7 files changed, 491 insertions, 70 deletions

diff --git a/programs/sub-suite/declare.s b/programs/sub-suite/declare.s
index 183d09d..6a8c90f 100644
--- a/programs/sub-suite/declare.s
+++ b/programs/sub-suite/declare.s
@@ -68,6 +68,19 @@
 	op	.byte	; Base value used to get the actual opcode.
 .endstruct
 
+; Free memory block struct, used by malloc.
+.struct fblk
+	size	.qword	; Size of free memory block.
+	next	.qword	; Pointer to next free block.
+	prev	.qword	; Pointer to previous free block.
+.endstruct
+
+; Used memory block struct, used by malloc.
+.struct ublk
+	size	.qword	; Size of used memory block.
+	start	.qword	; Starting address of memory block.
+.endstruct
+
 
 ; Enums.
 
@@ -81,8 +94,17 @@ step	= $110		; Enables clock stepping, when set.
 maxrow	= 23		; Screen's row count.
 maxcol	= 79		; Screen's column count.
 
-MAX_SYM = $800		; Max symbol size.
-OPNUM	= 74		; Instruction count.
+; Table sizes.
+SCRSIZE	= $2000		; Screen buffer size, in bytes.
+CMDSIZE	= $400		; Command buffer size, in bytes.
+LWSIZE	= $1000		; Linewrap table size, in bytes.
+
+; Magic number used by findramend.
+MAGIC	= $AA
+
+; Heap related values.
+HEAPORG	= $30000	; Starting point of the heap.
+
 
 ; Directives.
 DIR_ORG     =  0	; Origin.
@@ -164,23 +186,10 @@ IMPL  = 1 << 10		; Implied.
 INDX2 = 1 << 11		; Special case of INDX that uses the indirect table.
 ZM2   = 1 << 12		; Special case of Zero Matrix used by JMP, and JSR.
 
-
+OPNUM	= 74		; Instruction count.
 
 ; RAM declarations.
 
-; Linewrap table.
-.org $30000
-bitabl:
-	.res $1000
-
-; Screen buffer.
-buffer:
-	.res $2000
-
-; Command buffer.
-cmd_buf:
-	.res $400
-
 ; Screen variables.
 .org 0
 scr_row:
@@ -238,10 +247,7 @@ ptr3:
 	.res 8
 
 
-; Token table.
 .org $20000
-tokline:
-	.res $400
 
 ; Program Counter.
 prg_cnt:
@@ -327,14 +333,54 @@ lex_type:
 lexeme:
 	.res $100
 
+; Size of the heap.
+heapsize:
+	.res 8
+
+; Start of the heap.
+heapstr:
+	.res 8
+
+; End of the heap.
+heapend:
+	.res 8
+
+; Current top of the heap.
+heapptr:
+	.res 8
+
+; First heap entry.
+heapf:
+	.res 8
+
+; Last heap entry.
+heapl:
+	.res 8
+
+; Linewrap table.
+bitabl:
+	.res 8
+
+; Screen buffer.
+buffer:
+	.res 8
+
+; Command buffer.
+cmd_buf:
+	.res 8
+
+; Token table.
+tokline:
+	.res 8
+
 ; Symbol table.
 symbol:
-	.res $8000
+	.res 8
 
 ; Fixup table.
 ; Fixups are unresolved symbols.
 fixup:
-	.res $2000
+	.res 8
 
 ; ROM data declarations.
 
diff --git a/programs/sub-suite/lexer.s b/programs/sub-suite/lexer.s
index 50bf21e..fc47f10 100644
--- a/programs/sub-suite/lexer.s
+++ b/programs/sub-suite/lexer.s
@@ -17,16 +17,16 @@ lex:
 ;	pha 		; Preserve the character.
 ;	jsr isdigit	; Is this character a digit?
 ;	pla 		; Get the character back.
-@getline:
-	ldb #1		; Set the second pointer
-	lda.q lline	; to the last line.
-	jsr set_ptr	;
-	ldy #ln.next	; Set the index to the next line pointer.
-	lda.q (ptr2), y	; Get the next line.
-	jsr set_ptr	; Set the second pointer to the next line.
-	sta.q cline	; Make it the current line.
-	and #0		; Reset A.
-	tay		; Reset Y.
+;@getline:
+;	ldb #1		; Set the second pointer
+;	lda.q lline	; to the last line.
+;	jsr set_ptr	;
+;	ldy #ln.next	; Set the index to the next line pointer.
+;	lda.q (ptr2), y	; Get the next line.
+;	jsr set_ptr	; Set the second pointer to the next line.
+;	sta.q cline	; Make it the current line.
+;	and #0		; Reset A.
+;	tay		; Reset Y.
 @loop:
 	ldy.w idx0	; Get the string index.
 	lda (ptr), y	; Get a character from the line.
@@ -396,7 +396,7 @@ set_lexptr:
 set_cmdbuf:
 	and #0		; Reset A.
 	tab		; Reset B.
-	lda.d #cmd_buf	; to the command buffer.
+	lda.q cmd_buf	; Set the first pointer to the command buffer.
 	jsr set_ptr	;
 	and #0		; Reset A.
 	tab		; Reset B.
diff --git a/programs/sub-suite/libc.s b/programs/sub-suite/libc.s
index d13d983..18c10db 100644
--- a/programs/sub-suite/libc.s
+++ b/programs/sub-suite/libc.s
@@ -1,12 +1,12 @@
 ; Simple libc implementation for the SuB Suite
 
 strtoull:
-	phy.w		; Preserve Y.
+	phy.q		; Preserve Y.
 	and #0		; Reset A.
 	tay		; Reset Y.
 	pha.q		; Reset the value buffer.
 @loop:
-	lda (sp+20), y	; Get a character from the string.
+	lda (sp+26), y	; Get a character from the string.
 	pha		; Preserve the character.
 	jsr isdigit	; Is this character, a digit?
 	pla		; Get the character back.
@@ -24,12 +24,12 @@ strtoull:
 	sec		; Prepare for a non borrowing subtract.
 	sbc #'0'	; Get the numeric value from this digit.
 @chkbase:
-	cmp sp+19	; Does the value match the base?
+	cmp sp+25	; Does the value match the base?
 	bcs @end	; No, so we're done.
 @addval:
 	tab		; Save the digit value.
 	lda.q sp+1	; Get the value from the value buffer.
-	mul sp+19	; Multiply the value by the base.
+	mul sp+25	; Multiply the value by the base.
 	clc		; Prepare for a non carrying add.
 	adc b		; Add the digit value to the total value.
 	sta.q sp+1	; Place the value in the value buffer.
@@ -38,42 +38,39 @@ strtoull:
 	bra @loop	; Keep looping.
 @end:
 	pla.q		; Get the value buffer back.
-	ply.w		; Get Y back.
+	ply.q		; Get Y back.
 	ldb #0		; Reset B.
 	rts		; End of strtoull.
 
 
 strlen:
+	phy.q		; Preserve Y.
 	pha.q		; Set the temp variable to the argument.
-	ldb #0		; Reset B.
-	tba		; Reset A.
-	tax		; Reset X.
-	phy.w		; Preserve Y.
-	txy		; Reset Y.
+	and #0		; Reset A.
+	tay		; Reset Y.
 @loop:
-	lda (sp+3), y	; Are we at the end of the string?
+	lda (sp+1), y	; Are we at the end of the string?
 	beq @end	; Yes, so we're done.
 	iny		; No, so increment the index.
 	bra @loop	; Keep looping.
 @end:
-	tyx		; Return the length in X.
-	ply.w		; Get the preserved value back.
 	pla.q		; Get the argument back.
-	txa		; Get the return value.
+	tya		; Get the return value.
+	ply.q		; Get the preserved value back.
 	rts		; End of strlen.
 
 
 strcmp:
 	ldb #0		; Reset B.
 	tba		; Reset A.
-	phy.w		; Preserve Y.
+	phy.q		; Preserve Y.
 	tay		; Reset Y.
 @loop:
 	ldb #0		; Set the islong flag to false.
-	lda (sp+19), y	; Are we at the end of the first string?
+	lda (sp+25), y	; Are we at the end of the first string?
 	beq cmpr	; Yes, so check if we're too short, or too long.
 	ldb #1		; No, so set the islong flag to true.
-	cmp (sp+11), y	; Is the character of both strings, the same?
+	cmp (sp+19), 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.
 	bra @loop	; Keep looping.
@@ -82,17 +79,17 @@ strccmp:
 strcasecmp:
 	ldb #0		; Reset B.
 	tba		; Reset A.
-	phy.w		; Preserve Y.
+	phy.q		; Preserve Y.
 	tay		; Reset Y.
 @loop:
 	ldb #0		; Set the islong flag to false.
-	lda (sp+19), y	; Are we at the end of the first string?
+	lda (sp+25), y	; Are we at the end of the first string?
 	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		; Preserve the islong flag.
 	pha		; Preserve the converted character.
-	lda (sp+13), y	; Get the character of the second string.
+	lda (sp+19), y	; Get the character of the second string.
 	jsr tolower	; Convert the character of string 2 to lowercase.
 	tab		; Place it in B.
 	pla		; Get the character of string 1 back.
@@ -103,10 +100,10 @@ strcasecmp:
 	bra @loop	; Keep looping.
 
 cmpr:
-	lda (sp+11), y	; Are we at the end of the second string?
+	lda (sp+17), y	; Are we at the end of the second string?
 	beq @islong	; Yes, so check the islong flag.
 @isshort:
-	lda (sp+19), y	; No, but are we at the end of the first string?
+	lda (sp+25), y	; No, but are we at the end of the first string?
 	beq @short	; Yes, so return -1.
 @islong:
 	cpb #1		; Is the islong flag true?
@@ -120,7 +117,7 @@ cmpr:
 @short:
 	lda #$FF	; Return -1.
 @end:
-	ply.w		; Get the preserved value back.
+	ply.q		; Get the preserved value back.
 	rts		; End of cmpr.
 
 
@@ -199,3 +196,315 @@ toupper:
 	and #$5F	; Yes, so convert it to uppercase.
 @end:
 	rts		; End of toupper.
+
+
+; malloc: Dynamically allocate memory.
+; Input: A = size in bytes to allocate.
+; Output: A = Pointer to allocated memory.
+; Caller preserved registers: none.
+; Callie preserved registers: Y.
+
+malloc:
+	phy.q		; Preserve Y.
+	pha.q		; Preserve the size.
+	and #0		; Reset A.
+	tay		; Reset Y.
+	pha.q		; Create two more local variables.
+	pha.q		;
+	lda.q sp+17	; Get the size.
+	ora.d sp+21	; Is the size zero?
+	beq @end	; Yes, so we're done.
+	lda.q sp+17	; No, so get back the size.
+	clc		; Prepare for a non carrying add.
+	adc #ublk	; Add the size of a used block struct, to the size.
+	sta.q sp+17	; Set the actual size.
+	lda.q heapf	; Get the first heap entry.
+	sta.q sp+9	; Save it in the second local variable.
+	bra @checkblk	; Check the block.
+@findfblk:
+	ldy #fblk.size	; Get the size of this free block.
+	lda.q (sp+9), y	;
+	sec		; Prepare for a non borrowing subtract.
+	sbc.q sp+17	; Subtract the size of this free block, with the passed size.
+	bcs @blkfound	; The result is less than, or equal to the free size, so return the found block.
+	ldy #fblk.next	; Get the next free block.
+	lda.q (sp+9), y	;
+	sta.q sp+9	; Set the current free block, to the next free block.
+@checkblk:
+	ora.d sp+13	; Is the address of this block, zero?
+	bne @findfblk	; No, so keep looping.
+	lda.q heapptr	; Yes, so get the current top of the heap.
+	clc		; Prepare for a non carrying add.
+	adc.q sp+17	; Add the top of the heap, with the passed size.
+	bcs @outofspace	; The result overflowed, so return zero.
+	cmp.q heapend	; Is the top of the heap, less than, or equal to the max heap size?
+	bcc @inctop	; Yes, so increase the current top of the heap.
+	beq @inctop	;
+@outofspace:
+	and #0		; Return zero.
+	bra @end	; We are done.
+@inctop:
+	pha.q		; Preserve heapptr + size.
+	lda.q heapptr	; Get the previous top of the heap.
+	sta.q sp+17	; Set the current free block to the previous top of the heap.
+	pla.q		; Restore heapptr + size.
+	sta.q heapptr	; Increment the current top of the heap by the passed size.
+	bra @setsize	; Set the size, and start address into the used space of the block.
+@blkfound:
+	bne @sliceblk	; The block is big enough to slice.
+	cmp #fblk	; Is the block big enough to slice?
+	bcs @sliceblk	; Yes, so slice the block.
+	ldy #fblk.prev	; No, so get the previous free block.
+	lda.q (sp+9), y	;
+	sta.q sp+1	; Set the third local variable, to the previous free block.
+	ora.d sp+5	; Is the previous block, set to zero?
+	beq @setheapf	; Yes, so set the first block.
+	ldy #fblk.next	; No, so get the next free block.
+	lda.q (sp+9), y	;
+	sta.q (sp+1), y	; Set the previous block's next block, to the next block.
+	bra @chknxtblk	; Check the next block.
+@setheapf:
+	lda.q (sp+9), y	; Get the next block.
+	sta.q heapf	; Set the first heap entry to it.
+@chknxtblk:
+	lda.q (sp+9), y	; Get the next free block.
+	sta.q sp+1	; Set the third local variable to the next free block.
+	ora.d sp+5	; Is the next block, zero?
+	beq @setheapl	; Yes, so set the least heap entry.
+	ldy #fblk.prev	; No, so get the current previous block.
+	lda.q (sp+9), y	;
+	sta.q (sp+1), y	; Set the next block's previous block to the current previous block.
+	bra @retptr	; Return the pointer.
+@setheapl:
+	ldy #fblk.prev	; Get the current previous block.
+	lda.q (sp+9), y	;
+	sta.q heapl	; Set the last heap entry to the current previous block.
+	bra @retptr	; Return the pointer.
+@sliceblk:
+	ldy #fblk.size	; Get the size of the current block.
+	lda.q (sp+9). y	;
+	sec		; Prepare for a non borrowing subtract.
+	sbc.q sp+17	; Subtract the current block's size from the passed size.
+	sta.q (sp+9), y	; Set the current block's size to the subtracted size.
+	clc		; Prepare for a non carrying add.
+	adc.q sp+9	; Add the current block's size to the pointer of the current block.
+	sta.q sp+9	; Set the current block to the space above it (return value).
+@setsize:
+	ldy #ublk.size	; Start setting the used block's size, to the passed size.
+	lda.q sp+17	; Get the passed size.
+	sta.q (sp+9), y	; Set the used block's size to the passed size.
+@retptr:
+	ldy #ublk.start	; Start setting the used block's starting address, to the used block.
+	lda.q sp+9	; Get the used block.
+	sta.q (sp+9), y	; Set the used block's starting address, to the used block.
+	clc		; Prepare for a non carrying add.
+	adc #ublk	; Return the pointer to the real memory block.
+@end:
+	ply.q		; Clean up the stack frame.
+	ply.q		;
+	ply.q		;
+	ply.q		; Restore Y.
+	rts		; End of malloc.
+
+
+; free: Free allocated memory.
+; Input: A = Pointer to allocated memory.
+; Output: none.
+; Caller preserved registers: none.
+; Callie preserved registers: A, B, Y.
+
+free:
+	pha.q		; Preserve A.
+	phb.q		; Preserve B.
+	phy.q		; Preserve Y.
+	pha.q		; Push the pointer argument to the stack.
+	and #0		; Reset A.
+	tay		; Reset Y.
+	pha.q		; Add 3 more local variables.
+	pha.q		;
+	pha.q		;
+	lda.q sp+25	; Get the passed pointer.
+	ora.d sp+29	; Is the passed pointer NULL?
+	bne @getrealblk	; No, so get the real block.
+	bra @end	; Yes, so we're done.
+@getrealblk:
+	lda.q sp+25	; Get the passed pointer.
+	sec		; Prepare for a non borrowing subtract.
+	sbc #8		; Move the passed pointer back by one.
+	sta.q sp+25	; Set the first local variable to the start of the used block.
+	lda.q (sp+25)	; Get the real block address.
+	sta.q sp+25	; Set the passed pointer to the start of the real block.
+	ldy #ublk.size	; Get the size of the real block.
+	lda.q (sp+25), y;
+	sta.q sp+17	; Save the size of the real block.
+	clc		; Prepare for a non carrying add.
+	adc.q sp+25	; Add the size of the real block with the start of the real block.
+	cmp.q heapptr	; Is this block on top of the heap?
+	bne @heapadd	; No, so add it to the free block list.
+@dectop:
+	lda.q sp+25	; Get the block.
+	sta.q heapptr	; Set the top of the heap to it.
+@chklastblk:
+	lda.q heapl	; Get the last free list entry.
+	sta.q sp+17	; Copy it into the second local variable.
+	ora.d sp+21	; Is the free list empty?
+	beq @end	; Yes, so we're done.
+	lda.q sp+17	; No, so Get the last free list entry.
+	ldy #fblk.size	; Get the size of the block.
+	lda.q (sp+17), y;
+	clc		; Prepare for a non carrying add.
+	adc.q sp+17	; Add the size of the block, with the address of the block entry.
+	cmp.q heapptr	; Is the last block on top of the heap?
+	bne @end	; No, so we're done.
+@delblk:
+	lda.q sp+17	; Yes, so remove the last block.
+	sta.q heapptr	;
+@correctblk:
+	ldy #fblk.prev	; Get the previous block.
+	lda.q (sp+17), y;
+	sta.q sp+25	; Save the previous block for now.
+	sta.q heapl	; Set the last block to the previous block.
+	ora.d sp+29	; Is the previous block non NULL?
+	bne @delnxtblk	; Yes, so delete the next block.
+	sta.q heapf	; No, so empty the free list.
+	bra @end	; We are done.
+@delnxtblk:
+	and #0		; Reset A.
+	ldy #fblk.next	; Delete the next block.
+	sta.q (sp+25), y;
+@end:
+	pla.q		; Clean up the stack frame.
+	pla.q		;
+	pla.q		;
+	pla.q		;
+	ply.q		; Restore Y.
+	plb.q		; Restore B.
+	pla.q		; Restore A.
+	rts		; End of free.
+
+
+@heapadd:
+	lda.q heapf	; Get the first block.
+	sta.q sp+9	; Copy it into the third local variable.
+	ora.d sp+13	; Is the free list empty?
+	bne @srchflst	; No, so start searching the free list.
+@empty:
+	ldy #fblk.next	; Clear the next block.
+	sta.q (sp+25), y;
+	ldy #fblk.prev	; Clear the previous block.
+	sta.q (sp+25), y;
+	lda.q sp+25	; Reset A.
+	sta.q heapf	; Clear the first block entry.
+	sta.q heapf	; Clear the last block entry.
+	bra @end	; We are done.
+@srchflst:
+	and #0		; Reset A.
+	sta.q sp+1	; Reset the left pointer.
+	ldy #fblk.next	; Setup for the loop.
+@loop:
+	lda.q sp+9	; Get the right pointer.
+	cmp.q sp+25	; Is the right pointer at, or below the current block?
+	beq @nextright	; Yes, so get the next right pointer.
+	bcs @chkrmerge	; No, so do the right block merge.
+@nextright:
+	sta.q sp+1	; Set the left pointer, to the right pointer.
+	lda.q (sp+9), y	; Get the next right pointer.
+	sta.q sp+9	; Set the current right pointer to the next right pointer.
+	ora.d sp+13	; Is the next right pointer NULL?
+	bne @loop	; No, so keep looping.
+@st_lmerge2:
+	sta.q (sp+25), y; Clear the next block.
+	lda.q sp+25	; Get the current block.
+	sta.q heapl	; Set the last free block entry to it.
+	bra @chklmerge2	; Do the left block merge.
+@chkrmerge:
+	lda.q sp+25	; Get the current block.
+	clc		; Prepare for a non carrying add.
+	adc.q sp+17	; Add the size of the current block, to the current block.
+	cmp.q sp+9	; Is the right pointer NULL?
+	bne @normerge	; No, so don't merge the right block.
+@rmerge:
+	ldy #fblk.size	: Get the size of the right pointer.
+	lda.q sp+17	; Get the size of the current block.
+	clc		; Prepare for a non carrying add.
+	adc.q (sp+9), y	; Add the size of the current block, with the size of the right pointer.
+	sta.q (sp+25), y; Set the size of the current block, to the new size.
+@rmerge2:
+	ldy #fblk.next	; Get the next right pointer.
+	lda.q (sp+9), y	;
+	sta.q (sp+25), y; Set the next block, to the next right pointer.
+	sta.q sp+17	; Save the next block in the second local variable.
+	ora.d sp+21	; Is the next block NULL?
+	beq @setheapl	; Yes, so set the last block.
+@setprev:
+	lda.q sp+25	; Get the current block.
+	ldy #fblk.prev	; Set the previous block to the current block.
+	sta.q (sp+17), y;
+	bra @chklmerge	; Do the left block merge.
+@setheapl:
+	lda.q sp+25	; Get the current block.
+	sta.q heapl	; Set the last block to the current block.
+	bra @chklmerge	; Do the left block merge.
+@normerge:
+	lda.q sp+9	; Get the right pointer.
+	ldy #fblk.next	; Set the next block to the right pointer.
+	sta.q (sp+25), y;
+	lda.q sp+25	; Get the current block.
+	ldy #fblk.prev	; Set the previous right pointer to the current block.
+	lda.q (sp+9), y	;
+@chklmerge:
+	lda.q sp+1	; Get the left pointer.
+	ora.d sp+5	; Is the left pointer NULL?
+	bne @chklmerge2	; No, so keep checking.
+@newstart:
+	ldy #fblk.prev	; Clear the previous block.
+	sta.q (sp+25), y;
+	lda.q sp+25	; Get the current block.
+	sta.q heapf	; Set the first block, to the current block.
+	bra @end2	; We are done.
+@chklmerge2:
+	ldy #fblk.size	; Get the size of the left block.
+	lda.q (sp+1), y	;
+	clc		; Prepare for a non carrying add.
+	adc.q sp+1	; Add the size of the left block, to the left pointer.
+	cmp.q sp+25	; Is the left block adjacent?
+	bne @nolmerge	; No, so don't merge the left block.
+@lmerge:
+	lda.q (sp+1), y	; Get the size of the left block.
+	clc		; Prepare for a non carrying add.
+	ldb.q (sp+25), y; Get the size of the current block.
+	adc b		; Add the size of the left block, with the size of the current block.
+	sta.q (sp+1), y	; Set the size of the left block to the new size.
+@lmerge2:
+	ldy #fblk.next	; Get the next block.
+	lda.q (sp+25), y;
+	sta.q (sp+1), y	; Set the next left pointer, to the next block.
+	sta.q sp+17	; Set the second local variable to the next block.
+	ora.d sp+21	; Is the next left pointer NULL?
+	beq @newlast	; Yes, so set the last block.
+@lprev:
+	lda.q sp+1	; Get the left pointer.
+	ldy #fblk.prev	; Set the next left pointer's previous pointer to the left pointer.
+	sta.q (sp+17), y;
+	bra @end2	; We are done.
+@newlast:
+	lda.q sp+1	; Get the left pointer.
+	sta.q heapl	; Set the last block, to the left pointer.
+	bra @end2	; We are done.
+@nolmerge:
+	lda.q sp+25	; Get the current block.
+	ldy #fblk.next	; Set the next left pointer, to the current block.
+	sta.q (sp+1), y	;
+@nolmerge2:
+	lda.q sp+1	; Get the left pointer.
+	ldy #fblk.prev	; Set the previous block, to the left pointer.
+	sta.q (sp+25), y;
+@end2:
+	pla.q		; Clean up the stack frame.
+	pla.q		;
+	pla.q		;
+	pla.q		;
+	ply.q		; Restore Y.
+	plb.q		; Restore B.
+	pla.q		; Restore A.
+	rts		; End of free.
diff --git a/programs/sub-suite/subasm.s b/programs/sub-suite/subasm.s
index 3957caa..0a3ee80 100644
--- a/programs/sub-suite/subasm.s
+++ b/programs/sub-suite/subasm.s
@@ -5,7 +5,7 @@
 
 subasm:
 	ldb #0		; Set the first pointer
-	lda.d #cmd_buf	; to the command buffer.
+	lda.q cmd_buf	; to the command buffer.
 	jsr set_ptr	;
 	tba		; Reset A.
 	tax		; Reset X.
diff --git a/programs/sub-suite/subeditor.s b/programs/sub-suite/subeditor.s
index fdf1e4b..7e124a2 100644
--- a/programs/sub-suite/subeditor.s
+++ b/programs/sub-suite/subeditor.s
@@ -10,10 +10,44 @@ reset:
 	txs		;
 	ldy #0		; Reset Y.
 	tyx		; Reset X.
+	jsr init_heap	; Initialize the heap.
+	jsr init_tables	; Initialize the main tables.
 	jsr clr_scr	; Clear the screen.
 	jsr pnt_strt	; Print the starting message.
 	bra start	; Goto the start of the main program.
 
+
+init_heap:
+	and #0		; Reset A.
+	lda.d #HEAPORG	; Get the heap's starting point.
+	sta.q heapptr	;
+	phb.q		; Preserve the value in B.
+	phx.q		; Preserve the value in X.
+	jsr findramend	; Find the end of the heap.
+	plb.q		; Restore the value in B.
+	plx.q		; Restore the value in X.
+	sta.q heapend	; Save the end of the heap.
+	and #0		; Reset A.
+	rts		; End of init_heap.
+
+
+init_tables:
+	and #0		; Reset A.
+	lda.w #SCRSIZE	; Allocate SCRSIZE bytes of RAM for the screen buffer.
+	jsr malloc	;
+	sta.q buffer	;
+	and #0		; Reset A.
+	lda.w #CMDSIZE	; Allocate CMDSIZE bytes of RAM for the command buffer.
+	jsr malloc	;
+	sta.q cmd_buf	;
+	and #0		; Reset A.
+	lda.w #LWSIZE	; Allocate LWSIZE bytes of RAM for the linewrap table.
+	jsr malloc	;
+	sta.q bitabl	;
+	and #0		; Reset A.
+	rts		; End of init_tables.
+
+
 clr_arr:
 	phb 		; Preserve whatever was in B.
 	ldb #0		; Clear B.
@@ -67,9 +101,9 @@ pnt_strt:
 clr_cmd:
 	and #0		; Reset A.
 	tay		; Reset Y.
-	lda.w #$3FF	; Set the clear count to $3FF.
+	lda.w #CMDSIZE	; Set the clear count to CMDSIZE.
 	sta.w scr_ptr	;
-	lda.d #cmd_buf	; Set the array to be cleared to the command buffer.
+	lda.q cmd_buf	; Set the array to be cleared to the command buffer.
 	jsr clr_arr	; Clear the command buffer.
 	rts		; End of clr_cmd.
 
@@ -152,7 +186,7 @@ getbt0:
 getbt1:
 	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.
+	lda.q bitabl	; Set the second pointer to the linewrap table.
 	jsr set_ptr	;
 	lsr #$10	; Clear the Accumulator.
 	pla 		; Get the return byte back.
@@ -168,7 +202,7 @@ getbt1:
 clrbit:
 	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.
+	lda.q bitabl	; Set the second pointer to the linewrap table.
 	jsr set_ptr	;
 	and #0		; Clear the Accumulator.
 	pla 		; Get the return byte back.
@@ -188,7 +222,7 @@ bitout:
 setbit:
 	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.
+	lda.q bitabl	; Set the second pointer to the linewrap table.
 	jsr set_ptr	;
 	and #0		; Clear the Accumulator.
 	pla 		; Get the return byte back.
@@ -283,10 +317,10 @@ cmd_cpy:
 	tay		; Place it into the index.
 	ldx.w #0	; Reset the X 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.
+	lda.q buffer	; Set the first pointer to the start of the screen buffer.
 	jsr set_ptr	;
 	inb		; Make sure that set_ptr sets the second pointer.
-	lda.d #cmd_buf	; Set the second pointer to the start of the command buffer.
+	lda.q cmd_buf	; Set the second pointer to the start of the command buffer.
 	jsr set_ptr	;
 	deb		; Set B back to zero.
 	tba		; Set the accumulator to zero.
@@ -344,7 +378,7 @@ findst:
 fndend:
 	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.
+	lda.q buffer	; Set the first pointer to the start of the screen buffer.
 	jsr set_ptr	;
 	tba		; Set the Accumulator to zero.
 	plb 		; Restore the contents of the B register.
@@ -369,7 +403,7 @@ findend:
 print_char:
 	sta rega	; Preserve the character.
 	ldb #2		; Make sure that set_ptr sets the third pointer.
-	lda.d #buffer	; Set the third pointer to the start of the screen buffer.
+	lda.q buffer	; Set the third pointer to the start of the screen buffer.
 	jsr set_ptr	;
 	deb		; Set B to one.
 	tba		; Reset A.
@@ -504,12 +538,14 @@ clr_scr:
 	sta scr_end	;
 	lda #0		;
 	sta scr_str	;
-	sta.q bitabl	;
-	sta.q bitabl+8	;
 	tay		;
-	lda.w #$1FFF	; Set the clear count to $1FFF.
+	lda.w #LWSIZE	; Set the clear count to LWSIZE.
+	sta.w scr_ptr	;
+	lda.q bitabl	; Set the array to be cleared to the linewrap table.
+	jsr clr_arr	; Clear the linewrap table.
+	lda.w #SCRSIZE	; Set the clear count to SCRSIZE.
 	sta.w scr_ptr	;
-	lda.d #buffer	; Set the array to be cleared to the screen buffer.
+	lda.q buffer	; Set the array to be cleared to the screen buffer.
 	jsr clr_arr	; Clear the screen buffer.
 ;	tay		;
 ;	lda.w #$3FF	; Set the clear count to $3FF.
diff --git a/programs/sub-suite/subsuite.s b/programs/sub-suite/subsuite.s
index d28b4f2..0cfad1e 100644
--- a/programs/sub-suite/subsuite.s
+++ b/programs/sub-suite/subsuite.s
@@ -17,7 +17,7 @@
 .qword reset
 a
 ;l a
-;.org reset
+;.org $8FA0
 ;v
 ;q
 d
diff --git a/programs/sub-suite/utils.s b/programs/sub-suite/utils.s
index 7e7469c..21539eb 100644
--- a/programs/sub-suite/utils.s
+++ b/programs/sub-suite/utils.s
@@ -318,3 +318,33 @@ get_ctrlidx:
 @del:
 	lda #2		; Return 2.
 	rts		; End of get_ctrlidx.
+
+
+findramend:
+	pha.q		; Set the end of RAM pointer to the argument.
+	and #0		; Reset A.
+	tab		; Reset B.
+	lda #MAGIC	; Set A to a magic number.
+@loop:
+	ldx (sp+1)	; Preserve the value.
+	sta (sp+1)	; Write the magic number to the current end of RAM.
+	cmp (sp+1)	; Is the value in RAM, the same as the magic number we wrote?
+	bne @moveback	; No, so move back until we find the last writable memory location.
+	stx (sp+1)	; Yes, so restore the previous value.
+	pha.q		; Preserve the magic number.
+	lda.q sp+9	; Get the end of RAM pointer.
+	clc		; Prepare for a non carrying add.
+	adc.w #$4000	; Increment the end of RAM pointer by 16K.
+	sta.q sp+9	; Save the new end of RAM pointer.
+	pla.q		; Restore the magic number.
+	bra @loop	; Keep looping.
+@moveback:
+	dec.q sp+1	; Decrement the end of RAM pointer.
+	ldx (sp+1)	; Preserve the value.
+	sta (sp+1)	; Write the magic number to the current end of RAM.
+	cmp (sp+1)	; Is the value in RAM, the same as the magic number we wrote?
+	bne @moveback	; No, so keep looping.
+	stx (sp+1)	; Yes, so restore the previous value.
+@end:
+	pla.q		; Restore the argument.
+	rts		; End of findramend.