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authorJens Arnold <amiconn@rockbox.org>2006-08-22 05:25:04 +0000
committerJens Arnold <amiconn@rockbox.org>2006-08-22 05:25:04 +0000
commitacc153f1c5ebf6060b11c895298056f30caf10af (patch)
tree7a1f00885bb4f4ad3adb6ce1f2469b19cc50eb44 /firmware
parent4746e6765fa5bb7da5d2a43b198c6b46e51d5d52 (diff)
downloadrockbox-acc153f1c5ebf6060b11c895298056f30caf10af.tar.gz
rockbox-acc153f1c5ebf6060b11c895298056f30caf10af.zip
Irivers: Faster remote LCD update. Maximum speedup (without ticking reduction): +32% @11MHz, 2.5 times @45MHz, +45% @124MHz. The speedup is data dependent, the worst case (every pixel having the opposite value from the previous one, in LCD data order) would see no speedup (except @45MHz), but it's a highly unlikely case.
git-svn-id: svn://svn.rockbox.org/rockbox/trunk@10684 a1c6a512-1295-4272-9138-f99709370657
Diffstat (limited to 'firmware')
-rw-r--r--firmware/drivers/lcd-h100-remote.c350
1 files changed, 198 insertions, 152 deletions
diff --git a/firmware/drivers/lcd-h100-remote.c b/firmware/drivers/lcd-h100-remote.c
index 8c1176bad8..bf4445462d 100644
--- a/firmware/drivers/lcd-h100-remote.c
+++ b/firmware/drivers/lcd-h100-remote.c
@@ -85,7 +85,7 @@ static int cs_countdown IDATA_ATTR = 0;
#ifdef HAVE_REMOTE_LCD_TICKING
/* If set to true, will prevent "ticking" to headphones. */
static bool emireduce = false;
-static int byte_delay = 172;
+static int byte_delay = 0;
#endif
/* remote hotplug */
@@ -124,153 +124,204 @@ static const char scroll_tick_table[16] = {
#ifndef SIMULATOR
#ifdef HAVE_REMOTE_LCD_TICKING
-static inline void _byte_delay(void)
+static inline void _byte_delay(int delay)
{
asm (
- "move.l %[dly],%%d0 \n"
+ "move.l %[dly], %%d0 \n"
+ "ble.s 2f \n"
"1: \n"
- "subq.l #1,%%d0 \n"
- "bhi.s 1b \n"
+ "subq.l #1, %%d0 \n"
+ "bne.s 1b \n"
+ "2: \n"
: /* outputs */
: /* inputs */
- [dly]"d"(byte_delay)
+ [dly]"d"(delay)
: /* clobbers */
"d0"
);
}
#endif /* HAVE_REMOTE_LCD_TICKING */
-/* Standard low-level byte writer */
+/* Standard low-level byte writer. Requires CLK low on entry */
static inline void _write_byte(unsigned data)
{
asm volatile (
- "moveq.l #8,%%d1 \n" /* bit counter */
-
- "2: \n"
- "lsl.l #1,%[data] \n" /* data <<= 1, MSB of data set? */
- "bcc.s 1f \n"
- "or.l %[dhi],(%[gpi1]) \n" /* set data bit */
- ".word 0x51fa \n" /* trapf.w - shadow next insn */
- "1: \n"
- "and.l %[dlo],(%[gpi1]) \n" /* reset data bit */
- "eor.l %[cbit],(%[gpio]) \n" /* set clock bit */
- "eor.l %[cbit],(%[gpio]) \n" /* reset clock bit */
-
- "subq.l #1,%%d1 \n"
- "bne.s 2b \n"
-
- "or.l %[dhi],(%[gpi1]) \n" /* set data bit */
+ "move.l (%[gpo1]), %%d0 \n" /* Get current state of data line */
+ "and.l %[dbit], %%d0 \n"
+ "beq.s 1f \n" /* and set it as previous-state bit */
+ "bset #8, %[data] \n"
+ "1: \n"
+ "move.l %[data], %%d0 \n" /* Compute the 'bit derivative', i.e. a value */
+ "lsr.l #1, %%d0 \n" /* with 1's where the data changes from the */
+ "eor.l %%d0, %[data] \n" /* previous state, and 0's where it doesn't */
+ "swap %[data] \n" /* Shift data to upper byte */
+ "lsl.l #8, %[data] \n"
+
+ "lsl.l #1,%[data] \n" /* Shift out MSB */
+ "bcc.s 1f \n"
+ "eor.l %[dbit], (%[gpo1]) \n" /* 1: flip DATA */
+ "1: \n"
+ "eor.l %[cbit], (%[gpo0]) \n" /* Flip CLK */
+ "eor.l %[cbit], (%[gpo0]) \n" /* Flip CLK */
+
+ "lsl.l #1,%[data] \n" /* ..unrolled.. */
+ "bcc.s 1f \n"
+ "eor.l %[dbit], (%[gpo1]) \n"
+ "1: \n"
+ "eor.l %[cbit], (%[gpo0]) \n"
+ "eor.l %[cbit], (%[gpo0]) \n"
+
+ "lsl.l #1,%[data] \n"
+ "bcc.s 1f \n"
+ "eor.l %[dbit], (%[gpo1]) \n"
+ "1: \n"
+ "eor.l %[cbit], (%[gpo0]) \n"
+ "eor.l %[cbit], (%[gpo0]) \n"
+
+ "lsl.l #1,%[data] \n"
+ "bcc.s 1f \n"
+ "eor.l %[dbit], (%[gpo1]) \n"
+ "1: \n"
+ "eor.l %[cbit], (%[gpo0]) \n"
+ "eor.l %[cbit], (%[gpo0]) \n"
+
+ "lsl.l #1,%[data] \n"
+ "bcc.s 1f \n"
+ "eor.l %[dbit], (%[gpo1]) \n"
+ "1: \n"
+ "eor.l %[cbit], (%[gpo0]) \n"
+ "eor.l %[cbit], (%[gpo0]) \n"
+
+ "lsl.l #1,%[data] \n"
+ "bcc.s 1f \n"
+ "eor.l %[dbit], (%[gpo1]) \n"
+ "1: \n"
+ "eor.l %[cbit], (%[gpo0]) \n"
+ "eor.l %[cbit], (%[gpo0]) \n"
+
+ "lsl.l #1,%[data] \n"
+ "bcc.s 1f \n"
+ "eor.l %[dbit], (%[gpo1]) \n"
+ "1: \n"
+ "eor.l %[cbit], (%[gpo0]) \n"
+ "eor.l %[cbit], (%[gpo0]) \n"
+
+ "lsl.l #1,%[data] \n"
+ "bcc.s 1f \n"
+ "eor.l %[dbit], (%[gpo1]) \n"
+ "1: \n"
+ "eor.l %[cbit], (%[gpo0]) \n"
+ "eor.l %[cbit], (%[gpo0]) \n"
: /* outputs */
+ [data]"+d"(data)
: /* inputs */
- [data]"d"(data << 24),
- [gpio]"a"(&GPIO_OUT),
+ [gpo0]"a"(&GPIO_OUT),
[cbit]"d"(0x10000000),
- [gpi1]"a"(&GPIO1_OUT),
- [dhi] "d"(0x00040000),
- [dlo] "d"(~0x00040000)
+ [gpo1]"a"(&GPIO1_OUT),
+ [dbit]"d"(0x00040000)
: /* clobbers */
- "d1"
+ "d0"
);
}
-/* Unrolled fast low-level byte writer. Don't use with high CPU clock. */
-static inline void _write_unrolled(unsigned data)
+/* Fast low-level byte writer. Don't use with high CPU clock.
+ * Requires CLK low on entry */
+static inline void _write_fast(unsigned data)
{
asm volatile (
- "move.w %%sr,%%d4 \n" /* get current interrupt level */
- "move.w #0x2700,%%sr \n" /* disable interrupts */
-
- "move.l #0x00040000,%%d1\n" /* precalculate port values */
- "move.l %%d1,%%d0 \n" /* for setting and resetting */
- "or.l (%[gpi1]),%%d1 \n" /* the data bit */
- "eor.l %%d1,%%d0 \n"
-
- "move.l #0x10000000,%%d3\n" /* precalculate port values */
- "move.l %%d3,%%d2 \n" /* for setting and resetting */
- "or.l (%[gpio]),%%d3 \n" /* the clock bit */
- "eor.l %%d3,%%d2 \n"
-
- "lsl.l #1,%[data] \n" /* data <<= 1, MSB of data set? */
- "bcc.s 1f \n"
- "move.l %%d1,(%[gpi1]) \n" /* set data bit */
- ".word 0x51fa \n" /* trapf.w - shadow next insn */
- "1: \n"
- "move.l %%d0,(%[gpi1]) \n" /* reset data bit */
- "move.l %%d3,(%[gpio]) \n" /* set clock bit */
- "move.l %%d2,(%[gpio]) \n" /* reset clock bit */
-
- "lsl.l #1,%[data] \n"
- "bcc.s 1f \n"
- "move.l %%d1,(%[gpi1]) \n"
- ".word 0x51fa \n"
- "1: \n"
- "move.l %%d0,(%[gpi1]) \n"
- "move.l %%d3,(%[gpio]) \n"
- "move.l %%d2,(%[gpio]) \n"
-
- "lsl.l #1,%[data] \n"
- "bcc.s 1f \n"
- "move.l %%d1,(%[gpi1]) \n"
- ".word 0x51fa \n"
- "1: \n"
- "move.l %%d0,(%[gpi1]) \n"
- "move.l %%d3,(%[gpio]) \n"
- "move.l %%d2,(%[gpio]) \n"
-
- "lsl.l #1,%[data] \n"
- "bcc.s 1f \n"
- "move.l %%d1,(%[gpi1]) \n"
- ".word 0x51fa \n"
- "1: \n"
- "move.l %%d0,(%[gpi1]) \n"
- "move.l %%d3,(%[gpio]) \n"
- "move.l %%d2,(%[gpio]) \n"
-
- "lsl.l #1,%[data] \n"
- "bcc.s 1f \n"
- "move.l %%d1,(%[gpi1]) \n"
- ".word 0x51fa \n"
- "1: \n"
- "move.l %%d0,(%[gpi1]) \n"
- "move.l %%d3,(%[gpio]) \n"
- "move.l %%d2,(%[gpio]) \n"
-
- "lsl.l #1,%[data] \n"
- "bcc.s 1f \n"
- "move.l %%d1,(%[gpi1]) \n"
- ".word 0x51fa \n"
- "1: \n"
- "move.l %%d0,(%[gpi1]) \n"
- "move.l %%d3,(%[gpio]) \n"
- "move.l %%d2,(%[gpio]) \n"
-
- "lsl.l #1,%[data] \n"
- "bcc.s 1f \n"
- "move.l %%d1,(%[gpi1]) \n"
- ".word 0x51fa \n"
- "1: \n"
- "move.l %%d0,(%[gpi1]) \n"
- "move.l %%d3,(%[gpio]) \n"
- "move.l %%d2,(%[gpio]) \n"
-
- "lsl.l #1,%[data] \n"
- "bcc.s 1f \n"
- "move.l %%d1,(%[gpi1]) \n"
- ".word 0x51fa \n"
- "1: \n"
- "move.l %%d0,(%[gpi1]) \n"
- "move.l %%d3,(%[gpio]) \n"
- "move.l %%d2,(%[gpio]) \n"
-
- "move.l %%d1,(%[gpi1]) \n" /* set data bit */
- "move.w %%d4,%%sr \n" /* reenable interrupts */
+ "move.w %%sr,%%d3 \n" /* Get current interrupt level */
+ "move.w #0x2700,%%sr \n" /* Disable interrupts */
+
+ "move.l (%[gpo1]), %%d0 \n" /* Get current state of data port */
+ "move.l %%d0, %%d1 \n"
+ "and.l %[dbit], %%d1 \n" /* Check current state of data line */
+ "beq.s 1f \n" /* and set it as previous-state bit */
+ "bset #8, %[data] \n"
+ "1: \n"
+ "move.l %[data], %%d1 \n" /* Compute the 'bit derivative', i.e. a value */
+ "lsr.l #1, %%d1 \n" /* with 1's where the data changes from the */
+ "eor.l %%d1, %[data] \n" /* previous state, and 0's where it doesn't */
+ "swap %[data] \n" /* Shift data to upper byte */
+ "lsl.l #8, %[data] \n"
+
+ "move.l (%[gpo0]), %%d1 \n" /* Get current state of clock port */
+ "move.l %[cbit], %%d2 \n" /* Precalculate opposite state of clock line */
+ "eor.l %%d1, %%d2 \n"
+
+ "lsl.l #1,%[data] \n" /* Shift out MSB */
+ "bcc.s 1f \n"
+ "eor.l %[dbit], %%d0 \n" /* 1: flip data bit */
+ "move.l %%d0, (%[gpo1]) \n" /* and output new DATA state */
+ "1: \n"
+ "move.l %%d2, (%[gpo0]) \n" /* Set CLK */
+ "move.l %%d1, (%[gpo0]) \n" /* Reset CLK */
+
+ "lsl.l #1,%[data] \n" /* ..unrolled.. */
+ "bcc.s 1f \n"
+ "eor.l %[dbit], %%d0 \n"
+ "move.l %%d0, (%[gpo1]) \n"
+ "1: \n"
+ "move.l %%d2, (%[gpo0]) \n"
+ "move.l %%d1, (%[gpo0]) \n"
+
+ "lsl.l #1,%[data] \n"
+ "bcc.s 1f \n"
+ "eor.l %[dbit], %%d0 \n"
+ "move.l %%d0, (%[gpo1]) \n"
+ "1: \n"
+ "move.l %%d2, (%[gpo0]) \n"
+ "move.l %%d1, (%[gpo0]) \n"
+
+ "lsl.l #1,%[data] \n"
+ "bcc.s 1f \n"
+ "eor.l %[dbit], %%d0 \n"
+ "move.l %%d0, (%[gpo1]) \n"
+ "1: \n"
+ "move.l %%d2, (%[gpo0]) \n"
+ "move.l %%d1, (%[gpo0]) \n"
+
+ "lsl.l #1,%[data] \n"
+ "bcc.s 1f \n"
+ "eor.l %[dbit], %%d0 \n"
+ "move.l %%d0, (%[gpo1]) \n"
+ "1: \n"
+ "move.l %%d2, (%[gpo0]) \n"
+ "move.l %%d1, (%[gpo0]) \n"
+
+ "lsl.l #1,%[data] \n"
+ "bcc.s 1f \n"
+ "eor.l %[dbit], %%d0 \n"
+ "move.l %%d0, (%[gpo1]) \n"
+ "1: \n"
+ "move.l %%d2, (%[gpo0]) \n"
+ "move.l %%d1, (%[gpo0]) \n"
+
+ "lsl.l #1,%[data] \n"
+ "bcc.s 1f \n"
+ "eor.l %[dbit], %%d0 \n"
+ "move.l %%d0, (%[gpo1]) \n"
+ "1: \n"
+ "move.l %%d2, (%[gpo0]) \n"
+ "move.l %%d1, (%[gpo0]) \n"
+
+ "lsl.l #1,%[data] \n"
+ "bcc.s 1f \n"
+ "eor.l %[dbit], %%d0 \n"
+ "move.l %%d0, (%[gpo1]) \n"
+ "1: \n"
+ "move.l %%d2, (%[gpo0]) \n"
+ "move.l %%d1, (%[gpo0]) \n"
+
+ "move.w %%d3, %%sr \n" /* Restore interrupt level */
: /* outputs */
+ [data]"+d"(data)
: /* inputs */
- [data]"d"(data << 24),
- [gpio]"a"(&GPIO_OUT),
- [gpi1]"a"(&GPIO1_OUT)
+ [gpo0]"a"(&GPIO_OUT),
+ [cbit]"i"(0x10000000),
+ [gpo1]"a"(&GPIO1_OUT),
+ [dbit]"d"(0x00040000)
: /* clobbers */
- "d0", "d1", "d2", "d3", "d4"
+ "d0", "d1", "d2", "d3"
);
}
@@ -282,8 +333,7 @@ void lcd_remote_write_command(int cmd)
_write_byte(cmd);
#ifdef HAVE_REMOTE_LCD_TICKING
- if (emireduce)
- _byte_delay();
+ _byte_delay(byte_delay - 148);
#endif
cs_countdown = CS_TIMEOUT;
@@ -295,20 +345,14 @@ void lcd_remote_write_command_ex(int cmd, int data)
RS_LO;
CS_LO;
+ _write_byte(cmd);
#ifdef HAVE_REMOTE_LCD_TICKING
- if (emireduce)
- {
- _write_byte(cmd);
- _byte_delay();
- _write_byte(data);
- _byte_delay();
- }
- else
+ _byte_delay(byte_delay - 148);
+#endif
+ _write_byte(data);
+#ifdef HAVE_REMOTE_LCD_TICKING
+ _byte_delay(byte_delay - 148);
#endif
- {
- _write_byte(cmd);
- _write_byte(data);
- }
cs_countdown = CS_TIMEOUT;
}
@@ -323,25 +367,26 @@ void lcd_remote_write_data(const unsigned char* p_bytes, int count)
CS_LO;
/* This is safe as long as lcd_remote_write_data() isn't called from within
- * an ISR. */
- if (cpu_frequency < 20000000)
+ * an ISR. */
+ if (cpu_frequency < 50000000)
{
while (p_bytes < p_end)
- _write_unrolled(*p_bytes++);
+ {
+ _write_fast(*p_bytes++);
+#ifdef HAVE_REMOTE_LCD_TICKING
+ _byte_delay(byte_delay - 87);
+#endif
+ }
}
else
{
+ while (p_bytes < p_end)
+ {
+ _write_byte(*p_bytes++);
#ifdef HAVE_REMOTE_LCD_TICKING
- if (emireduce)
- while (p_bytes < p_end)
- {
- _write_byte(*p_bytes++);
- _byte_delay();
- }
- else
+ _byte_delay(byte_delay - 148);
#endif
- while (p_bytes < p_end)
- _write_byte(*p_bytes++);
+ }
}
cs_countdown = CS_TIMEOUT;
@@ -415,6 +460,7 @@ void lcd_remote_set_flip(bool yesno)
static void remote_lcd_init(void)
{
CS_HI;
+ CLK_LO;
lcd_remote_write_command(LCD_REMOTE_CNTL_SELECT_BIAS | 0x0);
lcd_remote_write_command(LCD_REMOTE_CNTL_POWER_CONTROL | 0x5);
@@ -574,8 +620,8 @@ void lcd_remote_update(void)
return;
#ifdef HAVE_REMOTE_LCD_TICKING
- /* adjust byte delay for emi reduction */
- byte_delay = (cpu_frequency >> 18) - 30;
+ /* Adjust byte delay for emi reduction. */
+ byte_delay = emireduce ? cpu_frequency / 197600 + 28: 0;
#endif
/* Copy display bitmap to hardware */
@@ -609,8 +655,8 @@ void lcd_remote_update_rect(int x, int y, int width, int height)
ymax = LCD_REMOTE_HEIGHT/8-1;
#ifdef HAVE_REMOTE_LCD_TICKING
- /* adjust byte delay for emi reduction */
- byte_delay = (cpu_frequency >> 18) - 30;
+ /* Adjust byte delay for emi reduction */
+ byte_delay = emireduce ? cpu_frequency / 197600 + 28: 0;
#endif
/* Copy specified rectange bitmap to hardware */