[AC2] Aula03 Refactor

Signed-off-by: TiagoRG <tiago.rgarcia@ua.pt>
2024-03-01 22:31:31 +00:00 · 2024-03-01 22:31:31 +00:00 · 6a1247a70f
parent 2dde2e5059
commit 6a1247a70f
7 changed files with 59 additions and 91 deletions
--- a/2ano/2semestre/ac2/aula03/part2-1.s
+++ b/2ano/2semestre/ac2/aula03/part2-1.s
@ -12,8 +12,8 @@
 	.equ	PORTE, 0x6110
 	.equ	LATE,  0x6120
-	.equ READ_CORE_TIMER, 11
+	.equ	READ_CORE_TIMER, 11
-	.equ RESET_CORE_TIMER, 12
+	.equ	RESET_CORE_TIMER, 12
 	.data
 	.text
--- a/2ano/2semestre/ac2/aula03/part2-2.s
+++ b/2ano/2semestre/ac2/aula03/part2-2.s
@ -12,8 +12,8 @@
 	.equ	PORTE, 0x6110
 	.equ	LATE,  0x6120
-	.equ READ_CORE_TIMER, 11
+	.equ	READ_CORE_TIMER, 11
-	.equ RESET_CORE_TIMER, 12
+	.equ	RESET_CORE_TIMER, 12
 	.data
 	.text
--- a/2ano/2semestre/ac2/aula03/part2-3.s
+++ b/2ano/2semestre/ac2/aula03/part2-3.s
@ -12,8 +12,8 @@
 	.equ	PORTE, 0x6110
 	.equ	LATE,  0x6120
-	.equ READ_CORE_TIMER, 11
+	.equ	READ_CORE_TIMER, 11
-	.equ RESET_CORE_TIMER, 12
+	.equ	RESET_CORE_TIMER, 12
 	.data
 	.text
--- a/2ano/2semestre/ac2/aula03/part2-4.s
+++ b/2ano/2semestre/ac2/aula03/part2-4.s
@ -12,8 +12,8 @@
 	.equ	PORTE, 0x6110
 	.equ	LATE,  0x6120
-	.equ READ_CORE_TIMER, 11
+	.equ	READ_CORE_TIMER, 11
-	.equ RESET_CORE_TIMER, 12
+	.equ	RESET_CORE_TIMER, 12
 	.data
 	.text
--- a/2ano/2semestre/ac2/aula03/part2-5.s
+++ b/2ano/2semestre/ac2/aula03/part2-5.s
@ -1,19 +1,9 @@
 	.equ	ADDR_BASE, 0xBF88
 	.equ	TRISB, 0x6040
 	.equ	PORTB, 0x6050
 	.equ	LATB,  0x6060
 	.equ	TRISC, 0x6080
 	.equ	PORTC, 0x6090
 	.equ	LATC,  0x60A0
 	.equ	TRISD, 0x60C0
 	.equ	PORTD, 0x60D0
 	.equ	LATD,  0x60E0
 	.equ	TRISE, 0x6100
 	.equ	PORTE, 0x6110
 	.equ	LATE,  0x6120
-	.equ READ_CORE_TIMER, 11
+	.equ	READ_CORE_TIMER, 11
-	.equ RESET_CORE_TIMER, 12
+	.equ	RESET_CORE_TIMER, 12
 	.data
 	.text
@ -33,11 +23,11 @@ main:
 	li	$t0, 0x0001			# Iniciar contagem
 loop:
-	lw	$t2, LATE($t7)
+	lw	$t1, LATE($t7)
-	andi	$t2, $t2, 0xFFE1		# 1111 1111 1110 0001 (reset bits 4-1)
+	andi	$t1, $t1, 0xFFE1		# 1111 1111 1110 0001 (reset bits 4-1)
-	sll	$t3, $t0, 1			# shift do contador para os bits 4-1
+	sll	$t2, $t0, 1			# shift do contador para os bits 4-1
-	or	$t2, $t2, $t3			# merge contador com valor do LATE
+	or	$t1, $t1, $t2			# merge contador com valor do LATE
-	sw	$t2, LATE($t7)			# atualiza valor do LATE
+	sw	$t1, LATE($t7)			# atualiza valor do LATE
 	li	$v0, RESET_CORE_TIMER
 	syscall
@ -45,16 +35,15 @@ loop:
 delay:
 	li	$v0, READ_CORE_TIMER
 	syscall
-	move	$t6, $v0
+	move	$t2, $v0
-	blt	$t6, 13333333, delay
+	blt	$t2, 13333333, delay
-	lw	$t4, LATE($t7)			# ler valor dos leds
+	andi	$t1, $t1, 0x0010		# isolar bit 4
-	andi	$t4, $t4, 0x0010		# isolar bit 4
+	srl	$t1, $t1, 4			# colocar bit na posição menos significativa para o contador
-	srl	$t4, $t4, 4			# colocar bit na posição menos significativa para o contador
+	xori	$t1, $t1, 0x0001		# negar bit
 	xori	$t4, $t4, 0x0001		# negar bit
 	sll	$t0, $t0, 1			# shift left do contador
-	or	$t0, $t0, $t4			# colocar bit lido no contador
+	or	$t0, $t0, $t1			# colocar bit lido no contador
 	j	loop
--- a/2ano/2semestre/ac2/aula03/part2-6.s
+++ b/2ano/2semestre/ac2/aula03/part2-6.s
@ -1,19 +1,9 @@
 	.equ	ADDR_BASE, 0xBF88
 	.equ	TRISB, 0x6040
 	.equ	PORTB, 0x6050
 	.equ	LATB,  0x6060
 	.equ	TRISC, 0x6080
 	.equ	PORTC, 0x6090
 	.equ	LATC,  0x60A0
 	.equ	TRISD, 0x60C0
 	.equ	PORTD, 0x60D0
 	.equ	LATD,  0x60E0
 	.equ	TRISE, 0x6100
 	.equ	PORTE, 0x6110
 	.equ	LATE,  0x6120
-	.equ READ_CORE_TIMER, 11
+	.equ	READ_CORE_TIMER, 11
-	.equ RESET_CORE_TIMER, 12
+	.equ	RESET_CORE_TIMER, 12
 	.data
 	.text
@ -33,11 +23,11 @@ main:
 	li	$t0, 0x0010			# Iniciar contagem
 loop:
-	lw	$t2, LATE($t7)
+	lw	$t1, LATE($t7)
-	andi	$t2, $t2, 0xFFE1		# 1111 1111 1110 0001 (reset bits 4-1)
+	andi	$t1, $t1, 0xFFE1		# 1111 1111 1110 0001 (reset bits 4-1)
-	sll	$t3, $t0, 1			# shift do contador para os bits 4-1
+	sll	$t2, $t0, 1			# shift do contador para os bits 4-1
-	or	$t2, $t2, $t3			# merge contador com valor do LATE
+	or	$t1, $t1, $t2			# merge contador com valor do LATE
-	sw	$t2, LATE($t7)			# atualiza valor do LATE
+	sw	$t1, LATE($t7)			# atualiza valor do LATE
 	li	$v0, RESET_CORE_TIMER
 	syscall
@ -45,16 +35,15 @@ loop:
 delay:
 	li	$v0, READ_CORE_TIMER
 	syscall
-	move	$t6, $v0
+	move	$t2, $v0
-	blt	$t6, 13333333, delay
+	blt	$t2, 13333333, delay
-	lw	$t4, LATE($t7)
+	andi	$t1, $t1, 0x0002		# isolar bit 1
-	andi	$t4, $t4, 0x0002
+	sll	$t1, $t1, 2                     # colocar bit na posição mais significativa para o contador
-	sll	$t4, $t4, 2
+	xori	$t1, $t1, 0x0008                # negar bit
-	xori	$t4, $t4, 0x0008
+	srl	$t0, $t0, 1                     # shift right do contador
-	srl	$t0, $t0, 1
+	or	$t0, $t0, $t1                   # colocar bit lido no contador
 	or	$t0, $t0, $t4
 	j	loop
--- a/2ano/2semestre/ac2/aula03/part2-7.s
+++ b/2ano/2semestre/ac2/aula03/part2-7.s
@ -1,19 +1,11 @@
 	.equ	ADDR_BASE, 0xBF88
 	.equ	TRISB, 0x6040
 	.equ	PORTB, 0x6050
 	.equ	LATB,  0x6060
 	.equ	TRISC, 0x6080
 	.equ	PORTC, 0x6090
 	.equ	LATC,  0x60A0
 	.equ	TRISD, 0x60C0
 	.equ	PORTD, 0x60D0
 	.equ	LATD,  0x60E0
 	.equ	TRISE, 0x6100
 	.equ	PORTE, 0x6110
 	.equ	LATE,  0x6120
-	.equ READ_CORE_TIMER, 11
+	.equ	READ_CORE_TIMER, 11
-	.equ RESET_CORE_TIMER, 12
+	.equ	RESET_CORE_TIMER, 12
 	.data
 	.text
@ -30,18 +22,18 @@ main:
 	andi	$t0, $t0, 0xFFE1		# 1111 1111 1110 0001 (isola bits 4-1)
 	sw	$t0, TRISE($t7)			# Configura RE4-RE1 como output
-	lw	$t1, TRISB($t7)
+	lw	$t0, TRISB($t7)
-	ori	$t1, $t1, 0x0004		# 0000 0000 0000 0010 (isola bit 1)
+	ori	$t0, $t0, 0x0004		# 0000 0000 0000 0010 (isola bit 1)
-	sw	$t1, TRISB($t7)			# Configura RB1 como input
+	sw	$t0, TRISB($t7)			# Configura RB1 como input
 	li	$t0, 0x0010			# Iniciar contagem
 loop:
-	lw	$t2, LATE($t7)
+	lw	$t1, LATE($t7)
-	andi	$t2, $t2, 0xFFE1		# 1111 1111 1110 0001 (reset bits 4-1)
+	andi	$t1, $t1, 0xFFE1		# 1111 1111 1110 0001 (reset bits 4-1)
-	sll	$t3, $t0, 1			# shift do contador para os bits 4-1
+	sll	$t2, $t0, 1			# shift do contador para os bits 4-1
-	or	$t2, $t2, $t3			# merge contador com valor do LATE
+	or	$t1, $t1, $t2			# merge contador com valor do LATE
-	sw	$t2, LATE($t7)			# atualiza valor do LATE
+	sw	$t1, LATE($t7)			# atualiza valor do LATE
 	li	$v0, RESET_CORE_TIMER
 	syscall
@ -49,32 +41,30 @@ loop:
 delay:
 	li	$v0, READ_CORE_TIMER
 	syscall
-	move	$t6, $v0
+	move	$t2, $v0
-	blt	$t6, 13333333, delay
+	blt	$t2, 13333333, delay
 switch_check:
-	lw	$t6, PORTB($t7)
+	lw	$t2, PORTB($t7)
-	andi	$t6, $t6, 0x0004		# 0000 0000 0000 0100 (isola bit 3)
+	andi	$t2, $t2, 0x0004		# 0000 0000 0000 0100 (isola bit 3)
-	lw	$t4, LATE($t7)
+	beqz	$t2, move_right			# switch3 = 0: move_right, switch3 = 1: move_left
 	beqz	$t6, move_right
 move_left:
-	andi	$t4, $t4, 0x0010
+	andi	$t1, $t1, 0x0010		# isolar bit 4
-	srl	$t4, $t4, 4
+	srl	$t1, $t1, 4			# colocar bit na posição menos significativa para o contador
-	xori	$t4, $t4, 0x0001
+	xori	$t1, $t1, 0x0001                # negar bit
-	sll	$t0, $t0, 1
+	sll	$t0, $t0, 1                     # shift left do contador
 	or	$t0, $t0, $t4
 	j	switch_end
 move_right:
-	andi	$t4, $t4, 0x0002
+	andi	$t1, $t1, 0x0002		# isolar bit 1
-	sll	$t4, $t4, 2
+	sll	$t1, $t1, 2                     # colocar bit na posição mais significativa para o contador
-	xori	$t4, $t4, 0x0008
+	xori	$t1, $t1, 0x0008                # negar bit
-	srl	$t0, $t0, 1
+	srl	$t0, $t0, 1                     # shift right do contador
 	or	$t0, $t0, $t4
 switch_end:
 	or	$t0, $t0, $t1			# colocar bit lido no contador
 	j	loop