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authorAlyssa Rosenzweig <[email protected]>2019-04-30 19:16:22 +0000
committerAlyssa Rosenzweig <[email protected]>2019-05-04 19:08:50 +0000
commit8c36ecd4b1daec66435d6d0baef0e64cd80b46c1 (patch)
tree89616ab708324947394d6a874446a78fbeeb49fb /src
parent2800e822a4d66560470a73893e8162293150499d (diff)
panfrost/midgard/disasm: Print 8-bit sources
This handles the usual case. 8-bit register access parallels 16-bit access, but with one major caveat: in 8-bit mode, only half of the register file is actually (directly) accessible as sources. In particular, for each 16-bit integer register (hrN), we can only index a *single* 8-bit integer (qrN), corresponding to the lower 8-bits. To get the upper 8-bits, it is required to do an explicit shift. For example, to add the bytes of a 16-bit integer hr0.x and get the result as an 8-bit qr0, you'd need to do something like: ilsr hr1.x, hr0.x, #8 iadd qr0.x, qr0.x, qr1.x This scheme diverges from 32-bit registers, in that both the upper and lower halves of a 32-bit register are individually accessible as a pair of half registers. For contrast, to add the lower and upper 16-bits of a 32-bit integer r0.x, you can just: iadd hr0.x, hr0.x, hr1.x Since hr1.x = upper 16-bit of r0.x. Signed-off-by: Alyssa Rosenzweig <[email protected]>
Diffstat (limited to 'src')
-rw-r--r--src/gallium/drivers/panfrost/midgard/disassemble.c66
1 files changed, 43 insertions, 23 deletions
diff --git a/src/gallium/drivers/panfrost/midgard/disassemble.c b/src/gallium/drivers/panfrost/midgard/disassemble.c
index 71f5c489528..9469cac6e75 100644
--- a/src/gallium/drivers/panfrost/midgard/disassemble.c
+++ b/src/gallium/drivers/panfrost/midgard/disassemble.c
@@ -130,7 +130,7 @@ print_quad_word(uint32_t *words, unsigned tabs)
static void
print_vector_src(unsigned src_binary, bool out_high,
- bool out_half, unsigned reg,
+ midgard_reg_mode mode, unsigned reg,
bool is_int)
{
midgard_vector_alu_src *src = (midgard_vector_alu_src *)&src_binary;
@@ -164,32 +164,49 @@ print_vector_src(unsigned src_binary, bool out_high,
//register
- if (out_half) {
+ if (mode == midgard_reg_mode_8) {
if (src->half)
printf(" /* half */ ");
- unsigned half_reg;
+ unsigned quarter_reg = reg * 2;
if (out_high) {
+ if (!src->rep_low)
+ quarter_reg++;
+
+ if (src->rep_high)
+ printf(" /* rep_high */ ");
+ } else {
+ if (src->rep_high)
+ quarter_reg++;
+
if (src->rep_low)
- half_reg = reg * 2;
- else
- half_reg = reg * 2 + 1;
+ printf(" /* rep_low */ ");
+ }
+
+ print_reg(quarter_reg, 8);
+ } else if (mode == midgard_reg_mode_16) {
+ if (src->half)
+ printf(" /* half */ ");
+
+ unsigned half_reg = reg * 2;
+
+ if (out_high) {
+ if (!src->rep_low)
+ half_reg++;
if (src->rep_high)
printf(" /* rep_high */ ");
} else {
if (src->rep_high)
- half_reg = reg * 2 + 1;
- else
- half_reg = reg * 2;
+ half_reg++;
if (src->rep_low)
printf(" /* rep_low */ ");
}
print_reg(half_reg, 16);
- } else {
+ } else if (mode == midgard_reg_mode_32) {
if (src->rep_high)
printf(" /* rep_high */ ");
@@ -201,6 +218,8 @@ print_vector_src(unsigned src_binary, bool out_high,
print_reg(reg, 32);
}
+ } else if (mode == midgard_reg_mode_64) {
+ /* TODO */
}
//swizzle
@@ -247,9 +266,9 @@ print_vector_field(const char *name, uint16_t *words, uint16_t reg_word,
{
midgard_reg_info *reg_info = (midgard_reg_info *)&reg_word;
midgard_vector_alu *alu_field = (midgard_vector_alu *) words;
+ midgard_reg_mode mode = alu_field->reg_mode;
- if (alu_field->reg_mode != midgard_reg_mode_16 &&
- alu_field->reg_mode != midgard_reg_mode_32) {
+ if (mode == midgard_reg_mode_64) {
printf("unknown reg mode %u\n", alu_field->reg_mode);
}
@@ -261,12 +280,15 @@ print_vector_field(const char *name, uint16_t *words, uint16_t reg_word,
print_outmod(alu_field->outmod);
printf(" ");
- bool half, out_half, out_high = false;
+ bool out_high = false;
unsigned mask;
- half = (alu_field->reg_mode == midgard_reg_mode_16);
+ if (mode == midgard_reg_mode_16
+ || mode == midgard_reg_mode_8) {
+
+ /* For partial views, the mask denotes which adjacent register
+ * is used as the window into the larger register */
- if (half) {
if (alu_field->mask & 0xF) {
out_high = false;
@@ -296,8 +318,6 @@ print_vector_field(const char *name, uint16_t *words, uint16_t reg_word,
printf("/* %X */ ", alu_field->mask);
}
- out_half = half;
-
/* First, print the destination */
{
int out_reg = reg_info->out_reg;
@@ -307,15 +327,15 @@ print_vector_field(const char *name, uint16_t *words, uint16_t reg_word,
printf("/* do%d */ ", alu_field->dest_override);
}
- if (alu_field->reg_mode == midgard_reg_mode_16) {
+ if (mode == midgard_reg_mode_16) {
bits = 16;
out_reg *= 2;
out_reg += out_high;
- } else if (alu_field->reg_mode == midgard_reg_mode_8) {
+ } else if (mode == midgard_reg_mode_8) {
bits = 8;
- out_reg *= 4;
+ out_reg *= 2;
out_reg += out_high;
- } else if (alu_field->reg_mode == midgard_reg_mode_64) {
+ } else if (mode == midgard_reg_mode_64) {
bits = 64;
/* TODO */
}
@@ -337,7 +357,7 @@ print_vector_field(const char *name, uint16_t *words, uint16_t reg_word,
printf(", ");
bool is_int = midgard_is_integer_op(alu_field->op);
- print_vector_src(alu_field->src1, out_high, half, reg_info->src1_reg, is_int);
+ print_vector_src(alu_field->src1, out_high, mode, reg_info->src1_reg, is_int);
printf(", ");
@@ -345,7 +365,7 @@ print_vector_field(const char *name, uint16_t *words, uint16_t reg_word,
uint16_t imm = decode_vector_imm(reg_info->src2_reg, alu_field->src2 >> 2);
print_immediate(imm);
} else {
- print_vector_src(alu_field->src2, out_high, half,
+ print_vector_src(alu_field->src2, out_high, mode,
reg_info->src2_reg, is_int);
}