diff options
author | mrb0nk500 <b0nk@b0nk.xyz> | 2020-07-06 20:04:41 -0400 |
---|---|---|
committer | mrb0nk500 <b0nk@b0nk.xyz> | 2020-07-06 20:04:41 -0400 |
commit | 756c606af68be8ccca7aced3b9c3d56fb2d5087f (patch) | |
tree | fbc02b63feb1933a213d26ae68ab1b1a104e4ef3 /programs/sub-suite | |
parent | 887802efcdb3b56263069cc6778a8f53ed89d599 (diff) |
- Implemented a new opcode table.
- Added a new preifx called the OF prefix, which adds
the contents of a specific register to the current
operand.
- Added a table generator, which parses opcode table
csv files.
Diffstat (limited to 'programs/sub-suite')
-rw-r--r-- | programs/sub-suite/lexer.s | 180 | ||||
-rw-r--r-- | programs/sub-suite/subasm.s | 34 | ||||
-rw-r--r-- | programs/sub-suite/subeditor.s | 405 | ||||
-rw-r--r-- | programs/sub-suite/utils.s | 130 |
4 files changed, 448 insertions, 301 deletions
diff --git a/programs/sub-suite/lexer.s b/programs/sub-suite/lexer.s index 315bee4..cd7a33a 100644 --- a/programs/sub-suite/lexer.s +++ b/programs/sub-suite/lexer.s @@ -97,16 +97,16 @@ util_data: lex: ldx #0 ; Reset X. txa ; Reset A. - phy #2 ; Preserve the screen buffer index. + phy.w ; Preserve the screen buffer index. txy ; Reset Y. sty.q idx0 ; Clear the first index. sty.q idx1 ; Clear the second index. sty.q idx2 ; Clear the third index. sty b ; Clear the isop flag. ; lda (ptr), y ; Get a character from the line. -; pha #1 ; Preserve the character. +; pha ; Preserve the character. ; jsr isdigit ; Is this character a digit? -; pla #1 ; Get the character back. +; pla ; Get the character back. @getline: lda #2 ; Get the third byte, of the line table address. lsl #$10 ; Shift it by 2 bytes. @@ -126,27 +126,27 @@ lex: @spaces: ldy.w idx0 ; Get the string index. lda (ptr), y ; Get a character from the line. - pha #1 ; Preserve the character. + pha ; Preserve the character. jsr isdelm ; Get the delimiter. and #$10 ; Is this character, a space, or tab? - pla #1 ; Get the character back. + pla ; Get the character back. beq @isstart ; No, so check for the start of the line. inc.w idx0 ; Yes, so increment the string index. cmp #' ' ; Is this character, a space? beq @incs ; Yes, so increment the starting space count. cmp #'\t' ; No, but is it a tab? beq @inct ; Yes, so increment the starting tab count. - jmp @spaces ; No, so Keep looping. + bra @spaces ; No, so Keep looping. @incs: inc idx1 ; Increment the space count. - jmp @spaces ; Keep looping. + bra @spaces ; Keep looping. @inct: inc idx1+1 ; Increment the tab count. - jmp @spaces ; Keep looping. + bra @spaces ; Keep looping. @isstart: - pha #2 ; Preserve the character. + pha.w ; Preserve the character. lda.w idx1 ; Was there any whitespace? - pla #2 ; Get the character back. + pla.w ; Get the character back. beq @switch ; No, so start lexing. cpb #1 ; Yes, and are we at the start of the line? bne @switch ; No, so start lexing. @@ -163,27 +163,27 @@ lex: jsr get_ptok ; Get the pre-token. jsr parse_ptok ; Parse the pre-token. ; beq @end ; We got to the end of the string. - jmp @loop ; Keep looping. + bra @loop ; Keep looping. @end: - ply #2 ; Get the screen buffer index back. + ply.w ; Get the screen buffer index back. rts ; End of lex. parse_ptok: - pha #1 ; Preserve the pre-token. + pha ; Preserve the pre-token. ldb #2 ; Set the third pointer lda.w #swtab ; to the start of the jump table. jsr set_ptr ; and #0 ; Reset A. - pla #1 ; Get the pre-token back. - phy #2 ; Preserve Y. + pla ; Get the pre-token back. + phy.w ; Preserve Y. lsl #1 ; Multiply the pre-token by two, to get the jump index. tay ; Get the index of the jump table. lda.w (ptr3), y ; Get the address to jump to. jsr set_ptr ; Set the third pointer to the case address. and #0 ; Reset A. tab ; Reset B. - ply #2 ; Get Y back. + ply.w ; Get Y back. jmp (ptr3) ; Jump to the case label. ptok_dot: ldb #1 ; Make init_lex increment the string index. @@ -200,7 +200,7 @@ ptok_dot: dey ; Decrement the lexeme index. lda (ptr3), y ; Get the suffix character. jsr get_rs ; Get the register size. - jmp @end ; We are done. + bra @end ; We are done. @dir: lda #TOK_DIR ; Set the lexeme type to TOK_DIR. sta lex_type ; @@ -211,9 +211,9 @@ ptok_dot: lda.w #dir ; Get pointer to the start of the directive table. clc ; Prepare for a non carrying add. adc.w idx2 ; Offset the pointer, by the length of the previous string. - pha #8 ; Preserve the directive string pointer. + pha.q ; Preserve the directive string pointer. jsr strcasecmp ; Is the lexeme buffer, the same as the directive string? - pla #8 ; Get the directive string pointer back. + pla.q ; Get the directive string pointer back. beq @found ; Yes, so create a new token. ldb idx1 ; No, so Get the directive ID. cpb #6 ; Have we reached the end of the directive table? @@ -226,7 +226,7 @@ ptok_dot: clc ; Prepare for a non carrying add. adc.w idx2 ; Add the string offset to the current length sta.w idx2 ; Save the offset in the third index. - jmp @dir_loop ; Keep looping. + bra @dir_loop ; Keep looping. @found: nop ; @end: @@ -234,59 +234,102 @@ ptok_dot: jsr set_cmdbuf ; Set the first pointer to the command buffer. rts ; End of parse_ptok. ptok_at: + inc.w idx0 ; rts ; End of parse_ptok. ptok_col: + inc.w idx0 ; rts ; End of parse_ptok. ptok_equ: + inc.w idx0 ; rts ; End of parse_ptok. ptok_plus: + inc.w idx0 ; rts ; End of parse_ptok. ptok_min: + inc.w idx0 ; rts ; End of parse_ptok. ptok_gt: + inc.w idx0 ; rts ; End of parse_ptok. ptok_lt: + inc.w idx0 ; rts ; End of parse_ptok. ptok_lbrk: + inc.w idx0 ; rts ; End of parse_ptok. ptok_rbrk: + inc.w idx0 ; rts ; End of parse_ptok. ptok_com: + inc.w idx0 ; rts ; End of parse_ptok. ptok_xr: + inc.w idx0 ; rts ; End of parse_ptok. ptok_yr: + inc.w idx0 ; rts ; End of parse_ptok. ptok_dqu: ldb #1 ; Make init_lex increment the string index. jsr init_lex ; Initialize the lexeme buffer for copying. ldb #4 ; Set the delimiter comparison value to a double quote. jsr delmcpy ; Copy the string, to the lexeme buffer, until delimiter. -@term: +@end: rts ; End of parse_ptok. ptok_squ: + ldb #1 ; Make init_lex increment the string index. + jsr init_lex ; Initialize the lexeme buffer for copying. + ldb #8 ; Set the delimiter comparison value to a single quote. + jsr delmcpy ; Copy the string, to the lexeme buffer, until delimiter. +@end: rts ; End of parse_ptok. ptok_hash: + inc.w idx0 ; rts ; End of parse_ptok. ptok_scol: + ldb #1 ; Make init_lex increment the string index. + jsr init_lex ; Initialize the lexeme buffer for copying. + jsr delmcpy ; Copy the string, to the lexeme buffer, until EOL. +@end: rts ; End of parse_ptok. ptok_dolr: - rts ; End of parse_ptok. + lda #TOK_HEX ; Set the lexeme type to TOK_HEX. + sta lex_type ; + lda #$10 ; Set the base to Hexadecimal. + ldb #1 ; Make init_lex increment the string index. + bra ptok_num2 ; Parse the value. ptok_prcn: - rts ; End of parse_ptok. + lda #TOK_BIN ; Set the lexeme type to TOK_BIN. + sta lex_type ; + lda #2 ; Set the base to Binary. + ldb #1 ; Make init_lex increment the string index. + bra ptok_num2 ; Parse the value. ptok_num: + lda #TOK_DEC ; Set the lexeme type to TOK_DEC. + sta lex_type ; + lda #10 ; Set the base to Decimal. + ldb #0 ; Do not let init_lex increment the string index. +ptok_num2: + pha ; Preserve the base. + jsr init_lex ; Initialize the lexeme buffer for copying. + ldb #3 ; Set the delimiter to both the EOL, or a comma. + jsr delmcpy ; Copy the string, to the lexeme buffer, until delimiter. + pla ; Get the base back. + jsr strtoull ; Convert the string into a numeric value. + jsr make_tok ; Create the token. + jsr set_cmdbuf ; Set the first pointer to the command buffer. rts ; End of parse_ptok. ptok_alph: ldb #0 ; Do not let init_lex increment the string index. jsr init_lex ; Initialize the lexeme buffer for copying. - ldb #1 ; Stop at any possible delimiter, except whitespace. + ldb #3 ; Stop at any possible delimiter. tba ; Use isdelm2 for the comparison. jsr delmcpy ; Copy the string, to the lexeme buffer, until delimiter. lda #0 ; Reset A. sta b ; Clear the isop flag. @isop: ldb #0 ; Make the lexeme buffer, the first pointer. - stb.q idx1 ; Reset the first index. + stb.q idx1 ; Reset the second index. jsr set_lexptr ; Set up the lexeme buffer. @isop_loop: lda.w #mne ; Get pointer to the start of the instruction table. @@ -303,7 +346,7 @@ ptok_alph: clc ; Prepare for a non carrying multiply. mul idx1 ; Multiply the base offset, by the instruction ID. sta.w idx2 ; Save the offset in the third index. - jmp @isop_loop ; Keep looping. + bra @isop_loop ; Keep looping. @found: lda #TOK_MNE ; Set the lexeme type to TOK_MNE. sta lex_type ; @@ -313,6 +356,7 @@ ptok_alph: jsr set_cmdbuf ; Set the first pointer to the command buffer. rts ; End of parse_ptok. ptok_othr: + inc.w idx0 ; rts ; End of parse_ptok. @@ -322,6 +366,7 @@ set_lexptr: and #0 ; Reset A. tab ; Reset B. sta.q idx1 ; Reset the second index. + sta.q idx2 ; Reset the third index rts ; End of set_lexptr. @@ -340,11 +385,19 @@ init_lex: @inc_str: inc.w idx0 ; Yes, so increment the string index. @init: - lda #0 ; Reset A. - sta.q idx1 ; Reset the second index - sta.q idx2 ; Reset the third index ldb #2 ; Make the lexeme buffer, the third pointer. jsr set_lexptr ; Set up the lexeme buffer. + phy.w ; Preserve Y. + tay ; Reset Y. +@loop: + lda (ptr3), y ; Have we hit the end of the previous lexeme string? + beq @end ; Yes, so we're done. + lda #0 ; No, so start clearing the character. + sta (ptr3), y ; Clear the character. + iny ; Increment the lexeme index. + bra @loop ; Keep looping. +@end: + ply.w ; Get Y back. rts ; End of init_lex. @@ -352,37 +405,80 @@ delmcpy: sta a ; Save the delimiter check flag. stb c ; Save the delimiter comparison value. @loop: + ldb #0 ; Reset the B register. + stb g ; Reset the byte count. ldy.w idx0 ; Get the string index. - lda (ptr), y ; Get a character from the line. - pha #1 ; Preserve the character. + lda.q (ptr), y ; Get eight bytes from the current line. +@loop1: + pha.q ; Save the string buffer. + and #$FF ; Get the current byte. + pha ; Preserve the character. lda a ; Are we calling isdelm2? - pla #1 ; Get the character back. + pla ; Get the character back. bne @isdelm2 ; Yes, so use isdelm2. jsr isdelm ; No, so get the delimiter value from isdelm. +@delmchk: and c ; Are both delimiter values, the same? + pla.q ; Get back the string buffer. bne @end ; Yes, so we're done. - jmp @copy ; No, so start copying the character. + bra @copy ; No, so start copying the character. @isdelm2: jsr isdelm2 ; Get the delimiter value from isdelm2. - cmp c ; Are both delimiter values, the same? - beq @end ; Yes, so we're done. + bra @delmchk ; Check the delimiter. @copy: - lda (ptr), y ; Get a character from the line. ldy.w idx1 ; Get the lexeme index. - sta (ptr3), y ; Copy the character to the lexeme buffer. + sta (ptr3), y ; Copy one byte from the screen buffer, to the command buffer. inc.w idx0 ; Increment the string index. inc.w idx1 ; Increment the lexeme index. - jmp @loop ; Keep looping. + lsr #8 ; Shift in the next byte. + inc g ; Increment the byte count. + ldb g ; Get back the byte count. + cpb #7 ; Did we shift in eight bytes? + beq @loop ; Yes, so get eight more bytes. + bra @loop1 ; No, so keep shifting in more bytes. @end: - lda #0 ; Terminate the lexeme buffer. - sta (ptr3), y ; + ldb #0 ; Reset B. + ldy.w idx1 ; Get the lexeme index. + stb (ptr3), y ; Terminate the command buffer. +@end1: + ldy.w idx0 ; Get the string index. + tba ; Reset A. rts ; End of delmcpy. +;@loop: +; ldy.w idx0 ; Get the string index. +; lda (ptr), y ; Get a character from the line. +; pha ; Preserve the character. +; lda a ; Are we calling isdelm2? +; pla ; Get the character back. +; bne @isdelm2 ; Yes, so use isdelm2. +; jsr isdelm ; No, so get the delimiter value from isdelm. +;@delmchk: +; and c ; Are both delimiter values, the same? +; bne @end ; Yes, so we're done. +; bra @copy ; No, so start copying the character. +;@isdelm2: +; jsr isdelm2 ; Get the delimiter value from isdelm2. +; bra @delmchk ; Check the delimiter. +;@copy: +; lda (ptr), y ; Get a character from the line. +; ldy.w idx1 ; Get the lexeme index. +; sta (ptr3), y ; Copy the character to the lexeme buffer. +; inc.w idx0 ; Increment the string index. +; inc.w idx1 ; Increment the lexeme index. +; bra @loop ; Keep looping. +;@end: +; ldy.w idx1 ; Get the lexeme index. +; lda #0 ; Terminate the lexeme buffer. +; sta (ptr3), y ; +; ldy.w idx0 ; Get the string index. +; rts ; End of delmcpy. + get_rs: - phb #1 ; Preserve B. + phb ; Preserve B. ldb #0 ; Set the isop flag to false. - plb #1 ; Get B back. + plb ; Get B back. jsr tolower ; Convert the character to lowercase. cmp #'w' ; Is it .w? beq @r1 ; Yes, so return 1. diff --git a/programs/sub-suite/subasm.s b/programs/sub-suite/subasm.s index 9c6c3f0..d661695 100644 --- a/programs/sub-suite/subasm.s +++ b/programs/sub-suite/subasm.s @@ -187,6 +187,14 @@ idx2: idx3: .qword 0 +; Value buffer used by strtoull. +valbuf: + .qword 0 + +; Copy buffer used by delmcpy. +cpybuf: + .qword 0 + ; Current token line. ctok: .word 0 @@ -225,7 +233,7 @@ subasm: jsr chk_cmd ; No, but did we get a full command? bne @cmd ; Yes, so skip everything else. jsr lex ; No, so start lexing this line. - jmp @end ; We are done. + bra @end ; We are done. @cmd: ldb #1 ; Set the second pointer lda.d #cmd_srt ; to the command subroutine table. @@ -236,10 +244,10 @@ subasm: cmp #8 ; Is the command ID greater than the command count? bcs @end ; Yes, so we're done. lsl #1 ; No, so multiply the command ID by two. - phy #2 ; Preserve the screen buffer position. + phy.w ; Preserve the screen buffer position. tay ; Set the index to the offset that we just calculated. lda.w (ptr2), y ; Get the command subroutine, from the command subroutine table. - ply #2 ; Get back the screen buffer position. + ply.w ; Get back the screen buffer position. ldb #2 ; Save it in the third pointer. jsr set_ptr ; ldb #0 ; Reset B. @@ -254,7 +262,7 @@ chk_shcmd: jsr set_ptr ; deb ; Reset B. tba ; Reset A. - phy #2 ; Preserve the screen buffer position. + phy.w ; Preserve the screen buffer position. txy ; Set our index to zero. lda (ptr), y ; Is there nothing in the command buffer? beq @false ; Yes, so return that we failed. @@ -267,7 +275,7 @@ chk_shcmd: cab ; No, so did the character match? beq @found ; Yes, so check if there are any arguments. iny ; No, so check the next command. - jmp @loop ; Keep looping. + bra @loop ; Keep looping. @found: sty f ; Save the command ID. ldy #1 ; Check the next character in the command buffer. @@ -275,16 +283,16 @@ chk_shcmd: beq @true ; Yes, so return that we succeded. cmp #' ' ; No, but is this a space? beq @true ; Yes, so return that we succeded. - jmp @false ; No, so return that we failed. + bra @false ; No, so return that we failed. @true: lda #1 ; Return true. - jmp @end ; We are done. + bra @end ; We are done. @false: ldb #0 ; Reset B. tba ; Return false. tax ; Reset X. @end: - ply #2 ; Get back the screen buffer position. + ply.w ; Get back the screen buffer position. rts ; End of chk_shcmd. @@ -297,9 +305,9 @@ chk_cmd: lda.w #cmds ; Get pointer to the start of the command table. clc ; Prepare for a non carrying add. adc.w idx0 ; Offset the pointer, by the length of the previous string. - pha #8 ; Preserve the command string pointer. + pha.q ; Preserve the command string pointer. jsr strcasecmp ; Is the command buffer, the same as the command string? - pla #8 ; Get the command string pointer back. + pla.q ; Get the command string pointer back. beq @true ; Yes, so return true. ldb idx1 ; No, so Get the command ID. cpb #7 ; Have we reached the end of the command table? @@ -312,12 +320,12 @@ chk_cmd: clc ; Prepare for a non carrying add. adc.w idx0 ; Add the string offset to the current length sta.w idx0 ; Save the offset in the first index. - jmp @loop ; Keep looping. + bra @loop ; Keep looping. @true: ldb idx1 ; Get the command ID. stb f ; Return the command ID. ldb #1 ; Return true. - jmp @end ; We are done. + bra @end ; We are done. @false: ldb #0 ; Return false. @end: @@ -351,7 +359,7 @@ viewmem: adc #$10 ; Add 16 to the address. sta.q idx0 ; Put it back into the address. and #0 ; Reset A. - jmp @loop ; Keep looping. + bra @loop ; Keep looping. @end: lda #'\n' ; Print a newline. jsr print_char ; diff --git a/programs/sub-suite/subeditor.s b/programs/sub-suite/subeditor.s index 1768d62..cc18b4c 100644 --- a/programs/sub-suite/subeditor.s +++ b/programs/sub-suite/subeditor.s @@ -140,10 +140,12 @@ reset: lda.d #buffer ; Set the array to be cleared to the screen buffer. jsr clr_arr ; Clear the screen buffer. jsr pnt_strt ; Print the starting message. - jmp start ; Goto the start of the main program. + lda #$C ; Clear the screen. + sta scr ; + bra start ; Goto the start of the main program. clr_arr: - phb #1 ; Preserve whatever was in B. + phb ; Preserve whatever was in B. ldb #0 ; Clear B. jsr set_ptr ; Set the first pointer to the parameter. adc #8 ; Set the second pointer to the parameter, plus eight. @@ -166,10 +168,10 @@ clr_arr: adc #$10 ; tay ; tba ; - jmp @loop ; Keep looping. + bra @loop ; Keep looping. @end: ldy.w zero ; Set the index back to zero. - plb #1 ; Get whatever was in the B register, back. + plb ; Get whatever was in the B register, back. rts ; End of clr_arr. pnt_strt: @@ -195,16 +197,16 @@ start: lda #0 ; TODO: Update this for the Super VIA. sta status ; Clear the control register of the I/O adapter. tax ; Reset X. - phy #2 ; Save the cursor index for later. + phy.w ; Save the cursor index for later. tay ; Reset the cursor index. lda.w #$3FF ; Set the clear count to $3FF. sta.w scr_ptr ; lda.d #cmd_buf ; Set the array to be cleared to the command buffer. jsr clr_arr ; Clear the command buffer. - ply #2 ; Get back the cursor index. + ply.w ; Get back the cursor index. and #0 ; Reset the Accumulator. sta end ; - jmp read ; Start reading the keyboard. + bra read ; Start reading the keyboard. read: lda #0 ; Reset the Accumulator. @@ -214,7 +216,14 @@ read: beq read ; No, so try again. jsr getchar ; Yes, and was it a newline? beq parse ; Yes, so start parsing the line. - jmp read ; No, so keep looping. + bra read ; No, so keep looping. + +parse: + lda #0 ; + tax ; + jsr subasm ; + bra start ; + print_str: ldx #0 ; Reset X. @@ -231,14 +240,14 @@ print_str: cmp.q end ; Did the pointer change? bne @reset ; Yes, so set it back. and #0 ; No, reset the accumulator. - phy #2 ; Save the cursor index. + phy.w ; Save the cursor index. txy ; Copy the string index into Y. lda (ptr), y ; Are we at the end of the string? - ply #2 ; Get the cursor index back. + ply.w ; Get the cursor index back. beq @end ; Yes, so we're done. inx ; No, so increment the string index. jsr print_char ; Print the character. - jmp @loop ; Keep looping. + bra @loop ; Keep looping. @end: ldb #0 ; Enable insert mode. stb b ; @@ -249,81 +258,81 @@ getbit: lda scr_str ; Has the screen been scrolled? bne getbt0 ; Yes, so add the screen offset to the current line number. ldx scr_row ; No, so just use the current line number. - jmp getbt1 ; Start getting the bit. + bra getbt1 ; Start getting the bit. getbt0: lda scr_row ; Get the current line number. adc scr_str ; Add the screen offset to it. tax ; Use it as the wrap index. getbt1: - pha #1 ; Save the parameter. + pha ; Save the parameter. ldb #1 ; Make sure that set_ptr sets the second pointer. lda.d #bitabl ; Set the second pointer to the linewrap table. jsr set_ptr ; lsr #$10 ; Clear the Accumulator. - pla #1 ; Get the return byte back. + pla ; Get the return byte back. jsr bitpos ; Get the bit, and byte position. - phy #2 ; Save the screen index. + phy.w ; Save the screen index. txy ; Get the byte position. ldb (ptr2), y ; Get one byte of the wrap table. - ply #2 ; Get the screen index back. + ply.w ; Get the screen index back. aba ; Mask out the bit of the current line number. cmp #1 ; Set the carry flag, if true. - jmp bitout ; We are done. + bra bitout ; We are done. clrbit: - pha #1 ; Save the parameter. + pha ; Save the parameter. ldb #1 ; Make sure that set_ptr sets the second pointer. lda.d #bitabl ; Set the second pointer to the linewrap table. jsr set_ptr ; and #0 ; Clear the Accumulator. - pla #1 ; Get the return byte back. + pla ; Get the return byte back. jsr bitpos ; Get the bit, and byte position. xor #$FF ; Invert the bitmask. - phy #2 ; Save the screen index. + phy.w ; Save the screen index. txy ; Get the byte position. ldb (ptr2), y ; Get one byte of the wrap table. aba ; Clear the bit of the current line number. bitsav: sta (ptr2), y ; Update the wrap table. - ply #2 ; Get the screen index back. + ply.w ; Get the screen index back. bitout: ldx bitmask ; Return the bitmask. rts ; We are done. setbit: - pha #1 ; Save the parameter. + pha ; Save the parameter. ldb #1 ; Make sure that set_ptr sets the second pointer. lda.d #bitabl ; Set the second pointer to the linewrap table. jsr set_ptr ; and #0 ; Clear the Accumulator. - pla #1 ; Get the return byte back. + pla ; Get the return byte back. jsr bitpos ; Get the bit, and byte position. - phy #2 ; Save the screen index. + phy.w ; Save the screen index. txy ; Get the byte position. ldb (ptr2), y ; Get one byte of the wrap table. oab ; Set the bit of the current line number. - jmp bitsav ; Save the bit. + bra bitsav ; Save the bit. bitpos: - pha #1 ; Save the parameter. + pha ; Save the parameter. ldb #0 ; Make sure that set_ptr sets the first pointer. lda.w #bits ; Set the first pointer to the bitmask table. jsr set_ptr ; and #0 ; Clear the Accumulator. - pla #1 ; Get the parameter back. + pla ; Get the parameter back. stx bitmask ; Make the line number the bitmask. txa ; Copy it to the Accumulator. and #7 ; Get the bit position. - phy #2 ; Save the cursor index. + phy.w ; Save the cursor index. tay ; Use the bit position as the index. tax ; Copy it into X. lda (ptr), y ; Get the bitmask. - ply #2 ; Get back the cursor index. - pha #1 ; Save the bitmask. + ply.w ; Get back the cursor index. + pha ; Save the bitmask. lda bitmask ; Get the line number. lsr #3 ; Get the byte position. tax ; Copy it into X. - pla #1 ; Get back the bitmask. + pla ; Get back the bitmask. rts ; End of bitpos. getchar: @@ -331,14 +340,14 @@ getchar: ldb #0 ; Reset the B register. stb e ; Set the temporary row position to zero, in case we get a newline. stb b ; Enable insert mode. - pha #1 ; Save the character. - phy #2 ; Save the cursor index. + pha ; Save the character. + phy.w ; Save the cursor index. cmp #'\n' ; Was the character that was typed, a newline? bne @print ; No, so just print the character. jsr cmd_cpy ; Yes, so start copying the line to the command buffer. @print: - ply #2 ; Get back the cursor index. - pla #1 ; Get back the character. + ply.w ; Get back the cursor index. + pla ; Get back the character. ldb e ; Is the temporary row position non zero? bne @row ; Yes, so reset the row positon. @print1: @@ -346,21 +355,21 @@ getchar: lda a ; Get the return value. cmp #'\n' ; Is the return value, a newline? beq @true ; Yes, so return true. - jmp @false ; No, so return false. + bra @false ; No, so return false. @row: ldb e ; Get the temporary row position. cpb #maxrow ; Is temporary row position, at, or above the bottom of the screen? beq @row2 ; Yes, so leave it as is. bcs @row1 ; No, so set it to the bottom of the screen. - jmp @row2 ; Yes, so leave it as is. + bra @row2 ; Yes, so leave it as is. @row1: ldb #maxrow ; Set the row position to the bottom of the screen. @row2: stb scr_row ; Set the row position. - jmp @print1 ; Print the character. + bra @print1 ; Print the character. @true: lda #0 ; Return true. - jmp @end ; We are done. + bra @end ; We are done. @false: lda #1 ; Return false. @end: @@ -399,11 +408,11 @@ cmd_cpy: ldb #0 ; Reset the B register. lda.q (ptr), y ; Get eight bytes from the current line. @loop1: - phy #2 ; Save the screen index. + phy.w ; Save the screen index. txy ; Get the command buffer index. sta (ptr2), y ; Copy one byte from the screen buffer, to the command buffer. inx ; Increment the command buffer index. - ply #2 ; Get back the screen index. + ply.w ; Get back the screen index. cpx.w #$3FF ; Are we at the end of the command buffer? bcs @end ; Yes, so we're done. iny ; No, so increment the screen index. @@ -417,13 +426,13 @@ cmd_cpy: ldb g ; Get back the byte count. cpb #7 ; Did we shift in eight bytes? beq @loop ; Yes, so get eight more bytes. - jmp @loop1 ; No, so keep shifting in more bytes. + bra @loop1 ; No, so keep shifting in more bytes. @end: ldb #0 ; Reset B. - phy #2 ; Save the screen index. + phy.w ; Save the screen index. txy ; Get the command buffer index. stb (ptr2), y ; Terminate the command buffer. - ply #2 ; Get back the screen index. + ply.w ; Get back the screen index. @end1: tab ; The B register is zero, so clear the Accumulator. rts ; End of cmd_cpy. @@ -432,9 +441,9 @@ cmd_cpy: findst: lda #0 ; Reset A. @loop: - pha #1 ; Save the current line number. + pha ; Save the current line number. jsr getbit ; Is this the start of the line? - pla #1 ; Get the current line number back. + pla ; Get the current line number back. bcc @end ; Yes, so we're done. inc ; No, so check the next physical line. dec scr_row ; Are we at the top of the screen? @@ -447,21 +456,21 @@ findst: fndend: - phb #1 ; Save the contents of the B register. + phb ; Save the contents of the B register. ldb #0 ; Make sure that set_ptr sets the first pointer. lda.d #buffer ; Set the first pointer to the start of the screen buffer. jsr set_ptr ; tba ; Set the Accumulator to zero. - plb #1 ; Restore the contents of the B register. - phy #2 ; + plb ; Restore the contents of the B register. + phy.w ; @loop: lda (ptr), y ; Are we at the end of the string? beq @end ; Yes, so we're done. iny ; No, so increment the cursor index. - jmp @loop ; Keep looping. + bra @loop ; Keep looping. @end: sty.w scr_ptr3 ; - ply #2 ; + ply.w ; rts ; End of fndend. findend: @@ -470,11 +479,6 @@ findend: div #maxcol+1 ; rts ; -parse: - lda #0 ; - tax ; - jsr subasm ; - jmp start ; print_char: sta a ; Save the typed character for now. @@ -507,7 +511,7 @@ printc: bne @save ; Yes, so don't shift the line. sty.w scr_ptr ; No, so save the cursor index for later. jsr fndend ; Find the end of the line. - jmp @shift ; Start shifting the line right. + bra @shift ; Start shifting the line right. @update: lda scr_col ; Save the current column position for later. sta scr_tcol ; @@ -526,7 +530,7 @@ printc: sta scr_col ; jsr update_pos ; Update the cursor's position. dec d ; - jmp @save1 ; + bra @save1 ; @shift: ldy.w scr_ptr3 ; inc scr_ptr3 ; @@ -541,7 +545,7 @@ printc: sta (ptr3), y ; store typed character into the input buffer. lda scr_row ; sta scr_trow ; - jmp @update ; + bra @update ; @save: ldb d ; bne @update ; @@ -561,7 +565,7 @@ printc: sta scr ; Echo typed character. ldb f ; beq @wrap ; - jmp printc_end ; + bra printc_end ; @scrolled: ldb scr_row ; cpb #maxrow ; @@ -569,7 +573,7 @@ printc: @wrapped2: ldb #0 ; stb f ; - jmp @print ; + bra @print ; @scroll: sta scr ; Echo typed character. clc ; @@ -585,13 +589,13 @@ printc: @wrap1: inc scr_row ; @wrap2: - phx #2 ; + phx.w ; clc ; lda scr_row ; adc scr_str ; tax ; jsr setbit ; - plx #2 ; + plx.w ; jsr update_pos ; printc_end: rts ; @@ -607,14 +611,15 @@ nl: cmp #maxrow ; Are we at the bottom of the screen? bcc @incr ; No, so move down one line. jsr scrl_down ; Yes, so scroll down one line. - jmp @end ; We are done. + bra @end ; We are done. @incr: inc scr_row ; Move the cursor down by one line. jsr update_pos ; Update the cursor's position. @end: lda #'\n' ; Print the newline. sta a ; - jmp printc_end ; + rts ; + clr_scr: lda #maxrow ; @@ -638,26 +643,57 @@ clr_scr: jsr update_pos ; lda #$C ; sta scr ; - jmp printc_end ; + rts ; en_step: lda step ; beq step_en ; - jmp printc_end ; + rts ; step_en: lda #1 ; sta step ; - jmp printc_end ; + rts ; dis_step: lda step ; bne step_dis ; - jmp printc_end ; + rts ; step_dis: lda #0 ; sta step ; - jmp printc_end ; + rts ; + +bs: + lda scr_col ; Are we at the far left of the screen? + beq @wrap ; Yes, so check for a wrapped line. + bra back ; No, so add the backspace to the buffer. +@wrap: + jsr getbit ; Is this line, a wrapped line? + bcs @wrap1 ; Yes, so check if the cursor is at the top. + rts ; No, so we're done. +@wrap1: + lda scr_row ; Are we at the top of the screen? + beq @wrap2 ; Yes, so check if the screen is at the top of the buffer. + bra @wrap3 ; No, so start clearing the wrap bit. +@wrap2: + lda scr_str ; Are we at the top of the buffer? + bne @scroll ; Yes, so scroll up. + rts ; No, so we're done. +@scroll: + clc ; Clear the carry flag, so that we don't get odd behaviour. + jsr scrl_up ; Scroll up. + inc scr_row ; Move down by one row. +@wrap3: + clc ; Clear the carry flag. + lda scr_row ; Add the cursor's row position, + adc scr_str ; and the screen's starting row. + tax ; Transfer that into X. +@wrap4: + dec scr_row ; Move up by one row. + ldb #maxcol+1 ; Move the cursor to the absolute right of the screen. + stb scr_col ; + jsr update_pos ; Update the cursor's position. back: ldb #0 ; Reset B, and some flags. stb e ; @@ -698,54 +734,23 @@ back: sta scr_row ; dec scr_col ; Move the cursor back by one column, jsr update_pos ; and update it's position. - jmp printc_end ; We are done. + rts ; We are done. @update: lda scr_row ; Set the line to start redrawing, to the start of the line. sta f ; inc e ; Set the redraw flag to true. - jmp @shift ; Start shifting the line back. + bra @shift ; Start shifting the line back. -bs: - lda scr_col ; Are we at the far left of the screen? - beq @wrap ; Yes, so check for a wrapped line. - jmp back ; No, so add the backspace to the buffer. -@wrap: - jsr getbit ; Is this line, a wrapped line? - bcs @wrap1 ; Yes, so check if the cursor is at the top. - jmp printc_end ; No, so we're done. -@wrap1: - lda scr_row ; Are we at the top of the screen? - beq @wrap2 ; Yes, so check if the screen is at the top of the buffer. - jmp @wrap3 ; No, so start clearing the wrap bit. -@wrap2: - lda scr_str ; Are we at the top of the buffer? - bne @scroll ; Yes, so scroll up. - jmp printc_end ; No, so we're done. -@scroll: - clc ; Clear the carry flag, so that we don't get odd behaviour. - jsr scrl_up ; Scroll up. - inc scr_row ; Move down by one row. -@wrap3: - clc ; Clear the carry flag. - lda scr_row ; Add the cursor's row position, - adc scr_str ; and the screen's starting row. - tax ; Transfer that into X. -@wrap4: - dec scr_row ; Move up by one row. - ldb #maxcol+1 ; Move the cursor to the absolute right of the screen. - stb scr_col ; - jsr update_pos ; Update the cursor's position. - jmp back ; Delete the previous character. shftln: ldb d ; Is the flag not set? beq @dec_loop ; Yes, so shift, and decrement. ldb #0 ; Clear the B register. - jmp @inc_loop ; No, so shift, and increment. + bra @inc_loop ; No, so shift, and increment. @neg: ldy.w zero ; Set the source poition to 0. stb (ptr3), y ; Clear the character that is in the source. - jmp @end ; We are done. + bra @end ; We are done. @inc_loop: sty.w scr_ptr2 ; Save the source position for later. ldy.w scr_ptr ; Get the previous cursor index. @@ -755,35 +760,35 @@ shftln: @inc_loop1: ldy.w scr_ptr2 ; Get the source position. lda (ptr3), y ; Get the character from the source position. - phy #2 ; Save the source position for later. + phy.w ; Save the source position for later. txy ; Set our position to the destination. sta (ptr3), y ; Place the character from the source position, to the destination position. - ply #2 ; Set our position back to the source. + ply.w ; Set our position back to the source. stb (ptr3), y ; Clear the character that is in the source. bng @neg ; The source underflowed, so set it back to zero, dey ; Decrement the source position. dex ; Decrement the destination position. - jmp @inc_loop ; Keep looping. + bra @inc_loop ; Keep looping. @dec_loop: stx.w scr_ptr2 ; Save the destination position for later. lda (ptr3), y ; Is the character at the source position, a null terminator? beq @end3 ; Yes, so we're done. - phy #2 ; No, so save the source position for later. + phy.w ; No, so save the source position for later. txy ; Set our position to the destination. sta (ptr3), y ; Place the character from the source position, to the destination position. inx ; Increment the destination position. - ply #2 ; Set our position back to the source. + ply.w ; Set our position back to the source. stb (ptr3), y ; Clear the character that is in the source. iny ; Increment the source position. - jmp @dec_loop ; Keep looping. + bra @dec_loop ; Keep looping. @wrap: tax ; Use the ending line as a parameter for setbit. jsr setbit ; Set the wrap bit of the ending line. - jmp @end5 ; We are done. + bra @end5 ; We are done. @wrap1: tax ; Use the ending line as a parameter for clrbit. jsr clrbit ; Clear the wrap bit of the ending line. - jmp @end5 ; We are done. + bra @end5 ; We are done. @end: lda (ptr3), y ; Is this character a null terminator? bne @end1 ; No, so just find the end of the line. @@ -802,12 +807,12 @@ shftln: cmp scr_row ; Is the ending line greater than the starting line? beq @end5 ; No, so we're done. bcs @wrap ; Yes, so set the wrap bit. - jmp @end5 ; No, so we're done. + bra @end5 ; No, so we're done. @end3: jsr findend ; Find the ending line. cpb #0 ; Is the remainder zero? beq @end4 ; Yes, so check if the ending line is greater than the starting line. - jmp @end5 ; No, so we're done. + bra @end5 ; No, so we're done. @end4: cmp scr_row ; Is the ending line greater than the starting line? beq @end5 ; No, so we're done. @@ -821,44 +826,45 @@ esc: cmp #$1B ; Is this character an escape character? beq shftesc ; Yes, so check the other set of escape routines. lda status ; No, so wait for the next character. - beq printc_end ; We have an error, so discard it, and go back to getting user input. + beq @end ; We have an error, so discard it, and go back to getting user input. lda kbd ; Get the escape code. sta c ; Store the escape code, until we need it. lda #0 ; Set the D pseudo register to zero. sta d ; jsr isup ; Check if the user pressed up. lda d ; Did the user press up? - bne esc_end ; Yes, so we're done. + bne @end ; Yes, so we're done. jsr isdown ; No, so check if the user pressed down. lda d ; Did the user press down? - bne esc_end ; Yes, so we're done. + bne @end ; Yes, so we're done. lda #0 ; No, so check if the user pressed left. jsr isleft ; lda d ; Did the user press left? - bne esc_end ; Yes, so we're done. + bne @end ; Yes, so we're done. jsr isright ; No, so check if the user pressed right. -esc_end: +@end: lda #0 ; Clear the D pseudo register. sta d ; - jmp printc_end ; We are done. + rts ; We are done. shftesc: lda status ; Skip the '['. lda kbd ; lda status ; Wait for the next character. - beq printc_end ; We have an error, so discard it, and go back to getting user input. + beq @end ; We have an error, so discard it, and go back to getting user input. lda kbd ; Get the escape code. sta c ; Store the escape code, until we need it. lda #0 ; Use the D pseudo register as a skip flag. sta d ; jsr isshftup ; Check if the user pressed shift+up. lda d ; Was it successful? - bne shftesc_end ; Yes, so we're done. + bne @end ; Yes, so we're done. jsr isshftdown ; No, so check if the user pressed shift+down. -shftesc_end: +@end: lda #0 ; Clear the D pseudo register. sta d ; - jmp printc_end ; We are done. + rts ; We are done. + isup: lda c ; Load the escape code into the accumulator. @@ -869,8 +875,14 @@ isup: @check2: lda c ; No, so load the escape code back into the accumulator. cmp #'A' ; Did the user press the up arrow key? - beq up ; Yes, so move the cursor up. - jmp @end ; No, so we're done. + beq @up ; Yes, so move the cursor up. + bra @end ; No, so we're done. +@up: + dec scr_row ; Move the cursor up a line. + jsr update_pos ; Update it's position. + lda #1 ; Tell the escape routine that we succeded. + sta d ; + rts ; We are done. @scroll: lda scr_str ; Are we at the top of the screen buffer? beq @end ; Yes, so we're done. @@ -878,9 +890,9 @@ isup: lda #1 ; Tell the escape routine that we were successful. sta d ; @end: -isup_done: rts ; End of isup. + isdown: lda c ; Load the escape code into the accumulator. cmp #'B' ; Did the user press the down arrow key? @@ -890,8 +902,14 @@ isdown: beq @scroll ; Yes, so scroll down. lda c ; No, so load the escape code back into the accumulator. cmp #'B' ; Did the user press the down arrow key? - beq down ; Yes, so move the cursor down. - jmp @end ; No, so we're done. + beq @down ; Yes, so move the cursor down. + bra @end ; No, so we're done. +@down: + inc scr_row ; Move the cursor down a line. + jsr update_pos ; Update it's position. + lda #1 ; Tell the escape routine that we succeded. + sta d ; + rts ; We are done. @scroll: lda scr_row ; Save the cursor's row number. sta scr_trow ; @@ -905,9 +923,9 @@ isdown: lda #1 ; Tell the escape routine that we were successful. sta d ; @end: -isdown_done: rts ; End of isdown. + isright: lda c ; Load the escape code into the accumulator. cmp #'C' ; Did the user press the right arrow key? @@ -915,20 +933,20 @@ isright: lda scr_col ; Yes, so start checking the x coordinate of the cursor. cmp #maxcol ; Is the cursor at the far right of the screen? beq @wrap ; Yes, so check if this is a wrapped line. - jmp right ; No, so move the cursor right, like normal. + bra @right ; No, so move the cursor right, like normal. @wrap: inc scr_row ; Move down a row. jsr getbit ; Is the current line, a wrapped line? bcs @incr ; Yes, so leave the cursor where it is. dec scr_row ; No, so move the cursor back up a row. - jmp @end2 ; We are done. + bra @end2 ; We are done. @scroll: lda scr_str ; Are we at the top of the screen buffer? beq @end ; Yes, so we're done. lda #1 ; No, so scroll down. sta wrapped ; Set the wrapped flag. jsr scrl_down ; Scroll down. - jmp @end ; We are done. + bra @end ; We are done. @incr: lda #0 ; Set the cursor to the far left of the screen. sta scr_col ; @@ -936,17 +954,21 @@ isright: cmp #maxrow ; Are we at the bottom of the screen? beq @end1 ; No, so we're done. bcs @scroll ; Yes, so check if we are scrolling down. - jmp @end1 ; No, so we're done. + bra @end1 ; No, so we're done. +@right: + inc scr_col ; Move the cursor right by one character. + jsr update_pos ; Update it's position. + rts ; End of isright. @end: dec scr_row ; Move back up a row. @end1: jsr update_pos ; Update the cursor position. @end2: -isright_dne: lda #0 ; Unset the wrapped flag. sta wrapped ; rts ; End of isright. + isleft: lda c ; Load the escape code into the accumulator. cmp #'C' ; Did the user press right? @@ -955,12 +977,12 @@ isleft: beq @wrap ; Yes, so start checking if this is a wrapped line. lda c ; No, so load the escape code back into the accumulator. cmp #'D' ; Did the user press the left arrow key? - beq left ; Yes, so move the cursor left. - jmp @end1 ; No, so we're done. + beq @left ; Yes, so move the cursor left. + bra @end1 ; No, so we're done. @wrap: jsr getbit ; Is the current line, a wrapped line? bcs @decr ; Yes, so wrap back up a line. - jmp @end1 ; No, so we're done. + bra @end1 ; No, so we're done. @decr: lda scr_row ; Is the cursor at the top of the screen? beq @decr1 ; Yes, so don't move up a line. @@ -974,81 +996,60 @@ isleft: sta d ; lda scr_row ; Are we at the top of the screen? beq @scroll ; Yes, so check if we need to scroll. - jmp @end ; No, so we're done. + bra @end ; No, so we're done. @scroll: lda wrapped ; Was the wrapped flag set somewhere else? bne @end ; Yes so we're done. lda scr_str ; No, but are we actually at the top of the screen buffer? beq @end1 ; Yes, so we're done. jsr scrl_up ; No, so scroll up. - jmp @end1 ; We are done. + bra @end1 ; We are done. +@left: + dec scr_col ; Move the cursor left a character. + jsr update_pos ; Update it's position. + lda #1 ; Tell the escape routine that we succeded. + sta d ; + rts ; We are done @end: jsr update_pos ; Update the cursor position. @end1: -isleft_done: lda #0 ; Unset the wrapped flag. sta wrapped ; rts ; End of isleft. -up: - dec scr_row ; Move the cursor up a line. - jsr update_pos ; Update it's position. - lda #1 ; Tell the escape routine that we succeded. - sta d ; - jmp isup_done ; We are done. -down: - inc scr_row ; Move the cursor down a line. - jsr update_pos ; Update it's position. - lda #1 ; Tell the escape routine that we succeded. - sta d ; - jmp isdown_done ; We are done. -right: - inc scr_col ; Move the cursor right by one character. - jsr update_pos ; Update it's position. - jmp isright_dne ; We are done. -left: - dec scr_col ; Move the cursor left a character. - jsr update_pos ; Update it's position. - lda #1 ; Tell the escape routine that we succeded. - sta d ; - jmp isleft_done ; We are done isshftup: lda c ; Load the escape code back into the accumulator. cmp #'A' ; Did the user press the up arrow key? - bne shftup_done ; + bne @end ; lda #1 ; sta d ; lda scr_str ; - beq shftup_done ; - jmp shftup ; -shftup_done: + beq @end ; +@shftup: + jsr scrl_up ; + lda #1 ; + sta d ; +@end: rts ; + isshftdown: lda c ; Load the escape code back into the accumulator. cmp #'B' ; Did the user press the down arrow key? - bne shftdn_done ; + bne @end ; lda #1 ; sta d ; lda scr_end ; cmp #71 ; - bcs shftdn_done ; - jmp shftdown ; -shftdn_done: - rts ; - -shftup: - jsr scrl_up ; - lda #1 ; - sta d ; - jmp shftup_done ; - -shftdown: + bcs @end ; +@shftdown: jsr scrl_down ; lda #1 ; sta d ; - jmp shftdn_done ; +@end: + rts ; + update_pos: ldb #1 ; Set the F pseudo register to one, to fix some bugs. @@ -1074,7 +1075,7 @@ update_pos: getrow: lda scr_row ; Get the cursor's y coordinate. - jmp bcd ; Convert it to BCD. + bra bcd ; Convert it to BCD. getcol: lda #';' ; Print ';' sta scr ; to the screen. @@ -1098,23 +1099,23 @@ scrl_down: lda #'T' ; Print 'T' sta scr ; to the screen, and end the escape sequence. lda scr_row ; Get the cursor's line number. - pha #1 ; Save it in the stack. + pha ; Save it in the stack. lda wrapped ; Was the wrapped flag set? beq @save ; Yes, so save the cursor position. @redraw: jsr rdrw_row ; No, so redraw this row. lda wrapped ; Was the wrapped flag set? beq @load ; Yes, so load the previous cursor position back. - jmp @end ; No, so we're done. + bra @end ; No, so we're done. @save: lda scr_col ; Get the cursor's column number. - pha #1 ; Save it in the stack. - jmp @redraw ; Start redrawing the current row. + pha ; Save it in the stack. + bra @redraw ; Start redrawing the current row. @load: - pla #1 ; Get the cursor's previous column number back. + pla ; Get the cursor's previous column number back. sta scr_col ; @end: - pla #1 ; Get the cursor's previous line number back. + pla ; Get the cursor's previous line number back. sta scr_row ; jsr update_pos ; Update the cursor's position. lda #0 ; Clear the wrapped flag. @@ -1132,15 +1133,15 @@ scrl_up: lda #'S' ; Print 'S' sta scr ; to the screen, and end the escape sequence. lda scr_row ; - pha #1 ; + pha ; lda scr_col ; - pha #1 ; + pha ; lda #0 ; sta scr_row ; jsr rdrw_row ; - pla #1 ; + pla ; sta scr_col ; - pla #1 ; + pla ; sta scr_row ; jsr update_pos ; @end: @@ -1164,11 +1165,11 @@ rdrw_row: lda scr_col ; cmp #maxcol+1 ; bcs @end ; - jmp @loop ; + bra @loop ; @skip: lda #' ' ; sta scr ; to the screen. - jmp @incr1 ; + bra @incr1 ; @end: lda #0 ; sta scr_col ; @@ -1178,11 +1179,11 @@ rdrw_row: rdrw_ln: lda scr_row ; - pha #1 ; + pha ; lda f ; sta scr_row ; lda scr_col ; - pha #1 ; + pha ; jsr update_pos ; @loop: lda scr_row ; @@ -1193,11 +1194,11 @@ rdrw_ln: jsr rdrw_row ; @incr: inc scr_row ; - jmp @loop ; + bra @loop ; @end: - pla #1 ; + pla ; sta scr_col ; - pla #1 ; + pla ; sta scr_row ; jsr update_pos ; lda #0 ; @@ -1213,11 +1214,11 @@ set_ptr: @ptr1: stb.q ptr ; Reset the first pointer. sta.q ptr ; No, so set the first pointer. - jmp @end ; We are done. + bra @end ; We are done. @ptr2: stb.q ptr2 ; Reset the second pointer. sta.q ptr2 ; Set the second pointer. - jmp @end ; We are done. + bra @end ; We are done. @ptr3: stb.q ptr3 ; Reset the third pointer. sta.q ptr3 ; Set the third pointer. diff --git a/programs/sub-suite/utils.s b/programs/sub-suite/utils.s index 580e4da..a66f036 100644 --- a/programs/sub-suite/utils.s +++ b/programs/sub-suite/utils.s @@ -42,22 +42,22 @@ print_lo: sta idx3 ; Clear the string index. @loop: ldx #2 ; Set digit count to 2. - pha #1 ; Preserve the nibble offset. + pha ; Preserve the nibble offset. jsr print_hex ; Print the low nibble offset. lda.w (ptr3) ; Get the two digits. jsr charcpy ; Copy the first digit. lsr #8 ; Copy the next digit. jsr charcpy ; - pla #1 ; Get the nibble offset back. + pla ; Get the nibble offset back. inc ; Increment the offset. cmp #$10 ; Are we at the last offset? bcs @end ; Yes, so we're done. @loop1: - pha #1 ; No, so preserve the nibble offset. + pha ; No, so preserve the nibble offset. lda #' ' ; Add a space to the string buffer. jsr charcpy ; - pla #1 ; Get the nibble offset back. - jmp @loop ; Keep looping. + pla ; Get the nibble offset back. + bra @loop ; Keep looping. @end: inx ; Increment the index by one. lda #0 ; Null terminate the string buffer. @@ -69,7 +69,7 @@ print_lo: print_chunk: ldx #0 ; Reset X. - phy #2 ; Preserve the screen buffer index. + phy.w ; Preserve the screen buffer index. txy ; Copy the byte index to it. @loop: and #0 ; Reset A. @@ -85,9 +85,9 @@ print_chunk: beq @end ; Yes, so we're done. lda #' ' ; No, so add a soace to the string buffer. jsr charcpy ; - jmp @loop ; Keep looping. + bra @loop ; Keep looping. @end: - ply #2 ; Get the screen buffer index back. + ply.w ; Get the screen buffer index back. inx ; Increment the index by one. and #0 ; Null terminate the string. sta strbuf, x ; @@ -97,7 +97,7 @@ print_chunk: print_hex: - pha #8 ; Preserve the hex value. + pha.q ; Preserve the hex value. and #0 ; Reset A. ldb #1 ; Set the second pointer lda.w #hex_char ; to the start of hex character table. @@ -108,37 +108,79 @@ print_hex: adc #$10 ; jsr set_ptr ; ldb #0 ; Reset B. - pla #8 ; Get the hex value back. + pla.q ; Get the hex value back. @loop: - pha #8 ; Preserve the hex value. + pha.q ; Preserve the hex value. and #$F ; Mask the lowest nibble. - phy #2 ; Preserve the screen buffer position. + phy.w ; Preserve the screen buffer position. tay ; Get the index for the hex digit. lda (ptr2), y ; Get the hex digit. dec ptr3 ; Decrement the string pointer. sta (ptr3) ; Save the hex digit character in the string. - ply #2 ; Get back the screen buffer position. - pla #8 ; Get the hex value back. + ply.w ; Get back the screen buffer position. + pla.q ; Get the hex value back. @isauto: cpx #1 ; Is the digit count less than one? bcc @auto ; Yes, so don't decrement the digit count. dex ; No, but was the digit count zero, when decremented? beq @end ; Yes, so we're done. - jmp @next ; No, so get the next nibble. + bra @next ; No, so get the next nibble. @auto: ldb #1 ; Enable auto digit count. @next: lsr #4 ; Is the next nibble, a zero? beq @isauto1 ; Yes, so check if auto digit count is enabled. - jmp @loop ; No, so print the next digit. + bra @loop ; No, so print the next digit. @isauto1: cpb #1 ; Is auto digit count enabled? beq @end ; Yes, so we're done. - jmp @loop ; No, so keep printing more digits. + bra @loop ; No, so keep printing more digits. @end: rts ; End of print_hex. +strtoull: + phy.w ; Preserve Y. + sta f ; Save the base. + and #0 ; Reset A. + tay ; Reset Y. + sta.q valbuf ; Reset the value buffer. +@loop: + lda (ptr3), y ; Get a character from the string. + pha ; Preserve the character. + jsr isdigit ; Is this character, a digit? + pla ; Get the character back. + bne @digit ; Yes, so extract the value from it. + jsr tolower ; No, so convert the character to lowercase. + pha ; Preserve the character. + jsr islower ; Is this an alphabetical character? + pla ; Get the character back. + beq @end ; No, so we're done. +@alpha: + sec ; Yes, so prepare for a non borrowing subtract. + sbc #'a'-10 ; Get the numeric value from this digit. + bra @chkbase ; Check if the value matches the base. +@digit: + sec ; Prepare for a non borrowing subtract. + sbc #'0' ; Get the numeric value from this digit. +@chkbase: + cmp f ; Does the value match the base? + bcs @end ; No, so we're done. +@addval: + tab ; Save the digit value. + lda.q valbuf ; Get the value from the value buffer. + mul f ; Multiply the value by the base. + clc ; Prepare for a non carrying add. + aab ; Add the digit value to the total value. + sta.q valbuf ; Place the value in the value buffer. + iny ; Increment the string index. + bra @loop ; Keep looping. +@end: + ply.w ; Get Y back. + ldb #0 ; Reset B. + rts ; End of strtoull. + + charcpy: ldx idx3 ; Get the string index. sta strbuf, x ; Save it in the string buffer. @@ -152,16 +194,16 @@ strlen: deb ; Reset B. tba ; Reset A. tax ; Reset X. - phy #2 ; Preserve Y. + phy.w ; Preserve Y. txy ; Reset Y. @loop: lda (ptr2), y ; Are we at the end of the string? beq @end ; Yes, so we're done. iny ; No, so increment the index. - jmp @loop ; Keep looping. + bra @loop ; Keep looping. @end: tyx ; Return the length in X. - ply #2 ; Get the preserved value back. + ply.w ; Get the preserved value back. rts ; End of strlen. @@ -170,7 +212,7 @@ strcmp: jsr set_ptr ; to the passed pointer. deb ; Reset B. tba ; Reset A. - phy #2 ; Preserve Y. + phy.w ; Preserve Y. tay ; Reset Y. @loop: ldb #0 ; Set the islong flag to false. @@ -180,14 +222,14 @@ strcmp: cmp (ptr2), y ; Is the character of both strings, the same? bne cmpr ; No, so check if we're too short, or too long. iny ; Yes, so increment the index. - jmp @loop ; Keep looping. + bra @loop ; Keep looping. strcasecmp: ldb #1 ; Set the second pointer jsr set_ptr ; to the passed pointer. deb ; Reset B. tba ; Reset A. - phy #2 ; Preserve Y. + phy.w ; Preserve Y. tay ; Reset Y. @loop: ldb #0 ; Set the islong flag to false. @@ -195,17 +237,17 @@ strcasecmp: beq cmpr ; Yes, so check if we're too short, or too long. ldb #1 ; No, so set the islong flag to true. jsr tolower ; Convert the character of string 1 to lowercase. - phb #1 ; Preserve the islong flag. - pha #1 ; Preserve the converted character. + phb ; Preserve the islong flag. + pha ; Preserve the converted character. lda (ptr2), y ; Get the character of the second string. jsr tolower ; Convert the character of string 2 to lowercase. tab ; Place it in B. - pla #1 ; Get the character of string 1 back. + pla ; Get the character of string 1 back. cab ; Is the character of both strings, the same? - plb #1 ; Get the islong flag back. + plb ; Get the islong flag back. bne cmpr ; No, so check if we're too short, or too long. iny ; Yes, so increment the index. - jmp @loop ; Keep looping. + bra @loop ; Keep looping. cmpr: lda (ptr2), y ; Are we at the end of the second string? @@ -218,14 +260,14 @@ cmpr: bne @equ ; No, so return 0. @long: lda #1 ; Yes, so return 1. - jmp @end ; We are done. + bra @end ; We are done. @equ: lda #0 ; Return 0. - jmp @end ; We are done. + bra @end ; We are done. @short: lda #$FF ; Return -1. @end: - ply #2 ; Get the preserved value back. + ply.w ; Get the preserved value back. rts ; End of strcmp. @@ -237,16 +279,16 @@ isdigit: bcs @false ; No, so return false. @true: lda #1 ; Yes, so return true. - jmp @end ; We are done. + bra @end ; We are done. @false: lda #0 ; Return false. @end: rts ; End of isdigit. isxdigit: - pha #1 ; Preserve the character. + pha ; Preserve the character. jsr isdigit ; Is this character, a decimal digit? - pla #1 ; Get the character back. + pla ; Get the character back. bne @true ; Yes, so return true. @alpha: sec ; No, so prepare for a non carrying subtract. @@ -257,7 +299,7 @@ isxdigit: bcs @false ; No, so return false. @true: lda #1 ; Yes, so return true. - jmp @end ; We are done. + bra @end ; We are done. @false: lda #0 ; Return false. @end: @@ -267,7 +309,7 @@ isxdigit: isupper: sec ; Prepare for a non carrying subtraction. sbc #'A' ; Subtract $41 from the passed character. - jmp isletter ; Check if it's less than 26. + bra isletter ; Check if it's less than 26. islower: sec ; Prepare for a non carrying subtraction. sbc #'a' ; Subtract $61 from the passed character. @@ -277,7 +319,7 @@ isletter: bcs @false ; No, so return false. @true: lda #1 ; Yes, so return true. - jmp @end ; We are done. + bra @end ; We are done. @false: lda #0 ; Return false. @end: @@ -285,9 +327,9 @@ isletter: tolower: - pha #1 ; Preserve the character. + pha ; Preserve the character. jsr isupper ; Is this character, an uppercase character? - pla #1 ; Get the character back. + pla ; Get the character back. beq @end ; No, so we're done. @lower: ora #$20 ; Yes, so convert it to lowercase. @@ -296,9 +338,9 @@ tolower: toupper: - pha #1 ; Preserve the character. + pha ; Preserve the character. jsr islower ; Is this character, a lowercase character? - pla #1 ; Get the character back. + pla ; Get the character back. beq @end ; No, so we're done. @upper: and #$5F ; Yes, so convert it to uppercase. @@ -314,7 +356,7 @@ isdelm2: cab ; Are they the same? beq @r1 ; Yes, so return 1. inx ; No, so increment the table index. - jmp @loop ; Keep looping. + bra @loop ; Keep looping. @other: ldx #0 ; Reset X. cmp #0 ; Is this a null terminator? @@ -344,7 +386,7 @@ isdelm: cab ; Are they the same? beq @rshft ; Yes, so return 1 << index. inx ; No, so increment the table index. - jmp @loop ; Keep looping. + bra @loop ; Keep looping. @other: ldx #0 ; Reset X. cmp #0 ; Is this a null terminator? @@ -373,7 +415,7 @@ get_ptok: cab ; Are they the same? beq @rtab ; Yes, so return X. inx ; No, so increment the table index. - jmp @loop ; Keep looping. + bra @loop ; Keep looping. @rtab: txa ; Return X. rts ; End of get_ptok. |