/* * Copyright 2018 Collabora Ltd. * * 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 * on the rights to use, copy, modify, merge, publish, distribute, sub * license, 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 NON-INFRINGEMENT. IN NO EVENT SHALL * THE AUTHOR(S) AND/OR THEIR SUPPLIERS 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. */ #ifndef SPIRV_BUILDER_H #define SPIRV_BUILDER_H #include "compiler/spirv/spirv.h" #include "compiler/spirv/GLSL.std.450.h" #include #include #include struct hash_table; struct spirv_buffer { uint32_t *words; size_t num_words, room; }; struct spirv_builder { void *mem_ctx; struct spirv_buffer capabilities; struct spirv_buffer extensions; struct spirv_buffer imports; struct spirv_buffer memory_model; struct spirv_buffer entry_points; struct spirv_buffer exec_modes; struct spirv_buffer debug_names; struct spirv_buffer decorations; struct spirv_buffer types_const_defs; struct hash_table *types; struct hash_table *consts; struct spirv_buffer instructions; SpvId prev_id; }; static inline SpvId spirv_builder_new_id(struct spirv_builder *b) { return ++b->prev_id; } void spirv_builder_emit_cap(struct spirv_builder *b, SpvCapability cap); void spirv_builder_emit_extension(struct spirv_builder *b, const char *ext); void spirv_builder_emit_source(struct spirv_builder *b, SpvSourceLanguage lang, uint32_t version); void spirv_builder_emit_mem_model(struct spirv_builder *b, SpvAddressingModel addr_model, SpvMemoryModel mem_model); void spirv_builder_emit_name(struct spirv_builder *b, SpvId target, const char *name); void spirv_builder_emit_decoration(struct spirv_builder *b, SpvId target, SpvDecoration decoration); void spirv_builder_emit_location(struct spirv_builder *b, SpvId target, uint32_t location); void spirv_builder_emit_component(struct spirv_builder *b, SpvId target, uint32_t component); void spirv_builder_emit_builtin(struct spirv_builder *b, SpvId target, SpvBuiltIn builtin); void spirv_builder_emit_index(struct spirv_builder *b, SpvId target, int index); void spirv_builder_emit_descriptor_set(struct spirv_builder *b, SpvId target, uint32_t descriptor_set); void spirv_builder_emit_binding(struct spirv_builder *b, SpvId target, uint32_t binding); void spirv_builder_emit_array_stride(struct spirv_builder *b, SpvId target, uint32_t stride); void spirv_builder_emit_offset(struct spirv_builder *b, SpvId target, uint32_t offset); void spirv_builder_emit_xfb_buffer(struct spirv_builder *b, SpvId target, uint32_t buffer); void spirv_builder_emit_xfb_stride(struct spirv_builder *b, SpvId target, uint32_t stride); void spirv_builder_emit_member_offset(struct spirv_builder *b, SpvId target, uint32_t member, uint32_t offset); void spirv_builder_emit_entry_point(struct spirv_builder *b, SpvExecutionModel exec_model, SpvId entry_point, const char *name, const SpvId interfaces[], size_t num_interfaces); void spirv_builder_emit_exec_mode_literal(struct spirv_builder *b, SpvId entry_point, SpvExecutionMode exec_mode, uint32_t param); void spirv_builder_emit_exec_mode(struct spirv_builder *b, SpvId entry_point, SpvExecutionMode exec_mode); void spirv_builder_function(struct spirv_builder *b, SpvId result, SpvId return_type, SpvFunctionControlMask function_control, SpvId function_type); void spirv_builder_function_end(struct spirv_builder *b); void spirv_builder_label(struct spirv_builder *b, SpvId label); void spirv_builder_return(struct spirv_builder *b); SpvId spirv_builder_emit_undef(struct spirv_builder *b, SpvId result_type); SpvId spirv_builder_emit_load(struct spirv_builder *b, SpvId result_type, SpvId pointer); void spirv_builder_emit_store(struct spirv_builder *b, SpvId pointer, SpvId object); SpvId spirv_builder_emit_access_chain(struct spirv_builder *b, SpvId result_type, SpvId base, const SpvId indexes[], size_t num_indexes); SpvId spirv_builder_emit_unop(struct spirv_builder *b, SpvOp op, SpvId result_type, SpvId operand); SpvId spirv_builder_emit_binop(struct spirv_builder *b, SpvOp op, SpvId result_type, SpvId operand0, SpvId operand1); SpvId spirv_builder_emit_triop(struct spirv_builder *b, SpvOp op, SpvId result_type, SpvId operand0, SpvId operand1, SpvId operand2); SpvId spirv_builder_emit_quadop(struct spirv_builder *b, SpvOp op, SpvId result_type, SpvId operand0, SpvId operand1, SpvId operand2, SpvId operand3); SpvId spirv_builder_emit_composite_extract(struct spirv_builder *b, SpvId result_type, SpvId composite, const uint32_t indexes[], size_t num_indexes); SpvId spirv_builder_emit_composite_construct(struct spirv_builder *b, SpvId result_type, const SpvId constituents[], size_t num_constituents); SpvId spirv_builder_emit_vector_shuffle(struct spirv_builder *b, SpvId result_type, SpvId vector_1, SpvId vector_2, const uint32_t components[], size_t num_components); SpvId spirv_builder_emit_vector_extract(struct spirv_builder *b, SpvId result_type, SpvId vector_1, uint32_t component); SpvId spirv_builder_emit_vector_insert(struct spirv_builder *b, SpvId result_type, SpvId vector_1, SpvId component, uint32_t index); void spirv_builder_emit_branch(struct spirv_builder *b, SpvId label); void spirv_builder_emit_selection_merge(struct spirv_builder *b, SpvId merge_block, SpvSelectionControlMask selection_control); void spirv_builder_loop_merge(struct spirv_builder *b, SpvId merge_block, SpvId cont_target, SpvLoopControlMask loop_control); void spirv_builder_emit_branch_conditional(struct spirv_builder *b, SpvId condition, SpvId true_label, SpvId false_label); SpvId spirv_builder_emit_phi(struct spirv_builder *b, SpvId result_type, size_t num_vars, size_t *position); void spirv_builder_set_phi_operand(struct spirv_builder *b, size_t position, size_t index, SpvId variable, SpvId parent); void spirv_builder_emit_kill(struct spirv_builder *b); SpvId spirv_builder_emit_image_sample(struct spirv_builder *b, SpvId result_type, SpvId sampled_image, SpvId coordinate, bool proj, SpvId lod, SpvId bias, SpvId dref, SpvId dx, SpvId dy, SpvId offset); SpvId spirv_builder_emit_image(struct spirv_builder *b, SpvId result_type, SpvId sampled_image); SpvId spirv_builder_emit_image_fetch(struct spirv_builder *b, SpvId result_type, SpvId image, SpvId coordinate, SpvId lod, SpvId sample); SpvId spirv_builder_emit_image_query_size(struct spirv_builder *b, SpvId result_type, SpvId image, SpvId lod); SpvId spirv_builder_emit_image_query_lod(struct spirv_builder *b, SpvId result_type, SpvId image, SpvId coords); SpvId spirv_builder_emit_ext_inst(struct spirv_builder *b, SpvId result_type, SpvId set, uint32_t instruction, const SpvId args[], size_t num_args); SpvId spirv_builder_type_void(struct spirv_builder *b); SpvId spirv_builder_type_bool(struct spirv_builder *b); SpvId spirv_builder_type_int(struct spirv_builder *b, unsigned width); SpvId spirv_builder_type_uint(struct spirv_builder *b, unsigned width); SpvId spirv_builder_type_float(struct spirv_builder *b, unsigned width); SpvId spirv_builder_type_image(struct spirv_builder *b, SpvId sampled_type, SpvDim dim, bool depth, bool arrayed, bool ms, unsigned sampled, SpvImageFormat image_format); SpvId spirv_builder_type_sampled_image(struct spirv_builder *b, SpvId image_type); SpvId spirv_builder_type_pointer(struct spirv_builder *b, SpvStorageClass storage_class, SpvId type); SpvId spirv_builder_type_vector(struct spirv_builder *b, SpvId component_type, unsigned component_count); SpvId spirv_builder_type_matrix(struct spirv_builder *b, SpvId component_type, unsigned component_count); SpvId spirv_builder_type_array(struct spirv_builder *b, SpvId component_type, SpvId length); SpvId spirv_builder_type_struct(struct spirv_builder *b, const SpvId member_types[], size_t num_member_types); SpvId spirv_builder_type_function(struct spirv_builder *b, SpvId return_type, const SpvId parameter_types[], size_t num_parameter_types); SpvId spirv_builder_const_bool(struct spirv_builder *b, bool val); SpvId spirv_builder_const_int(struct spirv_builder *b, int width, int32_t val); SpvId spirv_builder_const_uint(struct spirv_builder *b, int width, uint32_t val); SpvId spirv_builder_const_float(struct spirv_builder *b, int width, float val); SpvId spirv_builder_const_composite(struct spirv_builder *b, SpvId result_type, const SpvId constituents[], size_t num_constituents); SpvId spirv_builder_emit_var(struct spirv_builder *b, SpvId type, SpvStorageClass storage_class); void spirv_builder_emit_memory_barrier(struct spirv_builder *b, SpvScope scope, SpvMemorySemanticsMask semantics); void spirv_builder_emit_control_barrier(struct spirv_builder *b, SpvScope scope, SpvScope mem_scope, SpvMemorySemanticsMask semantics); SpvId spirv_builder_import(struct spirv_builder *b, const char *name); size_t spirv_builder_get_num_words(struct spirv_builder *b); size_t spirv_builder_get_words(struct spirv_builder *b, uint32_t *words, size_t num_words); void spirv_builder_emit_vertex(struct spirv_builder *b); void spirv_builder_end_primitive(struct spirv_builder *b); #endif