#include "util/u_math.h"
#include "util/list.h"
+#include "util/set.h"
#include "ir/lima_ir.h"
ppir_op_normalize3,
ppir_op_normalize4,
- ppir_op_sel_cond,
ppir_op_select,
ppir_op_sin,
ppir_op_load_uniform,
ppir_op_load_varying,
ppir_op_load_coords,
+ ppir_op_load_coords_reg,
ppir_op_load_fragcoord,
ppir_op_load_pointcoord,
ppir_op_load_frontface,
ppir_op_load_temp,
ppir_op_store_temp,
- ppir_op_store_color,
ppir_op_const,
ppir_op_discard,
ppir_op_branch,
+ ppir_op_undef,
ppir_op_dummy,
ppir_op_num,
extern const ppir_op_info ppir_op_infos[];
+typedef enum {
+ ppir_dep_src,
+ ppir_dep_write_after_read,
+ ppir_dep_sequence,
+} ppir_dep_type;
+
typedef struct {
void *pred, *succ;
+ ppir_dep_type type;
struct list_head pred_link;
struct list_head succ_link;
} ppir_dep;
typedef struct ppir_node {
struct list_head list;
+ struct list_head sched_list;
ppir_op op;
ppir_node_type type;
int index;
struct ppir_instr *instr;
int instr_pos;
struct ppir_block *block;
+ bool is_end;
+ bool succ_different_block;
/* for scheduler */
struct list_head succ_list;
int index;
int regalloc_index;
int num_components;
+
/* whether this reg has to start from the x component
* of a full physical reg, this is true for reg used
- * in load/store instr which has no swizzle field
- */
+ * in load/store instr which has no swizzle field */
bool is_head;
- /* instr live range */
- int live_in, live_out;
bool spilled;
+ bool undef;
} ppir_reg;
typedef enum {
int num_components;
ppir_dest dest;
ppir_src src;
+ int num_src;
} ppir_load_node;
typedef struct {
typedef struct {
ppir_node node;
ppir_dest dest;
- ppir_src src_coords; /* not to be used after lowering */
+ ppir_src src[2];
+ int num_src;
int sampler;
int sampler_dim;
+ bool lod_bias_en;
+ bool explicit_lod;
} ppir_load_texture_node;
typedef struct {
PPIR_INSTR_SLOT_ALU_END = PPIR_INSTR_SLOT_ALU_COMBINE,
};
+struct ppir_liveness {
+ ppir_reg *reg;
+ unsigned mask : 4;
+};
+
typedef struct ppir_instr {
struct list_head list;
int index;
bool scheduled;
int offset;
int encode_size;
+
+ /* for liveness analysis */
+ struct ppir_liveness *live_in;
+ struct ppir_liveness *live_out;
+ /* live_internal is to mark registers only live within an
+ * instruction, without propagation */
+ struct ppir_liveness *live_internal;
+ struct set *live_in_set;
+ struct set *live_out_set;
+ struct set *live_internal_set;
} ppir_instr;
typedef struct ppir_block {
int sched_instr_base;
int index;
- /* for liveness analysis */
- BITSET_WORD *def;
- BITSET_WORD *use;
- BITSET_WORD *live_in;
- BITSET_WORD *live_out;
+ /* for liveness analysis */
+ struct ppir_liveness *live_in;
+ struct ppir_liveness *live_out;
+ struct set *live_in_set;
+ struct set *live_out_set;
} ppir_block;
typedef struct {
struct ra_regs *ra;
struct lima_fs_shader_state *prog;
+ bool uses_discard;
/* for scheduler */
int sched_instr_base;
int num_fills;
ppir_block *discard_block;
+ ppir_block *current_block;
+ ppir_block *loop_break_block;
+ ppir_block *loop_cont_block;
} ppir_compiler;
void *ppir_node_create(ppir_block *block, ppir_op op, int index, unsigned mask);
-void ppir_node_add_dep(ppir_node *succ, ppir_node *pred);
+void ppir_node_add_dep(ppir_node *succ, ppir_node *pred, ppir_dep_type type);
void ppir_node_remove_dep(ppir_dep *dep);
void ppir_node_delete(ppir_node *node);
void ppir_node_print_prog(ppir_compiler *comp);
void ppir_node_replace_child(ppir_node *parent, ppir_node *old_child, ppir_node *new_child);
void ppir_node_replace_all_succ(ppir_node *dst, ppir_node *src);
void ppir_node_replace_pred(ppir_dep *dep, ppir_node *new_pred);
-ppir_node *ppir_node_clone(ppir_block *block, ppir_node *node);
+ppir_dep *ppir_dep_for_pred(ppir_node *node, ppir_node *pred);
+/* Assumes that node successors are in the same block */
+ppir_node *ppir_node_insert_mov(ppir_node *node);
static inline bool ppir_node_is_root(ppir_node *node)
{
- return list_empty(&node->succ_list);
+ return list_is_empty(&node->succ_list);
}
static inline bool ppir_node_is_leaf(ppir_node *node)
{
- return list_empty(&node->pred_list);
+ return list_is_empty(&node->pred_list);
}
static inline bool ppir_node_has_single_succ(ppir_node *node)
{
- return list_is_singular(&node->succ_list);
+ return list_is_singular(&node->succ_list)
+ && !node->succ_different_block;
}
+bool ppir_node_has_single_src_succ(ppir_node *node);
+
static inline ppir_node *ppir_node_first_succ(ppir_node *node)
{
return list_first_entry(&node->succ_list, ppir_dep, succ_link)->succ;
return ppir_node_to_alu(node)->num_src;
case ppir_node_type_branch:
return ppir_node_to_branch(node)->num_src;
- case ppir_node_type_load_texture:
case ppir_node_type_load:
+ return ppir_node_to_load(node)->num_src;
+ case ppir_node_type_load_texture:
+ return ppir_node_to_load_texture(node)->num_src;
case ppir_node_type_store:
return 1;
default:
case ppir_node_type_branch:
return &ppir_node_to_branch(node)->src[idx];
case ppir_node_type_load_texture:
- return &ppir_node_to_load_texture(node)->src_coords;
+ return &ppir_node_to_load_texture(node)->src[idx];
case ppir_node_type_load:
return &ppir_node_to_load(node)->src;
case ppir_node_type_store:
}
}
-static inline ppir_src *ppir_node_get_src_for_pred(ppir_node *node, ppir_node *pred)
-{
- for (int i = 0; i < ppir_node_get_src_num(node); i++) {
- ppir_src *src = ppir_node_get_src(node, i);
- if (src && src->node == pred)
- return src;
- }
-
- return NULL;
-}
-
static inline void ppir_node_target_assign(ppir_src *src, ppir_node *node)
{
ppir_dest *dest = ppir_node_get_dest(node);
return -1;
}
-static inline bool ppir_target_is_scaler(ppir_dest *dest)
+static inline int ppir_src_get_mask(ppir_src *src)
+{
+ ppir_reg *reg = ppir_src_get_reg(src);
+ int mask = 0;
+
+ for (int i = 0; i < reg->num_components; i++)
+ mask |= (1 << src->swizzle[i]);
+
+ return mask;
+}
+
+static inline bool ppir_target_is_scalar(ppir_dest *dest)
{
switch (dest->type) {
case ppir_target_ssa:
}
}
+static inline bool ppir_node_schedulable_slot(ppir_node *node,
+ enum ppir_instr_slot slot)
+{
+ int *slots = ppir_op_infos[node->op].slots;
+ for (int i = 0; slots[i] != PPIR_INSTR_SLOT_END; i++)
+ if (slots[i] == slot)
+ return true;
+
+ return false;
+}
+
ppir_instr *ppir_instr_create(ppir_block *block);
bool ppir_instr_insert_node(ppir_instr *instr, ppir_node *node);
void ppir_instr_add_dep(ppir_instr *succ, ppir_instr *pred);
static inline bool ppir_instr_is_root(ppir_instr *instr)
{
- return list_empty(&instr->succ_list);
+ return list_is_empty(&instr->succ_list);
}
static inline bool ppir_instr_is_leaf(ppir_instr *instr)
{
- return list_empty(&instr->pred_list);
+ return list_is_empty(&instr->pred_list);
}
bool ppir_lower_prog(ppir_compiler *comp);