0x1, 0x1 << 1, 0x1 << 2, 0x1 << 3 /* x */
};
-static unsigned reg_type_to_swizzle[WORK_STRIDE] = {
- SWIZZLE(COMPONENT_X, COMPONENT_Y, COMPONENT_Z, COMPONENT_W),
-
- SWIZZLE(COMPONENT_X, COMPONENT_Y, COMPONENT_Z, COMPONENT_W),
- SWIZZLE(COMPONENT_Y, COMPONENT_Z, COMPONENT_W, COMPONENT_W),
-
- SWIZZLE(COMPONENT_X, COMPONENT_Y, COMPONENT_Z, COMPONENT_W),
- SWIZZLE(COMPONENT_Y, COMPONENT_Z, COMPONENT_Z, COMPONENT_W),
- SWIZZLE(COMPONENT_Z, COMPONENT_W, COMPONENT_Z, COMPONENT_W),
-
- SWIZZLE(COMPONENT_X, COMPONENT_Y, COMPONENT_Z, COMPONENT_W),
- SWIZZLE(COMPONENT_Y, COMPONENT_Y, COMPONENT_Z, COMPONENT_W),
- SWIZZLE(COMPONENT_Z, COMPONENT_Y, COMPONENT_Z, COMPONENT_W),
- SWIZZLE(COMPONENT_W, COMPONENT_Y, COMPONENT_Z, COMPONENT_W),
-};
-
struct phys_reg {
+ /* Physical register: 0-31 */
unsigned reg;
- unsigned mask;
- unsigned swizzle;
-};
-/* Given the mask/swizzle of both the register and the original source,
- * compose to find the actual mask/swizzle to give the hardware */
+ /* Byte offset into the physical register: 0-15 */
+ unsigned offset;
-static unsigned
-compose_writemask(unsigned mask, struct phys_reg reg)
-{
- /* Note: the reg mask is guaranteed to be contiguous. So we shift
- * into the X place, compose via a simple AND, and shift back */
+ /* Number of bytes in a component of this register */
+ unsigned size;
+};
- unsigned shift = __builtin_ctz(reg.mask);
- return ((reg.mask >> shift) & mask) << shift;
-}
+/* Shift each component up by reg_offset and shift all components horizontally
+ * by dst_offset. TODO: vec8+ */
-static unsigned
-compose_swizzle(unsigned swizzle, unsigned mask,
- struct phys_reg reg, struct phys_reg dst)
+static void
+offset_swizzle(unsigned *swizzle, unsigned reg_offset, unsigned srcsize, unsigned dst_offset, unsigned dstsize)
{
- unsigned out = pan_compose_swizzle(swizzle, reg.swizzle);
+ unsigned out[MIR_VEC_COMPONENTS];
- /* Based on the register mask, we need to adjust over. E.g if we're
- * writing to yz, a base swizzle of xy__ becomes _xy_. Save the
- * original first component (x). But to prevent duplicate shifting
- * (only applies to ALU -- mask param is set to xyzw out on L/S to
- * prevent changes), we have to account for the shift inherent to the
- * original writemask */
+ signed reg_comp = reg_offset / srcsize;
+ signed dst_comp = dst_offset / dstsize;
- unsigned rep = out & 0x3;
- unsigned shift = __builtin_ctz(dst.mask) - __builtin_ctz(mask);
- unsigned shifted = out << (2*shift);
+ assert(reg_comp * srcsize == reg_offset);
+ assert(dst_comp * dstsize == dst_offset);
- /* ..but we fill in the gaps so it appears to replicate */
-
- for (unsigned s = 0; s < shift; ++s)
- shifted |= rep << (2*s);
+ for (signed c = 0; c < MIR_VEC_COMPONENTS; ++c) {
+ signed comp = MAX2(c - dst_comp, 0);
+ out[c] = MIN2(swizzle[comp] + reg_comp, 4 - 1);
+ }
- return shifted;
+ memcpy(swizzle, out, sizeof(out));
}
/* Helper to return the default phys_reg for a given register */
{
struct phys_reg r = {
.reg = reg,
- .mask = 0xF, /* xyzw */
- .swizzle = 0xE4 /* xyzw */
+ .offset = 0,
+ .size = 4
};
return r;
* register corresponds to */
static struct phys_reg
-index_to_reg(compiler_context *ctx, struct ra_graph *g, unsigned reg)
+index_to_reg(compiler_context *ctx, struct ra_graph *g, unsigned reg, midgard_reg_mode size)
{
/* Check for special cases */
if (reg == ~0)
else if (phys == SHADOW_R0)
phys = 0;
+ unsigned bytes = mir_bytes_for_mode(size);
+
struct phys_reg r = {
.reg = phys,
- .mask = reg_type_to_mask[type],
- .swizzle = reg_type_to_swizzle[type]
+ .offset = __builtin_ctz(reg_type_to_mask[type]) * bytes,
+ .size = bytes
};
/* Report that we actually use this register, and return it */
unsigned idx = spill_idx++;
midgard_instruction m = hazard_write ?
- v_mov(idx, blank_alu_src, i) :
- v_mov(i, blank_alu_src, idx);
+ v_mov(idx, i) : v_mov(i, idx);
/* Insert move before each read/write, depending on the
* hazard we're trying to account for */
mir_rewrite_index_dst_single(pre_use, i, idx);
} else {
idx = spill_idx++;
- m = v_mov(i, blank_alu_src, idx);
- m.mask = mir_mask_of_read_components(pre_use, i);
+ m = v_mov(i, idx);
+ m.mask = mir_from_bytemask(mir_bytemask_of_read_components(pre_use, i), midgard_reg_mode_32);
mir_insert_instruction_before(ctx, pre_use, m);
mir_rewrite_index_src_single(pre_use, i, idx);
}
if (ins->compact_branch)
return;
- struct phys_reg src1 = index_to_reg(ctx, g, ins->src[0]);
- struct phys_reg src2 = index_to_reg(ctx, g, ins->src[1]);
- struct phys_reg dest = index_to_reg(ctx, g, ins->dest);
+ struct phys_reg src1 = index_to_reg(ctx, g, ins->src[0], mir_srcsize(ins, 0));
+ struct phys_reg src2 = index_to_reg(ctx, g, ins->src[1], mir_srcsize(ins, 1));
+ struct phys_reg dest = index_to_reg(ctx, g, ins->dest, mir_typesize(ins));
- unsigned uncomposed_mask = ins->mask;
- ins->mask = compose_writemask(uncomposed_mask, dest);
+ mir_set_bytemask(ins, mir_bytemask(ins) << dest.offset);
- /* Adjust the dest mask if necessary. Mostly this is a no-op
- * but it matters for dot products */
- dest.mask = effective_writemask(&ins->alu, ins->mask);
+ unsigned dest_offset =
+ GET_CHANNEL_COUNT(alu_opcode_props[ins->alu.op].props) ? 0 :
+ dest.offset;
- midgard_vector_alu_src mod1 =
- vector_alu_from_unsigned(ins->alu.src1);
- mod1.swizzle = compose_swizzle(mod1.swizzle, uncomposed_mask, src1, dest);
- ins->alu.src1 = vector_alu_srco_unsigned(mod1);
+ offset_swizzle(ins->swizzle[0], src1.offset, src1.size, dest_offset, dest.size);
ins->registers.src1_reg = src1.reg;
} else {
midgard_vector_alu_src mod2 =
vector_alu_from_unsigned(ins->alu.src2);
- mod2.swizzle = compose_swizzle(
- mod2.swizzle, uncomposed_mask, src2, dest);
+ offset_swizzle(ins->swizzle[1], src2.offset, src2.size, dest_offset, dest.size);
ins->alu.src2 = vector_alu_srco_unsigned(mod2);
ins->registers.src2_reg = src2.reg;
bool encodes_src = OP_IS_STORE(ins->load_store.op);
if (encodes_src) {
- struct phys_reg src = index_to_reg(ctx, g, ins->src[0]);
+ struct phys_reg src = index_to_reg(ctx, g, ins->src[0], mir_srcsize(ins, 0));
assert(src.reg == 26 || src.reg == 27);
ins->load_store.reg = src.reg - 26;
-
- unsigned shift = __builtin_ctz(src.mask);
- unsigned adjusted_mask = src.mask >> shift;
- assert(((adjusted_mask + 1) & adjusted_mask) == 0);
-
- unsigned new_swizzle = 0;
- for (unsigned q = 0; q < 4; ++q) {
- unsigned c = (ins->load_store.swizzle >> (2*q)) & 3;
- new_swizzle |= (c + shift) << (2*q);
- }
-
- ins->load_store.swizzle = compose_swizzle(
- new_swizzle, src.mask,
- default_phys_reg(0), src);
+ offset_swizzle(ins->swizzle[0], src.offset, src.size, 0, 4);
} else {
- struct phys_reg src = index_to_reg(ctx, g, ins->dest);
-
- ins->load_store.reg = src.reg;
+ struct phys_reg dst = index_to_reg(ctx, g, ins->dest, mir_typesize(ins));
- ins->load_store.swizzle = compose_swizzle(
- ins->load_store.swizzle, 0xF,
- default_phys_reg(0), src);
-
- ins->mask = compose_writemask(
- ins->mask, src);
+ ins->load_store.reg = dst.reg;
+ offset_swizzle(ins->swizzle[0], 0, 4, dst.offset, dst.size);
+ mir_set_bytemask(ins, mir_bytemask(ins) << dst.offset);
}
/* We also follow up by actual arguments */
- int src2 =
- encodes_src ? ins->src[1] : ins->src[0];
-
- int src3 =
- encodes_src ? ins->src[2] : ins->src[1];
+ unsigned src2 = ins->src[1];
+ unsigned src3 = ins->src[2];
- if (src2 >= 0) {
- struct phys_reg src = index_to_reg(ctx, g, src2);
- unsigned component = __builtin_ctz(src.mask);
+ if (src2 != ~0) {
+ struct phys_reg src = index_to_reg(ctx, g, src2, mir_srcsize(ins, 1));
+ unsigned component = src.offset / src.size;
+ assert(component * src.size == src.offset);
ins->load_store.arg_1 |= midgard_ldst_reg(src.reg, component);
}
- if (src3 >= 0) {
- struct phys_reg src = index_to_reg(ctx, g, src3);
- unsigned component = __builtin_ctz(src.mask);
+ if (src3 != ~0) {
+ struct phys_reg src = index_to_reg(ctx, g, src3, mir_srcsize(ins, 2));
+ unsigned component = src.offset / src.size;
+ assert(component * src.size == src.offset);
ins->load_store.arg_2 |= midgard_ldst_reg(src.reg, component);
}
case TAG_TEXTURE_4: {
/* Grab RA results */
- struct phys_reg dest = index_to_reg(ctx, g, ins->dest);
- struct phys_reg coord = index_to_reg(ctx, g, ins->src[0]);
- struct phys_reg lod = index_to_reg(ctx, g, ins->src[1]);
+ struct phys_reg dest = index_to_reg(ctx, g, ins->dest, mir_typesize(ins));
+ struct phys_reg coord = index_to_reg(ctx, g, ins->src[1], mir_srcsize(ins, 1));
+ struct phys_reg lod = index_to_reg(ctx, g, ins->src[2], mir_srcsize(ins, 2));
assert(dest.reg == 28 || dest.reg == 29);
assert(coord.reg == 28 || coord.reg == 29);
ins->texture.in_reg_full = 1;
ins->texture.in_reg_upper = 0;
ins->texture.in_reg_select = coord.reg - 28;
- ins->texture.in_reg_swizzle =
- compose_swizzle(ins->texture.in_reg_swizzle, 0xF, coord, dest);
+ offset_swizzle(ins->swizzle[1], coord.offset, coord.size, 0, 4);
/* Next, install the destination */
ins->texture.out_full = 1;
ins->texture.out_upper = 0;
ins->texture.out_reg_select = dest.reg - 28;
- ins->texture.swizzle =
- compose_swizzle(ins->texture.swizzle, dest.mask, dest, dest);
- ins->mask =
- compose_writemask(ins->mask, dest);
+ offset_swizzle(ins->swizzle[0], 0, 4, dest.offset, dest.size);
+ mir_set_bytemask(ins, mir_bytemask(ins) << dest.offset);
/* If there is a register LOD/bias, use it */
- if (ins->src[1] != ~0) {
+ if (ins->src[2] != ~0) {
+ assert(!(lod.offset & 3));
midgard_tex_register_select sel = {
.select = lod.reg,
.full = 1,
- .component = lod.swizzle & 3,
+ .component = lod.offset / 4
};
uint8_t packed;