1da177e4c3
Initial git repository build. I'm not bothering with the full history, even though we have it. We can create a separate "historical" git archive of that later if we want to, and in the meantime it's about 3.2GB when imported into git - space that would just make the early git days unnecessarily complicated, when we don't have a lot of good infrastructure for it. Let it rip!
298 lines
13 KiB
C
298 lines
13 KiB
C
/*
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* Basic four-word fraction declaration and manipulation.
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*
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* When adding quadword support for 32 bit machines, we need
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* to be a little careful as double multiply uses some of these
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* macros: (in op-2.h)
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* _FP_MUL_MEAT_2_wide() uses _FP_FRAC_DECL_4, _FP_FRAC_WORD_4,
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* _FP_FRAC_ADD_4, _FP_FRAC_SRS_4
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* _FP_MUL_MEAT_2_gmp() uses _FP_FRAC_SRS_4 (and should use
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* _FP_FRAC_DECL_4: it appears to be broken and is not used
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* anywhere anyway. )
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*
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* I've now fixed all the macros that were here from the sparc64 code.
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* [*none* of the shift macros were correct!] -- PMM 02/1998
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*
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* The only quadword stuff that remains to be coded is:
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* 1) the conversion to/from ints, which requires
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* that we check (in op-common.h) that the following do the right thing
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* for quadwords: _FP_TO_INT(Q,4,r,X,rsz,rsg), _FP_FROM_INT(Q,4,X,r,rs,rt)
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* 2) multiply, divide and sqrt, which require:
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* _FP_MUL_MEAT_4_*(R,X,Y), _FP_DIV_MEAT_4_*(R,X,Y), _FP_SQRT_MEAT_4(R,S,T,X,q),
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* This also needs _FP_MUL_MEAT_Q and _FP_DIV_MEAT_Q to be defined to
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* some suitable _FP_MUL_MEAT_4_* macros in sfp-machine.h.
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* [we're free to choose whatever FP_MUL_MEAT_4_* macros we need for
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* these; they are used nowhere else. ]
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*/
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#define _FP_FRAC_DECL_4(X) _FP_W_TYPE X##_f[4]
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#define _FP_FRAC_COPY_4(D,S) \
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(D##_f[0] = S##_f[0], D##_f[1] = S##_f[1], \
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D##_f[2] = S##_f[2], D##_f[3] = S##_f[3])
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/* The _FP_FRAC_SET_n(X,I) macro is intended for use with another
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* macro such as _FP_ZEROFRAC_n which returns n comma separated values.
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* The result is that we get an expansion of __FP_FRAC_SET_n(X,I0,I1,I2,I3)
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* which just assigns the In values to the array X##_f[].
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* This is why the number of parameters doesn't appear to match
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* at first glance... -- PMM
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*/
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#define _FP_FRAC_SET_4(X,I) __FP_FRAC_SET_4(X, I)
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#define _FP_FRAC_HIGH_4(X) (X##_f[3])
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#define _FP_FRAC_LOW_4(X) (X##_f[0])
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#define _FP_FRAC_WORD_4(X,w) (X##_f[w])
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#define _FP_FRAC_SLL_4(X,N) \
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do { \
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_FP_I_TYPE _up, _down, _skip, _i; \
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_skip = (N) / _FP_W_TYPE_SIZE; \
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_up = (N) % _FP_W_TYPE_SIZE; \
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_down = _FP_W_TYPE_SIZE - _up; \
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for (_i = 3; _i > _skip; --_i) \
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X##_f[_i] = X##_f[_i-_skip] << _up | X##_f[_i-_skip-1] >> _down; \
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/* bugfixed: was X##_f[_i] <<= _up; -- PMM 02/1998 */ \
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X##_f[_i] = X##_f[0] << _up; \
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for (--_i; _i >= 0; --_i) \
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X##_f[_i] = 0; \
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} while (0)
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/* This one was broken too */
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#define _FP_FRAC_SRL_4(X,N) \
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do { \
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_FP_I_TYPE _up, _down, _skip, _i; \
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_skip = (N) / _FP_W_TYPE_SIZE; \
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_down = (N) % _FP_W_TYPE_SIZE; \
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_up = _FP_W_TYPE_SIZE - _down; \
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for (_i = 0; _i < 3-_skip; ++_i) \
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X##_f[_i] = X##_f[_i+_skip] >> _down | X##_f[_i+_skip+1] << _up; \
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X##_f[_i] = X##_f[3] >> _down; \
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for (++_i; _i < 4; ++_i) \
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X##_f[_i] = 0; \
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} while (0)
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/* Right shift with sticky-lsb.
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* What this actually means is that we do a standard right-shift,
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* but that if any of the bits that fall off the right hand side
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* were one then we always set the LSbit.
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*/
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#define _FP_FRAC_SRS_4(X,N,size) \
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do { \
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_FP_I_TYPE _up, _down, _skip, _i; \
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_FP_W_TYPE _s; \
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_skip = (N) / _FP_W_TYPE_SIZE; \
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_down = (N) % _FP_W_TYPE_SIZE; \
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_up = _FP_W_TYPE_SIZE - _down; \
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for (_s = _i = 0; _i < _skip; ++_i) \
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_s |= X##_f[_i]; \
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_s |= X##_f[_i] << _up; \
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/* s is now != 0 if we want to set the LSbit */ \
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for (_i = 0; _i < 3-_skip; ++_i) \
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X##_f[_i] = X##_f[_i+_skip] >> _down | X##_f[_i+_skip+1] << _up; \
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X##_f[_i] = X##_f[3] >> _down; \
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for (++_i; _i < 4; ++_i) \
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X##_f[_i] = 0; \
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/* don't fix the LSB until the very end when we're sure f[0] is stable */ \
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X##_f[0] |= (_s != 0); \
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} while (0)
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#define _FP_FRAC_ADD_4(R,X,Y) \
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__FP_FRAC_ADD_4(R##_f[3], R##_f[2], R##_f[1], R##_f[0], \
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X##_f[3], X##_f[2], X##_f[1], X##_f[0], \
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Y##_f[3], Y##_f[2], Y##_f[1], Y##_f[0])
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#define _FP_FRAC_SUB_4(R,X,Y) \
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__FP_FRAC_SUB_4(R##_f[3], R##_f[2], R##_f[1], R##_f[0], \
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X##_f[3], X##_f[2], X##_f[1], X##_f[0], \
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Y##_f[3], Y##_f[2], Y##_f[1], Y##_f[0])
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#define _FP_FRAC_ADDI_4(X,I) \
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__FP_FRAC_ADDI_4(X##_f[3], X##_f[2], X##_f[1], X##_f[0], I)
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#define _FP_ZEROFRAC_4 0,0,0,0
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#define _FP_MINFRAC_4 0,0,0,1
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#define _FP_FRAC_ZEROP_4(X) ((X##_f[0] | X##_f[1] | X##_f[2] | X##_f[3]) == 0)
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#define _FP_FRAC_NEGP_4(X) ((_FP_WS_TYPE)X##_f[3] < 0)
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#define _FP_FRAC_OVERP_4(fs,X) (X##_f[0] & _FP_OVERFLOW_##fs)
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#define _FP_FRAC_EQ_4(X,Y) \
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(X##_f[0] == Y##_f[0] && X##_f[1] == Y##_f[1] \
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&& X##_f[2] == Y##_f[2] && X##_f[3] == Y##_f[3])
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#define _FP_FRAC_GT_4(X,Y) \
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(X##_f[3] > Y##_f[3] || \
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(X##_f[3] == Y##_f[3] && (X##_f[2] > Y##_f[2] || \
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(X##_f[2] == Y##_f[2] && (X##_f[1] > Y##_f[1] || \
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(X##_f[1] == Y##_f[1] && X##_f[0] > Y##_f[0]) \
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)) \
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)) \
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)
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#define _FP_FRAC_GE_4(X,Y) \
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(X##_f[3] > Y##_f[3] || \
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(X##_f[3] == Y##_f[3] && (X##_f[2] > Y##_f[2] || \
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(X##_f[2] == Y##_f[2] && (X##_f[1] > Y##_f[1] || \
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(X##_f[1] == Y##_f[1] && X##_f[0] >= Y##_f[0]) \
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)) \
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)) \
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)
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#define _FP_FRAC_CLZ_4(R,X) \
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do { \
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if (X##_f[3]) \
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{ \
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__FP_CLZ(R,X##_f[3]); \
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} \
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else if (X##_f[2]) \
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{ \
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__FP_CLZ(R,X##_f[2]); \
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R += _FP_W_TYPE_SIZE; \
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} \
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else if (X##_f[1]) \
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{ \
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__FP_CLZ(R,X##_f[2]); \
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R += _FP_W_TYPE_SIZE*2; \
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} \
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else \
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{ \
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__FP_CLZ(R,X##_f[0]); \
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R += _FP_W_TYPE_SIZE*3; \
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} \
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} while(0)
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#define _FP_UNPACK_RAW_4(fs, X, val) \
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do { \
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union _FP_UNION_##fs _flo; _flo.flt = (val); \
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X##_f[0] = _flo.bits.frac0; \
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X##_f[1] = _flo.bits.frac1; \
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X##_f[2] = _flo.bits.frac2; \
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X##_f[3] = _flo.bits.frac3; \
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X##_e = _flo.bits.exp; \
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X##_s = _flo.bits.sign; \
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} while (0)
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#define _FP_PACK_RAW_4(fs, val, X) \
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do { \
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union _FP_UNION_##fs _flo; \
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_flo.bits.frac0 = X##_f[0]; \
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_flo.bits.frac1 = X##_f[1]; \
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_flo.bits.frac2 = X##_f[2]; \
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_flo.bits.frac3 = X##_f[3]; \
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_flo.bits.exp = X##_e; \
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_flo.bits.sign = X##_s; \
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(val) = _flo.flt; \
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} while (0)
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/*
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* Internals
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*/
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#define __FP_FRAC_SET_4(X,I3,I2,I1,I0) \
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(X##_f[3] = I3, X##_f[2] = I2, X##_f[1] = I1, X##_f[0] = I0)
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#ifndef __FP_FRAC_ADD_4
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#define __FP_FRAC_ADD_4(r3,r2,r1,r0,x3,x2,x1,x0,y3,y2,y1,y0) \
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(r0 = x0 + y0, \
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r1 = x1 + y1 + (r0 < x0), \
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r2 = x2 + y2 + (r1 < x1), \
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r3 = x3 + y3 + (r2 < x2))
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#endif
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#ifndef __FP_FRAC_SUB_4
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#define __FP_FRAC_SUB_4(r3,r2,r1,r0,x3,x2,x1,x0,y3,y2,y1,y0) \
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(r0 = x0 - y0, \
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r1 = x1 - y1 - (r0 > x0), \
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r2 = x2 - y2 - (r1 > x1), \
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r3 = x3 - y3 - (r2 > x2))
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#endif
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#ifndef __FP_FRAC_ADDI_4
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/* I always wanted to be a lisp programmer :-> */
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#define __FP_FRAC_ADDI_4(x3,x2,x1,x0,i) \
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(x3 += ((x2 += ((x1 += ((x0 += i) < x0)) < x1) < x2)))
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#endif
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/* Convert FP values between word sizes. This appears to be more
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* complicated than I'd have expected it to be, so these might be
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* wrong... These macros are in any case somewhat bogus because they
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* use information about what various FRAC_n variables look like
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* internally [eg, that 2 word vars are X_f0 and x_f1]. But so do
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* the ones in op-2.h and op-1.h.
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*/
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#define _FP_FRAC_CONV_1_4(dfs, sfs, D, S) \
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do { \
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_FP_FRAC_SRS_4(S, (_FP_WFRACBITS_##sfs - _FP_WFRACBITS_##dfs), \
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_FP_WFRACBITS_##sfs); \
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D##_f = S##_f[0]; \
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} while (0)
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#define _FP_FRAC_CONV_2_4(dfs, sfs, D, S) \
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do { \
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_FP_FRAC_SRS_4(S, (_FP_WFRACBITS_##sfs - _FP_WFRACBITS_##dfs), \
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_FP_WFRACBITS_##sfs); \
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D##_f0 = S##_f[0]; \
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D##_f1 = S##_f[1]; \
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} while (0)
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/* Assembly/disassembly for converting to/from integral types.
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* No shifting or overflow handled here.
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*/
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/* Put the FP value X into r, which is an integer of size rsize. */
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#define _FP_FRAC_ASSEMBLE_4(r, X, rsize) \
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do { \
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if (rsize <= _FP_W_TYPE_SIZE) \
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r = X##_f[0]; \
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else if (rsize <= 2*_FP_W_TYPE_SIZE) \
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{ \
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r = X##_f[1]; \
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r <<= _FP_W_TYPE_SIZE; \
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r += X##_f[0]; \
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} \
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else \
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{ \
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/* I'm feeling lazy so we deal with int == 3words (implausible)*/ \
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/* and int == 4words as a single case. */ \
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r = X##_f[3]; \
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r <<= _FP_W_TYPE_SIZE; \
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r += X##_f[2]; \
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r <<= _FP_W_TYPE_SIZE; \
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r += X##_f[1]; \
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r <<= _FP_W_TYPE_SIZE; \
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r += X##_f[0]; \
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} \
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} while (0)
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/* "No disassemble Number Five!" */
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/* move an integer of size rsize into X's fractional part. We rely on
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* the _f[] array consisting of words of size _FP_W_TYPE_SIZE to avoid
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* having to mask the values we store into it.
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*/
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#define _FP_FRAC_DISASSEMBLE_4(X, r, rsize) \
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do { \
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X##_f[0] = r; \
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X##_f[1] = (rsize <= _FP_W_TYPE_SIZE ? 0 : r >> _FP_W_TYPE_SIZE); \
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X##_f[2] = (rsize <= 2*_FP_W_TYPE_SIZE ? 0 : r >> 2*_FP_W_TYPE_SIZE); \
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X##_f[3] = (rsize <= 3*_FP_W_TYPE_SIZE ? 0 : r >> 3*_FP_W_TYPE_SIZE); \
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} while (0)
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#define _FP_FRAC_CONV_4_1(dfs, sfs, D, S) \
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do { \
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D##_f[0] = S##_f; \
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D##_f[1] = D##_f[2] = D##_f[3] = 0; \
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_FP_FRAC_SLL_4(D, (_FP_WFRACBITS_##dfs - _FP_WFRACBITS_##sfs)); \
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} while (0)
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#define _FP_FRAC_CONV_4_2(dfs, sfs, D, S) \
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do { \
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D##_f[0] = S##_f0; \
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D##_f[1] = S##_f1; \
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D##_f[2] = D##_f[3] = 0; \
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_FP_FRAC_SLL_4(D, (_FP_WFRACBITS_##dfs - _FP_WFRACBITS_##sfs)); \
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} while (0)
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/* FIXME! This has to be written */
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#define _FP_SQRT_MEAT_4(R, S, T, X, q)
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