/* * Copyright © 2014 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: * Connor Abbott (cwabbott0@gmail.com) * */ #include "nir.h" #include #include static void print_tabs(unsigned num_tabs, FILE *fp) { for (unsigned i = 0; i < num_tabs; i++) fprintf(fp, "\t"); } typedef struct { /** map from nir_variable -> printable name */ struct hash_table *ht; /** set of names used so far for nir_variables */ struct set *syms; /* an index used to make new non-conflicting names */ unsigned index; } print_var_state; static void print_register(nir_register *reg, FILE *fp) { if (reg->name != NULL) fprintf(fp, "/* %s */ ", reg->name); if (reg->is_global) fprintf(fp, "gr%u", reg->index); else fprintf(fp, "r%u", reg->index); } static const char *sizes[] = { "error", "vec1", "vec2", "vec3", "vec4" }; static void print_register_decl(nir_register *reg, FILE *fp) { fprintf(fp, "decl_reg %s ", sizes[reg->num_components]); if (reg->is_packed) fprintf(fp, "(packed) "); print_register(reg, fp); if (reg->num_array_elems != 0) fprintf(fp, "[%u]", reg->num_array_elems); fprintf(fp, "\n"); } static void print_ssa_def(nir_ssa_def *def, FILE *fp) { if (def->name != NULL) fprintf(fp, "/* %s */ ", def->name); fprintf(fp, "%s ssa_%u", sizes[def->num_components], def->index); } static void print_ssa_use(nir_ssa_def *def, FILE *fp) { if (def->name != NULL) fprintf(fp, "/* %s */ ", def->name); fprintf(fp, "ssa_%u", def->index); } static void print_src(nir_src *src, FILE *fp); static void print_reg_src(nir_reg_src *src, FILE *fp) { print_register(src->reg, fp); if (src->reg->num_array_elems != 0) { fprintf(fp, "[%u", src->base_offset); if (src->indirect != NULL) { fprintf(fp, " + "); print_src(src->indirect, fp); } fprintf(fp, "]"); } } static void print_reg_dest(nir_reg_dest *dest, FILE *fp) { print_register(dest->reg, fp); if (dest->reg->num_array_elems != 0) { fprintf(fp, "[%u", dest->base_offset); if (dest->indirect != NULL) { fprintf(fp, " + "); print_src(dest->indirect, fp); } fprintf(fp, "]"); } } static void print_src(nir_src *src, FILE *fp) { if (src->is_ssa) print_ssa_use(src->ssa, fp); else print_reg_src(&src->reg, fp); } static void print_dest(nir_dest *dest, FILE *fp) { if (dest->is_ssa) print_ssa_def(&dest->ssa, fp); else print_reg_dest(&dest->reg, fp); } static void print_alu_src(nir_alu_instr *instr, unsigned src, FILE *fp) { if (instr->src[src].negate) fprintf(fp, "-"); if (instr->src[src].abs) fprintf(fp, "abs("); print_src(&instr->src[src].src, fp); bool print_swizzle = false; for (unsigned i = 0; i < 4; i++) { if (!nir_alu_instr_channel_used(instr, src, i)) continue; if (instr->src[src].swizzle[i] != i) { print_swizzle = true; break; } } if (print_swizzle) { fprintf(fp, "."); for (unsigned i = 0; i < 4; i++) { if (!nir_alu_instr_channel_used(instr, src, i)) continue; fprintf(fp, "%c", "xyzw"[instr->src[src].swizzle[i]]); } } if (instr->src[src].abs) fprintf(fp, ")"); } static void print_alu_dest(nir_alu_dest *dest, FILE *fp) { /* we're going to print the saturate modifier later, after the opcode */ print_dest(&dest->dest, fp); if (!dest->dest.is_ssa && dest->write_mask != (1 << dest->dest.reg.reg->num_components) - 1) { fprintf(fp, "."); for (unsigned i = 0; i < 4; i++) if ((dest->write_mask >> i) & 1) fprintf(fp, "%c", "xyzw"[i]); } } static void print_alu_instr(nir_alu_instr *instr, FILE *fp) { print_alu_dest(&instr->dest, fp); fprintf(fp, " = %s", nir_op_infos[instr->op].name); if (instr->dest.saturate) fprintf(fp, ".sat"); fprintf(fp, " "); for (unsigned i = 0; i < nir_op_infos[instr->op].num_inputs; i++) { if (i != 0) fprintf(fp, ", "); print_alu_src(instr, i, fp); } } static void print_var_decl(nir_variable *var, print_var_state *state, FILE *fp) { fprintf(fp, "decl_var "); const char *const cent = (var->data.centroid) ? "centroid " : ""; const char *const samp = (var->data.sample) ? "sample " : ""; const char *const inv = (var->data.invariant) ? "invariant " : ""; const char *const mode[] = { "shader_in ", "shader_out ", "", "", "uniform ", "system " }; const char *const interp[] = { "", "smooth", "flat", "noperspective" }; fprintf(fp, "%s%s%s%s%s ", cent, samp, inv, mode[var->data.mode], interp[var->data.interpolation]); glsl_print_type(var->type, fp); struct set_entry *entry = NULL; if (state) entry = _mesa_set_search(state->syms, var->name); char *name; if (entry != NULL) { /* we have a collision with another name, append an @ + a unique index */ name = ralloc_asprintf(state->syms, "%s@%u", var->name, state->index++); } else { name = var->name; } fprintf(fp, " %s", name); if (var->data.mode == nir_var_shader_in || var->data.mode == nir_var_shader_out || var->data.mode == nir_var_uniform) { fprintf(fp, " (%u, %u)", var->data.location, var->data.driver_location); } fprintf(fp, "\n"); if (state) { _mesa_set_add(state->syms, name); _mesa_hash_table_insert(state->ht, var, name); } } static void print_var(nir_variable *var, print_var_state *state, FILE *fp) { const char *name; if (state) { struct hash_entry *entry = _mesa_hash_table_search(state->ht, var); assert(entry != NULL); name = entry->data; } else { name = var->name; } fprintf(fp, "%s", name); } static void print_deref_var(nir_deref_var *deref, print_var_state *state, FILE *fp) { print_var(deref->var, state, fp); } static void print_deref_array(nir_deref_array *deref, print_var_state *state, FILE *fp) { fprintf(fp, "["); switch (deref->deref_array_type) { case nir_deref_array_type_direct: fprintf(fp, "%u", deref->base_offset); break; case nir_deref_array_type_indirect: if (deref->base_offset != 0) fprintf(fp, "%u + ", deref->base_offset); print_src(&deref->indirect, fp); break; case nir_deref_array_type_wildcard: fprintf(fp, "*"); break; } fprintf(fp, "]"); } static void print_deref_struct(nir_deref_struct *deref, const struct glsl_type *parent_type, print_var_state *state, FILE *fp) { fprintf(fp, ".%s", glsl_get_struct_elem_name(parent_type, deref->index)); } static void print_deref(nir_deref_var *deref, print_var_state *state, FILE *fp) { nir_deref *tail = &deref->deref; nir_deref *pretail = NULL; while (tail != NULL) { switch (tail->deref_type) { case nir_deref_type_var: assert(pretail == NULL); assert(tail == &deref->deref); print_deref_var(deref, state, fp); break; case nir_deref_type_array: assert(pretail != NULL); print_deref_array(nir_deref_as_array(tail), state, fp); break; case nir_deref_type_struct: assert(pretail != NULL); print_deref_struct(nir_deref_as_struct(tail), pretail->type, state, fp); break; default: unreachable("Invalid deref type"); } pretail = tail; tail = pretail->child; } } static void print_intrinsic_instr(nir_intrinsic_instr *instr, print_var_state *state, FILE *fp) { unsigned num_srcs = nir_intrinsic_infos[instr->intrinsic].num_srcs; if (nir_intrinsic_infos[instr->intrinsic].has_dest) { print_dest(&instr->dest, fp); fprintf(fp, " = "); } fprintf(fp, "intrinsic %s (", nir_intrinsic_infos[instr->intrinsic].name); for (unsigned i = 0; i < num_srcs; i++) { if (i != 0) fprintf(fp, ", "); print_src(&instr->src[i], fp); } fprintf(fp, ") ("); unsigned num_vars = nir_intrinsic_infos[instr->intrinsic].num_variables; for (unsigned i = 0; i < num_vars; i++) { if (i != 0) fprintf(fp, ", "); print_deref(instr->variables[i], state, fp); } fprintf(fp, ") ("); unsigned num_indices = nir_intrinsic_infos[instr->intrinsic].num_indices; for (unsigned i = 0; i < num_indices; i++) { if (i != 0) fprintf(fp, ", "); fprintf(fp, "%u", instr->const_index[i]); } fprintf(fp, ")"); } static void print_tex_instr(nir_tex_instr *instr, print_var_state *state, FILE *fp) { print_dest(&instr->dest, fp); fprintf(fp, " = "); switch (instr->op) { case nir_texop_tex: fprintf(fp, "tex "); break; case nir_texop_txb: fprintf(fp, "txb "); break; case nir_texop_txl: fprintf(fp, "txl "); break; case nir_texop_txd: fprintf(fp, "txd "); break; case nir_texop_txf: fprintf(fp, "txf "); break; case nir_texop_txf_ms: fprintf(fp, "txf_ms "); break; case nir_texop_txs: fprintf(fp, "txs "); break; case nir_texop_lod: fprintf(fp, "lod "); break; case nir_texop_tg4: fprintf(fp, "tg4 "); break; case nir_texop_query_levels: fprintf(fp, "query_levels "); break; default: unreachable("Invalid texture operation"); break; } for (unsigned i = 0; i < instr->num_srcs; i++) { print_src(&instr->src[i].src, fp); fprintf(fp, " "); switch(instr->src[i].src_type) { case nir_tex_src_coord: fprintf(fp, "(coord)"); break; case nir_tex_src_projector: fprintf(fp, "(projector)"); break; case nir_tex_src_comparitor: fprintf(fp, "(comparitor)"); break; case nir_tex_src_offset: fprintf(fp, "(offset)"); break; case nir_tex_src_bias: fprintf(fp, "(bias)"); break; case nir_tex_src_lod: fprintf(fp, "(lod)"); break; case nir_tex_src_ms_index: fprintf(fp, "(ms_index)"); break; case nir_tex_src_ddx: fprintf(fp, "(ddx)"); break; case nir_tex_src_ddy: fprintf(fp, "(ddy)"); break; case nir_tex_src_sampler_offset: fprintf(fp, "(sampler_offset)"); break; default: unreachable("Invalid texture source type"); break; } fprintf(fp, ", "); } bool has_nonzero_offset = false; for (unsigned i = 0; i < 4; i++) { if (instr->const_offset[i] != 0) { has_nonzero_offset = true; break; } } if (has_nonzero_offset) { fprintf(fp, "[%i %i %i %i] (offset), ", instr->const_offset[0], instr->const_offset[1], instr->const_offset[2], instr->const_offset[3]); } if (instr->op == nir_texop_tg4) { fprintf(fp, "%u (gather_component), ", instr->component); } if (instr->sampler) { print_deref(instr->sampler, state, fp); } else { fprintf(fp, "%u", instr->sampler_index); } fprintf(fp, " (sampler)"); } static void print_call_instr(nir_call_instr *instr, print_var_state *state, FILE *fp) { fprintf(fp, "call %s ", instr->callee->function->name); for (unsigned i = 0; i < instr->num_params; i++) { if (i != 0) fprintf(fp, ", "); print_deref(instr->params[i], state, fp); } if (instr->return_deref != NULL) { if (instr->num_params != 0) fprintf(fp, ", "); fprintf(fp, "returning "); print_deref(instr->return_deref, state, fp); } } static void print_load_const_instr(nir_load_const_instr *instr, unsigned tabs, FILE *fp) { print_ssa_def(&instr->def, fp); fprintf(fp, " = load_const ("); for (unsigned i = 0; i < instr->def.num_components; i++) { if (i != 0) fprintf(fp, ", "); /* * we don't really know the type of the constant (if it will be used as a * float or an int), so just print the raw constant in hex for fidelity * and then print the float in a comment for readability. */ fprintf(fp, "0x%08x /* %f */", instr->value.u[i], instr->value.f[i]); } } static void print_jump_instr(nir_jump_instr *instr, FILE *fp) { switch (instr->type) { case nir_jump_break: fprintf(fp, "break"); break; case nir_jump_continue: fprintf(fp, "continue"); break; case nir_jump_return: fprintf(fp, "return"); break; } } static void print_ssa_undef_instr(nir_ssa_undef_instr* instr, FILE *fp) { print_ssa_def(&instr->def, fp); fprintf(fp, " = undefined"); } static void print_phi_instr(nir_phi_instr *instr, FILE *fp) { print_dest(&instr->dest, fp); fprintf(fp, " = phi "); nir_foreach_phi_src(instr, src) { if (&src->node != exec_list_get_head(&instr->srcs)) fprintf(fp, ", "); fprintf(fp, "block_%u: ", src->pred->index); print_src(&src->src, fp); } } static void print_parallel_copy_instr(nir_parallel_copy_instr *instr, FILE *fp) { nir_foreach_parallel_copy_entry(instr, entry) { if (&entry->node != exec_list_get_head(&instr->entries)) fprintf(fp, "; "); print_dest(&entry->dest, fp); fprintf(fp, " = "); print_src(&entry->src, fp); } } static void print_instr(const nir_instr *instr, print_var_state *state, unsigned tabs, FILE *fp) { print_tabs(tabs, fp); switch (instr->type) { case nir_instr_type_alu: print_alu_instr(nir_instr_as_alu(instr), fp); break; case nir_instr_type_call: print_call_instr(nir_instr_as_call(instr), state, fp); break; case nir_instr_type_intrinsic: print_intrinsic_instr(nir_instr_as_intrinsic(instr), state, fp); break; case nir_instr_type_tex: print_tex_instr(nir_instr_as_tex(instr), state, fp); break; case nir_instr_type_load_const: print_load_const_instr(nir_instr_as_load_const(instr), tabs, fp); break; case nir_instr_type_jump: print_jump_instr(nir_instr_as_jump(instr), fp); break; case nir_instr_type_ssa_undef: print_ssa_undef_instr(nir_instr_as_ssa_undef(instr), fp); break; case nir_instr_type_phi: print_phi_instr(nir_instr_as_phi(instr), fp); break; case nir_instr_type_parallel_copy: print_parallel_copy_instr(nir_instr_as_parallel_copy(instr), fp); break; default: unreachable("Invalid instruction type"); break; } } static int compare_block_index(const void *p1, const void *p2) { const nir_block *block1 = *((const nir_block **) p1); const nir_block *block2 = *((const nir_block **) p2); return (int) block1->index - (int) block2->index; } static void print_cf_node(nir_cf_node *node, print_var_state *state, unsigned tabs, FILE *fp); static void print_block(nir_block *block, print_var_state *state, unsigned tabs, FILE *fp) { print_tabs(tabs, fp); fprintf(fp, "block block_%u:\n", block->index); /* sort the predecessors by index so we consistently print the same thing */ nir_block **preds = malloc(block->predecessors->entries * sizeof(nir_block *)); struct set_entry *entry; unsigned i = 0; set_foreach(block->predecessors, entry) { preds[i++] = (nir_block *) entry->key; } qsort(preds, block->predecessors->entries, sizeof(nir_block *), compare_block_index); print_tabs(tabs, fp); fprintf(fp, "/* preds: "); for (unsigned i = 0; i < block->predecessors->entries; i++) { fprintf(fp, "block_%u ", preds[i]->index); } fprintf(fp, "*/\n"); free(preds); nir_foreach_instr(block, instr) { print_instr(instr, state, tabs, fp); fprintf(fp, "\n"); } print_tabs(tabs, fp); fprintf(fp, "/* succs: "); for (unsigned i = 0; i < 2; i++) if (block->successors[i]) { fprintf(fp, "block_%u ", block->successors[i]->index); } fprintf(fp, "*/\n"); } static void print_if(nir_if *if_stmt, print_var_state *state, unsigned tabs, FILE *fp) { print_tabs(tabs, fp); fprintf(fp, "if "); print_src(&if_stmt->condition, fp); fprintf(fp, " {\n"); foreach_list_typed(nir_cf_node, node, node, &if_stmt->then_list) { print_cf_node(node, state, tabs + 1, fp); } print_tabs(tabs, fp); fprintf(fp, "} else {\n"); foreach_list_typed(nir_cf_node, node, node, &if_stmt->else_list) { print_cf_node(node, state, tabs + 1, fp); } print_tabs(tabs, fp); fprintf(fp, "}\n"); } static void print_loop(nir_loop *loop, print_var_state *state, unsigned tabs, FILE *fp) { print_tabs(tabs, fp); fprintf(fp, "loop {\n"); foreach_list_typed(nir_cf_node, node, node, &loop->body) { print_cf_node(node, state, tabs + 1, fp); } print_tabs(tabs, fp); fprintf(fp, "}\n"); } static void print_cf_node(nir_cf_node *node, print_var_state *state, unsigned int tabs, FILE *fp) { switch (node->type) { case nir_cf_node_block: print_block(nir_cf_node_as_block(node), state, tabs, fp); break; case nir_cf_node_if: print_if(nir_cf_node_as_if(node), state, tabs, fp); break; case nir_cf_node_loop: print_loop(nir_cf_node_as_loop(node), state, tabs, fp); break; default: unreachable("Invalid CFG node type"); } } static void print_function_impl(nir_function_impl *impl, print_var_state *state, FILE *fp) { fprintf(fp, "\nimpl %s ", impl->overload->function->name); for (unsigned i = 0; i < impl->num_params; i++) { if (i != 0) fprintf(fp, ", "); print_var(impl->params[i], state, fp); } if (impl->return_var != NULL) { if (impl->num_params != 0) fprintf(fp, ", "); fprintf(fp, "returning "); print_var(impl->return_var, state, fp); } fprintf(fp, "{\n"); foreach_list_typed(nir_variable, var, node, &impl->locals) { fprintf(fp, "\t"); print_var_decl(var, state, fp); } foreach_list_typed(nir_register, reg, node, &impl->registers) { fprintf(fp, "\t"); print_register_decl(reg, fp); } nir_index_blocks(impl); foreach_list_typed(nir_cf_node, node, node, &impl->body) { print_cf_node(node, state, 1, fp); } fprintf(fp, "\tblock block_%u:\n}\n\n", impl->end_block->index); } static void print_function_overload(nir_function_overload *overload, print_var_state *state, FILE *fp) { fprintf(fp, "decl_overload %s ", overload->function->name); for (unsigned i = 0; i < overload->num_params; i++) { if (i != 0) fprintf(fp, ", "); switch (overload->params[i].param_type) { case nir_parameter_in: fprintf(fp, "in "); break; case nir_parameter_out: fprintf(fp, "out "); break; case nir_parameter_inout: fprintf(fp, "inout "); break; default: unreachable("Invalid parameter type"); } glsl_print_type(overload->params[i].type, fp); } if (overload->return_type != NULL) { if (overload->num_params != 0) fprintf(fp, ", "); fprintf(fp, "returning "); glsl_print_type(overload->return_type, fp); } fprintf(fp, "\n"); if (overload->impl != NULL) { print_function_impl(overload->impl, state, fp); return; } } static void print_function(nir_function *func, print_var_state *state, FILE *fp) { foreach_list_typed(nir_function_overload, overload, node, &func->overload_list) { print_function_overload(overload, state, fp); } } static void init_print_state(print_var_state *state) { state->ht = _mesa_hash_table_create(NULL, _mesa_hash_pointer, _mesa_key_pointer_equal); state->syms = _mesa_set_create(NULL, _mesa_key_hash_string, _mesa_key_string_equal); state->index = 0; } static void destroy_print_state(print_var_state *state) { _mesa_hash_table_destroy(state->ht, NULL); _mesa_set_destroy(state->syms, NULL); } void nir_print_shader(nir_shader *shader, FILE *fp) { print_var_state state; init_print_state(&state); foreach_list_typed(nir_variable, var, node, &shader->uniforms) { print_var_decl(var, &state, fp); } foreach_list_typed(nir_variable, var, node, &shader->inputs) { print_var_decl(var, &state, fp); } foreach_list_typed(nir_variable, var, node, &shader->outputs) { print_var_decl(var, &state, fp); } foreach_list_typed(nir_variable, var, node, &shader->globals) { print_var_decl(var, &state, fp); } foreach_list_typed(nir_variable, var, node, &shader->system_values) { print_var_decl(var, &state, fp); } foreach_list_typed(nir_register, reg, node, &shader->registers) { print_register_decl(reg, fp); } foreach_list_typed(nir_function, func, node, &shader->functions) { print_function(func, &state, fp); } destroy_print_state(&state); } void nir_print_instr(const nir_instr *instr, FILE *fp) { print_instr(instr, NULL, 0, fp); }