; ca65 .feature c_comments /* Version 20 printm - a modular micro printf replacement for 65C02 Michael Pohoreski Copyleft {c} Feb, 2016 Special Thanks: Sheldon for his 65C02 printf() source, qkumba optimizations Problem: Ideally we want to print an 1:1 mapping of input:output text that includes literal and variables. We could do this by using mixed ASCII case: - high bit characters would be output "as is" - ASCII characters would be interpreted as a variable output. __ ___ ____ __ ________ ________ .byte "X=## Y=### $=$$$$:@@ %%%%%%%%~????????" Legend: # Print Dec Num $ Print Hex Num % Print Bin Num ? Print Bin Num but with 1's in inverse @ Print Ptr Val _ Chars with underscore represents ASCII characters While originally this gives us a nice 1:1 mapping for input:output ... ... it has 2 problems: a) it has to be constructed in pieces b) and it is bloated. Can we fix (a) ? Can we use a more compact printf-style format string where we don't waste storing the escape character AND toggle the high bit on characters on/off as needed? Yes, if we use a macro! PRINTM "X=%# Y=%d $=%x:%@ %%~%?" Can we fix (b) ? Yes, by using an unique meta character that has the width associated with it. This is why the cannonical printf() on the 6502 sucks: - is bloated by using a meta-character '%' instead of the high bit - doesn't provide a standard way to print binary *facepalm* - doesn't provide a standard way to print a dereferenced pointer - 2 digit, 3 digit and 5 digit decimals requiring wasting "width" characters e.g. %2d, %3d, %5d When a single character would work instead. - printf() is notorious for being bloated. If you don't use features you can't turn them off to reclaim the memory used by the code (or data) Solution: Here is a *modular* _micro_ replacement: printm() * Literals have the high byte set (APPLE text) * Meta characters have the high bit cleared (ASCII) $ Hex - print 2 Byte x Hex - print 4 Byte @ Ptr - print hex byte at 16-bit pointer & Ptr - print hex word at 16-bit pointer # Dec - Print 1 Byte in decimal (max 2 digits) d Dec - Print 2 Byte in decimal (max 3 digits) u Dec - Print 2 Byte in decimal (max 5 digits) b Dec - Print signed byte in decimal % Bin - Print 8 bits ? Bin - Print 8 bits but 1's in inverse o Oct - Print 1 Byte in octal (max 3 digits) O Oct - Print 2 Byte in octal (max 6 digits) a Str - APPLE text (high bit set), last char is ASCII s Str - C string, zero terminated p Str - Pascal string, first character is string length Each option can individually be enabled / disabled to control the memory footprint since you probably don't need "every" feature. Seriously, when was the last time you _needed_ octal? :-) With everything enabled printm() takes up $203 = 515 bytes (Plus 2 bytes in zero page.) Whoa! I thought you said this was micro!? With all 15 features turned OFF the core routines use $62 = 98 bytes. With the common setting (default): BinAsc, Dec2, Dec3, Dec5, Hex2, Hex4, and StrA the size is $162 = 354 bytes To toggle features on / off change USE_* to 0 or 1: */ ; NOTE: The Size *also* includes the core routines ; so the actual implementation size for each feature ; is actually smaller the size leads you to believe. ; Also, "common functionality" is also included in the count.. ; core _PrintDec routine. ; ; Feature Size Bytes Total Notes USE_BIN_ASC = 1 ; $84 132 \ USE_BIN_INV = 1 ; $86 134 / $8B (139 bytes) USE_DEC_2 = 1 ; $D7 215 \ USE_DEC_3 = 1 ; $D9 217 $106 (262 bytes) USE_DEC_5 = 1 ; $D9 217 USE_DEC_BYTE = 1 ; $F3 243 / sets ENABLE_DEC USE_HEX_2 = 1 ; $AF 175 \ USE_HEX_4 = 1 ; $B1 177 / $B6 (182 bytes) USE_OCT_3 = 1 ; $9C 156 \ USE_OCT_6 = 1 ; $9E 158 / $A3 (163 bytes) USE_PTR_2 = 1 ; $C0 192 \ sets ENABLE_HEX USE_PTR_4 = 1 ; $C2 194 / $C7 (199 bytes) USE_STR_A = 1 ; $7A 122 \ USE_STR_C = 1 ; $7A 122 $A8 (168 bytes) USE_STR_PASCAL = 1 ; $7C 124 / /* Demo + Library text dump: 4000:20 58 FC A9 D5 8D 00 20 4008:A9 AA 8D 01 20 AD E8 41 4010:A2 00 A0 00 20 11 F4 18 4018:A5 26 6D E6 41 85 26 AA 4020:A4 27 8E EA 41 8C EB 41 4028:8E EC 41 8C ED 41 AD 00 4030:20 A0 00 91 26 8D EE 41 4038:9C EF 41 8D 0A 42 8D 0E 4040:42 20 B3 41 8D F0 41 9C 4048:F1 41 A0 00 20 C3 41 A2 4050:E4 A0 41 20 26 43 A0 01 4058:20 C3 41 A2 08 A0 42 20 4060:26 43 A0 02 20 C3 41 A2 4068:0C A0 42 20 26 43 A0 03 4070:20 C3 41 A2 37 A0 42 20 4078:26 43 A0 04 20 C3 41 A2 4080:3B A0 42 20 26 43 A0 05 4088:20 C3 41 A2 3F A0 42 20 4090:26 43 A0 06 20 C3 41 A2 4098:43 A0 42 20 26 43 A0 07 40A0:20 C3 41 A2 73 A0 42 20 40A8:26 43 A0 08 20 C3 41 A2 40B0:77 A0 42 20 26 43 A0 09 40B8:20 C3 41 A2 7B A0 42 20 40C0:26 43 A0 0A 20 C3 41 A2 40C8:81 A0 42 20 26 43 A0 0B 40D0:20 C3 41 A2 97 A0 42 20 40D8:26 43 A0 0C 20 C3 41 A2 40E0:9B A0 42 20 26 43 A0 0D 40E8:20 C3 41 A2 EB A0 42 20 40F0:26 43 A0 0E 20 C3 41 A2 40F8:E5 A0 42 20 26 43 A0 0F 4100:20 C3 41 A2 EF A0 42 20 4108:26 43 A9 11 20 5B FB A2 4110:F3 A0 42 20 A2 41 AD 21 4118:43 85 FF 20 DA FD AD 20 4120:43 85 FE 20 DA FD 20 BE 4128:41 20 4F 41 A2 05 A0 43 4130:20 A2 41 AE C1 43 86 FE 4138:64 FF 8A 20 DA FD 20 BE 4140:41 20 4F 41 A9 8D 4C ED 4148:FD 00 00 00 00 00 00 A2 4150:49 A0 41 86 FC 84 FD 9C 4158:49 41 9C 4A 41 9C 4B 41 4160:A0 00 A2 10 F8 06 FE 26 4168:FF B1 FC 71 FC 91 FC C8 4170:B1 FC 71 FC 91 FC C8 B1 4178:FC 71 FC 91 FC C8 A0 00 4180:CA D0 E2 D8 A2 02 BD 49 4188:41 4A 4A 4A 4A 18 69 B0 4190:20 ED FD BD 49 41 29 0F 4198:18 69 B0 20 ED FD CA 10 41A0:E5 60 86 FC 84 FD A0 00 41A8:B1 FC F0 06 20 ED FD C8 41B0:D0 F6 60 A2 08 85 FE 06 41B8:FE 6A CA D0 FA 60 A9 A0 41C0:4C ED FD 98 20 C1 FB A6 41C8:28 A4 29 8E D7 44 8C D8 41D0:44 60 D8 BD 23 A0 D9 BD 41D8:64 A0 A4 BD 78 BA 40 A0 41E0:25 FE 3F 00 D2 41 27 00 41E8:BF 00 DE C0 DE C0 1A DA 41F0:1A DA C2 E9 EE A0 C1 D3 41F8:C3 BA A0 25 00 C2 E9 EE 4200:A0 C9 CE D6 BA A0 3F 00 4208:F2 41 1A DA FD 41 1A DA 4210:C4 E5 E3 B2 BA A0 23 00 4218:C4 E5 E3 B3 BA A0 64 00 4220:C4 E5 E3 B5 BA A0 75 00 4228:C2 F9 F4 E5 BD 62 A0 62 4230:A0 62 A0 62 A0 62 00 10 4238:42 63 00 18 42 E7 03 20 4240:42 69 FF 28 42 80 00 FF 4248:00 00 00 01 00 7F 00 C8 4250:E5 F8 B2 BA A0 24 00 C8 4258:E5 F8 B4 BA A0 78 00 D0 4260:F4 F2 B2 BA A0 78 BA 40 4268:00 D0 F4 F2 B4 BA A0 78 4270:BA 26 00 4F 42 34 12 57 4278:42 34 12 5F 42 00 20 00 4280:20 69 42 00 20 00 20 CF 4288:E3 F4 B3 BA A0 6F 00 CF 4290:E3 F4 B6 BA A0 4F 00 87 4298:42 B6 01 8F 42 DF 32 C8 42A0:C5 CC CC CF 00 D7 CF D2 42A8:CC C4 00 C8 CF CD 45 0D 42B0:D0 E1 F3 E3 E1 EC A0 CC 42B8:E5 EE A0 B1 B3 C3 A0 A0 42C0:A0 A0 A0 BA A0 A7 73 A7 42C8:AC A7 73 A7 00 C1 F0 F0 42D0:EC E5 A0 BA A0 A7 61 A7 42D8:00 D0 E1 F3 E3 E1 EC BA 42E0:A0 A7 70 A7 00 BD 42 9F 42E8:42 A5 42 CD 42 AB 42 D9 42F0:42 AF 42 F0 F2 E9 EE F4 42F8:ED A8 A9 AE F3 E9 FA E5 4300:A0 BD A0 A4 00 A0 E2 F9 4308:F4 E5 F3 8D A0 A0 A0 A0 4310:AE E6 E5 E1 F4 F5 F2 E5 4318:F3 A0 BD A0 A4 A0 A0 00 4320:07 02 A9 04 D0 16 8E E4 4328:44 8C E5 44 9C E2 44 20 4330:DD 44 8E BA 43 8C BB 43 4338:80 7F A9 02 8D 74 43 20 4340:DD 44 8E FA 44 8C FB 44 4348:A2 00 AD FA 44 29 0F C9 4350:0A 90 02 69 06 69 B0 9D 4358:F4 44 4E FB 44 6E FA 44 4360:4E FB 44 6E FA 44 4E FB 4368:44 6E FA 44 4E FB 44 6E 4370:FA 44 E8 E0 04 D0 D3 CA 4378:30 37 BD F4 44 20 D6 44 4380:80 F5 A9 04 D0 02 A9 02 4388:8D 74 43 20 DD 44 A0 00 4390:B1 FE AA C8 B1 FE A8 80 4398:A9 20 DD 44 A0 00 B1 FE 43A0:10 0A 20 D6 44 C8 D0 F6 43A8:E6 FF 80 F2 09 80 20 D6 43B0:44 EE BA 43 D0 03 EE BB 43B8:43 AD DE C0 F0 12 30 EE 43C0:A2 0F CA 30 EC DD FC 44 43C8:D0 F8 8A 0A AA 7C 0B 45 43D0:60 A9 05 D0 06 A9 03 D0 43D8:02 A9 02 8D 3A 44 20 DD 43E0:44 8E FA 44 8C FB 44 9C 43E8:F4 44 9C F5 44 9C F6 44 43F0:A2 10 F8 0E FA 44 2E FB 43F8:44 AD F4 44 6D F4 44 8D 4400:F4 44 AD F5 44 6D F5 44 4408:8D F5 44 AD F6 44 6D F6 4410:44 8D F6 44 CA D0 DC D8 4418:A2 02 A0 05 BD F4 44 4A 4420:4A 4A 4A 18 69 B0 99 F4 4428:44 88 BD F4 44 29 0F 18 4430:69 B0 99 F4 44 88 CA 10 4438:E3 A2 00 4C 77 43 A9 81 4440:D0 02 A9 01 8D 56 44 20 4448:DD 44 A0 08 8A C9 80 2A 4450:AA 29 01 F0 02 A9 81 49 4458:B0 20 D6 44 88 D0 ED 4C 4460:B1 43 20 DD 44 8A 10 0D 4468:A9 AD 20 D6 44 8A 49 FF 4470:29 7F 18 69 01 AA A0 00 4478:A9 03 8D 3A 44 4C E1 43 4480:A9 06 D0 02 A9 03 8D AA 4488:44 20 DD 44 A2 00 A5 FE 4490:29 07 18 69 B0 9D F4 44 4498:46 FF 66 FE 46 FF 66 FE 44A0:46 FF 66 FE E8 E0 06 D0 44A8:E5 A2 06 4C 77 43 20 DD 44B0:44 A0 00 B1 FE F0 A8 20 44B8:D6 44 C8 D0 F6 E6 FF 80 44C0:F2 20 DD 44 A0 00 B1 FE 44C8:F0 95 AA C8 B1 FE 20 D6 44D0:44 CA D0 F7 F0 89 8D DE 44D8:C0 EE D7 44 60 20 E1 44 44E0:AA A0 00 B9 DE C0 EE E2 44E8:44 D0 03 EE E5 44 A8 86 44F0:FE 84 FF 60 00 00 00 00 44F8:00 00 00 00 3F 25 62 75 4500:64 23 78 24 26 40 4F 6F 4508:70 73 61 3E 44 42 44 62 4510:44 D1 43 D5 43 D9 43 22 4518:43 3A 43 82 43 86 43 80 4520:44 84 44 C1 44 AE 44 99 4528:43 */ ; more ca65 features .linecont + .feature labels_without_colons .feature leading_dot_in_identifiers ; 65C02 .PC02 ; Assemble-time diagnostic information .macro DEBUG text .if 0 .out text .endif .endmacro ; This will take a printf-style string and compact it. The '%' is the escape ; character to output the next byte in ASCII (high bit clear) and print a var. ; Otherwise the remaining chars will default to literals having their high bit ; set. To output a literal '%' you will need to manually add it ; as the %% outputs confusingly enough is a single ASCII '%' which is print binary .macro PRINTM text, endbyte ; text2, text3, text4, text5, text6 .local h h .set $80 .repeat .strlen(text), I .if (.strat(text , I) = '%') ; handle special case of last char was % .if( h = $00 ) .byte .strat(text, I) ; ASCII % = PrintBin h .set $80 .else h .set $00 .endif .else .byte .strat(text, I) | h h .set $80 .endif .endrep .ifnblank endbyte .byte endbyte .endif .endmacro ; Force APPLE 'text' to have high bit on ; Will display as NORMAL characters .macro APPLE text .repeat .strlen(text), I .byte .strat(text, I) | $80 .endrep .endmacro ; Force APPLE 'text' with high bit on but last character has high bit off ; Will display as NORMAL characters (last character will appear FLASHING) ; Merlin: Macro Assembler -- Dextral Character Inverted .macro DCI text .repeat .strlen(text)-1, I .byte .strat(text, I) | $80 .endrep .byte .strat(text, .strlen(text)-1) & $7F .endmacro ; Force ASCII 'text' to be control chars: $00..$1F ; Will display as INVERSE characters .macro CTRL text .repeat .strlen(text), I .byte .strat(text, I) & $1F .endrep .endmacro ; Force ASCII 'text' to be control chars: $00..$3F ; Will display as INVERSE characters .macro INV text .repeat .strlen(text), I .byte .strat(text, I) & $3F .endrep .endmacro .macro PASCAL text .byte .strlen(text) APPLE text .endmacro .macro db val .byte val .endmacro .macro dw val .word val .endmacro .macro ds bytes .res bytes .endmacro ; Include necessary components based on features requested ENABLE_BIN = USE_BIN_ASC || USE_BIN_INV ENABLE_DEC = USE_DEC_2 || USE_DEC_3 || USE_DEC_5 || USE_DEC_BYTE ENABLE_HEX = USE_HEX_2 || USE_HEX_4 || USE_PTR_2 || USE_PTR_4 ENABLE_OCT = USE_OCT_3 || USE_OCT_6 ENABLE_PTR = USE_PTR_2 || USE_PTR_4 ENABLE_STR = USE_STR_A || USE_STR_C || USE_STR_PASCAL NumMeta = 0 + \ USE_BIN_ASC + \ USE_BIN_INV + \ USE_DEC_2 + \ USE_DEC_3 + \ USE_DEC_5 + \ USE_DEC_BYTE + \ USE_HEX_2 + \ USE_HEX_4 + \ USE_OCT_3 + \ USE_OCT_6 + \ USE_PTR_2 + \ USE_PTR_4 + \ USE_STR_A + \ USE_STR_C + \ USE_STR_PASCAL DEBUG .sprintf( "Features enabled: %d", NumMeta ) ; Only used by demo BASL = $28 ; TXT pointer to cursor BASH = $29 GBASL = $26 ; HGR pointer to cursor GBASH = $27 HPOSN = $F411 ; A=row, X=col.lo,Y=col.hi, sets GBASL, GBASH BASCALC = $FBC1 ; A=row, sets BASL, BASH HOME = $FC58 TABV = $FB5B COUT = $FDED PRBYTE = $FDDA ; print A in hex demoptr = $FC demotmp = $FE __MAIN = $4000 ; DOS3.3 meta -- remove these 2 if running under ProDOS .word __MAIN ; 2 byte BLOAD address .word __END - __MAIN ; 2 byte BLOAD size /* Output: X=39 Y=191 $=3FF7:D5 11010101~10101011 Bin ASC: 11010101 Bin INV: 11010101 Dec2: 99 Dec3: 999 Dec5: 65385 Byte=-128 -001 000 001 127 Hex2: 34 Hex4: 1234 Ptr2: 2000:D5 Ptr4: 2000:AAD5 Oct3: 666 Oct6: 031337 Apple : 'HOME' C : 'HELLO','WORLD' Pascal: 'Pascal Len 13' printm().size = $0209 000521 bytes .features = $ 0F 000015 */ .org __MAIN ; .org must come after header else offsets are wrong ; Demo printm JSR HOME LDA #$D5 STA $2000 LDA #$AA STA $2001 LDA ARGS_DEMO+4 ;HGR Y row LDX #$00 ; HGR x.col_lo = 0 LDY #$00 ; x.col_hi = 0 JSR HPOSN CLC LDA GBASL ADC ARGS_DEMO+2 ; HGR x col STA GBASL TAX LDY GBASH STX ARGS_DEMO+6 ; aArg[3] STY ARGS_DEMO+7 STX ARGS_DEMO+8 ; aArg[4] STY ARGS_DEMO+9 LDA $2000 LDY #0 STA (GBASL),Y STA ARGS_DEMO+10 ; aArg[5] STZ ARGS_DEMO+11 STA ARGS_BIN_ASC+2 STA ARGS_BIN_INV+2 JSR ReverseByte STA ARGS_DEMO+12 ; aArg[6] STZ ARGS_DEMO+13 .if ENABLE_BIN && ENABLE_DEC && ENABLE_HEX LDY #0 JSR VTABY LDX #ARGS_DEMO ; High Byte of Address JSR PrintM .endif .if ENABLE_BIN DEBUG "+BIN" .if USE_BIN_ASC DEBUG "____:ASC" LDY #1 JSR VTABY LDX #ARGS_BIN_ASC JSR PrintM .endif .if USE_BIN_INV DEBUG "____:INV" LDY #2 JSR VTABY LDX #ARGS_BIN_INV JSR PrintM .endif .endif .if ENABLE_DEC DEBUG "+DEC" .if USE_DEC_2 DEBUG "____:Dec2" LDY #3 JSR VTABY LDX #ARGS_DEC_2 JSR PrintM .endif .if USE_DEC_3 DEBUG "____:Dec3" LDY #4 JSR VTABY LDX #ARGS_DEC_3 JSR PrintM .endif .if USE_DEC_5 DEBUG "____:Dec5" LDY #5 JSR VTABY LDX #ARGS_DEC_5 JSR PrintM .endif .if USE_DEC_BYTE DEBUG "____:DecB" LDY #6 JSR VTABY LDX #ARGS_DEC_BYTE JSR PrintM .endif ; USE_DEC_BYTE .endif .if ENABLE_HEX DEBUG "+HEX" .if USE_HEX_2 DEBUG "____:Hex2" LDY #7 JSR VTABY LDX #ARGS_HEX_2 JSR PrintM .endif .if USE_HEX_4 DEBUG "____:Hex4" LDY #8 JSR VTABY LDX #ARGS_HEX_4 JSR PrintM .endif .if USE_PTR_2 DEBUG "____:Ptr2" LDY #9 JSR VTABY LDX #ARGS_PTR_2 JSR PrintM .endif .if USE_PTR_4 DEBUG "____:Ptr4" LDY #10 JSR VTABY LDX #ARGS_PTR_4 JSR PrintM .endif .endif .if ENABLE_OCT DEBUG "+OCT" .if USE_OCT_3 DEBUG "____:Oct3" LDY #11 JSR VTABY LDX #ARGS_OCT_3 JSR PrintM .endif .if USE_OCT_6 DEBUG "____:Oct6" LDY #12 JSR VTABY LDX #ARGS_OCT_6 JSR PrintM .endif .endif .if ENABLE_STR DEBUG "+STR" .if USE_STR_A DEBUG "____:StrA" LDY #13 JSR VTABY LDX #ARGS_STR_A JSR PrintM .endif .if USE_STR_C DEBUG "____:StrC" LDY #14 JSR VTABY LDX #ARGS_STR_C JSR PrintM .endif .if USE_STR_PASCAL DEBUG "____:StrP" LDY #15 JSR VTABY LDX #ARGS_STR_PASCAL JSR PrintM .endif .endif ; ENABLE_STR LDA #17 JSR TABV ; "old-skool" text/hex printing: use ROM funcs LDX #PRINTM_TEXT JSR PrintStringZ LDA PRINTM_SIZE+1 STA demotmp+1 JSR PRBYTE LDA PRINTM_SIZE+0 STA demotmp+0 JSR PRBYTE JSR PrintSpc JSR PrintDec LDX #PRINTM_CMDS JSR PrintStringZ LDX GetNumFeatures+1 STX demotmp+0 STZ demotmp+1 TXA JSR PRBYTE JSR PrintSpc JSR PrintDec LDA #$8D JMP COUT ; ====================================================================== ; ds 256 - <* _digits ds 6 ; Print demotmp in Decimal PrintDec LDX #<_digits LDY #>_digits STX demoptr+0 STY demoptr+1 STZ _digits+0 STZ _digits+1 STZ _digits+2 LDY #0 LDX #16 ; 16 bits SED ; Double Dabble @Hex2BCD: ASL demotmp+0 ROL demotmp+1 .if 1 .repeat 3 LDA (demoptr),Y ADC (demoptr),Y STA (demoptr),Y INY .endrep .else LDA _digits+0 ADC _digits+0 STA _digits+0 LDA _digits+1 ADC _digits+1 STA _digits+1 LDA _digits+2 ADC _digits+2 STA _digits+2 .endif LDY #0 DEX BNE @Hex2BCD CLD LDX #2 @PrintBCD LDA _digits, X LSR LSR LSR LSR CLC ADC #'0'+$80 JSR COUT LDA _digits, X AND #$F CLC ADC #'0'+$80 JSR COUT DEX BPL @PrintBCD RTS ; Can't use printm PrintStr*() as it may not be enabled/available PrintStringZ STX demoptr+0 STY demoptr+1 LDY #0 @_Text LDA (demoptr),Y BEQ @_Done JSR COUT INY BNE @_Text @_Done RTS ReverseByte LDX #8 STA demotmp ; temp working byte ReverseBit ASL demotmp ; temp working byte ROR DEX BNE ReverseBit RTS PrintSpc LDA #' '+$80 JMP COUT VTABY TYA JSR BASCALC LDX BASL LDY BASH STX PutChar+1 STY PutChar+2 RTS ; ______________________________________________________________________ TEXT_DEMO ;byte "X=## Y=ddd $=xxxx:@@ %%%%%%%%~????????" PRINTM "X=%# Y=%d $=%x:%@ %%~%?", 0 ARGS_DEMO dw TEXT_DEMO; aArg[ 0] text dw 39 ; aArg[ 1] x dw 191 ; aArg[ 2] y dw $C0DE ; aArg[ 3] addr ScreenAddr dw $C0DE ; aArg[ 4] byte ScreenAddr pointer dw $DA1A ; aArg[ 5] bits ScreenByte dw $DA1A ; aArg[ 6] bits ScreenByte reversed ; ______________________________________________________________________ TEXT_BIN_ASC PRINTM "Bin ASC: %%", 0 TEXT_BIN_INV PRINTM "Bin INV: %?", 0 ARGS_BIN_ASC dw TEXT_BIN_ASC dw $DA1A ARGS_BIN_INV dw TEXT_BIN_INV dw $DA1A ; ______________________________________________________________________ TEXT_DEC_2 PRINTM "Dec2: %#", 0 TEXT_DEC_3 PRINTM "Dec3: %d", 0 TEXT_DEC_5 PRINTM "Dec5: %u", 0 TEXT_DEC_BYTE PRINTM "Byte=%b %b %b %b %b", 0 ARGS_DEC_2 dw TEXT_DEC_2 dw 99 ; ARGS_DEC_3 dw TEXT_DEC_3 dw 999 ; ARGS_DEC_5 dw TEXT_DEC_5 dw $FF69 ; $FF69 = 65385 ARGS_DEC_BYTE dw TEXT_DEC_BYTE dw $80 ; -128 dw $FF ; -001 dw $00 ; 000 dw $01 ; +001 dw $7F ; +127 ; ______________________________________________________________________ TEXT_HEX_2 PRINTM "Hex2: %$", 0 TEXT_HEX_4 PRINTM "Hex4: %x", 0 TEXT_PTR_2 PRINTM "Ptr2: %x:%@", 0 TEXT_PTR_4 PRINTM "Ptr4: %x:%&", 0 ARGS_HEX_2 dw TEXT_HEX_2 dw $1234 ARGS_HEX_4 dw TEXT_HEX_4 dw $1234 ARGS_PTR_2 dw TEXT_PTR_2 dw $2000 dw $2000 ARGS_PTR_4 dw TEXT_PTR_4 dw $2000 dw $2000 ; ______________________________________________________________________ TEXT_OCT_3 PRINTM "Oct3: %o", 0 TEXT_OCT_6 PRINTM "Oct6: %O", 0 ARGS_OCT_3 dw TEXT_OCT_3 dw 438 ARGS_OCT_6 dw TEXT_OCT_6 dw 13023 ; ______________________________________________________________________ TEXT_HELLO APPLE "HELLO" db 0 TEXT_WORLD APPLE "WORLD" db 0 TEXT_DCI DCI "HOME" TEXT_PASCAL PASCAL "Pascal Len 13" TEXT_STR_C PRINTM "C : '%s','%s'", 0 TEXT_STR_A PRINTM "Apple : '%a'", 0 TEXT_STR_PASCAL PRINTM "Pascal: '%p'", 0 ARGS_STR_C dw TEXT_STR_C dw TEXT_HELLO dw TEXT_WORLD ARGS_STR_A dw TEXT_STR_A dw TEXT_DCI ARGS_STR_PASCAL dw TEXT_STR_PASCAL dw TEXT_PASCAL ; ______________________________________________________________________ PRINTM_TEXT APPLE "printm().size = $" db 0 PRINTM_CMDS APPLE " bytes" db $8D APPLE " .features = $ " db 0 __LIB_SIZE = __END - __PRINTM PRINTM_SIZE dw __LIB_SIZE ; Pad until end of page so PrintM starts on new page ; ds (256 - <*) & 7 ; ds (256 - <*) & 15 ; ds (256 - <*) ; ---------------------------------------------------------------------- ; ---------------------------------------------------------------------- ; ; printm() library code starts here ; ; ---------------------------------------------------------------------- ; ---------------------------------------------------------------------- __PRINTM ; pointer for PrintPtr2, PrintPtr4, PrintStrA, PrintStrC, PrintStrP _temp = $FE ; self-modifying variable aliases _pScreen = PutChar +1 _pFormat = GetFormat +1 _iArg = NxtArgByte+1 _pArg = IncArg +1 .if ENABLE_DEC _nDecWidth = DecWidth +1 .endif .if ENABLE_OCT _nOctWidth = OctWidth +1 .endif .if ENABLE_HEX _nHexWidth = HexWidth +1 ; Moved here so NextArg can reach GetFormat .if USE_HEX_4 DEBUG .sprintf( "PrintHex4() @ %X", * ) PrintHex4: LDA #4 BNE _PrintHex .endif .endif ; Entry Point ; ====================================================================== ; printm( format, args, ... ) ; ====================================================================== PrintM STX _pArg+0 STY _pArg+1 STZ _iArg NextArg JSR NxtArgYX STX _pFormat+0 ; lo STY _pFormat+1 ; hi BRA GetFormat ; always ; $ Hex 2 Byte ; x Hex 4 Byte ; ====================================================================== .if ENABLE_HEX .if USE_HEX_2 DEBUG .sprintf( "PrintHex2() @ %X", * ) PrintHex2: LDA #2 .endif _PrintHex: STA _nHexWidth JSR NxtArgYX ; Print 16-bit Y,X in hex ; Uses _nHexWidth to limit output width PrintHexYX: STX _val+0 ; may be tempting to move this to NxtArgYX STY _val+1 ; as XYtoVal but others call us LDX #0 _HexDigit: LDA _val+0 AND #$F CMP #$A ; n < 10 ? BCC @Hex2Asc ADC #6 ; n += 6 $A -> +6 + (C=1) = $11 @Hex2Asc: ADC #'0' + $80 ; inverse=remove #$80 STA _bcd, X ; NOTE: Digits are reversed! .if 0 LDY #3 @HexShr: LSR _val+1 ; 16-bit SHR nibble ROR _val+0 DEY BNE @HexShr .else LSR _val+1 ; 16-bit SHR nibble ROR _val+0 LSR _val+1 ROR _val+0 LSR _val+1 ROR _val+0 LSR _val+1 ROR _val+0 .endif INX HexWidth: CPX #4 ; _nHexWidth NOTE: self-modifying! BNE _HexDigit ; Intentional fall into reverse BCD .endif ; On Entry: X number of chars to print in buffer _bcd ; ====================================================================== .if ENABLE_HEX || ENABLE_DEC || ENABLE_OCT PrintReverseBCD DEX BMI NextFormat LDA _bcd, X JSR PutChar BRA PrintReverseBCD .endif ; @ Ptr 2 Byte ; & Ptr 4 Byte ; ====================================================================== .if ENABLE_PTR .if USE_PTR_4 DEBUG .sprintf( "PrintPtr4() @ %X", * ) PrintPtr4: LDA #4 BNE _PrintPtr .endif .if USE_PTR_2 DEBUG .sprintf( "PrintPtr2() @ %X", * ) PrintPtr2: LDA #2 .endif _PrintPtr: STA _nHexWidth JSR NxtArgToTemp LDY #$0 LDA (_temp),Y TAX INY LDA (_temp),Y TAY BRA PrintHexYX ; needs XYtoVal setup .endif ; ENABLE_PTR ; a String (APPLE text, last byte ASCII) ; See: DCI ; ====================================================================== .if ENABLE_STR .if USE_STR_A DEBUG .sprintf( "PrintStrA() @ %X", * ) PrintStrA: JSR NxtArgToTemp LDY #$0 _PrintStrA: LDA (_temp),Y BPL @_LastChar JSR PutChar INY BNE _PrintStrA INC _temp+1 BRA _PrintStrA @_LastChar: ; intentional fall into Print .endif ; USE_STR_A .endif ; ENABLE_STR ; ====================================================================== ; Main Read/Eval/Print/Loop of printm() ; ====================================================================== ; Note: The dummy address $C0DE is to force the assembler ; to generate a 16-bit address instead of optimizing a ZP operand ForceAPPLE ORA #$80 Print ; print literal chars JSR PutChar NextFormat ; Adjust pointer to next char in format INC _pFormat+0 BNE GetFormat INC _pFormat+1 GetFormat LDA $C0DE ; _pFormat NOTE: self-modifying! BEQ _Done ; zero-terminated BMI Print ; neg = literal ; NOTE: If all features are turned off LDX #-1 ca65 throws Range Error ; NumMeta = _MetaCharEnd - MetaChar ; LDX #NumMeta-1 ; pos = meta ; We can't use this equation since it is not const due to the assembler ; not having defined _MetaCharEnd yet ; Instead we count the number of features enabled GetNumFeatures .if (NumMeta > 0) LDX #NumMeta ; pos = meta .else .out "INFO: No meta commands, defaulting to text" BRA ForceAPPLE .endif FindMeta DEX BMI NextFormat CMP MetaChar,X BNE FindMeta CallMeta TXA ASL TAX JMP (MetaFunc,X) _Done RTS ; ______________________________________________________________________ ; # Dec 1 Byte (max 2 digits) ; d Dec 2 Byte (max 3 digits) ; u Dec 2 Byte (max 5 digits) ; ====================================================================== .if ENABLE_DEC .if USE_DEC_5 DEBUG .sprintf( "PrintDec5() @ %X", * ) PrintDec5: LDA #5 BNE _PrintDec ; always .endif .if USE_DEC_3 DEBUG .sprintf( "PrintDec3() @ %X", * ) PrintDec3: LDA #3 BNE _PrintDec ; always .endif .if USE_DEC_2 DEBUG .sprintf( "PrintDec2() @ %X", * ) PrintDec2: LDA #2 ; 2 digits .endif ; no .if USE_DEC_BYTE here because ENABLE_DEC already covers that _PrintDec: STA _nDecWidth JSR NxtArgYX PrintDecYX: STX _val+0 ; may be tempting to move this to NxtArgYX STY _val+1 ; as XYtoVal but others call us STZ _bcd+0 STZ _bcd+1 STZ _bcd+2 Dec2BCD: LDX #16 ; 16 bits SED ; "Double Dabble" _Dec2BCD: ; https://en.wikipedia.org/wiki/Double_dabble ASL _val+0 ROl _val+1 LDA _bcd+0 ADC _bcd+0 STA _bcd+0 LDA _bcd+1 ADC _bcd+1 STA _bcd+1 LDA _bcd+2 ADC _bcd+2 STA _bcd+2 DEX BNE _Dec2BCD CLD BCD2Char: LDX #2 LDY #5 _BCD2Char: ; NOTE: Digits are reversed! LDA _bcd,X ; __c??? _b_?XX a_YYXX LSR LSR LSR LSR CLC ADC #'0'+$80 STA _bcd,Y ; __c??X _b_YXX aZYYXX DEY LDA _bcd,X ; __c??X _b_YXX aZYYXX AND #$F CLC ADC #'0'+$80 STA _bcd,Y ; __c?XX _bYYXX ZZYYXX DEY DEX BPL _BCD2Char DecWidth: LDX #0 ; _nDecDigits NOTE: self-modifying! JMP PrintReverseBCD .endif ; ENABLE_DEC ; ______________________________________________________________________ ; % Bin 1 Byte normal ones, normal zeroes ; ? Bin 1 Byte inverse ones, normal zeroes ; ====================================================================== .if ENABLE_BIN .if USE_BIN_INV DEBUG .sprintf( "PrintBinI() @ %X", * ) PrintBinInv: LDA #$31 BNE _PrintBin .endif ; USE_BIN_INV .if USE_BIN_ASC DEBUG .sprintf( "PrintBinA() @ %X", * ) PrintBinAsc: LDA #$B1 .endif ; USE_BIN_ASC _PrintBin: STA _PrintBit+1 JSR NxtArgYX ; X = low byte LDY #8 ; print 8 bits _Bit2Asc: TXA ASL ; C= A>=$80 TAX LDA #$B0 BCC _FlipBit _PrintBit: LDA #$B1 ; 1 -> 31 NOTE: self-modifying! _FlipBit: JSR PutChar DEY BNE _Bit2Asc .endif ; ENABLE_BIN ; Left as exercise for the reader to optimize the jump size :-) _JumpNextFormat ; BRA NextFormat ; always JMP NextFormat ; JMP :-( ; b Print a signed byte in decimal ; ====================================================================== .if ENABLE_DEC .if USE_DEC_BYTE DEBUG .sprintf( "PrintDecB() @ %X", * ) PrintByte: JSR NxtArgYX ; X = low byte TXA BPL PrintBytePos LDA #'-' + $80 ; X >= $80 --> $80 (-128) .. $FF (-1) JSR PutChar TXA EOR #$FF ; 2's complement AND #$7F CLC ADC #$01 PrintBytePos: TAX LDY #00 ; 00XX LDA #3 ; 3 digits max STA _nDecWidth JMP PrintDecYX ; needs XYtoVal setup .endif ; USE_DEC_BYTE .endif ; ENABLE_DEC ; ______________________________________________________________________ ; o Print byte in octal (max 3 digits) ; O Print word in octal (max 6 digits) ; ====================================================================== .if ENABLE_OCT .if USE_OCT_6 DEBUG .sprintf( "PrintOct6() @ %X", * ) PrintOct6: LDA #6 BNE _PrintOct .endif .if USE_OCT_3 DEBUG .sprintf( "PrintOct3() @ %X", * ) PrintOct3: LDA #3 .endif _PrintOct: STA _nOctWidth JSR NxtArgYX ; X = low byte LDX #0 @_Oct2Asc: LDA _temp AND #7 CLC ADC #'0'+$80 STA _bcd,x ; NOTE: Digits are reversed! LSR _temp+1 ROR _temp+0 LSR _temp+1 ROR _temp+0 LSR _temp+1 ROR _temp+0 INX CPX #6 BNE @_Oct2Asc OctWidth: LDX #6 ; _nOctDigits NOTE: self-modifying! JMP PrintReverseBCD .endif ; ENABLE_OCT ; ______________________________________________________________________ ; s String (C,ASCIIZ) ; ====================================================================== .if ENABLE_STR .if USE_STR_C DEBUG .sprintf( "PrintStrC() @ %X", * ) PrintStrC: JSR NxtArgToTemp LDY #$0 @_NextByte: LDA (_temp),Y BEQ _JumpNextFormat JSR PutChar INY BNE @_NextByte INC _temp+1 ; support strings > 256 chars BRA @_NextByte .endif .endif ; p String (Pascal) ; ====================================================================== .if ENABLE_STR .if USE_STR_PASCAL DEBUG .sprintf( "PrintStrP() @ %X", * ) PrintStrP: JSR NxtArgToTemp LDY #$0 LDA (_temp),Y BEQ _JumpNextFormat TAX _PrintStrP: INY LDA (_temp),Y JSR PutChar DEX BNE _PrintStrP BEQ _JumpNextFormat ; always .endif .endif ; ENABLE_STR ; ---------------------------------------------------------------------- ; Utility ; ---------------------------------------------------------------------- ; ====================================================================== ; PutChar .if 1 STA $C0DE ; _pScreen NOTE: self-modifying! INC PutChar+1 ; inc lo RTS .else ; Alternatively use the monitor ROM char output JMP COUT .endif ; ====================================================================== ; @return next arg as 16-bit arg value in Y,X NxtArgToTemp NxtArgYX JSR NxtArgByte TAX ; @return _Arg[ _Num ] NxtArgByte LDY #00 ; _iArg NOTE: self-modifying! IncArg LDA $C0DE,Y ; _pArg NOTE: self-modifying! INC _iArg ; BNE @_SamePage INC _pArg+1 ; @_SamePage TAY ; Callers of NxtToArgYX don't use _temp _NxtArgToTemp STX _temp+0 ; zero-page for (ZP),Y STY _temp+1 ;XYtoVal ; STX _val+0 ; may be tempting to move this to NxtArgYX ; STY _val+1 ; RTS ; ; ====================================================================== _bcd ds 6 ; 6 chars for printing dec _val dw 0 ; PrintHex2 PrintHex4 temp MetaChar .if ENABLE_BIN .if USE_BIN_INV db '?' ; PrintBinInv NOTE: 1's printed in inverse .endif .if USE_BIN_ASC db '%' ; PrintBinAsc .endif .endif .if ENABLE_DEC .if USE_DEC_BYTE db 'b' ; PrintByte NOTE: Signed -128 .. +127 .endif .if USE_DEC_5 db 'u' ; PrintDec5 .endif .if USE_DEC_3 db 'd' ; PrintDec3 .endif .if USE_DEC_2 db '#' ; PrintDec2 .endif .endif .if ENABLE_HEX .if USE_HEX_4 db 'x' ; PrintHex4 .endif .if USE_HEX_2 db '$' ; PrintHex2 .endif .if USE_PTR_4 db '&' ; PrintPtr4 .endif .if USE_PTR_2 db '@' ; PrintPtr2 .endif .endif .if ENABLE_OCT .if USE_OCT_6 db 'O' ; PrintOct6 .endif .if USE_OCT_3 db 'o' ; PrintOct3 .endif .endif .if ENABLE_STR .if USE_STR_PASCAL db 'p' ; PrintStrP NOTE: Pascal string; C printf 'p' is pointer! .endif .if USE_STR_C db 's' ; PrintStrC NOTE: C string, zero terminated .endif .if USE_STR_A db 'a' ; PrintStrA NOTE: Last byte is ASCII .endif .endif _MetaCharEnd MetaFunc .if ENABLE_BIN .if USE_BIN_INV dw PrintBinInv .endif .if USE_BIN_ASC dw PrintBinAsc .endif .endif .if ENABLE_DEC .if USE_DEC_BYTE dw PrintByte .endif .if USE_DEC_5 dw PrintDec5 .endif .if USE_DEC_3 dw PrintDec3 .endif .if USE_DEC_2 dw PrintDec2 .endif .endif .if ENABLE_HEX .if USE_HEX_4 dw PrintHex4 .endif .if USE_HEX_2 dw PrintHex2 .endif .if USE_PTR_4 dw PrintPtr4 .endif .if USE_PTR_2 dw PrintPtr2 .endif .endif .if ENABLE_OCT .if USE_OCT_6 dw PrintOct6 .endif .if USE_OCT_3 dw PrintOct3 .endif .endif .if ENABLE_STR .if USE_STR_PASCAL dw PrintStrP .endif .if USE_STR_C dw PrintStrC .endif .if USE_STR_A dw PrintStrA .endif .endif __END DEBUG .sprintf( "Lib Size: %X (%d bytes)", __LIB_SIZE , __LIB_SIZE ) DEBUG .sprintf( "Total Size: %X (%d bytes)", __END-__MAIN, __END-__MAIN)