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+/*
+ * Copyright © 2010 Luca Barbieri
+ *
+ * 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.
+ */
+
+/**
+ * \file lower_jumps.cpp
+ *
+ * This pass lowers jumps (break, continue, and return) to if/else structures.
+ *
+ * It can be asked to:
+ * 1. Pull jumps out of ifs where possible
+ * 2. Remove all "continue"s, replacing them with an "execute flag"
+ * 3. Replace all "break" with a single conditional one at the end of the loop
+ * 4. Replace all "return"s with a single return at the end of the function,
+ * for the main function and/or other functions
+ *
+ * Applying this pass gives several benefits:
+ * 1. All functions can be inlined.
+ * 2. nv40 and other pre-DX10 chips without "continue" can be supported
+ * 3. nv30 and other pre-DX10 chips with no control flow at all are better
+ * supported
+ *
+ * Continues are lowered by adding a per-loop "execute flag", initialized to
+ * true, that when cleared inhibits all execution until the end of the loop.
+ *
+ * Breaks are lowered to continues, plus setting a "break flag" that is checked
+ * at the end of the loop, and trigger the unique "break".
+ *
+ * Returns are lowered to breaks/continues, plus adding a "return flag" that
+ * causes loops to break again out of their enclosing loops until all the
+ * loops are exited: then the "execute flag" logic will ignore everything
+ * until the end of the function.
+ *
+ * Note that "continue" and "return" can also be implemented by adding
+ * a dummy loop and using break.
+ * However, this is bad for hardware with limited nesting depth, and
+ * prevents further optimization, and thus is not currently performed.
+ */
+
+#include "compiler/glsl_types.h"
+#include <string.h>
+#include "ir.h"
+
+/**
+ * Enum recording the result of analyzing how control flow might exit
+ * an IR node.
+ *
+ * Each possible value of jump_strength indicates a strictly stronger
+ * guarantee on control flow than the previous value.
+ *
+ * The ordering of strengths roughly reflects the way jumps are
+ * lowered: jumps with higher strength tend to be lowered to jumps of
+ * lower strength. Accordingly, strength is used as a heuristic to
+ * determine which lowering to perform first.
+ *
+ * This enum is also used by get_jump_strength() to categorize
+ * instructions as either break, continue, return, or other. When
+ * used in this fashion, strength_always_clears_execute_flag is not
+ * used.
+ *
+ * The control flow analysis made by this optimization pass makes two
+ * simplifying assumptions:
+ *
+ * - It ignores discard instructions, since they are lowered by a
+ * separate pass (lower_discard.cpp).
+ *
+ * - It assumes it is always possible for control to flow from a loop
+ * to the instruction immediately following it. Technically, this
+ * is not true (since all execution paths through the loop might
+ * jump back to the top, or return from the function).
+ *
+ * Both of these simplifying assumtions are safe, since they can never
+ * cause reachable code to be incorrectly classified as unreachable;
+ * they can only do the opposite.
+ */
+enum jump_strength
+{
+ /**
+ * Analysis has produced no guarantee on how control flow might
+ * exit this IR node. It might fall out the bottom (with or
+ * without clearing the execute flag, if present), or it might
+ * continue to the top of the innermost enclosing loop, break out
+ * of it, or return from the function.
+ */
+ strength_none,
+
+ /**
+ * The only way control can fall out the bottom of this node is
+ * through a code path that clears the execute flag. It might also
+ * continue to the top of the innermost enclosing loop, break out
+ * of it, or return from the function.
+ */
+ strength_always_clears_execute_flag,
+
+ /**
+ * Control cannot fall out the bottom of this node. It might
+ * continue to the top of the innermost enclosing loop, break out
+ * of it, or return from the function.
+ */
+ strength_continue,
+
+ /**
+ * Control cannot fall out the bottom of this node, or continue the
+ * top of the innermost enclosing loop. It can only break out of
+ * it or return from the function.
+ */
+ strength_break,
+
+ /**
+ * Control cannot fall out the bottom of this node, continue to the
+ * top of the innermost enclosing loop, or break out of it. It can
+ * only return from the function.
+ */
+ strength_return
+};
+
+namespace {
+
+struct block_record
+{
+ /* minimum jump strength (of lowered IR, not pre-lowering IR)
+ *
+ * If the block ends with a jump, must be the strength of the jump.
+ * Otherwise, the jump would be dead and have been deleted before)
+ *
+ * If the block doesn't end with a jump, it can be different than strength_none if all paths before it lead to some jump
+ * (e.g. an if with a return in one branch, and a break in the other, while not lowering them)
+ * Note that identical jumps are usually unified though.
+ */
+ jump_strength min_strength;
+
+ /* can anything clear the execute flag? */
+ bool may_clear_execute_flag;
+
+ block_record()
+ {
+ this->min_strength = strength_none;
+ this->may_clear_execute_flag = false;
+ }
+};
+
+struct loop_record
+{
+ ir_function_signature* signature;
+ ir_loop* loop;
+
+ /* used to avoid lowering the break used to represent lowered breaks */
+ unsigned nesting_depth;
+ bool in_if_at_the_end_of_the_loop;
+
+ bool may_set_return_flag;
+
+ ir_variable* break_flag;
+ ir_variable* execute_flag; /* cleared to emulate continue */
+
+ loop_record(ir_function_signature* p_signature = 0, ir_loop* p_loop = 0)
+ {
+ this->signature = p_signature;
+ this->loop = p_loop;
+ this->nesting_depth = 0;
+ this->in_if_at_the_end_of_the_loop = false;
+ this->may_set_return_flag = false;
+ this->break_flag = 0;
+ this->execute_flag = 0;
+ }
+
+ ir_variable* get_execute_flag()
+ {
+ /* also supported for the "function loop" */
+ if(!this->execute_flag) {
+ exec_list& list = this->loop ? this->loop->body_instructions : signature->body;
+ this->execute_flag = new(this->signature) ir_variable(glsl_type::bool_type, "execute_flag", ir_var_temporary);
+ list.push_head(new(this->signature) ir_assignment(new(this->signature) ir_dereference_variable(execute_flag), new(this->signature) ir_constant(true), 0));
+ list.push_head(this->execute_flag);
+ }
+ return this->execute_flag;
+ }
+
+ ir_variable* get_break_flag()
+ {
+ assert(this->loop);
+ if(!this->break_flag) {
+ this->break_flag = new(this->signature) ir_variable(glsl_type::bool_type, "break_flag", ir_var_temporary);
+ this->loop->insert_before(this->break_flag);
+ this->loop->insert_before(new(this->signature) ir_assignment(new(this->signature) ir_dereference_variable(break_flag), new(this->signature) ir_constant(false), 0));
+ }
+ return this->break_flag;
+ }
+};
+
+struct function_record
+{
+ ir_function_signature* signature;
+ ir_variable* return_flag; /* used to break out of all loops and then jump to the return instruction */
+ ir_variable* return_value;
+ bool lower_return;
+ unsigned nesting_depth;
+
+ function_record(ir_function_signature* p_signature = 0,
+ bool lower_return = false)
+ {
+ this->signature = p_signature;
+ this->return_flag = 0;
+ this->return_value = 0;
+ this->nesting_depth = 0;
+ this->lower_return = lower_return;
+ }
+
+ ir_variable* get_return_flag()
+ {
+ if(!this->return_flag) {
+ this->return_flag = new(this->signature) ir_variable(glsl_type::bool_type, "return_flag", ir_var_temporary);
+ this->signature->body.push_head(new(this->signature) ir_assignment(new(this->signature) ir_dereference_variable(return_flag), new(this->signature) ir_constant(false), 0));
+ this->signature->body.push_head(this->return_flag);
+ }
+ return this->return_flag;
+ }
+
+ ir_variable* get_return_value()
+ {
+ if(!this->return_value) {
+ assert(!this->signature->return_type->is_void());
+ return_value = new(this->signature) ir_variable(this->signature->return_type, "return_value", ir_var_temporary);
+ this->signature->body.push_head(this->return_value);
+ }
+ return this->return_value;
+ }
+};
+
+struct ir_lower_jumps_visitor : public ir_control_flow_visitor {
+ /* Postconditions: on exit of any visit() function:
+ *
+ * ANALYSIS: this->block.min_strength,
+ * this->block.may_clear_execute_flag, and
+ * this->loop.may_set_return_flag are updated to reflect the
+ * characteristics of the visited statement.
+ *
+ * DEAD_CODE_ELIMINATION: If this->block.min_strength is not
+ * strength_none, the visited node is at the end of its exec_list.
+ * In other words, any unreachable statements that follow the
+ * visited statement in its exec_list have been removed.
+ *
+ * CONTAINED_JUMPS_LOWERED: If the visited statement contains other
+ * statements, then should_lower_jump() is false for all of the
+ * return, break, or continue statements it contains.
+ *
+ * Note that visiting a jump does not lower it. That is the
+ * responsibility of the statement (or function signature) that
+ * contains the jump.
+ */
+
+ bool progress;
+
+ struct function_record function;
+ struct loop_record loop;
+ struct block_record block;
+
+ bool pull_out_jumps;
+ bool lower_continue;
+ bool lower_break;
+ bool lower_sub_return;
+ bool lower_main_return;
+
+ ir_lower_jumps_visitor()
+ : progress(false),
+ pull_out_jumps(false),
+ lower_continue(false),
+ lower_break(false),
+ lower_sub_return(false),
+ lower_main_return(false)
+ {
+ }
+
+ void truncate_after_instruction(exec_node *ir)
+ {
+ if (!ir)
+ return;
+
+ while (!ir->get_next()->is_tail_sentinel()) {
+ ((ir_instruction *)ir->get_next())->remove();
+ this->progress = true;
+ }
+ }
+
+ void move_outer_block_inside(ir_instruction *ir, exec_list *inner_block)
+ {
+ while (!ir->get_next()->is_tail_sentinel()) {
+ ir_instruction *move_ir = (ir_instruction *)ir->get_next();
+
+ move_ir->remove();
+ inner_block->push_tail(move_ir);
+ }
+ }
+
+ /**
+ * Insert the instructions necessary to lower a return statement,
+ * before the given return instruction.
+ */
+ void insert_lowered_return(ir_return *ir)
+ {
+ ir_variable* return_flag = this->function.get_return_flag();
+ if(!this->function.signature->return_type->is_void()) {
+ ir_variable* return_value = this->function.get_return_value();
+ ir->insert_before(
+ new(ir) ir_assignment(
+ new (ir) ir_dereference_variable(return_value),
+ ir->value));
+ }
+ ir->insert_before(
+ new(ir) ir_assignment(
+ new (ir) ir_dereference_variable(return_flag),
+ new (ir) ir_constant(true)));
+ this->loop.may_set_return_flag = true;
+ }
+
+ /**
+ * If the given instruction is a return, lower it to instructions
+ * that store the return value (if there is one), set the return
+ * flag, and then break.
+ *
+ * It is safe to pass NULL to this function.
+ */
+ void lower_return_unconditionally(ir_instruction *ir)
+ {
+ if (get_jump_strength(ir) != strength_return) {
+ return;
+ }
+ insert_lowered_return((ir_return*)ir);
+ ir->replace_with(new(ir) ir_loop_jump(ir_loop_jump::jump_break));
+ }
+
+ /**
+ * Create the necessary instruction to replace a break instruction.
+ */
+ ir_instruction *create_lowered_break()
+ {
+ void *ctx = this->function.signature;
+ return new(ctx) ir_assignment(
+ new(ctx) ir_dereference_variable(this->loop.get_break_flag()),
+ new(ctx) ir_constant(true),
+ 0);
+ }
+
+ /**
+ * If the given instruction is a break, lower it to an instruction
+ * that sets the break flag, without consulting
+ * should_lower_jump().
+ *
+ * It is safe to pass NULL to this function.
+ */
+ void lower_break_unconditionally(ir_instruction *ir)
+ {
+ if (get_jump_strength(ir) != strength_break) {
+ return;
+ }
+ ir->replace_with(create_lowered_break());
+ }
+
+ /**
+ * If the block ends in a conditional or unconditional break, lower
+ * it, even though should_lower_jump() says it needn't be lowered.
+ */
+ void lower_final_breaks(exec_list *block)
+ {
+ ir_instruction *ir = (ir_instruction *) block->get_tail();
+ lower_break_unconditionally(ir);
+ ir_if *ir_if = ir->as_if();
+ if (ir_if) {
+ lower_break_unconditionally(
+ (ir_instruction *) ir_if->then_instructions.get_tail());
+ lower_break_unconditionally(
+ (ir_instruction *) ir_if->else_instructions.get_tail());
+ }
+ }
+
+ virtual void visit(class ir_loop_jump * ir)
+ {
+ /* Eliminate all instructions after each one, since they are
+ * unreachable. This satisfies the DEAD_CODE_ELIMINATION
+ * postcondition.
+ */
+ truncate_after_instruction(ir);
+
+ /* Set this->block.min_strength based on this instruction. This
+ * satisfies the ANALYSIS postcondition. It is not necessary to
+ * update this->block.may_clear_execute_flag or
+ * this->loop.may_set_return_flag, because an unlowered jump
+ * instruction can't change any flags.
+ */
+ this->block.min_strength = ir->is_break() ? strength_break : strength_continue;
+
+ /* The CONTAINED_JUMPS_LOWERED postcondition is already
+ * satisfied, because jump statements can't contain other
+ * statements.
+ */
+ }
+
+ virtual void visit(class ir_return * ir)
+ {
+ /* Eliminate all instructions after each one, since they are
+ * unreachable. This satisfies the DEAD_CODE_ELIMINATION
+ * postcondition.
+ */
+ truncate_after_instruction(ir);
+
+ /* Set this->block.min_strength based on this instruction. This
+ * satisfies the ANALYSIS postcondition. It is not necessary to
+ * update this->block.may_clear_execute_flag or
+ * this->loop.may_set_return_flag, because an unlowered return
+ * instruction can't change any flags.
+ */
+ this->block.min_strength = strength_return;
+
+ /* The CONTAINED_JUMPS_LOWERED postcondition is already
+ * satisfied, because jump statements can't contain other
+ * statements.
+ */
+ }
+
+ virtual void visit(class ir_discard * ir)
+ {
+ /* Nothing needs to be done. The ANALYSIS and
+ * DEAD_CODE_ELIMINATION postconditions are already satisfied,
+ * because discard statements are ignored by this optimization
+ * pass. The CONTAINED_JUMPS_LOWERED postcondition is already
+ * satisfied, because discard statements can't contain other
+ * statements.
+ */
+ (void) ir;
+ }
+
+ enum jump_strength get_jump_strength(ir_instruction* ir)
+ {
+ if(!ir)
+ return strength_none;
+ else if(ir->ir_type == ir_type_loop_jump) {
+ if(((ir_loop_jump*)ir)->is_break())
+ return strength_break;
+ else
+ return strength_continue;
+ } else if(ir->ir_type == ir_type_return)
+ return strength_return;
+ else
+ return strength_none;
+ }
+
+ bool should_lower_jump(ir_jump* ir)
+ {
+ unsigned strength = get_jump_strength(ir);
+ bool lower;
+ switch(strength)
+ {
+ case strength_none:
+ lower = false; /* don't change this, code relies on it */
+ break;
+ case strength_continue:
+ lower = lower_continue;
+ break;
+ case strength_break:
+ assert(this->loop.loop);
+ /* never lower "canonical break" */
+ if(ir->get_next()->is_tail_sentinel() && (this->loop.nesting_depth == 0
+ || (this->loop.nesting_depth == 1 && this->loop.in_if_at_the_end_of_the_loop)))
+ lower = false;
+ else
+ lower = lower_break;
+ break;
+ case strength_return:
+ /* never lower return at the end of a this->function */
+ if(this->function.nesting_depth == 0 && ir->get_next()->is_tail_sentinel())
+ lower = false;
+ else
+ lower = this->function.lower_return;
+ break;
+ }
+ return lower;
+ }
+
+ block_record visit_block(exec_list* list)
+ {
+ /* Note: since visiting a node may change that node's next
+ * pointer, we can't use visit_exec_list(), because
+ * visit_exec_list() caches the node's next pointer before
+ * visiting it. So we use foreach_in_list() instead.
+ *
+ * foreach_in_list() isn't safe if the node being visited gets
+ * removed, but fortunately this visitor doesn't do that.
+ */
+
+ block_record saved_block = this->block;
+ this->block = block_record();
+ foreach_in_list(ir_instruction, node, list) {
+ node->accept(this);
+ }
+ block_record ret = this->block;
+ this->block = saved_block;
+ return ret;
+ }
+
+ virtual void visit(ir_if *ir)
+ {
+ if(this->loop.nesting_depth == 0 && ir->get_next()->is_tail_sentinel())
+ this->loop.in_if_at_the_end_of_the_loop = true;
+
+ ++this->function.nesting_depth;
+ ++this->loop.nesting_depth;
+
+ block_record block_records[2];
+ ir_jump* jumps[2];
+
+ /* Recursively lower nested jumps. This satisfies the
+ * CONTAINED_JUMPS_LOWERED postcondition, except in the case of
+ * unconditional jumps at the end of ir->then_instructions and
+ * ir->else_instructions, which are handled below.
+ */
+ block_records[0] = visit_block(&ir->then_instructions);
+ block_records[1] = visit_block(&ir->else_instructions);
+
+retry: /* we get here if we put code after the if inside a branch */
+
+ /* Determine which of ir->then_instructions and
+ * ir->else_instructions end with an unconditional jump.
+ */
+ for(unsigned i = 0; i < 2; ++i) {
+ exec_list& list = i ? ir->else_instructions : ir->then_instructions;
+ jumps[i] = 0;
+ if(!list.is_empty() && get_jump_strength((ir_instruction*)list.get_tail()))
+ jumps[i] = (ir_jump*)list.get_tail();
+ }
+
+ /* Loop until we have satisfied the CONTAINED_JUMPS_LOWERED
+ * postcondition by lowering jumps in both then_instructions and
+ * else_instructions.
+ */
+ for(;;) {
+ /* Determine the types of the jumps that terminate
+ * ir->then_instructions and ir->else_instructions.
+ */
+ jump_strength jump_strengths[2];
+
+ for(unsigned i = 0; i < 2; ++i) {
+ if(jumps[i]) {
+ jump_strengths[i] = block_records[i].min_strength;
+ assert(jump_strengths[i] == get_jump_strength(jumps[i]));
+ } else
+ jump_strengths[i] = strength_none;
+ }
+
+ /* If both code paths end in a jump, and the jumps are the
+ * same, and we are pulling out jumps, replace them with a
+ * single jump that comes after the if instruction. The new
+ * jump will be visited next, and it will be lowered if
+ * necessary by the loop or conditional that encloses it.
+ */
+ if(pull_out_jumps && jump_strengths[0] == jump_strengths[1]) {
+ bool unify = true;
+ if(jump_strengths[0] == strength_continue)
+ ir->insert_after(new(ir) ir_loop_jump(ir_loop_jump::jump_continue));
+ else if(jump_strengths[0] == strength_break)
+ ir->insert_after(new(ir) ir_loop_jump(ir_loop_jump::jump_break));
+ /* FINISHME: unify returns with identical expressions */
+ else if(jump_strengths[0] == strength_return && this->function.signature->return_type->is_void())
+ ir->insert_after(new(ir) ir_return(NULL));
+ else
+ unify = false;
+
+ if(unify) {
+ jumps[0]->remove();
+ jumps[1]->remove();
+ this->progress = true;
+
+ /* Update jumps[] to reflect the fact that the jumps
+ * are gone, and update block_records[] to reflect the
+ * fact that control can now flow to the next
+ * instruction.
+ */
+ jumps[0] = 0;
+ jumps[1] = 0;
+ block_records[0].min_strength = strength_none;
+ block_records[1].min_strength = strength_none;
+
+ /* The CONTAINED_JUMPS_LOWERED postcondition is now
+ * satisfied, so we can break out of the loop.
+ */
+ break;
+ }
+ }
+
+ /* lower a jump: if both need to lowered, start with the strongest one, so that
+ * we might later unify the lowered version with the other one
+ */
+ bool should_lower[2];
+ for(unsigned i = 0; i < 2; ++i)
+ should_lower[i] = should_lower_jump(jumps[i]);
+
+ int lower;
+ if(should_lower[1] && should_lower[0])
+ lower = jump_strengths[1] > jump_strengths[0];
+ else if(should_lower[0])
+ lower = 0;
+ else if(should_lower[1])
+ lower = 1;
+ else
+ /* Neither code path ends in a jump that needs to be
+ * lowered, so the CONTAINED_JUMPS_LOWERED postcondition
+ * is satisfied and we can break out of the loop.
+ */
+ break;
+
+ if(jump_strengths[lower] == strength_return) {
+ /* To lower a return, we create a return flag (if the
+ * function doesn't have one already) and add instructions
+ * that: 1. store the return value (if this function has a
+ * non-void return) and 2. set the return flag
+ */
+ insert_lowered_return((ir_return*)jumps[lower]);
+ if(this->loop.loop) {
+ /* If we are in a loop, replace the return instruction
+ * with a break instruction, and then loop so that the
+ * break instruction can be lowered if necessary.
+ */
+ ir_loop_jump* lowered = 0;
+ lowered = new(ir) ir_loop_jump(ir_loop_jump::jump_break);
+ /* Note: we must update block_records and jumps to
+ * reflect the fact that the control path has been
+ * altered from a return to a break.
+ */
+ block_records[lower].min_strength = strength_break;
+ jumps[lower]->replace_with(lowered);
+ jumps[lower] = lowered;
+ } else {
+ /* If we are not in a loop, we then proceed as we would
+ * for a continue statement (set the execute flag to
+ * false to prevent the rest of the function from
+ * executing).
+ */
+ goto lower_continue;
+ }
+ this->progress = true;
+ } else if(jump_strengths[lower] == strength_break) {
+ /* To lower a break, we create a break flag (if the loop
+ * doesn't have one already) and add an instruction that
+ * sets it.
+ *
+ * Then we proceed as we would for a continue statement
+ * (set the execute flag to false to prevent the rest of
+ * the loop body from executing).
+ *
+ * The visit() function for the loop will ensure that the
+ * break flag is checked after executing the loop body.
+ */
+ jumps[lower]->insert_before(create_lowered_break());
+ goto lower_continue;
+ } else if(jump_strengths[lower] == strength_continue) {
+lower_continue:
+ /* To lower a continue, we create an execute flag (if the
+ * loop doesn't have one already) and replace the continue
+ * with an instruction that clears it.
+ *
+ * Note that this code path gets exercised when lowering
+ * return statements that are not inside a loop, so
+ * this->loop must be initialized even outside of loops.
+ */
+ ir_variable* execute_flag = this->loop.get_execute_flag();
+ jumps[lower]->replace_with(new(ir) ir_assignment(new (ir) ir_dereference_variable(execute_flag), new (ir) ir_constant(false), 0));
+ /* Note: we must update block_records and jumps to reflect
+ * the fact that the control path has been altered to an
+ * instruction that clears the execute flag.
+ */
+ jumps[lower] = 0;
+ block_records[lower].min_strength = strength_always_clears_execute_flag;
+ block_records[lower].may_clear_execute_flag = true;
+ this->progress = true;
+
+ /* Let the loop run again, in case the other branch of the
+ * if needs to be lowered too.
+ */
+ }
+ }
+
+ /* move out a jump out if possible */
+ if(pull_out_jumps) {
+ /* If one of the branches ends in a jump, and control cannot
+ * fall out the bottom of the other branch, then we can move
+ * the jump after the if.
+ *
+ * Set move_out to the branch we are moving a jump out of.
+ */
+ int move_out = -1;
+ if(jumps[0] && block_records[1].min_strength >= strength_continue)
+ move_out = 0;
+ else if(jumps[1] && block_records[0].min_strength >= strength_continue)
+ move_out = 1;
+
+ if(move_out >= 0)
+ {
+ jumps[move_out]->remove();
+ ir->insert_after(jumps[move_out]);
+ /* Note: we must update block_records and jumps to reflect
+ * the fact that the jump has been moved out of the if.
+ */
+ jumps[move_out] = 0;
+ block_records[move_out].min_strength = strength_none;
+ this->progress = true;
+ }
+ }
+
+ /* Now satisfy the ANALYSIS postcondition by setting
+ * this->block.min_strength and
+ * this->block.may_clear_execute_flag based on the
+ * characteristics of the two branches.
+ */
+ if(block_records[0].min_strength < block_records[1].min_strength)
+ this->block.min_strength = block_records[0].min_strength;
+ else
+ this->block.min_strength = block_records[1].min_strength;
+ this->block.may_clear_execute_flag = this->block.may_clear_execute_flag || block_records[0].may_clear_execute_flag || block_records[1].may_clear_execute_flag;
+
+ /* Now we need to clean up the instructions that follow the
+ * if.
+ *
+ * If those instructions are unreachable, then satisfy the
+ * DEAD_CODE_ELIMINATION postcondition by eliminating them.
+ * Otherwise that postcondition is already satisfied.
+ */
+ if(this->block.min_strength)
+ truncate_after_instruction(ir);
+ else if(this->block.may_clear_execute_flag)
+ {
+ /* If the "if" instruction might clear the execute flag, then
+ * we need to guard any instructions that follow so that they
+ * are only executed if the execute flag is set.
+ *
+ * If one of the branches of the "if" always clears the
+ * execute flag, and the other branch never clears it, then
+ * this is easy: just move all the instructions following the
+ * "if" into the branch that never clears it.
+ */
+ int move_into = -1;
+ if(block_records[0].min_strength && !block_records[1].may_clear_execute_flag)
+ move_into = 1;
+ else if(block_records[1].min_strength && !block_records[0].may_clear_execute_flag)
+ move_into = 0;
+
+ if(move_into >= 0) {
+ assert(!block_records[move_into].min_strength && !block_records[move_into].may_clear_execute_flag); /* otherwise, we just truncated */
+
+ exec_list* list = move_into ? &ir->else_instructions : &ir->then_instructions;
+ exec_node* next = ir->get_next();
+ if(!next->is_tail_sentinel()) {
+ move_outer_block_inside(ir, list);
+
+ /* If any instructions moved, then we need to visit
+ * them (since they are now inside the "if"). Since
+ * block_records[move_into] is in its default state
+ * (see assertion above), we can safely replace
+ * block_records[move_into] with the result of this
+ * analysis.
+ */
+ exec_list list;
+ list.head = next;
+ block_records[move_into] = visit_block(&list);
+
+ /*
+ * Then we need to re-start our jump lowering, since one
+ * of the instructions we moved might be a jump that
+ * needs to be lowered.
+ */
+ this->progress = true;
+ goto retry;
+ }
+ } else {
+ /* If we get here, then the simple case didn't apply; we
+ * need to actually guard the instructions that follow.
+ *
+ * To avoid creating unnecessarily-deep nesting, first
+ * look through the instructions that follow and unwrap
+ * any instructions that that are already wrapped in the
+ * appropriate guard.
+ */
+ ir_instruction* ir_after;
+ for(ir_after = (ir_instruction*)ir->get_next(); !ir_after->is_tail_sentinel();)
+ {
+ ir_if* ir_if = ir_after->as_if();
+ if(ir_if && ir_if->else_instructions.is_empty()) {
+ ir_dereference_variable* ir_if_cond_deref = ir_if->condition->as_dereference_variable();
+ if(ir_if_cond_deref && ir_if_cond_deref->var == this->loop.execute_flag) {
+ ir_instruction* ir_next = (ir_instruction*)ir_after->get_next();
+ ir_after->insert_before(&ir_if->then_instructions);
+ ir_after->remove();
+ ir_after = ir_next;
+ continue;
+ }
+ }
+ ir_after = (ir_instruction*)ir_after->get_next();
+
+ /* only set this if we find any unprotected instruction */
+ this->progress = true;
+ }
+
+ /* Then, wrap all the instructions that follow in a single
+ * guard.
+ */
+ if(!ir->get_next()->is_tail_sentinel()) {
+ assert(this->loop.execute_flag);
+ ir_if* if_execute = new(ir) ir_if(new(ir) ir_dereference_variable(this->loop.execute_flag));
+ move_outer_block_inside(ir, &if_execute->then_instructions);
+ ir->insert_after(if_execute);
+ }
+ }
+ }
+ --this->loop.nesting_depth;
+ --this->function.nesting_depth;
+ }
+
+ virtual void visit(ir_loop *ir)
+ {
+ /* Visit the body of the loop, with a fresh data structure in
+ * this->loop so that the analysis we do here won't bleed into
+ * enclosing loops.
+ *
+ * We assume that all code after a loop is reachable from the
+ * loop (see comments on enum jump_strength), so the
+ * DEAD_CODE_ELIMINATION postcondition is automatically
+ * satisfied, as is the block.min_strength portion of the
+ * ANALYSIS postcondition.
+ *
+ * The block.may_clear_execute_flag portion of the ANALYSIS
+ * postcondition is automatically satisfied because execute
+ * flags do not propagate outside of loops.
+ *
+ * The loop.may_set_return_flag portion of the ANALYSIS
+ * postcondition is handled below.
+ */
+ ++this->function.nesting_depth;
+ loop_record saved_loop = this->loop;
+ this->loop = loop_record(this->function.signature, ir);
+
+ /* Recursively lower nested jumps. This satisfies the
+ * CONTAINED_JUMPS_LOWERED postcondition, except in the case of
+ * an unconditional continue or return at the bottom of the
+ * loop, which are handled below.
+ */
+ block_record body = visit_block(&ir->body_instructions);
+
+ /* If the loop ends in an unconditional continue, eliminate it
+ * because it is redundant.
+ */
+ ir_instruction *ir_last
+ = (ir_instruction *) ir->body_instructions.get_tail();
+ if (get_jump_strength(ir_last) == strength_continue) {
+ ir_last->remove();
+ }
+
+ /* If the loop ends in an unconditional return, and we are
+ * lowering returns, lower it.
+ */
+ if (this->function.lower_return)
+ lower_return_unconditionally(ir_last);
+
+ if(body.min_strength >= strength_break) {
+ /* FINISHME: If the min_strength of the loop body is
+ * strength_break or strength_return, that means that it
+ * isn't a loop at all, since control flow always leaves the
+ * body of the loop via break or return. In principle the
+ * loop could be eliminated in this case. This optimization
+ * is not implemented yet.
+ */
+ }
+
+ if(this->loop.break_flag) {
+ /* We only get here if we are lowering breaks */
+ assert (lower_break);
+
+ /* If a break flag was generated while visiting the body of
+ * the loop, then at least one break was lowered, so we need
+ * to generate an if statement at the end of the loop that
+ * does a "break" if the break flag is set. The break we
+ * generate won't violate the CONTAINED_JUMPS_LOWERED
+ * postcondition, because should_lower_jump() always returns
+ * false for a break that happens at the end of a loop.
+ *
+ * However, if the loop already ends in a conditional or
+ * unconditional break, then we need to lower that break,
+ * because it won't be at the end of the loop anymore.
+ */
+ lower_final_breaks(&ir->body_instructions);
+
+ ir_if* break_if = new(ir) ir_if(new(ir) ir_dereference_variable(this->loop.break_flag));
+ break_if->then_instructions.push_tail(new(ir) ir_loop_jump(ir_loop_jump::jump_break));
+ ir->body_instructions.push_tail(break_if);
+ }
+
+ /* If the body of the loop may set the return flag, then at
+ * least one return was lowered to a break, so we need to ensure
+ * that the return flag is checked after the body of the loop is
+ * executed.
+ */
+ if(this->loop.may_set_return_flag) {
+ assert(this->function.return_flag);
+ /* Generate the if statement to check the return flag */
+ ir_if* return_if = new(ir) ir_if(new(ir) ir_dereference_variable(this->function.return_flag));
+ /* Note: we also need to propagate the knowledge that the
+ * return flag may get set to the outer context. This
+ * satisfies the loop.may_set_return_flag part of the
+ * ANALYSIS postcondition.
+ */
+ saved_loop.may_set_return_flag = true;
+ if(saved_loop.loop)
+ /* If this loop is nested inside another one, then the if
+ * statement that we generated should break out of that
+ * loop if the return flag is set. Caller will lower that
+ * break statement if necessary.
+ */
+ return_if->then_instructions.push_tail(new(ir) ir_loop_jump(ir_loop_jump::jump_break));
+ else
+ /* Otherwise, all we need to do is ensure that the
+ * instructions that follow are only executed if the
+ * return flag is clear. We can do that by moving those
+ * instructions into the else clause of the generated if
+ * statement.
+ */
+ move_outer_block_inside(ir, &return_if->else_instructions);
+ ir->insert_after(return_if);
+ }
+
+ this->loop = saved_loop;
+ --this->function.nesting_depth;
+ }
+
+ virtual void visit(ir_function_signature *ir)
+ {
+ /* these are not strictly necessary */
+ assert(!this->function.signature);
+ assert(!this->loop.loop);
+
+ bool lower_return;
+ if (strcmp(ir->function_name(), "main") == 0)
+ lower_return = lower_main_return;
+ else
+ lower_return = lower_sub_return;
+
+ function_record saved_function = this->function;
+ loop_record saved_loop = this->loop;
+ this->function = function_record(ir, lower_return);
+ this->loop = loop_record(ir);
+
+ assert(!this->loop.loop);
+
+ /* Visit the body of the function to lower any jumps that occur
+ * in it, except possibly an unconditional return statement at
+ * the end of it.
+ */
+ visit_block(&ir->body);
+
+ /* If the body ended in an unconditional return of non-void,
+ * then we don't need to lower it because it's the one canonical
+ * return.
+ *
+ * If the body ended in a return of void, eliminate it because
+ * it is redundant.
+ */
+ if (ir->return_type->is_void() &&
+ get_jump_strength((ir_instruction *) ir->body.get_tail())) {
+ ir_jump *jump = (ir_jump *) ir->body.get_tail();
+ assert (jump->ir_type == ir_type_return);
+ jump->remove();
+ }
+
+ if(this->function.return_value)
+ ir->body.push_tail(new(ir) ir_return(new (ir) ir_dereference_variable(this->function.return_value)));
+
+ this->loop = saved_loop;
+ this->function = saved_function;
+ }
+
+ virtual void visit(class ir_function * ir)
+ {
+ visit_block(&ir->signatures);
+ }
+};
+
+} /* anonymous namespace */
+
+bool
+do_lower_jumps(exec_list *instructions, bool pull_out_jumps, bool lower_sub_return, bool lower_main_return, bool lower_continue, bool lower_break)
+{
+ ir_lower_jumps_visitor v;
+ v.pull_out_jumps = pull_out_jumps;
+ v.lower_continue = lower_continue;
+ v.lower_break = lower_break;
+ v.lower_sub_return = lower_sub_return;
+ v.lower_main_return = lower_main_return;
+
+ bool progress_ever = false;
+ do {
+ v.progress = false;
+ visit_exec_list(instructions, &v);
+ progress_ever = v.progress || progress_ever;
+ } while (v.progress);
+
+ return progress_ever;
+}