From: Caio Oliveira Date: Sun, 3 Sep 2023 01:09:17 +0000 (-0700) Subject: compiler/types: Flip wrapping of remaining non-trivial type getters X-Git-Tag: upstream/23.3.3~398 X-Git-Url: http://review.tizen.org/git/?a=commitdiff_plain;h=922fe24739939f1b8d5fbe680e116777fb218fcf;p=platform%2Fupstream%2Fmesa.git compiler/types: Flip wrapping of remaining non-trivial type getters Reviewed-by: Kenneth Graunke Part-of: --- diff --git a/src/compiler/glsl_types.cpp b/src/compiler/glsl_types.cpp index 4b21c00..2835b27 100644 --- a/src/compiler/glsl_types.cpp +++ b/src/compiler/glsl_types.cpp @@ -2690,53 +2690,54 @@ explicit_type_scalar_byte_size(const struct glsl_type *type) * - overrides any struct field offsets but get_explicit_std430_type() tries to * respect any existing ones */ -const struct glsl_type * -glsl_type::get_explicit_type_for_size_align(glsl_type_size_align_func type_info, - unsigned *size, unsigned *alignment) const +extern "C" const struct glsl_type * +glsl_get_explicit_type_for_size_align(const struct glsl_type *t, + glsl_type_size_align_func type_info, + unsigned *size, unsigned *alignment) { - if (this->is_image() || this->is_sampler()) { - type_info(this, size, alignment); + if (t->is_image() || t->is_sampler()) { + type_info(t, size, alignment); assert(*alignment > 0); - return this; - } else if (this->is_cmat()) { + return t; + } else if (t->is_cmat()) { *size = 0; *alignment = 0; - return this; - } else if (this->is_scalar()) { - type_info(this, size, alignment); - assert(*size == explicit_type_scalar_byte_size(this)); - assert(*alignment == explicit_type_scalar_byte_size(this)); - return this; - } else if (this->is_vector()) { - type_info(this, size, alignment); + return t; + } else if (t->is_scalar()) { + type_info(t, size, alignment); + assert(*size == explicit_type_scalar_byte_size(t)); + assert(*alignment == explicit_type_scalar_byte_size(t)); + return t; + } else if (t->is_vector()) { + type_info(t, size, alignment); assert(*alignment > 0); - assert(*alignment % explicit_type_scalar_byte_size(this) == 0); - return glsl_type::get_instance(this->base_type, this->vector_elements, + assert(*alignment % explicit_type_scalar_byte_size(t) == 0); + return glsl_type::get_instance(t->base_type, t->vector_elements, 1, 0, false, *alignment); - } else if (this->is_array()) { + } else if (t->is_array()) { unsigned elem_size, elem_align; const struct glsl_type *explicit_element = - this->fields.array->get_explicit_type_for_size_align(type_info, &elem_size, &elem_align); + t->fields.array->get_explicit_type_for_size_align(type_info, &elem_size, &elem_align); unsigned stride = align(elem_size, elem_align); - *size = stride * (this->length - 1) + elem_size; + *size = stride * (t->length - 1) + elem_size; *alignment = elem_align; - return glsl_type::get_array_instance(explicit_element, this->length, stride); - } else if (this->is_struct() || this->is_interface()) { + return glsl_type::get_array_instance(explicit_element, t->length, stride); + } else if (t->is_struct() || t->is_interface()) { struct glsl_struct_field *fields = (struct glsl_struct_field *) - malloc(sizeof(struct glsl_struct_field) * this->length); + malloc(sizeof(struct glsl_struct_field) * t->length); *size = 0; *alignment = 1; - for (unsigned i = 0; i < this->length; i++) { - fields[i] = this->fields.structure[i]; + for (unsigned i = 0; i < t->length; i++) { + fields[i] = t->fields.structure[i]; assert(fields[i].matrix_layout != GLSL_MATRIX_LAYOUT_ROW_MAJOR); unsigned field_size, field_align; fields[i].type = fields[i].type->get_explicit_type_for_size_align(type_info, &field_size, &field_align); - field_align = this->packed ? 1 : field_align; + field_align = t->packed ? 1 : field_align; fields[i].offset = align(*size, field_align); *size = fields[i].offset + field_size; @@ -2754,94 +2755,94 @@ glsl_type::get_explicit_type_for_size_align(glsl_type_size_align_func type_info, *size = align(*size, *alignment); const struct glsl_type *type; - if (this->is_struct()) { - type = get_struct_instance(fields, this->length, glsl_get_type_name(this), - this->packed, *alignment); + if (t->is_struct()) { + type = glsl_type::get_struct_instance(fields, t->length, glsl_get_type_name(t), + t->packed, *alignment); } else { - assert(!this->packed); - type = get_interface_instance(fields, this->length, - (enum glsl_interface_packing)this->interface_packing, - this->interface_row_major, - glsl_get_type_name(this)); + assert(!t->packed); + type = glsl_type::get_interface_instance(fields, t->length, + (enum glsl_interface_packing)t->interface_packing, + t->interface_row_major, + glsl_get_type_name(t)); } free(fields); return type; - } else if (this->is_matrix()) { + } else if (t->is_matrix()) { unsigned col_size, col_align; - type_info(this->column_type(), &col_size, &col_align); + type_info(t->column_type(), &col_size, &col_align); unsigned stride = align(col_size, col_align); - *size = this->matrix_columns * stride; + *size = t->matrix_columns * stride; /* Matrix and column alignments match. See glsl_type::column_type() */ assert(col_align > 0); *alignment = col_align; - return glsl_type::get_instance(this->base_type, this->vector_elements, - this->matrix_columns, stride, false, *alignment); + return glsl_type::get_instance(t->base_type, t->vector_elements, + t->matrix_columns, stride, false, *alignment); } else { unreachable("Unhandled type."); } } -const struct glsl_type * -glsl_type::replace_vec3_with_vec4() const +extern "C" const struct glsl_type * +glsl_type_replace_vec3_with_vec4(const struct glsl_type *t) { - if (this->is_scalar() || this->is_vector() || this->is_matrix()) { - if (this->interface_row_major) { - if (this->matrix_columns == 3) { - return glsl_type::get_instance(this->base_type, - this->vector_elements, + if (t->is_scalar() || t->is_vector() || t->is_matrix()) { + if (t->interface_row_major) { + if (t->matrix_columns == 3) { + return glsl_type::get_instance(t->base_type, + t->vector_elements, 4, /* matrix columns */ - this->explicit_stride, - this->interface_row_major, - this->explicit_alignment); + t->explicit_stride, + t->interface_row_major, + t->explicit_alignment); } else { - return this; + return t; } } else { - if (this->vector_elements == 3) { - return glsl_type::get_instance(this->base_type, + if (t->vector_elements == 3) { + return glsl_type::get_instance(t->base_type, 4, /* vector elements */ - this->matrix_columns, - this->explicit_stride, - this->interface_row_major, - this->explicit_alignment); + t->matrix_columns, + t->explicit_stride, + t->interface_row_major, + t->explicit_alignment); } else { - return this; + return t; } } - } else if (this->is_array()) { + } else if (t->is_array()) { const struct glsl_type *vec4_elem_type = - this->fields.array->replace_vec3_with_vec4(); - if (vec4_elem_type == this->fields.array) - return this; + t->fields.array->replace_vec3_with_vec4(); + if (vec4_elem_type == t->fields.array) + return t; return glsl_type::get_array_instance(vec4_elem_type, - this->length, - this->explicit_stride); - } else if (this->is_struct() || this->is_interface()) { + t->length, + t->explicit_stride); + } else if (t->is_struct() || t->is_interface()) { struct glsl_struct_field *fields = (struct glsl_struct_field *) - malloc(sizeof(struct glsl_struct_field) * this->length); + malloc(sizeof(struct glsl_struct_field) * t->length); bool needs_new_type = false; - for (unsigned i = 0; i < this->length; i++) { - fields[i] = this->fields.structure[i]; + for (unsigned i = 0; i < t->length; i++) { + fields[i] = t->fields.structure[i]; assert(fields[i].matrix_layout != GLSL_MATRIX_LAYOUT_ROW_MAJOR); fields[i].type = fields[i].type->replace_vec3_with_vec4(); - if (fields[i].type != this->fields.structure[i].type) + if (fields[i].type != t->fields.structure[i].type) needs_new_type = true; } const struct glsl_type *type; if (!needs_new_type) { - type = this; - } else if (this->is_struct()) { - type = get_struct_instance(fields, this->length, glsl_get_type_name(this), - this->packed, this->explicit_alignment); + type = t; + } else if (t->is_struct()) { + type = glsl_type::get_struct_instance(fields, t->length, glsl_get_type_name(t), + t->packed, t->explicit_alignment); } else { - assert(!this->packed); - type = get_interface_instance(fields, this->length, - (enum glsl_interface_packing)this->interface_packing, - this->interface_row_major, - glsl_get_type_name(this)); + assert(!t->packed); + type = glsl_type::get_interface_instance(fields, t->length, + (enum glsl_interface_packing)t->interface_packing, + t->interface_row_major, + glsl_get_type_name(t)); } free(fields); return type; diff --git a/src/compiler/glsl_types_impl.h b/src/compiler/glsl_types_impl.h index ca0679d..c4c3719 100644 --- a/src/compiler/glsl_types_impl.h +++ b/src/compiler/glsl_types_impl.h @@ -152,6 +152,15 @@ glsl_type::get_subroutine_instance(const char *subroutine_name) return glsl_subroutine_type(subroutine_name); } +inline const glsl_type * +glsl_type::get_explicit_type_for_size_align(glsl_type_size_align_func type_info, + unsigned *size, unsigned *align) const +{ + return glsl_get_explicit_type_for_size_align(this, type_info, size, align); +} + +inline const glsl_type *glsl_type::replace_vec3_with_vec4() const { return glsl_type_replace_vec3_with_vec4(this); } + inline bool glsl_type::is_integer_16() const { diff --git a/src/compiler/nir_types.cpp b/src/compiler/nir_types.cpp index a285a35..664e27a 100644 --- a/src/compiler/nir_types.cpp +++ b/src/compiler/nir_types.cpp @@ -403,18 +403,3 @@ glsl_type_get_image_count(const struct glsl_type *type) { return glsl_type_count(type, GLSL_TYPE_IMAGE); } - -const struct glsl_type * -glsl_get_explicit_type_for_size_align(const struct glsl_type *type, - glsl_type_size_align_func type_info, - unsigned *size, unsigned *align) -{ - return type->get_explicit_type_for_size_align(type_info, size, align); -} - -const struct glsl_type * -glsl_type_replace_vec3_with_vec4(const struct glsl_type *type) -{ - return type->replace_vec3_with_vec4(); -} -