## Copyright (C) 2016 Jeremiah Orians
## This file is part of stage0.
##
## stage0 is free software: you an redistribute it and/or modify
## it under the terms of the GNU General Public License as published by
## the Free Software Foundation, either version 3 of the License, or
## (at your option) any later version.
##
## stage0 is distributed in the hope that it will be useful,
## but WITHOUT ANY WARRANTY; without even the implied warranty of
## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
## GNU General Public License for more details.
##
## You should have received a copy of the GNU General Public License
## along with stage0.  If not, see <http://www.gnu.org/licenses/>.

# start
2D2801e8	# LOADUI R8 @table ; Where we are putting our address pointers
2D2900ff	# LOADUI R9 0xFF ; Byte mask
2D2A000f	# LOADUI R10 0x0F ; nybble mask
2D2B0001	# LOADUI R11 1 ; Our toggle
0D00002C	# FALSE R12 ; Our PC counter
2D2D0600	# LOADUI R13 0x600 ; Where we are starting our Stack
# ;; We will be using R14 for our condition codes
# ;; We will be using R15 for holding our processed nybbles

# ;; Prep TAPE_01
2D201100	# LOADUI R0 0x1100
42100000	# FOPEN_READ

# ;; Prep TAPE_02
2D201101	# LOADUI R0 0x1101
42100001	# FOPEN_WRITE

# ;; Function for collecting the address of all labels
# getLables
2D211100	# LOADUI R1 0x1100 ; Read from tape_01
42100100	# FGETC ; Read a Char

# ;; Check for EOF
A0100000	# CMPSKIPI.GE R0 0
3C00005c	# JUMP @stage2

# ;; Check for Label
A030003a	# CMPSKIPI.NE R0 58 ; If the Char is : the next char is the label
2D0D0040	# CALLI R13 @storeLabel

# ;; Check for pointer to label
1FE00040	# CMPUI R14 R0 64 ; If the Char is @ the next char is the pointer to a label
2C6E0014	# JUMP.NE R14 @.L0

# ;; Ignore the pointer for now
2D211100	# LOADUI R1 0x1100 ; Read from tape_01
42100100	# FGETC ; Read a Char
0FCC0002	# ADDUI R12 R12 2 ; The pointer will end up taking 2 bytes
3C00ffd4	# JUMP @getLables

# .L0
# ;; Otherwise attempt to process
2D0D00fc	# CALLI R13 @hex ; Convert it
A0100000	# CMPSKIPI.GE R0 0 ; Don't record, nonhex values
3C00ffc8	# JUMP @getLables ; Move onto Next char

# ;; Determine if we got a full byte
2C9B000c	# JUMP.Z R11 @.L1 ; Jump if toggled

# ;; Deal with case of first half of byte
0D00002B	# FALSE R11 ; Flip the toggle
3C00ffbc	# JUMP @getLables

# .L1
# ;; Deal with case of second half of byte
0D00003B	# TRUE R11 ; Flip the toggle
0FCC0001	# ADDUI R12 R12 1 ; increment PC now that we have a full byte
3C00ffb0	# JUMP @getLables

# ;; Function for storing the address of the label
# storeLabel
# ;; Get the char of the Label
2D211100	# LOADUI R1 0x1100 ; Read from tape_01
42100100	# FGETC ; Read a Char

# ;; We require 4 bytes to store the pointer values
2D500002	# SL0I R0 2 ; Thus we multiply our label by 4

# ;; Store the current Program counter
05048C80	# STOREX R12 R8 R0

# ;; Label is safely stored, return
0D01001D	# RET R13

# ;; Main Functionality
# stage2
# ;; We first need to rewind tape_01 to perform our second pass
2D201100	# LOADUI R0 0x1100
42100003	# REWIND

# ;; Reset our toggle and counter, just in case
2D2B0001	# LOADUI R11 1 ; Our toggle
0D00002C	# FALSE R12 ; Our PC counter

# loop
2D211100	# LOADUI R1 0x1100 ; Read from tape_01
42100100	# FGETC ; Read a Char

# ;; Check for EOF
A0100000	# CMPSKIPI.GE R0 0
3C000128	# JUMP @finish

# ;; Check for Label
1FE0003a	# CMPUI R14 R0 58 ; Make sure we jump over the label
2C6E0010	# JUMP.NE R14 @.L97

# ;; Consume next char
2D211100	# LOADUI R1 0x1100 ; Read from tape_01
42100100	# FGETC ; Read a Char
3C00ffe0	# JUMP @loop

# .L97
# ;; Check for Pointer
1FE00040	# CMPUI R14 R0 64 ; If it is a pointer Deal with it
2C6E000c	# JUMP.NE R14 @.L98 ; Otherwise attempt to process it
2D0D004c	# CALLI R13 @storePointer
3C00ffd0	# JUMP @loop

# .L98
# ;; Process Char
2D210000	# LOADUI R1 0 ; Write to Char to TTY
42100200	# FPUTC ; Print the Char
2D0D0078	# CALLI R13 @hex ; Convert it
12E00000	# CMPI R14 R0 0 ; Check if it is hex
2C8Effbc	# JUMP.L R14 @loop ; Don't use nonhex chars
2C9B0010	# JUMP.Z R11 @.L99 ; Jump if toggled

# ;; Process first byte of pair
05020F0A	# AND R15 R0 R10 ; Store First nibble
0D00002B	# FALSE R11 ; Flip the toggle
3C00ffac	# JUMP @loop

# .L99
2D5F0004	# SL0I R15 4 ; Shift our first nibble
0502000A	# AND R0 R0 R10 ; Mask out top
0500000F	# ADD R0 R0 R15 ; Combine nibbles
0D00003B	# TRUE R11 ; Flip the toggle
2D211101	# LOADUI R1 0x1101 ; Write the combined byte
42100200	# FPUTC ; To TAPE_02
0FCC0001	# ADDUI R12 R12 1 ; increment PC now that we have a full byte
3C00ff8c	# JUMP @loop ; Try to get more bytes

# storePointer
# ;; Correct the PC to reflect the size of the pointer
0FCC0002	# ADDUI R12 R12 2 ; Exactly 2 bytes

# ;; Get the char of the Label
2D211100	# LOADUI R1 0x1100 ; Read from tape_01
42100100	# FGETC ; Read a Char

# ;; Since we stored a full pointer taking up 4 bytes
2D500002	# SL0I R0 2 ; Thus we multiply our label by 4 to get where it is stored
05038280	# LOADX R2 R8 R0 ; Load the address of the label

# ;; We now have to calculate the distance and store the 2 bytes
0500222C	# SUB R2 R2 R12 ; First determine the difference between the current PC and the stored PC of the label
0F220004	# ADDUI R2 R2 4 ; Adjust for relative positioning

# ;; Store Upper byte
09000402	# COPY R0 R2
2D400008	# SARI R0 8 ; Drop the bottom 8 bits
05020009	# AND R0 R0 R9 ; Mask out everything but bottom bits
2D211101	# LOADUI R1 0x1101 ; Write the byte
42100200	# FPUTC ; To TAPE_02

# ;; Store Lower byte
05020029	# AND R0 R2 R9 ; Drop everything but the bottom 8 bits
42100200	# FPUTC ; Write the byte to TAPE_02
0D01001D	# RET R13

# hex
# ;; Deal with line comments starting with #
1FE00023	# CMPUI R14 R0 35
2C5E0060	# JUMP.E R14 @ascii_comment

# ;; Deal with line comments starting with ;
1FE0003b	# CMPUI R14 R0 59
2C5E0058	# JUMP.E R14 @ascii_comment

# ;; Deal with all ascii less than '0'
1FE00030	# CMPUI R14 R0 48
2C8E0048	# JUMP.L R14 @ascii_other

# ;; Deal with '0'-'9'
1FE00039	# CMPUI R14 R0 57
2C7E0028	# JUMP.LE R14 @ascii_num

# ;; Deal with all ascii less than 'A'
1FE00041	# CMPUI R14 R0 65
2C8E0038	# JUMP.L R14 @ascii_other

# ;; Deal with 'A'-'F'
1FE00046	# CMPUI R14 R0 70
2C7E0028	# JUMP.LE R14 @ascii_high

# ;; Deal with all ascii less than 'a'
1FE00061	# CMPUI R14 R0 97
2C8E0028	# JUMP.L R14 @ascii_other

# ;;  Deal with 'a'-'f'
1FE00066	# CMPUI R14 R0 102
2C7E0010	# JUMP.LE R14 @ascii_low

# ;; Ignore the rest
3C00001c	# JUMP @ascii_other

# ascii_num
11000030	# SUBUI R0 R0 48
0D01001D	# RET R13

# ascii_low
11000057	# SUBUI R0 R0 87
0D01001D	# RET R13

# ascii_high
11000037	# SUBUI R0 R0 55
0D01001D	# RET R13

# ascii_other
0D000030	# TRUE R0
0D01001D	# RET R13

# ascii_comment
2D211100	# LOADUI R1 0x1100 ; Read from TAPE_01
42100100	# FGETC ; Read another char
1FE0000a	# CMPUI R14 R0 10 ; Stop at the end of line
2D210000	# LOADUI R1 0 ; Write to TTY
42100200	# FPUTC ; The char we just read
2C6Effec	# JUMP.NE R14 @ascii_comment ; Otherwise keep looping
3C00ffe0	# JUMP @ascii_other

# finish
2D201100	# LOADUI R0 0x1100 ; Close TAPE_01
42100002	# FCLOSE
2D201101	# LOADUI R0 0x1101 ; Close TAPE_02
42100002	# FCLOSE
FFFFFFFF	# HALT

# ;; Where all of our pointers will be stored for our locations
# table