ir/ir_gcm.c

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16 KiB
C
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#include "ir.h"
#include "ir_private.h"
/* GCM - Global Code Motion
*
* C. Click. "Global code motion, global value numbering" Submitted to PLDI 95.
*/
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static void ir_gcm_schedule_early(ir_ctx *ctx, uint32_t *_blocks, ir_ref ref)
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{
ir_ref j, n, *p;
ir_insn *insn;
uint32_t flags;
_blocks[ref] = 1;
insn = &ctx->ir_base[ref];
flags = ir_op_flags[insn->op];
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if (IR_OPND_KIND(flags, 1) == IR_OPND_CONTROL_DEP) { // PARAM, VAR, PHI, PI
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IR_ASSERT(_blocks[insn->op1] > 0);
_blocks[ref] = _blocks[insn->op1];
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n = ir_input_edges_count(ctx, insn);
for (j = 2, p = insn->ops + j; j <= n; j++, p++) {
ir_ref input = *p;
if (input > 0) {
if (_blocks[input] == 0) {
ir_gcm_schedule_early(ctx, _blocks, input);
}
}
}
return;
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}
n = ir_input_edges_count(ctx, insn);
for (j = 1, p = insn->ops + 1; j <= n; j++, p++) {
ir_ref input = *p;
if (input > 0) {
if (_blocks[input] == 0) {
ir_gcm_schedule_early(ctx, _blocks, input);
}
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if (ctx->cfg_blocks[_blocks[ref]].dom_depth < ctx->cfg_blocks[_blocks[input]].dom_depth) {
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_blocks[ref] = _blocks[input];
}
}
}
}
/* Last Common Ancestor */
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static uint32_t ir_gcm_find_lca(ir_ctx *ctx, uint32_t b1, uint32_t b2)
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{
while (ctx->cfg_blocks[b1].dom_depth > ctx->cfg_blocks[b2].dom_depth) {
b1 = ctx->cfg_blocks[b1].dom_parent;
}
while (ctx->cfg_blocks[b2].dom_depth > ctx->cfg_blocks[b1].dom_depth) {
b2 = ctx->cfg_blocks[b2].dom_parent;
}
while (b1 != b2) {
b1 = ctx->cfg_blocks[b1].dom_parent;
b2 = ctx->cfg_blocks[b2].dom_parent;
}
return b2;
}
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static void ir_gcm_schedule_late(ir_ctx *ctx, uint32_t *_blocks, ir_bitset visited, ir_ref ref)
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{
ir_ref i, n, *p, use;
ir_insn *insn;
uint32_t flags;
ir_bitset_incl(visited, ref);
n = ctx->use_lists[ref].count;
if (n) {
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uint32_t lca, b;
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insn = &ctx->ir_base[ref];
flags = ir_op_flags[insn->op];
if (IR_OPND_KIND(flags, 1) == IR_OPND_CONTROL_DEP) {
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for (i = 0, p = &ctx->use_edges[ctx->use_lists[ref].refs]; i < n; i++, p++) {
use = *p;
if (!ir_bitset_in(visited, use) && _blocks[use]) {
ir_gcm_schedule_late(ctx, _blocks, visited, use);
}
}
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return;
}
lca = 0;
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for (i = 0, p = &ctx->use_edges[ctx->use_lists[ref].refs]; i < n; i++, p++) {
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use = *p;
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if (!ir_bitset_in(visited, use) && _blocks[use]) {
ir_gcm_schedule_late(ctx, _blocks, visited, use);
}
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b = _blocks[use];
if (!b) {
continue;
}
insn = &ctx->ir_base[use];
if (insn->op == IR_PHI) {
if (insn->op2 == ref) {
b = _blocks[ctx->ir_base[insn->op1].op1];
} else if (insn->op3 == ref) {
b = _blocks[ctx->ir_base[insn->op1].op2];
} else {
IR_ASSERT(0);
}
}
lca = !lca ? b : ir_gcm_find_lca(ctx, lca, b);
}
b = lca;
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while (ctx->cfg_blocks[b].loop_depth && lca != ctx->cfg_blocks[_blocks[ref]].dom_parent) {
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if (ctx->cfg_blocks[lca].loop_depth < ctx->cfg_blocks[b].loop_depth) {
b = lca;
}
lca = ctx->cfg_blocks[lca].dom_parent;
}
_blocks[ref] = b;
}
}
int ir_gcm(ir_ctx *ctx)
{
ir_ref i, j, k, n, *p, ref;
ir_bitset visited;
ir_block *bb;
ir_list queue;
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uint32_t *_blocks;
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ir_insn *insn, *use_insn;
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uint32_t flags;
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_blocks = ir_mem_calloc(ctx->insns_count, sizeof(uint32_t));
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ir_list_init(&queue, ctx->insns_count);
/* pin control instructions and collect their direct inputs */
for (i = 1, bb = ctx->cfg_blocks + 1; i <= ctx->cfg_blocks_count; i++, bb++) {
if (bb->flags & IR_BB_UNREACHABLE) {
continue;
}
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j = bb->end;
while (1) {
insn = &ctx->ir_base[j];
_blocks[j] = i; /* pin to block */
flags = ir_op_flags[insn->op];
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if (IR_OPND_KIND(flags, 2) == IR_OPND_DATA) {
if (insn->op2 > 0) {
ir_list_push(&queue, insn->op2);
}
}
if (IR_OPND_KIND(flags, 3) == IR_OPND_DATA) {
if (insn->op3 > 0) {
ir_list_push(&queue, insn->op3);
}
n = ir_input_edges_count(ctx, insn);
for (k = 4, p = insn->ops + 4; k <= n; k++, p++) {
ref = *p;
if (ref > 0) {
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ir_list_push(&queue, ref);
}
}
}
if (j == bb->start) {
break;
}
j = insn->op1; /* control predecessor */
}
}
n = ir_list_len(&queue);
for (i = 0; i < n; i++) {
ref = ir_list_at(&queue, i);
if (_blocks[ref] == 0) {
ir_gcm_schedule_early(ctx, _blocks, ref);
}
}
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#ifdef IR_DEBUG
if (ctx->flags & IR_DEBUG_GCM) {
fprintf(stderr, "GCM Schedule Early\n");
for (i = 1; i < ctx->insns_count; i++) {
fprintf(stderr, "%d -> %d\n", i, _blocks[i]);
}
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}
#endif
/* collect uses of control instructions */
visited = ir_bitset_malloc(ctx->insns_count);
ir_list_clear(&queue);
for (i = 1, bb = ctx->cfg_blocks + 1; i <= ctx->cfg_blocks_count; i++, bb++) {
if (bb->flags & IR_BB_UNREACHABLE) {
continue;
}
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j = bb->end;
while (1) {
ir_bitset_incl(visited, j);
insn = &ctx->ir_base[j];
n = ctx->use_lists[j].count;
if (n > 0) {
for (k = 0, p = &ctx->use_edges[ctx->use_lists[j].refs]; k < n; k++, p++) {
ref = *p;
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use_insn = &ctx->ir_base[ref];
if (use_insn->op == IR_PARAM || use_insn->op == IR_VAR) {
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_blocks[ref] = _blocks[j];
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} else if (ir_op_flags[use_insn->op] & IR_OP_FLAG_DATA) {
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ir_list_push(&queue, ref);
}
}
}
if (j == bb->start) {
break;
}
j = insn->op1; /* control predecessor */
}
}
n = ir_list_len(&queue);
for (i = 0; i < n; i++) {
ref = ir_list_at(&queue, i);
if (!ir_bitset_in(visited, ref)) {
ir_gcm_schedule_late(ctx, _blocks, visited, ref);
}
}
ir_mem_free(visited);
ir_list_free(&queue);
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#ifdef IR_DEBUG
if (ctx->flags & IR_DEBUG_GCM) {
fprintf(stderr, "GCM Schedule Late\n");
for (i = 1; i < ctx->insns_count; i++) {
fprintf(stderr, "%d -> %d\n", i, _blocks[i]);
}
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}
#endif
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ctx->cfg_map = _blocks;
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return 1;
}
int ir_schedule(ir_ctx *ctx)
{
ir_ctx new_ctx;
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ir_ref i, j, k, n, *p, ref, new_ref, insns_count, consts_count;
ir_ref *_xlat;
uint32_t flags;
uint32_t edges_count;
ir_use_list *lists;
ir_ref *edges;
ir_bitset used;
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ir_ref b;
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uint32_t *_blocks = ctx->cfg_map;
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ir_ref *_next = ir_mem_calloc(ctx->insns_count, sizeof(ir_ref));
ir_ref *_prev = ir_mem_calloc(ctx->insns_count, sizeof(ir_ref));
ir_ref _rest = 0;
ir_block *bb;
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ir_insn *insn, *new_insn;
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/* Create double-linked list of nodes ordered by BB, respecting BB->start and BB->end */
IR_ASSERT(_blocks[1]);
_prev[1] = 0;
for (i = 2, j = 1; i < ctx->insns_count; i++) {
b = _blocks[i];
if (b) {
bb = &ctx->cfg_blocks[b];
if (_blocks[j] == b || i == bb->start) {
/* add to the end of list */
_next[j] = i;
_prev[i] = j;
j = i;
} else if (_prev[bb->end]) {
/* move up, insert before the end of alredy scheduled BB */
k = bb->end;
_prev[i] = _prev[k];
_next[i] = k;
_next[_prev[k]] = i;
_prev[k] = i;
} else {
/* move down late */
_next[i] = _rest;
_rest = i;
}
}
}
_next[j] = 0;
while (_rest) {
i = _rest;
_rest = _next[i];
b = _blocks[i];
bb = &ctx->cfg_blocks[b];
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if (i == bb->end) {
// TODO: When removing MERGE, SCCP may move END of the block below other blocks ???
/* insert at the end of the block */
k = _next[bb->start];
while (_blocks[k] == b) {
k = _next[k];
}
} else {
/* insert after start of the block and all PARAM, VAR, PI, PHI */
k = _next[bb->start];
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insn = &ctx->ir_base[k];
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while (insn->op == IR_PARAM || insn->op == IR_VAR || insn->op == IR_PI || insn->op == IR_PHI) {
k = _next[k];
insn = &ctx->ir_base[k];
}
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}
/* insert before "k" */
_prev[i] = _prev[k];
_next[i] = k;
_next[_prev[k]] = i;
_prev[k] = i;
}
#ifdef IR_DEBUG
if (ctx->flags & IR_DEBUG_SCHEDULE) {
fprintf(stderr, "Before Schedule\n");
for (b = 1, bb = ctx->cfg_blocks + 1; b <= ctx->cfg_blocks_count; b++, bb++) {
for (i = bb->start; i <= bb->end && i > 0; i = _next[i]) {
fprintf(stderr, "%d -> %d\n", i, b);
}
}
}
#endif
/* Topological sort according dependencies inside each basic block */
ir_bitset scheduled = ir_bitset_malloc(ctx->insns_count);
for (b = 1, bb = ctx->cfg_blocks + 1; b <= ctx->cfg_blocks_count; b++, bb++) {
if (bb->flags & IR_BB_UNREACHABLE) {
continue;
}
i = bb->start;
ir_bitset_incl(scheduled, i);
i = _next[i];
insn = &ctx->ir_base[i];
while (insn->op == IR_PARAM || insn->op == IR_VAR || insn->op == IR_PI || insn->op == IR_PHI) {
ir_bitset_incl(scheduled, i);
i = _next[i];
insn = &ctx->ir_base[i];
}
for (; i != bb->end; i = _next[i]) {
ir_ref n, j, *p, def;
restart:
insn = &ctx->ir_base[i];
n = ir_input_edges_count(ctx, insn);
for (j = 1, p = insn->ops + 1; j <= n; j++, p++) {
def = *p;
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if (def > 0
&& _blocks[def] == b
&& !ir_bitset_in(scheduled, def)
&& insn->op != IR_PHI
&& insn->op != IR_PI) {
/* "def" should be before "i" to satisfy dependency */
#ifdef IR_DEBUG
if (ctx->flags & IR_DEBUG_SCHEDULE) {
fprintf(stderr, "Wrong dependency %d:%d -> %d\n", b, def, i);
}
#endif
/* remove "def" */
_prev[_next[def]] = _prev[def];
_next[_prev[def]] = _next[def];
/* insert before "i" */
_prev[def] = _prev[i];
_next[def] = i;
_next[_prev[i]] = def;
_prev[i] = def;
/* restart from "def" */
i = def;
goto restart;
}
}
ir_bitset_incl(scheduled, i);
}
}
ir_mem_free(scheduled);
#ifdef IR_DEBUG
if (ctx->flags & IR_DEBUG_SCHEDULE) {
fprintf(stderr, "After Schedule\n");
for (b = 1, bb = ctx->cfg_blocks + 1; b <= ctx->cfg_blocks_count; b++, bb++) {
for (i = bb->start; i <= bb->end && i > 0; i = _next[i]) {
fprintf(stderr, "%d -> %d\n", i, b);
}
}
}
#endif
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ir_mem_free(_prev);
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/* TODO: linearize without reallocation and reconstruction ??? */
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_xlat = ir_mem_malloc((ctx->consts_count + ctx->insns_count) * sizeof(ir_ref));
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_xlat += ctx->consts_count;
_xlat[IR_TRUE] = IR_TRUE;
_xlat[IR_FALSE] = IR_FALSE;
_xlat[IR_NULL] = IR_NULL;
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_xlat[IR_UNUSED] = IR_UNUSED;
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used = ir_bitset_malloc(ctx->consts_count + 1);
insns_count = 1;
consts_count = -(IR_TRUE - 1);
for (i = 1; i != 0; i = _next[i]) {
_xlat[i] = insns_count;
insn = &ctx->ir_base[i];
n = ir_input_edges_count(ctx, insn);
for (k = 1, p = insn->ops + 1; k <= n; k++, p++) {
ref = *p;
if (ref < IR_TRUE) {
if (!ir_bitset_in(used, -ref)) {
ir_bitset_incl(used, -ref);
consts_count++;
}
}
}
n = 1 + (n >> 2); // support for multi-word instructions like MERGE and PHI
insns_count += n;
}
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#if 1
if (consts_count == ctx->consts_count && insns_count == ctx->insns_count) {
bool changed = 0;
for (i = 1; i != 0; i = _next[i]) {
if (_xlat[i] != i) {
changed = 1;
break;
}
}
if (!changed) {
ir_mem_free(used);
_xlat -= ctx->consts_count;
ir_mem_free(_xlat);
ir_mem_free(_next);
ctx->flags |= IR_LINEAR;
ir_truncate(ctx);
return 1;
}
}
#endif
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lists = ir_mem_calloc(insns_count, sizeof(ir_use_list));
ir_init(&new_ctx, consts_count, insns_count);
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new_ctx.flags = ctx->flags;
new_ctx.fixed_stack_frame_size = ctx->fixed_stack_frame_size;
new_ctx.fixed_regset = ctx->fixed_regset;
new_ctx.fixed_save_regset = ctx->fixed_save_regset;
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IR_BITSET_FOREACH(used, ir_bitset_len(ctx->consts_count + 1), ref) {
new_ref = new_ctx.consts_count;
IR_ASSERT(new_ref < ctx->consts_limit);
new_ctx.consts_count = new_ref + 1;
_xlat[-ref] = new_ref = -new_ref;
insn = &ctx->ir_base[-ref];
new_insn = &new_ctx.ir_base[new_ref];
new_insn->optx = insn->optx;
new_insn->prev_const = 0;
if (insn->op == IR_FUNC || insn->op == IR_STR) {
new_insn->val.addr = ir_str(&new_ctx, ir_get_str(ctx, insn->val.addr));
} else {
new_insn->val.u64 = insn->val.u64;
}
} IR_BITSET_FOREACH_END();
ir_mem_free(used);
edges_count = 0;
for (i = 1; i != 0; i = _next[i]) {
insn = &ctx->ir_base[i];
flags = ir_op_flags[insn->op];
n = ir_operands_count(ctx, insn);
new_ref = new_ctx.insns_count;
new_ctx.insns_count = new_ref + 1 + (n >> 2); // support for multi-word instructions like MERGE and PHI;
IR_ASSERT(new_ctx.insns_count <= new_ctx.insns_limit);
new_insn = &new_ctx.ir_base[new_ref];
*new_insn = *insn;
switch (IR_OPND_KIND(flags, 1)) {
case IR_OPND_UNUSED:
continue;
case IR_OPND_DATA:
case IR_OPND_CONTROL:
case IR_OPND_CONTROL_DEP:
case IR_OPND_VAR:
ref = _xlat[insn->op1];
if (ref > 0) {
lists[ref].refs = -1;
lists[ref].count++;
edges_count++;
}
new_insn->op1 = ref;
break;
case IR_OPND_CONTROL_REF:
new_insn->op1 = _xlat[insn->op1];
break;
case IR_OPND_STR:
new_insn->op1 = ir_str(&new_ctx, ir_get_str(ctx, insn->op1));
break;
case IR_OPND_NUM:
case IR_OPND_PROB:
break;
default:
IR_ASSERT(0);
}
if (n < 2) {
continue;
}
switch (IR_OPND_KIND(flags, 2)) {
case IR_OPND_UNUSED:
continue;
case IR_OPND_DATA:
case IR_OPND_CONTROL:
case IR_OPND_CONTROL_DEP:
case IR_OPND_VAR:
ref = _xlat[insn->op2];
if (ref > 0) {
lists[ref].refs = -1;
lists[ref].count++;
edges_count++;
}
new_insn->op2 = ref;
break;
case IR_OPND_CONTROL_REF:
new_insn->op2 = _xlat[insn->op2];
break;
case IR_OPND_STR:
new_insn->op2 = ir_str(&new_ctx, ir_get_str(ctx, insn->op2));
break;
case IR_OPND_NUM:
case IR_OPND_PROB:
break;
default:
IR_ASSERT(0);
}
if (n < 3) {
continue;
}
switch (IR_OPND_KIND(flags, 3)) {
case IR_OPND_UNUSED:
break;
case IR_OPND_DATA:
case IR_OPND_CONTROL:
case IR_OPND_CONTROL_DEP:
case IR_OPND_VAR:
ref = _xlat[insn->op3];
if (ref > 0) {
lists[ref].refs = -1;
lists[ref].count++;
edges_count++;
}
new_insn->op3 = ref;
if (n > 3) {
for (k = 3, p = insn->ops + 3; k <= n; k++, p++) {
ref = *p;
ref = _xlat[ref];
if (ref > 0) {
lists[ref].refs = -1;
lists[ref].count++;
edges_count++;
}
new_insn->ops[k] = ref;
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}
}
break;
case IR_OPND_CONTROL_REF:
new_insn->op3 = _xlat[insn->op3];
break;
case IR_OPND_STR:
new_insn->op3 = ir_str(&new_ctx, ir_get_str(ctx, insn->op3));
break;
case IR_OPND_NUM:
case IR_OPND_PROB:
break;
default:
IR_ASSERT(0);
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}
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}
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edges = ir_mem_malloc(edges_count * sizeof(ir_ref));
edges_count = 0;
for (i = IR_UNUSED + 1, insn = new_ctx.ir_base + i; i < new_ctx.insns_count;) {
n = ir_input_edges_count(&new_ctx, insn);
for (j = 1, p = insn->ops + 1; j <= n; j++, p++) {
ref = *p;
if (ref > 0) {
ir_use_list *use_list = &lists[ref];
if (use_list->refs == -1) {
use_list->refs = edges_count;
edges_count += use_list->count;
use_list->count = 0;
}
edges[use_list->refs + use_list->count++] = i;
}
}
n = 1 + (n >> 2); // support for multi-word instructions like MERGE and PHI
i += n;
insn += n;
}
new_ctx.use_edges = edges;
new_ctx.use_lists = lists;
if (ctx->cfg_blocks) {
uint32_t b;
ir_block *bb;
new_ctx.cfg_blocks_count = ctx->cfg_blocks_count;
if (ctx->cfg_edges_count) {
new_ctx.cfg_edges_count = ctx->cfg_edges_count;
new_ctx.cfg_edges = ir_mem_malloc(ctx->cfg_edges_count * sizeof(uint32_t));
memcpy(new_ctx.cfg_edges, ctx->cfg_edges, ctx->cfg_edges_count * sizeof(uint32_t));
}
new_ctx.cfg_blocks = ir_mem_malloc((ctx->cfg_blocks_count + 1) * sizeof(ir_block));
memcpy(new_ctx.cfg_blocks, ctx->cfg_blocks, (ctx->cfg_blocks_count + 1) * sizeof(ir_block));
for (b = 1, bb = new_ctx.cfg_blocks + 1; b <= new_ctx.cfg_blocks_count; b++, bb++) {
bb->start = _xlat[bb->start];
bb->end = _xlat[bb->end];
}
}
_xlat -= ctx->consts_count;
ir_mem_free(_xlat);
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ir_free(ctx);
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IR_ASSERT(new_ctx.consts_count == new_ctx.consts_limit);
IR_ASSERT(new_ctx.insns_count == new_ctx.insns_limit);
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memcpy(ctx, &new_ctx, sizeof(ir_ctx));
ctx->flags |= IR_LINEAR;
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ir_mem_free(_next);
return 1;
}