Lines Matching refs:Go
1000 # well, we simply have to get to go to _real_unfl()!
1327 # INEX1 : none (packed doesn't go through here)
1376 bra.w fu_in_exc_ovfl # go insert overflow frame
2992 # call fmovm_calc_ea which will go through the ea calc process and,
5038 # 2. If |X| >= 15Pi or |X| < 2**(-40), go to 7. #
5044 # 4. If k is even, go to 6. #
5057 # 7. If |X| > 1, go to 9. #
5063 # go back to 3. #
5066 # 1. If |X| >= 15Pi or |X| < 2**(-40), go to 6. #
5071 # 3. If k is even, go to 5. #
5085 # 6. If |X| > 1, go to 8. #
5090 # go back to 2. #
5740 # 1. If |X| >= 15Pi or |X| < 2**(-40), go to 6. #
5745 # 3. If k is odd, go to 5. #
5759 # 6. If |X| > 1, go to 8. #
5763 # 8. Overwrite X by X := X rem 2Pi. Now that |X| <= Pi, go back #
6169 # Step 1. If |X| >= 16 or |X| < 1/16, go to Step 5. #
6182 # Step 5. If |X| >= 16, go to Step 7. #
6621 # 1. If |X| >= 1, go to 3. #
6628 # 3. If |X| > 1, go to 5. #
6722 # 1. If |X| >= 1, go to 3. #
6729 # 3. If |X| > 1, go to 5. #
6829 # 1.1 If |X| >= 2^(-65), go to Step 1.3. #
6830 # 1.2 Go to Step 7. #
6831 # 1.3 If |X| < 16380 log(2), go to Step 2. #
6832 # 1.4 Go to Step 8. #
6928 # 6.1 If AdjFlag = 0, go to 6.3 #
6960 # 8.1 If |X| > 16480 log2, go to Step 9. #
6969 # 8.7 Go to Step 3. #
6973 # 9.1 If X < 0, go to 9.3 #
6974 # 9.2 ans := Huge, go to 9.4 #
6997 # 1.1 If |X| >= 1/4, go to Step 1.3. #
6998 # 1.2 Go to Step 7. #
6999 # 1.3 If |X| < 70 log(2), go to Step 2. #
7000 # 1.4 Go to Step 10. #
7057 # 6.1 If M <= 63, go to Step 6.3. #
7058 # 6.2 ans := T + (p + (t + OnebySc)). Go to 6.6 #
7059 # 6.3 If M >= -3, go to 6.5. #
7060 # 6.4 ans := (T + (p + t)) + OnebySc. Go to 6.6 #
7068 # 7.1 If |X| >= 2^(-65), go to Step 9. #
7069 # 7.2 Go to Step 8. #
7106 # practical purposes. Therefore, go to Step 1 of setox. #
7357 bra.w EXPCONT1 # go back to Step 3
7699 # 1. If |X| > 16380 log2, go to 3. #
7706 # 3. (|X| > 16380 log2). If |X| > 16480 log2, go to 5. #
7813 # 1. If |X| > 16380 log2, go to 3. #
7820 # 3. If |X| > 16480 log2, go to 5. #
7931 # 1. If |X| >= (5/2) log2 or |X| <= 2**(-40), go to 3. #
7939 # go to 7. #
7941 # 4. (|X| >= (5/2) log2) If |X| >= 50 log2, go to 6. #
8692 # 1. If |X| >= 1, go to 3. #
8701 # 3. If |X| > 1, go to 5. #
8830 # go to Step 3. #
8946 # 1. If |X| > 16480, go to ExpBig. #
8948 # 2. If |X| < 2**(-70), go to ExpSm. #
8956 # Go to expr to compute that expression. #
8959 # 1. If |X| > 16480*log_10(2) (base 10 log of 2), go to ExpBig. #
8961 # 2. If |X| < 2**(-70), go to ExpSm. #
8972 # Go to expr to compute that expression. #
9732 # R := X, go to Step 4. #
9738 # 3.1 If R = Y, go to Step 9. #
9740 # 3.3 If j = 0, go to Step 4. #
9741 # 3.4 k := k + 1, j := j - 1, Q := 2Q, R := 2R. Go to #
9746 # MOD is requested, go to Step 6. #
9749 # 5.1 If R < Y/2, then R = MOD(X,Y) = REM(X,Y). Go to #
9752 # Q := Q + 1, Y := signY*Y }. Go to Step 6. #
11628 # normalized then we really don't need to go through this scaling. but for now,
12083 bne.w fin_not_ext # no, so go handle dbl or sgl
12103 bne.w fin_not_ext # no, so go handle dbl or sgl
12153 bge.w fin_sd_unfl # yes; go handle underflow
12155 beq.w fin_sd_may_ovfl # maybe; go check
12156 blt.w fin_sd_ovfl # yes; go handle overflow
12196 bge.w fin_sd_unfl # yes; go handle underflow
12198 beq.w fin_sd_may_ovfl # maybe; go check
12199 blt.w fin_sd_ovfl # yes; go handle overflow
12212 # if underflow or inexact is enabled, then go calculate the EXOP first.
12443 bgt.w fdiv_unfl # yes; go handle underflow
12856 bne.w fneg_not_ext # no; go handle sgl or dbl
12880 bne.b fneg_not_ext # no; go handle sgl or dbl
12933 bge.w fneg_sd_unfl # yes; go handle underflow
12935 beq.w fneg_sd_may_ovfl # maybe; go check
12936 blt.w fneg_sd_ovfl # yes; go handle overflow
12976 bge.b fneg_sd_unfl # yes; go handle underflow
12978 beq.w fneg_sd_may_ovfl # maybe; go check
12979 blt.w fneg_sd_ovfl # yes; go handle overflow
12992 # if underflow or inexact is enabled, go calculate EXOP first.
13479 go handle sgl or dbl
13551 bge.w fabs_sd_unfl # yes; go handle underflow
13553 beq.w fabs_sd_may_ovfl # maybe; go check
13554 blt.w fabs_sd_ovfl # yes; go handle overflow
13594 bge.b fabs_sd_unfl # yes; go handle underflow
13596 beq.w fabs_sd_may_ovfl # maybe; go check
13597 blt.w fabs_sd_ovfl # yes; go handle overflow
13608 # if underflow or inexact is enabled, go calculate EXOP first.
14347 bgt.w fsgldiv_unfl # yes; go handle underflow
14703 beq.w fadd_may_unfl # maybe; go find out
15014 bra.w fadd_zero_entry # go execute fadd
15024 bra.w fadd_zero_entry # go execute fadd
15156 beq.w fsub_may_unfl # maybe; go find out
15466 bra.w fsub_zero_entry # go execute fsub
15476 bra.w fsub_zero_entry # go execute fsub
15568 bne.b fsqrt_not_ext # no; go handle sgl or dbl
15585 bne.b fsqrt_not_ext # no; go handle sgl or dbl
15614 bgt.w fsqrt_sd_unfl # yes; go handle underflow
15616 beq.w fsqrt_sd_may_ovfl # maybe; go check
15617 blt.w fsqrt_sd_ovfl # yes; go handle overflow
15659 bgt.b fsqrt_sd_unfl # yes; go handle underflow
15661 beq.w fsqrt_sd_may_ovfl # maybe; go check
15662 blt.w fsqrt_sd_ovfl # yes; go handle overflow
15688 # if underflow or inexact is enabled, go calculate EXOP first.
16361 bra.w fdbcc_false # no; go handle counter
16373 bra.w fdbcc_false # no; go handle counter
16385 beq.w fdbcc_false # no;go handle counter
16389 bra.w fdbcc_false # no; go handle counter
16401 bra.w fdbcc_false # no; go handle counter
16404 beq.b fdbcc_ngt_done # no;go finish
16420 beq.w fdbcc_false # no;go handle counter
16424 bra.w fdbcc_false # no; go handle counter
16427 beq.b fdbcc_ge_yes_done # no;go do nothing
16442 bra.w fdbcc_false # no; go handle counter
16445 beq.b fdbcc_nge_done # no;go finish
16461 beq.w fdbcc_false # no; go handle counter
16465 bra.w fdbcc_false # no; go handle counter
16477 bra.w fdbcc_false # no; go handle counter
16480 beq.b fdbcc_nlt_done # no;go finish
16496 beq.w fdbcc_false # no; go handle counter
16500 bra.w fdbcc_false # no; go handle counter
16503 beq.b fdbcc_le_yes_done # no; go do nothing
16518 bra.w fdbcc_false # no; go handle counter
16521 beq.w fdbcc_nle_done # no; go finish
16541 bra.w fdbcc_false # no; go handle counter
16553 bra.w fdbcc_false # no; go handle counter
16556 beq.b fdbcc_ngl_done # no; go finish
16574 bra.w fdbcc_false # no; go handle counter
16586 bra.w fdbcc_false # no; go handle counter
16607 bra.w fdbcc_false # go handle counter
16624 beq.w fdbcc_false # no;go handle counter
16628 bra.w fdbcc_false # go handle counter
16637 beq.b fdbcc_st_done # no;go finish
16653 beq.w fdbcc_false # no;go handle counter
16657 bra.w fdbcc_false # go handle counter
16660 beq.b fdbcc_seq_yes_done # no;go do nothing
16676 beq.w fdbcc_false # no;go handle counter
16680 bra.w fdbcc_false # go handle counter
16683 beq.w fdbcc_sneq_done # no;go finish
16709 bra.w fdbcc_false # no; go handle counter
16721 bra.w fdbcc_false # no; go handle counter
16733 bra.w fdbcc_false # no; go handle counter
16745 bra.w fdbcc_false # no; go handle counter
16757 bra.w fdbcc_false # no; go handle counter
16769 bra.w fdbcc_false # no; go handle counter
16781 bra.w fdbcc_false # no; go handle counter
16793 bra.w fdbcc_false # no; go handle counter
16805 bra.w fdbcc_false # no; go handle counter
16817 bra.w fdbcc_false # no; go handle counter
16829 bra.w fdbcc_false # no; go handle counter
16841 bra.w fdbcc_false # no; go handle counter
17026 beq.w ftrapcc_trap # no; go take trap
17030 bra.w ftrapcc_trap # no; go take trap
17041 beq.b ftrapcc_ge_done # no; go finish
17049 beq.w ftrapcc_trap # no; go take trap
17053 bra.w ftrapcc_trap # no; go take trap
17066 beq.w ftrapcc_trap # no; go take trap
17070 bra.w ftrapcc_trap # no; go take trap
17081 beq.b ftrapcc_lt_done # no; go finish
17099 beq.w ftrapcc_trap # no; go take trap
17103 bra.w ftrapcc_trap # no; go take trap
17114 beq.b ftrapcc_le_done # no; go finish
17122 beq.w ftrapcc_trap # no; go take trap
17126 bra.w ftrapcc_trap # no; go take trap
17139 beq.w ftrapcc_trap # no; go take trap
17143 bra.w ftrapcc_trap # no; go take trap
17154 beq.b ftrapcc_gl_done # no; go finish
17172 beq.w ftrapcc_trap # no; go take trap
17176 bra.w ftrapcc_trap # no; go take trap
17204 bra.w ftrapcc_trap # no; go take trap
17230 bra.w ftrapcc_trap # go take trap
17239 beq.b ftrapcc_sf_done # no; go finish
17253 beq.w ftrapcc_trap # no; go take trap
17257 bra.w ftrapcc_trap # no; go take trap
17268 beq.w ftrapcc_seq_done # no; go finish
17276 beq.w ftrapcc_trap # no; go take trap
17280 bra.w ftrapcc_trap # no; go take trap
17291 beq.w ftrapcc_sneq_no_done # no; go finish
17299 beq.w ftrapcc_trap # no; go take trap
17303 bra.w ftrapcc_trap # no; go take trap
17558 bra.w fscc_done # go finish
17561 bra.w fscc_done # go finish
17572 bra.w fscc_done # go finish
17575 bra.w fscc_done # go finish
17587 beq.w fscc_done # no;go finish
17589 bra.w fscc_chk_bsun # go finish
17592 bra.w fscc_done # go finish
17603 bra.w fscc_done # go finish
17607 beq.w fscc_done # no;go finish
17609 bra.w fscc_chk_bsun # go finish
17621 beq.w fscc_done # no;go finish
17623 bra.w fscc_chk_bsun # go finish
17627 beq.w fscc_done # no;go finish
17629 bra.w fscc_chk_bsun # go finish
17640 bra.w fscc_done # go finish
17644 beq.w fscc_done # no;go finish
17646 bra.w fscc_chk_bsun # go finish
17658 beq.w fscc_done # no;go finish
17660 bra.w fscc_chk_bsun # go finish
17663 bra.w fscc_done # go finish
17674 bra.w fscc_done # go finish
17678 beq.w fscc_done # no;go finish
17680 bra.w fscc_chk_bsun # go finish
17692 beq.w fscc_done # no;go finish
17694 bra.w fscc_chk_bsun # go finish
17698 beq.w fscc_done # no;go finish
17700 bra.w fscc_chk_bsun # go finish
17711 bra.w fscc_done # go finish
17715 beq.w fscc_done # no;go finish
17717 bra.w fscc_chk_bsun # go finish
17729 beq.w fscc_done # no;go finish
17731 bra.w fscc_chk_bsun # go finish
17734 bra.w fscc_done # go finish
17745 bra.w fscc_done # go finish
17749 beq.w fscc_done # no;go finish
17751 bra.w fscc_chk_bsun # go finish
17763 bra.w fscc_chk_bsun # go finish
17766 bra.w fscc_done # go finish
17777 bra.w fscc_done # go finish
17781 bra.w fscc_chk_bsun # go finish
17800 bra.w fscc_done # go finish
17809 bra.w fscc_done # go finish
17819 beq.w fscc_done # no;go finish
17821 bra.w fscc_chk_bsun # go finish
17831 beq.w fscc_done # no;go finish
17833 bra.w fscc_chk_bsun # go finish
17845 beq.w fscc_done # no;go finish
17847 bra.w fscc_chk_bsun # go finish
17851 beq.w fscc_done # no;go finish
17853 bra.w fscc_chk_bsun # go finish
17865 beq.w fscc_done # no;go finish
17867 bra.w fscc_chk_bsun # go finish
17871 beq.w fscc_done # no;go finish
17873 bra.w fscc_chk_bsun # go finish
17894 bra.w fscc_done # go finish
17897 bra.w fscc_done # go finish
17908 bra.w fscc_done # go finish
17911 bra.w fscc_done # go finish
17922 bra.w fscc_done # go finish
17925 bra.w fscc_done # go finish
17936 bra.w fscc_done # go finish
17939 bra.w fscc_done # go finish
17950 bra.w fscc_done # go finish
17953 bra.w fscc_done # go finish
17964 bra.w fscc_done # go finish
17967 bra.w fscc_done # go finish
17978 bra.w fscc_done # go finish
17981 bra.w fscc_done # go finish
17992 bra.w fscc_done # go finish
17995 bra.w fscc_done # go finish
18006 bra.w fscc_done # go finish
18009 bra.w fscc_done # go finish
18020 bra.w fscc_done # go finish
18023 bra.w fscc_done # go finish
18034 bra.w fscc_done # go finish
18037 bra.w fscc_done # go finish
18048 bra.w fscc_done # go finish
18051 bra.w fscc_done # go finish
20457 bgt.w fout_sgl_ovfl # yes; go handle OVFL
20458 beq.w fout_sgl_may_ovfl # maybe; go handle possible OVFL
20460 blt.w fout_sgl_unfl # yes; go handle underflow
20624 fblt.w fout_sgl_exg # no; go finish NORM
20625 bra.w fout_sgl_ovfl # yes; go handle overflow
20695 bgt.w fout_dbl_ovfl # yes; go handle OVFL
20696 beq.w fout_dbl_may_ovfl # maybe; go handle possible OVFL
20698 blt.w fout_dbl_unfl # yes; go handle underflow
20835 fblt.w fout_dbl_exg # no; go finish NORM
20836 bra.w fout_dbl_ovfl # yes; go handle overflow
20888 bpl.b dst_get_dman # if postive, go process mantissa
21844 beq.b case1_sticky_clear # no; go finish
21993 bne.b case3_set_sticky # yes; go set new sticky
21995 bne.b case3_set_sticky # yes; go set new sticky
21997 bne.b case3_set_sticky # yes; go set new sticky
22232 bne.b ext_grs_not_ext # no; go handle sgl or dbl
22246 bne.b ext_grs_dbl # no; go handle dbl
22414 # exponent would not go < 0. therefore, number stays normalized
22428 # exponent would go < 0, so only denormalize until exp = 0
22432 bgt.b unnorm_nrm_zero_lrg # no; go handle large exponent
23194 beq.b ap_st_z # if clear, go to append/strip zeros
23251 bne.b ap_st_n # if neg, go to neg side
23255 bne.b ap_p_fx # if M16 is non-zero, go fix exp
23268 bne.b ap_p_fx # if non-zero, go to fix exp
23276 bge.b ap_p_fm # if still pos, go to pwrten
23299 bra.b pwrten # go calc pwrten
23316 bne.b ap_n_fx # if non-zero, go to exp fix
23324 bgt.b ap_n_fm # if still pos, go fix mantissa
23406 bra.b calc_p # go to init section
23411 bra.b calc_p # go to init section
23444 beq.b mul # if clear, go to multiply
23713 bra.b A4_str # go move out ILOG
24136 bne not_zr # if non-zero, go to second test
24175 fblt.w A14_st # if less, all is ok, go to A14
24264 bne.b no_zr # if not, go on
24266 beq.b zer_m # if zero, go directly to binstr
24490 # extracts and shifts. The three msbs from d2 will go into d1. #
Indexes created Thu May 07 00:24:58 UTC 2026