/* * Copyright © Microsoft 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. */ #include "dxil_dump.h" #include "dxil_internal.h" #define DIXL_DUMP_DECL #include "dxil_dump_decls.h" #include "dxil_module.h" #include "util/string_buffer.h" #include "util/list.h" #include struct dxil_dumper { struct _mesa_string_buffer *buf; int current_indent; }; struct dxil_dumper *dxil_dump_create(void) { struct dxil_dumper *d = calloc(1, sizeof(struct dxil_dumper)); d->buf = _mesa_string_buffer_create(NULL, 1024); d->current_indent = 0; return d; } void dxil_dump_free(struct dxil_dumper *d) { _mesa_string_buffer_destroy(d->buf); d->buf = 0; free(d); } void dxil_dump_buf_to_file(struct dxil_dumper *d, FILE *f) { assert(f); assert(d); assert(d->buf); fprintf(f, "%s", d->buf->buf); } static void dxil_dump_indention_inc(struct dxil_dumper *d) { ++d->current_indent; } static void dxil_dump_indention_dec(struct dxil_dumper *d) { --d->current_indent; assert(d->current_indent >= 0); } static void dxil_dump_indent(struct dxil_dumper *d) { for (int i = 0; i < 2 * d->current_indent; ++i) _mesa_string_buffer_append_char(d->buf, ' '); } void dxil_dump_module(struct dxil_dumper *d, struct dxil_module *m) { assert(m); assert(d); _mesa_string_buffer_printf(d->buf, "DXIL MODULE:\n"); dump_metadata(d, m); dump_shader_info(d, &m->info); dump_types(d, &m->type_list); dump_gvars(d, &m->gvar_list); dump_funcs(d, &m->func_list); dump_attr_set_list(d, &m->attr_set_list); dump_constants(d, &m->const_list); dump_instrs(d, &m->instr_list); dump_mdnodes(d, &m->mdnode_list); dump_named_nodes(d, &m->md_named_node_list); dump_io_signatures(d->buf, m); dump_psv(d->buf, m); _mesa_string_buffer_printf(d->buf, "END DXIL MODULE\n"); } static void dump_metadata(struct dxil_dumper *d, struct dxil_module *m) { _mesa_string_buffer_printf(d->buf, "Shader: %s\n", dump_shader_string(m->shader_kind)); _mesa_string_buffer_printf(d->buf, "Version: %d.%d\n", m->major_version, m->minor_version); dump_features(d->buf, &m->feats); } static void dump_shader_info(struct dxil_dumper *d, struct dxil_shader_info *info) { _mesa_string_buffer_append(d->buf, "Shader Info:\n"); if (info->has_out_position) _mesa_string_buffer_append(d->buf, " has_out_position\n"); } static const char * dump_shader_string(enum dxil_shader_kind kind) { #define SHADER_STR(X) case DXIL_ ## X ## _SHADER: return #X switch (kind) { SHADER_STR(VERTEX); SHADER_STR(PIXEL); SHADER_STR(GEOMETRY); SHADER_STR(COMPUTE); default: return "UNSUPPORTED"; } #undef SHADER_STR } static void dump_features(struct _mesa_string_buffer *buf, struct dxil_features *feat) { _mesa_string_buffer_printf(buf, "Features:\n"); #define PRINT_FEAT(F) if (feat->F) _mesa_string_buffer_printf(buf, " %s\n", #F) PRINT_FEAT(doubles); PRINT_FEAT(cs_4x_raw_sb); PRINT_FEAT(uavs_at_every_stage); PRINT_FEAT(use_64uavs); PRINT_FEAT(min_precision); PRINT_FEAT(dx11_1_double_extensions); PRINT_FEAT(dx11_1_shader_extensions); PRINT_FEAT(dx9_comparison_filtering); PRINT_FEAT(tiled_resources); PRINT_FEAT(stencil_ref); PRINT_FEAT(inner_coverage); PRINT_FEAT(typed_uav_load_additional_formats); PRINT_FEAT(rovs); PRINT_FEAT(array_layer_from_vs_or_ds); PRINT_FEAT(wave_ops); PRINT_FEAT(int64_ops); PRINT_FEAT(view_id); PRINT_FEAT(barycentrics); PRINT_FEAT(native_low_precision); PRINT_FEAT(shading_rate); PRINT_FEAT(raytracing_tier_1_1); PRINT_FEAT(sampler_feedback); #undef PRINT_FEAT } static void dump_types(struct dxil_dumper *d, struct list_head *list) { if (!list_length(list)) return; _mesa_string_buffer_append(d->buf, "Types:\n"); dxil_dump_indention_inc(d); list_for_each_entry(struct dxil_type, type, list, head) { dxil_dump_indent(d); dump_type(d, type); _mesa_string_buffer_append(d->buf, "\n"); } dxil_dump_indention_dec(d); } static void dump_type_name(struct dxil_dumper *d, const struct dxil_type *type) { if (!type) { _mesa_string_buffer_append(d->buf, "(type error)"); return; } switch (type->type) { case TYPE_VOID: _mesa_string_buffer_append(d->buf, "void"); break; case TYPE_INTEGER: _mesa_string_buffer_printf(d->buf, "int%d", type->int_bits); break; case TYPE_FLOAT: _mesa_string_buffer_printf(d->buf, "float%d", type->float_bits); break; case TYPE_POINTER: dump_type_name(d, type->ptr_target_type); _mesa_string_buffer_append(d->buf, "*"); break; case TYPE_STRUCT: _mesa_string_buffer_printf(d->buf, "struct %s", type->struct_def.name); break; case TYPE_ARRAY: dump_type_name(d, type->array_or_vector_def.elem_type); _mesa_string_buffer_printf(d->buf, "[%d]", type->array_or_vector_def.num_elems); break; case TYPE_FUNCTION: _mesa_string_buffer_append(d->buf, "("); dump_type_name(d, type->function_def.ret_type); _mesa_string_buffer_append(d->buf, ")("); for (size_t i = 0; i < type->function_def.args.num_types; ++i) { if (i > 0) _mesa_string_buffer_append(d->buf, ", "); dump_type_name(d, type->function_def.args.types[i]); } _mesa_string_buffer_append(d->buf, ")"); break; case TYPE_VECTOR: _mesa_string_buffer_append(d->buf, "vector<"); dump_type_name(d, type->array_or_vector_def.elem_type); _mesa_string_buffer_printf(d->buf, ", %d>", type->array_or_vector_def.num_elems); break; default: _mesa_string_buffer_printf(d->buf, "unknown type %d", type->type); } } static void dump_type(struct dxil_dumper *d, const struct dxil_type *type) { switch (type->type) { case TYPE_STRUCT: _mesa_string_buffer_printf(d->buf, "struct %s {\n", type->struct_def.name); dxil_dump_indention_inc(d); for (size_t i = 0; i < type->struct_def.elem.num_types; ++i) { dxil_dump_indent(d); dump_type(d, type->struct_def.elem.types[i]); _mesa_string_buffer_append(d->buf, "\n"); } dxil_dump_indention_dec(d); dxil_dump_indent(d); _mesa_string_buffer_append(d->buf, "}\n"); break; default: dump_type_name(d, type); break; } } static void dump_gvars(struct dxil_dumper *d, struct list_head *list) { if (!list_length(list)) return; _mesa_string_buffer_append(d->buf, "Global variables:\n"); dxil_dump_indention_inc(d); list_for_each_entry(struct dxil_gvar, gvar, list, head) { dxil_dump_indent(d); _mesa_string_buffer_printf(d->buf, "address_space(%d) ", gvar->as); if (gvar->constant) _mesa_string_buffer_append(d->buf, "const "); if (gvar->align) _mesa_string_buffer_append(d->buf, "align "); if (gvar->initializer) _mesa_string_buffer_printf(d->buf, "init_id:%d\n", gvar->initializer->id); dump_type_name(d, gvar->type); _mesa_string_buffer_printf(d->buf, " val_id:%d\n", gvar->value.id); } dxil_dump_indention_dec(d); } static void dump_funcs(struct dxil_dumper *d, struct list_head *list) { if (!list_length(list)) return; _mesa_string_buffer_append(d->buf, "Functions:\n"); dxil_dump_indention_inc(d); list_for_each_entry(struct dxil_func, func, list, head) { dxil_dump_indent(d); if (func->decl) _mesa_string_buffer_append(d->buf, "declare "); _mesa_string_buffer_append(d->buf, func->name); _mesa_string_buffer_append_char(d->buf, ' '); dump_type_name(d, func->type); if (func->attr_set) _mesa_string_buffer_printf(d->buf, " #%d", func->attr_set); _mesa_string_buffer_append_char(d->buf, '\n'); } dxil_dump_indention_dec(d); } static void dump_attr_set_list(struct dxil_dumper *d, struct list_head *list) { if (!list_length(list)) return; _mesa_string_buffer_append(d->buf, "Attribute set:\n"); dxil_dump_indention_inc(d); int attr_id = 1; list_for_each_entry(struct attrib_set, attr, list, head) { _mesa_string_buffer_printf(d->buf, " #%d: {", attr_id++); for (unsigned i = 0; i < attr->num_attrs; ++i) { if (i > 0) _mesa_string_buffer_append_char(d->buf, ' '); assert(attr->attrs[i].type == DXIL_ATTR_ENUM); const char *value = ""; switch (attr->attrs[i].kind) { case DXIL_ATTR_KIND_NONE: value = "none"; break; case DXIL_ATTR_KIND_NO_UNWIND: value = "nounwind"; break; case DXIL_ATTR_KIND_READ_NONE: value = "readnone"; break; case DXIL_ATTR_KIND_READ_ONLY: value = "readonly"; break; case DXIL_ATTR_KIND_NO_DUPLICATE: value = "noduplicate"; break; } _mesa_string_buffer_append(d->buf, value); } _mesa_string_buffer_append(d->buf, "}\n"); } dxil_dump_indention_dec(d); } static void dump_constants(struct dxil_dumper *d, struct list_head *list) { if (!list_length(list)) return; _mesa_string_buffer_append(d->buf, "Constants:\n"); dxil_dump_indention_inc(d); list_for_each_entry(struct dxil_const, cnst, list, head) { _mesa_string_buffer_append_char(d->buf, ' '); dump_value(d, &cnst->value); _mesa_string_buffer_append(d->buf, " = "); dump_type_name(d, cnst->value.type); if (!cnst->undef) { switch (cnst->value.type->type) { case TYPE_FLOAT: _mesa_string_buffer_printf(d->buf, " %10.5f\n", cnst->float_value); break; case TYPE_INTEGER: _mesa_string_buffer_printf(d->buf, " %d\n", cnst->int_value); break; case TYPE_ARRAY: _mesa_string_buffer_append(d->buf, "{"); for (unsigned i = 0; i < cnst->value.type->array_or_vector_def.num_elems; i++) { _mesa_string_buffer_printf(d->buf, " %%%d", cnst->array_values[i]->id); dump_type_name(d, cnst->value.type); if (i != cnst->value.type->array_or_vector_def.num_elems - 1) _mesa_string_buffer_append(d->buf, ","); _mesa_string_buffer_append(d->buf, " "); } _mesa_string_buffer_append(d->buf, "}\n"); break; default: unreachable("Unsupported const type"); } } else _mesa_string_buffer_append(d->buf, " undef\n"); } dxil_dump_indention_dec(d); } static void dump_instrs(struct dxil_dumper *d, struct list_head *list) { _mesa_string_buffer_append(d->buf, "Shader body:\n"); dxil_dump_indention_inc(d); list_for_each_entry(struct dxil_instr, instr, list, head) { dxil_dump_indent(d); if (instr->has_value) { dump_value(d, &instr->value); _mesa_string_buffer_append(d->buf, " = "); } else { _mesa_string_buffer_append_char(d->buf, ' '); } switch (instr->type) { case INSTR_BINOP: dump_instr_binop(d, &instr->binop); break; case INSTR_CMP: dump_instr_cmp(d, &instr->cmp);break; case INSTR_SELECT:dump_instr_select(d, &instr->select); break; case INSTR_CAST: dump_instr_cast(d, &instr->cast); break; case INSTR_CALL: dump_instr_call(d, &instr->call); break; case INSTR_RET: dump_instr_ret(d, &instr->ret); break; case INSTR_EXTRACTVAL: dump_instr_extractval(d, &instr->extractval); break; case INSTR_BR: dump_instr_branch(d, &instr->br); break; case INSTR_PHI: dump_instr_phi(d, &instr->phi); break; case INSTR_ALLOCA: dump_instr_alloca(d, &instr->alloca); break; case INSTR_GEP: dump_instr_gep(d, &instr->gep); break; case INSTR_LOAD: dump_instr_load(d, &instr->load); break; case INSTR_STORE: dump_instr_store(d, &instr->store); break; case INSTR_ATOMICRMW: dump_instr_atomicrmw(d, &instr->atomicrmw); break; default: _mesa_string_buffer_printf(d->buf, "unknown instruction type %d", instr->type); } _mesa_string_buffer_append(d->buf, "\n"); } dxil_dump_indention_dec(d); } static void dump_instr_binop(struct dxil_dumper *d, struct dxil_instr_binop *binop) { const char *str = binop->opcode < DXIL_BINOP_INSTR_COUNT ? binop_strings[binop->opcode] : "INVALID"; _mesa_string_buffer_printf(d->buf, "%s ", str); dump_instr_print_operands(d, 2, binop->operands); } static void dump_instr_cmp(struct dxil_dumper *d, struct dxil_instr_cmp *cmp) { const char *str = cmp->pred < DXIL_CMP_INSTR_COUNT ? pred_strings[cmp->pred] : "INVALID"; _mesa_string_buffer_printf(d->buf, "%s ", str); dump_instr_print_operands(d, 2, cmp->operands); } static void dump_instr_select(struct dxil_dumper *d, struct dxil_instr_select *select) { _mesa_string_buffer_append(d->buf, "sel "); dump_instr_print_operands(d, 3, select->operands); } static void dump_instr_cast(struct dxil_dumper *d, struct dxil_instr_cast *cast) { const char *str = cast->opcode < DXIL_CAST_INSTR_COUNT ? cast_opcode_strings[cast->opcode] : "INVALID"; _mesa_string_buffer_printf(d->buf, "%s.", str); dump_type_name(d, cast->type); _mesa_string_buffer_append_char(d->buf, ' '); dump_value(d, cast->value); } static void dump_instr_call(struct dxil_dumper *d, struct dxil_instr_call *call) { assert(call->num_args == call->func->type->function_def.args.num_types); struct dxil_type **func_arg_types = call->func->type->function_def.args.types; _mesa_string_buffer_printf(d->buf, "%s(", call->func->name); for (unsigned i = 0; i < call->num_args; ++i) { if (i > 0) _mesa_string_buffer_append(d->buf, ", "); dump_type_name(d, func_arg_types[i]); _mesa_string_buffer_append_char(d->buf, ' '); dump_value(d, call->args[i]); } _mesa_string_buffer_append_char(d->buf, ')'); } static void dump_instr_ret(struct dxil_dumper *d, struct dxil_instr_ret *ret) { _mesa_string_buffer_append(d->buf, "ret "); if (ret->value) dump_value(d, ret->value); } static void dump_instr_extractval(struct dxil_dumper *d, struct dxil_instr_extractval *extr) { _mesa_string_buffer_append(d->buf, "extractvalue "); dump_type_name(d, extr->type); dump_value(d, extr->src); _mesa_string_buffer_printf(d->buf, ", %d", extr->idx); } static void dump_instr_branch(struct dxil_dumper *d, struct dxil_instr_br *br) { _mesa_string_buffer_append(d->buf, "branch "); if (br->cond) dump_value(d, br->cond); else _mesa_string_buffer_append(d->buf, " (uncond)"); _mesa_string_buffer_printf(d->buf, " %d %d", br->succ[0], br->succ[1]); } static void dump_instr_phi(struct dxil_dumper *d, struct dxil_instr_phi *phi) { _mesa_string_buffer_append(d->buf, "phi "); dump_type_name(d, phi->type); struct dxil_phi_src *src = phi->incoming; for (unsigned i = 0; i < phi->num_incoming; ++i, ++src) { if (i > 0) _mesa_string_buffer_append(d->buf, ", "); dump_value(d, src->value); _mesa_string_buffer_printf(d->buf, "(%d)", src->block); } } static void dump_instr_alloca(struct dxil_dumper *d, struct dxil_instr_alloca *alloca) { _mesa_string_buffer_append(d->buf, "alloca "); dump_type_name(d, alloca->alloc_type); _mesa_string_buffer_append(d->buf, ", "); dump_type_name(d, alloca->size_type); _mesa_string_buffer_append(d->buf, ", "); dump_value(d, alloca->size); unsigned align_mask = (1 << 6 ) - 1; unsigned align = alloca->align & align_mask; _mesa_string_buffer_printf(d->buf, ", %d", 1 << (align - 1)); } static void dump_instr_gep(struct dxil_dumper *d, struct dxil_instr_gep *gep) { _mesa_string_buffer_append(d->buf, "getelementptr "); if (gep->inbounds) _mesa_string_buffer_append(d->buf, "inbounds "); dump_type_name(d, gep->source_elem_type); _mesa_string_buffer_append(d->buf, ", "); for (unsigned i = 0; i < gep->num_operands; ++i) { if (i > 0) _mesa_string_buffer_append(d->buf, ", "); dump_value(d, gep->operands[i]); } } static void dump_instr_load(struct dxil_dumper *d, struct dxil_instr_load *load) { _mesa_string_buffer_append(d->buf, "load "); if (load->is_volatile) _mesa_string_buffer_append(d->buf, " volatile"); dump_type_name(d, load->type); _mesa_string_buffer_append(d->buf, ", "); dump_value(d, load->ptr); _mesa_string_buffer_printf(d->buf, ", %d", load->align); } static void dump_instr_store(struct dxil_dumper *d, struct dxil_instr_store *store) { _mesa_string_buffer_append(d->buf, "store "); if (store->is_volatile) _mesa_string_buffer_append(d->buf, " volatile"); dump_value(d, store->value); _mesa_string_buffer_append(d->buf, ", "); dump_value(d, store->ptr); _mesa_string_buffer_printf(d->buf, ", %d", store->align); } static const char *rmworder_str[] = { [DXIL_ATOMIC_ORDERING_NOTATOMIC] = "not-atomic", [DXIL_ATOMIC_ORDERING_UNORDERED] = "unordered", [DXIL_ATOMIC_ORDERING_MONOTONIC] = "monotonic", [DXIL_ATOMIC_ORDERING_ACQUIRE] = "acquire", [DXIL_ATOMIC_ORDERING_RELEASE] = "release", [DXIL_ATOMIC_ORDERING_ACQREL] = "acqrel", [DXIL_ATOMIC_ORDERING_SEQCST] = "seqcst", }; static const char *rmwsync_str[] = { [DXIL_SYNC_SCOPE_SINGLETHREAD] = "single-thread", [DXIL_SYNC_SCOPE_CROSSTHREAD] = "cross-thread", }; static const char *rmwop_str[] = { [DXIL_RMWOP_XCHG] = "xchg", [DXIL_RMWOP_ADD] = "add", [DXIL_RMWOP_SUB] = "sub", [DXIL_RMWOP_AND] = "and", [DXIL_RMWOP_NAND] = "nand", [DXIL_RMWOP_OR] = "or", [DXIL_RMWOP_XOR] = "xor", [DXIL_RMWOP_MAX] = "max", [DXIL_RMWOP_MIN] = "min", [DXIL_RMWOP_UMAX] = "umax", [DXIL_RMWOP_UMIN] = "umin", }; static void dump_instr_atomicrmw(struct dxil_dumper *d, struct dxil_instr_atomicrmw *rmw) { _mesa_string_buffer_printf(d->buf, "atomicrmw.%s ", rmwop_str[rmw->op]); if (rmw->is_volatile) _mesa_string_buffer_append(d->buf, " volatile"); dump_value(d, rmw->value); _mesa_string_buffer_append(d->buf, ", "); dump_value(d, rmw->ptr); _mesa_string_buffer_printf(d->buf, ", ordering(%s)", rmworder_str[rmw->ordering]); _mesa_string_buffer_printf(d->buf, ", sync_scope(%s)", rmwsync_str[rmw->syncscope]); } static void dump_instr_print_operands(struct dxil_dumper *d, int num, const struct dxil_value *val[]) { for (int i = 0; i < num; ++i) { if (i > 0) _mesa_string_buffer_append(d->buf, ", "); dump_value(d, val[i]); } } static void dump_value(struct dxil_dumper *d, const struct dxil_value *val) { if (val->id < 10) _mesa_string_buffer_append(d->buf, " "); if (val->id < 100) _mesa_string_buffer_append(d->buf, " "); _mesa_string_buffer_printf(d->buf, "%%%d", val->id); dump_type_name(d, val->type); } static void dump_mdnodes(struct dxil_dumper *d, struct list_head *list) { if (!list_length(list)) return; _mesa_string_buffer_append(d->buf, "MD-Nodes:\n"); dxil_dump_indention_inc(d); list_for_each_entry(struct dxil_mdnode, node, list, head) { dump_mdnode(d, node); } dxil_dump_indention_dec(d); } static void dump_mdnode(struct dxil_dumper *d, const struct dxil_mdnode *node) { dxil_dump_indent(d); switch (node->type) { case MD_STRING: _mesa_string_buffer_printf(d->buf, "S:%s\n", node->string); break; case MD_VALUE: _mesa_string_buffer_append(d->buf, "V:"); dump_type_name(d, node->value.type); _mesa_string_buffer_append_char(d->buf, ' '); dump_value(d, node->value.value); _mesa_string_buffer_append_char(d->buf, '\n'); break; case MD_NODE: _mesa_string_buffer_append(d->buf, " \\\n"); dxil_dump_indention_inc(d); for (size_t i = 0; i < node->node.num_subnodes; ++i) { if (node->node.subnodes[i]) dump_mdnode(d, node->node.subnodes[i]); else { dxil_dump_indent(d); _mesa_string_buffer_append(d->buf, "(nullptr)\n"); } } dxil_dump_indention_dec(d); break; } } static void dump_named_nodes(struct dxil_dumper *d, struct list_head *list) { if (!list_length(list)) return; _mesa_string_buffer_append(d->buf, "Named Nodes:\n"); dxil_dump_indention_inc(d); list_for_each_entry(struct dxil_named_node, node, list, head) { dxil_dump_indent(d); _mesa_string_buffer_printf(d->buf, "%s:\n", node->name); dxil_dump_indention_inc(d); for (size_t i = 0; i < node->num_subnodes; ++i) { if (node->subnodes[i]) dump_mdnode(d, node->subnodes[i]); else { dxil_dump_indent(d); _mesa_string_buffer_append(d->buf, "(nullptr)\n"); } } dxil_dump_indention_dec(d); } dxil_dump_indention_dec(d); } static void mask_to_string(uint32_t mask, char str[5]) { const char *mc = "xyzw"; for (int i = 0; i < 4 && mask; ++i) { str[i] = (mask & (1 << i)) ? mc[i] : '_'; } str[4] = 0; } static void dump_io_signatures(struct _mesa_string_buffer *buf, struct dxil_module *m) { _mesa_string_buffer_append(buf, "\nInput signature:\n"); dump_io_signature(buf, m->num_sig_inputs, m->inputs); _mesa_string_buffer_append(buf, "\nOutput signature:\n"); dump_io_signature(buf, m->num_sig_outputs, m->outputs); } static void dump_io_signature(struct _mesa_string_buffer *buf, unsigned num, struct dxil_signature_record *io) { _mesa_string_buffer_append(buf, " SEMANTIC-NAME Index Mask Reg SysValue Format\n"); _mesa_string_buffer_append(buf, "----------------------------------------------\n"); for (unsigned i = 0; i < num; ++i, ++io) { for (unsigned j = 0; j < io->num_elements; ++j) { char mask[5] = ""; mask_to_string(io->elements[j].mask, mask); _mesa_string_buffer_printf(buf, "%-15s %3d %4s %3d %-8s %-7s\n", io->name, io->elements[j].semantic_index, mask, io->elements[j].reg, io->sysvalue, component_type_as_string(io->elements[j].comp_type)); } } } static const char *component_type_as_string(uint32_t type) { return (type < DXIL_PROG_SIG_COMP_TYPE_COUNT) ? dxil_type_strings[type] : "invalid"; } static void dump_psv(struct _mesa_string_buffer *buf, struct dxil_module *m) { _mesa_string_buffer_append(buf, "\nPipeline State Validation\nInputs:\n"); dump_psv_io(buf, m, m->num_sig_inputs, m->psv_inputs); _mesa_string_buffer_append(buf, "\nOutputs:\n"); dump_psv_io(buf, m, m->num_sig_outputs, m->psv_outputs); } static void dump_psv_io(struct _mesa_string_buffer *buf, struct dxil_module *m, unsigned num, struct dxil_psv_signature_element *io) { _mesa_string_buffer_append(buf, " SEMANTIC-NAME Rows Cols Kind Comp-Type Interp dynmask+stream Indices\n"); _mesa_string_buffer_append(buf, "----------------------------------------------\n"); for (unsigned i = 0; i < num; ++i, ++io) { _mesa_string_buffer_printf(buf, "%-14s %d+%d %d+%d %4d %-7s %-4d %-9d [", m->sem_string_table->buf + io->semantic_name_offset, (int)io->start_row, (int)io->rows, (int)((io->cols_and_start & 0xf) >> 4), (int)(io->cols_and_start & 0xf), (int)io->semantic_kind, component_type_as_string(io->component_type), (int)io->interpolation_mode, (int)io->dynamic_mask_and_stream); for (int k = 0; k < io->rows; ++k) { if (k > 0) _mesa_string_buffer_append(buf, ", "); _mesa_string_buffer_printf(buf,"%d ", m->sem_index_table.data[io->start_row + k]); } _mesa_string_buffer_append(buf, "]\n"); } }