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Difference between revisions of "Add a new zone in Sonic 1"

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{{GuideBy|FraGag}}
 
{{GuideBy|FraGag}}
''(Updated by [[andlabs]] 24-25 July 2009 to the SVN disassembly.)''
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''(Updated by [[andlabs]] 24-25 July 2009 to the SVN disassembly). If you are not using the SVN disassembly, click [http://info.sonicretro.org/index.php?title=SCHG_How-to:Add_a_new_zone_in_Sonic_1&action=edit&oldid=99162 here]''
  
 
In ''[[Sonic the Hedgehog (16-bit)|Sonic 1]]'', there are technically 7 zones (not counting the special stage):
 
In ''[[Sonic the Hedgehog (16-bit)|Sonic 1]]'', there are technically 7 zones (not counting the special stage):

Revision as of 19:44, 31 August 2009

(Original guide by FraGag) (Updated by andlabs 24-25 July 2009 to the SVN disassembly). If you are not using the SVN disassembly, click here

In Sonic 1, there are technically 7 zones (not counting the special stage):

This guide will help you to add a new zone (which I'll name Alpha Beta Zone (ABZ) in this guide) as zone 07 using the Sonic Retro SVN disassembly. Remember to change ABZ to the name of your zone(s) in the given examples. Additional zones could be added by following these steps again. Some steps only need to be done once to support up to 256 zones; those steps are clearly identified as such.

Note that it is important to follow all these steps before attempting to try running the game, unless you entirely removed the feature related to the step you're about to follow. Otherwise, the game could try to load the wrong data or run invalid code.

Palette cycling routine

File: _inc\PaletteCycle.asm

The PaletteCycle routine is used to dynamically replace some colors in the palette at predefined intervals. The routine uses an offset table PCycle_Index to run the code corresponding to the zone the player is currently playing. You must add a routine (although it can be empty) for each level you add to the game, otherwise strange things will happen. Here is what PCycle_Index should look like after adding one zone: <asm>PCycle_Index: dc.w PCycle_GHZ-PCycle_Index

dc.w PCycle_LZ-PCycle_Index

dc.w PCycle_MZ-PCycle_Index

dc.w PalCycle_SLZ-PCycle_Index

dc.w PalCycle_SYZ-PCycle_Index

dc.w PalCycle_SBZ-PCycle_Index

dc.w PCycle_GHZ-PCycle_Index dc.w PCycle_ABZ-PCycle_Index</asm> You will probably want to replace ABZ with what corresponds to the name of your new zone.

Once you've added the zone to the offset table, we must define the routine. If you want no cycling palette, you can use this routine: <asm>; ||||||||||||||| S U B R O U T I N E |||||||||||||||||||||||||||||||||||||||


PalCycle_ABZ: ; XREF: PalCycle rts

End of function PalCycle_ABZ</asm>

Put this code close to the offset table, either right after the table, or after the end of PalCycle_SBZ (at the end of the file).

Collision pointers

File: sonic.asm

The new zone needs collision data. You may already have this data if you used SonED2. To do so, just add an entry to ColPointers. If this is the first zone you add, you will also need to define collision for the ending sequence "zone", as the collision is usually loaded elsewhere for the ending sequence. For the ending sequence, the collision data from Green Hill Zone will do. If you used collision data from another zone for your own, you can point to that zone's collision data directly; otherwise, you must point to your own data and incbin that data.

Here is what the collision array should look like with one additional zone, assuming the zone uses independent collision data: <asm>; ---------------------------------------------------------------------------

Collision index pointers
---------------------------------------------------------------------------

ColPointers: dc.l Col_GHZ

dc.l Col_LZ

dc.l Col_MZ

dc.l Col_SLZ

dc.l Col_SYZ

dc.l Col_SBZ dc.l Col_ABZ</asm> If you used independant collision data, you must also include it in your ROM. If want to keep your disassembly organized, you would include it where the rest of the collision data is defined. Find Col_SBZ, and after the even under it, add something like the following: <asm>Col_ABZ: incbin "collide\abz.bin" ; ABZ index even</asm>

Level size array

The level size array is used to set the level boundaries and to limit the camera movement when initially loading a level. The data is located in misc\Level Size Array.bin. Each act has 12 ($C) bytes and since the game reserves 4 acts for each zone for simplicity's sake, you will need to add 48 ($30) bytes for a zone. Look at the values used for the other zones to determine what works, and make sure to test it in the game.

Start location array

This array is used to position Sonic when starting a level, or restarting a level when a lamppost has not been hit yet. The data is located in misc\Start Location Array - Levels.bin. Each act has 4 bytes: 2 bytes for the X position and 2 bytes for the Y position.

Unknown data related to the level size

Files: _inc\LevelSizeLoad & BgScrollSpeed.asm and _inc\LevelSizeLoad & BgScrollSpeed (JP1).asm

There is some unknown data that is placed in RAM, which seems to be mostly unused. For the sake of completeness, we're going to add data for each new zone. The data is located at dword_61B4. By looking at the data itself, we can see that every zone has the same data, except for Green Hill Zone and the ending (which uses GHZ art). Let's use the one that appears the most often: <asm>dword_61B4: dc.l $700100, $1000100 dc.l $8000100, $1000000 dc.l $8000100, $1000000 dc.l $8000100, $1000000 dc.l $8000100, $1000000 dc.l $8000100, $1000000 dc.l $700100, $1000100 dc.l $8000100, $1000000</asm>

Background scrolling speed

Files: _inc\LevelSizeLoad & BgScrollSpeed.asm and _inc\LevelSizeLoad & BgScrollSpeed (JP1).asm

This subroutine is used to set the scroll speed of some backgrounds. If your background isn't too fancy, you can just use an empty routine. First, edit the offset table like this: <asm>BgScroll_Index: dc.w BgScroll_GHZ-BgScroll_Index, BgScroll_LZ-BgScroll_Index

dc.w BgScroll_MZ-BgScroll_Index, BgScroll_SLZ-BgScroll_Index

dc.w BgScroll_SYZ-BgScroll_Index, BgScroll_SBZ-BgScroll_Index

dc.w BgScroll_End-BgScroll_Index, BgScroll_ABZ-BgScroll_Index</asm> Then, add an empty routine after the routine for the ending. <asm>; ===========================================================================

BgScroll_ABZ: ; XREF: BgScroll_Index rts </asm>

Background layer deformation

Files: _inc\DeformLayers.asm and _inc\DeformLayers (JP1).asm

When moving in the level, the background lines sometimes scroll at different speeds. This is controlled by the background layer deformation routines. If you just want a plain scrolling background, you can use the routine for Labyrinth Zone. Otherwise, you'll have to program your own routine.

Here's what Deform_Index should look like: <asm>Deform_Index: dc.w Deform_GHZ-Deform_Index, Deform_LZ-Deform_Index dc.w Deform_MZ-Deform_Index, Deform_SLZ-Deform_Index dc.w Deform_SYZ-Deform_Index, Deform_SBZ-Deform_Index dc.w Deform_GHZ-Deform_Index, Deform_ABZ-Deform_Index</asm>

Dynamic screen resizing (and other level events)

File: _inc\DynamicLevelEvents.asm

This set of routines controls the camera and level boundaries when moving around in the level. They also create the boss objects in act 3. Add an entry for your new zone: <asm>; ---------------------------------------------------------------------------

Offset index for dynamic level events
---------------------------------------------------------------------------

DLE_Index: dc.w DLE_GHZ-DLE_Index, DLE_LZ-DLE_Index

dc.w DLE_MZ-DLE_Index, DLE_SLZ-DLE_Index

dc.w DLE_SYZ-DLE_Index, DLE_SBZ-DLE_Index

dc.w DLE_Ending-DLE_Index, dc.w DLE_ABZ-DLE_Index</asm> Then add the routine itself. If you have absolutely no need for dynamic screen resizing, you can simply create an empty routine: <asm>; ===========================================================================

---------------------------------------------------------------------------
Alpha Beta Zone sequence dynamic screen resizing (empty)
---------------------------------------------------------------------------

DLE_ABZ: ; XREF: DLE_Index rts</asm> If you need dynamic screen resizing (or think you might eventually), you can take this as a base to have separate code for each act: <asm>; ===========================================================================

---------------------------------------------------------------------------
Alpha Beta Zone sequence dynamic screen resizing (empty)
---------------------------------------------------------------------------

DLE_ABZ: ; XREF: DLEIndex moveq #0,d0 move.b ($FFFFFE11).w,d0 add.w d0,d0 move.w Resize_ABZx(pc,d0.w),d0 jmp Resize_ABZx(pc,d0.w)

===========================================================================

Resize_ABZx: dc.w Resize_ABZ1-Resize_SBZx dc.w Resize_ABZ2-Resize_SBZx dc.w Resize_ABZ3-Resize_SBZx

===========================================================================

Resize_ABZ1: rts

===========================================================================

Resize_ABZ2: rts

===========================================================================

Resize_ABZ3: rts

===========================================================================</asm>

Zone title card

First-time fix

File: _incObj\34 Title Cards.asm

You probably want to give your zone a cool name too, huh? Before you add new zones, you'll need to edit the title card object a little, because it's made to support only 6 zones. This only needs to be done once, and will support any number of zones (up to 256).

First, go to Card_CheckFZ and replace this: <asm> Card_CheckFZ:

move.w d0,d2

cmpi.w #(id_SBZ<<8)+2,(v_zone).w ; check if level is FZ

bne.s Card_LoadConfig

moveq #6,d0 ; load title card number 6 (FZ)

moveq #$B,d2 ; use "FINAL" mappings</asm> with this: <asm> Card_CheckFZ:

move.w d0,d2 cmpi.w #$502,(v_zone).w ; check if level is FZ bne.s Card_CheckNew moveq #6,d0 ; load title card number 6 (FZ) moveq #$B,d2 ; use "FINAL" mappings

Card_CheckNew: cmpi.b #7,(v_zone).w ; check if level is in the new zones blo.s Card_LoadConfig addq.b #$C-7,d2 ; use correct mappings</asm>

Zone-specific data

File: sonic.asm

When that's done, you need to add the actual data for your new zone. This section might be useful to edit the title card: SCHG:Sonic_the_Hedgehog/Text Editing#Level Title Cards. You should put the data for your new zone at the end of the mappings, i.e. after byte_CB8A, just before the even. You'll also need to add a pointer to your new mapping at Map_Card: <asm>Map_Card: dc.w M_Card_GHZ-Map_Card

dc.w M_Card_LZ-Map_Card

dc.w M_Card_MZ-Map_Card

dc.w M_Card_SLZ-Map_Card

dc.w M_Card_SYZ-Map_Card

dc.w M_Card_SBZ-Map_Card

dc.w M_Card_Zone-Map_Card

dc.w M_Card_Act1-Map_Card

dc.w M_Card_Act2-Map_Card

dc.w M_Card_Act3-Map_Card

dc.w M_Card_Oval-Map_Card

dc.w M_Card_FZ-Map_Card dc.w M_Card_ABZ-Map_Card</asm> This is what the mapping for Alpha Beta Zone looks like: <asm>M_Card_ABZ: dc.b 9 dc.b $F8, 5, 0, 0, $B0 ; A dc.b $F8, 5, 0, $26, $C0 ; L dc.b $F8, 5, 0, $36, $D0 ; P dc.b $F8, 5, 0, $1C, $E0 ; H dc.b $F8, 5, 0, 0, $F0 ; A dc.b $F8, 5, 0, 4, $10 ; B dc.b $F8, 5, 0, $10, $20 ; E dc.b $F8, 5, 0, $42, $30 ; T dc.b $F8, 5, 0, 0, $40 ; A</asm>

File: _incObj\34 Title Cards.asm

You will also need to position the parts of the title card manually in Card_ConData. Add a line like this at the end of the table <asm> dc.w 0, $120, $FF04, $144, $41C, $15C, $21C, $15C ; ABZ</asm>

Level order

The level order tells which level to load when an act has been completed. The data is stored in misc\Level Order.bin. Each act takes 2 bytes (the zone and the act), so each zone takes 8 bytes. Again, there is no data for the ending zone, so add 8 "00" bytes at the end of the file, then add the zone and act the game should bring the player to when the level is complete.

Don't understand how it works? Let's take an example: let's say you just completed Marble Zone act 2. The game needs to know what level it will load next. Since Marble Zone is zone 02, skip 2 * 8 bytes, i.e. 16 or $10 bytes. Then, skip 2 more bytes for act 1. At 00000012, there's "02 02", which means that zone 02 (Marble Zone) act 02 (act 3 — remember that the zone and act numbers are zero-based) will be loaded.

If you want to incorporate your new zone in the level flow, you'll need to edit at least one of the values to point to your new zone, then at the end of your zone, point back to one of the existing zones (or yet another new zone).

Music playlists

(Mostly rewritten by andlabs.) File: sonic.asm

Sonic 1 has 2 music playlists: one to play music when loading the level and one to resume it when invincibility wears off. For the first list, just place the pointer to the music — we'll add that later — at the end of the list: <asm>; ---------------------------------------------------------------------------

Music playlist
---------------------------------------------------------------------------

MusicList: dc.b bgm_GHZ, bgm_LZ, bgm_MZ, bgm_SLZ, bgm_SYZ, bgm_SBZ, bgm_FZ, bgm_ABS

even</asm> Do the same for the second list: <asm>; ---------------------------------------------------------------------------

Music to play after invincibility wears off
---------------------------------------------------------------------------

MusicList2: dc.b bgm_GHZ, bgm_LZ, bgm_MZ, bgm_SLZ, bgm_SYZ, bgm_SBZ, bgm_ABZ

even</asm>

File: Constants.asm

Now we just need to add our music ID. I'll just clone Labyrinth Zone's music, but you can add your own song: <asm>bgm_ABZ: equ ((ptr_mus82-MusicIndex)/4)+$81</asm>

Animated level graphics

File: _inc\AnimateLevelGfx.asm

Some zones have animated art in the foreground or in the background. This is handled by AnimateLevelGfx. The zones that don't have any animated art use AniArt_none, and to keep things simple, this is what I will do for ABZ: <asm>AniArt_Index: dc.w AniArt_GHZ-AniArt_Index, AniArt_none-AniArt_Index

dc.w AniArt_MZ-AniArt_Index, AniArt_none-AniArt_Index

dc.w AniArt_none-AniArt_Index, AniArt_SBZ-AniArt_Index

dc.w AniArt_Ending-AniArt_Index, AniArt_none-AniArt_Index</asm>

Object debug list

File: _inc\DebugList.asm

If you didn't remove debug mode from your hack, you must add an object debug list to your zone. First, add a pointer to the new list for your zone: <asm>DebugList:

dc.w @GHZ-DebugList

dc.w @LZ-DebugList

dc.w @MZ-DebugList

dc.w @SLZ-DebugList

dc.w @SYZ-DebugList

dc.w @SBZ-DebugList

dc.w @Ending-DebugList dc.w @ABZ-DebugList</asm> Then, add the new list to the ASM file: <asm>@ABC:

dc.w (@ABZend-@ABZ-2)/8


dbug Map_Ring, id_Rings, 0, 0, $27$B2 dbug Map_Monitor, id_Monitor, 0, 0, $680

dbug Map_Lamp, id_Lamppost, 1, 0, $7A0 @ABCend:</asm>

Pattern load cues (zone and animals)

Zone-specific data

File: _inc\Pattern Load Cues.asm

The pattern load cues are used to load art to be displayed on the screen. The way the PLCs are arranged in Sonic 1, there will be some problems with the animal PLCs, but the zone PLCs are retrieved from the main level load blocks, so no special treatment is required for those.

First, add the PLCs for your new zone at the end of the table at the beginning: <asm>ptr_PLC_ABZ: dc.w PLC_ABZ-ArtLodCues</asm> Then, add the ID of the PLC into the index list at the end of the file: <asm>plcid_ABZ: equ (ptr_PLC_ABZ-ArtLodCues)/2 ; $20</asm>

If you have added other PLCs before this, you may need to adjust some indices in the code below. If you declare your PLCs in another way, the code in this section won't work. The rest of this section only needs to be followed once.

First-time fix

File: sonic.asm

Now, since the animals PLCs are scattered across the table, we are going to use this new subroutine to load the correct PLC. Put it just before AddPLC: <asm>; ---------------------------------------------------------------------------

Subroutine to load the art for the animals for the current zone
---------------------------------------------------------------------------
||||||||||||||| S U B R O U T I N E |||||||||||||||||||||||||||||||||||||||


LoadAnimalPLC: moveq #0,d0 move.b (v_level).w,d0 cmpi.w #7,d0 bhs.s LoadAnimalPLC_New addi.w #$15,d0 bra.s AddPLC

---------------------------------------------------------------------------

LoadAnimalPLC_New: subi.w #7,d0 ; multiply d0 by 3 move.w d0,d1 add.w d0,d0 add.w d1,d0 ; add $22 (this is the index of the animal PLC for the first added zone) addi.w #$22,d0 ; bra.s LoadPLC

End of function LoadAnimalPLC</asm>

Now that we have this subroutine, we can replace the two instances in the code that load the animal graphics. Go to Level_ClrCardArt and replace this: <asm>Level_ClrCardArt:

moveq #plcid_Explode,d0

jsr (AddPLC).l ; load explosion gfx

moveq #0,d0

move.b (v_zone).w,d0

addi.w #plcid_GHZAnimals,d0

jsr (AddPLC).l ; load animal gfx (level no. + $15)</asm> with this: <asm>Level_ClrCardArt: moveq #plcid_Explode,d0 jsr (AddPLC).l ; load explosion patterns jsr (LoadAnimalPLC).l ; load animal patterns</asm>

File: _incObj\34 Title Cards.asm

Then, go to Card_ChangeArt and replace this: <asm>Card_ChangeArt: ; XREF: Card_ChkPos2

cmpi.b #4,obRoutine(a0)

bne.s Card_Delete

moveq #plcid_Explode,d0

jsr (AddPLC).l ; load explosion patterns

moveq #0,d0

move.b (v_zone).w,d0

addi.w #plcid_GHZAnimals,d0

jsr (AddPLC).l ; load animal patterns</asm> with this: <asm>Card_ChangeArt: ; XREF: Obj34_ChkPos2 cmpi.b #4,obRoutine(a0) bne.s Card_Delete moveq #plcid_Explode,d0 jsr (AddPLC).l ; load explosion patterns jsr (LoadAnimalPLC).l ; load animal patterns</asm>

Zone palette

File: _inc\Palette Pointers.asm

Your new level needs a palette, otherwise it will be all black or full of random colors. Add this line at the end of the PalPointers array but before the "even": <asm>ptr_Pal_ABZ: palp Pal_ABZ,$FB20,$17 ; $14 (20) - ABZ</asm> Add this line to the end of the file: <asm>palid_ABZ: equ (ptr_Pal_ABZ-PalPointers)/8</asm>

File: sonic.asm

Finally, add this line after Pal_Ending: <asm>Pal_ABZ: incbin "palette\ABZ.bin"</asm>

Main level load blocks

File: _inc\LevelHeaders.asm"

The main level load blocks tell the game what to load for a specific zone. They point to the level patterns, to the 16x16 blocks, to the 256x256 chunks, the 2 pattern load cues used to load the art for the level and the palette used in the level.

By looking at how this data is defined for the existing levels and reading the comments at the beginning of the file, you should be able to figure out how to configure your zone. Here is how ABZ is defined (this goes just before the even directive): <asm> lhead plcid_ABZ, Nem_ABZ, plcid_ABZ, Blk16_ABZ, Blk256_ABZ, bgm_ABZ, palid_ABZ ; ABZ</asm>

File: sonic.asm

You must also incbin the data for the zone. Add these lines before Nem_Eggman: <asm>Blk16_ABZ: incbin "map16\ABZ.bin" even Nem_ABZ: incbin "artnem\8x8 - ABZ.bin" ; ABZ primary patterns even Blk256_ABZ: incbin "map256\ABZ.bin" even</asm>

Level layout index

File: sonic.asm

This is probably one of the first things you'd have thought of, yet we're doing it only now! Still, it must be done, so go to Level_Index. This huge array defines the foreground layout, the background layout and another layout that appears to be unused (most of the time, it is empty). For simplicity, I will assume that you have 3 acts, and that all your acts use the same background (look at Scrap Brain Zone for an example of a zone with different backgrounds).

First, add entries at the end of the table for your new zone, like this (byte_6A320 points to an empty layout): <asm> dc.w Level_ABZ1-Level_Index, Level_ABZbg-Level_Index, byte_6A320-Level_Index dc.w Level_ABZ2-Level_Index, Level_ABZbg-Level_Index, byte_6A320-Level_Index dc.w Level_ABZ3-Level_Index, Level_ABZbg-Level_Index, byte_6A320-Level_Index dc.w byte_6A320-Level_Index, byte_6A320-Level_Index, byte_6A320-Level_Index</asm> Then, incbin the layouts. Add this after byte_6A320: <asm>Level_ABZ1: incbin levels\abz1.bin even Level_ABZ2: incbin levels\abz2.bin even Level_ABZ3: incbin levels\abz3.bin even Level_ABZbg: incbin levels\abzbg.bin even</asm>

Objects positions index

First-time fix

File: sonic.asm

Your levels would be boring if they didn't have objects, wouldn't they? However, there's a small problem with how the object layouts are organized in the ROM: the platforms on conveyor belts from Labyrinth Zone and Scrap Brain Zone use data that is put in the same data table as the rest of the object layouts, so we can't add data for new zones without breaking them. Fortunately, it's not too hard to work around this issue by editing the way they are referenced. This only needs to be done once.

First, we will add 2 labels to effectively break the table in 3. We will then use those labels in their respective tables to compute the offsets. The end of the table should look like this: <asm>; ... dc.w ObjPos_End-ObjPos_Index, ObjPos_Null-ObjPos_Index dc.w ObjPos_End-ObjPos_Index, ObjPos_Null-ObjPos_Index dc.w ObjPos_End-ObjPos_Index, ObjPos_Null-ObjPos_Index dc.w ObjPos_End-ObjPos_Index, ObjPos_Null-ObjPos_Index

ObjPos_LZxpf_Index: dc.w ObjPos_LZ1pf1-ObjPos_LZxpf_Index, ObjPos_LZ1pf2-ObjPos_LZxpf_Index dc.w ObjPos_LZ2pf1-ObjPos_LZxpf_Index, ObjPos_LZ2pf2-ObjPos_LZxpf_Index dc.w ObjPos_LZ3pf1-ObjPos_LZxpf_Index, ObjPos_LZ3pf2-ObjPos_LZxpf_Index dc.w ObjPos_LZ1pf1-ObjPos_LZxpf_Index, ObjPos_LZ1pf2-ObjPos_LZxpf_Index

ObjPos_SBZ1pf_Index: dc.w ObjPos_SBZ1pf1-ObjPos_SBZ1pf_Index, ObjPos_SBZ1pf2-ObjPos_SBZ1pf_Index dc.w ObjPos_SBZ1pf3-ObjPos_SBZ1pf_Index, ObjPos_SBZ1pf4-ObjPos_SBZ1pf_Index dc.w ObjPos_SBZ1pf5-ObjPos_SBZ1pf_Index, ObjPos_SBZ1pf6-ObjPos_SBZ1pf_Index dc.w ObjPos_SBZ1pf1-ObjPos_SBZ1pf_Index, ObjPos_SBZ1pf2-ObjPos_SBZ1pf_Index</asm>

File: _incObj\63 LZ Conveyor.asm

Then, we will edit the platform objects to reference the data by using these new labels. Go to loc_12460. Replace these two lines: <asm> addi.w #$70,d0 lea (ObjPos_Index).l,a2</asm> with this single line: <asm> lea (ObjPos_LZxpf_Index).l,a2</asm>

File: _incObj\6F SBZ Spin Platform Conveyor.asm

Now, go to loc_1639A. Similarly, replace these two lines: <asm> addi.w #$80,d0 lea (ObjPos_Index).l,a2</asm> with this line: <asm> lea (ObjPos_SBZ1pf_Index).l,a2</asm>

Zone-specific data

File: sonic.asm

Now that this is done, we can add object layouts for new zones right before ObjPos_LZxpf_Index (without making the platforms behave incorrectly), like this: <asm> dc.w ObjPos_ABZ1-ObjPos_Index, ObjPos_Null-ObjPos_Index dc.w ObjPos_ABZ2-ObjPos_Index, ObjPos_Null-ObjPos_Index dc.w ObjPos_ABZ3-ObjPos_Index, ObjPos_Null-ObjPos_Index dc.w ObjPos_ABZ1-ObjPos_Index, ObjPos_Null-ObjPos_Index</asm> Then, incbin the object positions: <asm>ObjPos_ABZ1: incbin objpos\abz1.bin even ObjPos_ABZ2: incbin objpos\abz2.bin even ObjPos_ABZ3: incbin objpos\abz3.bin even</asm>

Build errors

After applying these steps on a clean Sonic 1 disassembly, I got the following build errors:

  • Error : Branch (32784 bytes) is out of range (near ESth_Move)
  • Error : Illegal value (136)
File: _incObj\89 Ending Sequence STH.asm

The first error points to this line: <asm> bra.w DisplaySprite</asm> Replace bra.w with jmp to fix this error. If you've further altered your hack, you may encounter similar "out of range" errors. If that happens, replace bra.s with bra.w or bra.w with jmp.

File: _inc\LevelSizeLoad & BgScrollSpeed.asm

The second errors occurs on this line: <asm> move.l LoopTileNums(pc,d0.w),(v_256loop1).w</asm> Since we extended the start location array, the loop tile numbers are a bit too far away. You can fix this quickly by moving these 4 lines just after LevSz_Unk: <asm> moveq #0,d0

move.b (v_zone).w,d0

lsl.b #2,d0

move.l LoopTileNums(pc,d0.w),(v_256loop1).w</asm>

Conclusion

Alpha Beta Zone

If you've applied these steps correctly, you should be able to build your ROM and enjoy your new level. Here's a list of the binary files you need to add to be able to build your ROM:

  • pallet\abz.bin
  • map16\abz.bin
  • artnem\8x8abz.bin
  • map256\abz.bin
  • collide\abz.bin
  • levels\abz1.bin
  • levels\abz2.bin
  • levels\abz3.bin
  • levels\abzbg.bin
  • objpos\abz1.bin
  • objpos\abz2.bin
  • objpos\abz3.bin

If you didn't do so yet, you may want to follow Puto's guide to fix the SEGA sound.