ORCA-C/CGC.asm
Stephen Heumann 4ad7a65de6 Process floating-point values within the compiler using the extended type.
This means that floating-point constants can now have the range and precision of the extended type (aka long double), and floating-point constant expressions evaluated within the compiler also have that same range and precision (matching expressions evaluated at run time). This new behavior is intended to match the behavior specified in the C99 and later standards for FLT_EVAL_METHOD 2.

This fixes the previous problem where long double constants and constant expressions of type long double were not represented and evaluated with the full range and precision that they should be. It also gives extra range and precision to constants and constant expressions of type double or float. This may have pluses and minuses, but at any rate it is consistent with the existing behavior for expressions evaluated at run time, and with one of the possible models of floating point evaluation specified in the C standards.
2021-03-04 23:58:08 -06:00

222 lines
5.4 KiB
NASM

mcopy cgc.macros
****************************************************************
*
* CnvSX - Convert floating point to SANE extended
*
* Inputs:
* rec - pointer to a record
*
****************************************************************
*
CnvSX start cg
rec equ 4 record containing values
rec_real equ 0 disp to real (extended) value
rec_ext equ 10 disp to extended (SANE) value
tsc set up DP
phd
tcd
ph4 rec push addr of real number
clc push addr of SANE number
lda rec
adc #rec_ext
tax
lda rec+2
adc #0
pha
phx
fx2x convert TOS to extended
move4 0,4 return
pld
pla
pla
rtl
end
****************************************************************
*
* CnvSC - Convert floating point to SANE comp
*
* Inputs:
* rec - pointer to a record
*
****************************************************************
*
CnvSC start cg
rec equ 4 record containing values
rec_real equ 0 disp to real (extended) value
rec_ext equ 10 disp to extended (SANE) value
rec_cmp equ 20 disp to comp (SANE) value
tsc set up DP
phd
tcd
ph4 rec push addr of real number
clc push addr of SANE comp number
lda rec
adc #rec_cmp
tax
lda rec+2
adc #0
pha
phx
fx2c convert TOS to SANE comp number
move4 0,4 return
pld
pla
pla
rtl
end
****************************************************************
*
* procedure CnvXLL (var result: longlong; val: extended);
*
* Convert floating point to long long
*
* Inputs:
* result - longlong to hold the converted value
* val - the real value
*
****************************************************************
CnvXLL start cg
subroutine (4:result,10:val),0
pei (val+8)
pei (val+6)
pei (val+4)
pei (val+2)
pei (val)
jsl ~CnvRealLongLong
pl8 [result]
return
end
****************************************************************
*
* procedure CnvXULL (var result: longlong; val: extended);
*
* Convert floating point to unsigned long long
*
* Inputs:
* result - longlong to hold the converted value
* val - the real value
*
****************************************************************
CnvXULL start cg
subroutine (4:result,10:val),0
pei (val+8)
pei (val+6)
pei (val+4)
pei (val+2)
pei (val)
jsl ~CnvRealULongLong
pl8 [result]
return
end
****************************************************************
*
* function CnvLLX (val: longlong): extended;
*
* convert a long long to a real number
*
* Inputs:
* val - the long long value
*
****************************************************************
CnvLLX start cg
subroutine (4:val),0
ph8 [val]
jsl ~CnvLongLongReal
pla
sta >rval
pla
sta >rval+2
pla
sta >rval+4
pla
sta >rval+6
pla
sta >rval+8
lla val,rval
return 4:val
rval ds 10
end
****************************************************************
*
* function CnvULLX (val: longlong): extended;
*
* convert an unsigned long long to a real number
*
* Inputs:
* val - the unsigned long long value
*
****************************************************************
CnvULLX start cg
subroutine (4:val),0
ph8 [val]
jsl ~CnvULongLongReal
pla
sta >rval
pla
sta >rval+2
pla
sta >rval+4
pla
sta >rval+6
pla
sta >rval+8
lla val,rval
return 4:val
rval ds 10
end
datachk off
****************************************************************
*
* InitLabels - initialize the labels array
*
* Outputs:
* labelTab - initialized
* intLabel - initialized
*
****************************************************************
*
InitLabels start cg
maxLabel equ 3200
! with labelTab[0] do begin
lda #-1 val := -1;
sta labelTab+6
sta labelTab+8
stz labelTab defined := false;
stz labelTab+2 chain := nil;
stz labelTab+4
! end; {with}
ldx #labelTab for i := 1 to maxLabel do
ldy #labelTab+10 labelTab[i] := labelTab[0];
lda #maxLabel*10-1
mvn labelTab,labelTab
stz intLabel intLabel := 0;
rtl
end