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/*
* Copyright © 2015 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:
* Jason Ekstrand (jason@jlekstrand.net)
*
*/
#ifndef _VTN_PRIVATE_H_
#define _VTN_PRIVATE_H_
#include <setjmp.h>
#include "nir/nir.h"
#include "nir/nir_builder.h"
#include "util/u_dynarray.h"
#include "nir_spirv.h"
#include "spirv.h"
struct vtn_builder;
struct vtn_decoration;
void vtn_log(struct vtn_builder *b, enum nir_spirv_debug_level level,
size_t spirv_offset, const char *message);
void vtn_logf(struct vtn_builder *b, enum nir_spirv_debug_level level,
size_t spirv_offset, const char *fmt, ...) PRINTFLIKE(4, 5);
#define vtn_info(...) vtn_logf(b, NIR_SPIRV_DEBUG_LEVEL_INFO, 0, __VA_ARGS__)
void _vtn_warn(struct vtn_builder *b, const char *file, unsigned line,
const char *fmt, ...) PRINTFLIKE(4, 5);
#define vtn_warn(...) _vtn_warn(b, __FILE__, __LINE__, __VA_ARGS__)
/** Fail SPIR-V parsing
*
* This function logs an error and then bails out of the shader compile using
* longjmp. This being safe relies on two things:
*
* 1) We must guarantee that setjmp is called after allocating the builder
* and setting up b->debug (so that logging works) but before before any
* errors have a chance to occur.
*
* 2) While doing the SPIR-V -> NIR conversion, we need to be careful to
* ensure that all heap allocations happen through ralloc and are parented
* to the builder. This way they will get properly cleaned up on error.
*
* 3) We must ensure that _vtn_fail is never called while a mutex lock or a
* reference to any other resource is held with the exception of ralloc
* objects which are parented to the builder.
*
* So long as these two things continue to hold, we can easily longjmp back to
* spirv_to_nir(), clean up the builder, and return NULL.
*/
void _vtn_fail(struct vtn_builder *b, const char *file, unsigned line,
const char *fmt, ...) NORETURN PRINTFLIKE(4, 5);
#define vtn_fail(...) _vtn_fail(b, __FILE__, __LINE__, __VA_ARGS__)
/** Fail if the given expression evaluates to true */
#define vtn_fail_if(expr, ...) \
do { \
if (unlikely(expr)) \
vtn_fail(__VA_ARGS__); \
} while (0)
/** Assert that a condition is true and, if it isn't, vtn_fail
*
* This macro is transitional only and should not be used in new code. Use
* vtn_fail_if and provide a real message instead.
*/
#define vtn_assert(expr) \
do { \
if (!likely(expr)) \
vtn_fail("%s", #expr); \
} while (0)
enum vtn_value_type {
vtn_value_type_invalid = 0,
vtn_value_type_undef,
vtn_value_type_string,
vtn_value_type_decoration_group,
vtn_value_type_type,
vtn_value_type_constant,
vtn_value_type_pointer,
vtn_value_type_function,
vtn_value_type_block,
vtn_value_type_ssa,
vtn_value_type_extension,
vtn_value_type_image_pointer,
vtn_value_type_sampled_image,
};
enum vtn_branch_type {
vtn_branch_type_none,
vtn_branch_type_switch_break,
vtn_branch_type_switch_fallthrough,
vtn_branch_type_loop_break,
vtn_branch_type_loop_continue,
vtn_branch_type_discard,
vtn_branch_type_return,
};
enum vtn_cf_node_type {
vtn_cf_node_type_block,
vtn_cf_node_type_if,
vtn_cf_node_type_loop,
vtn_cf_node_type_switch,
};
struct vtn_cf_node {
struct list_head link;
enum vtn_cf_node_type type;
};
struct vtn_loop {
struct vtn_cf_node node;
/* The main body of the loop */
struct list_head body;
/* The "continue" part of the loop. This gets executed after the body
* and is where you go when you hit a continue.
*/
struct list_head cont_body;
SpvLoopControlMask control;
};
struct vtn_if {
struct vtn_cf_node node;
uint32_t condition;
enum vtn_branch_type then_type;
struct list_head then_body;
enum vtn_branch_type else_type;
struct list_head else_body;
SpvSelectionControlMask control;
};
struct vtn_case {
struct list_head link;
struct list_head body;
/* The block that starts this case */
struct vtn_block *start_block;
/* The fallthrough case, if any */
struct vtn_case *fallthrough;
/* The uint32_t values that map to this case */
struct util_dynarray values;
/* True if this is the default case */
bool is_default;
/* Initialized to false; used when sorting the list of cases */
bool visited;
};
struct vtn_switch {
struct vtn_cf_node node;
uint32_t selector;
struct list_head cases;
};
struct vtn_block {
struct vtn_cf_node node;
/** A pointer to the label instruction */
const uint32_t *label;
/** A pointer to the merge instruction (or NULL if non exists) */
const uint32_t *merge;
/** A pointer to the branch instruction that ends this block */
const uint32_t *branch;
enum vtn_branch_type branch_type;
/** Points to the loop that this block starts (if it starts a loop) */
struct vtn_loop *loop;
/** Points to the switch case started by this block (if any) */
struct vtn_case *switch_case;
/** Every block ends in a nop intrinsic so that we can find it again */
nir_intrinsic_instr *end_nop;
};
struct vtn_function {
struct exec_node node;
bool referenced;
bool emitted;
nir_function_impl *impl;
struct vtn_block *start_block;
struct list_head body;
const uint32_t *end;
SpvFunctionControlMask control;
};
typedef bool (*vtn_instruction_handler)(struct vtn_builder *, uint32_t,
const uint32_t *, unsigned);
void vtn_build_cfg(struct vtn_builder *b, const uint32_t *words,
const uint32_t *end);
void vtn_function_emit(struct vtn_builder *b, struct vtn_function *func,
vtn_instruction_handler instruction_handler);
const uint32_t *
vtn_foreach_instruction(struct vtn_builder *b, const uint32_t *start,
const uint32_t *end, vtn_instruction_handler handler);
struct vtn_ssa_value {
union {
nir_ssa_def *def;
struct vtn_ssa_value **elems;
};
/* For matrices, if this is non-NULL, then this value is actually the
* transpose of some other value. The value that `transposed` points to
* always dominates this value.
*/
struct vtn_ssa_value *transposed;
const struct glsl_type *type;
};
enum vtn_base_type {
vtn_base_type_void,
vtn_base_type_scalar,
vtn_base_type_vector,
vtn_base_type_matrix,
vtn_base_type_array,
vtn_base_type_struct,
vtn_base_type_pointer,
vtn_base_type_image,
vtn_base_type_sampler,
vtn_base_type_sampled_image,
vtn_base_type_function,
};
struct vtn_type {
enum vtn_base_type base_type;
const struct glsl_type *type;
/* The SPIR-V id of the given type. */
uint32_t id;
/* Specifies the length of complex types.
*
* For Workgroup pointers, this is the size of the referenced type.
*/
unsigned length;
/* for arrays, matrices and pointers, the array stride */
unsigned stride;
union {
/* Members for scalar, vector, and array-like types */
struct {
/* for arrays, the vtn_type for the elements of the array */
struct vtn_type *array_element;
/* for matrices, whether the matrix is stored row-major */
bool row_major:1;
/* Whether this type, or a parent type, has been decorated as a
* builtin
*/
bool is_builtin:1;
/* Which built-in to use */
SpvBuiltIn builtin;
};
/* Members for struct types */
struct {
/* for structures, the vtn_type for each member */
struct vtn_type **members;
/* for structs, the offset of each member */
unsigned *offsets;
/* for structs, whether it was decorated as a "non-SSBO-like" block */
bool block:1;
/* for structs, whether it was decorated as an "SSBO-like" block */
bool buffer_block:1;
/* for structs with block == true, whether this is a builtin block
* (i.e. a block that contains only builtins).
*/
bool builtin_block:1;
};
/* Members for pointer types */
struct {
/* For pointers, the vtn_type for dereferenced type */
struct vtn_type *deref;
/* Storage class for pointers */
SpvStorageClass storage_class;
/* Required alignment for pointers */
uint32_t align;
};
/* Members for image types */
struct {
/* For images, indicates whether it's sampled or storage */
bool sampled;
/* Image format for image_load_store type images */
unsigned image_format;
/* Access qualifier for storage images */
SpvAccessQualifier access_qualifier;
};
/* Members for sampled image types */
struct {
/* For sampled images, the image type */
struct vtn_type *image;
};
/* Members for function types */
struct {
/* For functions, the vtn_type for each parameter */
struct vtn_type **params;
/* Return type for functions */
struct vtn_type *return_type;
};
};
};
bool vtn_types_compatible(struct vtn_builder *b,
struct vtn_type *t1, struct vtn_type *t2);
struct vtn_variable;
enum vtn_access_mode {
vtn_access_mode_id,
vtn_access_mode_literal,
};
struct vtn_access_link {
enum vtn_access_mode mode;
uint32_t id;
};
struct vtn_access_chain {
uint32_t length;
/** Whether or not to treat the base pointer as an array. This is only
* true if this access chain came from an OpPtrAccessChain.
*/
bool ptr_as_array;
/** Struct elements and array offsets.
*
* This is an array of 1 so that it can conveniently be created on the
* stack but the real length is given by the length field.
*/
struct vtn_access_link link[1];
};
enum vtn_variable_mode {
vtn_variable_mode_local,
vtn_variable_mode_global,
vtn_variable_mode_param,
vtn_variable_mode_ubo,
vtn_variable_mode_ssbo,
vtn_variable_mode_push_constant,
vtn_variable_mode_image,
vtn_variable_mode_sampler,
vtn_variable_mode_workgroup,
vtn_variable_mode_input,
vtn_variable_mode_output,
};
struct vtn_pointer {
/** The variable mode for the referenced data */
enum vtn_variable_mode mode;
/** The dereferenced type of this pointer */
struct vtn_type *type;
/** The pointer type of this pointer
*
* This may be NULL for some temporary pointers constructed as part of a
* large load, store, or copy. It MUST be valid for all pointers which are
* stored as SPIR-V SSA values.
*/
struct vtn_type *ptr_type;
/** The referenced variable, if known
*
* This field may be NULL if the pointer uses a (block_index, offset) pair
* instead of an access chain.
*/
struct vtn_variable *var;
/** An access chain describing how to get from var to the referenced data
*
* This field may be NULL if the pointer references the entire variable or
* if a (block_index, offset) pair is used instead of an access chain.
*/
struct vtn_access_chain *chain;
/** A (block_index, offset) pair representing a UBO or SSBO position. */
struct nir_ssa_def *block_index;
struct nir_ssa_def *offset;
};
struct vtn_variable {
enum vtn_variable_mode mode;
struct vtn_type *type;
unsigned descriptor_set;
unsigned binding;
unsigned input_attachment_index;
bool patch;
nir_variable *var;
nir_variable **members;
int shared_location;
/**
* In some early released versions of GLSLang, it implemented all function
* calls by making copies of all parameters into temporary variables and
* passing those variables into the function. It even did so for samplers
* and images which violates the SPIR-V spec. Unfortunately, two games
* (Talos Principle and Doom) shipped with this old version of GLSLang and
* also happen to pass samplers into functions. Talos Principle received
* an update fairly shortly after release with an updated GLSLang. Doom,
* on the other hand, has never received an update so we need to work
* around this GLSLang issue in SPIR-V -> NIR. Hopefully, we can drop this
* hack at some point in the future.
*/
struct vtn_pointer *copy_prop_sampler;
};
struct vtn_image_pointer {
struct vtn_pointer *image;
nir_ssa_def *coord;
nir_ssa_def *sample;
};
struct vtn_sampled_image {
struct vtn_type *type;
struct vtn_pointer *image; /* Image or array of images */
struct vtn_pointer *sampler; /* Sampler */
};
struct vtn_value {
enum vtn_value_type value_type;
const char *name;
struct vtn_decoration *decoration;
struct vtn_type *type;
union {
void *ptr;
char *str;
nir_constant *constant;
struct vtn_pointer *pointer;
struct vtn_image_pointer *image;
struct vtn_sampled_image *sampled_image;
struct vtn_function *func;
struct vtn_block *block;
struct vtn_ssa_value *ssa;
vtn_instruction_handler ext_handler;
};
};
#define VTN_DEC_DECORATION -1
#define VTN_DEC_EXECUTION_MODE -2
#define VTN_DEC_STRUCT_MEMBER0 0
struct vtn_decoration {
struct vtn_decoration *next;
/* Specifies how to apply this decoration. Negative values represent a
* decoration or execution mode. (See the VTN_DEC_ #defines above.)
* Non-negative values specify that it applies to a structure member.
*/
int scope;
const uint32_t *literals;
struct vtn_value *group;
union {
SpvDecoration decoration;
SpvExecutionMode exec_mode;
};
};
struct vtn_builder {
nir_builder nb;
/* Used by vtn_fail to jump back to the beginning of SPIR-V compilation */
jmp_buf fail_jump;
const uint32_t *spirv;
size_t spirv_word_count;
nir_shader *shader;
const struct spirv_to_nir_options *options;
struct vtn_block *block;
/* Current offset, file, line, and column. Useful for debugging. Set
* automatically by vtn_foreach_instruction.
*/
size_t spirv_offset;
char *file;
int line, col;
/*
* In SPIR-V, constants are global, whereas in NIR, the load_const
* instruction we use is per-function. So while we parse each function, we
* keep a hash table of constants we've resolved to nir_ssa_value's so
* far, and we lazily resolve them when we see them used in a function.
*/
struct hash_table *const_table;
/*
* Map from phi instructions (pointer to the start of the instruction)
* to the variable corresponding to it.
*/
struct hash_table *phi_table;
unsigned num_specializations;
struct nir_spirv_specialization *specializations;
unsigned value_id_bound;
struct vtn_value *values;
gl_shader_stage entry_point_stage;
const char *entry_point_name;
struct vtn_value *entry_point;
bool origin_upper_left;
bool pixel_center_integer;
struct vtn_function *func;
struct exec_list functions;
/* Current function parameter index */
unsigned func_param_idx;
bool has_loop_continue;
};
nir_ssa_def *
vtn_pointer_to_ssa(struct vtn_builder *b, struct vtn_pointer *ptr);
struct vtn_pointer *
vtn_pointer_from_ssa(struct vtn_builder *b, nir_ssa_def *ssa,
struct vtn_type *ptr_type);
static inline struct vtn_value *
vtn_untyped_value(struct vtn_builder *b, uint32_t value_id)
{
vtn_fail_if(value_id >= b->value_id_bound,
"SPIR-V id %u is out-of-bounds", value_id);
return &b->values[value_id];
}
static inline struct vtn_value *
vtn_push_value(struct vtn_builder *b, uint32_t value_id,
enum vtn_value_type value_type)
{
struct vtn_value *val = vtn_untyped_value(b, value_id);
vtn_fail_if(val->value_type != vtn_value_type_invalid,
"SPIR-V id %u has already been written by another instruction",
value_id);
val->value_type = value_type;
return &b->values[value_id];
}
static inline struct vtn_value *
vtn_push_ssa(struct vtn_builder *b, uint32_t value_id,
struct vtn_type *type, struct vtn_ssa_value *ssa)
{
struct vtn_value *val;
if (type->base_type == vtn_base_type_pointer) {
val = vtn_push_value(b, value_id, vtn_value_type_pointer);
val->pointer = vtn_pointer_from_ssa(b, ssa->def, type);
} else {
val = vtn_push_value(b, value_id, vtn_value_type_ssa);
val->ssa = ssa;
}
return val;
}
static inline struct vtn_value *
vtn_value(struct vtn_builder *b, uint32_t value_id,
enum vtn_value_type value_type)
{
struct vtn_value *val = vtn_untyped_value(b, value_id);
vtn_fail_if(val->value_type != value_type,
"SPIR-V id %u is the wrong kind of value", value_id);
return val;
}
bool
vtn_set_instruction_result_type(struct vtn_builder *b, SpvOp opcode,
const uint32_t *w, unsigned count);
static inline nir_constant *
vtn_constant_value(struct vtn_builder *b, uint32_t value_id)
{
return vtn_value(b, value_id, vtn_value_type_constant)->constant;
}
struct vtn_ssa_value *vtn_ssa_value(struct vtn_builder *b, uint32_t value_id);
struct vtn_ssa_value *vtn_create_ssa_value(struct vtn_builder *b,
const struct glsl_type *type);
struct vtn_ssa_value *vtn_ssa_transpose(struct vtn_builder *b,
struct vtn_ssa_value *src);
nir_ssa_def *vtn_vector_extract(struct vtn_builder *b, nir_ssa_def *src,
unsigned index);
nir_ssa_def *vtn_vector_extract_dynamic(struct vtn_builder *b, nir_ssa_def *src,
nir_ssa_def *index);
nir_ssa_def *vtn_vector_insert(struct vtn_builder *b, nir_ssa_def *src,
nir_ssa_def *insert, unsigned index);
nir_ssa_def *vtn_vector_insert_dynamic(struct vtn_builder *b, nir_ssa_def *src,
nir_ssa_def *insert, nir_ssa_def *index);
nir_deref_var *vtn_nir_deref(struct vtn_builder *b, uint32_t id);
struct vtn_pointer *vtn_pointer_for_variable(struct vtn_builder *b,
struct vtn_variable *var,
struct vtn_type *ptr_type);
nir_deref_var *vtn_pointer_to_deref(struct vtn_builder *b,
struct vtn_pointer *ptr);
nir_ssa_def *
vtn_pointer_to_offset(struct vtn_builder *b, struct vtn_pointer *ptr,
nir_ssa_def **index_out, unsigned *end_idx_out);
struct vtn_ssa_value *vtn_local_load(struct vtn_builder *b, nir_deref_var *src);
void vtn_local_store(struct vtn_builder *b, struct vtn_ssa_value *src,
nir_deref_var *dest);
struct vtn_ssa_value *
vtn_variable_load(struct vtn_builder *b, struct vtn_pointer *src);
void vtn_variable_store(struct vtn_builder *b, struct vtn_ssa_value *src,
struct vtn_pointer *dest);
void vtn_handle_variables(struct vtn_builder *b, SpvOp opcode,
const uint32_t *w, unsigned count);
typedef void (*vtn_decoration_foreach_cb)(struct vtn_builder *,
struct vtn_value *,
int member,
const struct vtn_decoration *,
void *);
void vtn_foreach_decoration(struct vtn_builder *b, struct vtn_value *value,
vtn_decoration_foreach_cb cb, void *data);
typedef void (*vtn_execution_mode_foreach_cb)(struct vtn_builder *,
struct vtn_value *,
const struct vtn_decoration *,
void *);
void vtn_foreach_execution_mode(struct vtn_builder *b, struct vtn_value *value,
vtn_execution_mode_foreach_cb cb, void *data);
nir_op vtn_nir_alu_op_for_spirv_opcode(struct vtn_builder *b,
SpvOp opcode, bool *swap,
unsigned src_bit_size, unsigned dst_bit_size);
void vtn_handle_alu(struct vtn_builder *b, SpvOp opcode,
const uint32_t *w, unsigned count);
void vtn_handle_subgroup(struct vtn_builder *b, SpvOp opcode,
const uint32_t *w, unsigned count);
bool vtn_handle_glsl450_instruction(struct vtn_builder *b, uint32_t ext_opcode,
const uint32_t *words, unsigned count);
struct vtn_builder* vtn_create_builder(const uint32_t *words, size_t word_count,
gl_shader_stage stage, const char *entry_point_name,
const struct spirv_to_nir_options *options);
void vtn_handle_entry_point(struct vtn_builder *b, const uint32_t *w,
unsigned count);
void vtn_handle_decoration(struct vtn_builder *b, SpvOp opcode,
const uint32_t *w, unsigned count);
static inline uint32_t
vtn_align_u32(uint32_t v, uint32_t a)
{
assert(a != 0 && a == (a & -((int32_t) a)));
return (v + a - 1) & ~(a - 1);
}
static inline uint64_t
vtn_u64_literal(const uint32_t *w)
{
return (uint64_t)w[1] << 32 | w[0];
}
bool vtn_handle_amd_gcn_shader_instruction(struct vtn_builder *b, uint32_t ext_opcode,
const uint32_t *words, unsigned count);
bool vtn_handle_amd_shader_trinary_minmax_instruction(struct vtn_builder *b, uint32_t ext_opcode,
const uint32_t *words, unsigned count);
#endif /* _VTN_PRIVATE_H_ */
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