Lines Matching refs:exponent

197     unsigned exponent:8;  member
201     unsigned exponent:8;
210     unsigned exponent:11;  member
214     unsigned exponent:11;
223     unsigned         exponent:15;  member
227     unsigned         exponent:15;
315     if ( ((y)->ex+(y)->fphi.exponent-134 <                  \
316           (x)->ex+(x)->fphi.exponent)       &&              \
317          ((x)->ex+(x)->fphi.exponent <                      \
318           (y)->ex+(y)->fphi.exponent+134)   &&              \
328             FP80(t1)->exponent = BIAS_80 + (x)->ex-(y)->ex; \
351              ((y)->ex+(y)->fphi.exponent-BIAS_80 - 134 >=   \
352               (x)->ex+(x)->fphi.exponent-BIAS_80) )         \
362     if ( ((y)->ex+(y)->fphi.exponent-134 <                  \
363           (x)->ex+(x)->fphi.exponent)       &&              \
364          ((x)->ex+(x)->fphi.exponent <                      \
365           (y)->ex+(y)->fphi.exponent+134)   &&              \
375             FP80(t1)->exponent = BIAS_80 + (x)->ex-(y)->ex; \
397              ((y)->ex+(y)->fphi.exponent-BIAS_80 - 134 >=   \
398               (x)->ex+(x)->fphi.exponent-BIAS_80) )         \
414     if ( ((x)->fphi.exponent-BIAS_80<-8000) ||              \
415          ((x)->fphi.exponent-BIAS_80>+8000) ||              \
416          ((y)->fphi.exponent-BIAS_80<-8000) ||              \
417          ((y)->fphi.exponent-BIAS_80>+8000) )               \
460     if ( ((y)->ex+(y)->fphi.exponent-134 <                  \
461           (x)->ex+(x)->fphi.exponent)       &&              \
462          ((x)->ex+(x)->fphi.exponent <                      \
463           (y)->ex+(y)->fphi.exponent+134)   &&              \
473             FP80(t1)->exponent = BIAS_80 + (x)->ex-(y)->ex; \
496              ((y)->ex+(y)->fphi.exponent-BIAS_80 - 134 >=   \
497               (x)->ex+(x)->fphi.exponent-BIAS_80) )         \
509     if ( ((y)->ex+(y)->fphi.exponent-134 <                  \
510           (x)->ex+(x)->fphi.exponent)       &&              \
511          ((x)->ex+(x)->fphi.exponent <                      \
512           (y)->ex+(y)->fphi.exponent+134)   &&              \
522             FP80(t1)->exponent = BIAS_80 + (x)->ex-(y)->ex; \
544              ((y)->ex+(y)->fphi.exponent-BIAS_80 - 134 >=   \
545               (x)->ex+(x)->fphi.exponent-BIAS_80) )         \
563     if ( ((x)->fphi.exponent-BIAS_80<-8000) ||              \
564          ((x)->fphi.exponent-BIAS_80>+8000) ||              \
565          ((y)->fphi.exponent-BIAS_80<-8000) ||              \
566          ((y)->fphi.exponent-BIAS_80>+8000) )               \
621     if ( ((x)->fphi.exponent-BIAS_80<-8000) ||              \
622          ((x)->fphi.exponent-BIAS_80>+8000) ||              \
623          ((y)->fphi.exponent-BIAS_80<-8000) ||              \
624          ((y)->fphi.exponent-BIAS_80>+8000) )               \
667     if ( ((x)->fphi.exponent-BIAS_80<-8000) ||              \
668          ((x)->fphi.exponent-BIAS_80>+8000) ||              \
669          ((y)->fphi.exponent-BIAS_80<-8000) ||              \
670          ((y)->fphi.exponent-BIAS_80>+8000) )               \
721     if ( ((x)->fphi.exponent-BIAS_80<-16000) ||             \
722          ((x)->fphi.exponent-BIAS_80>+16000) )              \
768 # define HI_DWORD_80(ld) ((((FP80(ld)->sign << 15) | FP80(ld)->exponent) << 16) | \
772 # define HI_DWORD_80(ld) ((((FP80(ld)->sign << 15) | FP80(ld)->exponent) << 16) | \
857    (((X)->exponent == (EXP)) && (SIGNIFICAND_EQ_HEX_32(X, BITS)))
858 #define VALUE_GT_HEX_32(X,EXP,BITS) (((X)->exponent > (EXP)) || \
859    (((X)->exponent == (EXP)) && (SIGNIFICAND_GT_HEX_32(X, BITS))))
860 #define VALUE_GE_HEX_32(X,EXP,BITS) (((X)->exponent > (EXP)) || \
861    (((X)->exponent == (EXP)) && (SIGNIFICAND_GE_HEX_32(X, BITS))))
862 #define VALUE_LT_HEX_32(X,EXP,BITS) (((X)->exponent < (EXP)) || \
863    (((X)->exponent == (EXP)) && (SIGNIFICAND_LT_HEX_32(X, BITS))))
864 #define VALUE_LE_HEX_32(X,EXP,BITS) (((X)->exponent < (EXP)) || \
865    (((X)->exponent == (EXP)) && (SIGNIFICAND_LE_HEX_32(X, BITS))))
868    (((X)->exponent == (EXP)) && (SIGNIFICAND_EQ_HEX_64(X, HI, LO)))
869 #define VALUE_GT_HEX_64(X,EXP,HI,LO) (((X)->exponent > (EXP)) || \
870    (((X)->exponent == (EXP)) && (SIGNIFICAND_GT_HEX_64(X, HI, LO))))
871 #define VALUE_GE_HEX_64(X,EXP,HI,LO) (((X)->exponent > (EXP)) || \
872    (((X)->exponent == (EXP)) && (SIGNIFICAND_GE_HEX_64(X, HI, LO))))
873 #define VALUE_LT_HEX_64(X,EXP,HI,LO) (((X)->exponent < (EXP)) || \
874    (((X)->exponent == (EXP)) && (SIGNIFICAND_LT_HEX_64(X, HI, LO))))
875 #define VALUE_LE_HEX_64(X,EXP,HI,LO) (((X)->exponent < (EXP)) || \
876    (((X)->exponent == (EXP)) && (SIGNIFICAND_LE_HEX_64(X, HI, LO))))
879    (((X)->exponent == (EXP)) && (SIGNIFICAND_EQ_HEX_80(X, HI, LO)))
880 #define VALUE_GT_HEX_80(X,EXP,HI,LO) (((X)->exponent > (EXP)) || \
881    (((X)->exponent == (EXP)) && (SIGNIFICAND_GT_HEX_80(X, HI, LO))))
882 #define VALUE_GE_HEX_80(X,EXP,HI,LO) (((X)->exponent > (EXP)) || \
883    (((X)->exponent == (EXP)) && (SIGNIFICAND_GE_HEX_80(X, HI, LO))))
884 #define VALUE_LT_HEX_80(X,EXP,HI,LO) (((X)->exponent < (EXP)) || \
885    (((X)->exponent == (EXP)) && (SIGNIFICAND_LT_HEX_80(X, HI, LO))))
886 #define VALUE_LE_HEX_80(X,EXP,HI,LO) (((X)->exponent < (EXP)) || \
887    (((X)->exponent == (EXP)) && (SIGNIFICAND_LE_HEX_80(X, HI, LO))))
936    (((X)->exponent == (Y)->exponent) && (SIGNIFICAND_EQ_32(X, Y)))
937 #define VALUE_GT_32(X,Y) (((X)->exponent > (Y)->exponent) || \
938    (((X)->exponent == (Y)->exponent) && (SIGNIFICAND_GT_32(X, Y))))
939 #define VALUE_GE_32(X,Y) (((X)->exponent > (Y)->exponent) || \
940    (((X)->exponent == (Y)->exponent) && (SIGNIFICAND_GE_32(X, Y))))
941 #define VALUE_LT_32(X,Y) (((X)->exponent < (Y)->exponent) || \
942    (((X)->exponent == (Y)->exponent) && (SIGNIFICAND_LT_32(X, Y))))
943 #define VALUE_LE_32(X,Y) (((X)->exponent < (Y)->exponent) || \
944    (((X)->exponent == (Y)->exponent) && (SIGNIFICAND_LE_32(X, Y))))
947    (((X)->exponent == (Y)->exponent) && (SIGNIFICAND_EQ_64(X, Y)))
948 #define VALUE_GT_64(X,Y) (((X)->exponent > (Y)->exponent) || \
949    (((X)->exponent == (Y)->exponent) && (SIGNIFICAND_GT_64(X, Y))))
950 #define VALUE_GE_64(X,Y) (((X)->exponent > (Y)->exponent) || \
951    (((X)->exponent == (Y)->exponent) && (SIGNIFICAND_GE_64(X, Y))))
952 #define VALUE_LT_64(X,Y) (((X)->exponent < (Y)->exponent) || \
953    (((X)->exponent == (Y)->exponent) && (SIGNIFICAND_LT_64(X, Y))))
954 #define VALUE_LE_64(X,Y) (((X)->exponent < (Y)->exponent) || \
955    (((X)->exponent == (Y)->exponent) && (SIGNIFICAND_LE_64(X, Y))))
958    (((X)->exponent == (Y)->exponent) && (SIGNIFICAND_EQ_80(X, Y)))
959 #define VALUE_GT_80(X,Y) (((X)->exponent > (Y)->exponent) || \
960    (((X)->exponent == (Y)->exponent) && (SIGNIFICAND_GT_80(X, Y))))
961 #define VALUE_GE_80(X,Y) (((X)->exponent > (Y)->exponent) || \
962    (((X)->exponent == (Y)->exponent) && (SIGNIFICAND_GE_80(X, Y))))
963 #define VALUE_LT_80(X,Y) (((X)->exponent < (Y)->exponent) || \
964    (((X)->exponent == (Y)->exponent) && (SIGNIFICAND_LT_80(X, Y))))
965 #define VALUE_LE_80(X,Y) (((X)->exponent < (Y)->exponent) || \
966    (((X)->exponent == (Y)->exponent) && (SIGNIFICAND_LE_80(X, Y))))
973         (++(X)->hi_significand == (((X)->exponent == 0) ? 0x80000000 : 0))) \
976         ++(X)->exponent; \
981         if (((X)->exponent != 0) && \
983             (--(X)->exponent != 0)) \
990     if (++(X)->significand == (((X)->exponent == 0) ? 0x8000000000000000 : 0))) { \
992         ++(X)->exponent; \
997         if (((X)->exponent != 0) && \
999             (--(X)->exponent != 0)) \