2016-10-02 15:50:34 +00:00
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#include "mcg.h"
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static PMAPOF(struct basicblock, struct basicblock) dominancefrontiers;
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static struct local* current_local;
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static ARRAYOF(struct basicblock) defining;
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static ARRAYOF(struct basicblock) needsphis;
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static ARRAYOF(struct ir) definitions;
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static ARRAYOF(struct basicblock) rewritten;
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static void calculate_dominance_frontier_graph(void)
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{
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/* This is the algorithm described here:
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*
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* Cooper, Keith D., Timothy J. Harvey, and Ken Kennedy.
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* "A simple, fast dominance algorithm."
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* Software Practice & Experience 4.1-10 (2001): 1-8.
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*
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* https://www.cs.rice.edu/~keith/EMBED/dom.pdf
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*/
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int i, j;
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dominancefrontiers.count = 0;
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2016-10-06 19:34:21 +00:00
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for (i=0; i<cfg.postorder.count; i++)
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2016-10-02 15:50:34 +00:00
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{
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2016-10-06 19:34:21 +00:00
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struct basicblock* b = cfg.postorder.item[i];
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struct basicblock* dominator = pmap_get(&dominance.graph, b);
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2016-10-02 15:50:34 +00:00
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if (b->prevs.count >= 2)
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{
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for (j=0; j<b->prevs.count; j++)
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{
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struct basicblock* runner = b->prevs.item[j];
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while (runner != dominator)
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{
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tracef('S', "S: %s is in %s's dominance frontier\n",
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b->name, runner->name);
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pmap_add(&dominancefrontiers, runner, b);
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2016-10-06 19:34:21 +00:00
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runner = pmap_get(&dominance.graph, runner);
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2016-10-02 15:50:34 +00:00
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}
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}
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}
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}
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}
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static bool is_local(struct ir* ir)
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{
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return ((ir->opcode == IR_LOAD) &&
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(ir->left->opcode == IR_LOCAL) &&
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(ir->left->u.ivalue == current_local->offset));
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}
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static bool rewrite_loads_cb(struct ir* ir, void* user)
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{
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struct ir* definition = user;
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/* Rewrite in place where possible. */
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if (ir->left && is_local(ir->left))
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ir->left = definition;
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if (ir->right && is_local(ir->right))
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ir->right = definition;
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/* Otherwise, go via a IR_REG (which should, with luck, turn into no code). */
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if (is_local(ir))
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{
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ir->opcode = IR_NOP;
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2016-10-03 18:52:36 +00:00
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ir->size = 0;
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2016-10-02 15:50:34 +00:00
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ir->left = definition;
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ir->right = NULL;
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}
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return false;
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}
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/* Walks the tree, rewriting IRs to push new definitions downwards. */
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static void recursively_rewrite_tree(struct basicblock* bb)
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{
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int i;
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int defcount = definitions.count;
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if (array_contains(&rewritten, bb))
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return;
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array_appendu(&rewritten, bb);
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for (i=0; i<bb->irs.count; i++)
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{
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struct ir* ir = bb->irs.item[i];
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if (definitions.count > 0)
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{
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ir_walk(ir, rewrite_loads_cb, definitions.item[definitions.count-1]);
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}
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if (((ir->opcode == IR_STORE) &&
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(ir->left->opcode == IR_LOCAL) &&
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(ir->left->u.ivalue == current_local->offset)
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) ||
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((i == 0) &&
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(ir->opcode == IR_PHI) &&
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array_contains(&needsphis, bb)))
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{
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/* This is a definition. */
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if (ir->opcode == IR_STORE)
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{
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ir->opcode = IR_NOP;
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2016-10-03 18:52:36 +00:00
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ir->size = 0;
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2016-10-02 15:50:34 +00:00
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ir->left = ir->right;
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ir->right = NULL;
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}
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array_push(&definitions, ir);
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}
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}
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for (i=0; i<bb->nexts.count; i++)
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{
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struct basicblock* nextbb = bb->nexts.item[i];
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struct ir* ir = nextbb->irs.item[0];
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if ((definitions.count > 0) &&
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(ir->opcode == IR_PHI) &&
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array_contains(&needsphis, nextbb))
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{
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array_appendu(&ir->u.phivalue, definitions.item[definitions.count-1]);
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}
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recursively_rewrite_tree(nextbb);
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}
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definitions.count = defcount;
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}
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static void ssa_convert(void)
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{
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int i, j;
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/* If this is a parameter, synthesise a load/store at the beginning of the
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* program to force it into a register. (Unless it's written to it'll
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* always be read from the frame.) */
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if (current_local->offset >= 0)
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{
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struct ir* ir = new_ir2(
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IR_STORE, current_local->size,
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new_localir(current_local->offset),
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new_ir1(
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IR_LOAD, current_local->size,
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new_localir(current_local->offset)
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)
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);
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ir->root = ir;
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ir->left->root = ir;
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ir->right->root = ir;
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ir->right->left->root = ir;
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2016-10-06 19:34:21 +00:00
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array_insert(&cfg.entry->irs, ir, 0);
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2016-10-02 15:50:34 +00:00
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}
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defining.count = 0;
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needsphis.count = 0;
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/* Find everwhere where the variable is *defined*. */
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2016-10-06 19:34:21 +00:00
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for (i=0; i<cfg.postorder.count; i++)
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2016-10-02 15:50:34 +00:00
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{
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2016-10-06 19:34:21 +00:00
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struct basicblock* bb = cfg.postorder.item[i];
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2016-10-02 15:50:34 +00:00
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for (j=0; j<bb->irs.count; j++)
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{
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struct ir* ir = bb->irs.item[j];
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if ((ir->opcode == IR_STORE) &&
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(ir->left->opcode == IR_LOCAL) &&
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(ir->left->u.ivalue == current_local->offset))
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{
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array_appendu(&defining, bb);
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}
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}
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}
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/* Every block which is in one of the defining block's dominance frontiers
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* requires a phi. Remember that adding a phi also adds a definition. */
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for (i=0; i<defining.count; i++)
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{
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struct basicblock* bb = defining.item[i];
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struct basicblock* dominates = pmap_get(&dominancefrontiers, bb);
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if (dominates)
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{
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array_appendu(&needsphis, dominates);
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array_appendu(&defining, dominates);
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tracef('S', "S: local %d needs phi in block %s\n", current_local->offset, dominates->name);
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}
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}
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/* Add empty phi nodes. */
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for (i=0; i<needsphis.count; i++)
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{
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struct basicblock* bb = needsphis.item[i];
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struct ir* ir = new_ir0(IR_PHI, current_local->size);
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ir->root = ir;
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array_insert(&bb->irs, ir, 0);
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}
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/* Now do the rewriting by walking the tree, pushing definitions down the tree. */
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definitions.count = 0;
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rewritten.count = 0;
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2016-10-06 19:34:21 +00:00
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recursively_rewrite_tree(cfg.entry);
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2016-10-02 15:50:34 +00:00
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}
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void pass_convert_locals_to_ssa(struct procedure* proc)
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{
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int i;
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calculate_dominance_frontier_graph();
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for (i=0; i<proc->locals.count; i++)
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{
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current_local = proc->locals.item[i].right;
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if (current_local->is_register)
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ssa_convert();
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}
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}
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/* vim: set sw=4 ts=4 expandtab : */
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