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#ifndef __NVC0_SCREEN_H__
#define __NVC0_SCREEN_H__
#include "nouveau/nouveau_screen.h"
#include "nouveau/nouveau_mm.h"
#include "nouveau/nouveau_fence.h"
#include "nouveau/nouveau_heap.h"
#include "nouveau/nv_object.xml.h"
#include "nvc0_winsys.h"
#include "nvc0_stateobj.h"
#define NVC0_TIC_MAX_ENTRIES 2048
#define NVC0_TSC_MAX_ENTRIES 2048
/* doesn't count reserved slots (for auxiliary constants, immediates, etc.) */
#define NVC0_MAX_PIPE_CONSTBUFS 14
#define NVE4_MAX_PIPE_CONSTBUFS_COMPUTE 7
#define NVC0_MAX_SURFACE_SLOTS 16
struct nvc0_context;
struct nvc0_blitter;
struct nvc0_screen {
struct nouveau_screen base;
struct nvc0_context *cur_ctx;
int num_occlusion_queries_active;
struct nouveau_bo *text;
struct nouveau_bo *parm; /* for COMPUTE */
struct nouveau_bo *uniform_bo; /* for 3D */
struct nouveau_bo *tls;
struct nouveau_bo *txc; /* TIC (offset 0) and TSC (65536) */
struct nouveau_bo *poly_cache;
uint64_t tls_size;
struct nouveau_heap *text_heap;
struct nouveau_heap *lib_code; /* allocated from text_heap */
struct nvc0_blitter *blitter;
struct {
void **entries;
int next;
uint32_t lock[NVC0_TIC_MAX_ENTRIES / 32];
} tic;
struct {
void **entries;
int next;
uint32_t lock[NVC0_TSC_MAX_ENTRIES / 32];
} tsc;
struct {
struct nouveau_bo *bo;
uint32_t *map;
} fence;
struct nouveau_mman *mm_VRAM_fe0;
struct nouveau_object *eng3d; /* sqrt(1/2)|kepler> + sqrt(1/2)|fermi> */
struct nouveau_object *eng2d;
struct nouveau_object *m2mf;
struct nouveau_object *compute;
};
static INLINE struct nvc0_screen *
nvc0_screen(struct pipe_screen *screen)
{
return (struct nvc0_screen *)screen;
}
boolean nvc0_blitter_create(struct nvc0_screen *);
void nvc0_blitter_destroy(struct nvc0_screen *);
void nvc0_screen_make_buffers_resident(struct nvc0_screen *);
int nvc0_screen_tic_alloc(struct nvc0_screen *, void *);
int nvc0_screen_tsc_alloc(struct nvc0_screen *, void *);
int nve4_screen_compute_setup(struct nvc0_screen *, struct nouveau_pushbuf *);
static INLINE void
nvc0_resource_fence(struct nv04_resource *res, uint32_t flags)
{
struct nvc0_screen *screen = nvc0_screen(res->base.screen);
if (res->mm) {
nouveau_fence_ref(screen->base.fence.current, &res->fence);
if (flags & NOUVEAU_BO_WR)
nouveau_fence_ref(screen->base.fence.current, &res->fence_wr);
}
}
static INLINE void
nvc0_resource_validate(struct nv04_resource *res, uint32_t flags)
{
if (likely(res->bo)) {
if (flags & NOUVEAU_BO_WR)
res->status |= NOUVEAU_BUFFER_STATUS_GPU_WRITING |
NOUVEAU_BUFFER_STATUS_DIRTY;
if (flags & NOUVEAU_BO_RD)
res->status |= NOUVEAU_BUFFER_STATUS_GPU_READING;
nvc0_resource_fence(res, flags);
}
}
struct nvc0_format {
uint32_t rt;
uint32_t tic;
uint32_t vtx;
uint32_t usage;
};
extern const struct nvc0_format nvc0_format_table[];
static INLINE void
nvc0_screen_tic_unlock(struct nvc0_screen *screen, struct nv50_tic_entry *tic)
{
if (tic->id >= 0)
screen->tic.lock[tic->id / 32] &= ~(1 << (tic->id % 32));
}
static INLINE void
nvc0_screen_tsc_unlock(struct nvc0_screen *screen, struct nv50_tsc_entry *tsc)
{
if (tsc->id >= 0)
screen->tsc.lock[tsc->id / 32] &= ~(1 << (tsc->id % 32));
}
static INLINE void
nvc0_screen_tic_free(struct nvc0_screen *screen, struct nv50_tic_entry *tic)
{
if (tic->id >= 0) {
screen->tic.entries[tic->id] = NULL;
screen->tic.lock[tic->id / 32] &= ~(1 << (tic->id % 32));
}
}
static INLINE void
nvc0_screen_tsc_free(struct nvc0_screen *screen, struct nv50_tsc_entry *tsc)
{
if (tsc->id >= 0) {
screen->tsc.entries[tsc->id] = NULL;
screen->tsc.lock[tsc->id / 32] &= ~(1 << (tsc->id % 32));
}
}
#endif
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