ref: b509b48a7f5a9a80225b9c030d7334b26b521c62
dir: /macros.asm/
text EQUS "db $00," ; Start writing text. next EQUS "db $4e," ; Move a line down. line EQUS "db $4f," ; Start writing at the bottom line. para EQUS "db $51," ; Start a new paragraph. cont EQUS "db $55," ; Scroll to the next line. done EQUS "db $57" ; End a text box. prompt EQUS "db $58" ; Prompt the player to end a text box (initiating some other event). page EQUS "db $49," ; Start a new Pokedex page. dex EQUS "db $5f, $50" ; End a Pokedex entry. percent EQUS "* $ff / 100" ; Constant enumeration is useful for monsters, items, moves, etc. const_def: MACRO const_value = 0 ENDM const: MACRO \1 EQU const_value const_value = const_value + 1 ENDM homecall: MACRO ld a, [H_LOADEDROMBANK] push af ld a, BANK(\1) ld [H_LOADEDROMBANK], a ld [MBC1RomBank], a call \1 pop af ld [H_LOADEDROMBANK], a ld [MBC1RomBank], a ENDM callba: MACRO ld b, BANK(\1) ld hl, \1 call Bankswitch ENDM callab: MACRO ld hl, \1 ld b, BANK(\1) call Bankswitch ENDM bcd2: MACRO dn ((\1) / 1000) % 10, ((\1) / 100) % 10 dn ((\1) / 10) % 10, (\1) % 10 ENDM bcd3: MACRO dn ((\1) / 100000) % 10, ((\1) / 10000) % 10 dn ((\1) / 1000) % 10, ((\1) / 100) % 10 dn ((\1) / 10) % 10, (\1) % 10 ENDM coins equs "bcd2" money equs "bcd3" ;\1 = X ;\2 = Y hlCoord: MACRO ld hl, wTileMap + 20 * \2 + \1 ENDM ;\1 = X ;\2 = Y deCoord: MACRO ld de, wTileMap + 20 * \2 + \1 ENDM ;\1 = X ;\2 = Y bcCoord: MACRO ld bc, wTileMap + 20 * \2 + \1 ENDM ;\1 = X ;\2 = Y aCoord: MACRO ld a, [wTileMap + 20 * \2 + \1] ENDM ;\1 = X ;\2 = Y Coorda: MACRO ld [wTileMap + 20 * \2 + \1], a ENDM ;\1 = X ;\2 = Y dwCoord: MACRO dw wTileMap + 20 * \2 + \1 ENDM ;\1 = Map Width ;\2 = Rows above (Y-blocks) ;\3 = X movement (X-blocks) EVENT_DISP: MACRO dw (wOverworldMap + 7 + (\1) + ((\1) + 6) * ((\2) >> 1) + ((\3) >> 1)) ; Ev.Disp db \2,\3 ;Y,X ENDM FLYWARP_DATA: MACRO EVENT_DISP \1,\2,\3 db ((\2) & $01) ;sub-block Y db ((\3) & $01) ;sub-block X ENDM ; external map entry macro EMAP: MACRO ; emap x-coordinate,y-coordinate,textpointer ; the appearance of towns and routes in the town map, indexed by map id ; nybble: y-coordinate ; nybble: x-coordinate ; word : pointer to map name db (\1 + (\2 << 4)) dw \3 ENDM ; internal map entry macro IMAP: MACRO ; imap mapid_less_than,x-coordinate,y-coordinate,textpointer ; the appearance of buildings and dungeons in the town map ; byte : maximum map id subject to this rule ; nybble: y-coordinate ; nybble: x-coordinate ; word : pointer to map name db \1 db \2 + \3 << 4 dw \4 ENDM ; tilesets' headers macro tileset: MACRO db BANK(\2) ; BANK(GFX) dw \1, \2, \3 ; Block, GFX, Coll db \4, \5, \6 ; counter tiles db \7 ; grass tile db \8 ; permission (indoor, cave, outdoor) ENDM INDOOR EQU 0 CAVE EQU 1 OUTDOOR EQU 2 ; macro for two nibbles dn: MACRO db (\1 << 4 | \2) ENDM ; macro for putting a byte then a word dbw: MACRO db \1 dw \2 ENDM ; data format macros RGB: MACRO dw (\3 << 10 | \2 << 5 | \1) ENDM ; text macros TX_NUM: MACRO ; print a big-endian decimal number. ; \1: address to read from ; \2: number of bytes to read ; \3: number of digits to display db $09 dw \1 db \2 << 4 | \3 ENDM TX_FAR: MACRO db $17 dw \1 db BANK(\1) ENDM ; text engine command $1 TX_RAM: MACRO ; prints text to screen ; \1: RAM address to read from db $1 dw \1 ENDM TX_BCD: MACRO db $2 dw \1 db \2 ENDM TX_ASM: MACRO db $08 ENDM ; Predef macro. add_predef: MACRO \1Predef:: db BANK(\1) dw \1 ENDM predef_id: MACRO ld a, (\1Predef - PredefPointers) / 3 ENDM predef: MACRO predef_id \1 call Predef ENDM predef_jump: MACRO predef_id \1 jp Predef ENDM add_tx_pre: MACRO \1_id:: dw \1 ENDM tx_pre_id: MACRO ld a, (\1_id - TextPredefs) / 2 + 1 ENDM tx_pre: MACRO tx_pre_id \1 call PrintPredefTextID ENDM tx_pre_jump: MACRO tx_pre_id \1 jp PrintPredefTextID ENDM ;1_channel EQU $00 ;2_channels EQU $40 ;3_channels EQU $80 ;4_channels EQU $C0 CH0 EQU 0 CH1 EQU 1 CH2 EQU 2 CH3 EQU 3 CH4 EQU 4 CH5 EQU 5 CH6 EQU 6 CH7 EQU 7 unknownsfx0x10: MACRO db $10 db \1 ENDM unknownsfx0x20: MACRO db $20 | \1 db \2 db \3 db \4 ENDM unknownnoise0x20: MACRO db $20 | \1 db \2 db \3 ENDM ;format: pitch length (in 16ths) C_: MACRO db $00 | (\1 - 1) ENDM C#: MACRO db $10 | (\1 - 1) ENDM D_: MACRO db $20 | (\1 - 1) ENDM D#: MACRO db $30 | (\1 - 1) ENDM E_: MACRO db $40 | (\1 - 1) ENDM F_: MACRO db $50 | (\1 - 1) ENDM F#: MACRO db $60 | (\1 - 1) ENDM G_: MACRO db $70 | (\1 - 1) ENDM G#: MACRO db $80 | (\1 - 1) ENDM A_: MACRO db $90 | (\1 - 1) ENDM A#: MACRO db $A0 | (\1 - 1) ENDM B_: MACRO db $B0 | (\1 - 1) ENDM ;format: instrument length (in 16ths) snare1: MACRO db $B0 | (\1 - 1) db $01 ENDM snare2: MACRO db $B0 | (\1 - 1) db $02 ENDM snare3: MACRO db $B0 | (\1 - 1) db $03 ENDM snare4: MACRO db $B0 | (\1 - 1) db $04 ENDM snare5: MACRO db $B0 | (\1 - 1) db $05 ENDM triangle1: MACRO db $B0 | (\1 - 1) db $06 ENDM triangle2: MACRO db $B0 | (\1 - 1) db $07 ENDM snare6: MACRO db $B0 | (\1 - 1) db $08 ENDM snare7: MACRO db $B0 | (\1 - 1) db $09 ENDM snare8: MACRO db $B0 | (\1 - 1) db $0A ENDM snare9: MACRO db $B0 | (\1 - 1) db $0B ENDM cymbal1: MACRO db $B0 | (\1 - 1) db $0C ENDM cymbal2: MACRO db $B0 | (\1 - 1) db $0D ENDM cymbal3: MACRO db $B0 | (\1 - 1) db $0E ENDM mutedsnare1: MACRO db $B0 | (\1 - 1) db $0F ENDM triangle3: MACRO db $B0 | (\1 - 1) db $10 ENDM mutedsnare2: MACRO db $B0 | (\1 - 1) db $11 ENDM mutedsnare3: MACRO db $B0 | (\1 - 1) db $12 ENDM mutedsnare4: MACRO db $B0 | (\1 - 1) db $13 ENDM ;format: rest length (in 16ths) rest: MACRO db $C0 | (\1 - 1) ENDM ; format: notetype speed, volume, fade notetype: MACRO db $D0 | \1 db (\2 << 4) | \3 ENDM dspeed: MACRO db $D0 | \1 ENDM octave: MACRO db $E8 - \1 ENDM toggleperfectpitch: MACRO db $E8 ENDM ;format: vibrato delay, rate, depth vibrato: MACRO db $EA db \1 db (\2 << 4) | \3 ENDM pitchbend: MACRO db $EB db \1 db \2 ENDM duty: MACRO db $EC db \1 ENDM tempo: MACRO db $ED db \1 / $100 db \1 % $100 ENDM stereopanning: MACRO db $EE db \1 ENDM volume: MACRO db $F0 db (\1 << 4) | \2 ENDM executemusic: MACRO db $F8 ENDM dutycycle: MACRO db $FC db \1 ENDM ;format: callchannel address callchannel: MACRO db $FD dw \1 ENDM ;format: loopchannel count, address loopchannel: MACRO db $FE db \1 dw \2 ENDM endchannel: MACRO db $FF ENDM ;\1 (byte) = connected map id ;\2 (byte) = connected map width ;\3 (byte) = connected map height ;\4 (byte) = x movement of connection strip ;\5 (byte) = connection strip offset ;\6 (byte) = width of connection strip ;\7 (word) = connected map blocks pointer NORTH_MAP_CONNECTION: MACRO db \1 ; map id dw \7 + (\2 * (\3 - 3)) + \5; "Connection Strip" location dw wOverworldMap + 3 + \4 ; current map position db \6 ; width of connection strip db \2 ; map width db (\3 * 2) - 1 ; y alignment (y coordinate of player when entering map) db (\4 - \5) * -2 ; x alignment (x coordinate of player when entering map) dw wOverworldMap + 1 + (\3 * (\2 + 6)) ; window (position of the upper left block after entering the map) ENDM ;\1 (byte) = connected map id ;\2 (byte) = connected map width ;\3 (byte) = x movement of connection strip ;\4 (byte) = connection strip offset ;\5 (byte) = width of connection strip ;\6 (word) = connected map blocks pointer ;\7 (byte) = current map width ;\8 (byte) = current map height SOUTH_MAP_CONNECTION: MACRO db \1 ; map id dw \6 + \4 ; "Conection Strip" location dw wOverworldMap + 3 + (\8 + 3) * (\7 + 6) + \3 ; current map positoin db \5 ; width of connection strip db \2 ; map width db 0 ; y alignment (y coordinate of player when entering map) db (\3 - \4) * -2 ; x alignment (x coordinate of player when entering map) dw wOverworldMap + 7 + \2 ; window (position of the upper left block after entering the map) ENDM ;\1 (byte) = connected map id ;\2 (byte) = connected map width ;\3 (byte) = y movement of connection strip ;\4 (byte) = connection strip offset ;\5 (byte) = height of connection strip ;\6 (word) = connected map blocks pointer ;\7 (byte) = current map width EAST_MAP_CONNECTION: MACRO db \1 ; map id dw \6 + (\2 * \4) ; "Connection Strip" location dw wOverworldMap - 3 + (\7 + 6) * (\3 + 4) ; current map position db \5 ; height of connection strip db \2 ; map width db (\3 - \4) * -2 ; y alignment db 0 ; x alignment dw wOverworldMap + 7 + \2 ; window (position of the upper left block after entering the map) ENDM ;\1 (byte) = connected map id ;\2 (byte) = connected map width ;\3 (byte) = y movement of connection strip ;\4 (byte) = connection strip offset ;\5 (byte) = height of connection strip ;\6 (word) = connected map blocks pointer ;\7 (byte) = current map width WEST_MAP_CONNECTION: MACRO db \1 ; map id dw \6 + (\2 * \4) + \2 - 3 ; "Connection Strip" location dw wOverworldMap + (\7 + 6) * (\3 + 3) ; current map position db \5 ; height of connection strip db \2 ; map width db (\3 - \4) * -2 ; y alignment db (\2 * 2) - 1 ; x alignment dw wOverworldMap + 6 + (2 * \2) ; window (position of the upper left block after entring the map) ENDM