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-rw-r--r--arch/m68k/ifpsp060/src/fpsp.S10
1 files changed, 5 insertions, 5 deletions
diff --git a/arch/m68k/ifpsp060/src/fpsp.S b/arch/m68k/ifpsp060/src/fpsp.S
index 26e85e2b7a5e..78cb60f5bb4d 100644
--- a/arch/m68k/ifpsp060/src/fpsp.S
+++ b/arch/m68k/ifpsp060/src/fpsp.S
@@ -11813,7 +11813,7 @@ fmul_unfl_ena:
bne.b fmul_unfl_ena_sd # no, sgl or dbl
# if the rnd mode is anything but RZ, then we have to re-do the above
-# multiplication becuase we used RZ for all.
+# multiplication because we used RZ for all.
fmov.l L_SCR3(%a6),%fpcr # set FPCR
fmul_unfl_ena_cont:
@@ -18095,7 +18095,7 @@ fscc_mem_op:
rts
-# addresing mode is post-increment. write the result byte. if the write
+# addressing mode is post-increment. write the result byte. if the write
# fails then don't update the address register. if write passes then
# call inc_areg() to update the address register.
fscc_mem_inc:
@@ -20876,7 +20876,7 @@ dst_get_dupper:
swap %d0 # d0 now in upper word
lsl.l &0x4,%d0 # d0 in proper place for dbl prec exp
tst.b FTEMP_EX(%a0) # test sign
- bpl.b dst_get_dman # if postive, go process mantissa
+ bpl.b dst_get_dman # if positive, go process mantissa
bset &0x1f,%d0 # if negative, set sign
dst_get_dman:
mov.l FTEMP_HI(%a0),%d1 # get ms mantissa
@@ -22943,7 +22943,7 @@ tbl_ovfl_result:
# FP_SRC(a6) = packed operand now as a binary FP number #
# #
# ALGORITHM *********************************************************** #
-# Get the correct <ea> whihc is the value on the exception stack #
+# Get the correct <ea> which is the value on the exception stack #
# frame w/ maybe a correction factor if the <ea> is -(an) or (an)+. #
# Then, fetch the operand from memory. If the fetch fails, exit #
# through facc_in_x(). #
@@ -24096,7 +24096,7 @@ do_fint12:
# A6. This test occurs only on the first pass. If the
# result is exactly 10^LEN, decrement ILOG and divide
# the mantissa by 10. The calculation of 10^LEN cannot
-# be inexact, since all powers of ten upto 10^27 are exact
+# be inexact, since all powers of ten up to 10^27 are exact
# in extended precision, so the use of a previous power-of-ten
# table will introduce no error.
#