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8bitworkshop/presets/vcs/multisprite.inc

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; MULTISPRITE LIBRARY
; For lots of games, we'd like to display more than two sprites.
; There are lots of different ways to tackle this on the VCS,
; but we're going to try for a generalized approach that lets
; use have N different sprites at any X-Y coordinate, each with
; its own bitmap and color table. This is tricky because we can
; only do so much on each scanline.
; Our approach is to separate the problem into three phases.
; In the sort phase, we sort all sprites by Y coordinate.
; We do one sort pass per frame, so it may take several frames
; for the sort to stabilize.
; In the positioning phase, we look at the sprites in Y-sorted
; order, looking several lines ahead to see if a sprite is
; coming up. We then allocate it to one of the two player
; objects in hardware and set its position using the SetHorizPos
; method. We can set one or both of the player objects this way.
; In the display phase, we display the objects which we previously
; assigned and positioned. First we figure out how many scanlines are
; required. If only one object is scheduled, we just use its height.
; If two objects are scheduled, we go until the bottommost line has
; been displayed. We then loop through, fetching pixels and colors
; for one or both objects (up to four lookup tables) and setting
; registers at the appropriate time. We don't have time to do much
; else, so we don't look for any new objects to schedule until
; we're done with this loop.
; This scheme can only display up to two objects on a given
; scanline, so if the system tries to schedule a third, it will
; be ignored. Also, the positioning routine takes a few scanlines
; to complete, so if the top of a sprite is too close to the
; bottom of another sprite, the latter may not be displayed.
;
; To mitigate this, we increment a priority counter when a
; sprite entry is missed. In the sort phase, we move those sprites
; ahead of lower priority sprites in the sort order. This makes
; overlapping sprites flicker instead of randomly disappear.
; There are two separate multisprite kernels:
; MSpriteDraw1 - Single-line sprites, no playfield.
; This kernel requires TIMER_TABLE_SETUP at the 0th
; scanline, as it uses the timer to figure out the
; current scanline. No vertical clipping is performed.
; In fact, if sprites go past the bottom, it will
; mess up the vertical sync.
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; MSpriteDraw2 - Double-line sprites with playfield.
; The playfield is updated and the sprites are positioned
; in 8-scanline segments.
; This kernel uses the timer internally, but does not
; use the timer table or TIMER_TABLE_SETUP.
; Sprites are clipped on the bottom edge, but disappear
; off the top edge.
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; Your program must call MSpriteInit when it starts,
; and MSpriteFrame between every frame.
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
seg.u Variables
Scanline byte ; current scanline
CurIndex byte ; current sprite # to try to schedule
PData0 word ; pointer (lo/hi) to player 0 bitmap data
PData1 word ; pointer to player 1 bitmap data
PColr0 word ; pointer to player 0 color data
PColr1 word ; pointer to player 1 color data
SIndx0 byte ; next y-position to draw player 0
; or during draw, index into sprite
; zero means not assigned
SIndx1 byte ; ... for player 1
SSize0 byte ; sprite size for player 0
SSize1 byte ; sprite size for player 1
NSprites equ 8 ; max # of sprites
XPos0 ds NSprites ; x coord for each sprite
YPos0 ds NSprites ; y coord for each sprite
Shape0 ds NSprites ; shape index
Flags0 ds NSprites ; NUSIZ and reflection flags
Sorted0 ds NSprites ; sorted list of sprite indices
Priority0 ds NSprites ; sprite priority list, if missed
;MinYDist equ 0 ; min. Y distance to consider sprite (not used)
;MinYPos equ 1 ; TODO???
MinYDist equ 6 ; min. Y distance to consider sprite
MinYPos equ 2+MinYDist
PF0Ptr word ; pointer to playfield data
PF1Ptr word ; pointer to playfield data
PF2Ptr word ; pointer to playfield data
PFIndex byte ; offset into playfield array
PFCount byte ; lines left in this playfield segment
; temporary values for kernel
; TODO: share with global temporaries
Temp byte
Colp0 byte
Colp1 byte
tmpPF0 byte
tmpPF1 byte
tmpPF2 byte
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
seg Code
; call at start of program
MSpriteInit subroutine
; Initialize initial sort order
ldx #0
.loop
txa
sta Sorted0,x
inx
cpx #NSprites
bne .loop
rts
; call between frames
MSpriteFrame subroutine
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; Do one iteration of bubble sort on sprite indices
ldx #NSprites-2
.SortLoop
jsr SwapSprites
dex
bpl .SortLoop ; loop until <= 0
; Reset scanline counter and sprite objects
jsr ResetCounters
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stx CurIndex
rts
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; SINGLE-LINE KERNEL
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MSpriteDraw1 subroutine
.NextFindSprite
; Try to schedule sprites to both players
jsr FindAnotherSprite
; Apply fine offsets
sta WSYNC ; start next scanline
sta HMOVE ; apply the previous fine position(s)
sta HMCLR ; clear motion registers
ldx #0
stx VDELP0 ; set vertical delay off
stx VDELP1 ; set vertical delay off
; See if time to draw
jsr DrawSprites1
; Repeat until all scanlines drawn
lda INTIM
cmp #$1f
bcs .NextFindSprite
lda #191
jmp WaitForScanline
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; DOUBLE-LINE KERNEL WITH BACKGROUND
MSpritePrefill2 subroutine
lda #0
sta Scanline
jsr FindAnotherSprite2
jsr FindAnotherSprite2
sta WSYNC
sta HMOVE ; apply the previous fine position(s)
sta HMCLR ; clear motion registers
rts
MSpriteDraw2 subroutine
sta WSYNC
sta PFIndex ; 24 * 4 scanlines = 96 2xlines
lda #0
sta PFCount
sta VDELP1
lda #1
sta VDELP0 ; updates to GRP0 will be delayed
jmp .NewSprites
.Draw8Lines
; Phase 0: Fetch PF0 byte
jsr DrawSprites2
ldy PFIndex
lda (PF0Ptr),y ; load PF0
sta tmpPF0
; Phase 1: Fetch PF1 byte
jsr DrawSprites2
ldy PFIndex
lda (PF1Ptr),y ; load PF1
sta tmpPF1
; Phase 2: Fetch PF2 byte
jsr DrawSprites2
ldy PFIndex
lda (PF2Ptr),y ; load PF2
sty PFIndex
sta tmpPF2
; Phase 3: Write PF0/PF1/PF2 registers
jsr DrawSprites2
lda tmpPF0
sta PF0
lda tmpPF1
sta PF1
lda tmpPF2
sta PF2
; Go to next scanline, unless playfield is done
; or unless this segment is done
dec PFIndex
bmi .NoMoreLines ; playfield done
dec PFCount
bpl .Draw8Lines ; keep drawing
; done drawing, reset player counters
jsr ResetCounters
.NewSprites
lda PFIndex
asl
asl
eor #$7f
sbc #34
sta Scanline ; Scanlines = 127 - PFIndex*4
; Set up 0-2 player objects taking up to 8 scanlines
TIMER_SETUP 7
jsr FindAnotherSprite2
jsr CalcSpriteEnd
; Update playfield
ldy PFIndex
lda (PF0Ptr),y ; load PF0 -> X
tax
lda (PF1Ptr),y ; load PF1 -> tmp
sta tmpPF1
lda (PF2Ptr),y ; load PF2 -> Y
tay
; Apply fine offsets
TIMER_WAIT ; wait for 8th scanlines and WSYNC
sta HMOVE ; apply the previous fine position(s)
sta HMCLR ; clear motion registers
; Store playfield registers
stx PF0
lda tmpPF1
sta PF1
sty PF2
dec PFIndex ; no more playfield?
bmi .NoMoreLines
lda PFCount
bne .Draw8Lines
sta WSYNC ; one more line
beq .NewSprites
.NoMoreLines
rts
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; SPRITE DRAWING ROUTINES
; used by kernels
; need to set SIndx0/1, SSize0/1, PData0/1, PColr0/1
; all players must already be setup
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; called by single-line kernel
DrawSprites1 subroutine
; Wait for next precise scanline
lda #0 ; 0 = wait for next
.AnotherScanline
jsr WaitForScanline
lda Timer2Scanline,y ; lookup scanline #
beq .AnotherScanline ; not if zero!
sta Scanline ; save it
DrawSprites1a
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; Calculate # of lines to draw for each sprite
; Sprite Y - current scanline + sprite height
lda SIndx0
beq .Empty0 ; sprite 0 is inactive?
sec
sbc Scanline
clc
adc SSize0
sta SIndx0 ; SIndx0 += SSize0 - Scanline
.Empty0
lda SIndx1
beq .Empty1 ; sprite 1 is inactive?
sec
sbc Scanline
clc
adc SSize1
sta SIndx1 ; SIndx1 += SSize1 - Scanline
.Empty1
; Find out the maximum # of lines to draw
; by taking the maximum of the two sprite heights
cmp SIndx0
bpl .Cmp1 ; sindx0 < sindx1?
lda SIndx0
.Cmp1
tax ; X = # of lines left to draw
beq .NoSprites ; X = 0? we're done
sta WSYNC ; next scanline
DrawSprites1b
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.DrawNextScanline
; Make sure player 0 index is within bounds
ldy SIndx0
cpy SSize0
bcs .Inactive0 ; index >= size? (or index < 0)
; Lookup pixels for player 0
lda (PData0),y
; Do WSYNC and then quickly store pixels for player 0
sta WSYNC
sta GRP0
; Lookup/store colors for player 0
lda (PColr0),y
sta COLUP0
.DrawSprite1
; Make sure player 1 index is within bounds
ldy SIndx1
cpy SSize1
bcs .Inactive1 ; index >= size? (or index < 0)
; Lookup/store pixels and colors for player 1
; Note that we are already 30-40 pixels into the scanline
; by this point...
lda (PData1),y
sta GRP1
lda (PColr1),y
sta COLUP1
.Inactive1
; Decrement the two sprite indices
dey
sty SIndx1
dec SIndx0
; Repeat until we've drawn all the scanlines for this job
dex
bne .DrawNextScanline
; Free up both player objects by zeroing them out
jsr ResetCounters
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sta WSYNC
stx GRP0
stx GRP1
; No sprites were drawn; just exit
.NoSprites
rts
.Inactive0
; Alternate player 0 path when it is inactive
sta WSYNC
lda #0
sta GRP0
sta COLUP0
beq .DrawSprite1 ; always taken due to lda #0
; called by 2-line kernel
DrawSprites2 subroutine
; Fetch sprite 0 values
lda SSize0 ; height in 2xlines
sec
isb SIndx0 ; INC yp0, then SBC yp0
bcs DoDraw0 ; inside bounds?
lda #0 ; no, load the padding offset (0)
DoDraw0
tay ; -> Y
lda (PColr0),y ; color for both lines
sta Colp0 ; -> colp0
lda (PData0),y ; bitmap for first line
sta GRP0 ; -> [GRP0] (delayed due to VDEL)
; Fetch sprite 1 values
lda SSize1 ; height in 2xlines
sec
isb SIndx1 ; INC yp0, then SBC yp0
bcs DoDraw1 ; inside bounds?
lda #0 ; no, load the padding offset (0)
DoDraw1
tay ; -> Y
lda (PColr1),y ; color for both lines
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tax
lda (PData1),y ; bitmap for first line
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tay
; WSYNC and store sprite values
lda Colp0
; still have about 30 cycles left...
sta WSYNC
sty GRP1 ; GRP0 is also updated due to VDELP0 flag
stx COLUP1
sta COLUP0
; Return to caller
rts
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CalcSpriteEnd subroutine
; Calculate # of lines to draw for each sprite
; SIndx = 255 - ypos + scanline
lda SIndx0
beq .zero0
sec
sbc Scanline
eor #$ff
sta SIndx0
sec
sbc SSize0
.zero0
sta Temp
lda SIndx1
beq .zero1
sec
sbc Scanline
eor #$ff
sta SIndx1
sec
sbc SSize1
cmp Temp
bmi .cmp1 ; sindx0 < sindx1?
.zero1
lda Temp ; load higher number
.cmp1
; Compute the number of 8x lines in this section
eor #$ff
clc
adc #1
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lsr
lsr
sta PFCount
rts
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; COMMON ROUTINES
ResetCounters subroutine
ldx #0
stx SSize0
stx SSize1
stx SIndx0
stx SIndx1
rts
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; We were too late to display a sprite.
; Put it earlier in the sort order and try next frame.
; X = sort index
.MissedSprite subroutine
; Have we already looked at all the sprites?
; Increment priority for this sort entry
inc Priority0,x
; Go to next sort index, until we get to the end
inx
stx CurIndex
.OutOfSprites
rts
; Try to assign the next sprite in the sort order into
; one of the two player slots.
; If sprite found, uses at least 3 scanlines for SetHorizPos.
FindAnotherSprite ; subroutine entry point
; Get the approximate scanline
GET_APPROX_SCANLINE
clc
adc #MinYDist
sta Scanline
FindAnotherSprite2 ; alternate entry point when scanline known
; Calculate the distance to next sprite
ldx CurIndex
cpx #NSprites
bcs .OutOfSprites
ldy Sorted0,x ; get sprite index # in Y-sorted order
lda YPos0,y ; get Y position of sprite
cmp Scanline ; SpriteY - Scanline
; Don't schedule the sprite if it's too soon or its scanline
; has already passed -- mark it missed
bmi .MissedSprite ; passed it? (or > 127 lines away)
; A sprite is starting soon, now we need to schedule it
; to either one of the player objects
lda XPos0,y
; Is player 1 available?
ldx SIndx1
bne .Plyr1NotReady
; Due to timing issues, we have artifacts if player 1 is
; too close to the left edge of the screen. So we'd prefer to
; put those sprites in the player 0 slot.
; TODO: disable for 2-line sprite kernel
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cmp #34 ; X < 34
bcc .Plyr1NotReady
; First let's set its horizontal offset
ldx #1
jsr SetHorizPos ; set horizontal position (does WSYNC)
; Assign the sprite's Y position to player 1
lda YPos0,y
sta SIndx1
; Set player 1 reflection/number/size flags
lda Flags0,y
sta REFP1 ; reflection flag
sta NUSIZ1 ; number-size
; Get index into SpriteDataMap (index * 4)
lda Shape0,y
asl
asl
tax
; Copy addresses of pixel/color maps to player 1
lda SpriteDataMap,x
sta PData1
lda SpriteDataMap+1,x
sta PData1+1
lda SpriteDataMap+2,x
sta PColr1
lda SpriteDataMap+3,x
sta PColr1+1
; Get the sprite height as the first byte of the color map
ldy #0
lda (PColr1),y
sta SSize1
inc SSize1 ; +1 to height
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jmp .SetupDone
.Plyr1NotReady
ldx SIndx0
bne .NoNearSprite ; both players in use
; Player 0 is available
; This is essentially the same as the player 1 routine
ldx #0
jsr SetHorizPos
lda YPos0,y
sta SIndx0
lda Flags0,y
sta REFP0 ; reflection flag
sta NUSIZ0 ; number-size
lda Shape0,y
asl
asl
tax
lda SpriteDataMap,x
sta PData0
lda SpriteDataMap+1,x
sta PData0+1
lda SpriteDataMap+2,x
sta PColr0
lda SpriteDataMap+3,x
sta PColr0+1
ldy #0
lda (PColr0),y
sta SSize0
inc SSize0 ; +1 to height
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.SetupDone
inc CurIndex ; go to next sprite in sort order
.NoNearSprite
rts
; Perform one sort iteration
; X register contains sort index (0 to NSprites-1)
SwapSprites subroutine
; First compare Priority[i] and Priority[i+1]
lda Priority0,x
cmp Priority0+1,x
bcs .CompareYPos
; If Priority[i] < Priority[i+1], do the swap
; anyway after resetting priorities
lda #0
sta Priority0,x
sta Priority0+1,x ; reset
ldy Sorted0+1,x
bcc .DoSwap ; swap due to priority
.CompareYPos
; Compare Y[i] and Y[i+1]
ldy Sorted0,x
lda YPos0,y
ldy Sorted0+1,x
cmp YPos0,y
bcc .NoSwap ; Y[i] < Y[i+1]? don't swap
.DoSwap
; Swap Sorted[i] and Sorted[i+1]
lda Sorted0,x ; A <- Sorted[i]
sty Sorted0,x ; Y -> Sorted[i]
sta Sorted0+1,x ; A -> Sorted[i+1]
.NoSwap
rts