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-rw-r--r--src/mesa/drivers/dri/i965/brw_eu.h6
-rw-r--r--src/mesa/drivers/dri/i965/brw_wm_glsl.c339
2 files changed, 335 insertions, 10 deletions
diff --git a/src/mesa/drivers/dri/i965/brw_eu.h b/src/mesa/drivers/dri/i965/brw_eu.h
index 8cbe4215fbf..49b422ee2ff 100644
--- a/src/mesa/drivers/dri/i965/brw_eu.h
+++ b/src/mesa/drivers/dri/i965/brw_eu.h
@@ -432,6 +432,12 @@ static INLINE struct brw_reg brw_uw8_grf( GLuint nr,
return brw_uw8_reg(BRW_GENERAL_REGISTER_FILE, nr, subnr);
}
+static INLINE struct brw_reg brw_uw16_grf( GLuint nr,
+ GLuint subnr )
+{
+ return brw_uw16_reg(BRW_GENERAL_REGISTER_FILE, nr, subnr);
+}
+
static INLINE struct brw_reg brw_null_reg( void )
{
return brw_vec8_reg(BRW_ARCHITECTURE_REGISTER_FILE,
diff --git a/src/mesa/drivers/dri/i965/brw_wm_glsl.c b/src/mesa/drivers/dri/i965/brw_wm_glsl.c
index 0ea8c3d50e5..2da3bf3d096 100644
--- a/src/mesa/drivers/dri/i965/brw_wm_glsl.c
+++ b/src/mesa/drivers/dri/i965/brw_wm_glsl.c
@@ -1052,13 +1052,24 @@ static __inline struct brw_reg low_words( struct brw_reg reg )
return stride( retype( reg, BRW_REGISTER_TYPE_W ), 0, 8, 2 );
}
-/* One- and two-dimensional Perlin noise, similar to the description in
- _Improving Noise_, Ken Perlin, Computer Graphics vol. 35 no. 3. */
+static __inline struct brw_reg even_bytes( struct brw_reg reg )
+{
+ return stride( retype( reg, BRW_REGISTER_TYPE_B ), 0, 16, 2 );
+}
+
+static __inline struct brw_reg odd_bytes( struct brw_reg reg )
+{
+ return stride( suboffset( retype( reg, BRW_REGISTER_TYPE_B ), 1 ),
+ 0, 16, 2 );
+}
+
+/* One-, two- and three-dimensional Perlin noise, similar to the description
+ in _Improving Noise_, Ken Perlin, Computer Graphics vol. 35 no. 3. */
static void noise1_sub( struct brw_wm_compile *c ) {
struct brw_compile *p = &c->func;
struct brw_reg param,
- x0, x1, /* gradients at each end */
+ x0, x1, /* gradients at each end */
t, tmp[ 2 ], /* float temporaries */
itmp[ 5 ]; /* unsigned integer temporaries (aliases of floats above) */
int i;
@@ -1232,18 +1243,18 @@ static void noise2_sub( struct brw_wm_compile *c ) {
for( i = 0; i < 4; i++ )
brw_MUL( p, itmp[ i ], itmp[ 4 ], itmp[ i ] );
for( i = 0; i < 4; i++ )
- brw_XOR( p, low_words( itmp[ i ] ), low_words( itmp[ i ] ),
- high_words( itmp[ i ] ) );
+ brw_XOR( p, low_words( itmp[ i ] ), low_words( itmp[ i ] ),
+ high_words( itmp[ i ] ) );
for( i = 0; i < 4; i++ )
brw_MUL( p, itmp[ i ], itmp[ 5 ], itmp[ i ] );
for( i = 0; i < 4; i++ )
- brw_XOR( p, low_words( itmp[ i ] ), low_words( itmp[ i ] ),
- high_words( itmp[ i ] ) );
+ brw_XOR( p, low_words( itmp[ i ] ), low_words( itmp[ i ] ),
+ high_words( itmp[ i ] ) );
for( i = 0; i < 4; i++ )
brw_MUL( p, itmp[ i ], itmp[ 6 ], itmp[ i ] );
for( i = 0; i < 4; i++ )
- brw_XOR( p, low_words( itmp[ i ] ), low_words( itmp[ i ] ),
- high_words( itmp[ i ] ) );
+ brw_XOR( p, low_words( itmp[ i ] ), low_words( itmp[ i ] ),
+ high_words( itmp[ i ] ) );
/* Now we want to initialise the four gradients based on the
hashes. Format conversion from signed integer to float leaves
@@ -1350,6 +1361,312 @@ static void emit_noise2( struct brw_wm_compile *c,
release_tmps( c, mark );
}
+
+/* The three-dimensional case is much like the one- and two- versions above,
+ but since the number of corners is rapidly growing we now pack 16 16-bit
+ hashes into each register to extract more parallelism from the EUs. */
+static void noise3_sub( struct brw_wm_compile *c ) {
+
+ struct brw_compile *p = &c->func;
+ struct brw_reg param0, param1, param2,
+ x0y0, x0y1, x1y0, x1y1, /* gradients at four of the corners */
+ xi, yi, zi, /* interpolation coefficients */
+ t, tmp[ 8 ], /* float temporaries */
+ itmp[ 8 ], /* unsigned integer temporaries (aliases of floats above) */
+ wtmp[ 8 ]; /* 16-way unsigned word temporaries (aliases of above) */
+ int i;
+ int mark = mark_tmps( c );
+
+ x0y0 = alloc_tmp( c );
+ x0y1 = alloc_tmp( c );
+ x1y0 = alloc_tmp( c );
+ x1y1 = alloc_tmp( c );
+ xi = alloc_tmp( c );
+ yi = alloc_tmp( c );
+ zi = alloc_tmp( c );
+ t = alloc_tmp( c );
+ for( i = 0; i < 8; i++ ) {
+ tmp[ i ] = alloc_tmp( c );
+ itmp[ i ] = retype( tmp[ i ], BRW_REGISTER_TYPE_UD );
+ wtmp[ i ] = brw_uw16_grf( tmp[ i ].nr, 0 );
+ }
+
+ param0 = lookup_tmp( c, mark - 4 );
+ param1 = lookup_tmp( c, mark - 3 );
+ param2 = lookup_tmp( c, mark - 2 );
+
+ brw_set_access_mode( p, BRW_ALIGN_1 );
+
+ /* Arrange the eight corner coordinates into scalars (itmp0..itmp3) to
+ be hashed. Also compute the remainders (offsets within the unit
+ cube), interleaved to reduce register dependency penalties. */
+ brw_RNDD( p, itmp[ 0 ], param0 );
+ brw_RNDD( p, itmp[ 1 ], param1 );
+ brw_RNDD( p, itmp[ 2 ], param2 );
+ brw_MOV( p, itmp[ 4 ], brw_imm_ud( 0xBC8F ) ); /* constant used later */
+ brw_MOV( p, itmp[ 5 ], brw_imm_ud( 0xD0BD ) ); /* constant used later */
+ brw_MOV( p, itmp[ 6 ], brw_imm_ud( 0x9B93 ) ); /* constant used later */
+ brw_FRC( p, param0, param0 );
+ brw_FRC( p, param1, param1 );
+ brw_FRC( p, param2, param2 );
+ /* Since we now have only 16 bits of precision in the hash, we must
+ be more careful about thorough mixing to maintain entropy as we
+ squash the input vector into a small scalar. */
+ brw_MUL( p, brw_acc_reg(), itmp[ 4 ], itmp[ 0 ] );
+ brw_MAC( p, brw_acc_reg(), itmp[ 5 ], itmp[ 1 ] );
+ brw_MAC( p, itmp[ 0 ], itmp[ 6 ], itmp[ 2 ] );
+ brw_ADD( p, high_words( itmp[ 0 ] ), low_words( itmp[ 0 ] ),
+ brw_imm_uw( 0xBC8F ) );
+
+ /* Temporarily disable the execution mask while we work with ExecSize=16
+ channels (the mask is set for ExecSize=8 and is probably incorrect).
+ Although this might cause execution of unwanted channels, the code
+ writes only to temporary registers and has no side effects, so
+ disabling the mask is harmless. */
+ brw_push_insn_state( p );
+ brw_set_mask_control( p, BRW_MASK_DISABLE );
+ brw_ADD( p, wtmp[ 1 ], wtmp[ 0 ], brw_imm_uw( 0xD0BD ) );
+ brw_ADD( p, wtmp[ 2 ], wtmp[ 0 ], brw_imm_uw( 0x9B93 ) );
+ brw_ADD( p, wtmp[ 3 ], wtmp[ 1 ], brw_imm_uw( 0x9B93 ) );
+
+ /* We're now ready to perform the hashing. The eight hashes are
+ interleaved for performance. The hash function used is
+ designed to rapidly achieve avalanche and require only 16x16
+ bit multiplication, and 8-bit swizzles (which we get for
+ free). */
+ for( i = 0; i < 4; i++ )
+ brw_MUL( p, wtmp[ i ], wtmp[ i ], brw_imm_uw( 0x28D9 ) );
+ for( i = 0; i < 4; i++ )
+ brw_XOR( p, even_bytes( wtmp[ i ] ), even_bytes( wtmp[ i ] ),
+ odd_bytes( wtmp[ i ] ) );
+ for( i = 0; i < 4; i++ )
+ brw_MUL( p, wtmp[ i ], wtmp[ i ], brw_imm_uw( 0xC6D5 ) );
+ for( i = 0; i < 4; i++ )
+ brw_XOR( p, even_bytes( wtmp[ i ] ), even_bytes( wtmp[ i ] ),
+ odd_bytes( wtmp[ i ] ) );
+ brw_pop_insn_state( p );
+
+ /* Now we want to initialise the four rear gradients based on the
+ hashes. Format conversion from signed integer to float leaves
+ everything scaled too high by a factor of pow( 2, 15 ), but
+ we correct for that right at the end. */
+ /* x component */
+ brw_ADD( p, t, param0, brw_imm_f( -1.0 ) );
+ brw_MOV( p, x0y0, low_words( tmp[ 0 ] ) );
+ brw_MOV( p, x0y1, low_words( tmp[ 1 ] ) );
+ brw_MOV( p, x1y0, high_words( tmp[ 0 ] ) );
+ brw_MOV( p, x1y1, high_words( tmp[ 1 ] ) );
+
+ brw_push_insn_state( p );
+ brw_set_mask_control( p, BRW_MASK_DISABLE );
+ brw_SHL( p, wtmp[ 0 ], wtmp[ 0 ], brw_imm_uw( 5 ) );
+ brw_SHL( p, wtmp[ 1 ], wtmp[ 1 ], brw_imm_uw( 5 ) );
+ brw_pop_insn_state( p );
+
+ brw_MUL( p, x1y0, x1y0, t );
+ brw_MUL( p, x1y1, x1y1, t );
+ brw_ADD( p, t, param1, brw_imm_f( -1.0 ) );
+ brw_MUL( p, x0y0, x0y0, param0 );
+ brw_MUL( p, x0y1, x0y1, param0 );
+
+ /* y component */
+ brw_MOV( p, tmp[ 5 ], low_words( tmp[ 1 ] ) );
+ brw_MOV( p, tmp[ 7 ], high_words( tmp[ 1 ] ) );
+ brw_MOV( p, tmp[ 4 ], low_words( tmp[ 0 ] ) );
+ brw_MOV( p, tmp[ 6 ], high_words( tmp[ 0 ] ) );
+
+ brw_push_insn_state( p );
+ brw_set_mask_control( p, BRW_MASK_DISABLE );
+ brw_SHL( p, wtmp[ 0 ], wtmp[ 0 ], brw_imm_uw( 5 ) );
+ brw_SHL( p, wtmp[ 1 ], wtmp[ 1 ], brw_imm_uw( 5 ) );
+ brw_pop_insn_state( p );
+
+ brw_MUL( p, tmp[ 5 ], tmp[ 5 ], t );
+ brw_MUL( p, tmp[ 7 ], tmp[ 7 ], t );
+ brw_ADD( p, t, param0, brw_imm_f( -1.0 ) );
+ brw_MUL( p, tmp[ 4 ], tmp[ 4 ], param1 );
+ brw_MUL( p, tmp[ 6 ], tmp[ 6 ], param1 );
+
+ brw_ADD( p, x0y1, x0y1, tmp[ 5 ] );
+ brw_ADD( p, x1y1, x1y1, tmp[ 7 ] );
+ brw_ADD( p, x0y0, x0y0, tmp[ 4 ] );
+ brw_ADD( p, x1y0, x1y0, tmp[ 6 ] );
+
+ /* z component */
+ brw_MOV( p, tmp[ 4 ], low_words( tmp[ 0 ] ) );
+ brw_MOV( p, tmp[ 5 ], low_words( tmp[ 1 ] ) );
+ brw_MOV( p, tmp[ 6 ], high_words( tmp[ 0 ] ) );
+ brw_MOV( p, tmp[ 7 ], high_words( tmp[ 1 ] ) );
+
+ brw_MUL( p, tmp[ 4 ], tmp[ 4 ], param2 );
+ brw_MUL( p, tmp[ 5 ], tmp[ 5 ], param2 );
+ brw_MUL( p, tmp[ 6 ], tmp[ 6 ], param2 );
+ brw_MUL( p, tmp[ 7 ], tmp[ 7 ], param2 );
+
+ brw_ADD( p, x0y0, x0y0, tmp[ 4 ] );
+ brw_ADD( p, x0y1, x0y1, tmp[ 5 ] );
+ brw_ADD( p, x1y0, x1y0, tmp[ 6 ] );
+ brw_ADD( p, x1y1, x1y1, tmp[ 7 ] );
+
+ /* We interpolate between the gradients using the polynomial
+ 6t^5 - 15t^4 + 10t^3 (Perlin). */
+ brw_MUL( p, xi, param0, brw_imm_f( 6.0 ) );
+ brw_MUL( p, yi, param1, brw_imm_f( 6.0 ) );
+ brw_MUL( p, zi, param2, brw_imm_f( 6.0 ) );
+ brw_ADD( p, xi, xi, brw_imm_f( -15.0 ) );
+ brw_ADD( p, yi, yi, brw_imm_f( -15.0 ) );
+ brw_ADD( p, zi, zi, brw_imm_f( -15.0 ) );
+ brw_MUL( p, xi, xi, param0 );
+ brw_MUL( p, yi, yi, param1 );
+ brw_MUL( p, zi, zi, param2 );
+ brw_ADD( p, xi, xi, brw_imm_f( 10.0 ) );
+ brw_ADD( p, yi, yi, brw_imm_f( 10.0 ) );
+ brw_ADD( p, zi, zi, brw_imm_f( 10.0 ) );
+ brw_ADD( p, x0y1, x0y1, negate( x0y0 ) ); /* unrelated work */
+ brw_ADD( p, x1y1, x1y1, negate( x1y0 ) ); /* unrelated work */
+ brw_MUL( p, xi, xi, param0 );
+ brw_MUL( p, yi, yi, param1 );
+ brw_MUL( p, zi, zi, param2 );
+ brw_MUL( p, xi, xi, param0 );
+ brw_MUL( p, yi, yi, param1 );
+ brw_MUL( p, zi, zi, param2 );
+ brw_MUL( p, xi, xi, param0 );
+ brw_MUL( p, yi, yi, param1 );
+ brw_MUL( p, zi, zi, param2 );
+
+ /* Here we interpolate in the y dimension... */
+ brw_MUL( p, x0y1, x0y1, yi );
+ brw_MUL( p, x1y1, x1y1, yi );
+ brw_ADD( p, x0y0, x0y0, x0y1 );
+ brw_ADD( p, x1y0, x1y0, x1y1 );
+
+ /* And now in x. Leave the result in tmp[ 0 ] (see below)... */
+ brw_ADD( p, x1y0, x1y0, negate( x0y0 ) );
+ brw_MUL( p, x1y0, x1y0, xi );
+ brw_ADD( p, tmp[ 0 ], x0y0, x1y0 );
+
+ /* Now do the same thing for the front four gradients... */
+ /* x component */
+ brw_MOV( p, x0y0, low_words( tmp[ 2 ] ) );
+ brw_MOV( p, x0y1, low_words( tmp[ 3 ] ) );
+ brw_MOV( p, x1y0, high_words( tmp[ 2 ] ) );
+ brw_MOV( p, x1y1, high_words( tmp[ 3 ] ) );
+
+ brw_push_insn_state( p );
+ brw_set_mask_control( p, BRW_MASK_DISABLE );
+ brw_SHL( p, wtmp[ 2 ], wtmp[ 2 ], brw_imm_uw( 5 ) );
+ brw_SHL( p, wtmp[ 3 ], wtmp[ 3 ], brw_imm_uw( 5 ) );
+ brw_pop_insn_state( p );
+
+ brw_MUL( p, x1y0, x1y0, t );
+ brw_MUL( p, x1y1, x1y1, t );
+ brw_ADD( p, t, param1, brw_imm_f( -1.0 ) );
+ brw_MUL( p, x0y0, x0y0, param0 );
+ brw_MUL( p, x0y1, x0y1, param0 );
+
+ /* y component */
+ brw_MOV( p, tmp[ 5 ], low_words( tmp[ 3 ] ) );
+ brw_MOV( p, tmp[ 7 ], high_words( tmp[ 3 ] ) );
+ brw_MOV( p, tmp[ 4 ], low_words( tmp[ 2 ] ) );
+ brw_MOV( p, tmp[ 6 ], high_words( tmp[ 2 ] ) );
+
+ brw_push_insn_state( p );
+ brw_set_mask_control( p, BRW_MASK_DISABLE );
+ brw_SHL( p, wtmp[ 2 ], wtmp[ 2 ], brw_imm_uw( 5 ) );
+ brw_SHL( p, wtmp[ 3 ], wtmp[ 3 ], brw_imm_uw( 5 ) );
+ brw_pop_insn_state( p );
+
+ brw_MUL( p, tmp[ 5 ], tmp[ 5 ], t );
+ brw_MUL( p, tmp[ 7 ], tmp[ 7 ], t );
+ brw_ADD( p, t, param2, brw_imm_f( -1.0 ) );
+ brw_MUL( p, tmp[ 4 ], tmp[ 4 ], param1 );
+ brw_MUL( p, tmp[ 6 ], tmp[ 6 ], param1 );
+
+ brw_ADD( p, x0y1, x0y1, tmp[ 5 ] );
+ brw_ADD( p, x1y1, x1y1, tmp[ 7 ] );
+ brw_ADD( p, x0y0, x0y0, tmp[ 4 ] );
+ brw_ADD( p, x1y0, x1y0, tmp[ 6 ] );
+
+ /* z component */
+ brw_MOV( p, tmp[ 4 ], low_words( tmp[ 2 ] ) );
+ brw_MOV( p, tmp[ 5 ], low_words( tmp[ 3 ] ) );
+ brw_MOV( p, tmp[ 6 ], high_words( tmp[ 2 ] ) );
+ brw_MOV( p, tmp[ 7 ], high_words( tmp[ 3 ] ) );
+
+ brw_MUL( p, tmp[ 4 ], tmp[ 4 ], t );
+ brw_MUL( p, tmp[ 5 ], tmp[ 5 ], t );
+ brw_MUL( p, tmp[ 6 ], tmp[ 6 ], t );
+ brw_MUL( p, tmp[ 7 ], tmp[ 7 ], t );
+
+ brw_ADD( p, x0y0, x0y0, tmp[ 4 ] );
+ brw_ADD( p, x0y1, x0y1, tmp[ 5 ] );
+ brw_ADD( p, x1y0, x1y0, tmp[ 6 ] );
+ brw_ADD( p, x1y1, x1y1, tmp[ 7 ] );
+
+ /* The interpolation coefficients are still around from last time, so
+ again interpolate in the y dimension... */
+ brw_ADD( p, x0y1, x0y1, negate( x0y0 ) );
+ brw_ADD( p, x1y1, x1y1, negate( x1y0 ) );
+ brw_MUL( p, x0y1, x0y1, yi );
+ brw_MUL( p, x1y1, x1y1, yi );
+ brw_ADD( p, x0y0, x0y0, x0y1 );
+ brw_ADD( p, x1y0, x1y0, x1y1 );
+
+ /* And now in x. The rear face is in tmp[ 0 ] (see above), so this
+ time put the front face in tmp[ 1 ] and we're nearly there... */
+ brw_ADD( p, x1y0, x1y0, negate( x0y0 ) );
+ brw_MUL( p, x1y0, x1y0, xi );
+ brw_ADD( p, tmp[ 1 ], x0y0, x1y0 );
+
+ /* The final interpolation, in the z dimension: */
+ brw_ADD( p, tmp[ 1 ], tmp[ 1 ], negate( tmp[ 0 ] ) );
+ brw_MUL( p, tmp[ 1 ], tmp[ 1 ], zi );
+ brw_ADD( p, tmp[ 0 ], tmp[ 0 ], tmp[ 1 ] );
+
+ /* scale by pow( 2, -15 ), as described above */
+ brw_MUL( p, param0, tmp[ 0 ], brw_imm_f( 0.000030517578125 ) );
+
+ release_tmps( c, mark );
+}
+
+static void emit_noise3( struct brw_wm_compile *c,
+ struct prog_instruction *inst )
+{
+ struct brw_compile *p = &c->func;
+ struct brw_reg src0, src1, src2, param0, param1, param2, dst;
+ GLuint mask = inst->DstReg.WriteMask;
+ int i;
+ int mark = mark_tmps( c );
+
+ assert( mark == 0 );
+
+ src0 = get_src_reg( c, inst->SrcReg, 0, 1 );
+ src1 = get_src_reg( c, inst->SrcReg, 1, 1 );
+ src2 = get_src_reg( c, inst->SrcReg, 2, 1 );
+
+ param0 = alloc_tmp( c );
+ param1 = alloc_tmp( c );
+ param2 = alloc_tmp( c );
+
+ brw_MOV( p, param0, src0 );
+ brw_MOV( p, param1, src1 );
+ brw_MOV( p, param2, src2 );
+
+ invoke_subroutine( c, SUB_NOISE3, noise3_sub );
+
+ /* Fill in the result: */
+ brw_set_saturate( p, inst->SaturateMode == SATURATE_ZERO_ONE );
+ for (i = 0 ; i < 4; i++) {
+ if (mask & (1<<i)) {
+ dst = get_dst_reg(c, inst, i, 1);
+ brw_MOV( p, dst, param0 );
+ }
+ }
+ if( inst->SaturateMode == SATURATE_ZERO_ONE )
+ brw_set_saturate( p, 0 );
+
+ release_tmps( c, mark );
+}
static void emit_wpos_xy(struct brw_wm_compile *c,
struct prog_instruction *inst)
@@ -1676,7 +1993,9 @@ static void brw_wm_emit_glsl(struct brw_context *brw, struct brw_wm_compile *c)
case OPCODE_NOISE2:
emit_noise2(c, inst);
break;
- /* case OPCODE_NOISE3: */
+ case OPCODE_NOISE3:
+ emit_noise3(c, inst);
+ break;
/* case OPCODE_NOISE4: */
/* not yet implemented */
case OPCODE_TEX: