#define NO_REG ~0
struct ra_reg {
- GLboolean *conflicts;
+ bool *conflicts;
unsigned int *conflict_list;
unsigned int conflict_list_size;
unsigned int num_conflicts;
};
struct ra_class {
- GLboolean *regs;
+ bool *regs;
/**
* p(B) in Runeson/Nyström paper.
* "remove the edge from the graph" in simplification without
* having to actually modify the adjacency_list.
*/
- GLboolean in_stack;
+ bool in_stack;
/* For an implementation that needs register spilling, this is the
* approximate cost of spilling this node.
regs->regs = rzalloc_array(regs, struct ra_reg, count);
for (i = 0; i < count; i++) {
- regs->regs[i].conflicts = rzalloc_array(regs->regs, GLboolean, count);
- regs->regs[i].conflicts[i] = GL_TRUE;
+ regs->regs[i].conflicts = rzalloc_array(regs->regs, bool, count);
+ regs->regs[i].conflicts[i] = true;
regs->regs[i].conflict_list = ralloc_array(regs->regs, unsigned int, 4);
regs->regs[i].conflict_list_size = 4;
unsigned int, reg1->conflict_list_size);
}
reg1->conflict_list[reg1->num_conflicts++] = r2;
- reg1->conflicts[r2] = GL_TRUE;
+ reg1->conflicts[r2] = true;
}
void
class = rzalloc(regs, struct ra_class);
regs->classes[regs->class_count] = class;
- class->regs = rzalloc_array(class, GLboolean, regs->count);
+ class->regs = rzalloc_array(class, bool, regs->count);
return regs->class_count++;
}
{
struct ra_class *class = regs->classes[c];
- class->regs[r] = GL_TRUE;
+ class->regs[r] = true;
class->p++;
}
}
}
-static GLboolean pq_test(struct ra_graph *g, unsigned int n)
+static bool
+pq_test(struct ra_graph *g, unsigned int n)
{
unsigned int j;
unsigned int q = 0;
* trivially-colorable nodes into a stack of nodes to be colored,
* removing them from the graph, and rinsing and repeating.
*
- * Returns GL_TRUE if all nodes were removed from the graph. GL_FALSE
+ * Returns true if all nodes were removed from the graph. false
* means that either spilling will be required, or optimistic coloring
* should be applied.
*/
-GLboolean
+bool
ra_simplify(struct ra_graph *g)
{
- GLboolean progress = GL_TRUE;
+ bool progress = true;
int i;
while (progress) {
- progress = GL_FALSE;
+ progress = false;
for (i = g->count - 1; i >= 0; i--) {
if (g->nodes[i].in_stack || g->nodes[i].reg != NO_REG)
if (pq_test(g, i)) {
g->stack[g->stack_count] = i;
g->stack_count++;
- g->nodes[i].in_stack = GL_TRUE;
- progress = GL_TRUE;
+ g->nodes[i].in_stack = true;
+ progress = true;
}
}
}
for (i = 0; i < g->count; i++) {
if (!g->nodes[i].in_stack && g->nodes[i].reg == -1)
- return GL_FALSE;
+ return false;
}
- return GL_TRUE;
+ return true;
}
/**
* registers as they go.
*
* If all nodes were trivially colorable, then this must succeed. If
- * not (optimistic coloring), then it may return GL_FALSE;
+ * not (optimistic coloring), then it may return false;
*/
-GLboolean
+bool
ra_select(struct ra_graph *g)
{
int i;
break;
}
if (ri == g->regs->count)
- return GL_FALSE;
+ return false;
g->nodes[n].reg = r;
- g->nodes[n].in_stack = GL_FALSE;
+ g->nodes[n].in_stack = false;
g->stack_count--;
if (g->regs->round_robin)
start_search_reg = r + 1;
}
- return GL_TRUE;
+ return true;
}
/**
g->stack[g->stack_count] = i;
g->stack_count++;
- g->nodes[i].in_stack = GL_TRUE;
+ g->nodes[i].in_stack = true;
}
}
-GLboolean
+bool
ra_allocate_no_spills(struct ra_graph *g)
{
if (!ra_simplify(g)) {
ra_set_node_reg(struct ra_graph *g, unsigned int n, unsigned int reg)
{
g->nodes[n].reg = reg;
- g->nodes[n].in_stack = GL_FALSE;
+ g->nodes[n].in_stack = false;
}
static float
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