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|
/*
* Copyright © 2014 Connor Abbott
*
* 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:
* Connor Abbott (cwabbott0@gmail.com)
*
*/
#pragma once
#include "util/hash_table.h"
#include "../list.h"
#include "GL/gl.h" /* GLenum */
#include "util/list.h"
#include "util/ralloc.h"
#include "util/set.h"
#include "util/bitset.h"
#include "nir_types.h"
#include "glsl/shader_enums.h"
#include <stdio.h>
#include "nir_opcodes.h"
#ifdef __cplusplus
extern "C" {
#endif
struct gl_program;
struct gl_shader_program;
#define NIR_FALSE 0u
#define NIR_TRUE (~0u)
/** Defines a cast function
*
* This macro defines a cast function from in_type to out_type where
* out_type is some structure type that contains a field of type out_type.
*
* Note that you have to be a bit careful as the generated cast function
* destroys constness.
*/
#define NIR_DEFINE_CAST(name, in_type, out_type, field) \
static inline out_type * \
name(const in_type *parent) \
{ \
return exec_node_data(out_type, parent, field); \
}
struct nir_function_overload;
struct nir_function;
struct nir_shader;
struct nir_instr;
/**
* Description of built-in state associated with a uniform
*
* \sa nir_variable::state_slots
*/
typedef struct {
int tokens[5];
int swizzle;
} nir_state_slot;
typedef enum {
nir_var_shader_in,
nir_var_shader_out,
nir_var_global,
nir_var_local,
nir_var_uniform,
nir_var_system_value
} nir_variable_mode;
/**
* Data stored in an nir_constant
*/
union nir_constant_data {
unsigned u[16];
int i[16];
float f[16];
bool b[16];
};
typedef struct nir_constant {
/**
* Value of the constant.
*
* The field used to back the values supplied by the constant is determined
* by the type associated with the \c nir_variable. Constants may be
* scalars, vectors, or matrices.
*/
union nir_constant_data value;
/* Array elements / Structure Fields */
struct nir_constant **elements;
} nir_constant;
/**
* \brief Layout qualifiers for gl_FragDepth.
*
* The AMD/ARB_conservative_depth extensions allow gl_FragDepth to be redeclared
* with a layout qualifier.
*/
typedef enum {
nir_depth_layout_none, /**< No depth layout is specified. */
nir_depth_layout_any,
nir_depth_layout_greater,
nir_depth_layout_less,
nir_depth_layout_unchanged
} nir_depth_layout;
/**
* Either a uniform, global variable, shader input, or shader output. Based on
* ir_variable - it should be easy to translate between the two.
*/
typedef struct {
struct exec_node node;
/**
* Declared type of the variable
*/
const struct glsl_type *type;
/**
* Declared name of the variable
*/
char *name;
/**
* For variables which satisfy the is_interface_instance() predicate, this
* points to an array of integers such that if the ith member of the
* interface block is an array, max_ifc_array_access[i] is the maximum
* array element of that member that has been accessed. If the ith member
* of the interface block is not an array, max_ifc_array_access[i] is
* unused.
*
* For variables whose type is not an interface block, this pointer is
* NULL.
*/
unsigned *max_ifc_array_access;
struct nir_variable_data {
/**
* Is the variable read-only?
*
* This is set for variables declared as \c const, shader inputs,
* and uniforms.
*/
unsigned read_only:1;
unsigned centroid:1;
unsigned sample:1;
unsigned invariant:1;
/**
* Storage class of the variable.
*
* \sa nir_variable_mode
*/
nir_variable_mode mode:4;
/**
* Interpolation mode for shader inputs / outputs
*
* \sa glsl_interp_qualifier
*/
unsigned interpolation:2;
/**
* \name ARB_fragment_coord_conventions
* @{
*/
unsigned origin_upper_left:1;
unsigned pixel_center_integer:1;
/*@}*/
/**
* Was the location explicitly set in the shader?
*
* If the location is explicitly set in the shader, it \b cannot be changed
* by the linker or by the API (e.g., calls to \c glBindAttribLocation have
* no effect).
*/
unsigned explicit_location:1;
unsigned explicit_index:1;
/**
* Was an initial binding explicitly set in the shader?
*
* If so, constant_initializer contains an integer nir_constant
* representing the initial binding point.
*/
unsigned explicit_binding:1;
/**
* Does this variable have an initializer?
*
* This is used by the linker to cross-validiate initializers of global
* variables.
*/
unsigned has_initializer:1;
/**
* Is this variable a generic output or input that has not yet been matched
* up to a variable in another stage of the pipeline?
*
* This is used by the linker as scratch storage while assigning locations
* to generic inputs and outputs.
*/
unsigned is_unmatched_generic_inout:1;
/**
* If non-zero, then this variable may be packed along with other variables
* into a single varying slot, so this offset should be applied when
* accessing components. For example, an offset of 1 means that the x
* component of this variable is actually stored in component y of the
* location specified by \c location.
*/
unsigned location_frac:2;
/**
* Non-zero if this variable was created by lowering a named interface
* block which was not an array.
*
* Note that this variable and \c from_named_ifc_block_array will never
* both be non-zero.
*/
unsigned from_named_ifc_block_nonarray:1;
/**
* Non-zero if this variable was created by lowering a named interface
* block which was an array.
*
* Note that this variable and \c from_named_ifc_block_nonarray will never
* both be non-zero.
*/
unsigned from_named_ifc_block_array:1;
/**
* \brief Layout qualifier for gl_FragDepth.
*
* This is not equal to \c ir_depth_layout_none if and only if this
* variable is \c gl_FragDepth and a layout qualifier is specified.
*/
nir_depth_layout depth_layout;
/**
* Storage location of the base of this variable
*
* The precise meaning of this field depends on the nature of the variable.
*
* - Vertex shader input: one of the values from \c gl_vert_attrib.
* - Vertex shader output: one of the values from \c gl_varying_slot.
* - Geometry shader input: one of the values from \c gl_varying_slot.
* - Geometry shader output: one of the values from \c gl_varying_slot.
* - Fragment shader input: one of the values from \c gl_varying_slot.
* - Fragment shader output: one of the values from \c gl_frag_result.
* - Uniforms: Per-stage uniform slot number for default uniform block.
* - Uniforms: Index within the uniform block definition for UBO members.
* - Other: This field is not currently used.
*
* If the variable is a uniform, shader input, or shader output, and the
* slot has not been assigned, the value will be -1.
*/
int location;
/**
* The actual location of the variable in the IR. Only valid for inputs
* and outputs.
*/
unsigned int driver_location;
/**
* output index for dual source blending.
*/
int index;
/**
* Initial binding point for a sampler or UBO.
*
* For array types, this represents the binding point for the first element.
*/
int binding;
/**
* Location an atomic counter is stored at.
*/
struct {
unsigned buffer_index;
unsigned offset;
} atomic;
/**
* ARB_shader_image_load_store qualifiers.
*/
struct {
bool read_only; /**< "readonly" qualifier. */
bool write_only; /**< "writeonly" qualifier. */
bool coherent;
bool _volatile;
bool restrict_flag;
/** Image internal format if specified explicitly, otherwise GL_NONE. */
GLenum format;
} image;
/**
* Highest element accessed with a constant expression array index
*
* Not used for non-array variables.
*/
unsigned max_array_access;
} data;
/**
* Built-in state that backs this uniform
*
* Once set at variable creation, \c state_slots must remain invariant.
* This is because, ideally, this array would be shared by all clones of
* this variable in the IR tree. In other words, we'd really like for it
* to be a fly-weight.
*
* If the variable is not a uniform, \c num_state_slots will be zero and
* \c state_slots will be \c NULL.
*/
/*@{*/
unsigned num_state_slots; /**< Number of state slots used */
nir_state_slot *state_slots; /**< State descriptors. */
/*@}*/
/**
* Constant expression assigned in the initializer of the variable
*/
nir_constant *constant_initializer;
/**
* For variables that are in an interface block or are an instance of an
* interface block, this is the \c GLSL_TYPE_INTERFACE type for that block.
*
* \sa ir_variable::location
*/
const struct glsl_type *interface_type;
} nir_variable;
typedef struct {
struct exec_node node;
unsigned num_components; /** < number of vector components */
unsigned num_array_elems; /** < size of array (0 for no array) */
/** generic register index. */
unsigned index;
/** only for debug purposes, can be NULL */
const char *name;
/** whether this register is local (per-function) or global (per-shader) */
bool is_global;
/**
* If this flag is set to true, then accessing channels >= num_components
* is well-defined, and simply spills over to the next array element. This
* is useful for backends that can do per-component accessing, in
* particular scalar backends. By setting this flag and making
* num_components equal to 1, structures can be packed tightly into
* registers and then registers can be accessed per-component to get to
* each structure member, even if it crosses vec4 boundaries.
*/
bool is_packed;
/**
* If this pointer is non-NULL then this register has exactly one
* definition and that definition dominates all of its uses. This is
* set by the out-of-SSA pass so that backends can get SSA-like
* information even once they have gone out of SSA.
*/
struct nir_instr *parent_instr;
/** set of nir_instr's where this register is used (read from) */
struct list_head uses;
/** set of nir_instr's where this register is defined (written to) */
struct list_head defs;
/** set of nir_if's where this register is used as a condition */
struct list_head if_uses;
} nir_register;
typedef enum {
nir_instr_type_alu,
nir_instr_type_call,
nir_instr_type_tex,
nir_instr_type_intrinsic,
nir_instr_type_load_const,
nir_instr_type_jump,
nir_instr_type_ssa_undef,
nir_instr_type_phi,
nir_instr_type_parallel_copy,
} nir_instr_type;
typedef struct nir_instr {
struct exec_node node;
nir_instr_type type;
struct nir_block *block;
/* A temporary for optimization and analysis passes to use for storing
* flags. For instance, DCE uses this to store the "dead/live" info.
*/
uint8_t pass_flags;
} nir_instr;
static inline nir_instr *
nir_instr_next(nir_instr *instr)
{
struct exec_node *next = exec_node_get_next(&instr->node);
if (exec_node_is_tail_sentinel(next))
return NULL;
else
return exec_node_data(nir_instr, next, node);
}
static inline nir_instr *
nir_instr_prev(nir_instr *instr)
{
struct exec_node *prev = exec_node_get_prev(&instr->node);
if (exec_node_is_head_sentinel(prev))
return NULL;
else
return exec_node_data(nir_instr, prev, node);
}
typedef struct {
/** for debugging only, can be NULL */
const char* name;
/** generic SSA definition index. */
unsigned index;
/** Index into the live_in and live_out bitfields */
unsigned live_index;
nir_instr *parent_instr;
/** set of nir_instr's where this register is used (read from) */
struct list_head uses;
/** set of nir_if's where this register is used as a condition */
struct list_head if_uses;
uint8_t num_components;
} nir_ssa_def;
struct nir_src;
typedef struct {
nir_register *reg;
struct nir_src *indirect; /** < NULL for no indirect offset */
unsigned base_offset;
/* TODO use-def chain goes here */
} nir_reg_src;
typedef struct {
nir_instr *parent_instr;
struct list_head def_link;
nir_register *reg;
struct nir_src *indirect; /** < NULL for no indirect offset */
unsigned base_offset;
/* TODO def-use chain goes here */
} nir_reg_dest;
struct nir_if;
typedef struct nir_src {
union {
nir_instr *parent_instr;
struct nir_if *parent_if;
};
struct list_head use_link;
union {
nir_reg_src reg;
nir_ssa_def *ssa;
};
bool is_ssa;
} nir_src;
#define NIR_SRC_INIT (nir_src) { { NULL } }
#define nir_foreach_use(reg_or_ssa_def, src) \
list_for_each_entry(nir_src, src, &(reg_or_ssa_def)->uses, use_link)
#define nir_foreach_use_safe(reg_or_ssa_def, src) \
list_for_each_entry_safe(nir_src, src, &(reg_or_ssa_def)->uses, use_link)
#define nir_foreach_if_use(reg_or_ssa_def, src) \
list_for_each_entry(nir_src, src, &(reg_or_ssa_def)->if_uses, use_link)
#define nir_foreach_if_use_safe(reg_or_ssa_def, src) \
list_for_each_entry_safe(nir_src, src, &(reg_or_ssa_def)->if_uses, use_link)
typedef struct {
union {
nir_reg_dest reg;
nir_ssa_def ssa;
};
bool is_ssa;
} nir_dest;
#define NIR_DEST_INIT (nir_dest) { { { NULL } } }
#define nir_foreach_def(reg, dest) \
list_for_each_entry(nir_dest, dest, &(reg)->defs, reg.def_link)
#define nir_foreach_def_safe(reg, dest) \
list_for_each_entry_safe(nir_dest, dest, &(reg)->defs, reg.def_link)
static inline nir_src
nir_src_for_ssa(nir_ssa_def *def)
{
nir_src src = NIR_SRC_INIT;
src.is_ssa = true;
src.ssa = def;
return src;
}
static inline nir_src
nir_src_for_reg(nir_register *reg)
{
nir_src src = NIR_SRC_INIT;
src.is_ssa = false;
src.reg.reg = reg;
src.reg.indirect = NULL;
src.reg.base_offset = 0;
return src;
}
static inline nir_instr *
nir_src_get_parent_instr(const nir_src *src)
{
if (src->is_ssa) {
return src->ssa->parent_instr;
} else {
return src->reg.reg->parent_instr;
}
}
static inline nir_dest
nir_dest_for_reg(nir_register *reg)
{
nir_dest dest = NIR_DEST_INIT;
dest.reg.reg = reg;
return dest;
}
void nir_src_copy(nir_src *dest, const nir_src *src, void *mem_ctx);
void nir_dest_copy(nir_dest *dest, const nir_dest *src, void *mem_ctx);
typedef struct {
nir_src src;
/**
* \name input modifiers
*/
/*@{*/
/**
* For inputs interpreted as floating point, flips the sign bit. For
* inputs interpreted as integers, performs the two's complement negation.
*/
bool negate;
/**
* Clears the sign bit for floating point values, and computes the integer
* absolute value for integers. Note that the negate modifier acts after
* the absolute value modifier, therefore if both are set then all inputs
* will become negative.
*/
bool abs;
/*@}*/
/**
* For each input component, says which component of the register it is
* chosen from. Note that which elements of the swizzle are used and which
* are ignored are based on the write mask for most opcodes - for example,
* a statement like "foo.xzw = bar.zyx" would have a writemask of 1101b and
* a swizzle of {2, x, 1, 0} where x means "don't care."
*/
uint8_t swizzle[4];
} nir_alu_src;
typedef struct {
nir_dest dest;
/**
* \name saturate output modifier
*
* Only valid for opcodes that output floating-point numbers. Clamps the
* output to between 0.0 and 1.0 inclusive.
*/
bool saturate;
unsigned write_mask : 4; /* ignored if dest.is_ssa is true */
} nir_alu_dest;
void nir_alu_src_copy(nir_alu_src *dest, const nir_alu_src *src, void *mem_ctx);
void nir_alu_dest_copy(nir_alu_dest *dest, const nir_alu_dest *src,
void *mem_ctx);
typedef enum {
nir_type_invalid = 0, /* Not a valid type */
nir_type_float,
nir_type_int,
nir_type_unsigned,
nir_type_bool
} nir_alu_type;
typedef enum {
NIR_OP_IS_COMMUTATIVE = (1 << 0),
NIR_OP_IS_ASSOCIATIVE = (1 << 1),
} nir_op_algebraic_property;
typedef struct {
const char *name;
unsigned num_inputs;
/**
* The number of components in the output
*
* If non-zero, this is the size of the output and input sizes are
* explicitly given; swizzle and writemask are still in effect, but if
* the output component is masked out, then the input component may
* still be in use.
*
* If zero, the opcode acts in the standard, per-component manner; the
* operation is performed on each component (except the ones that are
* masked out) with the input being taken from the input swizzle for
* that component.
*
* The size of some of the inputs may be given (i.e. non-zero) even
* though output_size is zero; in that case, the inputs with a zero
* size act per-component, while the inputs with non-zero size don't.
*/
unsigned output_size;
/**
* The type of vector that the instruction outputs. Note that the
* staurate modifier is only allowed on outputs with the float type.
*/
nir_alu_type output_type;
/**
* The number of components in each input
*/
unsigned input_sizes[4];
/**
* The type of vector that each input takes. Note that negate and
* absolute value are only allowed on inputs with int or float type and
* behave differently on the two.
*/
nir_alu_type input_types[4];
nir_op_algebraic_property algebraic_properties;
} nir_op_info;
extern const nir_op_info nir_op_infos[nir_num_opcodes];
typedef struct nir_alu_instr {
nir_instr instr;
nir_op op;
nir_alu_dest dest;
nir_alu_src src[];
} nir_alu_instr;
/* is this source channel used? */
static inline bool
nir_alu_instr_channel_used(nir_alu_instr *instr, unsigned src, unsigned channel)
{
if (nir_op_infos[instr->op].input_sizes[src] > 0)
return channel < nir_op_infos[instr->op].input_sizes[src];
return (instr->dest.write_mask >> channel) & 1;
}
/*
* For instructions whose destinations are SSA, get the number of channels
* used for a source
*/
static inline unsigned
nir_ssa_alu_instr_src_components(nir_alu_instr *instr, unsigned src)
{
assert(instr->dest.dest.is_ssa);
if (nir_op_infos[instr->op].input_sizes[src] > 0)
return nir_op_infos[instr->op].input_sizes[src];
return instr->dest.dest.ssa.num_components;
}
typedef enum {
nir_deref_type_var,
nir_deref_type_array,
nir_deref_type_struct
} nir_deref_type;
typedef struct nir_deref {
nir_deref_type deref_type;
struct nir_deref *child;
const struct glsl_type *type;
} nir_deref;
typedef struct {
nir_deref deref;
nir_variable *var;
} nir_deref_var;
/* This enum describes how the array is referenced. If the deref is
* direct then the base_offset is used. If the deref is indirect then then
* offset is given by base_offset + indirect. If the deref is a wildcard
* then the deref refers to all of the elements of the array at the same
* time. Wildcard dereferences are only ever allowed in copy_var
* intrinsics and the source and destination derefs must have matching
* wildcards.
*/
typedef enum {
nir_deref_array_type_direct,
nir_deref_array_type_indirect,
nir_deref_array_type_wildcard,
} nir_deref_array_type;
typedef struct {
nir_deref deref;
nir_deref_array_type deref_array_type;
unsigned base_offset;
nir_src indirect;
} nir_deref_array;
typedef struct {
nir_deref deref;
unsigned index;
} nir_deref_struct;
NIR_DEFINE_CAST(nir_deref_as_var, nir_deref, nir_deref_var, deref)
NIR_DEFINE_CAST(nir_deref_as_array, nir_deref, nir_deref_array, deref)
NIR_DEFINE_CAST(nir_deref_as_struct, nir_deref, nir_deref_struct, deref)
typedef struct {
nir_instr instr;
unsigned num_params;
nir_deref_var **params;
nir_deref_var *return_deref;
struct nir_function_overload *callee;
} nir_call_instr;
#define INTRINSIC(name, num_srcs, src_components, has_dest, dest_components, \
num_variables, num_indices, flags) \
nir_intrinsic_##name,
#define LAST_INTRINSIC(name) nir_last_intrinsic = nir_intrinsic_##name,
typedef enum {
#include "nir_intrinsics.h"
nir_num_intrinsics = nir_last_intrinsic + 1
} nir_intrinsic_op;
#undef INTRINSIC
#undef LAST_INTRINSIC
/** Represents an intrinsic
*
* An intrinsic is an instruction type for handling things that are
* more-or-less regular operations but don't just consume and produce SSA
* values like ALU operations do. Intrinsics are not for things that have
* special semantic meaning such as phi nodes and parallel copies.
* Examples of intrinsics include variable load/store operations, system
* value loads, and the like. Even though texturing more-or-less falls
* under this category, texturing is its own instruction type because
* trying to represent texturing with intrinsics would lead to a
* combinatorial explosion of intrinsic opcodes.
*
* By having a single instruction type for handling a lot of different
* cases, optimization passes can look for intrinsics and, for the most
* part, completely ignore them. Each intrinsic type also has a few
* possible flags that govern whether or not they can be reordered or
* eliminated. That way passes like dead code elimination can still work
* on intrisics without understanding the meaning of each.
*
* Each intrinsic has some number of constant indices, some number of
* variables, and some number of sources. What these sources, variables,
* and indices mean depends on the intrinsic and is documented with the
* intrinsic declaration in nir_intrinsics.h. Intrinsics and texture
* instructions are the only types of instruction that can operate on
* variables.
*/
typedef struct {
nir_instr instr;
nir_intrinsic_op intrinsic;
nir_dest dest;
/** number of components if this is a vectorized intrinsic
*
* Similarly to ALU operations, some intrinsics are vectorized.
* An intrinsic is vectorized if nir_intrinsic_infos.dest_components == 0.
* For vectorized intrinsics, the num_components field specifies the
* number of destination components and the number of source components
* for all sources with nir_intrinsic_infos.src_components[i] == 0.
*/
uint8_t num_components;
int const_index[3];
nir_deref_var *variables[2];
nir_src src[];
} nir_intrinsic_instr;
/**
* \name NIR intrinsics semantic flags
*
* information about what the compiler can do with the intrinsics.
*
* \sa nir_intrinsic_info::flags
*/
typedef enum {
/**
* whether the intrinsic can be safely eliminated if none of its output
* value is not being used.
*/
NIR_INTRINSIC_CAN_ELIMINATE = (1 << 0),
/**
* Whether the intrinsic can be reordered with respect to any other
* intrinsic, i.e. whether the only reordering dependencies of the
* intrinsic are due to the register reads/writes.
*/
NIR_INTRINSIC_CAN_REORDER = (1 << 1),
} nir_intrinsic_semantic_flag;
#define NIR_INTRINSIC_MAX_INPUTS 4
typedef struct {
const char *name;
unsigned num_srcs; /** < number of register/SSA inputs */
/** number of components of each input register
*
* If this value is 0, the number of components is given by the
* num_components field of nir_intrinsic_instr.
*/
unsigned src_components[NIR_INTRINSIC_MAX_INPUTS];
bool has_dest;
/** number of components of the output register
*
* If this value is 0, the number of components is given by the
* num_components field of nir_intrinsic_instr.
*/
unsigned dest_components;
/** the number of inputs/outputs that are variables */
unsigned num_variables;
/** the number of constant indices used by the intrinsic */
unsigned num_indices;
/** semantic flags for calls to this intrinsic */
nir_intrinsic_semantic_flag flags;
} nir_intrinsic_info;
extern const nir_intrinsic_info nir_intrinsic_infos[nir_num_intrinsics];
/**
* \group texture information
*
* This gives semantic information about textures which is useful to the
* frontend, the backend, and lowering passes, but not the optimizer.
*/
typedef enum {
nir_tex_src_coord,
nir_tex_src_projector,
nir_tex_src_comparitor, /* shadow comparitor */
nir_tex_src_offset,
nir_tex_src_bias,
nir_tex_src_lod,
nir_tex_src_ms_index, /* MSAA sample index */
nir_tex_src_ddx,
nir_tex_src_ddy,
nir_tex_src_sampler_offset, /* < dynamically uniform indirect offset */
nir_num_tex_src_types
} nir_tex_src_type;
typedef struct {
nir_src src;
nir_tex_src_type src_type;
} nir_tex_src;
typedef enum {
nir_texop_tex, /**< Regular texture look-up */
nir_texop_txb, /**< Texture look-up with LOD bias */
nir_texop_txl, /**< Texture look-up with explicit LOD */
nir_texop_txd, /**< Texture look-up with partial derivatvies */
nir_texop_txf, /**< Texel fetch with explicit LOD */
nir_texop_txf_ms, /**< Multisample texture fetch */
nir_texop_txs, /**< Texture size */
nir_texop_lod, /**< Texture lod query */
nir_texop_tg4, /**< Texture gather */
nir_texop_query_levels /**< Texture levels query */
} nir_texop;
typedef struct {
nir_instr instr;
enum glsl_sampler_dim sampler_dim;
nir_alu_type dest_type;
nir_texop op;
nir_dest dest;
nir_tex_src *src;
unsigned num_srcs, coord_components;
bool is_array, is_shadow;
/**
* If is_shadow is true, whether this is the old-style shadow that outputs 4
* components or the new-style shadow that outputs 1 component.
*/
bool is_new_style_shadow;
/* constant offset - must be 0 if the offset source is used */
int const_offset[4];
/* gather component selector */
unsigned component : 2;
/** The sampler index
*
* If this texture instruction has a nir_tex_src_sampler_offset source,
* then the sampler index is given by sampler_index + sampler_offset.
*/
unsigned sampler_index;
/** The size of the sampler array or 0 if it's not an array */
unsigned sampler_array_size;
nir_deref_var *sampler; /* if this is NULL, use sampler_index instead */
} nir_tex_instr;
static inline unsigned
nir_tex_instr_dest_size(nir_tex_instr *instr)
{
switch (instr->op) {
case nir_texop_txs: {
unsigned ret;
switch (instr->sampler_dim) {
case GLSL_SAMPLER_DIM_1D:
case GLSL_SAMPLER_DIM_BUF:
ret = 1;
break;
case GLSL_SAMPLER_DIM_2D:
case GLSL_SAMPLER_DIM_CUBE:
case GLSL_SAMPLER_DIM_MS:
case GLSL_SAMPLER_DIM_RECT:
case GLSL_SAMPLER_DIM_EXTERNAL:
ret = 2;
break;
case GLSL_SAMPLER_DIM_3D:
ret = 3;
break;
default:
unreachable("not reached");
}
if (instr->is_array)
ret++;
return ret;
}
case nir_texop_lod:
return 2;
case nir_texop_query_levels:
return 1;
default:
if (instr->is_shadow && instr->is_new_style_shadow)
return 1;
return 4;
}
}
static inline unsigned
nir_tex_instr_src_size(nir_tex_instr *instr, unsigned src)
{
if (instr->src[src].src_type == nir_tex_src_coord)
return instr->coord_components;
if (instr->src[src].src_type == nir_tex_src_offset ||
instr->src[src].src_type == nir_tex_src_ddx ||
instr->src[src].src_type == nir_tex_src_ddy) {
if (instr->is_array)
return instr->coord_components - 1;
else
return instr->coord_components;
}
return 1;
}
static inline int
nir_tex_instr_src_index(nir_tex_instr *instr, nir_tex_src_type type)
{
for (unsigned i = 0; i < instr->num_srcs; i++)
if (instr->src[i].src_type == type)
return (int) i;
return -1;
}
typedef struct {
union {
float f[4];
int32_t i[4];
uint32_t u[4];
};
} nir_const_value;
typedef struct {
nir_instr instr;
nir_const_value value;
nir_ssa_def def;
} nir_load_const_instr;
typedef enum {
nir_jump_return,
nir_jump_break,
nir_jump_continue,
} nir_jump_type;
typedef struct {
nir_instr instr;
nir_jump_type type;
} nir_jump_instr;
/* creates a new SSA variable in an undefined state */
typedef struct {
nir_instr instr;
nir_ssa_def def;
} nir_ssa_undef_instr;
typedef struct {
struct exec_node node;
/* The predecessor block corresponding to this source */
struct nir_block *pred;
nir_src src;
} nir_phi_src;
#define nir_foreach_phi_src(phi, entry) \
foreach_list_typed(nir_phi_src, entry, node, &(phi)->srcs)
#define nir_foreach_phi_src_safe(phi, entry) \
foreach_list_typed_safe(nir_phi_src, entry, node, &(phi)->srcs)
typedef struct {
nir_instr instr;
struct exec_list srcs; /** < list of nir_phi_src */
nir_dest dest;
} nir_phi_instr;
typedef struct {
struct exec_node node;
nir_src src;
nir_dest dest;
} nir_parallel_copy_entry;
#define nir_foreach_parallel_copy_entry(pcopy, entry) \
foreach_list_typed(nir_parallel_copy_entry, entry, node, &(pcopy)->entries)
typedef struct {
nir_instr instr;
/* A list of nir_parallel_copy_entry's. The sources of all of the
* entries are copied to the corresponding destinations "in parallel".
* In other words, if we have two entries: a -> b and b -> a, the values
* get swapped.
*/
struct exec_list entries;
} nir_parallel_copy_instr;
NIR_DEFINE_CAST(nir_instr_as_alu, nir_instr, nir_alu_instr, instr)
NIR_DEFINE_CAST(nir_instr_as_call, nir_instr, nir_call_instr, instr)
NIR_DEFINE_CAST(nir_instr_as_jump, nir_instr, nir_jump_instr, instr)
NIR_DEFINE_CAST(nir_instr_as_tex, nir_instr, nir_tex_instr, instr)
NIR_DEFINE_CAST(nir_instr_as_intrinsic, nir_instr, nir_intrinsic_instr, instr)
NIR_DEFINE_CAST(nir_instr_as_load_const, nir_instr, nir_load_const_instr, instr)
NIR_DEFINE_CAST(nir_instr_as_ssa_undef, nir_instr, nir_ssa_undef_instr, instr)
NIR_DEFINE_CAST(nir_instr_as_phi, nir_instr, nir_phi_instr, instr)
NIR_DEFINE_CAST(nir_instr_as_parallel_copy, nir_instr,
nir_parallel_copy_instr, instr)
/*
* Control flow
*
* Control flow consists of a tree of control flow nodes, which include
* if-statements and loops. The leaves of the tree are basic blocks, lists of
* instructions that always run start-to-finish. Each basic block also keeps
* track of its successors (blocks which may run immediately after the current
* block) and predecessors (blocks which could have run immediately before the
* current block). Each function also has a start block and an end block which
* all return statements point to (which is always empty). Together, all the
* blocks with their predecessors and successors make up the control flow
* graph (CFG) of the function. There are helpers that modify the tree of
* control flow nodes while modifying the CFG appropriately; these should be
* used instead of modifying the tree directly.
*/
typedef enum {
nir_cf_node_block,
nir_cf_node_if,
nir_cf_node_loop,
nir_cf_node_function
} nir_cf_node_type;
typedef struct nir_cf_node {
struct exec_node node;
nir_cf_node_type type;
struct nir_cf_node *parent;
} nir_cf_node;
typedef struct nir_block {
nir_cf_node cf_node;
struct exec_list instr_list; /** < list of nir_instr */
/** generic block index; generated by nir_index_blocks */
unsigned index;
/*
* Each block can only have up to 2 successors, so we put them in a simple
* array - no need for anything more complicated.
*/
struct nir_block *successors[2];
/* Set of nir_block predecessors in the CFG */
struct set *predecessors;
/*
* this node's immediate dominator in the dominance tree - set to NULL for
* the start block.
*/
struct nir_block *imm_dom;
/* This node's children in the dominance tree */
unsigned num_dom_children;
struct nir_block **dom_children;
/* Set of nir_block's on the dominance frontier of this block */
struct set *dom_frontier;
/*
* These two indices have the property that dom_{pre,post}_index for each
* child of this block in the dominance tree will always be between
* dom_pre_index and dom_post_index for this block, which makes testing if
* a given block is dominated by another block an O(1) operation.
*/
unsigned dom_pre_index, dom_post_index;
/* live in and out for this block; used for liveness analysis */
BITSET_WORD *live_in;
BITSET_WORD *live_out;
} nir_block;
static inline nir_instr *
nir_block_first_instr(nir_block *block)
{
struct exec_node *head = exec_list_get_head(&block->instr_list);
return exec_node_data(nir_instr, head, node);
}
static inline nir_instr *
nir_block_last_instr(nir_block *block)
{
struct exec_node *tail = exec_list_get_tail(&block->instr_list);
return exec_node_data(nir_instr, tail, node);
}
#define nir_foreach_instr(block, instr) \
foreach_list_typed(nir_instr, instr, node, &(block)->instr_list)
#define nir_foreach_instr_reverse(block, instr) \
foreach_list_typed_reverse(nir_instr, instr, node, &(block)->instr_list)
#define nir_foreach_instr_safe(block, instr) \
foreach_list_typed_safe(nir_instr, instr, node, &(block)->instr_list)
typedef struct nir_if {
nir_cf_node cf_node;
nir_src condition;
struct exec_list then_list; /** < list of nir_cf_node */
struct exec_list else_list; /** < list of nir_cf_node */
} nir_if;
static inline nir_cf_node *
nir_if_first_then_node(nir_if *if_stmt)
{
struct exec_node *head = exec_list_get_head(&if_stmt->then_list);
return exec_node_data(nir_cf_node, head, node);
}
static inline nir_cf_node *
nir_if_last_then_node(nir_if *if_stmt)
{
struct exec_node *tail = exec_list_get_tail(&if_stmt->then_list);
return exec_node_data(nir_cf_node, tail, node);
}
static inline nir_cf_node *
nir_if_first_else_node(nir_if *if_stmt)
{
struct exec_node *head = exec_list_get_head(&if_stmt->else_list);
return exec_node_data(nir_cf_node, head, node);
}
static inline nir_cf_node *
nir_if_last_else_node(nir_if *if_stmt)
{
struct exec_node *tail = exec_list_get_tail(&if_stmt->else_list);
return exec_node_data(nir_cf_node, tail, node);
}
typedef struct {
nir_cf_node cf_node;
struct exec_list body; /** < list of nir_cf_node */
} nir_loop;
static inline nir_cf_node *
nir_loop_first_cf_node(nir_loop *loop)
{
return exec_node_data(nir_cf_node, exec_list_get_head(&loop->body), node);
}
static inline nir_cf_node *
nir_loop_last_cf_node(nir_loop *loop)
{
return exec_node_data(nir_cf_node, exec_list_get_tail(&loop->body), node);
}
/**
* Various bits of metadata that can may be created or required by
* optimization and analysis passes
*/
typedef enum {
nir_metadata_none = 0x0,
nir_metadata_block_index = 0x1,
nir_metadata_dominance = 0x2,
nir_metadata_live_variables = 0x4,
} nir_metadata;
typedef struct {
nir_cf_node cf_node;
/** pointer to the overload of which this is an implementation */
struct nir_function_overload *overload;
struct exec_list body; /** < list of nir_cf_node */
nir_block *start_block, *end_block;
/** list for all local variables in the function */
struct exec_list locals;
/** array of variables used as parameters */
unsigned num_params;
nir_variable **params;
/** variable used to hold the result of the function */
nir_variable *return_var;
/** list of local registers in the function */
struct exec_list registers;
/** next available local register index */
unsigned reg_alloc;
/** next available SSA value index */
unsigned ssa_alloc;
/* total number of basic blocks, only valid when block_index_dirty = false */
unsigned num_blocks;
nir_metadata valid_metadata;
} nir_function_impl;
static inline nir_cf_node *
nir_cf_node_next(nir_cf_node *node)
{
struct exec_node *next = exec_node_get_next(&node->node);
if (exec_node_is_tail_sentinel(next))
return NULL;
else
return exec_node_data(nir_cf_node, next, node);
}
static inline nir_cf_node *
nir_cf_node_prev(nir_cf_node *node)
{
struct exec_node *prev = exec_node_get_prev(&node->node);
if (exec_node_is_head_sentinel(prev))
return NULL;
else
return exec_node_data(nir_cf_node, prev, node);
}
static inline bool
nir_cf_node_is_first(const nir_cf_node *node)
{
return exec_node_is_head_sentinel(node->node.prev);
}
static inline bool
nir_cf_node_is_last(const nir_cf_node *node)
{
return exec_node_is_tail_sentinel(node->node.next);
}
NIR_DEFINE_CAST(nir_cf_node_as_block, nir_cf_node, nir_block, cf_node)
NIR_DEFINE_CAST(nir_cf_node_as_if, nir_cf_node, nir_if, cf_node)
NIR_DEFINE_CAST(nir_cf_node_as_loop, nir_cf_node, nir_loop, cf_node)
NIR_DEFINE_CAST(nir_cf_node_as_function, nir_cf_node, nir_function_impl, cf_node)
typedef enum {
nir_parameter_in,
nir_parameter_out,
nir_parameter_inout,
} nir_parameter_type;
typedef struct {
nir_parameter_type param_type;
const struct glsl_type *type;
} nir_parameter;
typedef struct nir_function_overload {
struct exec_node node;
unsigned num_params;
nir_parameter *params;
const struct glsl_type *return_type;
nir_function_impl *impl; /** < NULL if the overload is only declared yet */
/** pointer to the function of which this is an overload */
struct nir_function *function;
} nir_function_overload;
typedef struct nir_function {
struct exec_node node;
struct exec_list overload_list; /** < list of nir_function_overload */
const char *name;
struct nir_shader *shader;
} nir_function;
#define nir_function_first_overload(func) \
exec_node_data(nir_function_overload, \
exec_list_get_head(&(func)->overload_list), node)
typedef struct nir_shader_compiler_options {
bool lower_ffma;
bool lower_flrp;
bool lower_fpow;
bool lower_fsat;
bool lower_fsqrt;
/** lowers fneg and ineg to fsub and isub. */
bool lower_negate;
/** lowers fsub and isub to fadd+fneg and iadd+ineg. */
bool lower_sub;
/* lower {slt,sge,seq,sne} to {flt,fge,feq,fne} + b2f: */
bool lower_scmp;
/**
* Does the driver support real 32-bit integers? (Otherwise, integers
* are simulated by floats.)
*/
bool native_integers;
} nir_shader_compiler_options;
typedef struct nir_shader {
/** hash table of name -> uniform nir_variable */
struct exec_list uniforms;
/** hash table of name -> input nir_variable */
struct exec_list inputs;
/** hash table of name -> output nir_variable */
struct exec_list outputs;
/** Set of driver-specific options for the shader.
*
* The memory for the options is expected to be kept in a single static
* copy by the driver.
*/
const struct nir_shader_compiler_options *options;
/** list of global variables in the shader */
struct exec_list globals;
/** list of system value variables in the shader */
struct exec_list system_values;
struct exec_list functions; /** < list of nir_function */
/** list of global register in the shader */
struct exec_list registers;
/** next available global register index */
unsigned reg_alloc;
/**
* the highest index a load_input_*, load_uniform_*, etc. intrinsic can
* access plus one
*/
unsigned num_inputs, num_uniforms, num_outputs;
/** the number of uniforms that are only accessed directly */
unsigned num_direct_uniforms;
} nir_shader;
#define nir_foreach_overload(shader, overload) \
foreach_list_typed(nir_function, func, node, &(shader)->functions) \
foreach_list_typed(nir_function_overload, overload, node, \
&(func)->overload_list)
nir_shader *nir_shader_create(void *mem_ctx,
const nir_shader_compiler_options *options);
/** creates a register, including assigning it an index and adding it to the list */
nir_register *nir_global_reg_create(nir_shader *shader);
nir_register *nir_local_reg_create(nir_function_impl *impl);
void nir_reg_remove(nir_register *reg);
/** creates a function and adds it to the shader's list of functions */
nir_function *nir_function_create(nir_shader *shader, const char *name);
/** creates a null function returning null */
nir_function_overload *nir_function_overload_create(nir_function *func);
nir_function_impl *nir_function_impl_create(nir_function_overload *func);
nir_block *nir_block_create(void *mem_ctx);
nir_if *nir_if_create(void *mem_ctx);
nir_loop *nir_loop_create(void *mem_ctx);
nir_function_impl *nir_cf_node_get_function(nir_cf_node *node);
/** puts a control flow node immediately after another control flow node */
void nir_cf_node_insert_after(nir_cf_node *node, nir_cf_node *after);
/** puts a control flow node immediately before another control flow node */
void nir_cf_node_insert_before(nir_cf_node *node, nir_cf_node *before);
/** puts a control flow node at the beginning of a list from an if, loop, or function */
void nir_cf_node_insert_begin(struct exec_list *list, nir_cf_node *node);
/** puts a control flow node at the end of a list from an if, loop, or function */
void nir_cf_node_insert_end(struct exec_list *list, nir_cf_node *node);
/** removes a control flow node, doing any cleanup necessary */
void nir_cf_node_remove(nir_cf_node *node);
/** removes everything after the given control flow node */
void nir_cf_node_remove_after(nir_cf_node *node);
/** requests that the given pieces of metadata be generated */
void nir_metadata_require(nir_function_impl *impl, nir_metadata required);
/** dirties all but the preserved metadata */
void nir_metadata_preserve(nir_function_impl *impl, nir_metadata preserved);
/** creates an instruction with default swizzle/writemask/etc. with NULL registers */
nir_alu_instr *nir_alu_instr_create(nir_shader *shader, nir_op op);
nir_jump_instr *nir_jump_instr_create(nir_shader *shader, nir_jump_type type);
nir_load_const_instr *nir_load_const_instr_create(nir_shader *shader,
unsigned num_components);
nir_intrinsic_instr *nir_intrinsic_instr_create(nir_shader *shader,
nir_intrinsic_op op);
nir_call_instr *nir_call_instr_create(nir_shader *shader,
nir_function_overload *callee);
nir_tex_instr *nir_tex_instr_create(nir_shader *shader, unsigned num_srcs);
nir_phi_instr *nir_phi_instr_create(nir_shader *shader);
nir_parallel_copy_instr *nir_parallel_copy_instr_create(nir_shader *shader);
nir_ssa_undef_instr *nir_ssa_undef_instr_create(nir_shader *shader,
unsigned num_components);
nir_deref_var *nir_deref_var_create(void *mem_ctx, nir_variable *var);
nir_deref_array *nir_deref_array_create(void *mem_ctx);
nir_deref_struct *nir_deref_struct_create(void *mem_ctx, unsigned field_index);
nir_deref *nir_copy_deref(void *mem_ctx, nir_deref *deref);
nir_load_const_instr *
nir_deref_get_const_initializer_load(nir_shader *shader, nir_deref_var *deref);
void nir_instr_insert_before(nir_instr *instr, nir_instr *before);
void nir_instr_insert_after(nir_instr *instr, nir_instr *after);
void nir_instr_insert_before_block(nir_block *block, nir_instr *before);
void nir_instr_insert_after_block(nir_block *block, nir_instr *after);
void nir_instr_insert_before_cf(nir_cf_node *node, nir_instr *before);
void nir_instr_insert_after_cf(nir_cf_node *node, nir_instr *after);
void nir_instr_insert_before_cf_list(struct exec_list *list, nir_instr *before);
void nir_instr_insert_after_cf_list(struct exec_list *list, nir_instr *after);
void nir_instr_remove(nir_instr *instr);
typedef bool (*nir_foreach_ssa_def_cb)(nir_ssa_def *def, void *state);
typedef bool (*nir_foreach_dest_cb)(nir_dest *dest, void *state);
typedef bool (*nir_foreach_src_cb)(nir_src *src, void *state);
bool nir_foreach_ssa_def(nir_instr *instr, nir_foreach_ssa_def_cb cb,
void *state);
bool nir_foreach_dest(nir_instr *instr, nir_foreach_dest_cb cb, void *state);
bool nir_foreach_src(nir_instr *instr, nir_foreach_src_cb cb, void *state);
nir_const_value *nir_src_as_const_value(nir_src src);
bool nir_srcs_equal(nir_src src1, nir_src src2);
void nir_instr_rewrite_src(nir_instr *instr, nir_src *src, nir_src new_src);
void nir_instr_move_src(nir_instr *dest_instr, nir_src *dest, nir_src *src);
void nir_if_rewrite_condition(nir_if *if_stmt, nir_src new_src);
void nir_ssa_dest_init(nir_instr *instr, nir_dest *dest,
unsigned num_components, const char *name);
void nir_ssa_def_init(nir_instr *instr, nir_ssa_def *def,
unsigned num_components, const char *name);
void nir_ssa_def_rewrite_uses(nir_ssa_def *def, nir_src new_src, void *mem_ctx);
/* visits basic blocks in source-code order */
typedef bool (*nir_foreach_block_cb)(nir_block *block, void *state);
bool nir_foreach_block(nir_function_impl *impl, nir_foreach_block_cb cb,
void *state);
bool nir_foreach_block_reverse(nir_function_impl *impl, nir_foreach_block_cb cb,
void *state);
/* If the following CF node is an if, this function returns that if.
* Otherwise, it returns NULL.
*/
nir_if *nir_block_get_following_if(nir_block *block);
void nir_index_local_regs(nir_function_impl *impl);
void nir_index_global_regs(nir_shader *shader);
void nir_index_ssa_defs(nir_function_impl *impl);
void nir_index_blocks(nir_function_impl *impl);
void nir_print_shader(nir_shader *shader, FILE *fp);
void nir_print_instr(const nir_instr *instr, FILE *fp);
#ifdef DEBUG
void nir_validate_shader(nir_shader *shader);
#else
static inline void nir_validate_shader(nir_shader *shader) { (void) shader; }
#endif /* DEBUG */
void nir_calc_dominance_impl(nir_function_impl *impl);
void nir_calc_dominance(nir_shader *shader);
nir_block *nir_dominance_lca(nir_block *b1, nir_block *b2);
bool nir_block_dominates(nir_block *parent, nir_block *child);
void nir_dump_dom_tree_impl(nir_function_impl *impl, FILE *fp);
void nir_dump_dom_tree(nir_shader *shader, FILE *fp);
void nir_dump_dom_frontier_impl(nir_function_impl *impl, FILE *fp);
void nir_dump_dom_frontier(nir_shader *shader, FILE *fp);
void nir_dump_cfg_impl(nir_function_impl *impl, FILE *fp);
void nir_dump_cfg(nir_shader *shader, FILE *fp);
void nir_split_var_copies(nir_shader *shader);
void nir_lower_var_copy_instr(nir_intrinsic_instr *copy, void *mem_ctx);
void nir_lower_var_copies(nir_shader *shader);
void nir_lower_global_vars_to_local(nir_shader *shader);
void nir_lower_locals_to_regs(nir_shader *shader);
void nir_assign_var_locations_scalar(struct exec_list *var_list,
unsigned *size);
void nir_assign_var_locations_scalar_direct_first(nir_shader *shader,
struct exec_list *var_list,
unsigned *direct_size,
unsigned *size);
void nir_lower_io(nir_shader *shader);
void nir_lower_vars_to_ssa(nir_shader *shader);
void nir_remove_dead_variables(nir_shader *shader);
void nir_lower_vec_to_movs(nir_shader *shader);
void nir_lower_alu_to_scalar(nir_shader *shader);
void nir_lower_phis_to_scalar(nir_shader *shader);
void nir_lower_samplers(nir_shader *shader,
const struct gl_shader_program *shader_program,
gl_shader_stage stage);
void nir_lower_system_values(nir_shader *shader);
void nir_lower_tex_projector(nir_shader *shader);
void nir_lower_idiv(nir_shader *shader);
void nir_lower_atomics(nir_shader *shader);
void nir_lower_to_source_mods(nir_shader *shader);
void nir_normalize_cubemap_coords(nir_shader *shader);
void nir_live_variables_impl(nir_function_impl *impl);
bool nir_ssa_defs_interfere(nir_ssa_def *a, nir_ssa_def *b);
void nir_convert_to_ssa_impl(nir_function_impl *impl);
void nir_convert_to_ssa(nir_shader *shader);
void nir_convert_from_ssa(nir_shader *shader);
bool nir_opt_algebraic(nir_shader *shader);
bool nir_opt_algebraic_late(nir_shader *shader);
bool nir_opt_constant_folding(nir_shader *shader);
bool nir_opt_global_to_local(nir_shader *shader);
bool nir_copy_prop_impl(nir_function_impl *impl);
bool nir_copy_prop(nir_shader *shader);
bool nir_opt_cse(nir_shader *shader);
bool nir_opt_dce_impl(nir_function_impl *impl);
bool nir_opt_dce(nir_shader *shader);
void nir_opt_gcm(nir_shader *shader);
bool nir_opt_peephole_select(nir_shader *shader);
bool nir_opt_peephole_ffma(nir_shader *shader);
bool nir_opt_remove_phis(nir_shader *shader);
void nir_sweep(nir_shader *shader);
#ifdef __cplusplus
} /* extern "C" */
#endif
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