return reg;
}
-fs_reg
-fs_visitor::rescale_texcoord(fs_reg coordinate, int coord_components,
- bool is_rect, uint32_t sampler)
-{
- bool needs_gl_clamp = true;
- fs_reg scale_x, scale_y;
-
- /* 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 (is_rect &&
- (devinfo->gen < 6 ||
- (devinfo->gen >= 6 && (key_tex->gl_clamp_mask[0] & (1 << sampler) ||
- key_tex->gl_clamp_mask[1] & (1 << sampler))))) {
- struct gl_program_parameter_list *params = prog->Parameters;
-
-
- /* FINISHME: We're failing to recompile our programs when the sampler is
- * updated. This only matters for the texture rectangle scale
- * parameters (pre-gen6, or gen6+ with GL_CLAMP).
- */
- int tokens[STATE_LENGTH] = {
- STATE_INTERNAL,
- STATE_TEXRECT_SCALE,
- prog->SamplerUnits[sampler],
- 0,
- 0
- };
-
- no16("rectangle scale uniform setup not supported on SIMD16\n");
- if (dispatch_width == 16) {
- return coordinate;
- }
-
- GLuint index = _mesa_add_state_reference(params,
- (gl_state_index *)tokens);
- /* Try to find existing copies of the texrect scale uniforms. */
- for (unsigned i = 0; i < uniforms; i++) {
- if (stage_prog_data->param[i] ==
- &prog->Parameters->ParameterValues[index][0]) {
- scale_x = fs_reg(UNIFORM, i);
- scale_y = fs_reg(UNIFORM, i + 1);
- break;
- }
- }
-
- /* If we didn't already set them up, do so now. */
- if (scale_x.file == BAD_FILE) {
- scale_x = fs_reg(UNIFORM, uniforms);
- scale_y = fs_reg(UNIFORM, uniforms + 1);
-
- stage_prog_data->param[uniforms++] =
- &prog->Parameters->ParameterValues[index][0];
- stage_prog_data->param[uniforms++] =
- &prog->Parameters->ParameterValues[index][1];
- }
- }
-
- /* 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 (devinfo->gen < 6 && is_rect) {
- fs_reg dst = fs_reg(VGRF, alloc.allocate(coord_components));
- fs_reg src = coordinate;
- coordinate = dst;
-
- bld.MUL(dst, src, scale_x);
- dst = offset(dst, bld, 1);
- src = offset(src, bld, 1);
- bld.MUL(dst, src, scale_y);
- } else if (is_rect) {
- /* On gen6+, the sampler handles the rectangle coordinates
- * natively, without needing rescaling. But that means we have
- * to do GL_CLAMP clamping at the [0, width], [0, height] scale,
- * not [0, 1] like the default case below.
- */
- needs_gl_clamp = false;
-
- for (int i = 0; i < 2; i++) {
- if (key_tex->gl_clamp_mask[i] & (1 << sampler)) {
- fs_reg chan = coordinate;
- chan = offset(chan, bld, i);
-
- set_condmod(BRW_CONDITIONAL_GE,
- bld.emit(BRW_OPCODE_SEL, chan, chan, fs_reg(0.0f)));
-
- /* Our parameter comes in as 1.0/width or 1.0/height,
- * because that's what people normally want for doing
- * texture rectangle handling. We need width or height
- * for clamping, but we don't care enough to make a new
- * parameter type, so just invert back.
- */
- fs_reg limit = vgrf(glsl_type::float_type);
- bld.MOV(limit, i == 0 ? scale_x : scale_y);
- bld.emit(SHADER_OPCODE_RCP, limit, limit);
-
- set_condmod(BRW_CONDITIONAL_L,
- bld.emit(BRW_OPCODE_SEL, chan, chan, limit));
- }
- }
- }
-
- if (coord_components > 0 && needs_gl_clamp) {
- for (int i = 0; i < MIN2(coord_components, 3); i++) {
- if (key_tex->gl_clamp_mask[i] & (1 << sampler)) {
- fs_reg chan = coordinate;
- chan = offset(chan, bld, i);
- set_saturate(true, bld.MOV(chan, chan));
- }
- }
- }
- return coordinate;
-}
-
/* Sample from the MCS surface attached to this multisample texture. */
fs_reg
fs_visitor::emit_mcs_fetch(const fs_reg &coordinate, unsigned components,
const fs_reg dest = vgrf(glsl_type::uvec4_type);
const fs_reg srcs[] = {
coordinate, fs_reg(), fs_reg(), fs_reg(), fs_reg(), fs_reg(),
- texture, texture, fs_reg(), fs_reg(components), fs_reg(0)
+ texture, texture, fs_reg(), brw_imm_ud(components), brw_imm_d(0)
};
fs_inst *inst = bld.emit(SHADER_OPCODE_TXF_MCS_LOGICAL, dest, srcs,
ARRAY_SIZE(srcs));
fs_reg mcs,
int gather_component,
bool is_cube_array,
- bool is_rect,
uint32_t surface,
fs_reg surface_reg,
uint32_t sampler,
{
fs_inst *inst = NULL;
- if (op == ir_tg4) {
- /* When tg4 is used with the degenerate ZERO/ONE swizzles, don't bother
- * emitting anything other than setting up the constant result.
- */
- int swiz = GET_SWZ(key_tex->swizzles[sampler], gather_component);
- if (swiz == SWIZZLE_ZERO || swiz == SWIZZLE_ONE) {
-
- fs_reg res = vgrf(glsl_type::vec4_type);
- this->result = res;
-
- for (int i=0; i<4; i++) {
- bld.MOV(res, fs_reg(swiz == SWIZZLE_ZERO ? 0.0f : 1.0f));
- res = offset(res, bld, 1);
- }
- return;
- }
- }
-
if (op == ir_query_levels) {
/* textureQueryLevels() is implemented in terms of TXS so we need to
* pass a valid LOD argument.
*/
assert(lod.file == BAD_FILE);
- lod = fs_reg(0u);
+ lod = brw_imm_ud(0u);
}
- if (coordinate.file != BAD_FILE) {
- /* FINISHME: Texture coordinate rescaling doesn't work with non-constant
- * samplers. This should only be a problem with GL_CLAMP on Gen7.
+ if (op == ir_samples_identical) {
+ fs_reg dst = vgrf(glsl_type::get_instance(dest_type->base_type, 1, 1));
+
+ /* If mcs is an immediate value, it means there is no MCS. In that case
+ * just return false.
*/
- coordinate = rescale_texcoord(coordinate, coord_components, is_rect,
- sampler);
+ if (mcs.file == BRW_IMMEDIATE_VALUE) {
+ bld.MOV(dst, brw_imm_ud(0u));
+ } else if ((key_tex->msaa_16 & (1 << sampler))) {
+ fs_reg tmp = vgrf(glsl_type::uint_type);
+ bld.OR(tmp, mcs, offset(mcs, bld, 1));
+ bld.CMP(dst, tmp, brw_imm_ud(0u), BRW_CONDITIONAL_EQ);
+ } else {
+ bld.CMP(dst, mcs, brw_imm_ud(0u), BRW_CONDITIONAL_EQ);
+ }
+
+ this->result = dst;
+ return;
}
/* Writemasking doesn't eliminate channels on SIMD8 texture
const fs_reg srcs[] = {
coordinate, shadow_c, lod, lod2,
sample_index, mcs, surface_reg, sampler_reg, offset_value,
- fs_reg(coord_components), fs_reg(grad_components)
+ brw_imm_d(coord_components), brw_imm_d(grad_components)
};
enum opcode opcode;
inst->offset = offset_value.ud;
if (op == ir_tg4) {
- inst->offset |=
- gather_channel(gather_component, surface, sampler) << 16; /* M0.2:16-17 */
+ if (gather_component == 1 &&
+ key_tex->gather_channel_quirk_mask & (1 << surface)) {
+ /* gather4 sampler is broken for green channel on RG32F --
+ * we must ask for blue instead.
+ */
+ inst->offset |= 2 << 16;
+ } else {
+ inst->offset |= gather_component << 16;
+ }
if (devinfo->gen == 6)
emit_gen6_gather_wa(key_tex->gen6_gather_wa[surface], dst);
if (op == ir_txs && is_cube_array) {
fs_reg depth = offset(dst, bld, 2);
fs_reg fixed_depth = vgrf(glsl_type::int_type);
- bld.emit(SHADER_OPCODE_INT_QUOTIENT, fixed_depth, depth, fs_reg(6));
+ bld.emit(SHADER_OPCODE_INT_QUOTIENT, fixed_depth, depth, brw_imm_d(6));
fs_reg *fixed_payload = ralloc_array(mem_ctx, fs_reg, inst->regs_written);
int components = inst->regs_written / (inst->exec_size / 8);
bld.LOAD_PAYLOAD(dst, fixed_payload, components, 0);
}
- swizzle_result(op, dest_type->vector_elements, dst, sampler);
+ if (op == ir_query_levels) {
+ /* # levels is in .w */
+ dst = offset(dst, bld, 3);
+ }
+
+ this->result = dst;
}
/**
for (int i = 0; i < 4; i++) {
fs_reg dst_f = retype(dst, BRW_REGISTER_TYPE_F);
/* Convert from UNORM to UINT */
- bld.MUL(dst_f, dst_f, fs_reg((float)((1 << width) - 1)));
+ bld.MUL(dst_f, dst_f, brw_imm_f((1 << width) - 1));
bld.MOV(dst, dst_f);
if (wa & WA_SIGN) {
* shifting the sign bit into place, then shifting back
* preserving sign.
*/
- bld.SHL(dst, dst, fs_reg(32 - width));
- bld.ASR(dst, dst, fs_reg(32 - width));
+ bld.SHL(dst, dst, brw_imm_d(32 - width));
+ bld.ASR(dst, dst, brw_imm_d(32 - width));
}
dst = offset(dst, bld, 1);
}
}
-/**
- * Set up the gather channel based on the swizzle, for gather4.
- */
-uint32_t
-fs_visitor::gather_channel(int orig_chan, uint32_t surface, uint32_t sampler)
-{
- int swiz = GET_SWZ(key_tex->swizzles[sampler], orig_chan);
- switch (swiz) {
- case SWIZZLE_X: return 0;
- case SWIZZLE_Y:
- /* gather4 sampler is broken for green channel on RG32F --
- * we must ask for blue instead.
- */
- if (key_tex->gather_channel_quirk_mask & (1 << surface))
- return 2;
- return 1;
- case SWIZZLE_Z: return 2;
- case SWIZZLE_W: return 3;
- default:
- unreachable("Not reached"); /* zero, one swizzles handled already */
- }
-}
-
-/**
- * Swizzle the result of a texture result. This is necessary for
- * EXT_texture_swizzle as well as DEPTH_TEXTURE_MODE for shadow comparisons.
- */
-void
-fs_visitor::swizzle_result(ir_texture_opcode op, int dest_components,
- fs_reg orig_val, uint32_t sampler)
-{
- if (op == ir_query_levels) {
- /* # levels is in .w */
- this->result = offset(orig_val, bld, 3);
- return;
- }
-
- this->result = orig_val;
-
- /* txs,lod don't actually sample the texture, so swizzling the result
- * makes no sense.
- */
- if (op == ir_txs || op == ir_lod || op == ir_tg4)
- return;
-
- if (dest_components == 1) {
- /* Ignore DEPTH_TEXTURE_MODE swizzling. */
- } else if (key_tex->swizzles[sampler] != SWIZZLE_NOOP) {
- fs_reg swizzled_result = vgrf(glsl_type::vec4_type);
- swizzled_result.type = orig_val.type;
-
- for (int i = 0; i < 4; i++) {
- int swiz = GET_SWZ(key_tex->swizzles[sampler], i);
- fs_reg l = swizzled_result;
- l = offset(l, bld, i);
-
- if (swiz == SWIZZLE_ZERO) {
- bld.MOV(l, fs_reg(0.0f));
- } else if (swiz == SWIZZLE_ONE) {
- bld.MOV(l, fs_reg(1.0f));
- } else {
- bld.MOV(l, offset(orig_val, bld,
- GET_SWZ(key_tex->swizzles[sampler], i)));
- }
- }
- this->result = swizzled_result;
- }
-}
-
/** Emits a dummy fragment shader consisting of magenta for bringup purposes. */
void
fs_visitor::emit_dummy_fs()
const float color[4] = { 1.0, 0.0, 1.0, 0.0 };
for (int i = 0; i < 4; i++) {
bld.MOV(fs_reg(MRF, 2 + i * reg_width, BRW_REGISTER_TYPE_F),
- fs_reg(color[i]));
+ brw_imm_f(color[i]));
}
fs_inst *write;
fs_reg color = offset(outputs[0], bld, 3);
/* f0.1 &= func(color, ref) */
- cmp = abld.CMP(bld.null_reg_f(), color, fs_reg(key->alpha_test_ref),
+ cmp = abld.CMP(bld.null_reg_f(), color, brw_imm_f(key->alpha_test_ref),
cond_for_alpha_func(key->alpha_test_func));
}
cmp->predicate = BRW_PREDICATE_NORMAL;
const fs_reg sources[] = {
color0, color1, src0_alpha, src_depth, dst_depth, src_stencil,
- sample_mask, fs_reg(components)
+ sample_mask, brw_imm_ud(components)
};
assert(ARRAY_SIZE(sources) - 1 == FB_WRITE_LOGICAL_SRC_COMPONENTS);
fs_inst *write = bld.emit(FS_OPCODE_FB_WRITE_LOGICAL, fs_reg(),
fs_reg offset;
if (gs_vertex_count.file == IMM) {
- per_slot_offsets = fs_reg(output_vertex_size_owords *
- gs_vertex_count.ud);
+ per_slot_offsets = brw_imm_ud(output_vertex_size_owords *
+ gs_vertex_count.ud);
} else {
per_slot_offsets = vgrf(glsl_type::int_type);
bld.MUL(per_slot_offsets, gs_vertex_count,
- fs_reg(output_vertex_size_owords));
+ brw_imm_ud(output_vertex_size_owords));
}
}
}
fs_reg zero(VGRF, alloc.allocate(1), BRW_REGISTER_TYPE_UD);
- bld.MOV(zero, fs_reg(0u));
+ bld.MOV(zero, brw_imm_ud(0u));
sources[length++] = zero;
if (vue_map->slots_valid & VARYING_BIT_LAYER)
for (unsigned i = 0; i < output_components[varying]; i++)
sources[length++] = offset(this->outputs[varying], bld, i);
for (unsigned i = output_components[varying]; i < 4; i++)
- sources[length++] = fs_reg(0);
+ sources[length++] = brw_imm_d(0);
}
break;
}
const fs_builder pbld = bld.exec_all().group(8, 0);
/* Clear the message payload */
- pbld.MOV(payload, fs_reg(0u));
+ pbld.MOV(payload, brw_imm_ud(0u));
/* Copy bits 27:24 of r0.2 (barrier id) to the message payload reg.2 */
fs_reg r0_2 = fs_reg(retype(brw_vec1_grf(0, 2), BRW_REGISTER_TYPE_UD));
- pbld.AND(component(payload, 2), r0_2, fs_reg(0x0f000000u));
+ pbld.AND(component(payload, 2), r0_2, brw_imm_ud(0x0f000000u));
/* Emit a gateway "barrier" message using the payload we set up, followed
* by a wait instruction.
projects / mesa.git / blobdiff