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597 lines
9.9 KiB
597 lines
9.9 KiB
INCLUDE "hardware.inc"
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INCLUDE "util.inc"
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SECTION "Map Data", WRAM0
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PAGEX:: DB ; X coordinate to enqueue map column at
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PAGEY:: DB ; Y coordinate to enqueue map row at
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LAST_SCX:: DB ; Value of SCX last frame
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LAST_SCY:: DB ; Value of SCY last frame
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PENDING_ROW_PTR:: DW ; Where to write pending row data (0 = no write)
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PENDING_ROW_DATA:: DS SCRN_VX_B ; Row to be written
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PENDING_COL_PTR:: DW ; Where to write pending column data (0 = no write)
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PENDING_COL_DATA: DS SCRN_VY_B ; Column to be written
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CURRENT_DATA_START::
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CURRENT_TILE_PTR:: DW ; Location of tile data
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CURRENT_TILE_SIZE:: DB ; Length of tile data (num_tiles * 8)
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CURRENT_MAP_PTR:: DW ; Location of map data
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CURRENT_MAP_COLLISION:: DW ; Location of map collision data
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CURRENT_MAP_WIDTH:: DB ; Width of map in tiles
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CURRENT_MAP_HEIGHT:: DB ; Height of map in tiles
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CURRENT_SPAWN_X:: DB ; X coordinate to spawn player at
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CURRENT_SPAWN_Y:: DB ; Y coordinate to spawn player at
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CURRENT_CAMERA_X:: DB ; X coordinate of camera (top left of viewport)
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CURRENT_CAMERA_Y:: DB ; Y coordinate of camera (top left of viewport)
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CURRENT_DATA_END::
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SECTION "Map Code", ROM0
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DEF INIT_SCX EQUS "((SCRN_VX - SCRN_X) / 2)"
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DEF INIT_SCY EQUS "((SCRN_VY - SCRN_Y) / 2)"
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; Loads a map
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; @param hl Pointer to map metadata
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Map_Load::
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; Initialize scroll state
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ld a, INIT_SCX
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ld [rSCX], a
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ld [LAST_SCX], a
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ld a, INIT_SCY
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ld [rSCY], a
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ld [LAST_SCY], a
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ld a, 8
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ld [PAGEX], a
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ld [PAGEY], a
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; Store metadata
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ld bc, CURRENT_DATA_START
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ld d, CURRENT_DATA_END - CURRENT_DATA_START
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call memcpy
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; Write tiles to VRAM
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ld hl, CURRENT_TILE_PTR
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ld a, [hl+]
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ld c, a
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ld a, [hl+]
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ld b, a
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ld a, [CURRENT_TILE_SIZE]
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ld d, a
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ld hl, _VRAM
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MEMCPY hl, bc, d
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; Write initial map data
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ld hl, _SCRN0
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ld a, [CURRENT_CAMERA_X]
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sub INIT_SCX / 8
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ld b, a
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ld a, [CURRENT_CAMERA_Y]
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sub INIT_SCY / 8
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ld c, a
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ld d, SCRN_VY_B
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.write_rows:
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call write_map_row
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inc c
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ld a, SCRN_VX_B
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ADD16 hl
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dec d
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jr nz, .write_rows
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ret
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; Update map state based on SCX/SCY
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Map_Scroll::
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; If SCY = PAGEY, write map row
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ld hl, PAGEY
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ld a, [rSCY]
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cp [hl]
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jr nz, .scroll_down_check
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; B = CAMERA_X - SCX/8
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ld a, [rSCX]
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srl a
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srl a
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srl a
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ld b, a
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ld a, [CURRENT_CAMERA_X]
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sub b
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ld b, a
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; C = CAMERA_Y - 2
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ld a, [CURRENT_CAMERA_Y]
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sub 2
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ld c, a
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; HL = _SCRN0 + 32 * (SCY/8 - 2)
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ld a, [rSCY]
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sub 16
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srl a
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srl a
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srl a
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call get_row_ptr
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call enqueue_row_write
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ld a, [PAGEY]
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sub 8
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ld [PAGEY], a
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jp .done
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.scroll_down_check:
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; Check SCY + (SCRN_Y + 16) = PAGEY
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ld a, [PAGEY]
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sub SCRN_Y + 16
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ld hl, rSCY
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cp [hl]
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jr nz, .scroll_left_check
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ld a, [PAGEY]
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srl a
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srl a
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srl a
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dec a
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call get_row_ptr
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; B = CAMERA_X - SCX/8
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ld a, [rSCX]
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ld b, a
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ld a, [CURRENT_CAMERA_X]
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srl b
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srl b
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srl b
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sub b
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ld b, a
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; C = CAMERA_Y + 18 + 1
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ld a, [CURRENT_CAMERA_Y]
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add SCRN_Y_B + 1
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ld c, a
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call enqueue_row_write
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ld a, [PAGEY]
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add 8
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ld [PAGEY], a
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jr .done
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.scroll_left_check:
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; If SCX = PAGEX, write map col
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ld a, [PAGEX]
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ld hl, rSCX
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cp [hl]
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jr nz, .scroll_right_check
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; HL = VRAM + PAGEX/8
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ld hl, _SCRN0
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ld a, [PAGEX]
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srl a
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srl a
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srl a
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dec a
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ADD16 hl
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; B = CAMERA_X - 1
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ld a, [CURRENT_CAMERA_X]
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dec a
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ld b, a
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; C = CAMERA_Y - SCY/8
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ld a, [rSCY]
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ld c, a
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ld a, [CURRENT_CAMERA_Y]
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srl c
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srl c
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srl c
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sub c
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ld c, a
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call enqueue_col_write
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ld a, [PAGEX]
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sub 8
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ld [PAGEX], a
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.scroll_right_check:
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; If SCX = SCRN_X - PAGEX, write map col
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; Check SCX + (SCRN_X + 16) = PAGEX
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ld a, [PAGEX]
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sub SCRN_X + 16
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ld hl, rSCX
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cp [hl]
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jr nz, .done
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; HL = VRAM + PAGEX/8
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ld hl, _SCRN0
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ld a, [PAGEX]
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srl a
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srl a
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srl a
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dec a
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ADD16 hl
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; B = CAMERA_X + 20
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ld a, [CURRENT_CAMERA_X]
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add SCRN_X_B + 1
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ld b, a
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; C = CAMERA_Y - SCY/8
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ld a, [rSCY]
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ld c, a
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ld a, [CURRENT_CAMERA_Y]
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srl c
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srl c
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srl c
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sub c
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ld c, a
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call enqueue_col_write
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ld a, [PAGEX]
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add 8
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ld [PAGEX], a
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.done:
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ld hl, LAST_SCY
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ld a, [rSCY]
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ld [hl], a
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ret
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Map_Update::
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; Skip row update if PENDING_ROW_PTR is 0
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ld a, [PENDING_ROW_PTR]
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ld c, a
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ld a, [PENDING_ROW_PTR + 1]
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ld b, a
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or c
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jr z, .update_col
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ld hl, PENDING_ROW_DATA
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ld d, SCRN_VX_B
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MEMCPY bc, hl, d
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.update_col:
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; Skip column update if PENDING_COL_PTR is 0
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ld a, [PENDING_COL_PTR]
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ld c, a
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ld a, [PENDING_COL_PTR + 1]
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ld b, a
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or c
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ret z
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ld d, SCRN_VY_B
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ld hl, PENDING_COL_DATA
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.update_col_loop:
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ld a, [hl+]
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ld [bc], a
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ld a, SCRN_VX_B
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ADD16 bc
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dec d
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jr nz, .update_col_loop
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ret
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; Computes the offset into map RAM
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; @param a The map RAM y-coordinate
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; @return hl Pointer into map RAM
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get_row_ptr:
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push de
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ld d, 0
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ld e, a
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REPT 5
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SLA16 de
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ENDR
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ld hl, _SCRN0
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add hl, de
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pop de
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ret
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; Write a row of map data into row buffer
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; @param b Map X coordinate (signed)
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; @param c Map Y coordinate (signed)
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; @param hl Where to write the row in map VRAM
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; @destroy All registers
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enqueue_row_write:
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; PENDING_ROW_PTR = HL
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ld a, l
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ld [PENDING_ROW_PTR], a
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ld a, h
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ld [PENDING_ROW_PTR + 1], a
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; If Y < 0, write 0s
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bit 7, c
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jr nz, .zero_row
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; If Y >= MAP_HEIGHT, write 0s
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ld a, [CURRENT_MAP_HEIGHT]
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dec a
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cp c
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jr c, .zero_row
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; HL = CURRENT_MAP_PTR
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ld a, [CURRENT_MAP_PTR]
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ld l, a
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ld a, [CURRENT_MAP_PTR + 1]
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ld h, a
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; HL = CURRENT_MAP_PTR + Y * MAP_WIDTH
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ld d, 0
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ld a, [CURRENT_MAP_WIDTH]
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ld e, a
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ld a, c
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.get_map_row_ptr:
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or a
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jr z, .copy_map_row
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add hl, de
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dec a
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jr .get_map_row_ptr
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.copy_map_row:
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; C = BYTES_LEFT
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ld c, SCRN_VX_B
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ld de, PENDING_ROW_DATA
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; Note: Can skip checking BYTES_LEFT > 0 in this loop. If there were
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; SCRN_VX_B zeros to write, then Y would be 1 greater and we would have
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; jumped into .zero_row before reaching this code
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.pad_left:
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; Check X < 0
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bit 7, b
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jr z, .copy_middle
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; *ROW++ = 0
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ld [de], a
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inc de
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; X++, BYTES_LEFT--
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inc b
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dec c
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jr .pad_left
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.copy_middle:
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; Check X < MAP_WIDTH
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ld a, [CURRENT_MAP_WIDTH]
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dec a
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cp b
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jr c, .pad_right
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; Check BYTES_LEFT > 0
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ld a, c
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or a
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ret z
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; *ROW++ = *MAP++
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ld a, [hl+]
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ld [de], a
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inc de
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; X++, BYTES_LEFT--
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inc b
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dec c
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jr .copy_middle
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.pad_right:
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; Check BYTES_LEFT > 0
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ld a, c
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or a
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ret z
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; *ROW++ = 0
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xor a
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ld [de], a
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inc de
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; X++, BYTES_LEFT--
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inc b
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dec c
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jr .pad_right
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.zero_row:
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ld hl, PENDING_ROW_DATA
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xor a
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ld c, SCRN_VX_B
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.zero_row_loop:
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ld [hl+], a
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dec c
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jr nz, .zero_row_loop
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ret
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; NOTE: This works by enqueueing a row to write, and then immediately flushing
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; the queue. The subroutine could be sped up by writing to map RAM directly, but
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; this is simpler to write and saves on code size.
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;
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; Write a row of map data into map RAM.
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; @param b Map X coordinate (signed)
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; @param c Map Y coordinate (signed)
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; @param hl Pointer into map VRAM
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write_map_row:
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push bc
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push de
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push hl
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call enqueue_row_write
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ld a, [PENDING_ROW_PTR]
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ld c, a
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ld a, [PENDING_ROW_PTR + 1]
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ld b, a
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ld hl, PENDING_ROW_DATA
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ld d, SCRN_VX_B
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MEMCPY bc, hl, d
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pop hl
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pop de
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pop bc
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ret
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; Write a column of map data into column buffer
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; @param b Map X coordinate (signed)
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; @param c Map Y coordinate (signed)
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; @param hl Where to write the column in map VRAM
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; @destroy All registers
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enqueue_col_write:
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; PENDING_COL_PTR = HL
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ld a, l
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ld [PENDING_COL_PTR], a
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ld a, h
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ld [PENDING_COL_PTR + 1], a
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; If X < 0, write 0s
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bit 7, b
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jr nz, .zero_row
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; If X >= MAP_WIDTH, write 0s
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ld a, [CURRENT_MAP_WIDTH]
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dec a
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cp c
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jr c, .zero_row
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; HL = CURRENT_MAP_PTR
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ld a, [CURRENT_MAP_PTR]
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ld l, a
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ld a, [CURRENT_MAP_PTR + 1]
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ld h, a
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; HL = CURRENT_MAP_PTR + Y * MAP_WIDTH + X
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ld d, 0
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ld a, [CURRENT_MAP_WIDTH]
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ld e, a
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ld a, c
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.get_map_col_ptr:
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or a
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jr z, .copy_map_column
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add hl, de
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dec a
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jr .get_map_col_ptr
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.copy_map_column:
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ld a, b
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ADD16 hl
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; B = BYTES_LEFT
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ld b, SCRN_VY_B
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ld de, PENDING_COL_DATA
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; Note: Can skip checking BYTES_LEFT > 0 in this loop. If there were
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; SCRN_VY_B zeros to write, then X would be 1 greater and we would have
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; jumped into .zero_row before reaching this code
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.pad_left:
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; Check Y < 0
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bit 7, c
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jr z, .copy_middle
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; *ROW++ = 0
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xor a
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ld [de], a
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inc de
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; Y++, BYTES_LEFT--
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inc c
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dec b
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jr .pad_left
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.copy_middle:
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; Check Y < MAP_HEIGHT
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ld a, [CURRENT_MAP_HEIGHT]
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dec a
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cp c
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jr c, .pad_right
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; Check BYTES_LEFT > 0
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ld a, b
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or a
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ret z
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; *ROW++ = *MAP
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ld a, [hl]
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ld [de], a
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inc de
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; MAP += MAP_WIDTH
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ld a, [CURRENT_MAP_WIDTH]
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ADD16 hl
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; Y++, BYTES_LEFT--
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inc c
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dec b
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jr .copy_middle
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.pad_right:
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; Check BYTES_LEFT > 0
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ld a, b
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or a
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ret z
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; *ROW++ = 0
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xor a
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ld [de], a
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inc de
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; X++, BYTES_LEFT--
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inc c
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dec b
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jr .pad_right
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.zero_row:
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ld hl, PENDING_COL_DATA
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xor a
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ld c, SCRN_VY_B
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.zero_row_loop:
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ld [hl+], a
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dec c
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jr nz, .zero_row_loop
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ret
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; Compute the distance (modulo 32) between two values
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; @param b Value 1
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; @param c Value 2
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mmd2:
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push bc
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ld a, b
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sub c
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cpl
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ld b, a
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cpl
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bit 7, b
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jr z, .0
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ld b, a
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.0:
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ld a, 32
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sub b
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cp b
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jr nc, .1
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pop bc
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ret
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.1:
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ld a, b
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pop bc
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ret
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