path: root/utils.gbasm

memcpy: ; src = DE, dest = HL, n = BC
	memcpy.loop:
		LD A, (DE)
		LD (HL+), A
		INC DE
		DEC BC
		XOR A
		CP B
		JR NZ =memcpy.loop
		CP C
		JR NZ =memcpy.loop
	RET

bzero: ; dest = HL, n = BC
	LD A, $00
	bzero.loop:
		LD (HL+), A
		INC DE
		DEC BC
		CP B
		JR NZ =bzero.loop
		CP C
		JR NZ =bzero.loop
	RET

.MACRODEF ABS
	BIT 7, A
	JR Z, =$end
	XOR $ff
	INC A
	$end:
.END

.MACRODEF CALL_DE
	LD BC, =$end
	PUSH BC
	PUSH DE
	RET
	$end:
.END

.MACRODEF JUMP_TABLE ; Jump table pointer in BC, index in A, also overwrites DE
	LD E, A
	LD D, $00

	SLA E
	RL D
	SLA E
	RL D

	LD A, E
	ADD C
	LD E, A
	LD A, D
	ADC B
	LD D, A

	.CALL_DE
.END

Print_8bit: ; Number in A, Memory Tilemap position in HL
	PUSH AF
	PUSH BC

	LD C, A
	SWAP A 				   ; We start by the highest nibble
	AND $0f
	OR $80
	LD (HL+), A
	
	LD A, C
	AND $0f 			   ; Then the lowest
	OR $80
	LD (HL+), A

	POP BC
	POP AF
	RET

Print_str: ; Memory Tilemap position in HL, Text address in BC, FF ended
	PUSH AF
	PUSH BC

	Print_str.loop:
		LD A, (BC)
		CP $ff
		JR Z, =Print_str.end

		LD (HL+), A
		INC BC
		JR =Print_str.loop

	Print_str.end:
	POP BC
	POP AF
	RET

MUL: ; B x C => EA
	XOR A
	LD E, $00

	BIT 7, B
	JR Z, =MUL.bit7
		ADD C
	MUL.bit7:

	SLA A
	RL E

	BIT 6, B
	JR Z, =MUL.bit6
		ADD C
	MUL.bit6:

	SLA A
	RL E

	BIT 5, B
	JR Z, =MUL.bit5
		ADD C
	MUL.bit5:

	SLA A
	RL E

	BIT 4, B
	JR Z, =MUL.bit4
		ADD C
	MUL.bit4:

	SLA A
	RL E

	BIT 3, B
	JR Z, =MUL.bit3
		ADD C
	MUL.bit3:

	SLA A
	RL E

	BIT 2, B
	JR Z, =MUL.bit2
		ADD C
	MUL.bit2:

	SLA A
	RL E

	BIT 1, B
	JR Z, =MUL.bit1
		ADD C
	MUL.bit1:

	SLA A
	RL E

	BIT 0, B
	JR Z, =MUL.bit0
		ADD C
	MUL.bit0:
	RET

VBlank_Wait:
	PUSH AF
	LD A, $reg_lcd_controller
	BIT 7, A
	JR Z, =VBlank_Wait.End
	VBlank_Wait.loop:
	LD A, $reg_lcd_status
	AND $03
	CP $01
	JR NZ, =VBlank_Wait.loop
	VBlank_Wait.End:
	POP AF
	RET