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/*
* 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.
*
* Authors:
* Eric Anholt <eric@anholt.net>
*
*/
#pragma once
#include "brw_shader.h"
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 "intel_asm_printer.h"
}
#include "gen8_generator.h"
#include "glsl/glsl_types.h"
#include "glsl/ir.h"
#define MAX_SAMPLER_MESSAGE_SIZE 11
class bblock_t;
namespace {
struct acp_entry;
}
namespace brw {
class fs_live_variables;
}
class fs_reg {
public:
DECLARE_RALLOC_CXX_OPERATORS(fs_reg)
void init();
fs_reg();
fs_reg(float f);
fs_reg(int32_t i);
fs_reg(uint32_t u);
fs_reg(struct brw_reg fixed_hw_reg);
fs_reg(enum register_file file, int reg);
fs_reg(enum register_file file, int reg, uint32_t type);
fs_reg(class fs_visitor *v, const struct glsl_type *type);
bool equals(const fs_reg &r) const;
bool is_zero() const;
bool is_one() const;
bool is_null() const;
bool is_valid_3src() const;
bool is_contiguous() const;
bool is_accumulator() const;
fs_reg &apply_stride(unsigned stride);
/** Smear a channel of the reg to all channels. */
fs_reg &set_smear(unsigned subreg);
/** Register file: GRF, MRF, IMM. */
enum register_file file;
/** Register type. BRW_REGISTER_TYPE_* */
uint8_t type;
/**
* Register number. For MRF, it's the hardware register. For
* GRF, it's a virtual register number until register allocation
*/
uint16_t reg;
/**
* Offset from the start of the contiguous register block.
*
* For pre-register-allocation GRFs, this is in units of a float per pixel
* (1 hardware register for SIMD8 mode, or 2 registers for SIMD16 mode).
* For uniforms, this is in units of 1 float.
*/
int reg_offset;
/**
* Offset in bytes from the start of the register. Values up to a
* backend_reg::reg_offset unit are valid.
*/
int subreg_offset;
/** Value for file == IMM */
union {
int32_t i;
uint32_t u;
float f;
} imm;
struct brw_reg fixed_hw_reg;
fs_reg *reladdr;
bool negate;
bool abs;
/** Register region horizontal stride */
uint8_t stride;
};
static inline fs_reg
retype(fs_reg reg, unsigned type)
{
reg.fixed_hw_reg.type = reg.type = type;
return reg;
}
static inline fs_reg
offset(fs_reg reg, unsigned delta)
{
assert(delta == 0 || (reg.file != HW_REG && reg.file != IMM));
reg.reg_offset += delta;
return reg;
}
static inline fs_reg
byte_offset(fs_reg reg, unsigned delta)
{
assert(delta == 0 || (reg.file != HW_REG && reg.file != IMM));
reg.subreg_offset += delta;
return reg;
}
/**
* Get either of the 8-component halves of a 16-component register.
*
* Note: this also works if \c reg represents a SIMD16 pair of registers.
*/
static inline fs_reg
half(const fs_reg ®, unsigned idx)
{
assert(idx < 2);
assert(idx == 0 || (reg.file != HW_REG && reg.file != IMM));
return byte_offset(reg, 8 * idx * reg.stride * type_sz(reg.type));
}
static const fs_reg reg_undef;
static const fs_reg reg_null_f(retype(brw_null_reg(), BRW_REGISTER_TYPE_F));
static const fs_reg reg_null_d(retype(brw_null_reg(), BRW_REGISTER_TYPE_D));
static const fs_reg reg_null_ud(retype(brw_null_reg(), BRW_REGISTER_TYPE_UD));
class ip_record : public exec_node {
public:
DECLARE_RALLOC_CXX_OPERATORS(ip_record)
ip_record(int ip)
{
this->ip = ip;
}
int ip;
};
class fs_inst : public backend_instruction {
fs_inst &operator=(const fs_inst &);
public:
DECLARE_RALLOC_CXX_OPERATORS(fs_inst)
void init(enum opcode opcode, const fs_reg &dst, fs_reg *src, int sources);
fs_inst(enum opcode opcode = BRW_OPCODE_NOP, const fs_reg &dst = reg_undef);
fs_inst(enum opcode opcode, const fs_reg &dst, const fs_reg &src0);
fs_inst(enum opcode opcode, const fs_reg &dst, const fs_reg &src0,
const fs_reg &src1);
fs_inst(enum opcode opcode, const fs_reg &dst, const fs_reg &src0,
const fs_reg &src1, const fs_reg &src2);
fs_inst(enum opcode opcode, const fs_reg &dst, fs_reg src[], int sources);
fs_inst(const fs_inst &that);
void resize_sources(uint8_t num_sources);
bool equals(fs_inst *inst) const;
bool overwrites_reg(const fs_reg ®) const;
bool is_send_from_grf() const;
bool is_partial_write() const;
int regs_read(fs_visitor *v, int arg) const;
bool reads_flag() const;
bool writes_flag() const;
fs_reg dst;
fs_reg *src;
uint32_t texture_offset; /**< Texture offset bitfield */
uint32_t offset; /* spill/unspill offset */
uint8_t sources; /**< Number of fs_reg sources. */
uint8_t conditional_mod; /**< BRW_CONDITIONAL_* */
/* Chooses which flag subregister (f0.0 or f0.1) is used for conditional
* mod and predication.
*/
uint8_t flag_subreg;
uint8_t mlen; /**< SEND message length */
uint8_t regs_written; /**< Number of vgrfs written by a SEND message, or 1 */
int8_t base_mrf; /**< First MRF in the SEND message, if mlen is nonzero. */
uint8_t sampler;
uint8_t target; /**< MRT target. */
bool saturate:1;
bool eot:1;
bool header_present:1;
bool shadow_compare:1;
bool force_uncompressed:1;
bool force_sechalf:1;
bool force_writemask_all:1;
};
/**
* The fragment shader front-end.
*
* Translates either GLSL IR or Mesa IR (for ARB_fragment_program) into FS IR.
*/
class fs_visitor : public backend_visitor
{
public:
fs_visitor(struct brw_context *brw,
void *mem_ctx,
const struct brw_wm_prog_key *key,
struct brw_wm_prog_data *prog_data,
struct gl_shader_program *shader_prog,
struct gl_fragment_program *fp,
unsigned dispatch_width);
~fs_visitor();
fs_reg *variable_storage(ir_variable *var);
int virtual_grf_alloc(int size);
void import_uniforms(fs_visitor *v);
void visit(ir_variable *ir);
void visit(ir_assignment *ir);
void visit(ir_dereference_variable *ir);
void visit(ir_dereference_record *ir);
void visit(ir_dereference_array *ir);
void visit(ir_expression *ir);
void visit(ir_texture *ir);
void visit(ir_if *ir);
void visit(ir_constant *ir);
void visit(ir_swizzle *ir);
void visit(ir_return *ir);
void visit(ir_loop *ir);
void visit(ir_loop_jump *ir);
void visit(ir_discard *ir);
void visit(ir_call *ir);
void visit(ir_function *ir);
void visit(ir_function_signature *ir);
void visit(ir_emit_vertex *);
void visit(ir_end_primitive *);
uint32_t gather_channel(ir_texture *ir, int sampler);
void swizzle_result(ir_texture *ir, fs_reg orig_val, int sampler);
bool can_do_source_mods(fs_inst *inst);
fs_inst *emit(fs_inst *inst);
void emit(exec_list list);
fs_inst *emit(enum opcode opcode);
fs_inst *emit(enum opcode opcode, fs_reg dst);
fs_inst *emit(enum opcode opcode, fs_reg dst, fs_reg src0);
fs_inst *emit(enum opcode opcode, fs_reg dst, fs_reg src0, fs_reg src1);
fs_inst *emit(enum opcode opcode, fs_reg dst,
fs_reg src0, fs_reg src1, fs_reg src2);
fs_inst *emit(enum opcode opcode, fs_reg dst,
fs_reg src[], int sources);
fs_inst *MOV(fs_reg dst, fs_reg src);
fs_inst *NOT(fs_reg dst, fs_reg src);
fs_inst *RNDD(fs_reg dst, fs_reg src);
fs_inst *RNDE(fs_reg dst, fs_reg src);
fs_inst *RNDZ(fs_reg dst, fs_reg src);
fs_inst *FRC(fs_reg dst, fs_reg src);
fs_inst *ADD(fs_reg dst, fs_reg src0, fs_reg src1);
fs_inst *MUL(fs_reg dst, fs_reg src0, fs_reg src1);
fs_inst *MACH(fs_reg dst, fs_reg src0, fs_reg src1);
fs_inst *MAC(fs_reg dst, fs_reg src0, fs_reg src1);
fs_inst *SHL(fs_reg dst, fs_reg src0, fs_reg src1);
fs_inst *SHR(fs_reg dst, fs_reg src0, fs_reg src1);
fs_inst *ASR(fs_reg dst, fs_reg src0, fs_reg src1);
fs_inst *AND(fs_reg dst, fs_reg src0, fs_reg src1);
fs_inst *OR(fs_reg dst, fs_reg src0, fs_reg src1);
fs_inst *XOR(fs_reg dst, fs_reg src0, fs_reg src1);
fs_inst *IF(uint32_t predicate);
fs_inst *IF(fs_reg src0, fs_reg src1, uint32_t condition);
fs_inst *CMP(fs_reg dst, fs_reg src0, fs_reg src1,
uint32_t condition);
fs_inst *LRP(fs_reg dst, fs_reg a, fs_reg y, fs_reg x);
fs_inst *DEP_RESOLVE_MOV(int grf);
fs_inst *BFREV(fs_reg dst, fs_reg value);
fs_inst *BFE(fs_reg dst, fs_reg bits, fs_reg offset, fs_reg value);
fs_inst *BFI1(fs_reg dst, fs_reg bits, fs_reg offset);
fs_inst *BFI2(fs_reg dst, fs_reg bfi1_dst, fs_reg insert, fs_reg base);
fs_inst *FBH(fs_reg dst, fs_reg value);
fs_inst *FBL(fs_reg dst, fs_reg value);
fs_inst *CBIT(fs_reg dst, fs_reg value);
fs_inst *MAD(fs_reg dst, fs_reg c, fs_reg b, fs_reg a);
fs_inst *ADDC(fs_reg dst, fs_reg src0, fs_reg src1);
fs_inst *SUBB(fs_reg dst, fs_reg src0, fs_reg src1);
fs_inst *SEL(fs_reg dst, fs_reg src0, fs_reg src1);
int type_size(const struct glsl_type *type);
fs_inst *get_instruction_generating_reg(fs_inst *start,
fs_inst *end,
const fs_reg ®);
fs_inst *LOAD_PAYLOAD(const fs_reg &dst, fs_reg *src, int sources);
exec_list VARYING_PULL_CONSTANT_LOAD(const fs_reg &dst,
const fs_reg &surf_index,
const fs_reg &varying_offset,
uint32_t const_offset);
bool run();
void assign_binding_table_offsets();
void setup_payload_gen4();
void setup_payload_gen6();
void assign_curb_setup();
void calculate_urb_setup();
void assign_urb_setup();
bool assign_regs(bool allow_spilling);
void assign_regs_trivial();
void get_used_mrfs(bool *mrf_used);
void setup_payload_interference(struct ra_graph *g, int payload_reg_count,
int first_payload_node);
void setup_mrf_hack_interference(struct ra_graph *g,
int first_mrf_hack_node);
int choose_spill_reg(struct ra_graph *g);
void spill_reg(int spill_reg);
void split_virtual_grfs();
void compact_virtual_grfs();
void move_uniform_array_access_to_pull_constants();
void assign_constant_locations();
void demote_pull_constants();
void invalidate_live_intervals();
void calculate_live_intervals();
void calculate_register_pressure();
bool opt_algebraic();
bool opt_cse();
bool opt_cse_local(bblock_t *block, exec_list *aeb);
bool opt_copy_propagate();
bool try_copy_propagate(fs_inst *inst, int arg, acp_entry *entry);
bool try_constant_propagate(fs_inst *inst, acp_entry *entry);
bool opt_copy_propagate_local(void *mem_ctx, bblock_t *block,
exec_list *acp);
void opt_drop_redundant_mov_to_flags();
bool register_coalesce();
bool compute_to_mrf();
bool dead_code_eliminate();
bool remove_duplicate_mrf_writes();
bool virtual_grf_interferes(int a, int b);
void schedule_instructions(instruction_scheduler_mode mode);
void insert_gen4_send_dependency_workarounds();
void insert_gen4_pre_send_dependency_workarounds(fs_inst *inst);
void insert_gen4_post_send_dependency_workarounds(fs_inst *inst);
void vfail(const char *msg, va_list args);
void fail(const char *msg, ...);
void no16(const char *msg, ...);
void lower_uniform_pull_constant_loads();
bool lower_load_payload();
void push_force_uncompressed();
void pop_force_uncompressed();
void emit_dummy_fs();
fs_reg *emit_fragcoord_interpolation(ir_variable *ir);
fs_inst *emit_linterp(const fs_reg &attr, const fs_reg &interp,
glsl_interp_qualifier interpolation_mode,
bool is_centroid, bool is_sample);
fs_reg *emit_frontfacing_interpolation(ir_variable *ir);
fs_reg *emit_samplepos_setup(ir_variable *ir);
fs_reg *emit_sampleid_setup(ir_variable *ir);
fs_reg *emit_general_interpolation(ir_variable *ir);
void emit_interpolation_setup_gen4();
void emit_interpolation_setup_gen6();
void compute_sample_position(fs_reg dst, fs_reg int_sample_pos);
fs_reg rescale_texcoord(ir_texture *ir, fs_reg coordinate,
bool is_rect, int sampler, int texunit);
fs_inst *emit_texture_gen4(ir_texture *ir, fs_reg dst, fs_reg coordinate,
fs_reg shadow_comp, fs_reg lod, fs_reg lod2);
fs_inst *emit_texture_gen5(ir_texture *ir, fs_reg dst, fs_reg coordinate,
fs_reg shadow_comp, fs_reg lod, fs_reg lod2,
fs_reg sample_index);
fs_inst *emit_texture_gen7(ir_texture *ir, fs_reg dst, fs_reg coordinate,
fs_reg shadow_comp, fs_reg lod, fs_reg lod2,
fs_reg sample_index, fs_reg mcs, int sampler);
fs_reg emit_mcs_fetch(ir_texture *ir, fs_reg coordinate, int sampler);
void emit_gen6_gather_wa(uint8_t wa, fs_reg dst);
fs_reg fix_math_operand(fs_reg src);
fs_inst *emit_math(enum opcode op, fs_reg dst, fs_reg src0);
fs_inst *emit_math(enum opcode op, fs_reg dst, fs_reg src0, fs_reg src1);
void emit_lrp(const fs_reg &dst, const fs_reg &x, const fs_reg &y,
const fs_reg &a);
void emit_minmax(uint32_t conditionalmod, const fs_reg &dst,
const fs_reg &src0, const fs_reg &src1);
bool try_emit_saturate(ir_expression *ir);
bool try_emit_mad(ir_expression *ir);
void try_replace_with_sel();
bool opt_peephole_sel();
bool opt_peephole_predicated_break();
bool opt_saturate_propagation();
void emit_bool_to_cond_code(ir_rvalue *condition);
void emit_if_gen6(ir_if *ir);
void emit_unspill(fs_inst *inst, fs_reg reg, uint32_t spill_offset,
int count);
void emit_fragment_program_code();
void setup_fp_regs();
fs_reg get_fp_src_reg(const prog_src_register *src);
fs_reg get_fp_dst_reg(const prog_dst_register *dst);
void emit_fp_alu1(enum opcode opcode,
const struct prog_instruction *fpi,
fs_reg dst, fs_reg src);
void emit_fp_alu2(enum opcode opcode,
const struct prog_instruction *fpi,
fs_reg dst, fs_reg src0, fs_reg src1);
void emit_fp_scalar_write(const struct prog_instruction *fpi,
fs_reg dst, fs_reg src);
void emit_fp_scalar_math(enum opcode opcode,
const struct prog_instruction *fpi,
fs_reg dst, fs_reg src);
void emit_fp_minmax(const struct prog_instruction *fpi,
fs_reg dst, fs_reg src0, fs_reg src1);
void emit_fp_sop(uint32_t conditional_mod,
const struct prog_instruction *fpi,
fs_reg dst, fs_reg src0, fs_reg src1, fs_reg one);
void emit_color_write(int target, int index, int first_color_mrf);
void emit_alpha_test();
void emit_fb_writes();
void emit_shader_time_begin();
void emit_shader_time_end();
void emit_shader_time_write(enum shader_time_shader_type type,
fs_reg value);
void emit_untyped_atomic(unsigned atomic_op, unsigned surf_index,
fs_reg dst, fs_reg offset, fs_reg src0,
fs_reg src1);
void emit_untyped_surface_read(unsigned surf_index, fs_reg dst,
fs_reg offset);
bool try_rewrite_rhs_to_dst(ir_assignment *ir,
fs_reg dst,
fs_reg src,
fs_inst *pre_rhs_inst,
fs_inst *last_rhs_inst);
void emit_assignment_writes(fs_reg &l, fs_reg &r,
const glsl_type *type, bool predicated);
void resolve_ud_negate(fs_reg *reg);
void resolve_bool_comparison(ir_rvalue *rvalue, fs_reg *reg);
fs_reg get_timestamp();
struct brw_reg interp_reg(int location, int channel);
void setup_uniform_values(ir_variable *ir);
void setup_builtin_uniform_values(ir_variable *ir);
int implied_mrf_writes(fs_inst *inst);
virtual void dump_instructions();
virtual void dump_instructions(const char *name);
void dump_instruction(backend_instruction *inst);
void dump_instruction(backend_instruction *inst, FILE *file);
void visit_atomic_counter_intrinsic(ir_call *ir);
struct gl_fragment_program *fp;
const struct brw_wm_prog_key *const key;
struct brw_wm_prog_data *prog_data;
unsigned int sanity_param_count;
int *param_size;
int *virtual_grf_sizes;
int virtual_grf_count;
int virtual_grf_array_size;
int *virtual_grf_start;
int *virtual_grf_end;
brw::fs_live_variables *live_intervals;
int *regs_live_at_ip;
/** Number of uniform variable components visited. */
unsigned uniforms;
/** Byte-offset for the next available spot in the scratch space buffer. */
unsigned last_scratch;
/**
* Array mapping UNIFORM register numbers to the pull parameter index,
* or -1 if this uniform register isn't being uploaded as a pull constant.
*/
int *pull_constant_loc;
/**
* Array mapping UNIFORM register numbers to the push parameter index,
* or -1 if this uniform register isn't being uploaded as a push constant.
*/
int *push_constant_loc;
struct hash_table *variable_ht;
fs_reg frag_depth;
fs_reg sample_mask;
fs_reg outputs[BRW_MAX_DRAW_BUFFERS];
unsigned output_components[BRW_MAX_DRAW_BUFFERS];
fs_reg dual_src_output;
bool do_dual_src;
int first_non_payload_grf;
/** Either BRW_MAX_GRF or GEN7_MRF_HACK_START */
int max_grf;
fs_reg *fp_temp_regs;
fs_reg *fp_input_regs;
/** @{ debug annotation info */
const char *current_annotation;
const void *base_ir;
/** @} */
bool failed;
char *fail_msg;
bool simd16_unsupported;
char *no16_msg;
/* Result of last visit() method. */
fs_reg result;
/** Register numbers for thread payload fields. */
struct {
uint8_t source_depth_reg;
uint8_t source_w_reg;
uint8_t aa_dest_stencil_reg;
uint8_t dest_depth_reg;
uint8_t sample_pos_reg;
uint8_t sample_mask_in_reg;
uint8_t barycentric_coord_reg[BRW_WM_BARYCENTRIC_INTERP_MODE_COUNT];
/** The number of thread payload registers the hardware will supply. */
uint8_t num_regs;
} payload;
bool source_depth_to_render_target;
bool runtime_check_aads_emit;
fs_reg pixel_x;
fs_reg pixel_y;
fs_reg wpos_w;
fs_reg pixel_w;
fs_reg delta_x[BRW_WM_BARYCENTRIC_INTERP_MODE_COUNT];
fs_reg delta_y[BRW_WM_BARYCENTRIC_INTERP_MODE_COUNT];
fs_reg shader_start_time;
int grf_used;
bool spilled_any_registers;
const unsigned dispatch_width; /**< 8 or 16 */
int force_uncompressed_stack;
};
/**
* The fragment shader code generator.
*
* Translates FS IR to actual i965 assembly code.
*/
class fs_generator
{
public:
fs_generator(struct brw_context *brw,
void *mem_ctx,
const struct brw_wm_prog_key *key,
struct brw_wm_prog_data *prog_data,
struct gl_shader_program *prog,
struct gl_fragment_program *fp,
bool dual_source_output,
bool runtime_check_aads_emit,
bool debug_flag);
~fs_generator();
const unsigned *generate_assembly(exec_list *simd8_instructions,
exec_list *simd16_instructions,
unsigned *assembly_size);
private:
void generate_code(exec_list *instructions);
void fire_fb_write(fs_inst *inst,
GLuint base_reg,
struct brw_reg implied_header,
GLuint nr);
void generate_fb_write(fs_inst *inst);
void generate_blorp_fb_write(fs_inst *inst);
void generate_pixel_xy(struct brw_reg dst, bool is_x);
void generate_linterp(fs_inst *inst, struct brw_reg dst,
struct brw_reg *src);
void generate_tex(fs_inst *inst, struct brw_reg dst, struct brw_reg src);
void generate_math_gen6(fs_inst *inst,
struct brw_reg dst,
struct brw_reg src0,
struct brw_reg src1);
void generate_math_gen4(fs_inst *inst,
struct brw_reg dst,
struct brw_reg src);
void generate_math_g45(fs_inst *inst,
struct brw_reg dst,
struct brw_reg src);
void generate_ddx(fs_inst *inst, struct brw_reg dst, struct brw_reg src);
void generate_ddy(fs_inst *inst, struct brw_reg dst, struct brw_reg src,
bool negate_value);
void generate_scratch_write(fs_inst *inst, struct brw_reg src);
void generate_scratch_read(fs_inst *inst, struct brw_reg dst);
void generate_scratch_read_gen7(fs_inst *inst, struct brw_reg dst);
void generate_uniform_pull_constant_load(fs_inst *inst, struct brw_reg dst,
struct brw_reg index,
struct brw_reg offset);
void generate_uniform_pull_constant_load_gen7(fs_inst *inst,
struct brw_reg dst,
struct brw_reg surf_index,
struct brw_reg offset);
void generate_varying_pull_constant_load(fs_inst *inst, struct brw_reg dst,
struct brw_reg index,
struct brw_reg offset);
void generate_varying_pull_constant_load_gen7(fs_inst *inst,
struct brw_reg dst,
struct brw_reg index,
struct brw_reg offset);
void generate_mov_dispatch_to_flags(fs_inst *inst);
void generate_set_omask(fs_inst *inst,
struct brw_reg dst,
struct brw_reg sample_mask);
void generate_set_sample_id(fs_inst *inst,
struct brw_reg dst,
struct brw_reg src0,
struct brw_reg src1);
void generate_set_simd4x2_offset(fs_inst *inst,
struct brw_reg dst,
struct brw_reg offset);
void generate_discard_jump(fs_inst *inst);
void generate_pack_half_2x16_split(fs_inst *inst,
struct brw_reg dst,
struct brw_reg x,
struct brw_reg y);
void generate_unpack_half_2x16_split(fs_inst *inst,
struct brw_reg dst,
struct brw_reg src);
void generate_shader_time_add(fs_inst *inst,
struct brw_reg payload,
struct brw_reg offset,
struct brw_reg value);
void generate_untyped_atomic(fs_inst *inst,
struct brw_reg dst,
struct brw_reg atomic_op,
struct brw_reg surf_index);
void generate_untyped_surface_read(fs_inst *inst,
struct brw_reg dst,
struct brw_reg surf_index);
bool patch_discard_jumps_to_fb_writes();
struct brw_context *brw;
struct gl_context *ctx;
struct brw_compile *p;
const struct brw_wm_prog_key *const key;
struct brw_wm_prog_data *prog_data;
struct gl_shader_program *prog;
const struct gl_fragment_program *fp;
unsigned dispatch_width; /**< 8 or 16 */
exec_list discard_halt_patches;
bool dual_source_output;
bool runtime_check_aads_emit;
const bool debug_flag;
void *mem_ctx;
};
/**
* The fragment shader code generator.
*
* Translates FS IR to actual i965 assembly code.
*/
class gen8_fs_generator : public gen8_generator
{
public:
gen8_fs_generator(struct brw_context *brw,
void *mem_ctx,
const struct brw_wm_prog_key *key,
struct brw_wm_prog_data *prog_data,
struct gl_shader_program *prog,
struct gl_fragment_program *fp,
bool dual_source_output);
~gen8_fs_generator();
const unsigned *generate_assembly(exec_list *simd8_instructions,
exec_list *simd16_instructions,
unsigned *assembly_size);
private:
void generate_code(exec_list *instructions);
void generate_fb_write(fs_inst *inst);
void generate_linterp(fs_inst *inst, struct brw_reg dst,
struct brw_reg *src);
void generate_tex(fs_inst *inst, struct brw_reg dst, struct brw_reg src);
void generate_math1(fs_inst *inst, struct brw_reg dst, struct brw_reg src);
void generate_math2(fs_inst *inst, struct brw_reg dst,
struct brw_reg src0, struct brw_reg src1);
void generate_ddx(fs_inst *inst, struct brw_reg dst, struct brw_reg src);
void generate_ddy(fs_inst *inst, struct brw_reg dst, struct brw_reg src,
bool negate_value);
void generate_scratch_write(fs_inst *inst, struct brw_reg src);
void generate_scratch_read(fs_inst *inst, struct brw_reg dst);
void generate_scratch_read_gen7(fs_inst *inst, struct brw_reg dst);
void generate_uniform_pull_constant_load(fs_inst *inst,
struct brw_reg dst,
struct brw_reg index,
struct brw_reg offset);
void generate_varying_pull_constant_load(fs_inst *inst,
struct brw_reg dst,
struct brw_reg index,
struct brw_reg offset);
void generate_mov_dispatch_to_flags(fs_inst *ir);
void generate_set_omask(fs_inst *ir,
struct brw_reg dst,
struct brw_reg sample_mask);
void generate_set_sample_id(fs_inst *ir,
struct brw_reg dst,
struct brw_reg src0,
struct brw_reg src1);
void generate_set_simd4x2_offset(fs_inst *ir,
struct brw_reg dst,
struct brw_reg offset);
void generate_pack_half_2x16_split(fs_inst *inst,
struct brw_reg dst,
struct brw_reg x,
struct brw_reg y);
void generate_unpack_half_2x16_split(fs_inst *inst,
struct brw_reg dst,
struct brw_reg src);
void generate_untyped_atomic(fs_inst *inst,
struct brw_reg dst,
struct brw_reg atomic_op,
struct brw_reg surf_index);
void generate_untyped_surface_read(fs_inst *inst,
struct brw_reg dst,
struct brw_reg surf_index);
void generate_discard_jump(fs_inst *ir);
bool patch_discard_jumps_to_fb_writes();
const struct brw_wm_prog_key *const key;
struct brw_wm_prog_data *prog_data;
const struct gl_fragment_program *fp;
unsigned dispatch_width; /** 8 or 16 */
bool dual_source_output;
exec_list discard_halt_patches;
};
bool brw_do_channel_expressions(struct exec_list *instructions);
bool brw_do_vector_splitting(struct exec_list *instructions);
bool brw_fs_precompile(struct gl_context *ctx, struct gl_shader_program *prog);
struct brw_reg brw_reg_from_fs_reg(fs_reg *reg);
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