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authorEric Anholt <[email protected]>2011-05-24 16:45:17 -0700
committerEric Anholt <[email protected]>2011-05-27 08:51:40 -0700
commitd1f70a8a6c6ec7007bad22d3d6013415be2d243a (patch)
tree809feed97a1dc9bb8e5e555e1025668368e6362c /src/mesa/drivers
parent11dd9e9c0fcf9985b90ff4b63b2833345fece027 (diff)
i965/fs: Split the GLSL IR -> FS LIR visitor to brw_fs_visitor.cpp.
We now have: brw_fs.cpp handles calling out to everything and optimization. brw_fs_visitor.cpp handles translating to our LIR. brw_fs_emit.cpp handles emitting from our LIR to native code. Reviewed-by: Kenneth Graunke <[email protected]>
Diffstat (limited to 'src/mesa/drivers')
-rw-r--r--src/mesa/drivers/dri/i965/Makefile1
-rw-r--r--src/mesa/drivers/dri/i965/brw_fs.cpp1688
-rw-r--r--src/mesa/drivers/dri/i965/brw_fs.h2
-rw-r--r--src/mesa/drivers/dri/i965/brw_fs_visitor.cpp1724
4 files changed, 1736 insertions, 1679 deletions
diff --git a/src/mesa/drivers/dri/i965/Makefile b/src/mesa/drivers/dri/i965/Makefile
index 9f27b8f98ec..d80628b1e77 100644
--- a/src/mesa/drivers/dri/i965/Makefile
+++ b/src/mesa/drivers/dri/i965/Makefile
@@ -117,6 +117,7 @@ CXX_SOURCES = \
brw_cubemap_normalize.cpp \
brw_fs.cpp \
brw_fs_emit.cpp \
+ brw_fs_visitor.cpp \
brw_fs_channel_expressions.cpp \
brw_fs_reg_allocate.cpp \
brw_fs_schedule_instructions.cpp \
diff --git a/src/mesa/drivers/dri/i965/brw_fs.cpp b/src/mesa/drivers/dri/i965/brw_fs.cpp
index 9bc7b444657..bec43b43947 100644
--- a/src/mesa/drivers/dri/i965/brw_fs.cpp
+++ b/src/mesa/drivers/dri/i965/brw_fs.cpp
@@ -19,10 +19,13 @@
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
* IN THE SOFTWARE.
+ */
+
+/** @file brw_fs.cpp
*
- * Authors:
- * Eric Anholt <[email protected]>
- *
+ * This file drives the GLSL IR -> LIR translation, contains the
+ * optimizations on the LIR, and drives the generation of native code
+ * from the LIR.
*/
extern "C" {
@@ -48,8 +51,8 @@ extern "C" {
#define MAX_INSTRUCTION (1 << 30)
-static int
-type_size(const struct glsl_type *type)
+int
+fs_visitor::type_size(const struct glsl_type *type)
{
unsigned int size, i;
@@ -204,7 +207,7 @@ fs_reg::fs_reg(class fs_visitor *v, const struct glsl_type *type)
init();
this->file = GRF;
- this->reg = v->virtual_grf_alloc(type_size(type));
+ this->reg = v->virtual_grf_alloc(v->type_size(type));
this->reg_offset = 0;
this->type = brw_type_for_base_type(type);
}
@@ -582,1679 +585,6 @@ fs_visitor::emit_math(fs_opcodes opcode, fs_reg dst, fs_reg src0, fs_reg src1)
return inst;
}
-void
-fs_visitor::visit(ir_variable *ir)
-{
- fs_reg *reg = NULL;
-
- if (variable_storage(ir))
- return;
-
- if (strcmp(ir->name, "gl_FragColor") == 0) {
- this->frag_color = ir;
- } else if (strcmp(ir->name, "gl_FragData") == 0) {
- this->frag_data = ir;
- } else if (strcmp(ir->name, "gl_FragDepth") == 0) {
- this->frag_depth = ir;
- }
-
- if (ir->mode == ir_var_in) {
- if (!strcmp(ir->name, "gl_FragCoord")) {
- reg = emit_fragcoord_interpolation(ir);
- } else if (!strcmp(ir->name, "gl_FrontFacing")) {
- reg = emit_frontfacing_interpolation(ir);
- } else {
- reg = emit_general_interpolation(ir);
- }
- assert(reg);
- hash_table_insert(this->variable_ht, reg, ir);
- return;
- }
-
- if (ir->mode == ir_var_uniform) {
- int param_index = c->prog_data.nr_params;
-
- if (c->dispatch_width == 16) {
- if (!variable_storage(ir)) {
- fail("Failed to find uniform '%s' in 16-wide\n", ir->name);
- }
- return;
- }
-
- if (!strncmp(ir->name, "gl_", 3)) {
- setup_builtin_uniform_values(ir);
- } else {
- setup_uniform_values(ir->location, ir->type);
- }
-
- reg = new(this->mem_ctx) fs_reg(UNIFORM, param_index);
- reg->type = brw_type_for_base_type(ir->type);
- }
-
- if (!reg)
- reg = new(this->mem_ctx) fs_reg(this, ir->type);
-
- hash_table_insert(this->variable_ht, reg, ir);
-}
-
-void
-fs_visitor::visit(ir_dereference_variable *ir)
-{
- fs_reg *reg = variable_storage(ir->var);
- this->result = *reg;
-}
-
-void
-fs_visitor::visit(ir_dereference_record *ir)
-{
- const glsl_type *struct_type = ir->record->type;
-
- ir->record->accept(this);
-
- unsigned int offset = 0;
- for (unsigned int i = 0; i < struct_type->length; i++) {
- if (strcmp(struct_type->fields.structure[i].name, ir->field) == 0)
- break;
- offset += type_size(struct_type->fields.structure[i].type);
- }
- this->result.reg_offset += offset;
- this->result.type = brw_type_for_base_type(ir->type);
-}
-
-void
-fs_visitor::visit(ir_dereference_array *ir)
-{
- ir_constant *index;
- int element_size;
-
- ir->array->accept(this);
- index = ir->array_index->as_constant();
-
- element_size = type_size(ir->type);
- this->result.type = brw_type_for_base_type(ir->type);
-
- if (index) {
- assert(this->result.file == UNIFORM ||
- (this->result.file == GRF &&
- this->result.reg != 0));
- this->result.reg_offset += index->value.i[0] * element_size;
- } else {
- assert(!"FINISHME: non-constant array element");
- }
-}
-
-/* Instruction selection: Produce a MOV.sat instead of
- * MIN(MAX(val, 0), 1) when possible.
- */
-bool
-fs_visitor::try_emit_saturate(ir_expression *ir)
-{
- ir_rvalue *sat_val = ir->as_rvalue_to_saturate();
-
- if (!sat_val)
- return false;
-
- this->result = reg_undef;
- sat_val->accept(this);
- fs_reg src = this->result;
-
- this->result = fs_reg(this, ir->type);
- fs_inst *inst = emit(BRW_OPCODE_MOV, this->result, src);
- inst->saturate = true;
-
- return true;
-}
-
-void
-fs_visitor::visit(ir_expression *ir)
-{
- unsigned int operand;
- fs_reg op[2], temp;
- fs_inst *inst;
-
- assert(ir->get_num_operands() <= 2);
-
- if (try_emit_saturate(ir))
- return;
-
- /* This is where our caller would like us to put the result, if possible. */
- fs_reg saved_result_storage = this->result;
-
- for (operand = 0; operand < ir->get_num_operands(); operand++) {
- this->result = reg_undef;
- ir->operands[operand]->accept(this);
- if (this->result.file == BAD_FILE) {
- ir_print_visitor v;
- fail("Failed to get tree for expression operand:\n");
- ir->operands[operand]->accept(&v);
- }
- op[operand] = this->result;
-
- /* Matrix expression operands should have been broken down to vector
- * operations already.
- */
- assert(!ir->operands[operand]->type->is_matrix());
- /* And then those vector operands should have been broken down to scalar.
- */
- assert(!ir->operands[operand]->type->is_vector());
- }
-
- /* Inherit storage from our parent if possible, and otherwise we
- * alloc a temporary.
- */
- if (saved_result_storage.file == BAD_FILE) {
- this->result = fs_reg(this, ir->type);
- } else {
- this->result = saved_result_storage;
- }
-
- switch (ir->operation) {
- case ir_unop_logic_not:
- /* Note that BRW_OPCODE_NOT is not appropriate here, since it is
- * ones complement of the whole register, not just bit 0.
- */
- emit(BRW_OPCODE_XOR, this->result, op[0], fs_reg(1));
- break;
- case ir_unop_neg:
- op[0].negate = !op[0].negate;
- this->result = op[0];
- break;
- case ir_unop_abs:
- op[0].abs = true;
- op[0].negate = false;
- this->result = op[0];
- break;
- case ir_unop_sign:
- temp = fs_reg(this, ir->type);
-
- /* Unalias the destination. (imagine a = sign(a)) */
- this->result = fs_reg(this, ir->type);
-
- emit(BRW_OPCODE_MOV, this->result, fs_reg(0.0f));
-
- inst = emit(BRW_OPCODE_CMP, reg_null_f, op[0], fs_reg(0.0f));
- inst->conditional_mod = BRW_CONDITIONAL_G;
- inst = emit(BRW_OPCODE_MOV, this->result, fs_reg(1.0f));
- inst->predicated = true;
-
- inst = emit(BRW_OPCODE_CMP, reg_null_f, op[0], fs_reg(0.0f));
- inst->conditional_mod = BRW_CONDITIONAL_L;
- inst = emit(BRW_OPCODE_MOV, this->result, fs_reg(-1.0f));
- inst->predicated = true;
-
- break;
- case ir_unop_rcp:
- emit_math(FS_OPCODE_RCP, this->result, op[0]);
- break;
-
- case ir_unop_exp2:
- emit_math(FS_OPCODE_EXP2, this->result, op[0]);
- break;
- case ir_unop_log2:
- emit_math(FS_OPCODE_LOG2, this->result, op[0]);
- break;
- case ir_unop_exp:
- case ir_unop_log:
- assert(!"not reached: should be handled by ir_explog_to_explog2");
- break;
- case ir_unop_sin:
- case ir_unop_sin_reduced:
- emit_math(FS_OPCODE_SIN, this->result, op[0]);
- break;
- case ir_unop_cos:
- case ir_unop_cos_reduced:
- emit_math(FS_OPCODE_COS, this->result, op[0]);
- break;
-
- case ir_unop_dFdx:
- emit(FS_OPCODE_DDX, this->result, op[0]);
- break;
- case ir_unop_dFdy:
- emit(FS_OPCODE_DDY, this->result, op[0]);
- break;
-
- case ir_binop_add:
- emit(BRW_OPCODE_ADD, this->result, op[0], op[1]);
- break;
- case ir_binop_sub:
- assert(!"not reached: should be handled by ir_sub_to_add_neg");
- break;
-
- case ir_binop_mul:
- emit(BRW_OPCODE_MUL, this->result, op[0], op[1]);
- break;
- case ir_binop_div:
- assert(!"not reached: should be handled by ir_div_to_mul_rcp");
- break;
- case ir_binop_mod:
- assert(!"ir_binop_mod should have been converted to b * fract(a/b)");
- break;
-
- case ir_binop_less:
- case ir_binop_greater:
- case ir_binop_lequal:
- case ir_binop_gequal:
- case ir_binop_equal:
- case ir_binop_all_equal:
- case ir_binop_nequal:
- case ir_binop_any_nequal:
- temp = this->result;
- /* original gen4 does implicit conversion before comparison. */
- if (intel->gen < 5)
- temp.type = op[0].type;
-
- inst = emit(BRW_OPCODE_CMP, temp, op[0], op[1]);
- inst->conditional_mod = brw_conditional_for_comparison(ir->operation);
- emit(BRW_OPCODE_AND, this->result, this->result, fs_reg(0x1));
- break;
-
- case ir_binop_logic_xor:
- emit(BRW_OPCODE_XOR, this->result, op[0], op[1]);
- break;
-
- case ir_binop_logic_or:
- emit(BRW_OPCODE_OR, this->result, op[0], op[1]);
- break;
-
- case ir_binop_logic_and:
- emit(BRW_OPCODE_AND, this->result, op[0], op[1]);
- break;
-
- case ir_binop_dot:
- case ir_unop_any:
- assert(!"not reached: should be handled by brw_fs_channel_expressions");
- break;
-
- case ir_unop_noise:
- assert(!"not reached: should be handled by lower_noise");
- break;
-
- case ir_quadop_vector:
- assert(!"not reached: should be handled by lower_quadop_vector");
- break;
-
- case ir_unop_sqrt:
- emit_math(FS_OPCODE_SQRT, this->result, op[0]);
- break;
-
- case ir_unop_rsq:
- emit_math(FS_OPCODE_RSQ, this->result, op[0]);
- break;
-
- case ir_unop_i2f:
- case ir_unop_b2f:
- case ir_unop_b2i:
- case ir_unop_f2i:
- emit(BRW_OPCODE_MOV, this->result, op[0]);
- break;
- case ir_unop_f2b:
- case ir_unop_i2b:
- temp = this->result;
- /* original gen4 does implicit conversion before comparison. */
- if (intel->gen < 5)
- temp.type = op[0].type;
-
- inst = emit(BRW_OPCODE_CMP, temp, op[0], fs_reg(0.0f));
- inst->conditional_mod = BRW_CONDITIONAL_NZ;
- inst = emit(BRW_OPCODE_AND, this->result, this->result, fs_reg(1));
- break;
-
- case ir_unop_trunc:
- emit(BRW_OPCODE_RNDZ, this->result, op[0]);
- break;
- case ir_unop_ceil:
- op[0].negate = !op[0].negate;
- inst = emit(BRW_OPCODE_RNDD, this->result, op[0]);
- this->result.negate = true;
- break;
- case ir_unop_floor:
- inst = emit(BRW_OPCODE_RNDD, this->result, op[0]);
- break;
- case ir_unop_fract:
- inst = emit(BRW_OPCODE_FRC, this->result, op[0]);
- break;
- case ir_unop_round_even:
- emit(BRW_OPCODE_RNDE, this->result, op[0]);
- break;
-
- case ir_binop_min:
- /* Unalias the destination */
- this->result = fs_reg(this, ir->type);
-
- inst = emit(BRW_OPCODE_CMP, this->result, op[0], op[1]);
- inst->conditional_mod = BRW_CONDITIONAL_L;
-
- inst = emit(BRW_OPCODE_SEL, this->result, op[0], op[1]);
- inst->predicated = true;
- break;
- case ir_binop_max:
- /* Unalias the destination */
- this->result = fs_reg(this, ir->type);
-
- inst = emit(BRW_OPCODE_CMP, this->result, op[0], op[1]);
- inst->conditional_mod = BRW_CONDITIONAL_G;
-
- inst = emit(BRW_OPCODE_SEL, this->result, op[0], op[1]);
- inst->predicated = true;
- break;
-
- case ir_binop_pow:
- emit_math(FS_OPCODE_POW, this->result, op[0], op[1]);
- break;
-
- case ir_unop_bit_not:
- inst = emit(BRW_OPCODE_NOT, this->result, op[0]);
- break;
- case ir_binop_bit_and:
- inst = emit(BRW_OPCODE_AND, this->result, op[0], op[1]);
- break;
- case ir_binop_bit_xor:
- inst = emit(BRW_OPCODE_XOR, this->result, op[0], op[1]);
- break;
- case ir_binop_bit_or:
- inst = emit(BRW_OPCODE_OR, this->result, op[0], op[1]);
- break;
-
- case ir_unop_u2f:
- case ir_binop_lshift:
- case ir_binop_rshift:
- assert(!"GLSL 1.30 features unsupported");
- break;
- }
-}
-
-void
-fs_visitor::emit_assignment_writes(fs_reg &l, fs_reg &r,
- const glsl_type *type, bool predicated)
-{
- switch (type->base_type) {
- case GLSL_TYPE_FLOAT:
- case GLSL_TYPE_UINT:
- case GLSL_TYPE_INT:
- case GLSL_TYPE_BOOL:
- for (unsigned int i = 0; i < type->components(); i++) {
- l.type = brw_type_for_base_type(type);
- r.type = brw_type_for_base_type(type);
-
- if (predicated || !l.equals(&r)) {
- fs_inst *inst = emit(BRW_OPCODE_MOV, l, r);
- inst->predicated = predicated;
- }
-
- l.reg_offset++;
- r.reg_offset++;
- }
- break;
- case GLSL_TYPE_ARRAY:
- for (unsigned int i = 0; i < type->length; i++) {
- emit_assignment_writes(l, r, type->fields.array, predicated);
- }
- break;
-
- case GLSL_TYPE_STRUCT:
- for (unsigned int i = 0; i < type->length; i++) {
- emit_assignment_writes(l, r, type->fields.structure[i].type,
- predicated);
- }
- break;
-
- case GLSL_TYPE_SAMPLER:
- break;
-
- default:
- assert(!"not reached");
- break;
- }
-}
-
-void
-fs_visitor::visit(ir_assignment *ir)
-{
- struct fs_reg l, r;
- fs_inst *inst;
-
- /* FINISHME: arrays on the lhs */
- this->result = reg_undef;
- ir->lhs->accept(this);
- l = this->result;
-
- /* If we're doing a direct assignment, an RHS expression could
- * drop its result right into our destination. Otherwise, tell it
- * not to.
- */
- if (ir->condition ||
- !(ir->lhs->type->is_scalar() ||
- (ir->lhs->type->is_vector() &&
- ir->write_mask == (1 << ir->lhs->type->vector_elements) - 1))) {
- this->result = reg_undef;
- }
-
- ir->rhs->accept(this);
- r = this->result;
-
- assert(l.file != BAD_FILE);
- assert(r.file != BAD_FILE);
-
- if (ir->condition) {
- emit_bool_to_cond_code(ir->condition);
- }
-
- if (ir->lhs->type->is_scalar() ||
- ir->lhs->type->is_vector()) {
- for (int i = 0; i < ir->lhs->type->vector_elements; i++) {
- if (ir->write_mask & (1 << i)) {
- if (ir->condition) {
- inst = emit(BRW_OPCODE_MOV, l, r);
- inst->predicated = true;
- } else if (!l.equals(&r)) {
- inst = emit(BRW_OPCODE_MOV, l, r);
- }
-
- r.reg_offset++;
- }
- l.reg_offset++;
- }
- } else {
- emit_assignment_writes(l, r, ir->lhs->type, ir->condition != NULL);
- }
-}
-
-fs_inst *
-fs_visitor::emit_texture_gen4(ir_texture *ir, fs_reg dst, fs_reg coordinate,
- int sampler)
-{
- int mlen;
- int base_mrf = 1;
- bool simd16 = false;
- fs_reg orig_dst;
-
- /* g0 header. */
- mlen = 1;
-
- if (ir->shadow_comparitor) {
- for (int i = 0; i < ir->coordinate->type->vector_elements; i++) {
- fs_inst *inst = emit(BRW_OPCODE_MOV,
- fs_reg(MRF, base_mrf + mlen + i), coordinate);
- if (i < 3 && c->key.gl_clamp_mask[i] & (1 << sampler))
- inst->saturate = true;
-
- coordinate.reg_offset++;
- }
- /* gen4's SIMD8 sampler always has the slots for u,v,r present. */
- mlen += 3;
-
- if (ir->op == ir_tex) {
- /* There's no plain shadow compare message, so we use shadow
- * compare with a bias of 0.0.
- */
- emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), fs_reg(0.0f));
- mlen++;
- } else if (ir->op == ir_txb) {
- this->result = reg_undef;
- ir->lod_info.bias->accept(this);
- emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), this->result);
- mlen++;
- } else {
- assert(ir->op == ir_txl);
- this->result = reg_undef;
- ir->lod_info.lod->accept(this);
- emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), this->result);
- mlen++;
- }
-
- this->result = reg_undef;
- ir->shadow_comparitor->accept(this);
- emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), this->result);
- mlen++;
- } else if (ir->op == ir_tex) {
- for (int i = 0; i < ir->coordinate->type->vector_elements; i++) {
- fs_inst *inst = emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen + i),
- coordinate);
- if (i < 3 && c->key.gl_clamp_mask[i] & (1 << sampler))
- inst->saturate = true;
- coordinate.reg_offset++;
- }
- /* gen4's SIMD8 sampler always has the slots for u,v,r present. */
- mlen += 3;
- } else if (ir->op == ir_txd) {
- assert(!"TXD isn't supported on gen4 yet.");
- } else {
- /* Oh joy. gen4 doesn't have SIMD8 non-shadow-compare bias/lod
- * instructions. We'll need to do SIMD16 here.
- */
- assert(ir->op == ir_txb || ir->op == ir_txl);
-
- for (int i = 0; i < ir->coordinate->type->vector_elements; i++) {
- fs_inst *inst = emit(BRW_OPCODE_MOV, fs_reg(MRF,
- base_mrf + mlen + i * 2),
- coordinate);
- if (i < 3 && c->key.gl_clamp_mask[i] & (1 << sampler))
- inst->saturate = true;
- coordinate.reg_offset++;
- }
-
- /* lod/bias appears after u/v/r. */
- mlen += 6;
-
- if (ir->op == ir_txb) {
- this->result = reg_undef;
- ir->lod_info.bias->accept(this);
- emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), this->result);
- mlen++;
- } else {
- this->result = reg_undef;
- ir->lod_info.lod->accept(this);
- emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), this->result);
- mlen++;
- }
-
- /* The unused upper half. */
- mlen++;
-
- /* Now, since we're doing simd16, the return is 2 interleaved
- * vec4s where the odd-indexed ones are junk. We'll need to move
- * this weirdness around to the expected layout.
- */
- simd16 = true;
- orig_dst = dst;
- dst = fs_reg(this, glsl_type::get_array_instance(glsl_type::vec4_type,
- 2));
- dst.type = BRW_REGISTER_TYPE_F;
- }
-
- fs_inst *inst = NULL;
- switch (ir->op) {
- case ir_tex:
- inst = emit(FS_OPCODE_TEX, dst);
- break;
- case ir_txb:
- inst = emit(FS_OPCODE_TXB, dst);
- break;
- case ir_txl:
- inst = emit(FS_OPCODE_TXL, dst);
- break;
- case ir_txd:
- inst = emit(FS_OPCODE_TXD, dst);
- break;
- case ir_txf:
- assert(!"GLSL 1.30 features unsupported");
- break;
- }
- inst->base_mrf = base_mrf;
- inst->mlen = mlen;
- inst->header_present = true;
-
- if (simd16) {
- for (int i = 0; i < 4; i++) {
- emit(BRW_OPCODE_MOV, orig_dst, dst);
- orig_dst.reg_offset++;
- dst.reg_offset += 2;
- }
- }
-
- return inst;
-}
-
-/* gen5's sampler has slots for u, v, r, array index, then optional
- * parameters like shadow comparitor or LOD bias. If optional
- * parameters aren't present, those base slots are optional and don't
- * need to be included in the message.
- *
- * We don't fill in the unnecessary slots regardless, which may look
- * surprising in the disassembly.
- */
-fs_inst *
-fs_visitor::emit_texture_gen5(ir_texture *ir, fs_reg dst, fs_reg coordinate,
- int sampler)
-{
- int mlen = 0;
- int base_mrf = 2;
- int reg_width = c->dispatch_width / 8;
- bool header_present = false;
-
- if (ir->offset) {
- /* The offsets set up by the ir_texture visitor are in the
- * m1 header, so we can't go headerless.
- */
- header_present = true;
- mlen++;
- base_mrf--;
- }
-
- for (int i = 0; i < ir->coordinate->type->vector_elements; i++) {
- fs_inst *inst = emit(BRW_OPCODE_MOV,
- fs_reg(MRF, base_mrf + mlen + i * reg_width),
- coordinate);
- if (i < 3 && c->key.gl_clamp_mask[i] & (1 << sampler))
- inst->saturate = true;
- coordinate.reg_offset++;
- }
- mlen += ir->coordinate->type->vector_elements * reg_width;
-
- if (ir->shadow_comparitor) {
- mlen = MAX2(mlen, header_present + 4 * reg_width);
-
- this->result = reg_undef;
- ir->shadow_comparitor->accept(this);
- emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), this->result);
- mlen += reg_width;
- }
-
- fs_inst *inst = NULL;
- switch (ir->op) {
- case ir_tex:
- inst = emit(FS_OPCODE_TEX, dst);
- break;
- case ir_txb:
- this->result = reg_undef;
- ir->lod_info.bias->accept(this);
- mlen = MAX2(mlen, header_present + 4 * reg_width);
- emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), this->result);
- mlen += reg_width;
-
- inst = emit(FS_OPCODE_TXB, dst);
-
- break;
- case ir_txl:
- this->result = reg_undef;
- ir->lod_info.lod->accept(this);
- mlen = MAX2(mlen, header_present + 4 * reg_width);
- emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), this->result);
- mlen += reg_width;
-
- inst = emit(FS_OPCODE_TXL, dst);
- break;
- case ir_txd:
- case ir_txf:
- assert(!"GLSL 1.30 features unsupported");
- break;
- }
- inst->base_mrf = base_mrf;
- inst->mlen = mlen;
- inst->header_present = header_present;
-
- if (mlen > 11) {
- fail("Message length >11 disallowed by hardware\n");
- }
-
- return inst;
-}
-
-fs_inst *
-fs_visitor::emit_texture_gen7(ir_texture *ir, fs_reg dst, fs_reg coordinate,
- int sampler)
-{
- int mlen = 0;
- int base_mrf = 2;
- int reg_width = c->dispatch_width / 8;
- bool header_present = false;
-
- if (ir->offset) {
- /* The offsets set up by the ir_texture visitor are in the
- * m1 header, so we can't go headerless.
- */
- header_present = true;
- mlen++;
- base_mrf--;
- }
-
- if (ir->shadow_comparitor) {
- ir->shadow_comparitor->accept(this);
- emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), this->result);
- mlen += reg_width;
- }
-
- /* Set up the LOD info */
- switch (ir->op) {
- case ir_tex:
- break;
- case ir_txb:
- ir->lod_info.bias->accept(this);
- emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), this->result);
- mlen += reg_width;
- break;
- case ir_txl:
- ir->lod_info.lod->accept(this);
- emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), this->result);
- mlen += reg_width;
- break;
- case ir_txd:
- case ir_txf:
- assert(!"GLSL 1.30 features unsupported");
- break;
- }
-
- /* Set up the coordinate */
- for (int i = 0; i < ir->coordinate->type->vector_elements; i++) {
- fs_inst *inst = emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen),
- coordinate);
- if (i < 3 && c->key.gl_clamp_mask[i] & (1 << sampler))
- inst->saturate = true;
- coordinate.reg_offset++;
- mlen += reg_width;
- }
-
- /* Generate the SEND */
- fs_inst *inst = NULL;
- switch (ir->op) {
- case ir_tex: inst = emit(FS_OPCODE_TEX, dst); break;
- case ir_txb: inst = emit(FS_OPCODE_TXB, dst); break;
- case ir_txl: inst = emit(FS_OPCODE_TXL, dst); break;
- case ir_txd: inst = emit(FS_OPCODE_TXD, dst); break;
- case ir_txf: assert(!"TXF unsupported.");
- }
- inst->base_mrf = base_mrf;
- inst->mlen = mlen;
- inst->header_present = header_present;
-
- if (mlen > 11) {
- fail("Message length >11 disallowed by hardware\n");
- }
-
- return inst;
-}
-
-void
-fs_visitor::visit(ir_texture *ir)
-{
- int sampler;
- fs_inst *inst = NULL;
-
- this->result = reg_undef;
- ir->coordinate->accept(this);
- fs_reg coordinate = this->result;
-
- if (ir->offset != NULL) {
- ir_constant *offset = ir->offset->as_constant();
- assert(offset != NULL);
-
- signed char offsets[3];
- for (unsigned i = 0; i < ir->offset->type->vector_elements; i++)
- offsets[i] = (signed char) offset->value.i[i];
-
- /* Combine all three offsets into a single unsigned dword:
- *
- * bits 11:8 - U Offset (X component)
- * bits 7:4 - V Offset (Y component)
- * bits 3:0 - R Offset (Z component)
- */
- unsigned offset_bits = 0;
- for (unsigned i = 0; i < ir->offset->type->vector_elements; i++) {
- const unsigned shift = 4 * (2 - i);
- offset_bits |= (offsets[i] << shift) & (0xF << shift);
- }
-
- /* Explicitly set up the message header by copying g0 to msg reg m1. */
- emit(BRW_OPCODE_MOV, fs_reg(MRF, 1, BRW_REGISTER_TYPE_UD),
- fs_reg(GRF, 0, BRW_REGISTER_TYPE_UD));
-
- /* Then set the offset bits in DWord 2 of the message header. */
- emit(BRW_OPCODE_MOV,
- fs_reg(retype(brw_vec1_reg(BRW_MESSAGE_REGISTER_FILE, 1, 2),
- BRW_REGISTER_TYPE_UD)),
- fs_reg(brw_imm_uw(offset_bits)));
- }
-
- /* Should be lowered by do_lower_texture_projection */
- assert(!ir->projector);
-
- sampler = _mesa_get_sampler_uniform_value(ir->sampler,
- ctx->Shader.CurrentFragmentProgram,
- &brw->fragment_program->Base);
- sampler = c->fp->program.Base.SamplerUnits[sampler];
-
- /* The 965 requires the EU to do the normalization of GL rectangle
- * texture coordinates. We use the program parameter state
- * tracking to get the scaling factor.
- */
- if (ir->sampler->type->sampler_dimensionality == GLSL_SAMPLER_DIM_RECT) {
- struct gl_program_parameter_list *params = c->fp->program.Base.Parameters;
- int tokens[STATE_LENGTH] = {
- STATE_INTERNAL,
- STATE_TEXRECT_SCALE,
- sampler,
- 0,
- 0
- };
-
- if (c->dispatch_width == 16) {
- fail("rectangle scale uniform setup not supported on 16-wide\n");
- this->result = fs_reg(this, ir->type);
- return;
- }
-
- c->prog_data.param_convert[c->prog_data.nr_params] =
- PARAM_NO_CONVERT;
- c->prog_data.param_convert[c->prog_data.nr_params + 1] =
- PARAM_NO_CONVERT;
-
- fs_reg scale_x = fs_reg(UNIFORM, c->prog_data.nr_params);
- fs_reg scale_y = fs_reg(UNIFORM, c->prog_data.nr_params + 1);
- GLuint index = _mesa_add_state_reference(params,
- (gl_state_index *)tokens);
-
- this->param_index[c->prog_data.nr_params] = index;
- this->param_offset[c->prog_data.nr_params] = 0;
- c->prog_data.nr_params++;
- this->param_index[c->prog_data.nr_params] = index;
- this->param_offset[c->prog_data.nr_params] = 1;
- c->prog_data.nr_params++;
-
- fs_reg dst = fs_reg(this, ir->coordinate->type);
- fs_reg src = coordinate;
- coordinate = dst;
-
- emit(BRW_OPCODE_MUL, dst, src, scale_x);
- dst.reg_offset++;
- src.reg_offset++;
- emit(BRW_OPCODE_MUL, dst, src, scale_y);
- }
-
- /* Writemasking doesn't eliminate channels on SIMD8 texture
- * samples, so don't worry about them.
- */
- fs_reg dst = fs_reg(this, glsl_type::vec4_type);
-
- if (intel->gen >= 7) {
- inst = emit_texture_gen7(ir, dst, coordinate, sampler);
- } else if (intel->gen >= 5) {
- inst = emit_texture_gen5(ir, dst, coordinate, sampler);
- } else {
- inst = emit_texture_gen4(ir, dst, coordinate, sampler);
- }
-
- /* If there's an offset, we already set up m1. To avoid the implied move,
- * use the null register. Otherwise, we want an implied move from g0.
- */
- if (ir->offset != NULL || !inst->header_present)
- inst->src[0] = reg_undef;
- else
- inst->src[0] = fs_reg(retype(brw_vec8_grf(0, 0), BRW_REGISTER_TYPE_UW));
-
- inst->sampler = sampler;
-
- this->result = dst;
-
- if (ir->shadow_comparitor)
- inst->shadow_compare = true;
-
- if (ir->type == glsl_type::float_type) {
- /* Ignore DEPTH_TEXTURE_MODE swizzling. */
- assert(ir->sampler->type->sampler_shadow);
- } else if (c->key.tex_swizzles[inst->sampler] != SWIZZLE_NOOP) {
- fs_reg swizzle_dst = fs_reg(this, glsl_type::vec4_type);
-
- for (int i = 0; i < 4; i++) {
- int swiz = GET_SWZ(c->key.tex_swizzles[inst->sampler], i);
- fs_reg l = swizzle_dst;
- l.reg_offset += i;
-
- if (swiz == SWIZZLE_ZERO) {
- emit(BRW_OPCODE_MOV, l, fs_reg(0.0f));
- } else if (swiz == SWIZZLE_ONE) {
- emit(BRW_OPCODE_MOV, l, fs_reg(1.0f));
- } else {
- fs_reg r = dst;
- r.reg_offset += GET_SWZ(c->key.tex_swizzles[inst->sampler], i);
- emit(BRW_OPCODE_MOV, l, r);
- }
- }
- this->result = swizzle_dst;
- }
-}
-
-void
-fs_visitor::visit(ir_swizzle *ir)
-{
- this->result = reg_undef;
- ir->val->accept(this);
- fs_reg val = this->result;
-
- if (ir->type->vector_elements == 1) {
- this->result.reg_offset += ir->mask.x;
- return;
- }
-
- fs_reg result = fs_reg(this, ir->type);
- this->result = result;
-
- for (unsigned int i = 0; i < ir->type->vector_elements; i++) {
- fs_reg channel = val;
- int swiz = 0;
-
- switch (i) {
- case 0:
- swiz = ir->mask.x;
- break;
- case 1:
- swiz = ir->mask.y;
- break;
- case 2:
- swiz = ir->mask.z;
- break;
- case 3:
- swiz = ir->mask.w;
- break;
- }
-
- channel.reg_offset += swiz;
- emit(BRW_OPCODE_MOV, result, channel);
- result.reg_offset++;
- }
-}
-
-void
-fs_visitor::visit(ir_discard *ir)
-{
- assert(ir->condition == NULL); /* FINISHME */
-
- emit(FS_OPCODE_DISCARD);
- kill_emitted = true;
-}
-
-void
-fs_visitor::visit(ir_constant *ir)
-{
- /* Set this->result to reg at the bottom of the function because some code
- * paths will cause this visitor to be applied to other fields. This will
- * cause the value stored in this->result to be modified.
- *
- * Make reg constant so that it doesn't get accidentally modified along the
- * way. Yes, I actually had this problem. :(
- */
- const fs_reg reg(this, ir->type);
- fs_reg dst_reg = reg;
-
- if (ir->type->is_array()) {
- const unsigned size = type_size(ir->type->fields.array);
-
- for (unsigned i = 0; i < ir->type->length; i++) {
- this->result = reg_undef;
- ir->array_elements[i]->accept(this);
- fs_reg src_reg = this->result;
-
- dst_reg.type = src_reg.type;
- for (unsigned j = 0; j < size; j++) {
- emit(BRW_OPCODE_MOV, dst_reg, src_reg);
- src_reg.reg_offset++;
- dst_reg.reg_offset++;
- }
- }
- } else if (ir->type->is_record()) {
- foreach_list(node, &ir->components) {
- ir_instruction *const field = (ir_instruction *) node;
- const unsigned size = type_size(field->type);
-
- this->result = reg_undef;
- field->accept(this);
- fs_reg src_reg = this->result;
-
- dst_reg.type = src_reg.type;
- for (unsigned j = 0; j < size; j++) {
- emit(BRW_OPCODE_MOV, dst_reg, src_reg);
- src_reg.reg_offset++;
- dst_reg.reg_offset++;
- }
- }
- } else {
- const unsigned size = type_size(ir->type);
-
- for (unsigned i = 0; i < size; i++) {
- switch (ir->type->base_type) {
- case GLSL_TYPE_FLOAT:
- emit(BRW_OPCODE_MOV, dst_reg, fs_reg(ir->value.f[i]));
- break;
- case GLSL_TYPE_UINT:
- emit(BRW_OPCODE_MOV, dst_reg, fs_reg(ir->value.u[i]));
- break;
- case GLSL_TYPE_INT:
- emit(BRW_OPCODE_MOV, dst_reg, fs_reg(ir->value.i[i]));
- break;
- case GLSL_TYPE_BOOL:
- emit(BRW_OPCODE_MOV, dst_reg, fs_reg((int)ir->value.b[i]));
- break;
- default:
- assert(!"Non-float/uint/int/bool constant");
- }
- dst_reg.reg_offset++;
- }
- }
-
- this->result = reg;
-}
-
-void
-fs_visitor::emit_bool_to_cond_code(ir_rvalue *ir)
-{
- ir_expression *expr = ir->as_expression();
-
- if (expr) {
- fs_reg op[2];
- fs_inst *inst;
-
- assert(expr->get_num_operands() <= 2);
- for (unsigned int i = 0; i < expr->get_num_operands(); i++) {
- assert(expr->operands[i]->type->is_scalar());
-
- this->result = reg_undef;
- expr->operands[i]->accept(this);
- op[i] = this->result;
- }
-
- switch (expr->operation) {
- case ir_unop_logic_not:
- inst = emit(BRW_OPCODE_AND, reg_null_d, op[0], fs_reg(1));
- inst->conditional_mod = BRW_CONDITIONAL_Z;
- break;
-
- case ir_binop_logic_xor:
- inst = emit(BRW_OPCODE_XOR, reg_null_d, op[0], op[1]);
- inst->conditional_mod = BRW_CONDITIONAL_NZ;
- break;
-
- case ir_binop_logic_or:
- inst = emit(BRW_OPCODE_OR, reg_null_d, op[0], op[1]);
- inst->conditional_mod = BRW_CONDITIONAL_NZ;
- break;
-
- case ir_binop_logic_and:
- inst = emit(BRW_OPCODE_AND, reg_null_d, op[0], op[1]);
- inst->conditional_mod = BRW_CONDITIONAL_NZ;
- break;
-
- case ir_unop_f2b:
- if (intel->gen >= 6) {
- inst = emit(BRW_OPCODE_CMP, reg_null_d, op[0], fs_reg(0.0f));
- } else {
- inst = emit(BRW_OPCODE_MOV, reg_null_f, op[0]);
- }
- inst->conditional_mod = BRW_CONDITIONAL_NZ;
- break;
-
- case ir_unop_i2b:
- if (intel->gen >= 6) {
- inst = emit(BRW_OPCODE_CMP, reg_null_d, op[0], fs_reg(0));
- } else {
- inst = emit(BRW_OPCODE_MOV, reg_null_d, op[0]);
- }
- inst->conditional_mod = BRW_CONDITIONAL_NZ;
- break;
-
- case ir_binop_greater:
- case ir_binop_gequal:
- case ir_binop_less:
- case ir_binop_lequal:
- case ir_binop_equal:
- case ir_binop_all_equal:
- case ir_binop_nequal:
- case ir_binop_any_nequal:
- inst = emit(BRW_OPCODE_CMP, reg_null_cmp, op[0], op[1]);
- inst->conditional_mod =
- brw_conditional_for_comparison(expr->operation);
- break;
-
- default:
- assert(!"not reached");
- fail("bad cond code\n");
- break;
- }
- return;
- }
-
- this->result = reg_undef;
- ir->accept(this);
-
- if (intel->gen >= 6) {
- fs_inst *inst = emit(BRW_OPCODE_AND, reg_null_d, this->result, fs_reg(1));
- inst->conditional_mod = BRW_CONDITIONAL_NZ;
- } else {
- fs_inst *inst = emit(BRW_OPCODE_MOV, reg_null_d, this->result);
- inst->conditional_mod = BRW_CONDITIONAL_NZ;
- }
-}
-
-/**
- * Emit a gen6 IF statement with the comparison folded into the IF
- * instruction.
- */
-void
-fs_visitor::emit_if_gen6(ir_if *ir)
-{
- ir_expression *expr = ir->condition->as_expression();
-
- if (expr) {
- fs_reg op[2];
- fs_inst *inst;
- fs_reg temp;
-
- assert(expr->get_num_operands() <= 2);
- for (unsigned int i = 0; i < expr->get_num_operands(); i++) {
- assert(expr->operands[i]->type->is_scalar());
-
- this->result = reg_undef;
- expr->operands[i]->accept(this);
- op[i] = this->result;
- }
-
- switch (expr->operation) {
- case ir_unop_logic_not:
- inst = emit(BRW_OPCODE_IF, temp, op[0], fs_reg(0));
- inst->conditional_mod = BRW_CONDITIONAL_Z;
- return;
-
- case ir_binop_logic_xor:
- inst = emit(BRW_OPCODE_IF, reg_null_d, op[0], op[1]);
- inst->conditional_mod = BRW_CONDITIONAL_NZ;
- return;
-
- case ir_binop_logic_or:
- temp = fs_reg(this, glsl_type::bool_type);
- emit(BRW_OPCODE_OR, temp, op[0], op[1]);
- inst = emit(BRW_OPCODE_IF, reg_null_d, temp, fs_reg(0));
- inst->conditional_mod = BRW_CONDITIONAL_NZ;
- return;
-
- case ir_binop_logic_and:
- temp = fs_reg(this, glsl_type::bool_type);
- emit(BRW_OPCODE_AND, temp, op[0], op[1]);
- inst = emit(BRW_OPCODE_IF, reg_null_d, temp, fs_reg(0));
- inst->conditional_mod = BRW_CONDITIONAL_NZ;
- return;
-
- case ir_unop_f2b:
- inst = emit(BRW_OPCODE_IF, reg_null_f, op[0], fs_reg(0));
- inst->conditional_mod = BRW_CONDITIONAL_NZ;
- return;
-
- case ir_unop_i2b:
- inst = emit(BRW_OPCODE_IF, reg_null_d, op[0], fs_reg(0));
- inst->conditional_mod = BRW_CONDITIONAL_NZ;
- return;
-
- case ir_binop_greater:
- case ir_binop_gequal:
- case ir_binop_less:
- case ir_binop_lequal:
- case ir_binop_equal:
- case ir_binop_all_equal:
- case ir_binop_nequal:
- case ir_binop_any_nequal:
- inst = emit(BRW_OPCODE_IF, reg_null_d, op[0], op[1]);
- inst->conditional_mod =
- brw_conditional_for_comparison(expr->operation);
- return;
- default:
- assert(!"not reached");
- inst = emit(BRW_OPCODE_IF, reg_null_d, op[0], fs_reg(0));
- inst->conditional_mod = BRW_CONDITIONAL_NZ;
- fail("bad condition\n");
- return;
- }
- return;
- }
-
- this->result = reg_undef;
- ir->condition->accept(this);
-
- fs_inst *inst = emit(BRW_OPCODE_IF, reg_null_d, this->result, fs_reg(0));
- inst->conditional_mod = BRW_CONDITIONAL_NZ;
-}
-
-void
-fs_visitor::visit(ir_if *ir)
-{
- fs_inst *inst;
-
- if (intel->gen != 6 && c->dispatch_width == 16) {
- fail("Can't support (non-uniform) control flow on 16-wide\n");
- }
-
- /* Don't point the annotation at the if statement, because then it plus
- * the then and else blocks get printed.
- */
- this->base_ir = ir->condition;
-
- if (intel->gen == 6) {
- emit_if_gen6(ir);
- } else {
- emit_bool_to_cond_code(ir->condition);
-
- inst = emit(BRW_OPCODE_IF);
- inst->predicated = true;
- }
-
- foreach_iter(exec_list_iterator, iter, ir->then_instructions) {
- ir_instruction *ir = (ir_instruction *)iter.get();
- this->base_ir = ir;
- this->result = reg_undef;
- ir->accept(this);
- }
-
- if (!ir->else_instructions.is_empty()) {
- emit(BRW_OPCODE_ELSE);
-
- foreach_iter(exec_list_iterator, iter, ir->else_instructions) {
- ir_instruction *ir = (ir_instruction *)iter.get();
- this->base_ir = ir;
- this->result = reg_undef;
- ir->accept(this);
- }
- }
-
- emit(BRW_OPCODE_ENDIF);
-}
-
-void
-fs_visitor::visit(ir_loop *ir)
-{
- fs_reg counter = reg_undef;
-
- if (c->dispatch_width == 16) {
- fail("Can't support (non-uniform) control flow on 16-wide\n");
- }
-
- if (ir->counter) {
- this->base_ir = ir->counter;
- ir->counter->accept(this);
- counter = *(variable_storage(ir->counter));
-
- if (ir->from) {
- this->result = counter;
-
- this->base_ir = ir->from;
- this->result = counter;
- ir->from->accept(this);
-
- if (!this->result.equals(&counter))
- emit(BRW_OPCODE_MOV, counter, this->result);
- }
- }
-
- emit(BRW_OPCODE_DO);
-
- if (ir->to) {
- this->base_ir = ir->to;
- this->result = reg_undef;
- ir->to->accept(this);
-
- fs_inst *inst = emit(BRW_OPCODE_CMP, reg_null_cmp, counter, this->result);
- inst->conditional_mod = brw_conditional_for_comparison(ir->cmp);
-
- inst = emit(BRW_OPCODE_BREAK);
- inst->predicated = true;
- }
-
- foreach_iter(exec_list_iterator, iter, ir->body_instructions) {
- ir_instruction *ir = (ir_instruction *)iter.get();
-
- this->base_ir = ir;
- this->result = reg_undef;
- ir->accept(this);
- }
-
- if (ir->increment) {
- this->base_ir = ir->increment;
- this->result = reg_undef;
- ir->increment->accept(this);
- emit(BRW_OPCODE_ADD, counter, counter, this->result);
- }
-
- emit(BRW_OPCODE_WHILE);
-}
-
-void
-fs_visitor::visit(ir_loop_jump *ir)
-{
- switch (ir->mode) {
- case ir_loop_jump::jump_break:
- emit(BRW_OPCODE_BREAK);
- break;
- case ir_loop_jump::jump_continue:
- emit(BRW_OPCODE_CONTINUE);
- break;
- }
-}
-
-void
-fs_visitor::visit(ir_call *ir)
-{
- assert(!"FINISHME");
-}
-
-void
-fs_visitor::visit(ir_return *ir)
-{
- assert(!"FINISHME");
-}
-
-void
-fs_visitor::visit(ir_function *ir)
-{
- /* Ignore function bodies other than main() -- we shouldn't see calls to
- * them since they should all be inlined before we get to ir_to_mesa.
- */
- if (strcmp(ir->name, "main") == 0) {
- const ir_function_signature *sig;
- exec_list empty;
-
- sig = ir->matching_signature(&empty);
-
- assert(sig);
-
- foreach_iter(exec_list_iterator, iter, sig->body) {
- ir_instruction *ir = (ir_instruction *)iter.get();
- this->base_ir = ir;
- this->result = reg_undef;
- ir->accept(this);
- }
- }
-}
-
-void
-fs_visitor::visit(ir_function_signature *ir)
-{
- assert(!"not reached");
- (void)ir;
-}
-
-fs_inst *
-fs_visitor::emit(fs_inst inst)
-{
- fs_inst *list_inst = new(mem_ctx) fs_inst;
- *list_inst = inst;
-
- if (force_uncompressed_stack > 0)
- list_inst->force_uncompressed = true;
- else if (force_sechalf_stack > 0)
- list_inst->force_sechalf = true;
-
- list_inst->annotation = this->current_annotation;
- list_inst->ir = this->base_ir;
-
- this->instructions.push_tail(list_inst);
-
- return list_inst;
-}
-
-/** Emits a dummy fragment shader consisting of magenta for bringup purposes. */
-void
-fs_visitor::emit_dummy_fs()
-{
- /* Everyone's favorite color. */
- emit(BRW_OPCODE_MOV, fs_reg(MRF, 2), fs_reg(1.0f));
- emit(BRW_OPCODE_MOV, fs_reg(MRF, 3), fs_reg(0.0f));
- emit(BRW_OPCODE_MOV, fs_reg(MRF, 4), fs_reg(1.0f));
- emit(BRW_OPCODE_MOV, fs_reg(MRF, 5), fs_reg(0.0f));
-
- fs_inst *write;
- write = emit(FS_OPCODE_FB_WRITE, fs_reg(0), fs_reg(0));
- write->base_mrf = 0;
-}
-
-/* The register location here is relative to the start of the URB
- * data. It will get adjusted to be a real location before
- * generate_code() time.
- */
-struct brw_reg
-fs_visitor::interp_reg(int location, int channel)
-{
- int regnr = urb_setup[location] * 2 + channel / 2;
- int stride = (channel & 1) * 4;
-
- assert(urb_setup[location] != -1);
-
- return brw_vec1_grf(regnr, stride);
-}
-
-/** Emits the interpolation for the varying inputs. */
-void
-fs_visitor::emit_interpolation_setup_gen4()
-{
- this->current_annotation = "compute pixel centers";
- this->pixel_x = fs_reg(this, glsl_type::uint_type);
- this->pixel_y = fs_reg(this, glsl_type::uint_type);
- this->pixel_x.type = BRW_REGISTER_TYPE_UW;
- this->pixel_y.type = BRW_REGISTER_TYPE_UW;
-
- emit(FS_OPCODE_PIXEL_X, this->pixel_x);
- emit(FS_OPCODE_PIXEL_Y, this->pixel_y);
-
- this->current_annotation = "compute pixel deltas from v0";
- if (brw->has_pln) {
- this->delta_x = fs_reg(this, glsl_type::vec2_type);
- this->delta_y = this->delta_x;
- this->delta_y.reg_offset++;
- } else {
- this->delta_x = fs_reg(this, glsl_type::float_type);
- this->delta_y = fs_reg(this, glsl_type::float_type);
- }
- emit(BRW_OPCODE_ADD, this->delta_x,
- this->pixel_x, fs_reg(negate(brw_vec1_grf(1, 0))));
- emit(BRW_OPCODE_ADD, this->delta_y,
- this->pixel_y, fs_reg(negate(brw_vec1_grf(1, 1))));
-
- this->current_annotation = "compute pos.w and 1/pos.w";
- /* Compute wpos.w. It's always in our setup, since it's needed to
- * interpolate the other attributes.
- */
- this->wpos_w = fs_reg(this, glsl_type::float_type);
- emit(FS_OPCODE_LINTERP, wpos_w, this->delta_x, this->delta_y,
- interp_reg(FRAG_ATTRIB_WPOS, 3));
- /* Compute the pixel 1/W value from wpos.w. */
- this->pixel_w = fs_reg(this, glsl_type::float_type);
- emit_math(FS_OPCODE_RCP, this->pixel_w, wpos_w);
- this->current_annotation = NULL;
-}
-
-/** Emits the interpolation for the varying inputs. */
-void
-fs_visitor::emit_interpolation_setup_gen6()
-{
- struct brw_reg g1_uw = retype(brw_vec1_grf(1, 0), BRW_REGISTER_TYPE_UW);
-
- /* If the pixel centers end up used, the setup is the same as for gen4. */
- this->current_annotation = "compute pixel centers";
- fs_reg int_pixel_x = fs_reg(this, glsl_type::uint_type);
- fs_reg int_pixel_y = fs_reg(this, glsl_type::uint_type);
- int_pixel_x.type = BRW_REGISTER_TYPE_UW;
- int_pixel_y.type = BRW_REGISTER_TYPE_UW;
- emit(BRW_OPCODE_ADD,
- int_pixel_x,
- fs_reg(stride(suboffset(g1_uw, 4), 2, 4, 0)),
- fs_reg(brw_imm_v(0x10101010)));
- emit(BRW_OPCODE_ADD,
- int_pixel_y,
- fs_reg(stride(suboffset(g1_uw, 5), 2, 4, 0)),
- fs_reg(brw_imm_v(0x11001100)));
-
- /* As of gen6, we can no longer mix float and int sources. We have
- * to turn the integer pixel centers into floats for their actual
- * use.
- */
- this->pixel_x = fs_reg(this, glsl_type::float_type);
- this->pixel_y = fs_reg(this, glsl_type::float_type);
- emit(BRW_OPCODE_MOV, this->pixel_x, int_pixel_x);
- emit(BRW_OPCODE_MOV, this->pixel_y, int_pixel_y);
-
- this->current_annotation = "compute pos.w";
- this->pixel_w = fs_reg(brw_vec8_grf(c->source_w_reg, 0));
- this->wpos_w = fs_reg(this, glsl_type::float_type);
- emit_math(FS_OPCODE_RCP, this->wpos_w, this->pixel_w);
-
- this->delta_x = fs_reg(brw_vec8_grf(2, 0));
- this->delta_y = fs_reg(brw_vec8_grf(3, 0));
-
- this->current_annotation = NULL;
-}
-
-void
-fs_visitor::emit_color_write(int index, int first_color_mrf, fs_reg color)
-{
- int reg_width = c->dispatch_width / 8;
-
- if (c->dispatch_width == 8 || intel->gen == 6) {
- /* SIMD8 write looks like:
- * m + 0: r0
- * m + 1: r1
- * m + 2: g0
- * m + 3: g1
- *
- * gen6 SIMD16 DP write looks like:
- * m + 0: r0
- * m + 1: r1
- * m + 2: g0
- * m + 3: g1
- * m + 4: b0
- * m + 5: b1
- * m + 6: a0
- * m + 7: a1
- */
- emit(BRW_OPCODE_MOV, fs_reg(MRF, first_color_mrf + index * reg_width),
- color);
- } else {
- /* pre-gen6 SIMD16 single source DP write looks like:
- * m + 0: r0
- * m + 1: g0
- * m + 2: b0
- * m + 3: a0
- * m + 4: r1
- * m + 5: g1
- * m + 6: b1
- * m + 7: a1
- */
- if (brw->has_compr4) {
- /* By setting the high bit of the MRF register number, we
- * indicate that we want COMPR4 mode - instead of doing the
- * usual destination + 1 for the second half we get
- * destination + 4.
- */
- emit(BRW_OPCODE_MOV,
- fs_reg(MRF, BRW_MRF_COMPR4 + first_color_mrf + index), color);
- } else {
- push_force_uncompressed();
- emit(BRW_OPCODE_MOV, fs_reg(MRF, first_color_mrf + index), color);
- pop_force_uncompressed();
-
- push_force_sechalf();
- color.sechalf = true;
- emit(BRW_OPCODE_MOV, fs_reg(MRF, first_color_mrf + index + 4), color);
- pop_force_sechalf();
- color.sechalf = false;
- }
- }
-}
-
-void
-fs_visitor::emit_fb_writes()
-{
- this->current_annotation = "FB write header";
- GLboolean header_present = GL_TRUE;
- int nr = 0;
- int reg_width = c->dispatch_width / 8;
-
- if (intel->gen >= 6 &&
- !this->kill_emitted &&
- c->key.nr_color_regions == 1) {
- header_present = false;
- }
-
- if (header_present) {
- /* m0, m1 header */
- nr += 2;
- }
-
- if (c->aa_dest_stencil_reg) {
- push_force_uncompressed();
- emit(BRW_OPCODE_MOV, fs_reg(MRF, nr++),
- fs_reg(brw_vec8_grf(c->aa_dest_stencil_reg, 0)));
- pop_force_uncompressed();
- }
-
- /* Reserve space for color. It'll be filled in per MRT below. */
- int color_mrf = nr;
- nr += 4 * reg_width;
-
- if (c->source_depth_to_render_target) {
- if (intel->gen == 6 && c->dispatch_width == 16) {
- /* For outputting oDepth on gen6, SIMD8 writes have to be
- * used. This would require 8-wide moves of each half to
- * message regs, kind of like pre-gen5 SIMD16 FB writes.
- * Just bail on doing so for now.
- */
- fail("Missing support for simd16 depth writes on gen6\n");
- }
-
- if (c->computes_depth) {
- /* Hand over gl_FragDepth. */
- assert(this->frag_depth);
- fs_reg depth = *(variable_storage(this->frag_depth));
-
- emit(BRW_OPCODE_MOV, fs_reg(MRF, nr), depth);
- } else {
- /* Pass through the payload depth. */
- emit(BRW_OPCODE_MOV, fs_reg(MRF, nr),
- fs_reg(brw_vec8_grf(c->source_depth_reg, 0)));
- }
- nr += reg_width;
- }
-
- if (c->dest_depth_reg) {
- emit(BRW_OPCODE_MOV, fs_reg(MRF, nr),
- fs_reg(brw_vec8_grf(c->dest_depth_reg, 0)));
- nr += reg_width;
- }
-
- fs_reg color = reg_undef;
- if (this->frag_color)
- color = *(variable_storage(this->frag_color));
- else if (this->frag_data) {
- color = *(variable_storage(this->frag_data));
- color.type = BRW_REGISTER_TYPE_F;
- }
-
- for (int target = 0; target < c->key.nr_color_regions; target++) {
- this->current_annotation = ralloc_asprintf(this->mem_ctx,
- "FB write target %d",
- target);
- if (this->frag_color || this->frag_data) {
- for (int i = 0; i < 4; i++) {
- emit_color_write(i, color_mrf, color);
- color.reg_offset++;
- }
- }
-
- if (this->frag_color)
- color.reg_offset -= 4;
-
- fs_inst *inst = emit(FS_OPCODE_FB_WRITE);
- inst->target = target;
- inst->base_mrf = 0;
- inst->mlen = nr;
- if (target == c->key.nr_color_regions - 1)
- inst->eot = true;
- inst->header_present = header_present;
- }
-
- if (c->key.nr_color_regions == 0) {
- if (c->key.alpha_test && (this->frag_color || this->frag_data)) {
- /* If the alpha test is enabled but there's no color buffer,
- * we still need to send alpha out the pipeline to our null
- * renderbuffer.
- */
- color.reg_offset += 3;
- emit_color_write(3, color_mrf, color);
- }
-
- fs_inst *inst = emit(FS_OPCODE_FB_WRITE);
- inst->base_mrf = 0;
- inst->mlen = nr;
- inst->eot = true;
- inst->header_present = header_present;
- }
-
- this->current_annotation = NULL;
-}
-
/**
* To be called after the last _mesa_add_state_reference() call, to
* set up prog_data.param[] for assign_curb_setup() and
diff --git a/src/mesa/drivers/dri/i965/brw_fs.h b/src/mesa/drivers/dri/i965/brw_fs.h
index 41e5004f37b..d1f70ee2117 100644
--- a/src/mesa/drivers/dri/i965/brw_fs.h
+++ b/src/mesa/drivers/dri/i965/brw_fs.h
@@ -466,6 +466,8 @@ public:
return emit(fs_inst(opcode, dst, src0, src1, src2));
}
+ int type_size(const struct glsl_type *type);
+
bool run();
void setup_paramvalues_refs();
void assign_curb_setup();
diff --git a/src/mesa/drivers/dri/i965/brw_fs_visitor.cpp b/src/mesa/drivers/dri/i965/brw_fs_visitor.cpp
new file mode 100644
index 00000000000..1445582dc00
--- /dev/null
+++ b/src/mesa/drivers/dri/i965/brw_fs_visitor.cpp
@@ -0,0 +1,1724 @@
+/*
+ * Copyright © 2010 Intel Corporation
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a
+ * copy of this software and associated documentation files (the "Software"),
+ * to deal in the Software without restriction, including without limitation
+ * the rights to use, copy, modify, merge, publish, distribute, sublicense,
+ * and/or sell copies of the Software, and to permit persons to whom the
+ * Software is furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice (including the next
+ * paragraph) shall be included in all copies or substantial portions of the
+ * Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
+ * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
+ * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
+ * IN THE SOFTWARE.
+ */
+
+/** @file brw_fs_visitor.cpp
+ *
+ * This file supports generating the FS LIR from the GLSL IR. The LIR
+ * makes it easier to do backend-specific optimizations than doing so
+ * in the GLSL IR or in the native code.
+ */
+extern "C" {
+
+#include <sys/types.h>
+
+#include "main/macros.h"
+#include "main/shaderobj.h"
+#include "main/uniforms.h"
+#include "program/prog_parameter.h"
+#include "program/prog_print.h"
+#include "program/prog_optimize.h"
+#include "program/register_allocate.h"
+#include "program/sampler.h"
+#include "program/hash_table.h"
+#include "brw_context.h"
+#include "brw_eu.h"
+#include "brw_wm.h"
+}
+#include "brw_shader.h"
+#include "brw_fs.h"
+#include "../glsl/glsl_types.h"
+#include "../glsl/ir_optimization.h"
+#include "../glsl/ir_print_visitor.h"
+
+void
+fs_visitor::visit(ir_variable *ir)
+{
+ fs_reg *reg = NULL;
+
+ if (variable_storage(ir))
+ return;
+
+ if (strcmp(ir->name, "gl_FragColor") == 0) {
+ this->frag_color = ir;
+ } else if (strcmp(ir->name, "gl_FragData") == 0) {
+ this->frag_data = ir;
+ } else if (strcmp(ir->name, "gl_FragDepth") == 0) {
+ this->frag_depth = ir;
+ }
+
+ if (ir->mode == ir_var_in) {
+ if (!strcmp(ir->name, "gl_FragCoord")) {
+ reg = emit_fragcoord_interpolation(ir);
+ } else if (!strcmp(ir->name, "gl_FrontFacing")) {
+ reg = emit_frontfacing_interpolation(ir);
+ } else {
+ reg = emit_general_interpolation(ir);
+ }
+ assert(reg);
+ hash_table_insert(this->variable_ht, reg, ir);
+ return;
+ }
+
+ if (ir->mode == ir_var_uniform) {
+ int param_index = c->prog_data.nr_params;
+
+ if (c->dispatch_width == 16) {
+ if (!variable_storage(ir)) {
+ fail("Failed to find uniform '%s' in 16-wide\n", ir->name);
+ }
+ return;
+ }
+
+ if (!strncmp(ir->name, "gl_", 3)) {
+ setup_builtin_uniform_values(ir);
+ } else {
+ setup_uniform_values(ir->location, ir->type);
+ }
+
+ reg = new(this->mem_ctx) fs_reg(UNIFORM, param_index);
+ reg->type = brw_type_for_base_type(ir->type);
+ }
+
+ if (!reg)
+ reg = new(this->mem_ctx) fs_reg(this, ir->type);
+
+ hash_table_insert(this->variable_ht, reg, ir);
+}
+
+void
+fs_visitor::visit(ir_dereference_variable *ir)
+{
+ fs_reg *reg = variable_storage(ir->var);
+ this->result = *reg;
+}
+
+void
+fs_visitor::visit(ir_dereference_record *ir)
+{
+ const glsl_type *struct_type = ir->record->type;
+
+ ir->record->accept(this);
+
+ unsigned int offset = 0;
+ for (unsigned int i = 0; i < struct_type->length; i++) {
+ if (strcmp(struct_type->fields.structure[i].name, ir->field) == 0)
+ break;
+ offset += type_size(struct_type->fields.structure[i].type);
+ }
+ this->result.reg_offset += offset;
+ this->result.type = brw_type_for_base_type(ir->type);
+}
+
+void
+fs_visitor::visit(ir_dereference_array *ir)
+{
+ ir_constant *index;
+ int element_size;
+
+ ir->array->accept(this);
+ index = ir->array_index->as_constant();
+
+ element_size = type_size(ir->type);
+ this->result.type = brw_type_for_base_type(ir->type);
+
+ if (index) {
+ assert(this->result.file == UNIFORM ||
+ (this->result.file == GRF &&
+ this->result.reg != 0));
+ this->result.reg_offset += index->value.i[0] * element_size;
+ } else {
+ assert(!"FINISHME: non-constant array element");
+ }
+}
+
+/* Instruction selection: Produce a MOV.sat instead of
+ * MIN(MAX(val, 0), 1) when possible.
+ */
+bool
+fs_visitor::try_emit_saturate(ir_expression *ir)
+{
+ ir_rvalue *sat_val = ir->as_rvalue_to_saturate();
+
+ if (!sat_val)
+ return false;
+
+ this->result = reg_undef;
+ sat_val->accept(this);
+ fs_reg src = this->result;
+
+ this->result = fs_reg(this, ir->type);
+ fs_inst *inst = emit(BRW_OPCODE_MOV, this->result, src);
+ inst->saturate = true;
+
+ return true;
+}
+
+void
+fs_visitor::visit(ir_expression *ir)
+{
+ unsigned int operand;
+ fs_reg op[2], temp;
+ fs_inst *inst;
+
+ assert(ir->get_num_operands() <= 2);
+
+ if (try_emit_saturate(ir))
+ return;
+
+ /* This is where our caller would like us to put the result, if possible. */
+ fs_reg saved_result_storage = this->result;
+
+ for (operand = 0; operand < ir->get_num_operands(); operand++) {
+ this->result = reg_undef;
+ ir->operands[operand]->accept(this);
+ if (this->result.file == BAD_FILE) {
+ ir_print_visitor v;
+ fail("Failed to get tree for expression operand:\n");
+ ir->operands[operand]->accept(&v);
+ }
+ op[operand] = this->result;
+
+ /* Matrix expression operands should have been broken down to vector
+ * operations already.
+ */
+ assert(!ir->operands[operand]->type->is_matrix());
+ /* And then those vector operands should have been broken down to scalar.
+ */
+ assert(!ir->operands[operand]->type->is_vector());
+ }
+
+ /* Inherit storage from our parent if possible, and otherwise we
+ * alloc a temporary.
+ */
+ if (saved_result_storage.file == BAD_FILE) {
+ this->result = fs_reg(this, ir->type);
+ } else {
+ this->result = saved_result_storage;
+ }
+
+ switch (ir->operation) {
+ case ir_unop_logic_not:
+ /* Note that BRW_OPCODE_NOT is not appropriate here, since it is
+ * ones complement of the whole register, not just bit 0.
+ */
+ emit(BRW_OPCODE_XOR, this->result, op[0], fs_reg(1));
+ break;
+ case ir_unop_neg:
+ op[0].negate = !op[0].negate;
+ this->result = op[0];
+ break;
+ case ir_unop_abs:
+ op[0].abs = true;
+ op[0].negate = false;
+ this->result = op[0];
+ break;
+ case ir_unop_sign:
+ temp = fs_reg(this, ir->type);
+
+ /* Unalias the destination. (imagine a = sign(a)) */
+ this->result = fs_reg(this, ir->type);
+
+ emit(BRW_OPCODE_MOV, this->result, fs_reg(0.0f));
+
+ inst = emit(BRW_OPCODE_CMP, reg_null_f, op[0], fs_reg(0.0f));
+ inst->conditional_mod = BRW_CONDITIONAL_G;
+ inst = emit(BRW_OPCODE_MOV, this->result, fs_reg(1.0f));
+ inst->predicated = true;
+
+ inst = emit(BRW_OPCODE_CMP, reg_null_f, op[0], fs_reg(0.0f));
+ inst->conditional_mod = BRW_CONDITIONAL_L;
+ inst = emit(BRW_OPCODE_MOV, this->result, fs_reg(-1.0f));
+ inst->predicated = true;
+
+ break;
+ case ir_unop_rcp:
+ emit_math(FS_OPCODE_RCP, this->result, op[0]);
+ break;
+
+ case ir_unop_exp2:
+ emit_math(FS_OPCODE_EXP2, this->result, op[0]);
+ break;
+ case ir_unop_log2:
+ emit_math(FS_OPCODE_LOG2, this->result, op[0]);
+ break;
+ case ir_unop_exp:
+ case ir_unop_log:
+ assert(!"not reached: should be handled by ir_explog_to_explog2");
+ break;
+ case ir_unop_sin:
+ case ir_unop_sin_reduced:
+ emit_math(FS_OPCODE_SIN, this->result, op[0]);
+ break;
+ case ir_unop_cos:
+ case ir_unop_cos_reduced:
+ emit_math(FS_OPCODE_COS, this->result, op[0]);
+ break;
+
+ case ir_unop_dFdx:
+ emit(FS_OPCODE_DDX, this->result, op[0]);
+ break;
+ case ir_unop_dFdy:
+ emit(FS_OPCODE_DDY, this->result, op[0]);
+ break;
+
+ case ir_binop_add:
+ emit(BRW_OPCODE_ADD, this->result, op[0], op[1]);
+ break;
+ case ir_binop_sub:
+ assert(!"not reached: should be handled by ir_sub_to_add_neg");
+ break;
+
+ case ir_binop_mul:
+ emit(BRW_OPCODE_MUL, this->result, op[0], op[1]);
+ break;
+ case ir_binop_div:
+ assert(!"not reached: should be handled by ir_div_to_mul_rcp");
+ break;
+ case ir_binop_mod:
+ assert(!"ir_binop_mod should have been converted to b * fract(a/b)");
+ break;
+
+ case ir_binop_less:
+ case ir_binop_greater:
+ case ir_binop_lequal:
+ case ir_binop_gequal:
+ case ir_binop_equal:
+ case ir_binop_all_equal:
+ case ir_binop_nequal:
+ case ir_binop_any_nequal:
+ temp = this->result;
+ /* original gen4 does implicit conversion before comparison. */
+ if (intel->gen < 5)
+ temp.type = op[0].type;
+
+ inst = emit(BRW_OPCODE_CMP, temp, op[0], op[1]);
+ inst->conditional_mod = brw_conditional_for_comparison(ir->operation);
+ emit(BRW_OPCODE_AND, this->result, this->result, fs_reg(0x1));
+ break;
+
+ case ir_binop_logic_xor:
+ emit(BRW_OPCODE_XOR, this->result, op[0], op[1]);
+ break;
+
+ case ir_binop_logic_or:
+ emit(BRW_OPCODE_OR, this->result, op[0], op[1]);
+ break;
+
+ case ir_binop_logic_and:
+ emit(BRW_OPCODE_AND, this->result, op[0], op[1]);
+ break;
+
+ case ir_binop_dot:
+ case ir_unop_any:
+ assert(!"not reached: should be handled by brw_fs_channel_expressions");
+ break;
+
+ case ir_unop_noise:
+ assert(!"not reached: should be handled by lower_noise");
+ break;
+
+ case ir_quadop_vector:
+ assert(!"not reached: should be handled by lower_quadop_vector");
+ break;
+
+ case ir_unop_sqrt:
+ emit_math(FS_OPCODE_SQRT, this->result, op[0]);
+ break;
+
+ case ir_unop_rsq:
+ emit_math(FS_OPCODE_RSQ, this->result, op[0]);
+ break;
+
+ case ir_unop_i2f:
+ case ir_unop_b2f:
+ case ir_unop_b2i:
+ case ir_unop_f2i:
+ emit(BRW_OPCODE_MOV, this->result, op[0]);
+ break;
+ case ir_unop_f2b:
+ case ir_unop_i2b:
+ temp = this->result;
+ /* original gen4 does implicit conversion before comparison. */
+ if (intel->gen < 5)
+ temp.type = op[0].type;
+
+ inst = emit(BRW_OPCODE_CMP, temp, op[0], fs_reg(0.0f));
+ inst->conditional_mod = BRW_CONDITIONAL_NZ;
+ inst = emit(BRW_OPCODE_AND, this->result, this->result, fs_reg(1));
+ break;
+
+ case ir_unop_trunc:
+ emit(BRW_OPCODE_RNDZ, this->result, op[0]);
+ break;
+ case ir_unop_ceil:
+ op[0].negate = !op[0].negate;
+ inst = emit(BRW_OPCODE_RNDD, this->result, op[0]);
+ this->result.negate = true;
+ break;
+ case ir_unop_floor:
+ inst = emit(BRW_OPCODE_RNDD, this->result, op[0]);
+ break;
+ case ir_unop_fract:
+ inst = emit(BRW_OPCODE_FRC, this->result, op[0]);
+ break;
+ case ir_unop_round_even:
+ emit(BRW_OPCODE_RNDE, this->result, op[0]);
+ break;
+
+ case ir_binop_min:
+ /* Unalias the destination */
+ this->result = fs_reg(this, ir->type);
+
+ inst = emit(BRW_OPCODE_CMP, this->result, op[0], op[1]);
+ inst->conditional_mod = BRW_CONDITIONAL_L;
+
+ inst = emit(BRW_OPCODE_SEL, this->result, op[0], op[1]);
+ inst->predicated = true;
+ break;
+ case ir_binop_max:
+ /* Unalias the destination */
+ this->result = fs_reg(this, ir->type);
+
+ inst = emit(BRW_OPCODE_CMP, this->result, op[0], op[1]);
+ inst->conditional_mod = BRW_CONDITIONAL_G;
+
+ inst = emit(BRW_OPCODE_SEL, this->result, op[0], op[1]);
+ inst->predicated = true;
+ break;
+
+ case ir_binop_pow:
+ emit_math(FS_OPCODE_POW, this->result, op[0], op[1]);
+ break;
+
+ case ir_unop_bit_not:
+ inst = emit(BRW_OPCODE_NOT, this->result, op[0]);
+ break;
+ case ir_binop_bit_and:
+ inst = emit(BRW_OPCODE_AND, this->result, op[0], op[1]);
+ break;
+ case ir_binop_bit_xor:
+ inst = emit(BRW_OPCODE_XOR, this->result, op[0], op[1]);
+ break;
+ case ir_binop_bit_or:
+ inst = emit(BRW_OPCODE_OR, this->result, op[0], op[1]);
+ break;
+
+ case ir_unop_u2f:
+ case ir_binop_lshift:
+ case ir_binop_rshift:
+ assert(!"GLSL 1.30 features unsupported");
+ break;
+ }
+}
+
+void
+fs_visitor::emit_assignment_writes(fs_reg &l, fs_reg &r,
+ const glsl_type *type, bool predicated)
+{
+ switch (type->base_type) {
+ case GLSL_TYPE_FLOAT:
+ case GLSL_TYPE_UINT:
+ case GLSL_TYPE_INT:
+ case GLSL_TYPE_BOOL:
+ for (unsigned int i = 0; i < type->components(); i++) {
+ l.type = brw_type_for_base_type(type);
+ r.type = brw_type_for_base_type(type);
+
+ if (predicated || !l.equals(&r)) {
+ fs_inst *inst = emit(BRW_OPCODE_MOV, l, r);
+ inst->predicated = predicated;
+ }
+
+ l.reg_offset++;
+ r.reg_offset++;
+ }
+ break;
+ case GLSL_TYPE_ARRAY:
+ for (unsigned int i = 0; i < type->length; i++) {
+ emit_assignment_writes(l, r, type->fields.array, predicated);
+ }
+ break;
+
+ case GLSL_TYPE_STRUCT:
+ for (unsigned int i = 0; i < type->length; i++) {
+ emit_assignment_writes(l, r, type->fields.structure[i].type,
+ predicated);
+ }
+ break;
+
+ case GLSL_TYPE_SAMPLER:
+ break;
+
+ default:
+ assert(!"not reached");
+ break;
+ }
+}
+
+void
+fs_visitor::visit(ir_assignment *ir)
+{
+ struct fs_reg l, r;
+ fs_inst *inst;
+
+ /* FINISHME: arrays on the lhs */
+ this->result = reg_undef;
+ ir->lhs->accept(this);
+ l = this->result;
+
+ /* If we're doing a direct assignment, an RHS expression could
+ * drop its result right into our destination. Otherwise, tell it
+ * not to.
+ */
+ if (ir->condition ||
+ !(ir->lhs->type->is_scalar() ||
+ (ir->lhs->type->is_vector() &&
+ ir->write_mask == (1 << ir->lhs->type->vector_elements) - 1))) {
+ this->result = reg_undef;
+ }
+
+ ir->rhs->accept(this);
+ r = this->result;
+
+ assert(l.file != BAD_FILE);
+ assert(r.file != BAD_FILE);
+
+ if (ir->condition) {
+ emit_bool_to_cond_code(ir->condition);
+ }
+
+ if (ir->lhs->type->is_scalar() ||
+ ir->lhs->type->is_vector()) {
+ for (int i = 0; i < ir->lhs->type->vector_elements; i++) {
+ if (ir->write_mask & (1 << i)) {
+ if (ir->condition) {
+ inst = emit(BRW_OPCODE_MOV, l, r);
+ inst->predicated = true;
+ } else if (!l.equals(&r)) {
+ inst = emit(BRW_OPCODE_MOV, l, r);
+ }
+
+ r.reg_offset++;
+ }
+ l.reg_offset++;
+ }
+ } else {
+ emit_assignment_writes(l, r, ir->lhs->type, ir->condition != NULL);
+ }
+}
+
+fs_inst *
+fs_visitor::emit_texture_gen4(ir_texture *ir, fs_reg dst, fs_reg coordinate,
+ int sampler)
+{
+ int mlen;
+ int base_mrf = 1;
+ bool simd16 = false;
+ fs_reg orig_dst;
+
+ /* g0 header. */
+ mlen = 1;
+
+ if (ir->shadow_comparitor) {
+ for (int i = 0; i < ir->coordinate->type->vector_elements; i++) {
+ fs_inst *inst = emit(BRW_OPCODE_MOV,
+ fs_reg(MRF, base_mrf + mlen + i), coordinate);
+ if (i < 3 && c->key.gl_clamp_mask[i] & (1 << sampler))
+ inst->saturate = true;
+
+ coordinate.reg_offset++;
+ }
+ /* gen4's SIMD8 sampler always has the slots for u,v,r present. */
+ mlen += 3;
+
+ if (ir->op == ir_tex) {
+ /* There's no plain shadow compare message, so we use shadow
+ * compare with a bias of 0.0.
+ */
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), fs_reg(0.0f));
+ mlen++;
+ } else if (ir->op == ir_txb) {
+ this->result = reg_undef;
+ ir->lod_info.bias->accept(this);
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), this->result);
+ mlen++;
+ } else {
+ assert(ir->op == ir_txl);
+ this->result = reg_undef;
+ ir->lod_info.lod->accept(this);
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), this->result);
+ mlen++;
+ }
+
+ this->result = reg_undef;
+ ir->shadow_comparitor->accept(this);
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), this->result);
+ mlen++;
+ } else if (ir->op == ir_tex) {
+ for (int i = 0; i < ir->coordinate->type->vector_elements; i++) {
+ fs_inst *inst = emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen + i),
+ coordinate);
+ if (i < 3 && c->key.gl_clamp_mask[i] & (1 << sampler))
+ inst->saturate = true;
+ coordinate.reg_offset++;
+ }
+ /* gen4's SIMD8 sampler always has the slots for u,v,r present. */
+ mlen += 3;
+ } else if (ir->op == ir_txd) {
+ assert(!"TXD isn't supported on gen4 yet.");
+ } else {
+ /* Oh joy. gen4 doesn't have SIMD8 non-shadow-compare bias/lod
+ * instructions. We'll need to do SIMD16 here.
+ */
+ assert(ir->op == ir_txb || ir->op == ir_txl);
+
+ for (int i = 0; i < ir->coordinate->type->vector_elements; i++) {
+ fs_inst *inst = emit(BRW_OPCODE_MOV, fs_reg(MRF,
+ base_mrf + mlen + i * 2),
+ coordinate);
+ if (i < 3 && c->key.gl_clamp_mask[i] & (1 << sampler))
+ inst->saturate = true;
+ coordinate.reg_offset++;
+ }
+
+ /* lod/bias appears after u/v/r. */
+ mlen += 6;
+
+ if (ir->op == ir_txb) {
+ this->result = reg_undef;
+ ir->lod_info.bias->accept(this);
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), this->result);
+ mlen++;
+ } else {
+ this->result = reg_undef;
+ ir->lod_info.lod->accept(this);
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), this->result);
+ mlen++;
+ }
+
+ /* The unused upper half. */
+ mlen++;
+
+ /* Now, since we're doing simd16, the return is 2 interleaved
+ * vec4s where the odd-indexed ones are junk. We'll need to move
+ * this weirdness around to the expected layout.
+ */
+ simd16 = true;
+ orig_dst = dst;
+ dst = fs_reg(this, glsl_type::get_array_instance(glsl_type::vec4_type,
+ 2));
+ dst.type = BRW_REGISTER_TYPE_F;
+ }
+
+ fs_inst *inst = NULL;
+ switch (ir->op) {
+ case ir_tex:
+ inst = emit(FS_OPCODE_TEX, dst);
+ break;
+ case ir_txb:
+ inst = emit(FS_OPCODE_TXB, dst);
+ break;
+ case ir_txl:
+ inst = emit(FS_OPCODE_TXL, dst);
+ break;
+ case ir_txd:
+ inst = emit(FS_OPCODE_TXD, dst);
+ break;
+ case ir_txf:
+ assert(!"GLSL 1.30 features unsupported");
+ break;
+ }
+ inst->base_mrf = base_mrf;
+ inst->mlen = mlen;
+ inst->header_present = true;
+
+ if (simd16) {
+ for (int i = 0; i < 4; i++) {
+ emit(BRW_OPCODE_MOV, orig_dst, dst);
+ orig_dst.reg_offset++;
+ dst.reg_offset += 2;
+ }
+ }
+
+ return inst;
+}
+
+/* gen5's sampler has slots for u, v, r, array index, then optional
+ * parameters like shadow comparitor or LOD bias. If optional
+ * parameters aren't present, those base slots are optional and don't
+ * need to be included in the message.
+ *
+ * We don't fill in the unnecessary slots regardless, which may look
+ * surprising in the disassembly.
+ */
+fs_inst *
+fs_visitor::emit_texture_gen5(ir_texture *ir, fs_reg dst, fs_reg coordinate,
+ int sampler)
+{
+ int mlen = 0;
+ int base_mrf = 2;
+ int reg_width = c->dispatch_width / 8;
+ bool header_present = false;
+
+ if (ir->offset) {
+ /* The offsets set up by the ir_texture visitor are in the
+ * m1 header, so we can't go headerless.
+ */
+ header_present = true;
+ mlen++;
+ base_mrf--;
+ }
+
+ for (int i = 0; i < ir->coordinate->type->vector_elements; i++) {
+ fs_inst *inst = emit(BRW_OPCODE_MOV,
+ fs_reg(MRF, base_mrf + mlen + i * reg_width),
+ coordinate);
+ if (i < 3 && c->key.gl_clamp_mask[i] & (1 << sampler))
+ inst->saturate = true;
+ coordinate.reg_offset++;
+ }
+ mlen += ir->coordinate->type->vector_elements * reg_width;
+
+ if (ir->shadow_comparitor) {
+ mlen = MAX2(mlen, header_present + 4 * reg_width);
+
+ this->result = reg_undef;
+ ir->shadow_comparitor->accept(this);
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), this->result);
+ mlen += reg_width;
+ }
+
+ fs_inst *inst = NULL;
+ switch (ir->op) {
+ case ir_tex:
+ inst = emit(FS_OPCODE_TEX, dst);
+ break;
+ case ir_txb:
+ this->result = reg_undef;
+ ir->lod_info.bias->accept(this);
+ mlen = MAX2(mlen, header_present + 4 * reg_width);
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), this->result);
+ mlen += reg_width;
+
+ inst = emit(FS_OPCODE_TXB, dst);
+
+ break;
+ case ir_txl:
+ this->result = reg_undef;
+ ir->lod_info.lod->accept(this);
+ mlen = MAX2(mlen, header_present + 4 * reg_width);
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), this->result);
+ mlen += reg_width;
+
+ inst = emit(FS_OPCODE_TXL, dst);
+ break;
+ case ir_txd:
+ case ir_txf:
+ assert(!"GLSL 1.30 features unsupported");
+ break;
+ }
+ inst->base_mrf = base_mrf;
+ inst->mlen = mlen;
+ inst->header_present = header_present;
+
+ if (mlen > 11) {
+ fail("Message length >11 disallowed by hardware\n");
+ }
+
+ return inst;
+}
+
+fs_inst *
+fs_visitor::emit_texture_gen7(ir_texture *ir, fs_reg dst, fs_reg coordinate,
+ int sampler)
+{
+ int mlen = 0;
+ int base_mrf = 2;
+ int reg_width = c->dispatch_width / 8;
+ bool header_present = false;
+
+ if (ir->offset) {
+ /* The offsets set up by the ir_texture visitor are in the
+ * m1 header, so we can't go headerless.
+ */
+ header_present = true;
+ mlen++;
+ base_mrf--;
+ }
+
+ if (ir->shadow_comparitor) {
+ ir->shadow_comparitor->accept(this);
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), this->result);
+ mlen += reg_width;
+ }
+
+ /* Set up the LOD info */
+ switch (ir->op) {
+ case ir_tex:
+ break;
+ case ir_txb:
+ ir->lod_info.bias->accept(this);
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), this->result);
+ mlen += reg_width;
+ break;
+ case ir_txl:
+ ir->lod_info.lod->accept(this);
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen), this->result);
+ mlen += reg_width;
+ break;
+ case ir_txd:
+ case ir_txf:
+ assert(!"GLSL 1.30 features unsupported");
+ break;
+ }
+
+ /* Set up the coordinate */
+ for (int i = 0; i < ir->coordinate->type->vector_elements; i++) {
+ fs_inst *inst = emit(BRW_OPCODE_MOV, fs_reg(MRF, base_mrf + mlen),
+ coordinate);
+ if (i < 3 && c->key.gl_clamp_mask[i] & (1 << sampler))
+ inst->saturate = true;
+ coordinate.reg_offset++;
+ mlen += reg_width;
+ }
+
+ /* Generate the SEND */
+ fs_inst *inst = NULL;
+ switch (ir->op) {
+ case ir_tex: inst = emit(FS_OPCODE_TEX, dst); break;
+ case ir_txb: inst = emit(FS_OPCODE_TXB, dst); break;
+ case ir_txl: inst = emit(FS_OPCODE_TXL, dst); break;
+ case ir_txd: inst = emit(FS_OPCODE_TXD, dst); break;
+ case ir_txf: assert(!"TXF unsupported.");
+ }
+ inst->base_mrf = base_mrf;
+ inst->mlen = mlen;
+ inst->header_present = header_present;
+
+ if (mlen > 11) {
+ fail("Message length >11 disallowed by hardware\n");
+ }
+
+ return inst;
+}
+
+void
+fs_visitor::visit(ir_texture *ir)
+{
+ int sampler;
+ fs_inst *inst = NULL;
+
+ this->result = reg_undef;
+ ir->coordinate->accept(this);
+ fs_reg coordinate = this->result;
+
+ if (ir->offset != NULL) {
+ ir_constant *offset = ir->offset->as_constant();
+ assert(offset != NULL);
+
+ signed char offsets[3];
+ for (unsigned i = 0; i < ir->offset->type->vector_elements; i++)
+ offsets[i] = (signed char) offset->value.i[i];
+
+ /* Combine all three offsets into a single unsigned dword:
+ *
+ * bits 11:8 - U Offset (X component)
+ * bits 7:4 - V Offset (Y component)
+ * bits 3:0 - R Offset (Z component)
+ */
+ unsigned offset_bits = 0;
+ for (unsigned i = 0; i < ir->offset->type->vector_elements; i++) {
+ const unsigned shift = 4 * (2 - i);
+ offset_bits |= (offsets[i] << shift) & (0xF << shift);
+ }
+
+ /* Explicitly set up the message header by copying g0 to msg reg m1. */
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, 1, BRW_REGISTER_TYPE_UD),
+ fs_reg(GRF, 0, BRW_REGISTER_TYPE_UD));
+
+ /* Then set the offset bits in DWord 2 of the message header. */
+ emit(BRW_OPCODE_MOV,
+ fs_reg(retype(brw_vec1_reg(BRW_MESSAGE_REGISTER_FILE, 1, 2),
+ BRW_REGISTER_TYPE_UD)),
+ fs_reg(brw_imm_uw(offset_bits)));
+ }
+
+ /* Should be lowered by do_lower_texture_projection */
+ assert(!ir->projector);
+
+ sampler = _mesa_get_sampler_uniform_value(ir->sampler,
+ ctx->Shader.CurrentFragmentProgram,
+ &brw->fragment_program->Base);
+ sampler = c->fp->program.Base.SamplerUnits[sampler];
+
+ /* The 965 requires the EU to do the normalization of GL rectangle
+ * texture coordinates. We use the program parameter state
+ * tracking to get the scaling factor.
+ */
+ if (ir->sampler->type->sampler_dimensionality == GLSL_SAMPLER_DIM_RECT) {
+ struct gl_program_parameter_list *params = c->fp->program.Base.Parameters;
+ int tokens[STATE_LENGTH] = {
+ STATE_INTERNAL,
+ STATE_TEXRECT_SCALE,
+ sampler,
+ 0,
+ 0
+ };
+
+ if (c->dispatch_width == 16) {
+ fail("rectangle scale uniform setup not supported on 16-wide\n");
+ this->result = fs_reg(this, ir->type);
+ return;
+ }
+
+ c->prog_data.param_convert[c->prog_data.nr_params] =
+ PARAM_NO_CONVERT;
+ c->prog_data.param_convert[c->prog_data.nr_params + 1] =
+ PARAM_NO_CONVERT;
+
+ fs_reg scale_x = fs_reg(UNIFORM, c->prog_data.nr_params);
+ fs_reg scale_y = fs_reg(UNIFORM, c->prog_data.nr_params + 1);
+ GLuint index = _mesa_add_state_reference(params,
+ (gl_state_index *)tokens);
+
+ this->param_index[c->prog_data.nr_params] = index;
+ this->param_offset[c->prog_data.nr_params] = 0;
+ c->prog_data.nr_params++;
+ this->param_index[c->prog_data.nr_params] = index;
+ this->param_offset[c->prog_data.nr_params] = 1;
+ c->prog_data.nr_params++;
+
+ fs_reg dst = fs_reg(this, ir->coordinate->type);
+ fs_reg src = coordinate;
+ coordinate = dst;
+
+ emit(BRW_OPCODE_MUL, dst, src, scale_x);
+ dst.reg_offset++;
+ src.reg_offset++;
+ emit(BRW_OPCODE_MUL, dst, src, scale_y);
+ }
+
+ /* Writemasking doesn't eliminate channels on SIMD8 texture
+ * samples, so don't worry about them.
+ */
+ fs_reg dst = fs_reg(this, glsl_type::vec4_type);
+
+ if (intel->gen >= 7) {
+ inst = emit_texture_gen7(ir, dst, coordinate, sampler);
+ } else if (intel->gen >= 5) {
+ inst = emit_texture_gen5(ir, dst, coordinate, sampler);
+ } else {
+ inst = emit_texture_gen4(ir, dst, coordinate, sampler);
+ }
+
+ /* If there's an offset, we already set up m1. To avoid the implied move,
+ * use the null register. Otherwise, we want an implied move from g0.
+ */
+ if (ir->offset != NULL || !inst->header_present)
+ inst->src[0] = reg_undef;
+ else
+ inst->src[0] = fs_reg(retype(brw_vec8_grf(0, 0), BRW_REGISTER_TYPE_UW));
+
+ inst->sampler = sampler;
+
+ this->result = dst;
+
+ if (ir->shadow_comparitor)
+ inst->shadow_compare = true;
+
+ if (ir->type == glsl_type::float_type) {
+ /* Ignore DEPTH_TEXTURE_MODE swizzling. */
+ assert(ir->sampler->type->sampler_shadow);
+ } else if (c->key.tex_swizzles[inst->sampler] != SWIZZLE_NOOP) {
+ fs_reg swizzle_dst = fs_reg(this, glsl_type::vec4_type);
+
+ for (int i = 0; i < 4; i++) {
+ int swiz = GET_SWZ(c->key.tex_swizzles[inst->sampler], i);
+ fs_reg l = swizzle_dst;
+ l.reg_offset += i;
+
+ if (swiz == SWIZZLE_ZERO) {
+ emit(BRW_OPCODE_MOV, l, fs_reg(0.0f));
+ } else if (swiz == SWIZZLE_ONE) {
+ emit(BRW_OPCODE_MOV, l, fs_reg(1.0f));
+ } else {
+ fs_reg r = dst;
+ r.reg_offset += GET_SWZ(c->key.tex_swizzles[inst->sampler], i);
+ emit(BRW_OPCODE_MOV, l, r);
+ }
+ }
+ this->result = swizzle_dst;
+ }
+}
+
+void
+fs_visitor::visit(ir_swizzle *ir)
+{
+ this->result = reg_undef;
+ ir->val->accept(this);
+ fs_reg val = this->result;
+
+ if (ir->type->vector_elements == 1) {
+ this->result.reg_offset += ir->mask.x;
+ return;
+ }
+
+ fs_reg result = fs_reg(this, ir->type);
+ this->result = result;
+
+ for (unsigned int i = 0; i < ir->type->vector_elements; i++) {
+ fs_reg channel = val;
+ int swiz = 0;
+
+ switch (i) {
+ case 0:
+ swiz = ir->mask.x;
+ break;
+ case 1:
+ swiz = ir->mask.y;
+ break;
+ case 2:
+ swiz = ir->mask.z;
+ break;
+ case 3:
+ swiz = ir->mask.w;
+ break;
+ }
+
+ channel.reg_offset += swiz;
+ emit(BRW_OPCODE_MOV, result, channel);
+ result.reg_offset++;
+ }
+}
+
+void
+fs_visitor::visit(ir_discard *ir)
+{
+ assert(ir->condition == NULL); /* FINISHME */
+
+ emit(FS_OPCODE_DISCARD);
+ kill_emitted = true;
+}
+
+void
+fs_visitor::visit(ir_constant *ir)
+{
+ /* Set this->result to reg at the bottom of the function because some code
+ * paths will cause this visitor to be applied to other fields. This will
+ * cause the value stored in this->result to be modified.
+ *
+ * Make reg constant so that it doesn't get accidentally modified along the
+ * way. Yes, I actually had this problem. :(
+ */
+ const fs_reg reg(this, ir->type);
+ fs_reg dst_reg = reg;
+
+ if (ir->type->is_array()) {
+ const unsigned size = type_size(ir->type->fields.array);
+
+ for (unsigned i = 0; i < ir->type->length; i++) {
+ this->result = reg_undef;
+ ir->array_elements[i]->accept(this);
+ fs_reg src_reg = this->result;
+
+ dst_reg.type = src_reg.type;
+ for (unsigned j = 0; j < size; j++) {
+ emit(BRW_OPCODE_MOV, dst_reg, src_reg);
+ src_reg.reg_offset++;
+ dst_reg.reg_offset++;
+ }
+ }
+ } else if (ir->type->is_record()) {
+ foreach_list(node, &ir->components) {
+ ir_instruction *const field = (ir_instruction *) node;
+ const unsigned size = type_size(field->type);
+
+ this->result = reg_undef;
+ field->accept(this);
+ fs_reg src_reg = this->result;
+
+ dst_reg.type = src_reg.type;
+ for (unsigned j = 0; j < size; j++) {
+ emit(BRW_OPCODE_MOV, dst_reg, src_reg);
+ src_reg.reg_offset++;
+ dst_reg.reg_offset++;
+ }
+ }
+ } else {
+ const unsigned size = type_size(ir->type);
+
+ for (unsigned i = 0; i < size; i++) {
+ switch (ir->type->base_type) {
+ case GLSL_TYPE_FLOAT:
+ emit(BRW_OPCODE_MOV, dst_reg, fs_reg(ir->value.f[i]));
+ break;
+ case GLSL_TYPE_UINT:
+ emit(BRW_OPCODE_MOV, dst_reg, fs_reg(ir->value.u[i]));
+ break;
+ case GLSL_TYPE_INT:
+ emit(BRW_OPCODE_MOV, dst_reg, fs_reg(ir->value.i[i]));
+ break;
+ case GLSL_TYPE_BOOL:
+ emit(BRW_OPCODE_MOV, dst_reg, fs_reg((int)ir->value.b[i]));
+ break;
+ default:
+ assert(!"Non-float/uint/int/bool constant");
+ }
+ dst_reg.reg_offset++;
+ }
+ }
+
+ this->result = reg;
+}
+
+void
+fs_visitor::emit_bool_to_cond_code(ir_rvalue *ir)
+{
+ ir_expression *expr = ir->as_expression();
+
+ if (expr) {
+ fs_reg op[2];
+ fs_inst *inst;
+
+ assert(expr->get_num_operands() <= 2);
+ for (unsigned int i = 0; i < expr->get_num_operands(); i++) {
+ assert(expr->operands[i]->type->is_scalar());
+
+ this->result = reg_undef;
+ expr->operands[i]->accept(this);
+ op[i] = this->result;
+ }
+
+ switch (expr->operation) {
+ case ir_unop_logic_not:
+ inst = emit(BRW_OPCODE_AND, reg_null_d, op[0], fs_reg(1));
+ inst->conditional_mod = BRW_CONDITIONAL_Z;
+ break;
+
+ case ir_binop_logic_xor:
+ inst = emit(BRW_OPCODE_XOR, reg_null_d, op[0], op[1]);
+ inst->conditional_mod = BRW_CONDITIONAL_NZ;
+ break;
+
+ case ir_binop_logic_or:
+ inst = emit(BRW_OPCODE_OR, reg_null_d, op[0], op[1]);
+ inst->conditional_mod = BRW_CONDITIONAL_NZ;
+ break;
+
+ case ir_binop_logic_and:
+ inst = emit(BRW_OPCODE_AND, reg_null_d, op[0], op[1]);
+ inst->conditional_mod = BRW_CONDITIONAL_NZ;
+ break;
+
+ case ir_unop_f2b:
+ if (intel->gen >= 6) {
+ inst = emit(BRW_OPCODE_CMP, reg_null_d, op[0], fs_reg(0.0f));
+ } else {
+ inst = emit(BRW_OPCODE_MOV, reg_null_f, op[0]);
+ }
+ inst->conditional_mod = BRW_CONDITIONAL_NZ;
+ break;
+
+ case ir_unop_i2b:
+ if (intel->gen >= 6) {
+ inst = emit(BRW_OPCODE_CMP, reg_null_d, op[0], fs_reg(0));
+ } else {
+ inst = emit(BRW_OPCODE_MOV, reg_null_d, op[0]);
+ }
+ inst->conditional_mod = BRW_CONDITIONAL_NZ;
+ break;
+
+ case ir_binop_greater:
+ case ir_binop_gequal:
+ case ir_binop_less:
+ case ir_binop_lequal:
+ case ir_binop_equal:
+ case ir_binop_all_equal:
+ case ir_binop_nequal:
+ case ir_binop_any_nequal:
+ inst = emit(BRW_OPCODE_CMP, reg_null_cmp, op[0], op[1]);
+ inst->conditional_mod =
+ brw_conditional_for_comparison(expr->operation);
+ break;
+
+ default:
+ assert(!"not reached");
+ fail("bad cond code\n");
+ break;
+ }
+ return;
+ }
+
+ this->result = reg_undef;
+ ir->accept(this);
+
+ if (intel->gen >= 6) {
+ fs_inst *inst = emit(BRW_OPCODE_AND, reg_null_d, this->result, fs_reg(1));
+ inst->conditional_mod = BRW_CONDITIONAL_NZ;
+ } else {
+ fs_inst *inst = emit(BRW_OPCODE_MOV, reg_null_d, this->result);
+ inst->conditional_mod = BRW_CONDITIONAL_NZ;
+ }
+}
+
+/**
+ * Emit a gen6 IF statement with the comparison folded into the IF
+ * instruction.
+ */
+void
+fs_visitor::emit_if_gen6(ir_if *ir)
+{
+ ir_expression *expr = ir->condition->as_expression();
+
+ if (expr) {
+ fs_reg op[2];
+ fs_inst *inst;
+ fs_reg temp;
+
+ assert(expr->get_num_operands() <= 2);
+ for (unsigned int i = 0; i < expr->get_num_operands(); i++) {
+ assert(expr->operands[i]->type->is_scalar());
+
+ this->result = reg_undef;
+ expr->operands[i]->accept(this);
+ op[i] = this->result;
+ }
+
+ switch (expr->operation) {
+ case ir_unop_logic_not:
+ inst = emit(BRW_OPCODE_IF, temp, op[0], fs_reg(0));
+ inst->conditional_mod = BRW_CONDITIONAL_Z;
+ return;
+
+ case ir_binop_logic_xor:
+ inst = emit(BRW_OPCODE_IF, reg_null_d, op[0], op[1]);
+ inst->conditional_mod = BRW_CONDITIONAL_NZ;
+ return;
+
+ case ir_binop_logic_or:
+ temp = fs_reg(this, glsl_type::bool_type);
+ emit(BRW_OPCODE_OR, temp, op[0], op[1]);
+ inst = emit(BRW_OPCODE_IF, reg_null_d, temp, fs_reg(0));
+ inst->conditional_mod = BRW_CONDITIONAL_NZ;
+ return;
+
+ case ir_binop_logic_and:
+ temp = fs_reg(this, glsl_type::bool_type);
+ emit(BRW_OPCODE_AND, temp, op[0], op[1]);
+ inst = emit(BRW_OPCODE_IF, reg_null_d, temp, fs_reg(0));
+ inst->conditional_mod = BRW_CONDITIONAL_NZ;
+ return;
+
+ case ir_unop_f2b:
+ inst = emit(BRW_OPCODE_IF, reg_null_f, op[0], fs_reg(0));
+ inst->conditional_mod = BRW_CONDITIONAL_NZ;
+ return;
+
+ case ir_unop_i2b:
+ inst = emit(BRW_OPCODE_IF, reg_null_d, op[0], fs_reg(0));
+ inst->conditional_mod = BRW_CONDITIONAL_NZ;
+ return;
+
+ case ir_binop_greater:
+ case ir_binop_gequal:
+ case ir_binop_less:
+ case ir_binop_lequal:
+ case ir_binop_equal:
+ case ir_binop_all_equal:
+ case ir_binop_nequal:
+ case ir_binop_any_nequal:
+ inst = emit(BRW_OPCODE_IF, reg_null_d, op[0], op[1]);
+ inst->conditional_mod =
+ brw_conditional_for_comparison(expr->operation);
+ return;
+ default:
+ assert(!"not reached");
+ inst = emit(BRW_OPCODE_IF, reg_null_d, op[0], fs_reg(0));
+ inst->conditional_mod = BRW_CONDITIONAL_NZ;
+ fail("bad condition\n");
+ return;
+ }
+ return;
+ }
+
+ this->result = reg_undef;
+ ir->condition->accept(this);
+
+ fs_inst *inst = emit(BRW_OPCODE_IF, reg_null_d, this->result, fs_reg(0));
+ inst->conditional_mod = BRW_CONDITIONAL_NZ;
+}
+
+void
+fs_visitor::visit(ir_if *ir)
+{
+ fs_inst *inst;
+
+ if (intel->gen != 6 && c->dispatch_width == 16) {
+ fail("Can't support (non-uniform) control flow on 16-wide\n");
+ }
+
+ /* Don't point the annotation at the if statement, because then it plus
+ * the then and else blocks get printed.
+ */
+ this->base_ir = ir->condition;
+
+ if (intel->gen == 6) {
+ emit_if_gen6(ir);
+ } else {
+ emit_bool_to_cond_code(ir->condition);
+
+ inst = emit(BRW_OPCODE_IF);
+ inst->predicated = true;
+ }
+
+ foreach_iter(exec_list_iterator, iter, ir->then_instructions) {
+ ir_instruction *ir = (ir_instruction *)iter.get();
+ this->base_ir = ir;
+ this->result = reg_undef;
+ ir->accept(this);
+ }
+
+ if (!ir->else_instructions.is_empty()) {
+ emit(BRW_OPCODE_ELSE);
+
+ foreach_iter(exec_list_iterator, iter, ir->else_instructions) {
+ ir_instruction *ir = (ir_instruction *)iter.get();
+ this->base_ir = ir;
+ this->result = reg_undef;
+ ir->accept(this);
+ }
+ }
+
+ emit(BRW_OPCODE_ENDIF);
+}
+
+void
+fs_visitor::visit(ir_loop *ir)
+{
+ fs_reg counter = reg_undef;
+
+ if (c->dispatch_width == 16) {
+ fail("Can't support (non-uniform) control flow on 16-wide\n");
+ }
+
+ if (ir->counter) {
+ this->base_ir = ir->counter;
+ ir->counter->accept(this);
+ counter = *(variable_storage(ir->counter));
+
+ if (ir->from) {
+ this->result = counter;
+
+ this->base_ir = ir->from;
+ this->result = counter;
+ ir->from->accept(this);
+
+ if (!this->result.equals(&counter))
+ emit(BRW_OPCODE_MOV, counter, this->result);
+ }
+ }
+
+ emit(BRW_OPCODE_DO);
+
+ if (ir->to) {
+ this->base_ir = ir->to;
+ this->result = reg_undef;
+ ir->to->accept(this);
+
+ fs_inst *inst = emit(BRW_OPCODE_CMP, reg_null_cmp, counter, this->result);
+ inst->conditional_mod = brw_conditional_for_comparison(ir->cmp);
+
+ inst = emit(BRW_OPCODE_BREAK);
+ inst->predicated = true;
+ }
+
+ foreach_iter(exec_list_iterator, iter, ir->body_instructions) {
+ ir_instruction *ir = (ir_instruction *)iter.get();
+
+ this->base_ir = ir;
+ this->result = reg_undef;
+ ir->accept(this);
+ }
+
+ if (ir->increment) {
+ this->base_ir = ir->increment;
+ this->result = reg_undef;
+ ir->increment->accept(this);
+ emit(BRW_OPCODE_ADD, counter, counter, this->result);
+ }
+
+ emit(BRW_OPCODE_WHILE);
+}
+
+void
+fs_visitor::visit(ir_loop_jump *ir)
+{
+ switch (ir->mode) {
+ case ir_loop_jump::jump_break:
+ emit(BRW_OPCODE_BREAK);
+ break;
+ case ir_loop_jump::jump_continue:
+ emit(BRW_OPCODE_CONTINUE);
+ break;
+ }
+}
+
+void
+fs_visitor::visit(ir_call *ir)
+{
+ assert(!"FINISHME");
+}
+
+void
+fs_visitor::visit(ir_return *ir)
+{
+ assert(!"FINISHME");
+}
+
+void
+fs_visitor::visit(ir_function *ir)
+{
+ /* Ignore function bodies other than main() -- we shouldn't see calls to
+ * them since they should all be inlined before we get to ir_to_mesa.
+ */
+ if (strcmp(ir->name, "main") == 0) {
+ const ir_function_signature *sig;
+ exec_list empty;
+
+ sig = ir->matching_signature(&empty);
+
+ assert(sig);
+
+ foreach_iter(exec_list_iterator, iter, sig->body) {
+ ir_instruction *ir = (ir_instruction *)iter.get();
+ this->base_ir = ir;
+ this->result = reg_undef;
+ ir->accept(this);
+ }
+ }
+}
+
+void
+fs_visitor::visit(ir_function_signature *ir)
+{
+ assert(!"not reached");
+ (void)ir;
+}
+
+fs_inst *
+fs_visitor::emit(fs_inst inst)
+{
+ fs_inst *list_inst = new(mem_ctx) fs_inst;
+ *list_inst = inst;
+
+ if (force_uncompressed_stack > 0)
+ list_inst->force_uncompressed = true;
+ else if (force_sechalf_stack > 0)
+ list_inst->force_sechalf = true;
+
+ list_inst->annotation = this->current_annotation;
+ list_inst->ir = this->base_ir;
+
+ this->instructions.push_tail(list_inst);
+
+ return list_inst;
+}
+
+/** Emits a dummy fragment shader consisting of magenta for bringup purposes. */
+void
+fs_visitor::emit_dummy_fs()
+{
+ /* Everyone's favorite color. */
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, 2), fs_reg(1.0f));
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, 3), fs_reg(0.0f));
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, 4), fs_reg(1.0f));
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, 5), fs_reg(0.0f));
+
+ fs_inst *write;
+ write = emit(FS_OPCODE_FB_WRITE, fs_reg(0), fs_reg(0));
+ write->base_mrf = 0;
+}
+
+/* The register location here is relative to the start of the URB
+ * data. It will get adjusted to be a real location before
+ * generate_code() time.
+ */
+struct brw_reg
+fs_visitor::interp_reg(int location, int channel)
+{
+ int regnr = urb_setup[location] * 2 + channel / 2;
+ int stride = (channel & 1) * 4;
+
+ assert(urb_setup[location] != -1);
+
+ return brw_vec1_grf(regnr, stride);
+}
+
+/** Emits the interpolation for the varying inputs. */
+void
+fs_visitor::emit_interpolation_setup_gen4()
+{
+ this->current_annotation = "compute pixel centers";
+ this->pixel_x = fs_reg(this, glsl_type::uint_type);
+ this->pixel_y = fs_reg(this, glsl_type::uint_type);
+ this->pixel_x.type = BRW_REGISTER_TYPE_UW;
+ this->pixel_y.type = BRW_REGISTER_TYPE_UW;
+
+ emit(FS_OPCODE_PIXEL_X, this->pixel_x);
+ emit(FS_OPCODE_PIXEL_Y, this->pixel_y);
+
+ this->current_annotation = "compute pixel deltas from v0";
+ if (brw->has_pln) {
+ this->delta_x = fs_reg(this, glsl_type::vec2_type);
+ this->delta_y = this->delta_x;
+ this->delta_y.reg_offset++;
+ } else {
+ this->delta_x = fs_reg(this, glsl_type::float_type);
+ this->delta_y = fs_reg(this, glsl_type::float_type);
+ }
+ emit(BRW_OPCODE_ADD, this->delta_x,
+ this->pixel_x, fs_reg(negate(brw_vec1_grf(1, 0))));
+ emit(BRW_OPCODE_ADD, this->delta_y,
+ this->pixel_y, fs_reg(negate(brw_vec1_grf(1, 1))));
+
+ this->current_annotation = "compute pos.w and 1/pos.w";
+ /* Compute wpos.w. It's always in our setup, since it's needed to
+ * interpolate the other attributes.
+ */
+ this->wpos_w = fs_reg(this, glsl_type::float_type);
+ emit(FS_OPCODE_LINTERP, wpos_w, this->delta_x, this->delta_y,
+ interp_reg(FRAG_ATTRIB_WPOS, 3));
+ /* Compute the pixel 1/W value from wpos.w. */
+ this->pixel_w = fs_reg(this, glsl_type::float_type);
+ emit_math(FS_OPCODE_RCP, this->pixel_w, wpos_w);
+ this->current_annotation = NULL;
+}
+
+/** Emits the interpolation for the varying inputs. */
+void
+fs_visitor::emit_interpolation_setup_gen6()
+{
+ struct brw_reg g1_uw = retype(brw_vec1_grf(1, 0), BRW_REGISTER_TYPE_UW);
+
+ /* If the pixel centers end up used, the setup is the same as for gen4. */
+ this->current_annotation = "compute pixel centers";
+ fs_reg int_pixel_x = fs_reg(this, glsl_type::uint_type);
+ fs_reg int_pixel_y = fs_reg(this, glsl_type::uint_type);
+ int_pixel_x.type = BRW_REGISTER_TYPE_UW;
+ int_pixel_y.type = BRW_REGISTER_TYPE_UW;
+ emit(BRW_OPCODE_ADD,
+ int_pixel_x,
+ fs_reg(stride(suboffset(g1_uw, 4), 2, 4, 0)),
+ fs_reg(brw_imm_v(0x10101010)));
+ emit(BRW_OPCODE_ADD,
+ int_pixel_y,
+ fs_reg(stride(suboffset(g1_uw, 5), 2, 4, 0)),
+ fs_reg(brw_imm_v(0x11001100)));
+
+ /* As of gen6, we can no longer mix float and int sources. We have
+ * to turn the integer pixel centers into floats for their actual
+ * use.
+ */
+ this->pixel_x = fs_reg(this, glsl_type::float_type);
+ this->pixel_y = fs_reg(this, glsl_type::float_type);
+ emit(BRW_OPCODE_MOV, this->pixel_x, int_pixel_x);
+ emit(BRW_OPCODE_MOV, this->pixel_y, int_pixel_y);
+
+ this->current_annotation = "compute pos.w";
+ this->pixel_w = fs_reg(brw_vec8_grf(c->source_w_reg, 0));
+ this->wpos_w = fs_reg(this, glsl_type::float_type);
+ emit_math(FS_OPCODE_RCP, this->wpos_w, this->pixel_w);
+
+ this->delta_x = fs_reg(brw_vec8_grf(2, 0));
+ this->delta_y = fs_reg(brw_vec8_grf(3, 0));
+
+ this->current_annotation = NULL;
+}
+
+void
+fs_visitor::emit_color_write(int index, int first_color_mrf, fs_reg color)
+{
+ int reg_width = c->dispatch_width / 8;
+
+ if (c->dispatch_width == 8 || intel->gen == 6) {
+ /* SIMD8 write looks like:
+ * m + 0: r0
+ * m + 1: r1
+ * m + 2: g0
+ * m + 3: g1
+ *
+ * gen6 SIMD16 DP write looks like:
+ * m + 0: r0
+ * m + 1: r1
+ * m + 2: g0
+ * m + 3: g1
+ * m + 4: b0
+ * m + 5: b1
+ * m + 6: a0
+ * m + 7: a1
+ */
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, first_color_mrf + index * reg_width),
+ color);
+ } else {
+ /* pre-gen6 SIMD16 single source DP write looks like:
+ * m + 0: r0
+ * m + 1: g0
+ * m + 2: b0
+ * m + 3: a0
+ * m + 4: r1
+ * m + 5: g1
+ * m + 6: b1
+ * m + 7: a1
+ */
+ if (brw->has_compr4) {
+ /* By setting the high bit of the MRF register number, we
+ * indicate that we want COMPR4 mode - instead of doing the
+ * usual destination + 1 for the second half we get
+ * destination + 4.
+ */
+ emit(BRW_OPCODE_MOV,
+ fs_reg(MRF, BRW_MRF_COMPR4 + first_color_mrf + index), color);
+ } else {
+ push_force_uncompressed();
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, first_color_mrf + index), color);
+ pop_force_uncompressed();
+
+ push_force_sechalf();
+ color.sechalf = true;
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, first_color_mrf + index + 4), color);
+ pop_force_sechalf();
+ color.sechalf = false;
+ }
+ }
+}
+
+void
+fs_visitor::emit_fb_writes()
+{
+ this->current_annotation = "FB write header";
+ GLboolean header_present = GL_TRUE;
+ int nr = 0;
+ int reg_width = c->dispatch_width / 8;
+
+ if (intel->gen >= 6 &&
+ !this->kill_emitted &&
+ c->key.nr_color_regions == 1) {
+ header_present = false;
+ }
+
+ if (header_present) {
+ /* m0, m1 header */
+ nr += 2;
+ }
+
+ if (c->aa_dest_stencil_reg) {
+ push_force_uncompressed();
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, nr++),
+ fs_reg(brw_vec8_grf(c->aa_dest_stencil_reg, 0)));
+ pop_force_uncompressed();
+ }
+
+ /* Reserve space for color. It'll be filled in per MRT below. */
+ int color_mrf = nr;
+ nr += 4 * reg_width;
+
+ if (c->source_depth_to_render_target) {
+ if (intel->gen == 6 && c->dispatch_width == 16) {
+ /* For outputting oDepth on gen6, SIMD8 writes have to be
+ * used. This would require 8-wide moves of each half to
+ * message regs, kind of like pre-gen5 SIMD16 FB writes.
+ * Just bail on doing so for now.
+ */
+ fail("Missing support for simd16 depth writes on gen6\n");
+ }
+
+ if (c->computes_depth) {
+ /* Hand over gl_FragDepth. */
+ assert(this->frag_depth);
+ fs_reg depth = *(variable_storage(this->frag_depth));
+
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, nr), depth);
+ } else {
+ /* Pass through the payload depth. */
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, nr),
+ fs_reg(brw_vec8_grf(c->source_depth_reg, 0)));
+ }
+ nr += reg_width;
+ }
+
+ if (c->dest_depth_reg) {
+ emit(BRW_OPCODE_MOV, fs_reg(MRF, nr),
+ fs_reg(brw_vec8_grf(c->dest_depth_reg, 0)));
+ nr += reg_width;
+ }
+
+ fs_reg color = reg_undef;
+ if (this->frag_color)
+ color = *(variable_storage(this->frag_color));
+ else if (this->frag_data) {
+ color = *(variable_storage(this->frag_data));
+ color.type = BRW_REGISTER_TYPE_F;
+ }
+
+ for (int target = 0; target < c->key.nr_color_regions; target++) {
+ this->current_annotation = ralloc_asprintf(this->mem_ctx,
+ "FB write target %d",
+ target);
+ if (this->frag_color || this->frag_data) {
+ for (int i = 0; i < 4; i++) {
+ emit_color_write(i, color_mrf, color);
+ color.reg_offset++;
+ }
+ }
+
+ if (this->frag_color)
+ color.reg_offset -= 4;
+
+ fs_inst *inst = emit(FS_OPCODE_FB_WRITE);
+ inst->target = target;
+ inst->base_mrf = 0;
+ inst->mlen = nr;
+ if (target == c->key.nr_color_regions - 1)
+ inst->eot = true;
+ inst->header_present = header_present;
+ }
+
+ if (c->key.nr_color_regions == 0) {
+ if (c->key.alpha_test && (this->frag_color || this->frag_data)) {
+ /* If the alpha test is enabled but there's no color buffer,
+ * we still need to send alpha out the pipeline to our null
+ * renderbuffer.
+ */
+ color.reg_offset += 3;
+ emit_color_write(3, color_mrf, color);
+ }
+
+ fs_inst *inst = emit(FS_OPCODE_FB_WRITE);
+ inst->base_mrf = 0;
+ inst->mlen = nr;
+ inst->eot = true;
+ inst->header_present = header_present;
+ }
+
+ this->current_annotation = NULL;
+}