10_EXP__ 38\n\ #define __FLT_MAX_EXP__ 128\n\ #define __FLT_MAX__ 3.40282347e+38F\n\ #define __FLT_MIN_10_EXP__ (-37)\n\ #define __FLT_MIN_EXP__ (-125)\n\ #define __FLT_MIN__ 1.17549435e-38F\n\ #define __FLT_RADIX__ 2\n\ #define __GCC_ATOMIC_BOOL_LOCK_FREE 2\n\ #define __GCC_ATOMIC_CHAR16_T_LOCK_FREE 2\n\ #define __GCC_ATOMIC_CHAR32_T_LOCK_FREE 2\n\ #define __GCC_ATOMIC_CHAR_LOCK_FREE 2\n\ #define __GCC_ATOMIC_INT_LOCK_FREE 2\n\ #define __GCC_ATOMIC_LLONG_LOCK_FREE 2\n\ #define __GCC_ATOMIC_LONG_LOCK_FREE 2\n\ #define __GCC_ATOMIC_POINTER_LOCK_FREE 2\n\ #define __GCC_ATOMIC_SHORT_LOCK_FREE 2\n\ #define __GCC_ATOMIC_TEST_AND_SET_TRUEVAL 1\n\ #define __GCC_ATOMIC_WCHAR_T_LOCK_FREE 2\n\ #define __GCC_HAVE_SYNC_COMPARE_AND_SWAP_1 1\n\ #define __GCC_HAVE_SYNC_COMPARE_AND_SWAP_16 1\n\ #define __GCC_HAVE_SYNC_COMPARE_AND_SWAP_2 1\n\ #define __GCC_HAVE_SYNC_COMPARE_AND_SWAP_4 1\n\ #define __GCC_HAVE_SYNC_COMPARE_AND_SWAP_8 1\n\ #define __GNUC_GNU_INLINE__ 1\n\ #define __GNUC_MINOR__ 2\n\ #define __GNUC_PATCHLEVEL__ 1\n\ #define __GNUC__ 4\n\ #define __GXX_ABI_VERSION 1002\n\ #define __GXX_RTTI 1\n\ #define __INT16_TYPE__ short\n\ #define __INT32_TYPE__ int\n\ #define __INT64_C_SUFFIX__ LL\n\ #define __INT64_TYPE__ long long int\n\ #define __INT8_TYPE__ char\n\ #define __INTMAX_MAX__ 9223372036854775807L\n\ #define __INTMAX_TYPE__ long int\n\ #define __INTMAX_WIDTH__ 64\n\ #define __INTPTR_TYPE__ long int\n\ #define __INTPTR_WIDTH__ 64\n\ #define __INT_MAX__ 2147483647\n\ #define __LDBL_DENORM_MIN__ 3.64519953188247460253e-4951L\n\ #define __LDBL_DIG__ 18\n\ #define __LDBL_EPSILON__ 1.08420217248550443401e-19L\n\ #define __LDBL_HAS_DENORM__ 1\n\ #define __LDBL_HAS_INFINITY__ 1\n\ #define __LDBL_HAS_QUIET_NAN__ 1\n\ #define __LDBL_MANT_DIG__ 64\n\ #define __LDBL_MAX_10_EXP__ 4932\n\ #define __LDBL_MAX_EXP__ 16384\n\ #define __LDBL_MAX__ 1.18973149535723176502e+4932L\n\ #define __LDBL_MIN_10_EXP__ (-4931)\n\ #define __LDBL_MIN_EXP__ (-16381)\n\ #define __LDBL_MIN__ 3.36210314311209350626e-4932L\n\ #define __LITTLE_ENDIAN__ 1\n\ #define __LONG_LONG_MAX__ 9223372036854775807LL\n\ #define __LONG_MAX__ 9223372036854775807L\n\ #define __LP64__ 1\n\ #define __MACH__ 1\n\ #define __MMX__ 1\n\ #define __NO_INLINE__ 1\n\ #define __NO_MATH_INLINES 1\n\ #define __ORDER_BIG_ENDIAN__ 4321\n\ #define __ORDER_LITTLE_ENDIAN__ 1234\n\ #define __ORDER_PDP_ENDIAN__ 3412\n\ #define __PIC__ 2\n\ #define __POINTER_WIDTH__ 64\n\ #define __PRAGMA_REDEFINE_EXTNAME 1\n\ #define __PTRDIFF_TYPE__ long int\n\ #define __PTRDIFF_WIDTH__ 64\n\ #define __REGISTER_PREFIX__ \n\ #define __SCHAR_MAX__ 127\n\ #define __SHRT_MAX__ 32767\n\ #define __SIG_ATOMIC_WIDTH__ 32\n\ #define __SIZEOF_DOUBLE__ 8\n\ #define __SIZEOF_FLOAT__ 4\n\ #define __SIZEOF_INT128__ 16\n\ #define __SIZEOF_INT__ 4\n\ #define __SIZEOF_LONG_DOUBLE__ 16\n\ #define __SIZEOF_LONG_LONG__ 8\n\ #define __SIZEOF_LONG__ 8\n\ #define __SIZEOF_POINTER__ 8\n\ #define __SIZEOF_PTRDIFF_T__ 8\n\ #define __SIZEOF_SHORT__ 2\n\ #define __SIZEOF_SIZE_T__ 8\n\ #define __SIZEOF_WCHAR_T__ 4\n\ #define __SIZEOF_WINT_T__ 4\n\ #define __SIZE_MAX__ 18446744073709551615UL\n\ #define __SIZE_TYPE__ long unsigned int\n\ #define __SIZE_WIDTH__ 64\n\ #define __SSE2_MATH__ 1\n\ #define __SSE2__ 1\n\ #define __SSE3__ 1\n\ #define __SSE_MATH__ 1\n\ #define __SSE__ 1\n\ #define __SSP__ 1\n\ #define __SSSE3__ 1\n\ #define __STDC_HOSTED__ 1\n\ #define __STDC_UTF_16__ 1\n\ #define __STDC_UTF_32__ 1\n\ #define __STDC_VERSION__ 199901L\n\ #define __STDC__ 1\n\ #define __STRICT_ANSI__ 1\n\ #define __UINTMAX_TYPE__ long unsigned int\n\ #define __USER_LABEL_PREFIX__ _\n\ #define __VERSION__ \"4.2.1 Compatible Apple LLVM 5.1 (clang-503.0.38)\"\n\ #define __WCHAR_MAX__ 2147483647\n\ #define __WCHAR_TYPE__ int\n\ #define __WCHAR_WIDTH__ 32\n\ #define __WINT_TYPE__ int\n\ #define __WINT_WIDTH__ 32\n\ #define __amd64 1\n\ #define __amd64__ 1\n\ #define __apple_build_version__ 5030038\n\ #define __block __attribute__((__blocks__(byref)))\n\ #define __clang__ 1\n\ #define __clang_major__ 5\n\ #define __clang_minor__ 1\n\ #define __clang_patchlevel__ 0\n\ #define __clang_version__ \"5.1 (clang-503.0.38)\"\n\ #define __core2 1\n\ #define __core2__ 1\n\ #define __llvm__ 1\n\ #define __pic__ 2\n\ #define __strong \n\ #define __tune_core2__ 1\n\ #define __unsafe_unretained \n\ #define __weak __attribute__((objc_gc(weak)))\n\ #define __x86_64 1\n\ #define __x86_64__ 1\n\ " #endif #else #ifdef __APPLE__ "\ #define __DARWIN_1050(x) \n\ #define __AVAILABILITY_INTERNAL1000_DEP1050\n\ #define __OSX_AVAILABLE_BUT_DEPRECATED(a,b,c,d) \n\ #define __DBL_MIN_EXP__ (-1021) \n\ #define __FLT_MIN__ 1.17549435e-38F \n\ #define __DEC64_DEN__ 0.000000000000001E-383DD \n\ #define __CHAR_BIT__ 8 \n\ #define __WCHAR_MAX__ 2147483647 \n\ #define __DBL_DENORM_MIN__ 4.9406564584124654e-324 \n\ #define __FLT_EVAL_METHOD__ 0 \n\ #define __DBL_MIN_10_EXP__ (-307) \n\ #define __FINITE_MATH_ONLY__ 0 \n\ #define __DEC64_MAX_EXP__ 384 \n\ #define __SHRT_MAX__ 32767 \n\ #define __LDBL_MAX__ 1.18973149535723176502e+4932L \n\ #define __APPLE_CC__ 5664 \n\ #define __UINTMAX_TYPE__ long unsigned int \n\ #define __DEC32_EPSILON__ 1E-6DF \n\ #define __SCHAR_MAX__ 127 \n\ #define __USER_LABEL_PREFIX__ _ \n\ #define __STDC_HOSTED__ 1 \n\ #define __DEC64_MIN_EXP__ (-383) \n\ #define __DBL_DIG__ 15 \n\ #define __FLT_EPSILON__ 1.19209290e-7F \n\ #define __LDBL_MIN__ 3.36210314311209350626e-4932L \n\ #define __DEC32_MAX__ 9.999999E96DF \n\ #define __strong \n\ #define __DECIMAL_DIG__ 21 \n\ #define __LDBL_HAS_QUIET_NAN__ 1 \n\ #define __DYNAMIC__ 1 \n\ #define __GNUC__ 4 \n\ #define __MMX__ 1 \n\ #define __FLT_HAS_DENORM__ 1 \n\ #define __DBL_MAX__ 1.7976931348623157e+308 \n\ #define __DBL_HAS_INFINITY__ 1 \n\ #define __DEC32_MIN_EXP__ (-95) \n\ #define OBJC_NEW_PROPERTIES 1 \n\ #define __STRICT_ANSI__ 1 \n\ #define __LDBL_HAS_DENORM__ 1 \n\ #define __DEC32_MIN__ 1E-95DF \n\ #define __weak __attribute__((objc_gc(weak))) \n\ #define __DBL_MAX_EXP__ 1024 \n\ #define __DEC128_EPSILON__ 1E-33DL \n\ #define __SSE2_MATH__ 1 \n\ #define __amd64 1 \n\ #define __tune_core2__ 1 \n\ #define __LONG_LONG_MAX__ 9223372036854775807LL \n\ #define __GXX_ABI_VERSION 1002 \n\ #define __FLT_MIN_EXP__ (-125) \n\ #define __DBL_MIN__ 2.2250738585072014e-308 \n\ #define __LP64__ 1 \n\ #define __DBL_HAS_QUIET_NAN__ 1 \n\ #define __DEC128_MIN__ 1E-6143DL \n\ #define __REGISTER_PREFIX__ \n\ #define __DBL_HAS_DENORM__ 1 \n\ #define __NO_INLINE__ 1 \n\ #define __DEC_EVAL_METHOD__ 2 \n\ #define __DEC128_MAX__ 9.999999999999999999999999999999999E6144DL \n\ #define __FLT_MANT_DIG__ 24 \n\ #define __VERSION__ \"Micro C\" \n\ #define __DEC64_EPSILON__ 1E-15DD \n\ #define __DEC128_MIN_EXP__ (-6143) \n\ #define __ENVIRONMENT_MAC_OS_X_VERSION_MIN_REQUIRED__ 1064 \n\ #define __SIZE_TYPE__ long unsigned int \n\ #define __DEC32_DEN__ 0.000001E-95DF \n\ #define __FLT_RADIX__ 2 \n\ #define __LDBL_EPSILON__ 1.08420217248550443401e-19L \n\ #define __SSE_MATH__ 1 \n\ #define __k8 1 \n\ #define __LDBL_DIG__ 18 \n\ #define __x86_64__ 1 \n\ #define __FLT_HAS_QUIET_NAN__ 1 \n\ #define __FLT_MAX_10_EXP__ 38 \n\ #define __LONG_MAX__ 9223372036854775807L \n\ #define __FLT_HAS_INFINITY__ 1 \n\ #define __DEC64_MAX__ 9.999999999999999E384DD \n\ #define __DEC64_MANT_DIG__ 16 \n\ #define __STDC_VERSION__ 199901L \n\ #define __DEC32_MAX_EXP__ 96 \n\ #define __DEC128_DEN__ 0.000000000000000000000000000000001E-6143DL \n\ #define __LITTLE_ENDIAN__ 1 \n\ #define __LDBL_MANT_DIG__ 64 \n\ #define __CONSTANT_CFSTRINGS__ 1 \n\ #define __DEC32_MANT_DIG__ 7 \n\ #define __k8__ 1 \n\ #define __WCHAR_TYPE__ int \n\ #define __pic__ 2 \n\ #define __FLT_DIG__ 6 \n\ #define __INT_MAX__ 2147483647 \n\ #define __FLT_MAX_EXP__ 128 \n\ #define __DBL_MANT_DIG__ 53 \n\ #define __DEC64_MIN__ 1E-383DD \n\ #define __WINT_TYPE__ int \n\ #define __SSE__ 1 \n\ #define __LDBL_MIN_EXP__ (-16381) \n\ #define __MACH__ 1 \n\ #define __amd64__ 1 \n\ #define __LDBL_MAX_EXP__ 16384 \n\ #define __SSP__ 1 \n\ #define __LDBL_MAX_10_EXP__ 4932 \n\ #define __DBL_EPSILON__ 2.2204460492503131e-16 \n\ #define _LP64 1 \n\ #define __GNUC_PATCHLEVEL__ 1 \n\ #define __LDBL_HAS_INFINITY__ 1 \n\ #define __GNUC_STDC_INLINE__ 1 \n\ #define __INTMAX_MAX__ 9223372036854775807L \n\ #define __FLT_DENORM_MIN__ 1.40129846e-45F \n\ #define __PIC__ 2 \n\ #define __FLT_MAX__ 3.40282347e+38F \n\ #define __SSE2__ 1 \n\ #define __FLT_MIN_10_EXP__ (-37) \n\ #define __INTMAX_TYPE__ long int \n\ #define __DEC128_MAX_EXP__ 6144 \n\ #define __GNUC_MINOR__ 2 \n\ #define __DBL_MAX_10_EXP__ 308 \n\ #define __LDBL_DENORM_MIN__ 3.64519953188247460253e-4951L \n\ #define __STDC__ 1 \n\ #define __PTRDIFF_TYPE__ long int \n\ #define __DEC128_MANT_DIG__ 34 \n\ #define __LDBL_MIN_10_EXP__ (-4931) \n\ #define __SSE3__ 1 \n\ #define __x86_64__ 1\n\ " #else // Linux case "\ #define __DBL_MIN_EXP__ (-1021)\n\ #define __FLT_MIN__ 1.17549435e-38F\n\ #define __CHAR_BIT__ 8\n\ #define __WCHAR_MAX__ 2147483647\n\ #define __GCC_HAVE_SYNC_COMPARE_AND_SWAP_1 1\n\ #define __GCC_HAVE_SYNC_COMPARE_AND_SWAP_2 1\n\ #define __GCC_HAVE_SYNC_COMPARE_AND_SWAP_4 1\n\ #define __DBL_DENORM_MIN__ 4.9406564584124654e-324\n\ #define __GCC_HAVE_SYNC_COMPARE_AND_SWAP_8 1\n\ #define __FLT_EVAL_METHOD__ 0\n\ #define __unix__ 1\n\ #define __x86_64 1\n\ #define __DBL_MIN_10_EXP__ (-307)\n\ #define __FINITE_MATH_ONLY__ 0\n\ #define __GNUC_PATCHLEVEL__ 7\n\ #define __DEC64_MAX_EXP__ 385\n\ #define __SHRT_MAX__ 32767\n\ #define __LDBL_MAX__ 1.18973149535723176502e+4932L\n\ #define __UINTMAX_TYPE__ long unsigned int\n\ #define __linux 1\n\ #define __DEC32_EPSILON__ 1E-6DF\n\ #define __unix 1\n\ #define __LDBL_MAX_EXP__ 16384\n\ #define __linux__ 1\n\ #define __SCHAR_MAX__ 127\n\ #define __DBL_DIG__ 15\n\ #define __SIZEOF_INT__ 4\n\ #define __SIZEOF_POINTER__ 8\n\ #define __USER_LABEL_PREFIX__ \n\ #define __STDC_HOSTED__ 1\n\ #define __LDBL_HAS_INFINITY__ 1\n\ #define __FLT_EPSILON__ 1.19209290e-7F\n\ #define __LDBL_MIN__ 3.36210314311209350626e-4932L\n\ #define __DEC32_MAX__ 9.999999E96DF\n\ #define __SIZEOF_LONG__ 8\n\ #define __DECIMAL_DIG__ 21\n\ #define __gnu_linux__ 1\n\ #define __LDBL_HAS_QUIET_NAN__ 1\n\ #define __GNUC__ 4\n\ #define __MMX__ 1\n\ #define __FLT_HAS_DENORM__ 1\n\ #define __SIZEOF_LONG_DOUBLE__ 16\n\ #define __BIGGEST_ALIGNMENT__ 16\n\ #define __DBL_MAX__ 1.7976931348623157e+308\n\ #define __DBL_HAS_INFINITY__ 1\n\ #define __DEC32_MIN_EXP__ (-94)\n\ #define __STRICT_ANSI__ 1\n\ #define __LDBL_HAS_DENORM__ 1\n\ #define __DEC128_MAX__ 9.999999999999999999999999999999999E6144DL\n\ #define __DEC32_MIN__ 1E-95DF\n\ #define __DBL_MAX_EXP__ 1024\n\ #define __DEC128_EPSILON__ 1E-33DL\n\ #define __SSE2_MATH__ 1\n\ #define __amd64 1\n\ #define __LONG_LONG_MAX__ 9223372036854775807LL\n\ #define __SIZEOF_SIZE_T__ 8\n\ #define __SIZEOF_WINT_T__ 4\n\ #define __GCC_HAVE_DWARF2_CFI_ASM 1\n\ #define __GXX_ABI_VERSION 1002\n\ #define __FLT_MIN_EXP__ (-125)\n\ #define __DBL_MIN__ 2.2250738585072014e-308\n\ #define __LP64__ 1\n\ #define __DECIMAL_BID_FORMAT__ 1\n\ #define __DEC128_MIN__ 1E-6143DL\n\ #define __REGISTER_PREFIX__ \n\ #define __DBL_HAS_DENORM__ 1\n\ #define __NO_INLINE__ 1\n\ #define __FLT_MANT_DIG__ 24\n\ #define __VERSION__ \"4.4.7 20120313 (Red Hat 4.4.7-4)\"\n\ #define __DEC64_EPSILON__ 1E-15DD\n\ #define __DEC128_MIN_EXP__ (-6142)\n\ #define __SIZE_TYPE__ long unsigned int\n\ #define __ELF__ 1\n\ #define __FLT_RADIX__ 2\n\ #define __LDBL_EPSILON__ 1.08420217248550443401e-19L\n\ #define __GNUC_RH_RELEASE__ 4\n\ #define __SSE_MATH__ 1\n\ #define __k8 1\n\ #define __SIZEOF_PTRDIFF_T__ 8\n\ #define __x86_64__ 1\n\ #define __DEC32_SUBNORMAL_MIN__ 0.000001E-95DF\n\ #define __FLT_HAS_QUIET_NAN__ 1\n\ #define __FLT_MAX_10_EXP__ 38\n\ #define __LONG_MAX__ 9223372036854775807L\n\ #define __DEC128_SUBNORMAL_MIN__ 0.000000000000000000000000000000001E-6143DL\n\ #define __FLT_HAS_INFINITY__ 1\n\ #define __DEC64_MAX__ 9.999999999999999E384DD\n\ #define __CHAR16_TYPE__ short unsigned int\n\ #define __DEC64_MANT_DIG__ 16\n\ #define __STDC_VERSION__ 199901L\n\ #define __DEC32_MAX_EXP__ 97\n\ #define __SSE2__ 1\n\ #define __LDBL_MANT_DIG__ 64\n\ #define __DBL_HAS_QUIET_NAN__ 1\n\ #define __k8__ 1\n\ #define __WCHAR_TYPE__ int\n\ #define __SIZEOF_FLOAT__ 4\n\ #define __DEC64_MIN_EXP__ (-382)\n\ #define __FLT_DIG__ 6\n\ #define __INT_MAX__ 2147483647\n\ #define __amd64__ 1\n\ #define __FLT_MAX_EXP__ 128\n\ #define __DBL_MANT_DIG__ 53\n\ #define __DEC64_MIN__ 1E-383DD\n\ #define __WINT_TYPE__ unsigned int\n\ #define __SIZEOF_SHORT__ 2\n\ #define __SSE__ 1\n\ #define __LDBL_MIN_EXP__ (-16381)\n\ #define __LDBL_MAX_10_EXP__ 4932\n\ #define __DBL_EPSILON__ 2.2204460492503131e-16\n\ #define _LP64 1\n\ #define __SIZEOF_WCHAR_T__ 4\n\ #define __DEC_EVAL_METHOD__ 2\n\ #define __INTMAX_MAX__ 9223372036854775807L\n\ #define __FLT_DENORM_MIN__ 1.40129846e-45F\n\ #define __CHAR32_TYPE__ unsigned int\n\ #define __FLT_MAX__ 3.40282347e+38F\n\ #define __SIZEOF_DOUBLE__ 8\n\ #define __FLT_MIN_10_EXP__ (-37)\n\ #define __INTMAX_TYPE__ long int\n\ #define __DEC128_MAX_EXP__ 6145\n\ #define __GNUC_MINOR__ 4\n\ #define __DEC32_MANT_DIG__ 7\n\ #define __DBL_MAX_10_EXP__ 308\n\ #define __LDBL_DENORM_MIN__ 3.64519953188247460253e-4951L\n\ #define __STDC__ 1\n\ #define __PTRDIFF_TYPE__ long int\n\ #define __DEC64_SUBNORMAL_MIN__ 0.000000000000001E-383DD\n\ #define __DEC128_MANT_DIG__ 34\n\ #define __LDBL_MIN_10_EXP__ (-4931)\n\ #define __SIZEOF_LONG_LONG__ 8\n\ #define __LDBL_DIG__ 18\n\ #define __GNUC_GNU_INLINE__ 1\n\ #define __extension__\n\ " #endif // extension is certainly wrong #endif #ifdef __APPLE__ "#define __APPLE__ 1\n" "#define __GNUC__ 4\n" "#define __BIG_ENDIAN__ 1\n" "#define _VA_LIST\n" #endif ; #else #include "mc-include.c" #if defined(__GNUC__) && __GNUC__ >= 3 static char *init_src0 = "\ #define __builtin_va_start(ap,arg) ap=(((int)(&arg))+sizeof(arg))\n\ #define __builtin_va_arg(ap,type) (*((type *)ap)++)\n\ #define __builtin_va_end\n\ #define __i386__ 1\n\ #define __LITTLE_ENDIAN__ 1\n\ #define __STDC__ 1\n\ // #define __restrict\n\ #define __flexarr\n\ //#define __const const\n\ #define __THORW\n\ // #define __attribute__(a)\n\ #define __inline__ inline\n\ #define __inline inline\n\ #define __GNUC__ 3\n\ " #ifdef __llvm__ "#define _VA_LIST\n" #endif "#define __builtin_va_list int\n\ " "typedef long unsigned int __SIZE_TYPE__ ;\n\ " #else static char *init_src0 = #ifdef __llvm__ "#define _VA_LIST\n" #endif "#define __builtin_va_list int\n\ " "\ #define va_start(ap,arg) ap=(((int)(&arg))+sizeof(arg))\n\ #define va_arg(ap,type) (*((type *)ap)++)\n\ #define va_end\n\ #define __i386__ 1\n\ #define __LITTLE_ENDIAN__ 1\n\ #define __STDC__ 1\n\ // #define __restrict\n\ #define __flexarr\n\ //#define __const const\n\ #define __THORW\n\ // #define __attribute__(a)\n\ #define __inline__ inline\n\ #define __SIZE_TYPE__ long unsigned int\n\ #define __GNUC__ 3\n\ " #endif ; #endif int data_alignment = 0; #define SIZE_OF_INT 4 #define SIZE_OF_SHORT 2 #define SIZE_OF_FLOAT 4 #define SIZE_OF_DOUBLE 8 #define SIZE_OF_LONGLONG 8 #define ENDIAN 0 #define ENDIAN_L 0 #define ENDIAN_D 0 /* Eary implementation uses pushl arg for function call. gcc use the same arguement evaluation order. Of course, the order is unspecified in C language, but it is better to use same argument evaluation order. Especially for test program. */ #ifdef __llvm__ // llvm on mavericks has different arg order evaluation #define ARG_ORDER NORMAL #else #define ARG_ORDER REVERSE #endif int eval_order = ARG_ORDER; #define TEXT_EMIT_MODE 0 #define DATA_EMIT_MODE 1 #define RODATA_EMIT_MODE 2 #ifdef __APPLE__ #else #define DOT_SIZE 1 #endif static int output_mode = TEXT_EMIT_MODE; static int creg; static int ireg; extern int lp64; int code_lassop_p = 1; #define MAX_REGISTER 15 /* intel64のレジスタを15まで使う*/ #define REAL_MAX_REGISTER (1+16) /* intel64のレジスタが16つということ*/ int MAX_REGISTER_VAR=5; #define REAL_MAX_DREGISTER (1+16) /* intel64のxmmレジスタが16つということ*/ int MAX_DREGISTER_VAR=0; /* 保存される xmm register はない */ #define MIN_TMP_FREG 8 #define MAX_TMP_FREG 15 int MAX_INPUT_REGISTER_VAR = 6; int MAX_CODE_INPUT_REGISTER_VAR = 6; int MAX_INPUT_DREGISTER_VAR = 8; // static int MAX_INPUT_FREGISTER_VAR = 0; int MAX_CODE_INPUT_DREGISTER_VAR = 8; static int reg_sp; /* REGister Stack-Pointer */ static int reg_stack[MAX_MAX]; /* 実際のレジスタの領域 */ static int stack_depth = 0; /* floating point registers */ static int freg_sp; /* floating point REGister Stack-Pointer */ static int freg_stack[MAX_MAX]; /* 実際のレジスタの領域 */ static int max_reg_var, max_freg_var; /* local2 -8 local1 <-- -6 0 local variable -12 <- disp_offset %ebp -8 -4 pushq r13 pushq r14 pushq r15 %ebp = %esp 0 %eip 4 <- arg_offset arg8 8 arg7 16 %r9d arg6 %r8d arg5 %ecx arg4 %edx arg3 %esi arg2 %rdi arg1 see enter/enter1/leave see code_enter */ static int arg_offset_v; static int code_disp_label; static int float_one_lib_used=0; static int float_one_f_lib_used=0; static NMTBL float_one = {"_float_one",0,STATIC,FLOAT,0}; static NMTBL float_one_f = {"_float_one_f",0,STATIC,FLOAT,0}; #ifdef __APPLE__ static char *float_one_lib[] = { // " .literal8", " .align 8", "__float_one:", " .long 0", " .long 1072693248", 0 }; static char *float_one_f_lib[] = { // " .literal4", " .align 4", "__float_one_f:", " .long 1065353216", 0 }; #else static char *float_one_lib[] = { // " .literal8", " .align 8", "_float_one:", " .long 0", " .long 1072693248", 0 }; static char *float_one_f_lib[] = { // " .literal4", " .align 4", "_float_one_f:", " .long 1065353216", 0 }; #endif /* creg current register ireg current register for integer (int mode) lreg current register for long long (long long mode) regs[] register usage freg current floating point register kept in FPU stack (no register) */ static int ia32regs[1+REAL_MAX_REGISTER+REAL_MAX_DREGISTER]; static int regs_line[1+REAL_MAX_REGISTER+REAL_MAX_DREGISTER]; static int *regs = ia32regs; static int freg; // register number should start 1 // regs[] value // 0 for not ready // -1 use currrent register // 1 used // 2 (REG_VAR) register variable // 3 pointer cache (not used in ia32) #define REG_ESP 0 #define REG_EBP 1 #define REG_EDI 2 // first argument register #define REG_ESI 3 #define REG_EDX 4 #define REG_ECX 5 // for strange reason (code_assop) #define REG_R8 6 #define REG_R9 7 // input register #define REG_EAX 8 // varargs count of fvar #define REG_R10 9 #define REG_R11 10 #define REG_EBX 11 // register var #define REG_R12 12 #define REG_R13 13 #define REG_R14 14 #define REG_R15 15 #define REG_XMM0 16 #define is_int_reg(reg) (1<=reg&®<=MAX_REGISTER) #define is_float_reg(reg) (RET_FREGISTER<=reg&®<FREG_OFFSET+REAL_MAX_DREGISTER) // return value register #define FREG_OFFSET 16 #define RET_FREGISTER 16 #define RET_DREGISTER 16 #define RET_LREGISTER REG_EAX #define RET_REGISTER REG_EAX // defalut current register #define CREG_REGISTER REG_R10 #define FREG_FREGISTER 27 static char *reg_name_l[] = {0, 0, 0, 0, "%dl", "%cl", "%r8b", "%r9b", "%al", "%r10b", "%r11b", "%bl", "%r12b", "%r13b", "%r14b", "%r15b", }; static char *reg_name_w[] = { "%sp", "%bp", "%di", "%si", "%dx", "%cx", "%r8w", "%r9w", "%ax", "%r10w", "%r11w", "%bx", "%r12w", "%r13w", "%r14w", "%r15w", }; static char *reg_name[] = { "%esp", "%ebp", "%edi", "%esi", "%edx", "%ecx", "%r8d", "%r9d", "%eax", "%r10d", "%r11d", "%ebx", "%r12d", "%r13d", "%r14d", "%r15d", }; #define REG_VAR_BASE (REG_R15) #define REG_VAR_MIN (REG_R15-MAX_REGISTER_VAR) #define FREG_VAR_BASE (RET_FREGISTER+15) #define FREG_VAR_MIN (RET_FREGISTER+15-MAX_DREGISTER_VAR) static char *reg_name_q[] = { "%rsp", "%rbp", "%rdi", "%rsi", "%rdx", "%rcx", "%r8", "%r9", "%rax", "%r10", "%r11", "%rbx", "%r12", "%r13", "%r14", "%r15", }; static char *reg_name_d[] = { "%xmm0", // 17 "%xmm1", "%xmm2", "%xmm3", "%xmm4", "%xmm5", "%xmm6", "%xmm7", "%xmm8", "%xmm9", "%xmm10", "%xmm11", "%xmm12", "%xmm13", "%xmm14", "%xmm15" }; static void ascii(char *s,int len); static int use_register(int virt, int real, int move); static void shift(char *op, int reg,int creg, int sz); static void ld_indexx(int byte, int n, int xreg,int reg,int sign); //static void data_mode(char *name); // static void text_mode(int align); static int get_data_register(void); static void local_table(void); static int push_struct(int e4,int t, int arg) ; static void code_clear_stack_reg(int reg1); #if FLOAT_CODE static char * fload(int d); static int code_d1(double d); static int code_d2(double d); #endif static void jcond(int l, char cond); static char * code_cond(int op,int cond); #define round16(i) align(i,16) #define round4(i) align(i,4) #define round8(i) align(i,8) #define func_disp_offset (16+8*6) // #define code_disp_offset (16) #define arg_offset (16) #define arg_offset1 (0) #define ARG_LVAR_OFFSET 0x10000000 #define code_disp_offset0 (-func_disp_offset) int disp_offset = code_disp_offset0; /* FUNC_LVAR == CODE_LVAR is necessary in jump from function func_disp_offset === code_disp_offset0 */ #define CODE_LVAR(l) ((l)+code_disp_offset0) #define CODE_CALLER_ARG(l) ((l)+arg_offset1) #define FUNC_LVAR(l) ((l)-func_disp_offset) #define CALLER_ARG(l) ((l)+arg_offset1) #define CALLEE_ARG(l) ((l)+arg_offset) static int r1_offset_label; static const char lpfx[] = "_"; static int lvar_offset_label; static int reg_in_arg; static int max_func_args,max_func_arg_label; static void lvar(int l) { if (is_code(fnptr)) { if (l>=ARG_LVAR_OFFSET) { /* caller's arguments */ printf("%d(%%rsp)",CODE_CALLER_ARG(l-ARG_LVAR_OFFSET)); } else printf("%d(%%rbp)",CODE_LVAR(l)); } else if (l<0) { /* local variable */ printf("%d(%%rbp)",FUNC_LVAR(l)); } else if (l>=ARG_LVAR_OFFSET) { /* caller's arguments */ printf("%d(%%rsp)",CALLER_ARG(l-ARG_LVAR_OFFSET)); } else { /* callee's arguments */ printf("%d-_%d(%%rbp)",CALLEE_ARG(l), lvar_offset_label); } } /* function call stack frame prev esp <-------r1_offset------------------------------> <----- ebp--> <----- esp r+ +------------+---+---------------+----------+-------------------+ - callee arg xx register save local caller arg reg_save disp max_func_args*SIZE_OF_INT lvar>0 lvar<0 lvar>0x1000 0000 code segment stack frame * gotoを呼び出した関数のr1 ! r1(goto前のr1) disp_offset # * ebp <---r1_offset---------> esp r+ +----------+--+----------+----------------+-----------+----------+----+ cousin arg xx reg save !callee arg !code local caller arg xx r20-r29 lvar>0 lvar<0 lvar>0x1000 000 f20-f31 <-my_func_args--><--disp-----><-max_func_arg-> *SIZE_OF_INT *SIZE_OF_INT %esp should be alignment 16 */ static int code_offset_set(NMTBL *fnptr) { #if 0 int l; #endif int code_f = is_code(fnptr); int lvar_offsetv = round16(-disp); int r1_offsetv = round16(lvar_offsetv+max_func_args*SIZE_OF_INT+func_disp_offset); if (max_reg_var>=0 && (max_reg_var)%2==0) { // pushq makes rsp%8==8, make it round16 r1_offsetv += 8; } if (code_f) { data_mode(0); code_label(code_disp_label); emit_longlong(llist2(LCONST,round16(r1_offsetv))); code_disp_label = 0; } else { // +8 makes esp alignment 16 if (r1_offsetv-lvar_offsetv > 65000) error(-1); // too large function arguments? // printf(".set %s%d,%d\n",lpfx,r1_offset_label,r1_offsetv); } if (max_func_arg_label) { data_mode(0); code_label(max_func_arg_label); emit_longlong(llist2(LCONST,round16(max_func_args*SIZE_OF_INT))); max_func_arg_label = 0; } #if 0 printf("## reg_save %d\n",reg_save); printf("## function %s\n",fnptr->nm); l = ARG_LVAR_OFFSET; printf("## offset call0\t%d\n",CALLER_ARG); l = ARG_LVAR_OFFSET+max_func_args*SIZE_OF_INT; printf("## offset calln\t%d %d\n",CALLER_ARG,max_func_args*SIZE_OF_INT); l = disp; printf("## offset lvarn\t%d %d\n",FUNC_LVAR+lvar_offsetv,disp); l = 0; printf("## offset lvar0\t%d\n",FUNC_LVAR+lvar_offsetv); l = -reg_save; printf("## offset regs\t%d\n",FUNC_LVAR+lvar_offsetv); printf("## offset r1off\t%d\n",r1_offsetv); l = 0; printf("## offset carg0\t%d\n",CALLEE_ARG+r1_offsetv); l = my_func_args; printf("## offset cargn\t%d %d\n",CALLEE_ARG+r1_offsetv,my_func_args); #endif return r1_offsetv; } #define use_int(reg) if (reg==-1) reg=use_int0() static int use_int0() { int i = creg; if (!i||!ireg||!is_int_reg(i)) { if (!ireg) { ireg = get_register(); } i = ireg; } if (!regs[i]) regs[i]=USING_REG; creg = ireg = i; return i; } #define is_data_reg(reg) (reg_name_l[reg]!=0) #define is_pointer_reg(reg) (reg> REG_EBP) static int use_register(int reg0, int reg1, int move) { /* reg0 becomes reg1, if (move) copy the content. if reg1 is used, reg0 contains old value. */ char *move_op; code_clear_stack_reg(reg1); move_op = (regs[reg1])?"\txchg %s,%s\n":"\tmovq %s,%s\n"; if (move && reg0!=reg1) { printf(move_op,reg_name_q[reg0],reg_name_q[reg1]); if (!regs[reg1]) regs[reg1]=USING_REG; } if (reg0!=reg1) free_register(reg1); return reg0; } #define use_data_reg(reg,keep) \ if (reg==-1||!is_data_reg(reg)) reg=use_data_reg0(keep,reg) int use_data_reg0(int keep,int reg) { int ptreg =0; int i; if (is_pointer_reg(creg)) { free_register(ptreg=creg); ireg = creg = 0; } if (is_pointer_reg(ireg)) { free_register(ireg); ireg = 0; } i = reg==USING_REG?creg:reg; if (regs[i]==PTRC_REG) clear_ptr_cache_reg(i); if (!i||!ireg||!is_data_reg(i)) { if (!ireg) { ireg = get_data_register(); } i = ireg; } if (!regs[i]) regs[i]=USING_REG; creg = ireg = i; if (ptreg && keep) { printf("\tmovq %s,%s\n",reg_name_q[ptreg],reg_name_q[creg]); } return i; } char * fregister_name(int reg) { if (!is_float_reg(reg)) error(-1); return reg_name_d[(reg)-FREG_OFFSET]; } static void set_freg(int reg,int mode) { if (!is_float_reg(reg)) error(-1); if (reg!=creg) { if (freg && reg!=freg) { free_register(freg); if (mode) { printf("\tmovapd %s,%s\n",fregister_name(freg),fregister_name(reg)); } } // if (creg!=ireg) free_register(creg); regs[reg]=USING_REG; } creg = freg = reg; } static void set_ireg(int reg,int mode) { if (!is_int_reg(reg)) error(-1); if (reg!=creg) { if (regs[reg]==PTRC_REG) clear_ptr_cache_reg(reg); if (ireg && reg!=ireg ) { clear_ptr_cache_reg(ireg); if (regs[ireg]!=REG_VAR) free_register(ireg); if (mode) { printf("\tmovq %s,%s\n",reg_name_q[ireg],reg_name_q[reg]); } } if (creg>0 && regs[creg]!=REG_VAR) { clear_ptr_cache_reg(creg); free_register(creg); } } creg = ireg = reg; if (!regs[reg]) regs[reg]=USING_REG; } #define is_long_reg(reg) is_int_reg(reg) #define use_longlong(reg) use_int(reg) static void set_lreg(int reg,int mode) { set_ireg(reg,mode); } #if FLOAT_CODE #define use_float(d,reg) if (reg==USE_CREG) reg=use_double0(d) static int use_double0(int d) { int i = creg; if (!is_float_reg(i)) { if (!freg) freg = get_dregister(d); if (regs[i]!=REG_VAR) free_register(i); i = freg; } if (!regs[i]) regs[i]=USING_REG; creg = freg = i; return i; } #endif extern void code_init(void) { /* called only once */ init_src = init_src0; size_of_int = SIZE_OF_INT; size_of_pointer = SIZE_OF_LONGLONG; size_of_short = SIZE_OF_SHORT; size_of_float = SIZE_OF_FLOAT; size_of_double = SIZE_OF_DOUBLE; size_of_longlong = SIZE_OF_LONGLONG; endian = ENDIAN; lp64 = 1; struct_align = size_of_int; } extern void emit_reinit() { /* called for each file */ output_mode = -1; init_ptr_cache(); } char * register_name(int i,int byte) { if (i<=0 || i>=FREG_OFFSET) { error(REG_ERR); return "%rax"; } if (byte==1 && is_data_reg(i)) { return reg_name_l[i]; } else if (byte==SIZE_OF_SHORT && is_data_reg(i)) { return reg_name_w[i]; } else if (byte==SIZE_OF_INT) { return reg_name[i]; } else { return reg_name_q[i]; } } void gexpr_code_init(void){ // use_register(creg,REG_EAX,0); set_ireg(CREG_REGISTER,0); } void code_gexpr(int e){ if ((is_int_reg(creg))&®s[creg]==REG_VAR) creg = ireg = 0; } int get_register(void) { /* 使われていないレジスタを調べる */ int i,reg,j; for(i=REG_EDI;i<MAX_REGISTER+1;i++) { if (i!=REG_EDX && ! regs[i]) { /* 使われていないなら */ // REG_EDX は使わない regs_line[i]=glineno; regs[i]=1; /* そのレジスタを使うことを宣言し */ return i; /* その場所を表す番号を返す */ } } /* PTR_CACHE をつぶす */ if ((i=last_ptr_cache())) { clear_ptr_cache_reg(i); regs[i]=USING_REG; /* そのレジスタを使うことを宣言し */ regs_line[i]=glineno; return i; /* その場所を表す番号を返す */ } /* search register stack */ for(i=0;i<reg_sp;i++) { if ((reg=reg_stack[i])>=0) { code_assign_lvar( (j=new_lvar(SIZE_OF_LONGLONG)),reg,0); reg_stack[i]= j-REG_LVAR_OFFSET; regs_line[reg]=glineno; return reg; } } error(RGERR); return -1; /* 空いている場所がないなら、それを表す -1 を返す */ } static int get_data_register(void) { /* 使われていないレジスタを調べる */ int i,reg,j; for(i=REG_EDI; i<MAX_REGISTER+1;i++) { if (is_data_reg(i) && ! regs[i]) { /* 使われていないなら */ regs[i]=1; /* そのレジスタを使うことを宣言し */ regs_line[i]=glineno; return i; /* その場所を表す番号を返す */ } } /* PTR_CACHE をつぶす */ while ((i=last_ptr_cache())) { clear_ptr_cache_reg(i); if (is_data_reg(i)) { regs[i]=USING_REG; /* そのレジスタを使うことを宣言し */ regs_line[i]=glineno; return i; /* その場所を表す番号を返す */ } } /* search register stack */ for(i=0;i<reg_sp;i++) { if (is_data_reg(i) && (reg=reg_stack[i])>=0) { code_dassign_lvar( (j=new_lvar(SIZE_OF_DOUBLE)),reg,0); reg_stack[i]= j-REG_LVAR_OFFSET; regs_line[reg]=glineno; return reg; } } error(-1); return -1; /* 空いている場所がないなら、それを表す -1 を返す */ } void free_register(int i) { /* いらなくなったレジスタを開放 */ regs[i]=0; regs_line[i]=0; } extern void use_ptr_cache(int r) { regs[r]=PTRC_REG; } extern void code_ptr_cache_def(int r,NMTBL *nptr) { char *rrn = register_name(r,0); #ifdef __APPLE__ if (nptr->sc==STATIC && !(is_code(nptr)||is_function(nptr))) { printf("\tleaq _%s(%%rip),%s\n",nptr->nm, rrn); } else { printf("\tmovq _%s@GOTPCREL(%%rip),%s\n", nptr->nm, rrn); } #else printf("\tleaq %s,%s\n",nptr->nm, rrn); #endif } /* */ int get_input_register_var(int i,NMTBL *nptr,int is_code) { if (is_code) { if(!(i<REG_VAR_BASE-REG_VAR_MIN)) return 0; i = REG_VAR_BASE-i; return list3n(LREGISTER,i,nptr); } else { if (i>=MAX_INPUT_REGISTER_VAR) return 0; i += REG_EDI; regs[i]=INPUT_REG; return list3n(LREGISTER,i,nptr); } } int get_input_dregister_var(int i,NMTBL *nptr,int is_code,int d) { if (is_code) { // if(!(i<MAX_INPUT_DREGISTER_VAR)) return 0; // i = FREG_OFFSET+i; return 0; } else { if(!(i<MAX_INPUT_DREGISTER_VAR)) return 0; i = FREG_OFFSET+i; } return list3n(d?DREGISTER:FREGISTER,i,nptr); } int get_input_lregister_var(int i,NMTBL *nptr,int is_code) { return get_input_register_var(i,nptr,is_code); } #if FLOAT_CODE int get_dregister(int d) { /* 使われていないレジスタを調べる */ int i,reg; for(i=MAX_TMP_FREG+FREG_OFFSET;i>MIN_TMP_FREG+FREG_OFFSET;i--) { if (regs[i]) continue; /* 使われている */ regs[i]=USING_REG; /* そのレジスタを使うことを宣言し */ regs_line[i]=glineno; return i; /* その場所を表す番号を返す */ } /* search register stack */ for(i=0;i<freg_sp;i++) { if ((reg=freg_stack[i])>=0) { code_dassign_lvar( (freg_stack[i]=new_lvar(SIZE_OF_DOUBLE)),reg,1); freg_stack[i]= freg_stack[i]-REG_LVAR_OFFSET; regs_line[reg]=glineno; return reg; } } #if 0 // float register と言うのはない for(i=0;i<FREG_VAR_BASE-FREG_VAR_MIN;i++) { reg =FREG_VAR_BASE-i+FREG_OFFSET; if (! regs[reg]) { /* 使われていないなら */ regs[reg]=USING_REG; /* そのレジスタを使うことを宣言し */ if (i>max_freg_var) max_freg_var=i; return reg; /* その場所を表す番号を返す */ } } #endif /* 空いている場所がないなら、エラー (いったい誰が使ってるの?) */ error(REG_ERR); return freg; } int pop_fregister(void) { /* レジスタから値を取り出す */ return freg_stack[--freg_sp]; } #endif int get_lregister_var(NMTBL *n) { return get_register_var(n); } #define get_lregister() get_register() int register_full(void) { int i; for(i=1;i<MAX_REGISTER+1;i++) { if (! regs[i]) { return 0; } } return 1; } int free_register_count(int d) { int i,count; count = 0; for(i=1;i<MAX_REGISTER+1;i++) { if (! regs[i]) count++; } return d?0:count; } void free_all_register(void) { int i; for(i=1;i<REAL_MAX_REGISTER+REAL_MAX_DREGISTER;i++) { regs[i]=0; } creg = ireg = 0; return; } extern int code_register_overlap(int s,int t) { if (car(s)==REGISTER||car(s)==LREGISTER) { if (car(t)==REGISTER||car(t)==LREGISTER) return cadr(s)==cadr(t); } return 0; } void register_usage(char *s) { int i; if (!lsrc) return ; printf("## %d: %s:",lineno,s); if (creg) printf(" creg=%s ",register_name(creg,0)); for(i=1;i<MAX_REGISTER+1;i++) { printf("%d",regs[i]); } #if 0 printf(" regs_stack",register_name(creg,0); for(i=reg_sp;i>=0;i--) { if(reg_stack[i]>=0) printf(" %s",register_name(reg_stack[i],0)); } #endif if (freg) printf("freg=%s ", fregister_name(freg)); for(i=RET_FREGISTER;i<REAL_MAX_DREGISTER+REAL_MAX_REGISTER;i++) { printf("%d",regs[i]); } printf("\n"); } /* store input argument into stack we need this always because of one path compiler */ static void code_save_input_registers(int dots, int arg_size) { int args; NMTBL *n; int reg; int tag; int t; int offset = 0; int reg_var = 0; int freg_var = 0; disp -= arg_size; offset = disp; reg_in_arg = arg_size; printf("\t.set %s%d,%d\n",lpfx,lvar_offset_label,reg_in_arg); if (!parse_mode && dots) { int stype = type; int smode = mode; type = INT; mode = LDECL; stmode = 0; // lsearch defines local name NMTBL *n = def(lsearch("__my_va_list",0),0); n->dsp = offset; type = stype; mode = smode; } for(args = fnptr->dsp;args;args = cadr(args)) { n = ncadddr(args); tag = n->sc; reg = n->dsp; if (!n||n==&null_nptr) error(REG_ERR); if (tag==REGISTER) { n->dsp = offset; offset+=SIZE_OF_LONGLONG; t = INT; reg_var++; } else if (tag==FREGISTER) { n->dsp = offset; t = n->ty; offset+=SIZE_OF_DOUBLE; freg_var++; } else if (tag==DREGISTER) { n->dsp = offset; t = n->ty; offset+=SIZE_OF_DOUBLE; freg_var++; } else if (tag==LREGISTER) { n->dsp = offset; t = n->ty; offset+=SIZE_OF_LONGLONG; reg_var++; } else { // offset += SIZE_OF_LONGLONG; // size(n->ty); continue; } n->sc = LVAR; g_expr_u(assign_expr0(list3n(LVAR,n->dsp,0),list3n(tag,reg,n),t,t)); if (tag==REGISTER||tag==DREGISTER||tag==FREGISTER||tag==LREGISTER) { free_register(reg); } } if (dots) { while ((reg = get_input_register_var(reg_var,0,0))) { g_expr_u(assign_expr0( list3n(LVAR,offset,0),reg,LONGLONG,LONGLONG)); offset+=SIZE_OF_LONGLONG; reg_var++; free_register(cadr(reg)); } // Intel64 keeps number of double value in %al while ((reg = get_input_dregister_var(freg_var,0,0,0))) { g_expr_u(assign_expr0( list3n(LVAR,offset,0),reg,DOUBLE,DOUBLE)); offset+=SIZE_OF_DOUBLE; freg_var++; free_register(cadr(reg)); } } // my_func_args = offset; } void code_arg_register(NMTBL *fnptr, int in) { int args = fnptr->dsp; NMTBL *n; int reg_var = 0; int freg_var = 0; int type; int reg; int is_code0 = is_code(fnptr); int dots; arg_offset_v = 0; int func_reg_arg_size = 0; function_type(fnptr->ty,&dots); if (dots && (in || !parse_mode)) { type = INT; mode = LDECL; stmode = 0; n = def(lsearch("__my_va_list",0),0); n->dsp = 0; // first argument } if (in) return; // def in code_decl is useless, we have to recalcurate while (args) { n = ncadddr(args); type = n->ty; int sz = size(type); arg_offset_v = code_arg_alignment(arg_offset_v,n, type,sz, is_code0); if (type==LONGLONG||type==ULONGLONG) { // scalar includes LONGLONG, check first if ((reg = get_input_lregister_var(reg_var,n,is_code0))) { n->sc = LREGISTER; n->dsp = cadr(reg); regs[n->dsp]= INPUT_REG; reg_var+=1; func_reg_arg_size += SIZE_OF_LONGLONG ; } } else if (scalar(type)) { if ((reg = get_input_register_var(reg_var,n,is_code0))) { n->sc = ((type>0&&car(type)==POINTER) && lp64) ?LREGISTER:REGISTER; n->dsp = cadr(reg); regs[n->dsp]= INPUT_REG; reg_var++; func_reg_arg_size += SIZE_OF_LONGLONG ; } } else if (type==FLOAT) { if ((reg = get_input_dregister_var(freg_var,n,is_code0,0))) { n->sc = FREGISTER; n->dsp = cadr(reg); regs[n->dsp]= INPUT_REG; freg_var++; func_reg_arg_size += SIZE_OF_LONGLONG ; } } else if (type==DOUBLE) { if ((reg = get_input_dregister_var(freg_var,n,is_code0,1))) { n->sc = DREGISTER; n->dsp = cadr(reg); regs[n->dsp]= INPUT_REG; freg_var++; func_reg_arg_size += SIZE_OF_LONGLONG ; } } args = cadr(args); } if (is_function(fnptr)) { if (dots) { // %al の値によって float を適切にloadする必要がある sigh... func_reg_arg_size = MAX_INPUT_REGISTER_VAR*SIZE_OF_LONGLONG + MAX_INPUT_DREGISTER_VAR*SIZE_OF_DOUBLE; } code_save_input_registers(dots, func_reg_arg_size ); arg_offset_v = func_reg_arg_size; } } void gexpr_init(void) { text_mode(0); if (reg_sp>0) error(-1); if (freg_sp>0) error(-1); reg_sp = 0; freg_sp = 0; stack_depth = 0; gexpr_code_init(); regs[creg]=1; register_usage("gexpr_init"); } void emit_init(void) { free_all_register(); reg_sp = 0; freg_sp = 0; max_reg_var=-1; max_freg_var=-1; } int pop_register(void) { /* レジスタから値を取り出す */ return reg_stack[--reg_sp]; } void emit_pop_free(int xreg) { if (xreg>=0 && xreg!=creg && regs[xreg]!=REG_VAR) { free_register(xreg); } } int get_register_var(NMTBL *nptr) { int i; for(i=0;i<REG_VAR_BASE-REG_VAR_MIN;i++) { int reg = REG_VAR_BASE-i; if (! regs[reg]) { /* 使われていないなら */ /* そのレジスタを使うことを宣言し */ regs[reg]=REG_VAR; regs_line[reg]=glineno; if (i>max_reg_var) max_reg_var=i; /* その場所を表す番号を返す */ return list3n(REGISTER,reg,nptr); } } return list3n(LVAR,new_lvar(SIZE_OF_INT),0); } int get_dregister_var(NMTBL *nptr,int d) { int i; for(i=0;i<FREG_VAR_BASE-FREG_VAR_MIN;i++) { int reg = FREG_VAR_BASE-i; if (! regs[reg]) { /* 使われていないなら */ regs[reg]=REG_VAR; /*そのレジスタを使うことを宣言し*/ regs_line[reg]=glineno; if (i>max_freg_var) max_freg_var=i; /* その場所を表す番号を返す */ return list3n(DREGISTER, reg,nptr); } } return list3n(LVAR,new_lvar(SIZE_OF_DOUBLE),0); } int emit_push() { int new_reg,old; new_reg = get_register(); /* 絶対に取れる */ // who free new_reg? if (new_reg==creg) error(-1); old = creg; reg_stack[reg_sp++] = creg; /* push するかわりにレジスタを使う */ ireg = creg = new_reg; if (!regs[creg]) regs[creg]=USING_REG; return old; } int emit_pop(int type) { int xreg,reg; xreg=pop_register(); if (xreg<= -REG_LVAR_OFFSET) { reg = get_register(); code_lrlvar(REG_LVAR_OFFSET+xreg,reg); free_lvar(REG_LVAR_OFFSET+xreg); xreg = reg; } return xreg; } void code_label(int labelno) { clear_ptr_cache(); printf("_%d:\n",labelno); } void code_gvar(int e1,int creg) { use_int(creg); NMTBL *nptr = ncaddr(e1); #ifdef __APPLE__ if (nptr->sc==STATIC && !(is_code(nptr)||is_function(nptr))) { printf("\tleaq _%s+%d(%%rip),%s\n", nptr->nm,cadr(e1),register_name(creg,0)); return; } #endif int r = get_ptr_cache(nptr); if (cadr(e1)) { printf("\tleaq %d(%s),%s\n", cadr(e1),register_name(r,0), register_name(creg,0)); } else { printf("\tmovq %s,%s\n", register_name(r,0), register_name(creg,0)); } } void code_rgvar(int e1,int creg) { use_int(creg); if (car(e1)==URGVAR) { code_crgvar(e1,creg,0,SIZE_OF_INT); return; } #ifdef __APPLE__ NMTBL *nptr = ncaddr(e1); if (nptr->sc==STATIC && !(is_code(nptr)||is_function(nptr))) { printf("\tmovl _%s+%d(%%rip),%s\n", nptr->nm,cadr(e1),register_name(creg,SIZE_OF_INT)); return; } #endif int r = get_ptr_cache(ncaddr(e1)); if (cadr(e1)) { printf("\tmovl %d(%s),%s\n", cadr(e1),register_name(r,0), register_name(creg,SIZE_OF_INT)); } else { printf("\tmovl (%s),%s\n", register_name(r,0), register_name(creg,SIZE_OF_INT)); } } static char * cload(int sign,int sz) { return sz==1?(sign?"movsbq":"movzbq"): sz==SIZE_OF_SHORT?(sign?"movswq":"movzwq"): sz==SIZE_OF_INT?(sign?"movslq":"movl"):"movq"; } static int regu(int sign,int sz,int u) { return sz==SIZE_OF_INT?(sign?u:SIZE_OF_INT):u; } void code_crgvar(int e1,int creg,int sign,int sz){ use_int(creg); #ifdef __APPLE__ NMTBL *nptr = ncaddr(e1); if (nptr->sc==STATIC && !(is_code(nptr)||is_function(nptr))) { printf("\t%s _%s+%d(%%rip),%s\n", cload(sign,sz),nptr->nm,cadr(e1),register_name(creg,regu(sign,sz,0))); return; } #endif int r = get_ptr_cache(ncaddr(e1)); if (cadr(e1)) { printf("\t%s %d(%s),%s\n", cload(sign,sz),cadr(e1),register_name(r,0), register_name(creg,regu(sign,sz,0))); } else { printf("\t%s (%s),%s\n", cload(sign,sz), register_name(r,0), register_name(creg,regu(sign,sz,0))); } } void code_lvar(int e2,int creg) { use_int(creg); printf("\tleaq "); lvar(e2); printf(",%s\n",register_name(creg,0)); } void code_register(int e2,int creg) { use_int(creg); if (e2!=creg) printf("\tmovq %s,%s\n",register_name(e2,0),register_name(creg,0)); } void code_rlvar(int e2,int reg) { use_int(reg); printf("\tmovl "); lvar(e2); printf(",%s\n",register_name(reg,SIZE_OF_INT)); } extern void code_i2c(int reg) { use_data_reg(reg,1); printf("\t%s %s,%s\n",cload(1,1), register_name(reg,1),register_name(reg,0)); } extern void code_i2s(int reg) { use_data_reg(reg,1); printf("\t%s %s,%s\n",cload(1,SIZE_OF_SHORT), register_name(reg,2),register_name(reg,0)); } extern void code_u2uc(int reg) { use_data_reg(reg,1); printf("\t%s %s,%s\n",cload(0,1), register_name(reg,1),register_name(reg,0)); } extern void code_u2us(int reg) { use_data_reg(reg,1); printf("\t%s %s,%s\n",cload(0,SIZE_OF_SHORT), register_name(reg,2),register_name(reg,0)); } void code_crlvar(int e2,int reg,int sign,int sz) { use_int(reg); printf("\t%s ",cload(sign,sz)); lvar(e2); printf(",%s\n",register_name(reg,regu(sign,sz,0))); } void code_fname(NMTBL *n,int creg) { use_int(creg); #ifdef __APPLE__ if (n->sc==STATIC) { printf("\tleaq _%s(%%rip),%s\n", n->nm, register_name(creg,0)); return; } #endif int r = get_ptr_cache(n); printf("\tmovq %s,%s\n", register_name(r,0), register_name(creg,0)); } void code_label_value(int label,int reg) { use_int(reg); #ifdef __APPLE__ printf("\tleaq _%d(%%rip),%s\n", label,register_name(reg,0)); #else printf("\tleaq _%d,%s\n",label,register_name(reg,0)); #endif } void code_const(int e2,int creg) { use_int(creg); printf("\tmovl $%d,%s\n",e2,register_name(creg,SIZE_OF_INT)); } void code_neg(int creg) { use_int(creg); printf("\tnegl %s\n", register_name(creg,SIZE_OF_INT)); } void code_not(int creg) { use_int(creg); printf("\tnotl %s\n", register_name(creg,SIZE_OF_INT)); } void code_lnot(int creg) { char *xrn; use_data_reg(creg,1); xrn = register_name(creg,1); printf("\tcmpl $0,%s\n", register_name(creg,SIZE_OF_INT)); printf("\tsete %s\n", xrn); printf("\tmovzbl %s,%s\n", xrn,register_name(creg,SIZE_OF_INT)); } void code_preinc(int e1,int e2,int dir,int sign,int sz,int reg) { char *xrn; if (car(e2)==REGISTER) { use_int(reg); printf("\taddl $%d,%s\n",dir,register_name(cadr(e2),SIZE_OF_INT)); if (use) printf("\tmovl %s,%s\n",register_name(cadr(e2),SIZE_OF_INT),register_name(reg,SIZE_OF_INT)); return; } g_expr(e2); xrn = register_name(creg,0); use_int(reg); printf("\t%s $%d,(%s)\n",(sz==1)?"addb":(sz==SIZE_OF_SHORT)?"addw":"addl",dir,xrn); if (use) printf("\t%s (%s),%s\n",cload(sign,sz),xrn,register_name(reg,regu(sign,sz,0))); } void code_postinc(int e1,int e2,int dir,int sign,int sz,int reg) { char *xrn; if (car(e2)==REGISTER) { use_int(reg); if (use) printf("\tmovl %s,%s\n",register_name(cadr(e2),SIZE_OF_INT),register_name(reg,SIZE_OF_INT)); printf("\taddl $%d,%s\n",dir,register_name(cadr(e2),SIZE_OF_INT)); return; } g_expr(e2); emit_push(); xrn = register_name((e2=emit_pop(0)),0); use_int(reg); if (use) printf("\t%s (%s),%s\n",cload(sign,sz),xrn,register_name(reg,regu(sign,sz,0))); printf("\t%s $%d,(%s)\n",(sz==1)?"addb":(sz==SIZE_OF_SHORT)?"addw":"addl",dir,xrn); emit_pop_free(e2); } void code_return(int creg) { use_int(creg); #ifdef __APPLE__ printf("\tleaq _%d(%%rip),%s\n",retcont,register_name(creg,0)); #else printf("\tleaq _%d,%s\n",retcont,register_name(creg,0)); #endif } void code_environment(int creg) { use_int(creg); printf("\tmovq %%rbp,%s\n",register_name(creg,0)); } static int rexpr_bool(int e1,int reg); #if FLOAT_CODE static int drexpr_bool(int e1,int reg); #endif void code_bool(int e1,int reg) { char *xrn; int e2,e3; if (rexpr_bool(e1,reg)) return; #if FLOAT_CODE if (drexpr_bool(e1,reg)) return; #endif char *s; if ((s=code_cond(OP(car(e1)),1))) { g_expr(list3(LCMP,cadr(e1),caddr(e1))); if (!use) return; use_data_reg(reg,1); printf("\tset%s\t%s\n",s,register_name(reg,1)); printf("\tmovzbq %s,%s\n",register_name(reg,1),register_name(reg,0)); return; } b_expr(e1,1,e2=fwdlabel(),1); /* including > < ... */ if (use) { use_int(reg); xrn = register_name(reg,0); printf("\txorq %s,%s\n",xrn,xrn); jmp(e3=fwdlabel()); fwddef(e2); printf("\tmovq $1,%s\n",xrn); fwddef(e3); } else { fwddef(e2); } } static char * code_gt(int cond) { return (cond?"g":"le"); } static char * code_ugt(int cond) { return (cond?"a":"be"); } static char * code_ge(int cond) { return (cond?"ge":"l"); } static char * code_uge(int cond) { return (cond?"ae":"b"); } static char * code_eq(int cond) { return (cond?"e":"ne"); } void code_cmp_crgvar(int e1,int reg,int sz,int label,int cond) { use_int(reg); int r = get_ptr_cache(ncaddr(e1)); if (cadr(e1)) { if (sz==1) printf("\tcmpb $0,%d(%s)\n",cadr(e1),register_name(r,0)); else if (sz==SIZE_OF_SHORT) printf("\tcmpw $0,%d(%s)\n",cadr(e1),register_name(r,0)); } else { if (sz==1) printf("\tcmpb $0,(%s)\n",register_name(r,0)); else if (sz==SIZE_OF_SHORT) printf("\tcmpw $0,(%s)\n",register_name(r,0)); } jcond(label,cond); } void code_cmp_crlvar(int e1,int reg,int sz,int label,int cond) { use_int(reg); if (sz==1) { printf("\tcmpb $0,"); lvar(e1); printf("\n"); } else if (sz==SIZE_OF_SHORT) { printf("\tcmpw $0,"); lvar(e1); printf("\n"); } jcond(label,cond); } void code_cmp_rgvar(int e1,int reg,int label,int cond) { use_int(reg); int r = get_ptr_cache(ncaddr(e1)); if (cadr(e1)) printf("\tcmpl $0,%d(%s)\n",cadr(e1),register_name(r,0)); else printf("\tcmpl $0,(%s)\n",register_name(r,0)); jcond(label,cond); } void code_cmp_rlvar(int e1,int reg,int label,int cond) { use_int(reg); printf("\tcmpl $0,"); lvar(e1); printf("\n"); jcond(label,cond); } void code_cmp_register(int e2,int label,int cond) { use_int(e2); printf("\tcmpl $0,%s\n",register_name(e2,SIZE_OF_INT)); jcond(label,cond); } void code_string(int e1,int creg) { char *s; int lb; NMTBL *n = ncaddr(e1); if ((lb=attr_value(n,LABEL))) { // already defined return code_label_value(lb,creg) ; } use_int(creg); s=n->nm; lb = emit_string_label(); ascii(s,n->dsp); if (output_mode==TEXT_EMIT_MODE) { printf(".text\n"); } else { text_mode(0); } #ifdef __APPLE__ printf("\tleaq _%d(%%rip),%s\n",lb, register_name(creg,0)); #else printf("\tleaq _%d,%s\n",lb,register_name(creg,0)); #endif set_attr(n,LABEL,lb); } void emit_strings(NMTBL *n) { int l = emit_string_label(); int i; for(i = n->dsp; i; i = cadr(i)) { ascii(scaddr(i),car(i)); } emit_label(l); } void code_strings(int e2,int reg) { int l = emit_string_label(); int i; for(i = e2; i; i = cadr(i)) { ascii(scaddr(i),car(i)); } if (output_mode==TEXT_EMIT_MODE) { printf(".text\n"); } else { text_mode(0); } code_label_value(l,reg); } #define MAX_COPY_LEN 64 /* ARG_ORDER==1 case do not allow library call in emit_copy */ void emit_copy(int from,int to,int length,int offset,int value,int det) { int dreg; char *drn,*frn; char *trn; use_int(from); use_int(to); frn = register_name(from,0); trn = register_name(to,0); /* length <0 means upward direction copy */ switch (length) { case 0: break; case 1: case -1: drn = register_name(dreg = get_data_register(),1); printf("\tmovb %d(%s),%s\n",offset,frn,drn); printf("\tmovb %s,%d(%s)\n",drn,offset,trn); free_register(dreg); break; case 2: case -2: drn = register_name(dreg = get_data_register(),2); printf("\tmovw %d(%s),%s\n",offset,frn,drn); printf("\tmovw %s,%d(%s)\n",drn,offset,trn); free_register(dreg); break; case 4: case -4: drn = register_name(dreg = get_register(),SIZE_OF_INT); printf("\tmovl %d(%s),%s\n",offset,frn,drn); printf("\tmovl %s,%d(%s)\n",drn,offset,trn); free_register(dreg); break; case 8: case -8: drn = register_name(dreg = get_register(),0); printf("\tmovq %d(%s),%s\n",offset,frn,drn); printf("\tmovq %s,%d(%s)\n",drn,offset,trn); free_register(dreg); break; default: if (length <0) { if (length > -MAX_COPY_LEN) { for(;length<=-8;length+=8,offset-=8) emit_copy(from,to,-8,offset-8,0,det); for(;length<=-4;length+=4,offset-=4) emit_copy(from,to,-4,offset-4,0,det); for(;length<=-2;length+=2,offset-=2) emit_copy(from,to,-2,offset-2,0,det); if(length<0) emit_copy(from,to,length,offset-1,0,det); break; } } else if (length <=MAX_COPY_LEN) { for(;length>=8;length-=8,offset+=8) emit_copy(from,to,8,offset,0,det); for(;length>=4;length-=4,offset+=4) emit_copy(from,to,4,offset,0,det); for(;length>=2;length-=2,offset+=2) emit_copy(from,to,2,offset,0,det); if(length>0) emit_copy(from,to,length,offset,0,det); break; } // should be parallel_rassign.... // clear_ptr_cache(); // code_save_stacks(); printf("\tpushq %%rsi\n"); printf("\tpushq %%rdi\n"); printf("\tpushq %%rcx\n"); printf("\tpushq %s\n",register_name(from,0)); printf("\tpushq %s\n",register_name(to,0)); printf("\tpopq %%rdi\n"); printf("\tpopq %%rsi\n"); if (length<0) { printf("\tmovq $%d,%%rcx\n",-length/4); printf("\taddq $%d,%%rsi\n",-length-4); printf("\taddq $%d,%%rdi\n",-length-4 +(to==REG_ESP?8*8:0) ); printf("\tstd\n\trep\n\tmovsl\n"); printf("\tpopq %%rcx\n"); printf("\tpopq %%rdi\n"); printf("\tpopq %%rsi\n"); if(length%4) { offset = offset+length/SIZE_OF_INT; length=length%4; emit_copy(from,to,length,offset,0,det); } } else { printf("\tmovq $%d,%%rcx\n",length/4); if (to==REG_ESP) printf("\taddl $%d,%%rdi\n",8*4); printf("\tcld\n\trep\n\tmovsl\n"); printf("\tpopq %%rcx\n"); printf("\tpopq %%rdi\n"); printf("\tpopq %%rsi\n"); if(length%4) { offset = offset+length/SIZE_OF_INT; length=length%4; emit_copy(from,to,length,offset,0,det); } } } if (value) { /* creg must point top of the destination data */ /* this code is necessary for the value of assignment or function call */ /* otherwise we don't need this */ if(creg!=to) { if (regs[creg]!=REG_VAR) free_register(creg); creg=to; } } } static int push_struct(int e4,int t, int arg) { int length,dreg; g_expr(e4); length=size(t); if(length%SIZE_OF_INT) { length += SIZE_OF_INT - (length%SIZE_OF_INT); } emit_push(); code_lvar(cadr(arg),USE_CREG); dreg = emit_pop(0); // copy dreg to creg with length // try small amount copy /* downward direction copy */ emit_copy(dreg,creg,length,0,0,1); emit_pop_free(dreg); /* we have value in creg, it may be changed */ return length/SIZE_OF_INT; } static int simple_arg(int e3) { return !contains_p(e3,not_simple_p); } #define caller_arg_offset_v(arg) (ARG_LVAR_OFFSET+(arg)*SIZE_OF_INT) /* use input register as current register */ static void use_input_reg(int reg,int mode) { if (is_int_reg(reg)) { if (ireg&® == ireg) { if (creg==ireg) creg = 0; ireg = 0; } } else if (is_float_reg(reg)) { if (freg&® == freg) { if (creg==freg) creg = ireg; freg = 0; } } if (mode) { clear_ptr_cache_reg(reg); regs[reg]=USING_REG; } } #if (ARG_ORDER==1) static int delayed_arg; #endif static int compute_complex_arg(int e3,int reg_arg_list,int arg) { int t=caddr(e3); int e4 = car(e3); reg_arg_list = list2(arg,reg_arg_list); #if ARG_ORDER==1 delayed_arg = list2(assign_expr0(arg,e4,t,t),delayed_arg); #else g_expr_u(assign_expr0(arg,e4,t,t)); #endif car(e3) = arg; return reg_arg_list; } static void increment_function_arg(int e3,int *pnargs,int *preg_arg,int *pfreg_arg) { int nargs=0,reg_arg=0,freg_arg=0; int t=type_value(caddr(e3)); if (t>=0&&(car(t)==BIT_FIELD)) { t = type_value(cadr(t)); } if(scalar(t)) { nargs ++ ; nargs ++ ; reg_arg++; } else if (t==LONGLONG||t==ULONGLONG) { nargs ++ ; reg_arg++; nargs ++ ; } else if (t==FLOAT) { freg_arg++; nargs += size(t)/SIZE_OF_INT; nargs ++ ; } else if (t==DOUBLE) { freg_arg++; nargs += size(t)/SIZE_OF_INT; } else if (t>=0&&(car(t)==STRUCT||car(t)==UNION)) { nargs += round8(size(t))/SIZE_OF_INT; } else { error(TYERR); nargs ++ ; } *pnargs += nargs; *preg_arg += reg_arg; *pfreg_arg += freg_arg; } #define AS_SAVE 1 #define AS_ARG 0 /* set storage type of caller's arguments register or stack this muse corprate with code_arg_register(); if AS_SAVE is set, register variable (or temporary local variable) is used. */ static int get_input_arg(int t,int mode,int nargs,int reg_arg,int freg_arg) { int arg = nargs - (reg_arg>MAX_INPUT_REGISTER_VAR?MAX_INPUT_REGISTER_VAR:reg_arg)*2 - (freg_arg>MAX_INPUT_DREGISTER_VAR?MAX_INPUT_DREGISTER_VAR:freg_arg)*2 ; t = type_value(t); if (t>=0&&(car(t)==BIT_FIELD)) { t = type_value(cadr(t)); } if(scalar(t)||(t==LONGLONG||t==ULONGLONG)) { if (mode==AS_SAVE) { return get_register_var(0); } else if (reg_arg>=MAX_INPUT_REGISTER_VAR) { return list3n(LVAR,caller_arg_offset_v(arg),0); } else { int e = get_input_register_var(reg_arg,0,0); clear_ptr_cache_reg(cadr(e)); return e; } } else if (t==FLOAT) { if (mode==AS_SAVE) { return get_dregister_var(0,0); } else if (freg_arg>=MAX_INPUT_DREGISTER_VAR) { return list3n(LVAR,caller_arg_offset_v(arg),0); } else return get_input_dregister_var(freg_arg,0,0,0); } else if (t==DOUBLE) { if (mode==AS_SAVE) { return get_dregister_var(0,1); } else if (freg_arg>=MAX_INPUT_DREGISTER_VAR) { return list3n(LVAR,caller_arg_offset_v(arg),0); } else return get_input_dregister_var(freg_arg,0,0,1); } else if (t>=0&&(car(t)==STRUCT||car(t)==UNION)) { if (mode==AS_SAVE) { return get_register_var(0); } else return list3n(LVAR,caller_arg_offset_v(arg),0); } else { error(-1); return get_register_var(0); } } static void code_call(int e2,NMTBL *fn,int jmp) { if (car(e2) == FNAME) { #ifdef __APPLE__ printf("\tcall\t_%s\n",fn->nm); #else printf("\tcall\t%s\n",fn->nm); #endif } else { printf("\tcall\t*%s\n",register_name(REG_R10,0)); } } int function(int e1) { int e2,e3,e4,e5,nargs,t; int arg,reg_arg,freg_arg,arg_assign; int dots; int reg_arg_list=0,ret_type; NMTBL *fn = 0; int jmp = 0; int complex_; int pnargs,preg_arg,pfreg_arg; int stargs; #if (ARG_ORDER==1) int save_delayed_arg = delayed_arg; delayed_arg = 0; #endif const int as_save = AS_SAVE; ret_type = function_type(cadddr(e1),&dots); if (caddr(cadddr(e1))==0) dots=1; arg_assign = 0; e2 = cadr(e1); if (car(e2) == FNAME) { fn=ncaddr(e2); } else { if (car(e2)==INDIRECT) e2=cadr(e2); // (*func)(i) case jmp = list3(REGISTER,REG_R10,0); if (!simple_arg(e2)) { e3=get_register_var(0); reg_arg_list = list2(e3,reg_arg_list); g_expr_u(assign_expr0(e3,e2,INT,INT)); e2=e3; } arg_assign = list2(assign_expr0(jmp,e2,INT,INT),arg_assign); } /* First we execute complex argument to avoid interaction with input variables. Remain the last complex argument in complex_. */ stargs = 0; complex_ = 0; nargs = reg_arg = freg_arg = 0; pnargs = preg_arg = pfreg_arg = 0; for (e3 = e1 = reverse0(caddr(e1)); e3; e3 = cadr(e3)) { t=caddr(e3); if ((e5= !simple_arg(car(e3)))) { if (complex_) { arg = get_input_arg(caddr(complex_),as_save, pnargs,preg_arg,pfreg_arg); reg_arg_list = compute_complex_arg(complex_,reg_arg_list,arg); } // memorise last complex arg parameter pnargs=nargs;preg_arg=reg_arg;pfreg_arg=freg_arg; complex_ = e3; } if (t>=0&&(car(t)==STRUCT||car(t)==UNION)) { // The struct should be pushed after complex arguments. if (e5) { // compute address only, complex_ is me now. Clear it. complex_ = 0; e4 = car(e3); if (car(e4)==INDIRECT) e4 = cadr(e4); if (!simple_arg(e4)) { // Calculate complex struct address here. // If simple, leave it. arg = get_register_var(0); #if ARG_ORDER==1 delayed_arg = list2( assign_expr0(arg,e4,LONGLONG,LONGLONG), delayed_arg); #else g_expr_u(assign_expr0(arg,e4,LONGLONG,LONGLONG)); #endif car(e3)=arg; reg_arg_list = list2(arg,reg_arg_list); car(e3) = rvalue_t(arg,LONGLONG); } } stargs = list4(e3,stargs,nargs,reg_arg); } increment_function_arg(e3,&nargs,®_arg,&freg_arg); } #if (ARG_ORDER==1) if (complex_) { arg = get_input_arg(caddr(complex_),as_save, pnargs,preg_arg,pfreg_arg); reg_arg_list = compute_complex_arg(complex_,reg_arg_list,arg); } for(;delayed_arg;delayed_arg = cadr(delayed_arg)) { g_expr_u(car(delayed_arg)); } #endif /* now all input register vars are free */ code_save_stacks(); // set_lreg(LREG_LREGISTER,0); set_freg(FREG_FREGISTER,0); set_ireg(CREG_REGISTER,0); // Struct arguments need emit_copy. it destructs 3 input registers. // But it returns no value on a register. So calculate it here. // We cannot do this in the previous loop, because the copied struct may be // override by other complex arguments. But before this we have to check // complex_. // ARG_ORDER==1 case put the last value on the top of stack. // emit_copy/push_struct must preserve argument stack, i.e. // no library call is allowed. int max_freg = 0; if (stargs) { #if (ARG_ORDER!=1) if (complex_) { arg = get_input_arg(caddr(complex_),AS_SAVE, pnargs,preg_arg,pfreg_arg); reg_arg_list = compute_complex_arg(complex_,reg_arg_list,arg); } #endif for(stargs=reverse0(stargs);stargs;stargs = cadr(stargs)) { e3 = car(stargs); e4 = car(e3); t = caddr(e3); arg = get_input_arg(t,AS_ARG,caddr(stargs),cadddr(stargs),0); push_struct(e4,t,arg); car(e3)=0; // done } #if (ARG_ORDER!=1) } else { // last complex argument can use input register if (complex_) { arg = get_input_arg(caddr(complex_),AS_ARG,pnargs,preg_arg,pfreg_arg) ; reg_arg_list = compute_complex_arg(complex_,reg_arg_list,arg); car(complex_) = 0; // done. if (car(arg)==LREGISTER) { set_ireg(cadr(arg),0); use_input_reg(cadr(arg),1); } else if (car(arg)==DREGISTER||car(arg)==FREGISTER) { max_freg ++; set_freg(cadr(arg),0); use_input_reg(cadr(arg),1); /* protect from input register free */ } } #endif } nargs = reg_arg = freg_arg = 0; // calc stack arguments first, it may requires extra registers, // and we can still use input registers now. for (e3 = e1; e3; increment_function_arg(e3,&nargs,®_arg,&freg_arg), e3 = cadr(e3)) { if (!(e4=car(e3))) continue; t=caddr(e3); arg = get_input_arg(t,AS_ARG,nargs,reg_arg,freg_arg); if (car(arg)!=LVAR) continue; g_expr_u(assign_expr0(arg,e4,t,t)); car(e3)=0; // done } nargs = reg_arg = freg_arg = 0; for (e3 = e1; e3; increment_function_arg(e3,&nargs,®_arg,&freg_arg), e3 = cadr(e3)) { if (!(e4=car(e3))) continue; t=type_value(caddr(e3)); arg = get_input_arg(t,AS_ARG,nargs,reg_arg,freg_arg); if(scalar(t)||t==LONGLONG||t==ULONGLONG) { reg_arg_list = list2(arg,reg_arg_list); /* protect from input register free */ if (car(arg)==LREGISTER) { t = LONGLONG; set_ireg(cadr(arg),0); g_expr_u(assign_expr0(arg,e4,t,t)); use_input_reg(cadr(arg),1); } else g_expr_u(assign_expr0(arg,e4,t,t)); } else if (t==DOUBLE||t==FLOAT) { reg_arg_list = list2(arg,reg_arg_list); if (car(arg)==DREGISTER||car(arg)==FREGISTER) { max_freg ++; set_freg(cadr(arg),0); g_expr_u(assign_expr0(arg,e4,t,t)); use_input_reg(cadr(arg),1); /* protect from input register free */ } else g_expr_u(assign_expr0(arg,e4,t,t)); } // structs are finished } if (max_func_args<nargs) max_func_args=nargs; for(;arg_assign;arg_assign=cadr(arg_assign)) { g_expr_u(car(arg_assign)); } clear_ptr_cache(); if (dots) { // needs number of fregister in double printf("\tmovb $%d,%%al\n", max_freg); } code_call(e2,fn,jmp); free_register_var(reg_arg_list); if (ret_type==DOUBLE||ret_type==FLOAT) { if (use) set_freg(RET_DREGISTER,0); else set_freg(FREG_FREGISTER,0); } else if (ret_type==VOID) { } else { if (use) set_ireg(RET_REGISTER,0); else set_ireg(CREG_REGISTER,0); } #if (ARG_ORDER==1) delayed_arg = save_delayed_arg; #endif return ret_type; } void code_alloca(int e1,int reg) { char *crn; if (!is_const(e1)) { g_expr(list3(BAND,list3(ADD,e1,list2(CONST,15)),list2(CONST,~15))); use_int(reg); } else { use_int(reg); code_const(round16(cadr(e1)),reg); } crn = register_name(reg,0); printf("\tsubq\t%s, %%rsp\n",crn); if (!max_func_arg_label) max_func_arg_label = fwdlabel(); printf("\tmovq %s%d(%%rip),%s\n",lpfx,max_func_arg_label ,crn); printf("\taddq\t%%rsp, %s\n",crn); } void code_frame_pointer(int e3) { use_int(e3); printf("\tmovq %s,%%rbp\n",register_name(e3,0)); } int code_frame_pointer_register() { return list2(REGISTER,REG_EBP); } void code_fix_frame_pointer(int disp_offset) { // must be empty } void code_jmp(char *s) { max_reg_var = REG_VAR_BASE-REG_VAR_MIN; max_freg_var = FREG_VAR_BASE-FREG_VAR_MIN; #ifdef __APPLE__ printf("\tjmp _%s\n",s); #else printf("\tjmp %s\n",s); #endif } void code_indirect_jmp(int e2) { use_int(e2); printf("\tjmp *%s\n",register_name(e2,0)); } void code_rindirect(int e1, int reg,int offset, int sign,int byte) { char *crn,*op; g_expr(e1); op=cload(sign,byte); crn = register_name(creg,0); use_int(reg); printf("\t%s %d(%s),%s\n",op,offset,crn,register_name(reg,regu(sign,byte,0))); } #if FLOAT_CODE int code_drindirect(int e1, int reg,int offset, int d) { g_expr(e1); int p = creg; use_float(d,reg); printf("\t%s %d(%s),%s\n",fload(d),offset,register_name(p,0),fregister_name(reg)); return DOUBLE; } #endif #if LONGLONG_CODE static void lload(int creg,int offset,int reg) { char *crn = register_name(creg,0); use_longlong(reg); printf("\tmovq %d(%s),%s\n",offset,crn,register_name(reg,0)); } int code_lrindirect(int e1, int reg, int offset, int us) { int reg0; g_expr(e1); reg0=creg; use_longlong(reg); lload(reg0,offset,reg); return LONGLONG; } #endif char * move(int byte) { return byte==1?"movb":byte==SIZE_OF_SHORT?"movw": byte==SIZE_OF_INT?"movl":"movq"; } void code_assign_gvar(int e2,int creg,int byte) { if (byte && byte <SIZE_OF_INT) { use_data_reg(creg,1); } else { use_int(creg); } int r = get_ptr_cache(ncaddr(e2)); if (cadr(e2)) printf("\t%s %s,%d(%s)\n",move(byte),register_name(creg,byte), cadr(e2),register_name(r,0)); else printf("\t%s %s,(%s)\n",move(byte),register_name(creg,byte), register_name(r,0)); } void code_assign_lvar(int e2,int creg,int byte) { if (byte && byte <SIZE_OF_INT) { use_data_reg(creg,1); } else { use_int(creg); } printf("\t%s %s,",move(byte),register_name(creg,byte)); lvar(e2); printf("\n"); } void code_assign_register(int e2,int byte,int creg) { use_int(creg); if (creg!=e2) printf("\tmovq %s,%s\n",register_name(creg,0),register_name(e2,0)); } void code_assign(int e2,int byte,int creg) { use_int(e2); if (byte && byte <SIZE_OF_INT) { use_data_reg(creg,1); } else { use_int(creg); } if (creg!=e2) printf("\t%s %s,(%s)\n",move(byte),register_name(creg,byte),register_name(e2,0)); } void code_register_assop(int e2,int reg, int op,int byte) { // reg <= reg(e2) op=reg use_int(reg); tosop(op,e2,reg); } void code_assop(int op,int creg,int byte,int sign) { int xreg; // (*pop()) op = creg // creg should be ecx use_int(creg); xreg = emit_pop(0); /* pop e3 value */ emit_push(); ld_indexx(byte,0,creg,ireg,sign); tosop(op,ireg,xreg); emit_pop_free(xreg); if (byte && byte <SIZE_OF_INT) { use_data_reg(ireg,1); } xreg = emit_pop(0); /* pop e3 value */ printf("\t%s %s,(%s)\n",move(byte),register_name(ireg,byte),register_name(xreg,0)); emit_pop_free(xreg); } int tosop_operand_safe_p(int op) { switch(op) { case ADD: case SUB: case CMP: case BAND: case EOR: case BOR: case MUL: case UMUL: return 1; default: return 0; } } void tosop1(int op,int reg,int oreg,int sz) { int ox=0; char *orn,*crn; // creg = creg op oreg use_int(reg); if(oreg==-1) { error(-1); } else if (oreg<= -REG_LVAR_OFFSET) { ox = get_register(); if (ox<0) error(-1); if (sz<=SIZE_OF_INT) code_rlvar(oreg+REG_LVAR_OFFSET,ox); else code_lrlvar(oreg+REG_LVAR_OFFSET,ox); free_lvar(oreg+REG_LVAR_OFFSET); oreg = ox; } switch(OP(op)) { case LSHIFT: case ULSHIFT: shift(sz<=SIZE_OF_INT?"sall":"salq",oreg,reg,sz); if(ox) free_register(ox); return; case RSHIFT: shift(sz<=SIZE_OF_INT?"sarl":"sarq",oreg,reg,sz); if(ox) free_register(ox); return; case URSHIFT: shift(sz<=SIZE_OF_INT?"shrl":"shrq",oreg,reg,sz); if(ox) free_register(ox); return; } // regs[oreg]=1; orn = register_name(oreg,sz<=SIZE_OF_INT?SIZE_OF_INT:0); crn = register_name(reg,sz<=SIZE_OF_INT?SIZE_OF_INT:0); char *q = sz<=SIZE_OF_INT?"l":"q"; switch(OP(op)) { case ADD: printf("\tadd%s %s,%s\n",q,orn,crn); break; case SUB: printf("\tsub%s %s,%s\n",q,orn,crn); break; case CMP: printf("\tcmp%s %s,%s\n",q,orn,crn); break; case BAND: printf("\tand%s %s,%s\n",q,orn,crn); break; case EOR: printf("\txor%s %s,%s\n",q,orn,crn); break; case BOR: printf("\tor%s %s,%s\n",q,orn,crn); break; case MUL: case UMUL: printf("\timul%s %s,%s\n",q,orn,crn); break; case DIV: case UDIV: case MOD: case UMOD: if (regs[REG_EDX]==PTRC_REG) clear_ptr_cache_reg(REG_EDX); use_register(reg,REG_EAX,1); if (oreg==REG_EAX) oreg=reg; if (oreg==REG_EDX) { use_register(oreg,REG_ECX,1); oreg = REG_ECX; } code_clear_stack_reg(REG_EDX); if (sz<=SIZE_OF_INT) { orn = register_name(oreg,SIZE_OF_INT); printf((op==DIV||op==MOD)? "\tcltd\n\tidivl %s\n": "\txorl %%edx,%%edx\n\tdivl %s\n",orn); set_ireg((op==MOD||op==UMOD)?REG_EDX:REG_EAX,0); set_ireg(reg,1); } else { orn = register_name(oreg,0); if (op==LDIV||op==LMOD) { code_lassign_lregister(REG_EDX,REG_EAX); printf("\tsarq $63,%%rdx\n"); printf("\tidivq %s\n",orn); } else { printf("\txorl %%edx,%%edx\n\tdivq %s\n",orn); } set_lreg((op==LMOD||op==LUMOD)?REG_EDX:REG_EAX,0); set_lreg(reg,1); } break; } if(ox && ox!=ireg) free_register(ox); } void tosop(int op,int reg,int oreg) { tosop1(op,reg,oreg,SIZE_OF_INT); } int code_const_op_p(int op,int e) { if (car(e)!=CONST) return 0; if (op==DIV||op==UDIV) return ilog(cadr(e)); if (op==MOD||op==UMOD) return 0; else return 1; } void oprtc1(int op,int reg,int orn1,int sz) { char *crn; int datareg; use_int(reg); char *q = sz<=SIZE_OF_INT?"l":"q"; crn = register_name(reg,sz<=SIZE_OF_INT?SIZE_OF_INT:0); long orn ; if (car(orn1)==CONST) orn = cadr(orn1); else if (car(orn1)==LCONST) orn = lcadr(orn1); else { orn =0; error(-1); } datareg=is_data_reg(reg); switch(OP(op)) { case LSHIFT: case ULSHIFT: printf("\tsal%s $%ld,%s\n",q,orn,crn); return; case DIV: orn = ilog(orn); case RSHIFT: printf("\tsar%s $%ld,%s\n",q,orn,crn); return; case UDIV: orn = ilog(orn); case URSHIFT: printf("\tshr%s $%ld,%s\n",q,orn,crn); return; case ADD: printf("\tadd%s $%ld,%s\n",q,orn,crn); break; case SUB: printf("\tsub%s $%ld,%s\n",q,orn,crn); case CMP: printf("\tcmp%s $%ld,%s\n",q,orn,crn); break; case BAND: if (datareg&&(orn & ~255)==~255) printf("\tandb $%ld,%s\n",orn,register_name(reg,1)); else if (datareg&&(orn & ~65535)==~65535) printf("\tandw $%ld,%s\n",orn,register_name(reg,2)); else if (sz<=SIZE_OF_INT||(datareg&&(orn & ~0xffffffffL)==~0xffffffffL)) printf("\tandl $%ld,%s\n",orn,register_name(reg,4)); else { int t = get_register(); char *trn = register_name(t,0); printf("\tmovq $%ld,%s\n",orn,trn); printf("\tandq %s,%s\n",trn,crn); free_register(t); } break; case EOR: printf("\txor%s $%ld,%s\n",q,orn,crn); break; case BOR: if (datareg&&(orn & ~255)==0) printf("\tor $%ld,%s\n",orn,register_name(reg,1)); else if (datareg&&(orn & ~65535)==0) printf("\tor $%ld,%s\n",orn,register_name(reg,2)); else if (sz<=SIZE_OF_INT||(datareg&&(orn & ~0xffffffffL)==0)) printf("\torl $%ld,%s\n",orn,register_name(reg,4)); else { int t = get_register(); char *trn = register_name(t,0); printf("\tmovq $%ld,%s\n",orn,trn); printf("\torq %s,%s\n",trn,crn); free_register(t); } break; case MUL: case UMUL: if (ilog(orn)) { printf("\tsal%s $%d,%s\n",q,ilog(orn),crn); } else printf("\t%s%s $%ld,%s\n","imul",q,orn,crn); break; default: error(-1); } } void oprtc(int op,int reg,int orn) { oprtc1(op,reg,orn,SIZE_OF_INT); } static void shift(char *op, int oreg,int reg,int sz) { int dreg; use_register(oreg,REG_ECX,1); dreg = (reg==REG_ECX)?oreg:reg; printf("\t%s %%cl,%s\n",op,register_name(dreg,sz<=SIZE_OF_INT?SIZE_OF_INT:0)); set_ireg(dreg,0); set_ireg(reg,1); } void ld_indexx(int byte, int n, int xreg,int reg,int sign) { if (byte && byte <SIZE_OF_INT) { use_data_reg(reg,1); } else { use_int(reg); } if (n) printf("\t%s %d(%s),%s\n",cload(sign,byte),n, register_name(xreg,0),register_name(reg,regu(sign,byte,0))); else printf("\t%s (%s),%s\n",cload(sign,byte), register_name(xreg,0),register_name(reg,regu(sign,byte,0))); } int code_csvalue() { return glist2(REGISTER,creg); /* for switch value */ } void code_cmpdimm(int e, int csreg,int label,int cond) { /* used in dosiwtch() */ set_ireg(csreg,0); printf("\tcmpl $%d,%s\n",e,register_name(creg,SIZE_OF_INT)); jcond(label,cond); } void code_opening(char *filename) { printf("\t.file \"%s\"\n",filename); #ifndef __llvm__ printf("\t.version\t\"01.01\"\n"); #endif /* printf("gcc2_compiled.:\n"); */ // printf(".text\n"); } static void emit_lib(char *p[]) { while(*p) { printf("%s\n",*p++); } } void code_closing() { if (float_one_lib_used) emit_lib(float_one_lib); if (float_one_f_lib_used) emit_lib(float_one_f_lib); global_table(); printf("\t.ident \"Micro-C compiled\"\n"); } static char * code_cond(int op,int cond) { switch(op) { case GT: return code_gt(cond); case UGT: return code_ugt(cond); case GE: return code_ge(cond); case UGE: return code_uge(cond); case LT: return code_ge(!cond); case ULT: return code_uge(!cond); case LE: return code_gt(!cond); case ULE: return code_ugt(!cond); case EQ: return code_eq(cond); case NEQ: return code_eq(!cond); default: return 0; } } static int rexpr_bool(int e1,int reg) { char *s; if (!(s=code_cond(car(e1),1))) return 0; g_expr(list3(CMP,cadr(e1),caddr(e1))); if (!use) return 1; use_data_reg(reg,1); printf("\tset%s\t%s\n",s,register_name(reg,1)); printf("\tmovzbl %s,%s\n",register_name(reg,1),register_name(reg,SIZE_OF_INT)); return 1; } int rexpr(int e1, int l1, int cond,int t) { g_expr(list3(CMP,cadr(e1),caddr(e1))); printf("\tj%s\t_%d\n",code_cond(car(e1),cond),l1); return l1; } static void jcond(int l, char cond) { printf("\tj%s\t_%d\n",cond==LT?code_ge(0):cond?"ne":"e",l); } void jmp(int l) { printf("\tjmp\t_%d\n",l); control = 0; /* align? */ /* this is not allowed because of ? operator use_register(creg,REG_EAX,0); */ printf("\t.align 4\n"); } void code_comment(char *s) { printf("## %s",s); } /* static int lfb; static int lfe; static int lcfi1; static int lcfi2; static int lcfi3; static void init_lcf() { lfb = fwdlabel(); lfe = fwdlabel(); lcfi1 = 0; lcfi2 = 0; lcfi3 = 0; } */ static int code_setup; static int code_base; void code_enter(char *name) { // init_lcf(); text_mode(0); printf("\t.align 4\n"); #ifndef __APPLE__ if (stmode!=STATIC) printf(".globl %s\n",name); printf("\t.type\t%s,@function\n",name); printf("%s:\n",name); #else if (stmode!=STATIC) printf(".globl _%s\n",name); printf("_%s:\n",name); clear_ptr_cache(); #endif } void code_enter1(int args) { code_disp_label=fwdlabel(); printf("\tmovq %%rbp,%%rsp\n"); printf("\tsubq _%d(%%rip),%%rsp\n",code_disp_label); // printf("## args %d disp %d code_disp_offset=%d\n",args,disp,code_disp_offset); } void code_leave(char *name) { code_offset_set(fnptr); #ifndef __APPLE__ // printf("_%d:\n",labelno); // printf("\t.size\t%s,_%d-%s\n",name,labelno,name); local_table(); labelno++; #else local_table(); #endif free_all_register(); } void enter(char *name) { text_mode(0); printf("\t.align 2\n"); #ifndef __APPLE__ if (stmode!=STATIC) printf(".globl %s\n",name); printf("%s:\n",name); // printf("\t.type\t%s,@function\n",name); #else if (stmode!=STATIC) printf(".globl _%s\n",name); printf("_%s:\n",name); #endif lvar_offset_label = fwdlabel(); r1_offset_label = fwdlabel(); max_func_args = 0; printf("\tpushq %%rbp\n"); printf("\tmovq %%rsp,%%rbp\n"); printf("\tjmp _%d\n", (code_setup=fwdlabel())); #ifdef __APPLE__ clear_ptr_cache(); #endif fwddef((code_base=fwdlabel())); control=1; } void enter1() { text_mode(0); } void code_label_call(int l) { printf("\tcall\tL_%d\n",l); } void code_ret() { printf("\tret\n"); control=0; } static void make_return_continuation() { int ty = cadr(fnptr->ty); fwddef(retcont); if (ty==FLOAT||ty==DOUBLE) { set_freg(RET_DREGISTER,0); printf("\tmovs%s %s,%s\n",ty==FLOAT?"s":"d",fregister_name(REG_XMM0),fregister_name(creg)); printf("\tmovq %s,%%rbp\n",register_name(REG_R15,0)); } else if (ty>0&&( car(ty)==STRUCT || car(ty)==UNION)) { set_ireg(RET_REGISTER,0); printf("\tlea %d(%%rbp),%s\n",disp-SIZE_OF_LONGLONG, register_name(creg,0)); printf("\tmovq %s,%%rbp\n",register_name(REG_R15,0)); } else if (ty!=VOID) { set_ireg(RET_REGISTER,0); printf("\tmovq %s,%s\n",register_name(REG_R15,0),register_name(creg,0)); printf("\tmovq %s,%%rbp\n",register_name(REG_R14,0)); } } void code_register_pop() { int i = max_reg_var; for(;i>=0;i--) { printf("\tpopq %s\n", register_name(REG_VAR_BASE-i,0)); } } void code_register_push() { int i = 0; for(;i<=max_reg_var;i++) { printf("\tpushq %s\n", register_name(REG_VAR_BASE-i,0)); } } void leave(int control, char *name) { #ifdef __APPLE__ disp &= -(SIZE_OF_INT*4); // 16byte alignment // disp -= 12; #else disp &= -SIZE_OF_INT; #endif if (control) code_set_return_register(1); if (retcont) { if (control) jmp(retlabel); make_return_continuation(); } fwddef(retlabel); printf("\tleaq %d(%%rbp),%%rsp\n",max_reg_var<0?0:-(max_reg_var+1)*SIZE_OF_LONGLONG); code_register_pop(); printf("\tleave\n"); printf("\tret\n"); control=0; int r1_offset = code_offset_set(fnptr); // we can do this in enter(), in parse tree mode text_mode(0); fwddef(code_setup); code_register_push(); printf("\tsubq $%d,%%rsp\n",r1_offset); printf("\tjmp _%d\n",code_base); #ifndef __APPLE__ // printf("_%d:\n",labelno); // printf("\t.size\t%s,_%d-%s\n",name,labelno,name); #endif local_table(); labelno++; free_all_register(); } int code_get_fixed_creg(int reg,int type) { if (type==FLOAT||type==DOUBLE) { if (reg==USE_CREG) { if (regs[FREG_FREGISTER]==0) { set_freg(FREG_FREGISTER,(!is_int_reg(freg))&®s[freg]==USING_REG); return FREG_FREGISTER; } } use_float(type==DOUBLE, reg); return reg; } else { if (reg==USE_CREG) { if (regs[CREG_REGISTER]==0) { set_ireg(CREG_REGISTER,is_int_reg(creg)&®s[creg]!=0); return CREG_REGISTER; } } use_int(reg); return reg; } } void code_set_fixed_creg(int reg,int mode,int type) { if (type==FLOAT||type==DOUBLE) { set_freg(reg,mode); } else if (type==LONGLONG||type==ULONGLONG) { set_ireg(reg,mode); } else { set_ireg(reg,mode); } } int code_set_return_register(int mode) { // before goto leave code, set return register if (cadr(fnptr->ty)==FLOAT) { set_freg(RET_FREGISTER,mode); return freg; } else if (cadr(fnptr->ty)==DOUBLE) { set_freg(RET_DREGISTER,mode); return freg; } else if (cadr(fnptr->ty)==LONGLONG||cadr(fnptr->ty)==ULONGLONG) { set_lreg(RET_LREGISTER,mode); return ireg; } else if (cadr(fnptr->ty)==VOID) { return 0; } else { set_ireg(RET_REGISTER,mode); return ireg; } } void gen_gdecl(char *n, int gpc) { // must be empty } extern void ascii(char *s,int len) { if (s[len-1] == 0) { printf("\t.string \""); len--; } else printf("\t.ascii \""); while(len-- > 0) { if (*s=='\n') printf("%cn",92); else if (*s<' ') printf("%c%03o",92,*s); else if (*s=='\\') printf("\\\\"); else if (*s==34) printf("%c%c",92,34); else printf("%c",*s); s++; } printf("%c\n",34); } extern int emit_string_label() { int lb; cstring_mode(); lb=fwdlabel(); printf("_%d:\n",lb); return lb; } extern void emit_string(char *s,int t,int len) { t = type_value(t); if (car(t)==ARRAY && (type_value(cadr(t))==CHAR||type_value(cadr(t))==UCHAR)) { ascii(s,len); } else { int l = emit_string_label(); ascii(s,len); emit_label(l); } return; } void code_align(int t) { int d; switch(t) { case CHAR: case UCHAR: return; case SHORT: case USHORT: d = data_alignment & 1; break; default: d = data_alignment & 3; } if (d) { printf("\t.align 2\n"); data_alignment = 0; } } extern void emit_global(NMTBL *n,int a,int e) { int t = type_value(n->ty); if (e>0 && (car(e)==STRING || car(e)==STRINGS )&& t>0 && car(t)==ARRAY && (type_value(cadr(t))==CHAR||type_value(cadr(t))==UCHAR)) { cstring_mode(); } else data_mode(n->nm); code_align(a); #ifdef __APPLE__ if (n && n->sc!=STATIC) printf(".globl\t_%s\n",n->nm); printf("_%s:\n",n->nm); #else if (n && n->sc!=STATIC) printf(".globl\t%s\n",n->nm); printf("%s:\n",n->nm); #endif } extern void emit_space(int sp) { data_mode(0); printf("\t.space\t%d\n",sp); } extern void emit_char(int d) { data_mode(0); printf("\t.byte %d\n",d); } extern void emit_short(int d) { data_mode(0); printf("\t.short %d\n",d); } extern void emit_int(int d) { data_mode(0); printf("\t.long %d\n",d); } extern void emit_longlong(int e) { #if LONGLONG_CODE long long ll = car(e)==CONST?cadr(e):lcadr(e); data_mode(0); printf("\t.quad\t0x%llx\n",ll); #endif } extern void emit_double(int e) { #if FLOAT_CODE double d = dcadr(e); data_mode(0); #if (ENDIAN_D==0) printf("\t.long\t0x%x,0x%x\n",code_d1(d),code_d2(d)); #else printf("\t.long\t0x%x,0x%x\n",code_d2(d),code_d1(d)); #endif #endif } extern void emit_float(int e) { #if FLOAT_CODE float f = dcadr(e); data_mode(0); printf("\t.long\t0x%x\n",*(int *)&f); #endif } extern void emit_address(char *s,int offset) { data_mode(0); #ifdef __APPLE__ if (offset) printf("\t.quad _%s+%d\n",s,offset); else printf("\t.quad _%s\n",s); #else if (offset) printf("\t.quad %s+%d\n",s,offset); else printf("\t.quad %s\n",s); #endif } extern void emit_label(int labelno) { data_mode(0); printf("\t.quad _%d\n",labelno); } extern void emit_data_closing(NMTBL *n) { #ifdef DOT_SIZE int lb; #endif if (mode==GDECL) { data_mode(0); #ifdef DOT_SIZE lb=fwdlabel(); printf("_%d:\n",lb); printf("\t.size\t%s,_%d-%s\n",n->nm,lb,n->nm); #endif } } void exntern_entry(NMTBL *n) { #if 0 // We don't need this. static int gtbl_label = 0; int d = attr_value_in_list(n->attr,FUNCTION); int lfb = car(d); int lfe = cadr(d); int lcfi1 = caddr(d); int lcfi2 = cadddr(d); int lcfi3 = caddddr(d); int set1 = gtbl_label++; int set2 = gtbl_label++; int set3 = gtbl_label++; int set4 = gtbl_label++; int set5 = gtbl_label++; int set6 = gtbl_label++; printf( ".globl _%s.eh\n" // name of this entry "_%s.eh:\n" " .set L$set$%d,LEFDE%d-LASFDE%d\n" // size of this entry " .long L$set$%d\n" "LASFDE%d:\n" " .long LASFDE%d-EH_frame1\n" " .quad LFB%d-.\n" // function top " .set L$set$%d,LFE%d-LFB%d\n" // size of function " .quad L$set$%d\n" " .byte 0x0\n" " .byte 0x4\n" " .set L$set$%d,LCFI%d-LFB%d\n" // pushq %rbp " .long L$set$%d\n" " .byte 0xe\n" " .byte 0x10\n" " .byte 0x86\n" " .byte 0x2\n" " .byte 0x4\n" " .set L$set$%d,LCFI%d-LCFI%d\n" // movq %rsp, %rbp " .long L$set$%d\n" " .byte 0xd\n" " .byte 0x6\n", n->nm, n->nm, set1, set2, set3, set1, set3, set3, lfb1, set4, lfe, lfb, lfb2, set5, lcfi1, lfb, set5 set6, lcfi2, lcfi1, set6 ); if (numreg>0) { int set7 = gtbl_label++; printf( " .byte 0x4\n" " .set L$set$%d,LCFI%d-LCFI%d\n" // register variable save " .long L$set$%d\n" " .byte 0x83\n", set7, lcfi3, lfci2, set7 ); } switch(numreg) { case 5: printf( " .byte 0x7\n" " .byte 0x8c\n"); case 4: printf( " .byte 0x6\n" " .byte 0x8d\n"); case 3: printf( " .byte 0x5\n" " .byte 0x8e\n"); case 2: printf( " .byte 0x4\n" " .byte 0x8f\n"); case 1: printf( " .byte 0x3\n"); ); } printf( " .align 3\n" "LEFDE%d:\n", set1); #endif } void global_table(void) { #ifndef __APPLE__ NMTBL *n; int init; init=0; for(n=global_list;n;n = n->next) { if (is_code(n) || is_function(n)) { } if ((n->sc == GVAR||n->sc == STATIC) && n->dsp != -1) { if (is_code(n)||is_function(n)) continue; /* n->dsp = -1 means initialized global */ if (init==0) { data_mode(0); init=1; } printf(".comm %s,%d\n",n->nm,size(n->ty)); // .lcomm? } } #else NMTBL *n; int init; init=0; for(n=global_list;n;n = n->next) { if ((n->sc == GVAR) && n->dsp != -1) { if (is_code(n)||is_function(n)) continue; /* n->dsp = -1 means initialized global */ if (init==0) { data_mode(0); init=1; } printf(".comm _%s,%d\n",n->nm,size(n->ty)); } else if ((n->sc==STATIC) && n->dsp != -1) { /* n->dsp = -1 means initialized global */ if (is_code(n)||is_function(n)) { #if 0 printf("\t.set L_%s$stub,_%s\n",n->nm,n->nm); #endif continue; } if (init==0) { data_mode(0); init=1; } printf(".lcomm _%s,%d\n",n->nm,size(n->ty)); } } #if 0 init=0; for(n = global_list;n!=&null_nptr;n = n->next) { if (n->sc == GVAR || ((is_code(n) || is_function(n)) &&has_attr(n,FNAME)) ) { if (init==0) { printf(".section __TEXT,__eh_frame,coalesced,no_toc+strip_static_syms+live_support\nEH_frame1:\n"); printf( " .set L$set$0,LECIE1-LSCIE1\n" " .long L$set$0\n" "LSCIE1:\n" " .long 0x0\n" " .byte 0x1\n" " .ascii \"zR\0\"\n" " .byte 0x1\n" " .byte 0x78\n" " .byte 0x10\n" " .byte 0x1\n" " .byte 0x10\n" " .byte 0xc\n" " .byte 0x7\n" " .byte 0x8\n" " .byte 0x90\n" " .byte 0x1\n" " .align 3\n" "LECIE1:\n"); init=1; } } } #endif for(n = global_list;n!=&null_nptr;n = n->next) { if (n->sc==EXTRN1) { if ((is_code(n) || is_function(n))) { exntern_entry(n) ; } } } printf(" .subsections_via_symbols\n"); #endif } void local_table(void) { NMTBL *n; int init; init=0; /* static local variables */ for(n=local_static_list;n;n = n->next) { if (n->sc == STATIC) { if (init==0) { data_mode(0); init=1; } #ifdef __APPLE__ if (n->dsp!= -1) /* -1 means initialized global */ printf(".lcomm _%s,%d\n",n->nm,size(n->ty)); #else if (n->dsp!= -1) /* -1 means initialized global */ printf(".lcomm %s,%d\n",n->nm,size(n->ty)); #endif } } } void cstring_mode(int align) { if (output_mode!=RODATA_EMIT_MODE) { #ifndef __APPLE__ printf(".section\t.rodata\n\t.align 2\n"); #else printf("\t.cstring\n"); #endif output_mode = RODATA_EMIT_MODE; } } void text_mode(int align) { if (output_mode!=TEXT_EMIT_MODE) { printf(".text\n"); // printf("\t.align 2\n"); output_mode = TEXT_EMIT_MODE; } } void data_mode(char *name) { if (output_mode!=DATA_EMIT_MODE) { printf(".data\n"); output_mode = DATA_EMIT_MODE; } #ifndef __APPLE__ if (name) printf("\t.type\t%s,@object\n",name); #endif } #if FLOAT_CODE /* floating point */ char * fload(int d) { return d?"movsd":"movss"; } #define fstore(d) fload(d) void code_dassign_gvar(int e2,int freg,int d) { use_float(d,freg); #ifdef __APPLE__ int r = get_ptr_cache(ncaddr(e2)); if (cadr(e2)) printf("\t%s %s,%d(%s)\n",fstore(d),fregister_name(freg),cadr(e2),register_name(r,0)); else printf("\t%s %s,(%s)\n",fstore(d),fregister_name(freg),register_name(r,0)); #else if (cadr(e2)) printf("\t%s %s,%s+%d\n",fstore(d),fregister_name(freg),(ncaddr(e2))->nm,cadr(e2)); else printf("\t%s %s,%s\n",fstore(d),fregister_name(freg),(ncaddr(e2))->nm); #endif } void code_dassign_lvar(int e2,int freg,int d) { use_float(d,freg); printf("\t%s %s,",fstore(d),fregister_name(freg)); lvar(e2); printf("\n"); } /* e = d */ void code_dassign_dregister(int e,int d,int f) { use_float(d,f); if (f!=e) printf("\tmovapd %s,%s\n",fregister_name(f),fregister_name(e)); } void code_dassign(int e2,int freg,int d) { use_float(d,freg); printf("\t%s %s,(%s)\n",fstore(d),fregister_name(freg),register_name(e2,0)); } static int code_dload_1(int d, int reg); static double d0 = 1.0; static int code_d1(double d) { int *i = (int *)&d0; int *j = (int *)&d; return (i[1] == 0x3ff00000)?j[0]:j[1]; } static int code_d2(double d) { int *i = (int *)&d0; int *j = (int *)&d; return (i[1] == 0x3ff00000)?j[1]:j[0]; } static void emit_dconst0(ValuePtr value, int lb, void *arg) { long d_mode = (long) arg; #ifdef __APPLE__ printf(" \t.literal8\n\t.align 3\n"); #else printf(" \t.section\t.rodata\n\t.align 8\n"); #endif printf("_%d:\n",lb); #if ENDIAN_D==0 if (d_mode) printf("\t.long\t0x%x,0x%x\n",code_d1(value->d),code_d2(value->d)); else { printf("\t.long\t0x%x\n",value->i); } #endif if (output_mode==TEXT_EMIT_MODE) { printf(".text\n"); } else { text_mode(0); } } /* load double / float const we should keep what constant we have create */ void code_dconst(int e2,int freg,int d) { int sz; Value value; value.d = dcadr(e2); if (d) { sz = sizeof(double); } else { value.f = (float) value.d; sz = sizeof(float); } use_float(d,freg); if (value.d==1.0) { code_dload_1(d,freg); return; } if (value.d==0.0) { char *f = fregister_name(freg); if (d) { printf("\txorpd %s,%s\n",f,f); } else { printf("\txorps %s,%s\n",f,f); } return ; } long d_mode = d; int lb = get_data_label(&value,sz,emit_dconst0, (void*) d_mode); #ifdef __APPLE__ printf("\tmovs%s _%d(%%rip),%s\n",d?"d":"s",lb,fregister_name(freg)); #else printf("\tmovs%s _%d,%s\n",d?"d":"s",lb,fregister_name(freg)); #endif } void code_builtin_fabsf(int e) { int e1 = USE_CREG; use_float(0,e1); } void code_builtin_fabs(int e) { int e1 = USE_CREG; use_float(1,e1); } void code_builtin_inff() { int e1 = USE_CREG; use_float(0,e1); } void code_builtin_inf() { int e1 = USE_CREG; use_float(1,e1); } void code_dneg(int freg,int d) { use_float(d,freg); int reg = get_dregister(d); code_dconst(dlist2(DCONST,0),reg,d); printf("\tsubs%s %s,%s\n",d?"d":"s",fregister_name(freg),fregister_name(reg)); set_freg(reg,0); } void code_d2i(int reg) { use_float(1,reg); char *f = fregister_name(reg); set_ireg(get_register(),0); printf("\tcvttsd2si %s,%s\n",f,register_name(ireg,0)); } void code_i2d(int reg) { use_int(reg); int c = reg; set_freg(get_dregister(1),0); printf("\tsalq $32,%s\n",register_name(c,0)); printf("\tsarq $32,%s\n",register_name(c,0)); printf("\tcvtsi2sd %s,%s\n",register_name(c,0),fregister_name(freg)); } void code_d2u(int reg) { use_float(1,reg); char *f = fregister_name(reg); set_ireg(get_register(),0); printf("\tcvttsd2siq %s,%s\n",f,register_name(ireg,0)); } #if 0 static void code_u2d1(int reg,int d) { use_int(reg); int i = reg; char *u = register_name(i,0); int tmp = get_data_register(); char *t = register_name(tmp,0); set_freg(get_dregister(d),0); char *dn = fregister_name(freg); int td = get_dregister(d); char *dbs = d?"d":"s"; printf(" cmpq $0, %s\n",u); printf(" js 1f\n"); printf(" cvtsi2s%sq %s,%s\n",dbs,u,dn); printf(" jmp 2f\n"); printf("1:\n"); printf(" movq %s, %s\n",u,t); printf(" shrq %s\n",t); printf(" andl $1, %s\n",register_name(i,SIZE_OF_INT)); printf(" orq %s, %s\n",t,u); printf(" cvtsi2s%sq %s, %s\n",dbs,u,dn); printf(" movap%s %s, %s\n",dbs,dn,fregister_name(td)); printf(" adds%s %s, %s\n",dbs,dn,fregister_name(td)); printf("2:\n"); free_register(tmp); free_register(td); } #endif void code_u2d(int reg) { use_int(reg); int c = reg; set_freg(get_dregister(1),0); printf("\tcvtsi2sdq %s,%s\n",register_name(c,0),fregister_name(freg)); } void code_d2f(int reg) { use_float(0,reg); int f = reg; set_freg(get_dregister(0),0); printf("\tcvtsd2ss %s,%s\n",fregister_name(f),fregister_name(freg)); } void code_f2d(int reg) { use_float(0,reg); int f = reg; set_freg(get_dregister(1),0); printf("\tcvtss2sd %s,%s\n",fregister_name(f),fregister_name(freg)); } void code_f2i(int reg) { use_float(0,reg); int f = reg; set_ireg(get_register(),0); printf("\tcvttss2si %s,%s\n",fregister_name(f),register_name(creg,0)); } void code_f2u(int reg) { use_float(0,reg); int f = reg; set_ireg(get_register(),0); printf("\tcvttss2siq %s,%s\n",fregister_name(f),register_name(creg,0)); } void code_i2f(int reg) { use_int(reg); int c = reg; set_freg(get_dregister(0),0); printf("\tsalq $32,%s\n",register_name(c,0)); printf("\tsarq $32,%s\n",register_name(c,0)); printf("\tcvtsi2ss %s,%s\n",register_name(c,0),fregister_name(creg)); } void code_u2f(int reg) { use_int(reg); int c = reg; set_freg(get_dregister(0),0); printf("\tmovl %s,%s\n",register_name(c,SIZE_OF_INT),register_name(c,SIZE_OF_INT)); printf("\tcvtsi2ss %s,%s\n",register_name(c,0),fregister_name(creg)); } void code_drgvar(int e2,int d,int freg) { use_float(d,freg); int r = get_ptr_cache(ncaddr(e2)); if (cadr(e2)) printf("\t%s %d(%s),%s\n",fload(d),cadr(e2),register_name(r,0),fregister_name(freg)); else printf("\t%s (%s),%s\n",fload(d),register_name(r,0),fregister_name(freg)); } void code_drlvar(int e2,int d,int freg) { use_float(d,freg); printf("\t%s ",fload(d)); lvar(e2); printf(",%s\n", fregister_name(freg)); } void code_cmp_drgvar(int e2,int reg,int d,int label,int cond) { char *db = d?"d":"s"; use_float(d,reg); char *f = fregister_name(reg); int t = get_dregister(d); int r = get_ptr_cache(ncaddr(e2)); if (cadr(e2)) printf("\tmovs%s %d(%s),%s\n",db,cadr(e2),register_name(r,0),f); else printf("\tmovs%s (%s),%s\n",db,register_name(r,0),f); printf("\txorp%s %s,%s\n",db,f,fregister_name(t)); printf("\tucomis%s %s,%s\n",db,f,fregister_name(t)); free_register(t); jcond(label,cond); } void code_cmp_drlvar(int e2,int reg,int d,int label,int cond) { printf("\tfcomp "); lvar(e2); printf("\n"); jcond(label,cond); } void dtosop(int op,int reg,int oreg) { char *opn=""; char *frn; char *grn; int ox = -1; use_float(1,reg); if(oreg==-1) { error(-1); } else if (oreg<= -REG_LVAR_OFFSET) { ox = get_dregister(1); if (ox<0) error(-1); regs[ox] = USING_REG; code_drlvar(oreg+REG_LVAR_OFFSET,1,ox); oreg = ox; } grn=fregister_name(oreg); frn=fregister_name(reg); switch(op) { case FADD: opn="addss"; break; case DADD: opn="addsd"; break; case FSUB: opn="subss"; break; case DSUB: opn="subsd"; break; case FDIV: opn="divss"; break; case DDIV: opn="divsd"; break; case FMUL: opn="mulss"; break; case DMUL: opn="mulsd"; break; case FCMP: if (oreg<= -REG_LVAR_OFFSET) { printf("\tucomiss "); lvar(oreg); printf(",%s\n",frn); } else { printf("\tucomiss %s,%s\n",grn,frn); } if (ox!=-1) free_register(ox); return; case DCMP: if (oreg<= -REG_LVAR_OFFSET) { printf("\tucomisd "); lvar(oreg); printf(",%s\n",frn); } else { printf("\tucomisd %s,%s\n",grn,frn); } if (ox!=-1) free_register(ox); return; case DCMPGE: case FCMPGE: default: error(-1); return; } if (oreg<= -REG_LVAR_OFFSET) { printf("\t%s ",opn); lvar(oreg); printf(",%s\n",frn); } else { printf("\t%s %s,%s\n",opn,grn,frn); } if (ox!=-1) free_register(ox); } void code_dassop(int op,int reg,int d) { /* we have lvalue in creg, applied floating value is in freg */ // (*creg) op = pop() int xreg=emit_dpop(d); char *crn; char *frn; crn=register_name(ireg,0); use_float(d,reg); frn =fregister_name(reg); printf("\t%s 0(%s),%s\n",fload(d),crn,frn); dtosop(op,reg,xreg); printf("\t%s %s,0(%s)\n",fstore(d),frn,crn); emit_dpop_free(xreg,d); } void code_register_dassop(int reg,int op,int d) { // reg op= dpop() int xreg=emit_dpop(d); dtosop(op,reg,xreg); emit_dpop_free(xreg,d); } static int code_dload_1(int d, int g) { NMTBL *one; // load 1 if (d) { float_one_lib_used=1; one = &float_one; } else { float_one_f_lib_used=1; one = &float_one_f; } char *grn=fregister_name(g); int r = get_ptr_cache(one); char *drn=register_name(r,0); printf("\tmovs%s 0(%s),%s\n",d?"d":"s",drn,grn); return g; } void code_dpreinc(int e1,int e2,int d,int reg) { char *frn,*crn,*grn; int g; char *ops = (caddr(e1)>0)?(d?"addsd":"addss"):(d?"subsd":"subss"); if (car(e2)==DREGISTER||car(e2)==FREGISTER) { crn=fregister_name(cadr(e2)); grn = fregister_name(g = code_dload_1(d,get_dregister(d))); if (reg==USE_CREG) { reg=get_dregister(d); if (!reg) error(-1); set_freg(reg,0); } frn=fregister_name(reg); printf("\t%s %s,%s\n",ops,grn,crn); if (use && reg!=cadr(e2)) printf("\tmovap%s %s,%s\n",d?"d":"s",frn,crn); } else { g_expr(e2); if (!is_int_reg(creg)) error(-1); crn=register_name(ireg,0); if (reg==USE_CREG) { reg=get_dregister(d); if (!reg) error(-1); set_freg(reg,0); } frn=fregister_name(reg); grn = fregister_name(g = code_dload_1(d,get_dregister(d))); printf("\t%s 0(%s),%s\n",fload(d),crn,frn); printf("\t%s %s,%s\n",ops,grn,frn); printf("\t%s %s,0(%s)\n",fstore(d),frn,crn); } free_register(g); } void code_dpostinc(int e1,int e2,int d,int reg) { char *frn,*crn,*grn; int g,t; char *ops = (caddr(e1)>0)?(d?"addsd":"addss"):(d?"subsd":"subss"); if (car(e2)==DREGISTER||car(e2)==FREGISTER) { crn=fregister_name(cadr(e2)); grn = fregister_name(g = code_dload_1(d,get_dregister(d))); if (reg==USE_CREG) { reg=get_dregister(d); if (!reg) error(-1); set_freg(reg,0); } frn=fregister_name(reg); if (use && reg!=cadr(e2)) printf("\tmovap%s %s,%s\n",d?"d":"s",frn,crn); printf("\t%s %s,%s\n",ops,grn,crn); } else { g_expr(e2); if (!is_int_reg(creg)) error(-1); crn=register_name(ireg,0); if (reg==USE_CREG) { reg=get_dregister(d); if (!reg) error(-1); set_freg(reg,0); } frn=fregister_name(reg); grn = fregister_name(g = code_dload_1(d,get_dregister(d))); printf("\t%s 0(%s),%s\n",fload(d),crn,frn); if (use) { t = get_dregister(d); printf("\tmovap%s %s,%s\n",d?"d":"s",frn,fregister_name(t)); } printf("\t%s %s,%s\n",ops,grn,frn); printf("\t%s %s,0(%s)\n",fstore(d),frn,crn); if (use) { set_freg(t,0); } } free_register(g); } #define COND_BRANCH 1 #define COND_VALUE 2 /* return 1 if boolean expression */ int drexpr0(int e1, int e2,int l1, int op,int cond,int reg,int mode) { char *s; if (!cond) { switch(op) { case FOP+GT: return drexpr0(e2,e1,l1,FOP+GE,1,reg,mode); case FOP+GE: return drexpr0(e2,e1,l1,FOP+GT,1,reg,mode); case FOP+EQ: op=FOP+NEQ; break; case FOP+NEQ: op=FOP+EQ; break; case DOP+GT: return drexpr0(e2,e1,l1,DOP+GE,1,reg,mode); case DOP+GE: return drexpr0(e2,e1,l1,DOP+GT,1,reg,mode); case DOP+EQ: op=DOP+NEQ; break; case DOP+NEQ: op=DOP+EQ; break; default: return 0; } } s = "a"; int cmp = FCMP; switch(op) { case DOP+GE: cmp = DCMP; case FOP+GE: g_expr(list3(cmp,e1,e2)); s = "ae"; break; case DOP+GT: cmp = DCMP; case FOP+GT: g_expr(list3(cmp,e1,e2)); break; case DOP+EQ: cmp = DCMP; case FOP+EQ: s = "e"; g_expr(list3(cmp,e1,e2)); break; case DOP+NEQ: cmp = DCMP; case FOP+NEQ: g_expr(list3(cmp,e1,e2)); s = "ne"; break; default: return 0; } if (mode==COND_BRANCH) { printf("\tj%s\t_%d\n",s,l1); } else { use_data_reg(reg,0); printf("\tset%s\t%s\n",s,register_name(reg,1)); printf("\tmovzbq\t%s,%s\n", register_name(reg,1),register_name(reg,0)); } return 1; } int drexpr(int e1, int e2,int l1, int op,int cond) { drexpr0(e1, e2,l1, op,cond,USE_CREG,COND_BRANCH); return l1; } static int drexpr_bool(int e1, int reg) { return drexpr0(cadr(e1), caddr(e1),0, car(e1),1,reg,COND_VALUE); } void code_dregister(int e2,int freg,int d) { use_float(d,freg); if (freg!=e2) { if (is_int_reg(e2)) error(-1); printf("\ttmovap%s %s,%s\n",d?"d":"s",fregister_name(freg),fregister_name(e2)); } } void code_cmp_dregister(int e2,int d,int label,int cond) { use_float(d,e2); if (regs[REG_EAX]==PTRC_REG) clear_ptr_cache_reg(REG_EAX); int tmp = get_dregister(d); char *n = fregister_name(tmp); char *c = fregister_name(creg); char *sd = d?"d":"s"; printf("\txorp%s %s,%s\n",sd,n,n); printf("\tucomis%s %s,%s\n",sd,c,n); jcond(label,cond); free_register(tmp); } int emit_dpop(int d) { int xreg,reg; xreg=pop_fregister(); if (xreg<= -REG_LVAR_OFFSET) { reg = get_dregister(d); code_drlvar(REG_LVAR_OFFSET+xreg,d,reg); free_lvar(REG_LVAR_OFFSET+xreg); xreg=reg; } return xreg; } void emit_dpop_free(int e1,int d) { free_register(e1); } void emit_dpush(int d) { int new_reg; if (!is_float_reg(creg)) error(-1); if (freg_sp>MAX_MAX) error(-1); new_reg = get_dregister(d); /* 絶対に取れる */ freg_stack[freg_sp++] = freg; /* push するかわりにレジスタを使う */ creg = freg = new_reg; } #endif void code_save_stacks() { /* registers stacks are saved in local variable */ int i,reg; for(i=0;i<reg_sp;i++) { if ((reg=reg_stack[i])>=0) { code_lassign_lvar( (reg_stack[i]=new_lvar(SIZE_OF_LONGLONG)),reg); reg_stack[i]= reg_stack[i]-REG_LVAR_OFFSET; if (regs[reg]!=REG_VAR) free_register(reg); } } #if FLOAT_CODE for(i=0;i<freg_sp;i++) { if ((reg=freg_stack[i])>=0) { code_dassign_lvar( (freg_stack[i]=new_lvar(SIZE_OF_DOUBLE)),reg,1); freg_stack[i]= freg_stack[i]-REG_LVAR_OFFSET; free_register(reg); } } #endif } static void code_clear_stack_reg(int reg1) { /* specified registers stacks are saved in local variable */ /* temporal registers are saved in local variable */ int i,reg; if (regs[reg1]==PTRC_REG) clear_ptr_cache_reg(reg1); for(i=0;i<reg_sp;i++) { if ((reg=reg_stack[i])>=0 && reg==reg1) { code_lassign_lvar( (reg_stack[i]=new_lvar(SIZE_OF_LONGLONG)),reg); reg_stack[i]= reg_stack[i]-REG_LVAR_OFFSET; if (regs[reg]!=REG_VAR) free_register(reg); } } } #if LONGLONG_CODE /* 64bit int part In INTEL64 mode, basically save as 32bit operatoin */ int lrexpr(int e1, int e2,int l1, int op,int cond) { g_expr(list3(LCMP,e1,e2)); printf("\tj%s\t_%d\n",code_cond(OP(op),cond),l1); return l1; } int emit_lpop() { return emit_pop(0); } void code_lregister(int e2,int reg) { return code_register(e2,reg); } void code_cmp_lregister(int reg,int label,int cond) { use_longlong(reg); printf("\tcmpq $0,%s\n",register_name(reg,0)); jcond(label,cond); } void code_cmp_lrgvar(int e1,int e2,int label,int cond) { use_longlong(e2); int r = get_ptr_cache(ncaddr(e1)); if (cadr(e1)) printf("\tcmpq $0,%d(%s)\n",cadr(e1),register_name(r,0)); else printf("\tcmpq $0,(%s)\n",register_name(r,0)); jcond(label,cond); } void code_cmp_lrlvar(int e1,int e2,int label,int cond) { use_longlong(e2); printf("\tcmpq $0,"); lvar(e1); printf("\n"); jcond(label,cond); } void code_lassign(int e1,int e2) { use_longlong(e2); if (e2!=e1) printf("\tmovq %s,(%s)\n",register_name(e2,0),register_name(e1,0)); } void code_lassign_gvar(int e1,int e2) { code_assign_gvar(e1,e2,SIZE_OF_LONGLONG); } void code_lassign_lvar(int e1,int e2) { code_assign_lvar(e1,e2,SIZE_OF_LONGLONG); } void code_lassign_lregister(int e2,int reg) { code_assign_register(e2,SIZE_OF_LONGLONG,reg); } void code_lconst(int e1,int creg) { use_longlong(creg); printf("\tmovq $%lld,%s\n",lcadr(e1),register_name(creg,0)); } void code_lneg(int e1) { use_longlong(e1); printf("\tnegq %s\n",register_name(e1,0)); } void code_lrgvar(int e1,int e2) { code_crgvar(e1,e2,0,SIZE_OF_LONGLONG); } void code_lrlvar(int e1,int e2) { code_crlvar(e1,e2,0,SIZE_OF_LONGLONG); } void ltosop(int op,int reg,int e2) { tosop1(op,reg,e2,SIZE_OF_LONGLONG); } int code_lconst_op_p(int op,int e) { long long l; if (car(e)==CONST) l = cadr(e); else if (car(e)==LCONST) l = lcadr(e); else return 0; switch(op) { case LLSHIFT: case LULSHIFT: case LRSHIFT: case LURSHIFT: return (0<=l&&l<=63); case LMUL: case LUMUL: case LUDIV: case LADD: case LSUB: /* case LDIV: */ return -0x10000000LL<l&&l<0x10000000LL && ilog(l); case LBAND: case LEOR: case LBOR: default: return 0; } } void loprtc(int op,int reg,int e) { oprtc1(op,reg,e,SIZE_OF_LONGLONG); } void emit_lpop_free(int e1) { emit_pop_free(e1); } void emit_lpush() { emit_push(); } void code_i2ll(int reg) { int reg0 = USE_CREG; // int creg0 = creg; use_longlong(reg0); use_register(reg0,REG_EAX,1); printf("\tcltq\n"); // printf("\tmovslq %s,%s\n", reg, reg); set_ireg(REG_EAX,0); } void code_i2ull(int reg) { use_longlong(reg); code_i2ll(reg); } void code_u2ll(int reg) { use_longlong(reg); printf("\tmovslq %s,%s\n",register_name(reg,SIZE_OF_INT),register_name(reg,0)); //printf("\tshlq $32,%s",regisnter_name(reg,0)); //printf("\tshrq $32,%s",regisnter_name(reg,0)); } void code_u2ull(int reg) { use_longlong(reg); code_u2ll(reg); } void code_ll2i(int reg) { use_longlong(reg); } void code_ll2u(int reg) { use_longlong(reg); } void code_ull2i(int reg) { use_longlong(reg); } void code_ull2u(int reg) { use_longlong(reg); } #if FLOAT_CODE void code_d2ll(int reg) { use_float(1,reg); char *f = fregister_name(reg); set_ireg(get_register(),0); printf("\tcvttsd2siq %s,%s\n",f,register_name(ireg,0)); } void code_d2ull(int reg) { use_float(1,reg); char *f = fregister_name(reg); set_ireg(get_register(),0); printf("\tcvttsd2siq %s,%s\n",f,register_name(ireg,0)); } void code_f2ll(int reg) { use_float(0,reg); char *f = fregister_name(reg); set_ireg(get_register(),0); printf("\tcvttss2siq %s,%s\n",f,register_name(ireg,0)); } void code_f2ull(int reg) { use_float(0,reg); char *f = fregister_name(reg); set_ireg(get_register(),0); printf("\tcvttss2siq %s,%s\n",f,register_name(ireg,0)); } void code_ll2d(int reg) { use_longlong(reg); char *f = register_name(reg,0); set_freg(get_dregister(1),0); printf("\tcvtsi2sdq %s,%s\n",f,fregister_name(freg)); } void code_ll2f(int reg) { use_longlong(reg); char *f = register_name(reg,0); set_freg(get_dregister(1),0); printf("\tcvtsi2ssq %s,%s\n",f,fregister_name(freg)); } void code_ull2d(int reg) { code_ll2d(reg); } void code_ull2f(int reg) { code_ll2f(reg); } #endif void code_lpreinc(int e1,int e2,int reg) { char *xrn; int dir=caddr(e1); if (car(e2)==REGISTER) { use_int(reg); printf("\taddq $%d,%s\n",dir,register_name(cadr(e2),0)); if (use) printf("\tmovq %s,%s\n",register_name(cadr(e2),0),register_name(reg,0)); return; } g_expr(e2); xrn = register_name(creg,0); use_int(reg); printf("\taddq $%d,(%s)\n",dir,xrn) ; if (use) printf("\t%s (%s),%s\n",cload(0,SIZE_OF_LONGLONG),xrn,register_name(reg,0)); } void code_lpostinc(int e1,int e2,int reg) { char *xrn; int dir=caddr(e1); if (car(e2)==REGISTER) { use_int(reg); if (use) printf("\tmovq %s,%s\n",register_name(cadr(e2),0),register_name(reg,0)); printf("\taddq $%d,%s\n",dir,register_name(cadr(e2),0)); return; } g_expr(e2); emit_push(); xrn = register_name((e2=emit_pop(0)),0); use_int(reg); if (use) printf("\t%s (%s),%s\n",cload(0,SIZE_OF_LONGLONG),xrn,register_name(reg,0)); printf("\taddq $%d,(%s)\n",dir,xrn); emit_pop_free(e2); } void code_lassop(int op,int reg) { int xreg; // (*pop()) op = creg // creg should be ecx use_longlong(reg); xreg = emit_pop(0); /* pop e3 value */ emit_push(); ld_indexx(SIZE_OF_LONGLONG,0,reg,ireg,0); ltosop(op,ireg,xreg); emit_pop_free(xreg); xreg = emit_pop(0); /* pop e3 value */ printf("\t%s %s,(%s)\n",move(SIZE_OF_LONGLONG),register_name(ireg,0),register_name(xreg,0)) ; emit_pop_free(xreg); } void code_register_lassop(int reg,int op) { use_longlong(reg); int xreg = emit_lpop(); ltosop(op,reg,xreg); emit_lpop_free(xreg); } #endif #if CASE_CODE int code_table_jump_p(int delta) { return 1; } void code_table_jump(int l,int csvalue,int delta,int max,int min,int dlabel) { char *crn; // use_register(creg,csvalue,0); set_ireg(csvalue,0); crn = register_name(creg,0); char *crnl = register_name(creg,SIZE_OF_INT); printf("\tsubl\t$%d,%s\n",min,crnl); printf("\tcmpl\t$%d,%s\n",max-min,crnl); printf("\tja\t_%d\n",dlabel); // this assumes 32bit offset, but it may too small if (delta==1) { printf("\tleaq\t_%d(%%rip),%%rbx\n",l); printf("\tmovslq\t(%%rbx,%s,4),%s\n",crn,crn); printf("\taddq\t%%rbx,%s\n",crn); printf("\tjmp\t*%s\n",crn); return; } if (regs[REG_EAX]==PTRC_REG) clear_ptr_cache_reg(REG_EAX); use_register(creg,REG_EAX,1); crn = "%rax"; switch(delta) { case 2: printf("\tmovl\t$1,%%edx\n"); printf("\tandl\t%%eax,%%edx\n"); printf("\tjne\t_%d\n",dlabel); printf("\tleaq\t_%d(%%rip),%%rbx\n",l); printf("\tmovslq\t(%%rbx,%s,2),%s\n",crn,crn); printf("\taddq\t%%rbx,%s\n",crn); printf("\tjmp\t*%s\n",crn); break; case 4: printf("\tmovl\t$3,%%edx\n"); printf("\tandl\t%%eax,%%edx\n"); printf("\tjne\t_%d\n",dlabel); printf("\tleaq\t_%d(%%rip),%%rbx\n",l); printf("\tmovslq\t(%%rbx,%s),%s\n",crn,crn); printf("\taddq\t%%rbx,%s\n",crn); printf("\tjmp\t*%s\n",crn); break; default: printf("\tmovl $%d,%%ecx\n",delta); printf("\txor %%edx,%%edx\n\tdivl %%ecx\n"); printf("\tandl\t%%edx,%%edx\n"); printf("\tjne\t_%d\n",dlabel); printf("\tleaq\t_%d(%%rip),%%rbx\n",l); printf("\tmovslq\t(%%rbx,%s,4),%s\n",crn,crn); printf("\taddq\t%%rbx,%s\n",crn); printf("\tjmp\t*%s\n",crn); break; } } void code_table_open(int l) { output_mode=DATA_EMIT_MODE; printf(" \t.align 2\n"); fwddef(l); } void code_table_value(int label,int table_top) { printf("\t.long _%d-_%d\n",label,table_top); } void code_table_close() { text_mode(0); } #endif #if ASM_CODE /* print an operand */ static void emit_asm_operand(int rstr) { if (car(rstr)==REGISTER) { printf("%s",register_name(cadr(rstr),4)); } else if (car(rstr)==LREGISTER) { printf("%s",register_name(cadr(rstr),0)); } else if (car(rstr)==CONST) { printf("%d",cadr(rstr)); } else if (car(rstr)==FNAME) { #ifdef __APPLE__ printf("_%s(%%rip)",ncaddr(rstr)->nm); #else printf("%s",ncaddr(rstr)->nm); #endif } else if (car(rstr)==LABEL) { #ifdef __APPLE__ printf("_%d(%%rip)",cadr(rstr)); #else printf("_%d",cadr(rstr)); #endif } else { error(-1); } } /* prepare asm operands char *constraints string int operand expr int mode (ASM_INPUT,ASM_OUTPUT) int replacement list int output operands count int output operands replacement list retrun replacement list list3( operands, next, clobber ) 0 can be shared in input/output 1 can't be used in input */ int code_asm_operand(char *p,int e1,int mode,int repl,int n,int repl0) { int r; int c; int val; int clobber = 0; printf("## constraint %s\n",p); if (*p=='=') { // output register p++; } if (*p=='&') { // earlyclobber p++; clobber = 1; } c = *p; if (c=='r') { if (mode==ASM_INPUT) { for(;repl0;repl0 = cadr(repl0)) { if (car(car(repl0))==LREGISTER && caddr(repl0)==0) { r = cadr(car(repl0)); caddr(repl0) = ASM_USED; break; } } r = get_register(); } else { r = get_register(); } repl = list3(list2(LREGISTER,r),repl,clobber); } else if (c=='m') { repl = list3(list2(0,0),repl,clobber); } else if (c=='i') { if (car(e1)==GVAR) { e1=list3n(FNAME,0,ncaddr(e1)); } else if (car(e1)==FNAME) { e1=list3n(FNAME,0,ncaddr(e1)); } else if (car(e1)==STRING) { // STRINGS? val = emit_string_label(); ascii(ncaddr(e1)->nm,ncaddr(e1)->dsp); e1=list2(LABEL,val); } else if (car(e1)==CONST) { } else error(-1); repl = list3(e1,repl,clobber); } else if (digit(c)) { val = 0; do { val = val*10 + c-'0'; } while (digit(c=*p++)); if (val>MAX_ASM_REG) error(-1); // too large register if (n-val<0) error(-1); repl = list3(car(nth(n-val-1,repl0)),repl,clobber); } else error(-1); return repl; } void code_free_asm_operand(int repl) { int reg; for(;repl;repl=cadr(repl)) { if (car(car(repl))==REGISTER) { reg = cadr(car(repl)); if (regs[reg]!=REG_VAR) free_register(reg); } } } extern void code_asm(char *asm_str,int repl) { int c,i,rstr,val; char *p; int reg[MAX_ASM_REG]; text_mode(0); c = *asm_str; if (c!='\t'&&c!=' ') printf("\t"); for(i=0;repl && i<MAX_ASM_REG;i++) { reg[i] = car(repl); repl = cadr(repl); } p = asm_str; while((c = *p++)) { if (c=='%') { c = *p++; if (!c) { break; } else if (c=='%') { printf("%%"); continue; } else if (!digit(c)) { printf("%%%c",c); continue; } val = 0; do { val = val*10 + c-'0'; } while (digit(c=*p++)) ; p--; if (val>MAX_ASM_REG) error(-1); // too large register rstr = reg[val]; emit_asm_operand(rstr); } else { printf("%c",c); } } printf("\n"); } #endif #if BIT_FIELD_CODE /* bit field alignment calcuration */ static void set_bitsz(int type,int *pbitpos, int *pbitsize, int *psign,int *pbitsz,int *palign,int *pl) { int sign=0,bitsz=1; int align=4,l=0; *pbitpos = cadr(caddr(type)); int bitsize = *pbitsize = caddr(caddr(type)); switch(cadr(type)) { case INT: sign=1; bitsz=32; align=4;break; case UNSIGNED: bitsz=32; align=4;break; case CHAR: sign=1; bitsz= 8; align=1;break; case UCHAR: bitsz= 8; align=1;break; case SHORT: sign=1; bitsz=16; align=2;break; case USHORT: sign=1; bitsz=16; align=2;break; case LONGLONG: sign=1; bitsz=64; align=bitsize>32?8:4;l=1; break; case ULONGLONG: bitsz=64; align=bitsize>32?8:4;l=1; break; default: error(-1); } *psign = sign; *pbitsz = bitsz; *palign = align; *pl = l; } /* bit field alignment calcuration this is architecture depenedent */ extern int code_bit_field_disp(int type,int *poffset,int *bfd,int *sz) { int sign,bitsz,align; int i; int bitpos = *bfd; int bitpos0; int bitsize; int offset = *poffset; int l; set_bitsz(type,&bitpos0,&bitsize,&sign,&bitsz,&align,&l); if (bitsize>bitsz) { error(BTERR); bitsize = bitsz; } /* bfd means previous bit field bit offset */ if (bitpos) { /* previous field is bit field and spaces may remain */ /* calc previsous offset */ i= offset-(bitpos+7)/8; for(l = bitpos;l>0;l -= 8,i++) { if ((i & (align-1))==0 && l+bitsize <= bitsz) { /* alignment is correct and space remains */ *poffset=offset=i; i = l+bitsize; *bfd = (i==bitsz)?0:i; *sz = (i+7)/8; // printf("## bitpos=%d bitsize=%d bitsz=%d offset=%d\n",l,bitsize,bitsz,*poffset); return l; } } } /* first bit-field */ if ((i=(offset & (align-1)))) { *poffset = (offset += (align-i)); } bitpos = 0; *bfd = (bitsize==bitsz)?0:bitsize; *sz = (bitsize+7)/8; // printf("## bitpos=%d bitsize=%d bitsz=%d offset=%d\n",bitpos,bitsize,bitsz,*poffset); return bitpos; } /* bit field value */ extern void code_bit_field(int type,int adr,int reg) { int sign,bitsz,l,align; int bitsize,bitpos; int i,size; set_bitsz(type,&bitpos,&bitsize,&sign,&bitsz,&align,&l); size=bitsz/8; // printf("## %d: bitpos=%d bitsize=%d bitsz=%d\n",lineno,bitpos,bitsize,bitsz); /* this implementation returns -1 for int i:1; */ if (l==1) { #if LONGLONG_CODE use_int(adr); use_longlong(reg); lload(adr,0,reg); /* shift left */ if ((i=bitsz-bitsize-bitpos)) loprtc(LLSHIFT,reg,list2(CONST,i)); /* shift right */ if ((i=bitsz-bitsize)) loprtc(sign?LRSHIFT:LURSHIFT,reg,list2(CONST,i)); #endif } else { use_int(adr); use_int(reg); printf("\t%s %d(%s),%s\n",cload(sign,size),0,register_name(adr,regu(sign,size,0)), register_name(reg,0)); /* shift left */ if ((i=32-bitsize-bitpos)) oprtc(LSHIFT,reg,list2(CONST,i)); /* shift right */ if ((i=32-bitsize)) oprtc(sign?RSHIFT:URSHIFT,reg,list2(CONST,i)); } } /* bit field replacement */ static void make_mask_and_or(int mask,int reg, int dest) { printf("## mask 0x%08x ~0x%08x\n",mask,~mask); printf("\tpushq %s\n",register_name(reg,0)); /* make and-mask */ oprtc(BOR,reg,list2(CONST,~mask)); /* do conjunction */ printf("\tandl %s,%s\n",register_name(reg,SIZE_OF_INT),register_name(dest,SIZE_OF_INT)); /* make or-mask */ printf("\tpopq %s\n",register_name(reg,0)); oprtc(BAND,reg,list2(CONST,mask)); /* do disjunction */ printf("\torl %s,%s\n",register_name(reg,SIZE_OF_INT),register_name(dest,SIZE_OF_INT)); printf("\txchg %s,%s\n",register_name(reg,SIZE_OF_INT),register_name(dest,SIZE_OF_INT)); } static void make_mask_and_or_l(long mask,int reg, int dest) { printf("## mask 0x%08lx ~0x%08lx\n",mask,~mask); printf("\tpushq %s\n",register_name(reg,0)); /* make and-mask */ loprtc(BOR,reg,llist2(LCONST,~mask)); /* do conjunction */ printf("\tandq %s,%s\n",register_name(reg,0),register_name(dest,0)); /* make or-mask */ printf("\tpopq %s\n",register_name(reg,0)); loprtc(BAND,reg,llist2(LCONST,mask)); /* do disjunction */ printf("\torq %s,%s\n",register_name(reg,0),register_name(dest,0)); printf("\txchgq %s,%s\n",register_name(reg,0),register_name(dest,0)); } extern void code_bit_replace(int adr,int value,int type) { int sign,bitsz,l,align; int bitsize,bitpos; long mask = 0; int size; set_bitsz(type,&bitpos,&bitsize,&sign,&bitsz,&align,&l); size = bitsz/8; // printf("## %d: bitpos=%d bitsize=%d bitsz=%d\n",lineno,bitpos,bitsize,bitsz); if (l) { #if LONGLONG_CODE // use_int(adr); use_longlong(value); /* shift left */ if (bitpos) loprtc(LLSHIFT,value,list2(CONST,bitpos)); /* make and-mask */ printf("\tpushq %s\n",register_name(adr,0)); printf("\t%s (%s),%s\n",cload(sign,size),register_name(adr,0), register_name(adr,regu(sign,size,0))); mask = make_mask_64(64-bitpos-bitsize,63-bitpos); make_mask_and_or_l(mask,value, adr); set_lreg(value,0); printf("\tpopq %s\n",register_name(adr,0)); printf("\t%s %s,(%s)\n",move(0), register_name(value,0), register_name(adr,0)); #endif } else { // use_int(adr); use_int(value); printf("\tpushq %s\n",register_name(adr,0)); printf("\t%s %d(%s),%s\n",cload(sign,size),0,register_name(adr,0), register_name(adr,regu(sign,size,0))); /* shift left */ if (bitpos) oprtc(LSHIFT,value,list2(CONST,bitpos)); /* make and-mask */ mask = make_mask(32-bitpos-bitsize,31-bitpos); make_mask_and_or(mask,value, adr); set_ireg(value,0); printf("\tpopq %s\n",register_name(adr,0)); code_assign(adr,size==4?0:size,value); } if (use) { code_bit_field(type,adr,USE_CREG); } } static void make_mask_and_or_const(long mask,int reg,long c) { long a; int t = 0; char *trn; // printf("## mask 0x%08x ~0x%08x\n",mask,~mask); a = ~mask|c; if (a!=-1) { /* do conjunction */ if (is_data_reg(reg) && ((a& ~0xffff)==~0xffff)) { if ((a& ~0xff)==~0xff) printf("\tandb $%ld,%s\n",a&0xff,register_name(reg,1)); else printf("\tandw $%ld,%s\n",a&0xffff,register_name(reg,2)); } else { t = get_register(); trn = register_name(t,0); printf("\tmovq $%ld,%s\n",a,trn); printf("\tandq %s,%s\n",trn,register_name(reg,0)); } } /* make or-mask */ c = mask&c; if (c!=0) { /* do disjunction */ if (is_data_reg(reg) && (!(c& ~0xffff))) { if (!(c& ~0xff)) printf("\torb $%ld,%s\n",c&0xff,register_name(reg,1)); else printf("\torw $%ld,%s\n",c&0xffff,register_name(reg,2)); } else { if (!t) { t = get_register(); trn = register_name(t,0); } if (a!=c) printf("\tmovq $%ld,%s\n",c,trn); printf("\torq %s,%s\n",trn,register_name(reg,0)); } } free_register(t); } extern void code_bit_replace_const(int value,int adr,int type) { int sign,bitsz,l,align; int bitpos,bitsize,size; long mask = 0; long c,lvalue; #if LONGLONG_CODE long long lc; #endif set_bitsz(type,&bitpos,&bitsize,&sign,&bitsz,&align,&l); size = bitsz/8; // printf("## %d: bitpos=%d bitsize=%d bitsz=%d\n",lineno,bitpos,bitsize,bitsz); use_int(adr); if (l) { #if LONGLONG_CODE lvalue = get_register(); /* shift left */ lc = lcadr(value); lc <<= bitpos; printf("\t%s (%s),%s\n",cload(sign,size),register_name(adr,regu(sign,size,0)), register_name(lvalue,0)); /* make and-mask upper */ mask = make_mask_64(64-bitpos-bitsize,63-bitpos); make_mask_and_or_const(mask,lvalue,lc); set_lreg(lvalue,0); printf("\t%s %s,(%s)\n",move(0),register_name(lvalue,0), register_name(adr,0)); free_register(lvalue); #endif } else { lvalue = get_register(); printf("\t%s %d(%s),%s\n",cload(sign,size),0,register_name(adr,regu(sign,size,0)), register_name(lvalue,0)); /* shift left */ c = cadr(value); c <<= bitpos; /* make and-mask */ mask = make_mask(32-bitpos-bitsize,31-bitpos); make_mask_and_or_const(mask,lvalue,c); set_ireg(lvalue,0); code_assign(adr,size,lvalue); free_register(lvalue); } if (use) code_bit_field(type,adr,USE_CREG); } #endif int not_simple_p(int e3) { switch(e3) { case FUNCTION: case CONV: case STASS: case ALLOCA: case LDIV: case LUDIV: case LMOD: case LUMOD: case DIV: case UDIV: case MOD: case UMOD: //case LMUL: case LUMUL: //case LLSHIFT: case LULSHIFT: case LRSHIFT: case LURSHIFT: //case DDIV: case DADD: case DSUB: case DMUL: case DMINUS: case DPOSTINC : case DPREINC : case DASSOP : //case DOP+LT : case DOP+LE : case DOP+GT : case DOP+GE : //case DOP+EQ : case DOP+NEQ: case RBIT_FIELD: case BASS: case BASSOP: case LCALL: case INLINE: return 1; } return 0; } extern int code_arg_alignment(int args,NMTBL *n, int type0,int sz, int is_code) { if(type0==CHAR||type0==UCHAR) { if (n->dsp==0) { n->dsp = is_code?-args-size_of_longlong:args; if (endian) n->dsp += size_of_longlong-1; } args += size_of_longlong; } else if(type0==SHORT||type0==USHORT) { if (n->dsp==0) { n->dsp = is_code?-args-size_of_longlong:args; if (endian) n->dsp += size_of_longlong-size_of_short; } args += size_of_longlong; } else if(type0>0&&(car(type0)==UNION||car(type0)==STRUCT)) { /* alignment in struct in argument */ /* should be GCD of member alignment */ /* __attribute(alignment(16)) is ignored in argments */ int asz = align(sz,size_of_longlong); n->dsp = is_code?-args-asz:args; args += asz; } else { /* if (n->dsp==0) (argument list in ADECL is useless, type list can be found in type ) */ n->dsp = is_code?-args-size_of_longlong:args; args += align(sz,size_of_longlong); } return args; } extern int code_lvar_alignment(int args,NMTBL *n, int type0,int sz) { // default align 16 for large object if (sz >= 8 && !attr_value(n,ALIGNED)) { n->sc = LVAR; n->dsp = new_lvar_align(sz,16); return disp; } return code_lvar_alignment0(args,n, type0,sz); } /* end */