root / target-arm / nwfpe / ARM-gcc.h @ 977d5710
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| 1 | 00406dff | bellard | /*
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| 2 | 00406dff | bellard | -------------------------------------------------------------------------------
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| 3 | 00406dff | bellard | The macro `BITS64' can be defined to indicate that 64-bit integer types are
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| 4 | 00406dff | bellard | supported by the compiler.
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| 5 | 00406dff | bellard | -------------------------------------------------------------------------------
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| 6 | 00406dff | bellard | */
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| 7 | 00406dff | bellard | #define BITS64
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| 8 | 00406dff | bellard | |
| 9 | 00406dff | bellard | /*
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| 10 | 00406dff | bellard | -------------------------------------------------------------------------------
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| 11 | 00406dff | bellard | Each of the following `typedef's defines the most convenient type that holds
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| 12 | 00406dff | bellard | integers of at least as many bits as specified. For example, `uint8' should
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| 13 | 00406dff | bellard | be the most convenient type that can hold unsigned integers of as many as
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| 14 | 00406dff | bellard | 8 bits. The `flag' type must be able to hold either a 0 or 1. For most
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| 15 | 00406dff | bellard | implementations of C, `flag', `uint8', and `int8' should all be `typedef'ed
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| 16 | 00406dff | bellard | to the same as `int'.
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| 17 | 00406dff | bellard | -------------------------------------------------------------------------------
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| 18 | 00406dff | bellard | */
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| 19 | 00406dff | bellard | typedef char flag; |
| 20 | 00406dff | bellard | typedef unsigned char uint8; |
| 21 | 00406dff | bellard | typedef signed char int8; |
| 22 | 00406dff | bellard | typedef int uint16; |
| 23 | 00406dff | bellard | typedef int int16; |
| 24 | 00406dff | bellard | typedef unsigned int uint32; |
| 25 | 00406dff | bellard | typedef signed int int32; |
| 26 | 00406dff | bellard | #ifdef BITS64
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| 27 | 00406dff | bellard | typedef unsigned long long int bits64; |
| 28 | 00406dff | bellard | typedef signed long long int sbits64; |
| 29 | 00406dff | bellard | #endif
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| 30 | 00406dff | bellard | |
| 31 | 00406dff | bellard | /*
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| 32 | 00406dff | bellard | -------------------------------------------------------------------------------
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| 33 | 00406dff | bellard | Each of the following `typedef's defines a type that holds integers
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| 34 | 00406dff | bellard | of _exactly_ the number of bits specified. For instance, for most
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| 35 | 00406dff | bellard | implementation of C, `bits16' and `sbits16' should be `typedef'ed to
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| 36 | 00406dff | bellard | `unsigned short int' and `signed short int' (or `short int'), respectively.
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| 37 | 00406dff | bellard | -------------------------------------------------------------------------------
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| 38 | 00406dff | bellard | */
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| 39 | 00406dff | bellard | typedef unsigned char bits8; |
| 40 | 00406dff | bellard | typedef signed char sbits8; |
| 41 | 00406dff | bellard | typedef unsigned short int bits16; |
| 42 | 00406dff | bellard | typedef signed short int sbits16; |
| 43 | 00406dff | bellard | typedef unsigned int bits32; |
| 44 | 00406dff | bellard | typedef signed int sbits32; |
| 45 | 00406dff | bellard | #ifdef BITS64
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| 46 | 00406dff | bellard | typedef unsigned long long int uint64; |
| 47 | 00406dff | bellard | typedef signed long long int int64; |
| 48 | 00406dff | bellard | #endif
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| 49 | 00406dff | bellard | |
| 50 | 00406dff | bellard | #ifdef BITS64
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| 51 | 00406dff | bellard | /*
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| 52 | 00406dff | bellard | -------------------------------------------------------------------------------
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| 53 | 00406dff | bellard | The `LIT64' macro takes as its argument a textual integer literal and if
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| 54 | 00406dff | bellard | necessary ``marks'' the literal as having a 64-bit integer type. For
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| 55 | 00406dff | bellard | example, the Gnu C Compiler (`gcc') requires that 64-bit literals be
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| 56 | 00406dff | bellard | appended with the letters `LL' standing for `long long', which is `gcc's
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| 57 | 00406dff | bellard | name for the 64-bit integer type. Some compilers may allow `LIT64' to be
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| 58 | 00406dff | bellard | defined as the identity macro: `#define LIT64( a ) a'.
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| 59 | 00406dff | bellard | -------------------------------------------------------------------------------
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| 60 | 00406dff | bellard | */
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| 61 | 00406dff | bellard | #define LIT64( a ) a##LL |
| 62 | 00406dff | bellard | #endif
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| 63 | 00406dff | bellard | |
| 64 | 00406dff | bellard | /*
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| 65 | 00406dff | bellard | -------------------------------------------------------------------------------
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| 66 | 00406dff | bellard | The macro `INLINE' can be used before functions that should be inlined. If
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| 67 | 00406dff | bellard | a compiler does not support explicit inlining, this macro should be defined
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| 68 | 00406dff | bellard | to be `static'.
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| 69 | 00406dff | bellard | -------------------------------------------------------------------------------
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| 70 | 00406dff | bellard | */
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| 71 | 00406dff | bellard | #define INLINE extern __inline__ |
| 72 | 00406dff | bellard | |
| 73 | 00406dff | bellard | |
| 74 | 00406dff | bellard | /* For use as a GCC soft-float library we need some special function names. */
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| 75 | 00406dff | bellard | |
| 76 | 00406dff | bellard | #ifdef __LIBFLOAT__
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| 77 | 00406dff | bellard | |
| 78 | 00406dff | bellard | /* Some 32-bit ops can be mapped straight across by just changing the name. */
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| 79 | 00406dff | bellard | #define float32_add __addsf3
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| 80 | 00406dff | bellard | #define float32_sub __subsf3
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| 81 | 00406dff | bellard | #define float32_mul __mulsf3
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| 82 | 00406dff | bellard | #define float32_div __divsf3
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| 83 | 00406dff | bellard | #define int32_to_float32 __floatsisf
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| 84 | 00406dff | bellard | #define float32_to_int32_round_to_zero __fixsfsi
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| 85 | 00406dff | bellard | #define float32_to_uint32_round_to_zero __fixunssfsi
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| 86 | 00406dff | bellard | |
| 87 | 00406dff | bellard | /* These ones go through the glue code. To avoid namespace pollution
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| 88 | 00406dff | bellard | we rename the internal functions too. */
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| 89 | 00406dff | bellard | #define float32_eq ___float32_eq
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| 90 | 00406dff | bellard | #define float32_le ___float32_le
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| 91 | 00406dff | bellard | #define float32_lt ___float32_lt
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| 92 | 00406dff | bellard | |
| 93 | 00406dff | bellard | /* All the 64-bit ops have to go through the glue, so we pull the same
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| 94 | 00406dff | bellard | trick. */
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| 95 | 00406dff | bellard | #define float64_add ___float64_add
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| 96 | 00406dff | bellard | #define float64_sub ___float64_sub
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| 97 | 00406dff | bellard | #define float64_mul ___float64_mul
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| 98 | 00406dff | bellard | #define float64_div ___float64_div
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| 99 | 00406dff | bellard | #define int32_to_float64 ___int32_to_float64
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| 100 | 00406dff | bellard | #define float64_to_int32_round_to_zero ___float64_to_int32_round_to_zero
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| 101 | 00406dff | bellard | #define float64_to_uint32_round_to_zero ___float64_to_uint32_round_to_zero
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| 102 | 00406dff | bellard | #define float64_to_float32 ___float64_to_float32
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| 103 | 00406dff | bellard | #define float32_to_float64 ___float32_to_float64
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| 104 | 00406dff | bellard | #define float64_eq ___float64_eq
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| 105 | 00406dff | bellard | #define float64_le ___float64_le
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| 106 | 00406dff | bellard | #define float64_lt ___float64_lt
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| 107 | 00406dff | bellard | |
| 108 | 00406dff | bellard | #if 0
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| 109 | 00406dff | bellard | #define float64_add __adddf3
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| 110 | 00406dff | bellard | #define float64_sub __subdf3
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| 111 | 00406dff | bellard | #define float64_mul __muldf3
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| 112 | 00406dff | bellard | #define float64_div __divdf3
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| 113 | 00406dff | bellard | #define int32_to_float64 __floatsidf
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| 114 | 00406dff | bellard | #define float64_to_int32_round_to_zero __fixdfsi
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| 115 | 00406dff | bellard | #define float64_to_uint32_round_to_zero __fixunsdfsi
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| 116 | 00406dff | bellard | #define float64_to_float32 __truncdfsf2
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| 117 | 00406dff | bellard | #define float32_to_float64 __extendsfdf2
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| 118 | 00406dff | bellard | #endif
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| 119 | 00406dff | bellard | |
| 120 | 00406dff | bellard | #endif |