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https://github.com/lscharen/iigs-game-engine.git
synced 2024-12-26 05:31:42 +00:00
Fix several bugs; biggest one in the SpriteStamp routine
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@ -43,14 +43,14 @@ ScreenY equ 2
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HERO_SPRITE_1 equ SPRITE_16X16+1
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HERO_SLOT equ 0
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pea HERO_SPRITE_1 ; sprinte id
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pea HERO_SPRITE_1 ; sprint id
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pea VBUFF_SPRITE_START ; vbuff address
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_GTECreateSpriteStamp
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; Create sprites
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pea HERO_SPRITE_1 ; sprite id
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pea #10 ; screen x-position (<256)
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pea #8 ; screen y-position (<256)
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pea #0 ; screen x-position (<256)
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pea #0 ; screen y-position (<256)
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pea HERO_SLOT ; sprite slot (0 - 15)
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_GTEAddSprite
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@ -70,7 +70,10 @@ HERO_SLOT equ 0
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phx
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phy
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pei 0
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lda 0
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clc
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adc #64
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pha
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_GTESetTile
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lda 0
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@ -90,10 +93,10 @@ HERO_SLOT equ 0
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bcc :loop
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; Set the origin of the screen
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:skip
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stz ScreenX
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lda #63
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sta ScreenY
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stz ScreenY
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; Very simple actions
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:evt_loop
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@ -128,6 +131,12 @@ HERO_SLOT equ 0
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pei ScreenY
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_GTESetBG0Origin
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; Update the sprite each frame for testing
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; pea HERO_SLOT
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; pea $0000
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; pea VBUFF_SPRITE_START
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; _GTEUpdateSprite
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_GTERender
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; Debug stuff
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@ -143,7 +143,6 @@ _DoPhase1
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bit #SPRITE_STATUS_REMOVED
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beq :no_clear
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brk $02
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lda _SpriteBits,y ; Clear from the sprite bitmap
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sta SpriteRemovedFlag ; Stick a non-zero value here
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@ -315,7 +314,7 @@ _AddSprite
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; 3. Checks if the tile is dirty and marks it
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; 4. If the tile was dirty, save the tile store address to be added to the DirtyTiles list later
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TSClearSprite mac
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ldy TileStoreLookup+]1,x
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ldy TileStoreLookup+{]1},x
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lda TileStore+TS_SPRITE_FLAG,y
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and tmp0
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@ -5,16 +5,16 @@
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;Top equ tmp3
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;Bottom equ tmp4
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Origin equ tmp4
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TileTop equ tmp5
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;Origin equ tmp4
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;TileTop equ tmp5
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RowTop equ tmp6
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AreaIndex equ tmp7
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TileLeft equ tmp8
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ColLeft equ tmp9
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;TileLeft equ tmp8
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;ColLeft equ tmp9
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SpriteBit equ tmp10 ; set the bit of the value that if the current sprite index
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VBuffOrigin equ tmp11
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; VBuffOrigin equ tmp11
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; Marks a sprite as dirty. The work here is mapping from local screen coordinates to the
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; tile store indices. The first step is to adjust the sprite coordinates based on the current
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@ -122,6 +122,7 @@ _CalcDirtySprite
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txa
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and #$0003
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tax
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clc
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adc tmp0 ; add to the vertical offset
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; Subtract this value from the SPRITE_DISP address
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@ -136,6 +137,7 @@ _CalcDirtySprite
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; location of the upper-left corner of the sprite within the corner tile.
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txa
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clc
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adc _Sprites+SPRITE_CLIP_WIDTH,y ; max width = 8 = 0x08
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dec
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and #$000C
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@ -184,7 +186,7 @@ _MarkDirtySpriteTiles
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; The second macro is the same as the first, but the VBUFF calculation is moved up so that the value
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; from the previous step can be reused and save a load every other step.
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TSSetSprite mac
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ldy TileStoreLookup+]1,x
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ldy TileStoreLookup+{]1},x
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lda SpriteBit
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ora TileStore+TS_SPRITE_FLAG,y
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@ -4,44 +4,24 @@
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; Y = VBUFF address
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; X = Tile Data address
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; A = Sprite Flags
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DISP_VFLIP equ $0004 ; hard code these because they are internal values
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DISP_HFLIP equ $0002
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DISP_MASK equ $0018 ; Preserve the size bits
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_DrawSpriteStamp
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sty tmp1
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stx tmp2
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xba
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and #DISP_MASK ; dispatch to all of the different orientations
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sta tmp3
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jmp _DSSCommon
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; Function to render a sprite from a sprite definition into the internal data buffers
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;
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; X = sprite index
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; _DrawSpriteSheet
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DISP_VFLIP equ $0004 ; hard code these because they are internal values
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DISP_HFLIP equ $0002
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DISP_MASK equ $0018 ; Isolate the size bits
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; phx
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;
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; lda _Sprites+VBUFF_ADDR,x
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; sta tmp1
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;
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; lda _Sprites+TILE_DATA_OFFSET,x
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; sta tmp2
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;
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; lda _Sprites+SPRITE_DISP,x
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; and #DISP_MASK ; dispatch to all of the different orientations
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; sta tmp3
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;
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; jsr _DSSCommon
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;
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; plx
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; rts
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_DSSCommon
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; Set bank
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phb
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pea #^tiledata ; Set the bank to the tile data
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plb
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; X = sprite ID
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; Y = Tile Data
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; A = VBUFF address
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ldx tmp3
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ldy tmp2
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lda tmp1
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@ -53,7 +33,7 @@ _DSSCommon
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ldy tmp2
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lda tmp1
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clc
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adc #4*3
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adc #3*4
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jsr _DrawSprite
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lda tmp3
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@ -62,7 +42,7 @@ _DSSCommon
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ldy tmp2
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lda tmp1
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clc
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adc #4*6
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adc #6*4
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jsr _DrawSprite
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lda tmp3
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@ -71,7 +51,7 @@ _DSSCommon
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ldy tmp2
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lda tmp1
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clc
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adc #4*9
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adc #9*4
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jsr _DrawSprite
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; Restore bank
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@ -81,7 +61,6 @@ _DSSCommon
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;
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; X = _Sprites array offset
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_DrawSprite
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; ldx _Sprites+SPRITE_DISP,y ; use bits 9, 10, 11, 12 and 13 to dispatch
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jmp (draw_sprite,x)
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draw_sprite dw draw_8x8,draw_8x8h,draw_8x8v,draw_8x8hv
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@ -183,6 +162,9 @@ draw_16x8hv
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ply
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jmp _DrawTile8x8V
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; X = sprite ID
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; Y = Tile Data
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; A = VBUFF address
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draw_16x16
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clc
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tax
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@ -70,13 +70,13 @@ CopyDynSpriteWord MAC
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;
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; If MASK == 0, then we can do a PEA. If MASK == $FFFF, then fall back to the simple Dynamic Tile
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; code.
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ldal spritemask+]1,x ; load the mask value
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ldal spritemask+{]1},x ; load the mask value
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bne mixed ; a non-zero value may be mixed
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; This is a solid word
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lda #$00F4 ; PEA instruction
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sta: ]2,y
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ldal spritedata+]1,x ; load the sprite data
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ldal spritedata+{]1},x ; load the sprite data
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sta: ]2+1,y ; PEA operand
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bra next
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@ -95,12 +95,12 @@ mixed cmp #$FFFF ; All 1's in the mask is a fully transpare
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lda #$0029 ; AND #SPRITE_MASK
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sta: $0002,y
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ldal spritemask+]1,x
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ldal spritemask+{]1},x
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sta: $0003,y
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lda #$0009 ; ORA #SPRITE_DATA
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sta: $0005,y
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ldal spritedata+]1,x
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ldal spritedata+{]1},x
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sta: $0006,y
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lda #$0D80 ; branch to the prologue (BRA *+15)
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@ -82,13 +82,13 @@ CopyDynMaskedSpriteWord MAC
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; If MASK == 0, then we can do a PEA. If MASK == $FFFF, then fall back to the simple Dynamic Tile
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; code and eliminate the constanct AND/ORA instructions.
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ldal spritemask+]1,x ; load the mask value
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ldal spritemask+{]1},x ; load the mask value
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bne mixed ; a non-zero value may be mixed
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; This is a solid word
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lda #$00F4 ; PEA instruction
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sta: ]2,y
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ldal spritedata+]1,x ; load the sprite data
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ldal spritedata+{]1},x ; load the sprite data
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sta: ]2+1,y ; PEA operand
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bra next
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@ -99,7 +99,7 @@ mixed
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sta: ]2,y
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lda _JTBL_CACHE ; Get the offset to the exception handler for this column
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ora #{]2&$F000} ; adjust for the current row offset
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sta: ]2+1,y
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sta: {]2}+1,y
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tay ; This becomes the new address that we use to patch in
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lda _OP_CACHE
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@ -111,14 +111,14 @@ mixed
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lda #$0029 ; AND #SPRITE_MASK
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sta: $0006,y
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ldal spritemask+]1,x
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ldal spritemask+{]1},x
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cmp #$FFFF ; All 1's in the mask is a fully transparent sprite word
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beq transparent ; so we can use the Tile00011 method
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sta: $0007,y
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lda #$0009 ; ORA #SPRITE_DATA
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sta: $0009,y
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ldal spritedata+]1,x
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ldal spritedata+{]1},x
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sta: $000A,y
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lda #$0980 ; branch to the prologue (BRA *+11)
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@ -77,7 +77,7 @@ CopyDynPriSpriteWord MAC
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lda #$00A9 ; LDA #DATA
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sta: $0000,y
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ldal spritedata+]1,x
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ldal spritedata+{]1},x
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sta: $0001,y
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lda _OP_CACHE
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@ -90,14 +90,14 @@ CopyDynPrioMaskedSpriteWord MAC
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lda #$0029 ; AND #SPRITE_MASK
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sta: $0002,y
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ldal spritemask+]1,x
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ldal spritemask+{]1},x
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cmp #$FFFF ; All 1's in the mask is a fully transparent sprite word
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beq transparent ; so we can use the Tile00011 method
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sta: $0003,y
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lda #$0009 ; ORA #SPRITE_DATA
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sta: $0005,y
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ldal spritedata+]1,x
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ldal spritedata+{]1},x
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sta: $0006,y
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lda _T_PTR
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@ -93,7 +93,7 @@ pdtf_not_empty
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cpx #16 ; If there are >= 8 elements, then
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bcs full_chunk ; do a full chunk
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stz DP2_DIRTY_TILE_COUNT ; Otherwise, this pass will handle them all
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; stz DP2_DIRTY_TILE_COUNT ; Otherwise, this pass will handle them all
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jmp (at_table,x)
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at_table da at_exit,at_one,at_two,at_three
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da at_four,at_five,at_six,at_seven
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