;ACME 0.94.5 !ifdef lib_cbm_mflpt_a !eof lib_cbm_mflpt_a = 1 ; CAUTION! The Commodore BASIC interpreter uses two different formats for ; handling floating-point values, so do not confuse them: ; The "float registers" fac1 and fac2 (actually structures in zero page) use a ; six-byte format commonly known as "flpt" (floating point). ; When storing values in variables (or reading values from ROM), a compressed ; five-byte format is used, commonly known as "mflpt" (memory floating point). ; This file contains a macro for writing floating point numbers in the five-byte ; "mflpt" format, where the sign bit is packed into the mantissa. ; Several interpreter functions use this format (see ). ; Use the macro like this: ; +mflpt 3.1415926 ; each use will take up five bytes of memory ; now for the technical stuff (stop reading right now if you value your sanity) ; five-byte layout in memory: ; eeeeeeee smmmmmmm mmmmmmmm mmmmmmmm mmmmmmmm ; eight bits exponent, 32 bits mantissa with sign bit overlay ; exponent byte: ; exponent has a bias of 128 (128 means the decimal point is right before the mantissa's leading digit) ; if exponent is zero, number value is considered to be zero, regardless of mantissa ; exponents 1..128 are for values < 1 ; exponents 129..255 are for values >= 1 ; mantissa: ; mantissa is stored big-endian(!) ; the mantissa's mandatory leading '1' is replaced by the sign bit ; so logically, this is equivalent to: ; + .1mmmmmmm mmmmmmmm mmmmmmmm mmmmmmmm * 2^(eeeeeeee - 128) if sign bit is 0 ; - .1mmmmmmm mmmmmmmm mmmmmmmm mmmmmmmm * 2^(eeeeeeee - 128) if sign bit is 1 ; this is ugly, but it gets the job done ; (if it's stupid, but it works, then it's not stupid) !macro mflpt @value { !set @float = float(@value) ; make sure to do passes until value is defined !ifndef @float { !by $ff, $ff, $ff, $ff, $ff ; five place holder bytes } else { ; value is defined, so split up into sign and non-negative value !if @float < 0 { !set @sign = $80 !set @float = -@float } else { !set @sign = $00 } !if @float = 0 { !by 0, 0, 0, 0, 0 ; five zeroes (zero is represented by all bits zero) } else { ; split up into exponent and mantissa !set @exponent = 128 + 32 ; 128 is cbm's bias, 32 is this algo's bias ; if mantissa is too large, shift right and adjust exponent !do while @float >= (2.0 ^ 32.0) { !set @float = @float >> 1 !set @exponent = @exponent + 1 } ; if mantissa is too small, shift left and adjust exponent !do while @float < (2.0 ^ 31.0) { !set @float = @float << 1 !set @exponent = @exponent - 1 } !if @exponent < 1 { !warn "MFLPT underflow, using zero instead" !set @float = 0 !set @exponent = 0 !set @sign = 0 } !if @exponent > 255 { !error "MFLPT overflow" } !by @exponent !by (127 & int(@float >> 24)) | @sign !by 255 & int(@float >> 16) !by 255 & int(@float >> 8) !by 255 & int(@float) } } }