/* * Copyright 2008 Corbin Simpson * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * on the rights to use, copy, modify, merge, publish, distribute, sub * license, and/or sell copies of the Software, and to permit persons to whom * the Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL * THE AUTHOR(S) AND/OR THEIR SUPPLIERS BE LIABLE FOR ANY CLAIM, * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE * USE OR OTHER DEALINGS IN THE SOFTWARE. */ #ifndef R300_CONTEXT_H #define R300_CONTEXT_H #include "draw/draw_vertex.h" #include "util/u_blitter.h" #include "pipe/p_context.h" #include "util/u_inlines.h" #include "util/u_transfer.h" #include "translate/translate_cache.h" #include "r300_defines.h" #include "r300_screen.h" struct u_upload_mgr; struct r300_context; struct r300_fragment_shader; struct r300_vertex_shader; struct r300_stencilref_context; struct r300_atom { /* Name, for debugging. */ const char* name; /* Opaque state. */ void* state; /* Emit the state to the context. */ void (*emit)(struct r300_context*, unsigned, void*); /* Upper bound on number of dwords to emit. */ unsigned size; /* Whether this atom should be emitted. */ boolean dirty; /* Whether this atom may be emitted with state == NULL. */ boolean allow_null_state; }; struct r300_aa_state { struct r300_surface *dest; uint32_t aa_config; uint32_t aaresolve_ctl; }; struct r300_blend_state { uint32_t cb[8]; uint32_t cb_no_readwrite[8]; }; struct r300_blend_color_state { uint32_t cb[3]; }; struct r300_clip_state { struct pipe_clip_state clip; uint32_t cb[29]; }; struct r300_dsa_state { struct pipe_depth_stencil_alpha_state dsa; /* This is actually a command buffer with named dwords. */ uint32_t cb_begin; uint32_t alpha_function; /* R300_FG_ALPHA_FUNC: 0x4bd4 */ uint32_t cb_reg_seq; uint32_t z_buffer_control; /* R300_ZB_CNTL: 0x4f00 */ uint32_t z_stencil_control; /* R300_ZB_ZSTENCILCNTL: 0x4f04 */ uint32_t stencil_ref_mask; /* R300_ZB_STENCILREFMASK: 0x4f08 */ uint32_t cb_reg; uint32_t stencil_ref_bf; /* R500_ZB_STENCILREFMASK_BF: 0x4fd4 */ /* The second command buffer disables zbuffer reads and writes. */ uint32_t cb_no_readwrite[8]; /* Whether a two-sided stencil is enabled. */ boolean two_sided; /* Whether a fallback should be used for a two-sided stencil ref value. */ boolean two_sided_stencil_ref; }; struct r300_hyperz_state { int current_func; /* -1 after a clear before first op */ int flush; /* This is actually a command buffer with named dwords. */ uint32_t cb_flush_begin; uint32_t zb_zcache_ctlstat; /* R300_ZB_CACHE_CNTL */ uint32_t cb_begin; uint32_t zb_bw_cntl; /* R300_ZB_BW_CNTL */ uint32_t cb_reg1; uint32_t zb_depthclearvalue; /* R300_ZB_DEPTHCLEARVALUE */ uint32_t cb_reg2; uint32_t sc_hyperz; /* R300_SC_HYPERZ */ uint32_t cb_reg3; uint32_t gb_z_peq_config; /* R300_GB_Z_PEQ_CONFIG: 0x4028 */ }; struct r300_gpu_flush { uint32_t cb_flush_clean[6]; }; #define RS_STATE_MAIN_SIZE 23 struct r300_rs_state { /* Original rasterizer state. */ struct pipe_rasterizer_state rs; /* Draw-specific rasterizer state. */ struct pipe_rasterizer_state rs_draw; /* Command buffers. */ uint32_t cb_main[RS_STATE_MAIN_SIZE]; uint32_t cb_poly_offset_zb16[5]; uint32_t cb_poly_offset_zb24[5]; /* The index to cb_main where the cull_mode register value resides. */ unsigned cull_mode_index; /* Whether polygon offset is enabled. */ boolean polygon_offset_enable; /* This is emitted in the draw function. */ uint32_t color_control; /* R300_GA_COLOR_CONTROL: 0x4278 */ }; struct r300_rs_block { uint32_t vap_vtx_state_cntl; /* R300_VAP_VTX_STATE_CNTL: 0x2180 */ uint32_t vap_vsm_vtx_assm; /* R300_VAP_VSM_VTX_ASSM: 0x2184 */ uint32_t vap_out_vtx_fmt[2]; /* R300_VAP_OUTPUT_VTX_FMT_[0-1]: 0x2090 */ uint32_t gb_enable; uint32_t ip[8]; /* R300_RS_IP_[0-7], R500_RS_IP_[0-7] */ uint32_t count; /* R300_RS_COUNT */ uint32_t inst_count; /* R300_RS_INST_COUNT */ uint32_t inst[8]; /* R300_RS_INST_[0-7] */ }; struct r300_sampler_state { struct pipe_sampler_state state; uint32_t filter0; /* R300_TX_FILTER0: 0x4400 */ uint32_t filter1; /* R300_TX_FILTER1: 0x4440 */ /* Min/max LOD must be clamped to [0, last_level], thus * it's dependent on a currently bound texture */ unsigned min_lod, max_lod; }; struct r300_texture_format_state { uint32_t format0; /* R300_TX_FORMAT0: 0x4480 */ uint32_t format1; /* R300_TX_FORMAT1: 0x44c0 */ uint32_t format2; /* R300_TX_FORMAT2: 0x4500 */ uint32_t tile_config; /* R300_TX_OFFSET (subset thereof) */ }; struct r300_sampler_view { struct pipe_sampler_view base; /* Swizzles in the UTIL_FORMAT_SWIZZLE_* representation, * derived from base. */ unsigned char swizzle[4]; /* Copy of r300_texture::texture_format_state with format-specific bits * added. */ struct r300_texture_format_state format; /* The texture cache region for this texture. */ uint32_t texcache_region; }; struct r300_texture_fb_state { uint32_t pitch[R300_MAX_TEXTURE_LEVELS]; /* COLORPITCH or DEPTHPITCH. */ uint32_t format; /* US_OUT_FMT or R300_ZB_FORMAT */ }; struct r300_texture_sampler_state { struct r300_texture_format_state format; uint32_t filter0; /* R300_TX_FILTER0: 0x4400 */ uint32_t filter1; /* R300_TX_FILTER1: 0x4440 */ uint32_t border_color; /* R300_TX_BORDER_COLOR: 0x45c0 */ }; struct r300_textures_state { /* Textures. */ struct r300_sampler_view *sampler_views[16]; int sampler_view_count; /* Sampler states. */ struct r300_sampler_state *sampler_states[16]; int sampler_state_count; /* This is the merge of the texture and sampler states. */ unsigned count; uint32_t tx_enable; /* R300_TX_ENABLE: 0x4101 */ struct r300_texture_sampler_state regs[16]; }; struct r300_vertex_stream_state { /* R300_VAP_PROG_STREAK_CNTL_[0-7] */ uint32_t vap_prog_stream_cntl[8]; /* R300_VAP_PROG_STREAK_CNTL_EXT_[0-7] */ uint32_t vap_prog_stream_cntl_ext[8]; unsigned count; }; struct r300_invariant_state { uint32_t cb[20]; }; struct r300_vap_invariant_state { uint32_t cb[9]; }; struct r300_viewport_state { float xscale; /* R300_VAP_VPORT_XSCALE: 0x2098 */ float xoffset; /* R300_VAP_VPORT_XOFFSET: 0x209c */ float yscale; /* R300_VAP_VPORT_YSCALE: 0x20a0 */ float yoffset; /* R300_VAP_VPORT_YOFFSET: 0x20a4 */ float zscale; /* R300_VAP_VPORT_ZSCALE: 0x20a8 */ float zoffset; /* R300_VAP_VPORT_ZOFFSET: 0x20ac */ uint32_t vte_control; /* R300_VAP_VTE_CNTL: 0x20b0 */ }; struct r300_ztop_state { uint32_t z_buffer_top; /* R300_ZB_ZTOP: 0x4f14 */ }; /* The next several objects are not pure Radeon state; they inherit from * various Gallium classes. */ struct r300_constant_buffer { /* Buffer of constants */ uint32_t *ptr; /* Remapping table. */ unsigned *remap_table; /* const buffer base */ uint32_t buffer_base; }; /* Query object. * * This is not a subclass of pipe_query because pipe_query is never * actually fully defined. So, rather than have it as a member, and do * subclass-style casting, we treat pipe_query as an opaque, and just * trust that our state tracker does not ever mess up query objects. */ struct r300_query { /* The kind of query. Currently only OQ is supported. */ unsigned type; /* The number of pipes where query results are stored. */ unsigned num_pipes; /* How many results have been written, in dwords. It's incremented * after end_query and flush. */ unsigned num_results; /* if we've flushed the query */ boolean flushed; /* if begin has been emitted */ boolean begin_emitted; /* The buffer where query results are stored. */ struct r300_winsys_buffer *buffer; struct r300_winsys_cs_buffer *cs_buffer; /* The size of the buffer. */ unsigned buffer_size; /* The domain of the buffer. */ enum r300_buffer_domain domain; /* Linked list members. */ struct r300_query* prev; struct r300_query* next; }; /* Fence object. * * This is a fake fence. Instead of syncing with the fence, we sync * with the context, which is inefficient but compliant. * * This is not a subclass of pipe_fence_handle because pipe_fence_handle is * never actually fully defined. So, rather than have it as a member, and do * subclass-style casting, we treat pipe_fence_handle as an opaque, and just * trust that our state tracker does not ever mess up fence objects. */ struct r300_fence { struct pipe_reference reference; struct r300_context *ctx; boolean signalled; }; struct r300_surface { struct pipe_surface base; /* Winsys buffer backing the texture. */ struct r300_winsys_buffer *buffer; struct r300_winsys_cs_buffer *cs_buffer; enum r300_buffer_domain domain; uint32_t offset; /* COLOROFFSET or DEPTHOFFSET. */ uint32_t pitch; /* COLORPITCH or DEPTHPITCH. */ uint32_t format; /* US_OUT_FMT or ZB_FORMAT. */ /* Parameters dedicated to the CBZB clear. */ uint32_t cbzb_width; /* Aligned width. */ uint32_t cbzb_height; /* Half of the height. */ uint32_t cbzb_midpoint_offset; /* DEPTHOFFSET. */ uint32_t cbzb_pitch; /* DEPTHPITCH. */ uint32_t cbzb_format; /* ZB_FORMAT. */ /* Whether the CBZB clear is allowed on the surface. */ boolean cbzb_allowed; }; struct r300_texture_desc { /* Parent class. */ struct u_resource b; /* Width, height, and depth. * Most of the time, these are equal to pipe_texture::width0, height0, * and depth0. However, NPOT 3D textures must have dimensions aligned * to POT, and this is the only case when these variables differ from * pipe_texture. */ unsigned width0, height0, depth0; /* Buffer tiling. * Macrotiling is specified per-level because small mipmaps cannot * be macrotiled. */ enum r300_buffer_tiling microtile; enum r300_buffer_tiling macrotile[R300_MAX_TEXTURE_LEVELS]; /* Offsets into the buffer. */ unsigned offset_in_bytes[R300_MAX_TEXTURE_LEVELS]; /* Strides for each mip-level. */ unsigned stride_in_pixels[R300_MAX_TEXTURE_LEVELS]; unsigned stride_in_bytes[R300_MAX_TEXTURE_LEVELS]; /* Size of one zslice or face or 2D image based on the texture target. */ unsigned layer_size_in_bytes[R300_MAX_TEXTURE_LEVELS]; /* Total size of this texture, in bytes, * derived from the texture properties. */ unsigned size_in_bytes; /* Total size of the buffer backing this texture, in bytes. * It must be >= size. */ unsigned buffer_size_in_bytes; /** * If non-zero, override the natural texture layout with * a custom stride (in bytes). * * \note Mipmapping fails for textures with a non-natural layout! * * \sa r300_texture_get_stride */ unsigned stride_in_bytes_override; /* Whether this texture has non-power-of-two dimensions. * It can be either a regular texture or a rectangle one. */ boolean is_npot; /* This flag says that hardware must use the stride for addressing * instead of the width. */ boolean uses_stride_addressing; /* Whether CBZB fast color clear is allowed on the miplevel. */ boolean cbzb_allowed[R300_MAX_TEXTURE_LEVELS]; }; struct r300_texture { struct r300_texture_desc desc; enum r300_buffer_domain domain; /* Pipe buffer backing this texture. */ struct r300_winsys_buffer *buffer; struct r300_winsys_cs_buffer *cs_buffer; /* Registers carrying texture format data. */ /* Only format-independent bits should be filled in. */ struct r300_texture_format_state tx_format; /* All bits should be filled in. */ struct r300_texture_fb_state fb_state; /* hyper-z memory allocs */ struct mem_block *hiz_mem[R300_MAX_TEXTURE_LEVELS]; struct mem_block *zmask_mem[R300_MAX_TEXTURE_LEVELS]; boolean zmask_in_use[R300_MAX_TEXTURE_LEVELS]; boolean hiz_in_use[R300_MAX_TEXTURE_LEVELS]; /* This is the level tiling flags were last time set for. * It's used to prevent redundant tiling-flags changes from happening.*/ unsigned surface_level; }; struct r300_vertex_element_state { unsigned count; struct pipe_vertex_element velem[PIPE_MAX_ATTRIBS]; /* If (velem[i].src_format != hw_format[i]), the vertex buffer * referenced by this vertex element cannot be used for rendering and * its vertex data must be translated to hw_format[i]. */ enum pipe_format hw_format[PIPE_MAX_ATTRIBS]; unsigned hw_format_size[PIPE_MAX_ATTRIBS]; /* The size of the vertex, in dwords. */ unsigned vertex_size_dwords; /* This might mean two things: * - src_format != hw_format, as discussed above. * - src_offset % 4 != 0. */ boolean incompatible_layout; struct r300_vertex_stream_state vertex_stream; }; struct r300_translate_context { /* Translate cache for incompatible vertex offset/stride/format fallback. */ struct translate_cache *translate_cache; /* The vertex buffer slot containing the translated buffer. */ unsigned vb_slot; /* Saved and new vertex element state. */ void *saved_velems, *new_velems; }; struct r300_context { /* Parent class */ struct pipe_context context; /* The interface to the windowing system, etc. */ struct r300_winsys_screen *rws; /* The command stream. */ struct r300_winsys_cs *cs; /* Screen. */ struct r300_screen *screen; /* Draw module. Used mostly for SW TCL. */ struct draw_context* draw; /* Vertex buffer for SW TCL. */ struct pipe_resource* vbo; /* Offset and size into the SW TCL VBO. */ size_t draw_vbo_offset; size_t draw_vbo_size; /* Whether the VBO must not be flushed. */ boolean draw_vbo_locked; boolean draw_first_emitted; /* Accelerated blit support. */ struct blitter_context* blitter; /* Stencil two-sided reference value fallback. */ struct r300_stencilref_context *stencilref_fallback; /* For translating vertex buffers having incompatible vertex layout. */ struct r300_translate_context tran; /* The KIL opcode needs the first texture unit to be enabled * on r3xx-r4xx. In order to calm down the CS checker, we bind this * dummy texture there. */ struct r300_sampler_view *texkill_sampler; /* When no vertex buffer is set, this one is used instead to prevent * hardlocks. */ struct pipe_resource *dummy_vb; /* The currently active query. */ struct r300_query *query_current; /* The saved query for blitter operations. */ struct r300_query *blitter_saved_query; /* Query list. */ struct r300_query query_list; /* Various CSO state objects. */ /* Each atom is emitted in the order it appears here, which can affect * performance and stability if not handled with care. */ /* GPU flush. */ struct r300_atom gpu_flush; /* Anti-aliasing (MSAA) state. */ struct r300_atom aa_state; /* Framebuffer state. */ struct r300_atom fb_state; /* HyperZ state (various SC/ZB bits). */ struct r300_atom hyperz_state; /* ZTOP state. */ struct r300_atom ztop_state; /* Depth, stencil, and alpha state. */ struct r300_atom dsa_state; /* Blend state. */ struct r300_atom blend_state; /* Blend color state. */ struct r300_atom blend_color_state; /* Scissor state. */ struct r300_atom scissor_state; /* Invariant state. This must be emitted to get the engine started. */ struct r300_atom invariant_state; /* Viewport state. */ struct r300_atom viewport_state; /* PVS flush. */ struct r300_atom pvs_flush; /* VAP invariant state. */ struct r300_atom vap_invariant_state; /* Vertex stream formatting state. */ struct r300_atom vertex_stream_state; /* Vertex shader. */ struct r300_atom vs_state; /* User clip planes. */ struct r300_atom clip_state; /* RS block state + VAP (vertex shader) output mapping state. */ struct r300_atom rs_block_state; /* Rasterizer state. */ struct r300_atom rs_state; /* Framebuffer state (pipelined regs). */ struct r300_atom fb_state_pipelined; /* Fragment shader. */ struct r300_atom fs; /* Fragment shader RC_CONSTANT_STATE variables. */ struct r300_atom fs_rc_constant_state; /* Fragment shader constant buffer. */ struct r300_atom fs_constants; /* Vertex shader constant buffer. */ struct r300_atom vs_constants; /* Texture cache invalidate. */ struct r300_atom texture_cache_inval; /* Textures state. */ struct r300_atom textures_state; /* HiZ clear */ struct r300_atom hiz_clear; /* zmask clear */ struct r300_atom zmask_clear; /* Occlusion query. */ struct r300_atom query_start; /* The pointers to the first and the last atom. */ struct r300_atom *first_dirty, *last_dirty; /* Vertex buffers for Gallium. */ struct pipe_vertex_buffer vertex_buffer[PIPE_MAX_ATTRIBS]; int vertex_buffer_count; int vertex_buffer_max_index; /* Vertex elements for Gallium. */ struct r300_vertex_element_state *velems; bool any_user_vbs; struct pipe_index_buffer index_buffer; /* Vertex info for Draw. */ struct vertex_info vertex_info; struct pipe_stencil_ref stencil_ref; struct pipe_viewport_state viewport; /* Stream locations for SWTCL. */ int stream_loc_notcl[16]; /* Flag indicating whether or not the HW is dirty. */ uint32_t dirty_hw; /* Whether polygon offset is enabled. */ boolean polygon_offset_enabled; /* Z buffer bit depth. */ uint32_t zbuffer_bpp; /* Whether rendering is conditional and should be skipped. */ boolean skip_rendering; /* Point sprites texcoord index, 1 bit per texcoord */ int sprite_coord_enable; /* Whether two-sided color selection is enabled (AKA light_twoside). */ boolean two_sided_color; /* Incompatible vertex buffer layout? (misaligned stride or buffer_offset) */ boolean incompatible_vb_layout; #define R300_Z_COMPRESS_44 1 #define RV350_Z_COMPRESS_88 2 int z_compression; boolean cbzb_clear; boolean z_decomp_rd; /* two mem block managers for hiz/zmask ram space */ struct mem_block *hiz_mm; struct mem_block *zmask_mm; /* upload managers */ struct u_upload_mgr *upload_vb; struct u_upload_mgr *upload_ib; struct util_slab_mempool pool_transfers; /* Stat counter. */ uint64_t flush_counter; /* const tracking for VS */ int vs_const_base; }; #define foreach_atom(r300, atom) \ for (atom = &r300->gpu_flush; atom != (&r300->query_start)+1; atom++) #define foreach_dirty_atom(r300, atom) \ for (atom = r300->first_dirty; atom != r300->last_dirty; atom++) /* Convenience cast wrappers. */ static INLINE struct r300_query* r300_query(struct pipe_query* q) { return (struct r300_query*)q; } static INLINE struct r300_surface* r300_surface(struct pipe_surface* surf) { return (struct r300_surface*)surf; } static INLINE struct r300_texture* r300_texture(struct pipe_resource* tex) { return (struct r300_texture*)tex; } static INLINE struct r300_context* r300_context(struct pipe_context* context) { return (struct r300_context*)context; } static INLINE struct r300_fragment_shader *r300_fs(struct r300_context *r300) { return (struct r300_fragment_shader*)r300->fs.state; } struct pipe_context* r300_create_context(struct pipe_screen* screen, void *priv); void r300_finish(struct r300_context *r300); void r300_flush_cb(void *data); /* Context initialization. */ struct draw_stage* r300_draw_stage(struct r300_context* r300); void r300_init_blit_functions(struct r300_context *r300); void r300_init_flush_functions(struct r300_context* r300); void r300_init_query_functions(struct r300_context* r300); void r300_init_render_functions(struct r300_context *r300); void r300_init_state_functions(struct r300_context* r300); void r300_init_resource_functions(struct r300_context* r300); /* r300_blit.c */ void r300_flush_depth_stencil(struct pipe_context *pipe, struct pipe_resource *dst, unsigned level, unsigned layer); /* r300_query.c */ void r300_resume_query(struct r300_context *r300, struct r300_query *query); void r300_stop_query(struct r300_context *r300); /* r300_render_translate.c */ void r300_begin_vertex_translate(struct r300_context *r300); void r300_end_vertex_translate(struct r300_context *r300); void r300_translate_index_buffer(struct r300_context *r300, struct pipe_resource **index_buffer, unsigned *index_size, unsigned index_offset, unsigned *start, unsigned count); /* r300_render_stencilref.c */ void r300_plug_in_stencil_ref_fallback(struct r300_context *r300); /* r300_render.c */ void r300_draw_flush_vbuf(struct r300_context *r300); void r500_emit_index_bias(struct r300_context *r300, int index_bias); /* r300_state.c */ enum r300_fb_state_change { R300_CHANGED_FB_STATE = 0, R300_CHANGED_CBZB_FLAG, R300_CHANGED_ZCLEAR_FLAG }; void r300_mark_fb_state_dirty(struct r300_context *r300, enum r300_fb_state_change change); void r300_mark_fs_code_dirty(struct r300_context *r300); static INLINE void r300_mark_atom_dirty(struct r300_context *r300, struct r300_atom *atom) { atom->dirty = TRUE; if (!r300->first_dirty) { r300->first_dirty = atom; r300->last_dirty = atom+1; } else { if (atom < r300->first_dirty) r300->first_dirty = atom; if (atom+1 > r300->last_dirty) r300->last_dirty = atom+1; } } /* r300_debug.c */ void r500_dump_rs_block(struct r300_rs_block *rs); static INLINE boolean CTX_DBG_ON(struct r300_context * ctx, unsigned flags) { return SCREEN_DBG_ON(ctx->screen, flags); } static INLINE void CTX_DBG(struct r300_context * ctx, unsigned flags, const char * fmt, ...) { if (CTX_DBG_ON(ctx, flags)) { va_list va; va_start(va, fmt); vfprintf(stderr, fmt, va); va_end(va); } } #define DBG_ON CTX_DBG_ON #define DBG CTX_DBG #endif /* R300_CONTEXT_H */