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authorBryan Cain <[email protected]>2011-09-04 14:31:16 -0500
committerBryan Cain <[email protected]>2011-09-04 14:31:16 -0500
commit0dc575c6f6157867accf749a06ec745617ea64ac (patch)
tree93e46c501c9850169fdc4457b4a1ebdb47df66a7
parenta09754c15fc48e5fed347f478a301a02ee69fe8c (diff)
glsl_to_tgsi: fixes for native integers and integer booleans
This fixes all but one of the piglit regressions from enabling native integers in softpipe. The change to fix the last regression is still being discussed.
-rw-r--r--src/mesa/state_tracker/st_glsl_to_tgsi.cpp170
1 files changed, 118 insertions, 52 deletions
diff --git a/src/mesa/state_tracker/st_glsl_to_tgsi.cpp b/src/mesa/state_tracker/st_glsl_to_tgsi.cpp
index 66fc00f8161..9394bea00d3 100644
--- a/src/mesa/state_tracker/st_glsl_to_tgsi.cpp
+++ b/src/mesa/state_tracker/st_glsl_to_tgsi.cpp
@@ -390,6 +390,8 @@ public:
void emit_scalar(ir_instruction *ir, unsigned op,
st_dst_reg dst, st_src_reg src0, st_src_reg src1);
+ void try_emit_float_set(ir_instruction *ir, unsigned op, st_dst_reg dst);
+
void emit_arl(ir_instruction *ir, st_dst_reg dst, st_src_reg src0);
void emit_scs(ir_instruction *ir, unsigned op,
@@ -567,7 +569,10 @@ glsl_to_tgsi_visitor::emit(ir_instruction *ir, unsigned op,
}
this->instructions.push_tail(inst);
-
+
+ if (native_integers)
+ try_emit_float_set(ir, op, dst);
+
return inst;
}
@@ -593,11 +598,28 @@ glsl_to_tgsi_visitor::emit(ir_instruction *ir, unsigned op)
return emit(ir, op, undef_dst, undef_src, undef_src, undef_src);
}
+ /**
+ * Emits the code to convert the result of float SET instructions to integers.
+ */
+void
+glsl_to_tgsi_visitor::try_emit_float_set(ir_instruction *ir, unsigned op,
+ st_dst_reg dst)
+{
+ if ((op == TGSI_OPCODE_SEQ ||
+ op == TGSI_OPCODE_SNE ||
+ op == TGSI_OPCODE_SGE ||
+ op == TGSI_OPCODE_SLT))
+ {
+ st_src_reg src = st_src_reg(dst);
+ src.negate = ~src.negate;
+ dst.type = GLSL_TYPE_FLOAT;
+ emit(ir, TGSI_OPCODE_F2I, dst, src);
+ }
+}
+
/**
* Determines whether to use an integer, unsigned integer, or float opcode
* based on the operands and input opcode, then emits the result.
- *
- * TODO: type checking for remaining TGSI opcodes
*/
unsigned
glsl_to_tgsi_visitor::get_opcode(ir_instruction *ir, unsigned op,
@@ -609,7 +631,7 @@ glsl_to_tgsi_visitor::get_opcode(ir_instruction *ir, unsigned op,
if (src0.type == GLSL_TYPE_FLOAT || src1.type == GLSL_TYPE_FLOAT)
type = GLSL_TYPE_FLOAT;
else if (native_integers)
- type = src0.type;
+ type = src0.type == GLSL_TYPE_BOOL ? GLSL_TYPE_INT : src0.type;
#define case4(c, f, i, u) \
case TGSI_OPCODE_##c: \
@@ -635,12 +657,7 @@ glsl_to_tgsi_visitor::get_opcode(ir_instruction *ir, unsigned op,
case3(SGE, ISGE, USGE);
case3(SLT, ISLT, USLT);
- case2iu(SHL, SHL);
case2iu(ISHR, USHR);
- case2iu(NOT, NOT);
- case2iu(AND, AND);
- case2iu(OR, OR);
- case2iu(XOR, XOR);
default: break;
}
@@ -1394,7 +1411,7 @@ glsl_to_tgsi_visitor::visit(ir_expression *ir)
switch (ir->operation) {
case ir_unop_logic_not:
if (result_dst.type != GLSL_TYPE_FLOAT)
- emit(ir, TGSI_OPCODE_SEQ, result_dst, op[0], st_src_reg_for_type(result_dst.type, 0));
+ emit(ir, TGSI_OPCODE_NOT, result_dst, op[0]);
else {
/* Previously 'SEQ dst, src, 0.0' was used for this. However, many
* older GPUs implement SEQ using multiple instructions (i915 uses two
@@ -1494,10 +1511,10 @@ glsl_to_tgsi_visitor::visit(ir_expression *ir)
emit(ir, TGSI_OPCODE_SLT, result_dst, op[0], op[1]);
break;
case ir_binop_greater:
- emit(ir, TGSI_OPCODE_SGT, result_dst, op[0], op[1]);
+ emit(ir, TGSI_OPCODE_SLT, result_dst, op[1], op[0]);
break;
case ir_binop_lequal:
- emit(ir, TGSI_OPCODE_SLE, result_dst, op[0], op[1]);
+ emit(ir, TGSI_OPCODE_SGE, result_dst, op[1], op[0]);
break;
case ir_binop_gequal:
emit(ir, TGSI_OPCODE_SGE, result_dst, op[0], op[1]);
@@ -1610,41 +1627,52 @@ glsl_to_tgsi_visitor::visit(ir_expression *ir)
}
case ir_binop_logic_xor:
- emit(ir, TGSI_OPCODE_SNE, result_dst, op[0], op[1]);
+ if (native_integers)
+ emit(ir, TGSI_OPCODE_XOR, result_dst, op[0], op[1]);
+ else
+ emit(ir, TGSI_OPCODE_SNE, result_dst, op[0], op[1]);
break;
case ir_binop_logic_or: {
- /* After the addition, the value will be an integer on the
- * range [0,2]. Zero stays zero, and positive values become 1.0.
- */
- glsl_to_tgsi_instruction *add =
- emit(ir, TGSI_OPCODE_ADD, result_dst, op[0], op[1]);
- if (this->prog->Target == GL_FRAGMENT_PROGRAM_ARB &&
- result_dst.type == GLSL_TYPE_FLOAT) {
- /* The clamping to [0,1] can be done for free in the fragment
- * shader with a saturate if floats are being used as boolean values.
- */
- add->saturate = true;
- } else if (result_dst.type == GLSL_TYPE_FLOAT) {
- /* Negating the result of the addition gives values on the range
- * [-2, 0]. Zero stays zero, and negative values become 1.0. This
- * is achieved using SLT.
+ if (native_integers) {
+ /* If integers are used as booleans, we can use an actual "or"
+ * instruction.
*/
- st_src_reg slt_src = result_src;
- slt_src.negate = ~slt_src.negate;
- emit(ir, TGSI_OPCODE_SLT, result_dst, slt_src, st_src_reg_for_float(0.0));
+ assert(native_integers);
+ emit(ir, TGSI_OPCODE_OR, result_dst, op[0], op[1]);
} else {
- /* Use an SNE on the result of the addition. Zero stays zero,
- * 1 stays 1, and 2 becomes 1.
+ /* After the addition, the value will be an integer on the
+ * range [0,2]. Zero stays zero, and positive values become 1.0.
*/
- emit(ir, TGSI_OPCODE_SNE, result_dst, result_src, st_src_reg_for_int(0));
+ glsl_to_tgsi_instruction *add =
+ emit(ir, TGSI_OPCODE_ADD, result_dst, op[0], op[1]);
+ if (this->prog->Target == GL_FRAGMENT_PROGRAM_ARB) {
+ /* The clamping to [0,1] can be done for free in the fragment
+ * shader with a saturate if floats are being used as boolean values.
+ */
+ add->saturate = true;
+ } else {
+ /* Negating the result of the addition gives values on the range
+ * [-2, 0]. Zero stays zero, and negative values become 1.0. This
+ * is achieved using SLT.
+ */
+ st_src_reg slt_src = result_src;
+ slt_src.negate = ~slt_src.negate;
+ emit(ir, TGSI_OPCODE_SLT, result_dst, slt_src, st_src_reg_for_float(0.0));
+ }
}
break;
}
case ir_binop_logic_and:
- /* the bool args are stored as float 0.0 or 1.0, so "mul" gives us "and". */
- emit(ir, TGSI_OPCODE_MUL, result_dst, op[0], op[1]);
+ /* If native integers are disabled, the bool args are stored as float 0.0
+ * or 1.0, so "mul" gives us "and". If they're enabled, just use the
+ * actual AND opcode.
+ */
+ if (native_integers)
+ emit(ir, TGSI_OPCODE_AND, result_dst, op[0], op[1]);
+ else
+ emit(ir, TGSI_OPCODE_MUL, result_dst, op[0], op[1]);
break;
case ir_binop_dot:
@@ -1667,18 +1695,36 @@ glsl_to_tgsi_visitor::visit(ir_expression *ir)
emit_scalar(ir, TGSI_OPCODE_RSQ, result_dst, op[0]);
break;
case ir_unop_i2f:
- case ir_unop_b2f:
if (native_integers) {
emit(ir, TGSI_OPCODE_I2F, result_dst, op[0]);
break;
}
+ /* fallthrough to next case otherwise */
+ case ir_unop_b2f:
+ if (native_integers) {
+ emit(ir, TGSI_OPCODE_AND, result_dst, op[0], st_src_reg_for_float(1.0));
+ break;
+ }
+ /* fallthrough to next case otherwise */
case ir_unop_i2u:
case ir_unop_u2i:
/* Converting between signed and unsigned integers is a no-op. */
- case ir_unop_b2i:
- /* Booleans are stored as integers (or floats in GLSL 1.20 and lower). */
result_src = op[0];
break;
+ case ir_unop_b2i:
+ if (native_integers) {
+ /* Booleans are stored as integers using ~0 for true and 0 for false.
+ * GLSL requires that int(bool) return 1 for true and 0 for false.
+ * This conversion is done with AND, but it could be done with NEG.
+ */
+ emit(ir, TGSI_OPCODE_AND, result_dst, op[0], st_src_reg_for_int(1));
+ } else {
+ /* Booleans and integers are both stored as floats when native
+ * integers are disabled.
+ */
+ result_src = op[0];
+ }
+ break;
case ir_unop_f2i:
if (native_integers)
emit(ir, TGSI_OPCODE_F2I, result_dst, op[0]);
@@ -1686,9 +1732,13 @@ glsl_to_tgsi_visitor::visit(ir_expression *ir)
emit(ir, TGSI_OPCODE_TRUNC, result_dst, op[0]);
break;
case ir_unop_f2b:
+ emit(ir, TGSI_OPCODE_SNE, result_dst, op[0], st_src_reg_for_float(0.0));
+ break;
case ir_unop_i2b:
- emit(ir, TGSI_OPCODE_SNE, result_dst, op[0],
- st_src_reg_for_type(result_dst.type, 0));
+ if (native_integers)
+ emit(ir, TGSI_OPCODE_INEG, result_dst, op[0]);
+ else
+ emit(ir, TGSI_OPCODE_SNE, result_dst, op[0], st_src_reg_for_float(0.0));
break;
case ir_unop_trunc:
emit(ir, TGSI_OPCODE_TRUNC, result_dst, op[0]);
@@ -1716,7 +1766,7 @@ glsl_to_tgsi_visitor::visit(ir_expression *ir)
break;
case ir_unop_bit_not:
- if (glsl_version >= 130) {
+ if (native_integers) {
emit(ir, TGSI_OPCODE_NOT, result_dst, op[0]);
break;
}
@@ -1726,27 +1776,27 @@ glsl_to_tgsi_visitor::visit(ir_expression *ir)
break;
}
case ir_binop_lshift:
- if (glsl_version >= 130) {
+ if (native_integers) {
emit(ir, TGSI_OPCODE_SHL, result_dst, op[0]);
break;
}
case ir_binop_rshift:
- if (glsl_version >= 130) {
+ if (native_integers) {
emit(ir, TGSI_OPCODE_ISHR, result_dst, op[0]);
break;
}
case ir_binop_bit_and:
- if (glsl_version >= 130) {
+ if (native_integers) {
emit(ir, TGSI_OPCODE_AND, result_dst, op[0]);
break;
}
case ir_binop_bit_xor:
- if (glsl_version >= 130) {
+ if (native_integers) {
emit(ir, TGSI_OPCODE_XOR, result_dst, op[0]);
break;
}
case ir_binop_bit_or:
- if (glsl_version >= 130) {
+ if (native_integers) {
emit(ir, TGSI_OPCODE_OR, result_dst, op[0]);
break;
}
@@ -1903,17 +1953,19 @@ glsl_to_tgsi_visitor::visit(ir_dereference_array *ir)
if (element_size == 1) {
index_reg = this->result;
} else {
- index_reg = get_temp(glsl_type::float_type);
+ index_reg = get_temp(native_integers ?
+ glsl_type::int_type : glsl_type::float_type);
emit(ir, TGSI_OPCODE_MUL, st_dst_reg(index_reg),
- this->result, st_src_reg_for_float(element_size));
+ this->result, st_src_reg_for_type(index_reg.type, element_size));
}
/* If there was already a relative address register involved, add the
* new and the old together to get the new offset.
*/
if (src.reladdr != NULL) {
- st_src_reg accum_reg = get_temp(glsl_type::float_type);
+ st_src_reg accum_reg = get_temp(native_integers ?
+ glsl_type::int_type : glsl_type::float_type);
emit(ir, TGSI_OPCODE_ADD, st_dst_reg(accum_reg),
index_reg, *src.reladdr);
@@ -2134,12 +2186,25 @@ glsl_to_tgsi_visitor::visit(ir_assignment *ir)
for (i = 0; i < type_size(ir->lhs->type); i++) {
st_src_reg l_src = st_src_reg(l);
+ st_src_reg condition_temp = condition;
l_src.swizzle = swizzle_for_size(ir->lhs->type->vector_elements);
+ if (native_integers) {
+ /* This is necessary because TGSI's CMP instruction expects the
+ * condition to be a float, and we store booleans as integers.
+ * If TGSI had a UCMP instruction or similar, this extra
+ * instruction would not be necessary.
+ */
+ condition_temp = get_temp(glsl_type::vec4_type);
+ condition.negate = 0;
+ emit(ir, TGSI_OPCODE_I2F, st_dst_reg(condition_temp), condition);
+ condition_temp.swizzle = condition.swizzle;
+ }
+
if (switch_order) {
- emit(ir, TGSI_OPCODE_CMP, l, condition, l_src, r);
+ emit(ir, TGSI_OPCODE_CMP, l, condition_temp, l_src, r);
} else {
- emit(ir, TGSI_OPCODE_CMP, l, condition, r, l_src);
+ emit(ir, TGSI_OPCODE_CMP, l, condition_temp, r, l_src);
}
l.index++;
@@ -2159,6 +2224,7 @@ glsl_to_tgsi_visitor::visit(ir_assignment *ir)
inst = (glsl_to_tgsi_instruction *)this->instructions.get_tail();
new_inst = emit(ir, inst->op, l, inst->src[0], inst->src[1], inst->src[2]);
new_inst->saturate = inst->saturate;
+ inst->dead_mask = inst->dst.writemask;
} else {
for (i = 0; i < type_size(ir->lhs->type); i++) {
emit(ir, TGSI_OPCODE_MOV, l, r);