/* * Copyright 2011 Joakim Sindholt * Copyright 2013 Christoph Bumiller * * 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. */ #include "device9.h" #include "basetexture9.h" #include "indexbuffer9.h" #include "surface9.h" #include "vertexdeclaration9.h" #include "vertexshader9.h" #include "pixelshader9.h" #include "nine_pipe.h" #include "nine_ff.h" #include "pipe/p_context.h" #include "pipe/p_state.h" #include "cso_cache/cso_context.h" #include "util/u_math.h" #define DBG_CHANNEL DBG_DEVICE static uint32_t update_framebuffer(struct NineDevice9 *device) { struct pipe_context *pipe = device->pipe; struct nine_state *state = &device->state; struct pipe_framebuffer_state *fb = &device->state.fb; unsigned i; unsigned w = 0, h = 0; /* no surface can have width or height 0 */ const int sRGB = state->rs[D3DRS_SRGBWRITEENABLE] ? 1 : 0; DBG("\n"); state->rt_mask = 0x0; fb->nr_cbufs = 0; for (i = 0; i < device->caps.NumSimultaneousRTs; ++i) { if (state->rt[i] && state->rt[i]->desc.Format != D3DFMT_NULL) { struct NineSurface9 *rt = state->rt[i]; fb->cbufs[i] = NineSurface9_GetSurface(rt, sRGB); state->rt_mask |= 1 << i; fb->nr_cbufs = i + 1; if (w) { w = MIN2(w, rt->desc.Width); h = MIN2(h, rt->desc.Height); } else { w = rt->desc.Width; h = rt->desc.Height; } if (unlikely(rt->desc.Usage & D3DUSAGE_AUTOGENMIPMAP)) { assert(rt->texture == D3DRTYPE_TEXTURE || rt->texture == D3DRTYPE_CUBETEXTURE); NineBaseTexture9(rt->base.base.container)->dirty_mip = TRUE; } } else { /* Color outputs must match RT slot, * drivers will have to handle NULL entries for GL, too. */ fb->cbufs[i] = NULL; } } if (state->ds) { fb->zsbuf = NineSurface9_GetSurface(state->ds, 0); if (w) { w = MIN2(w, state->ds->desc.Width); h = MIN2(h, state->ds->desc.Height); } else { w = state->ds->desc.Width; h = state->ds->desc.Height; } } else { fb->zsbuf = NULL; } fb->width = w; fb->height = h; pipe->set_framebuffer_state(pipe, fb); /* XXX: cso ? */ if (fb->zsbuf) { DWORD scale; switch (fb->zsbuf->format) { case PIPE_FORMAT_Z32_FLOAT: case PIPE_FORMAT_Z32_FLOAT_S8X24_UINT: scale = fui(1.0f); break; case PIPE_FORMAT_Z16_UNORM: scale = fui((float)(1 << 16)); break; default: scale = fui((float)(1 << 24)); break; } if (state->rs[NINED3DRS_ZBIASSCALE] != scale) { state->rs[NINED3DRS_ZBIASSCALE] = scale; state->changed.group |= NINE_STATE_RASTERIZER; } } #ifdef DEBUG if (state->rt_mask & (state->ps ? ~state->ps->rt_mask : 0)) WARN_ONCE("FIXME: writing undefined values to cbufs 0x%x\n", state->rt_mask & ~state->ps->rt_mask); #endif return state->changed.group; } static void update_viewport(struct NineDevice9 *device) { struct pipe_context *pipe = device->pipe; const D3DVIEWPORT9 *vport = &device->state.viewport; struct pipe_viewport_state pvport; /* XXX: * I hope D3D clip coordinates are still * -1 .. +1 for X,Y and * 0 .. +1 for Z (use pipe_rasterizer_state.clip_halfz) */ pvport.scale[0] = (float)vport->Width * 0.5f; pvport.scale[1] = (float)vport->Height * -0.5f; pvport.scale[2] = vport->MaxZ - vport->MinZ; pvport.scale[3] = 1.0f; pvport.translate[0] = (float)vport->Width * 0.5f + (float)vport->X; pvport.translate[1] = (float)vport->Height * 0.5f + (float)vport->Y; pvport.translate[2] = vport->MinZ; pvport.translate[3] = 0.0f; pipe->set_viewport_states(pipe, 0, 1, &pvport); } static INLINE void update_scissor(struct NineDevice9 *device) { struct pipe_context *pipe = device->pipe; pipe->set_scissor_states(pipe, 0, 1, &device->state.scissor); } static INLINE void update_blend(struct NineDevice9 *device) { nine_convert_blend_state(device->cso, device->state.rs); } static INLINE void update_dsa(struct NineDevice9 *device) { nine_convert_dsa_state(device->cso, device->state.rs); } static INLINE void update_rasterizer(struct NineDevice9 *device) { nine_convert_rasterizer_state(device->cso, device->state.rs); } /* Loop through VS inputs and pick the vertex elements with the declared * usage from the vertex declaration, then insert the instance divisor from * the stream source frequency setting. */ static void update_vertex_elements(struct NineDevice9 *device) { struct nine_state *state = &device->state; const struct NineVertexDeclaration9 *vdecl = device->state.vdecl; const struct NineVertexShader9 *vs; unsigned n, l, b; struct pipe_vertex_element ve[PIPE_MAX_ATTRIBS]; state->stream_usage_mask = 0; vs = device->state.vs ? device->state.vs : device->ff.vs; if (!vdecl) /* no inputs */ return; for (n = 0; n < vs->num_inputs; ++n) { DBG("looking up input %u (usage %u) from vdecl(%p)\n", n, vs->input_map[n].ndecl, vdecl); assert(vs->input_map[n].ndecl < Elements(vdecl->usage_map)); l = vdecl->usage_map[vs->input_map[n].ndecl]; if (likely(l < vdecl->nelems)) { ve[n] = vdecl->elems[l]; b = ve[n].vertex_buffer_index; state->stream_usage_mask |= 1 << b; /* XXX wine just uses 1 here: */ if (state->stream_freq[b] & D3DSTREAMSOURCE_INSTANCEDATA) ve[n].instance_divisor = state->stream_freq[b] & 0x7FFFFF; } else { /* TODO: * If drivers don't want to handle this, insert a dummy buffer. * But on which stream ? */ /* no data, disable */ ve[n].src_format = PIPE_FORMAT_NONE; ve[n].src_offset = 0; ve[n].instance_divisor = 0; ve[n].vertex_buffer_index = 0; } } cso_set_vertex_elements(device->cso, vs->num_inputs, ve); state->changed.stream_freq = 0; } static INLINE uint32_t update_shader_variant_keys(struct NineDevice9 *device) { struct nine_state *state = &device->state; uint32_t mask = 0; uint32_t vs_key = state->samplers_shadow; uint32_t ps_key = state->samplers_shadow; vs_key = (vs_key & NINE_VS_SAMPLERS_MASK) >> NINE_SAMPLER_VS(0); ps_key = (ps_key & NINE_PS_SAMPLERS_MASK) >> NINE_SAMPLER_PS(0); if (state->vs) vs_key &= state->vs->sampler_mask; if (state->ps) { if (unlikely(state->ps->byte_code.version < 0x20)) { /* no depth textures, but variable targets */ uint32_t m = state->ps->sampler_mask; ps_key = 0; while (m) { int s = ffs(m) - 1; m &= ~(1 << s); ps_key |= (state->texture[s] ? state->texture[s]->pstype : 1) << (s * 2); } } else { ps_key &= state->ps->sampler_mask; } } if (state->vs && state->vs_key != vs_key) { state->vs_key = vs_key; mask |= NINE_STATE_VS; } if (state->ps && state->ps_key != ps_key) { state->ps_key = ps_key; mask |= NINE_STATE_PS; } return mask; } static INLINE uint32_t update_vs(struct NineDevice9 *device) { struct nine_state *state = &device->state; struct NineVertexShader9 *vs = state->vs; /* likely because we dislike FF */ if (likely(vs)) { state->cso.vs = NineVertexShader9_GetVariant(vs, state->vs_key); } else { vs = device->ff.vs; state->cso.vs = vs->variant.cso; } device->pipe->bind_vs_state(device->pipe, state->cso.vs); if (state->rs[NINED3DRS_VSPOINTSIZE] != vs->point_size) { state->rs[NINED3DRS_VSPOINTSIZE] = vs->point_size; return NINE_STATE_RASTERIZER; } #ifdef DEBUG { unsigned s, mask = vs->sampler_mask; for (s = 0; mask; ++s, mask >>= 1) if ((mask & 1) && !(device->state.texture[NINE_SAMPLER_VS(s)])) WARN_ONCE("FIXME: unbound sampler should return alpha=1\n"); } #endif return 0; } static INLINE uint32_t update_ps(struct NineDevice9 *device) { struct nine_state *state = &device->state; struct NinePixelShader9 *ps = state->ps; if (likely(ps)) { state->cso.ps = NinePixelShader9_GetVariant(ps, state->ps_key); } else { ps = device->ff.ps; state->cso.ps = ps->variant.cso; } device->pipe->bind_fs_state(device->pipe, state->cso.ps); #ifdef DEBUG { unsigned s, mask = ps->sampler_mask; for (s = 0; mask; ++s, mask >>= 1) if ((mask & 1) && !(device->state.texture[NINE_SAMPLER_PS(s)])) WARN_ONCE("FIXME: unbound sampler should return alpha=1\n"); if (device->state.rt_mask & ~ps->rt_mask) WARN_ONCE("FIXME: writing undefined values to cbufs 0x%x\n", device->state.rt_mask & ~ps->rt_mask); } #endif return 0; } #define DO_UPLOAD_CONST_F(buf,p,c,d) \ do { \ DBG("upload ConstantF [%u .. %u]\n", x, (x) + (c) - 1); \ box.x = (p) * 4 * sizeof(float); \ box.width = (c) * 4 * sizeof(float); \ pipe->transfer_inline_write(pipe, buf, 0, usage, &box, &((d)[p * 4]), \ 0, 0); \ } while(0) /* OK, this is a bit ugly ... */ static void update_constants(struct NineDevice9 *device, unsigned shader_type) { struct pipe_context *pipe = device->pipe; struct pipe_resource *buf; struct pipe_box box; const void *data; const float *const_f; const int *const_i; const BOOL *const_b; uint32_t data_b[NINE_MAX_CONST_B]; uint32_t b_true; uint16_t dirty_i; uint16_t dirty_b; const unsigned usage = PIPE_TRANSFER_WRITE | PIPE_TRANSFER_DISCARD_RANGE; unsigned x = 0; /* silence warning */ unsigned i, c, n; const struct nine_lconstf *lconstf; struct nine_range *r, *p; box.y = 0; box.z = 0; box.height = 1; box.depth = 1; if (shader_type == PIPE_SHADER_VERTEX) { DBG("VS\n"); buf = device->constbuf_vs; const_f = device->state.vs_const_f; for (p = r = device->state.changed.vs_const_f; r; p = r, r = r->next) DO_UPLOAD_CONST_F(buf, r->bgn, r->end - r->bgn, const_f); if (p) { nine_range_pool_put_chain(&device->range_pool, device->state.changed.vs_const_f, p); device->state.changed.vs_const_f = NULL; } dirty_i = device->state.changed.vs_const_i; device->state.changed.vs_const_i = 0; const_i = &device->state.vs_const_i[0][0]; dirty_b = device->state.changed.vs_const_b; device->state.changed.vs_const_b = 0; const_b = device->state.vs_const_b; b_true = device->vs_bool_true; lconstf = &device->state.vs->lconstf; device->state.ff.clobber.vs_const = TRUE; device->state.changed.group &= ~NINE_STATE_VS_CONST; } else { DBG("PS\n"); buf = device->constbuf_ps; const_f = device->state.ps_const_f; for (p = r = device->state.changed.ps_const_f; r; p = r, r = r->next) DO_UPLOAD_CONST_F(buf, r->bgn, r->end - r->bgn, const_f); if (p) { nine_range_pool_put_chain(&device->range_pool, device->state.changed.ps_const_f, p); device->state.changed.ps_const_f = NULL; } dirty_i = device->state.changed.ps_const_i; device->state.changed.ps_const_i = 0; const_i = &device->state.ps_const_i[0][0]; dirty_b = device->state.changed.ps_const_b; device->state.changed.vs_const_b = 0; const_b = device->state.ps_const_b; b_true = device->ps_bool_true; lconstf = &device->state.ps->lconstf; device->state.ff.clobber.ps_const = TRUE; device->state.changed.group &= ~NINE_STATE_PS_CONST; } /* write range from min to max changed, it's not much data */ /* bool1 */ if (dirty_b) { c = util_last_bit(dirty_b); i = ffs(dirty_b) - 1; x = buf->width0 - (NINE_MAX_CONST_B - i) * 4; c -= i; for (n = 0; n < c; ++n, ++i) data_b[n] = const_b[i] ? b_true : 0; box.x = x; box.width = n * 4; DBG("upload ConstantB [%u .. %u]\n", x, x + n - 1); pipe->transfer_inline_write(pipe, buf, 0, usage, &box, data_b, 0, 0); } /* int4 */ for (c = 0, i = 0; dirty_i; i++, dirty_i >>= 1) { if (dirty_i & 1) { if (!c) x = i; ++c; } else if (c) { DBG("upload ConstantI [%u .. %u]\n", x, x + c - 1); data = &const_i[x * 4]; box.x = buf->width0 - (NINE_MAX_CONST_I * 4 + NINE_MAX_CONST_B) * 4; box.x += x * 4 * sizeof(int); box.width = c * 4 * sizeof(int); c = 0; pipe->transfer_inline_write(pipe, buf, 0, usage, &box, data, 0, 0); } } if (c) { DBG("upload ConstantI [%u .. %u]\n", x, x + c - 1); data = &const_i[x * 4]; box.x = buf->width0 - (NINE_MAX_CONST_I * 4 + NINE_MAX_CONST_B) * 4; box.x += x * 4 * sizeof(int); box.width = c * 4 * sizeof(int); pipe->transfer_inline_write(pipe, buf, 0, usage, &box, data, 0, 0); } /* TODO: only upload these when shader itself changes */ if (lconstf->ranges) { unsigned n = 0; struct nine_range *r = lconstf->ranges; while (r) { box.x = r->bgn * 4 * sizeof(float); n += r->end - r->bgn; box.width = (r->end - r->bgn) * 4 * sizeof(float); data = &lconstf->data[4 * n]; pipe->transfer_inline_write(pipe, buf, 0, usage, &box, data, 0, 0); r = r->next; } } } static void update_vs_constants_userbuf(struct NineDevice9 *device) { struct nine_state *state = &device->state; struct pipe_context *pipe = device->pipe; struct pipe_constant_buffer cb; cb.buffer = NULL; cb.buffer_offset = 0; cb.buffer_size = device->state.vs->const_used_size; cb.user_buffer = device->state.vs_const_f; if (!cb.buffer_size) return; if (state->changed.vs_const_i) { int *idst = (int *)&state->vs_const_f[4 * device->max_vs_const_f]; memcpy(idst, state->vs_const_i, sizeof(state->vs_const_i)); state->changed.vs_const_i = 0; } if (state->changed.vs_const_b) { int *idst = (int *)&state->vs_const_f[4 * device->max_vs_const_f]; uint32_t *bdst = (uint32_t *)&idst[4 * NINE_MAX_CONST_I]; int i; for (i = 0; i < NINE_MAX_CONST_B; ++i) bdst[i] = state->vs_const_b[i] ? device->vs_bool_true : 0; state->changed.vs_const_b = 0; } #ifdef DEBUG if (device->state.vs->lconstf.ranges) { /* TODO: Can we make it so that we don't have to copy everything ? */ const struct nine_lconstf *lconstf = &device->state.vs->lconstf; const struct nine_range *r = lconstf->ranges; unsigned n = 0; float *dst = (float *)MALLOC(cb.buffer_size); float *src = (float *)cb.user_buffer; memcpy(dst, src, cb.buffer_size); while (r) { unsigned p = r->bgn; unsigned c = r->end - r->bgn; memcpy(&dst[p * 4], &lconstf->data[n * 4], c * 4 * sizeof(float)); n += c; r = r->next; } cb.user_buffer = dst; } #endif pipe->set_constant_buffer(pipe, PIPE_SHADER_VERTEX, 0, &cb); #ifdef DEBUG if (device->state.vs->lconstf.ranges) FREE((void *)cb.user_buffer); #endif if (device->state.changed.vs_const_f) { struct nine_range *r = device->state.changed.vs_const_f; struct nine_range *p = r; while (p->next) p = p->next; nine_range_pool_put_chain(&device->range_pool, r, p); device->state.changed.vs_const_f = NULL; } state->changed.group &= ~NINE_STATE_VS_CONST; } static void update_ps_constants_userbuf(struct NineDevice9 *device) { struct nine_state *state = &device->state; struct pipe_context *pipe = device->pipe; struct pipe_constant_buffer cb; cb.buffer = NULL; cb.buffer_offset = 0; cb.buffer_size = device->state.ps->const_used_size; cb.user_buffer = device->state.ps_const_f; if (!cb.buffer_size) return; if (state->changed.ps_const_i) { int *idst = (int *)&state->ps_const_f[4 * device->max_ps_const_f]; memcpy(idst, state->ps_const_i, sizeof(state->ps_const_i)); state->changed.ps_const_i = 0; } if (state->changed.ps_const_b) { int *idst = (int *)&state->ps_const_f[4 * device->max_ps_const_f]; uint32_t *bdst = (uint32_t *)&idst[4 * NINE_MAX_CONST_I]; int i; for (i = 0; i < NINE_MAX_CONST_B; ++i) bdst[i] = state->ps_const_b[i] ? device->ps_bool_true : 0; state->changed.ps_const_b = 0; } #ifdef DEBUG if (device->state.ps->lconstf.ranges) { /* TODO: Can we make it so that we don't have to copy everything ? */ const struct nine_lconstf *lconstf = &device->state.ps->lconstf; const struct nine_range *r = lconstf->ranges; unsigned n = 0; float *dst = (float *)MALLOC(cb.buffer_size); float *src = (float *)cb.user_buffer; memcpy(dst, src, cb.buffer_size); while (r) { unsigned p = r->bgn; unsigned c = r->end - r->bgn; memcpy(&dst[p * 4], &lconstf->data[n * 4], c * 4 * sizeof(float)); n += c; r = r->next; } cb.user_buffer = dst; } #endif pipe->set_constant_buffer(pipe, PIPE_SHADER_FRAGMENT, 0, &cb); #ifdef DEBUG if (device->state.ps->lconstf.ranges) FREE((void *)cb.user_buffer); #endif if (device->state.changed.ps_const_f) { struct nine_range *r = device->state.changed.ps_const_f; struct nine_range *p = r; while (p->next) p = p->next; nine_range_pool_put_chain(&device->range_pool, r, p); device->state.changed.ps_const_f = NULL; } state->changed.group &= ~NINE_STATE_PS_CONST; } static void update_vertex_buffers(struct NineDevice9 *device) { struct pipe_context *pipe = device->pipe; struct nine_state *state = &device->state; uint32_t mask = state->changed.vtxbuf; unsigned i; unsigned start; unsigned count = 0; DBG("mask=%x\n", mask); for (i = 0; mask; mask >>= 1, ++i) { if (mask & 1) { if (!count) start = i; ++count; } else { if (count) pipe->set_vertex_buffers(pipe, start, count, &state->vtxbuf[start]); count = 0; } } if (count) pipe->set_vertex_buffers(pipe, start, count, &state->vtxbuf[start]); state->changed.vtxbuf = 0; } static INLINE void update_index_buffer(struct NineDevice9 *device) { struct pipe_context *pipe = device->pipe; if (device->state.idxbuf) pipe->set_index_buffer(pipe, &device->state.idxbuf->buffer); else pipe->set_index_buffer(pipe, NULL); } /* TODO: only go through dirty textures */ static void validate_textures(struct NineDevice9 *device) { struct NineBaseTexture9 *tex, *ptr; LIST_FOR_EACH_ENTRY_SAFE(tex, ptr, &device->update_textures, list) { list_delinit(&tex->list); NineBaseTexture9_Validate(tex); } } static INLINE boolean update_sampler_derived(struct nine_state *state, unsigned s) { boolean changed = FALSE; if (state->samp[s][NINED3DSAMP_SHADOW] != state->texture[s]->shadow) { changed = TRUE; state->samp[s][NINED3DSAMP_SHADOW] = state->texture[s]->shadow; } if (state->samp[s][D3DSAMP_MIPFILTER] != D3DTEXF_NONE) { int lod = state->samp[s][D3DSAMP_MAXMIPLEVEL] - state->texture[s]->lod; if (lod < 0) lod = 0; if (state->samp[s][NINED3DSAMP_MINLOD] != lod) { changed = TRUE; state->samp[s][NINED3DSAMP_MINLOD] = lod; } } else { state->changed.sampler[s] &= ~0x300; /* lod changes irrelevant */ } return changed; } /* TODO: add sRGB override to pipe_sampler_state ? */ static void update_textures_and_samplers(struct NineDevice9 *device) { struct pipe_context *pipe = device->pipe; struct nine_state *state = &device->state; struct pipe_sampler_view *view[NINE_MAX_SAMPLERS]; unsigned num_textures; unsigned i; boolean commit_samplers; /* TODO: Can we reduce iterations here ? */ commit_samplers = FALSE; for (num_textures = 0, i = 0; i < NINE_MAX_SAMPLERS_PS; ++i) { const unsigned s = NINE_SAMPLER_PS(i); int sRGB; if (!state->texture[s]) { view[i] = NULL; #ifdef DEBUG if (state->ps && state->ps->sampler_mask & (1 << i)) WARN_ONCE("FIXME: unbound sampler should return alpha=1\n"); #endif continue; } sRGB = state->samp[s][D3DSAMP_SRGBTEXTURE] ? 1 : 0; view[i] = NineBaseTexture9_GetSamplerView(state->texture[s], sRGB); num_textures = i + 1; if (update_sampler_derived(state, s) || (state->changed.sampler[s] & 0x05fe)) { state->changed.sampler[s] = 0; commit_samplers = TRUE; nine_convert_sampler_state(device->cso, s, state->samp[s]); } } if (state->changed.texture & NINE_PS_SAMPLERS_MASK) pipe->set_sampler_views(pipe, PIPE_SHADER_FRAGMENT, 0, num_textures, view); if (commit_samplers) cso_single_sampler_done(device->cso, PIPE_SHADER_FRAGMENT); commit_samplers = FALSE; for (num_textures = 0, i = 0; i < NINE_MAX_SAMPLERS_VS; ++i) { const unsigned s = NINE_SAMPLER_VS(i); int sRGB; if (!state->texture[s]) { view[i] = NULL; #ifdef DEBUG if (state->vs && state->vs->sampler_mask & (1 << i)) WARN_ONCE("FIXME: unbound sampler should return alpha=1\n"); #endif continue; } sRGB = state->samp[s][D3DSAMP_SRGBTEXTURE] ? 1 : 0; view[i] = NineBaseTexture9_GetSamplerView(state->texture[s], sRGB); num_textures = i + 1; if (update_sampler_derived(state, s) || (state->changed.sampler[s] & 0x05fe)) { state->changed.sampler[s] = 0; commit_samplers = TRUE; nine_convert_sampler_state(device->cso, s, state->samp[s]); } } if (state->changed.texture & NINE_VS_SAMPLERS_MASK) pipe->set_sampler_views(pipe, PIPE_SHADER_VERTEX, 0, num_textures, view); if (commit_samplers) cso_single_sampler_done(device->cso, PIPE_SHADER_VERTEX); state->changed.texture = 0; } #define NINE_STATE_FREQ_GROUP_0 \ (NINE_STATE_FB | \ NINE_STATE_VIEWPORT | \ NINE_STATE_SCISSOR | \ NINE_STATE_BLEND | \ NINE_STATE_DSA | \ NINE_STATE_RASTERIZER | \ NINE_STATE_VS | \ NINE_STATE_PS | \ NINE_STATE_BLEND_COLOR | \ NINE_STATE_STENCIL_REF | \ NINE_STATE_SAMPLE_MASK) #define NINE_STATE_FREQ_GROUP_1 ~NINE_STATE_FREQ_GROUP_0 #define NINE_STATE_SHADER_VARIANT_GROUP \ (NINE_STATE_TEXTURE | \ NINE_STATE_VS | \ NINE_STATE_PS) boolean nine_update_state(struct NineDevice9 *device, uint32_t mask) { struct pipe_context *pipe = device->pipe; struct nine_state *state = &device->state; uint32_t group; DBG("changed state groups: %x | %x\n", state->changed.group & NINE_STATE_FREQ_GROUP_0, state->changed.group & NINE_STATE_FREQ_GROUP_1); /* NOTE: We may want to use the cso cache for everything, or let * NineDevice9.RestoreNonCSOState actually set the states, then we wouldn't * have to care about state being clobbered here and could merge this back * into update_textures. Except, we also need to re-validate textures that * may be dirty anyway, even if no texture bindings changed. */ validate_textures(device); /* may clobber state */ /* ff_update may change VS/PS dirty bits */ if ((mask & NINE_STATE_FF) && unlikely(!state->vs || !state->ps)) nine_ff_update(device); group = state->changed.group & mask; if (group & NINE_STATE_SHADER_VARIANT_GROUP) group |= update_shader_variant_keys(device); if (group & NINE_STATE_FREQ_GROUP_0) { if (group & NINE_STATE_FB) group = update_framebuffer(device) & mask; if (group & NINE_STATE_VIEWPORT) update_viewport(device); if (group & NINE_STATE_SCISSOR) update_scissor(device); if (group & NINE_STATE_DSA) update_dsa(device); if (group & NINE_STATE_BLEND) update_blend(device); if (group & NINE_STATE_VS) group |= update_vs(device); if (group & NINE_STATE_RASTERIZER) update_rasterizer(device); if (group & NINE_STATE_PS) group |= update_ps(device); if (group & NINE_STATE_BLEND_COLOR) { struct pipe_blend_color color; d3dcolor_to_rgba(&color.color[0], state->rs[D3DRS_BLENDFACTOR]); pipe->set_blend_color(pipe, &color); } if (group & NINE_STATE_SAMPLE_MASK) { pipe->set_sample_mask(pipe, state->rs[D3DRS_MULTISAMPLEMASK]); } if (group & NINE_STATE_STENCIL_REF) { struct pipe_stencil_ref ref; ref.ref_value[0] = state->rs[D3DRS_STENCILREF]; ref.ref_value[1] = ref.ref_value[0]; pipe->set_stencil_ref(pipe, &ref); } } if (state->changed.ucp) pipe->set_clip_state(pipe, &state->clip); if (group & (NINE_STATE_FREQ_GROUP_1 | NINE_STATE_VS)) { if (group & (NINE_STATE_TEXTURE | NINE_STATE_SAMPLER)) update_textures_and_samplers(device); if (group & NINE_STATE_IDXBUF) update_index_buffer(device); if ((group & (NINE_STATE_VDECL | NINE_STATE_VS)) || state->changed.stream_freq & ~1) update_vertex_elements(device); if (device->prefer_user_constbuf) { if ((group & (NINE_STATE_VS_CONST | NINE_STATE_VS)) && state->vs) update_vs_constants_userbuf(device); if ((group & (NINE_STATE_PS_CONST | NINE_STATE_PS)) && state->ps) update_ps_constants_userbuf(device); } else { if ((group & NINE_STATE_VS_CONST) && state->vs) update_constants(device, PIPE_SHADER_VERTEX); if ((group & NINE_STATE_PS_CONST) && state->ps) update_constants(device, PIPE_SHADER_FRAGMENT); } } if (state->changed.vtxbuf) update_vertex_buffers(device); device->state.changed.group &= ~mask | (NINE_STATE_FF | NINE_STATE_VS_CONST | NINE_STATE_PS_CONST); DBG("finished\n"); return TRUE; } static const DWORD nine_render_state_defaults[NINED3DRS_LAST + 1] = { /* [D3DRS_ZENABLE] = D3DZB_TRUE; wine: auto_depth_stencil */ [D3DRS_ZENABLE] = D3DZB_FALSE, [D3DRS_FILLMODE] = D3DFILL_SOLID, [D3DRS_SHADEMODE] = D3DSHADE_GOURAUD, /* [D3DRS_LINEPATTERN] = 0x00000000, */ [D3DRS_ZWRITEENABLE] = TRUE, [D3DRS_ALPHATESTENABLE] = FALSE, [D3DRS_LASTPIXEL] = TRUE, [D3DRS_SRCBLEND] = D3DBLEND_ONE, [D3DRS_DESTBLEND] = D3DBLEND_ZERO, [D3DRS_CULLMODE] = D3DCULL_CCW, [D3DRS_ZFUNC] = D3DCMP_LESSEQUAL, [D3DRS_ALPHAFUNC] = D3DCMP_ALWAYS, [D3DRS_ALPHAREF] = 0, [D3DRS_DITHERENABLE] = FALSE, [D3DRS_ALPHABLENDENABLE] = FALSE, [D3DRS_FOGENABLE] = FALSE, [D3DRS_SPECULARENABLE] = FALSE, /* [D3DRS_ZVISIBLE] = 0, */ [D3DRS_FOGCOLOR] = 0, [D3DRS_FOGTABLEMODE] = D3DFOG_NONE, [D3DRS_FOGSTART] = 0x00000000, [D3DRS_FOGEND] = 0x3F800000, [D3DRS_FOGDENSITY] = 0x3F800000, /* [D3DRS_EDGEANTIALIAS] = FALSE, */ [D3DRS_RANGEFOGENABLE] = FALSE, [D3DRS_STENCILENABLE] = FALSE, [D3DRS_STENCILFAIL] = D3DSTENCILOP_KEEP, [D3DRS_STENCILZFAIL] = D3DSTENCILOP_KEEP, [D3DRS_STENCILPASS] = D3DSTENCILOP_KEEP, [D3DRS_STENCILREF] = 0, [D3DRS_STENCILMASK] = 0xFFFFFFFF, [D3DRS_STENCILFUNC] = D3DCMP_ALWAYS, [D3DRS_STENCILWRITEMASK] = 0xFFFFFFFF, [D3DRS_TEXTUREFACTOR] = 0xFFFFFFFF, [D3DRS_WRAP0] = 0, [D3DRS_WRAP1] = 0, [D3DRS_WRAP2] = 0, [D3DRS_WRAP3] = 0, [D3DRS_WRAP4] = 0, [D3DRS_WRAP5] = 0, [D3DRS_WRAP6] = 0, [D3DRS_WRAP7] = 0, [D3DRS_CLIPPING] = TRUE, [D3DRS_LIGHTING] = TRUE, [D3DRS_AMBIENT] = 0, [D3DRS_FOGVERTEXMODE] = D3DFOG_NONE, [D3DRS_COLORVERTEX] = TRUE, [D3DRS_LOCALVIEWER] = TRUE, [D3DRS_NORMALIZENORMALS] = FALSE, [D3DRS_DIFFUSEMATERIALSOURCE] = D3DMCS_COLOR1, [D3DRS_SPECULARMATERIALSOURCE] = D3DMCS_COLOR2, [D3DRS_AMBIENTMATERIALSOURCE] = D3DMCS_MATERIAL, [D3DRS_EMISSIVEMATERIALSOURCE] = D3DMCS_MATERIAL, [D3DRS_VERTEXBLEND] = D3DVBF_DISABLE, [D3DRS_CLIPPLANEENABLE] = 0, /* [D3DRS_SOFTWAREVERTEXPROCESSING] = FALSE, */ [D3DRS_POINTSIZE] = 0x3F800000, [D3DRS_POINTSIZE_MIN] = 0x3F800000, [D3DRS_POINTSPRITEENABLE] = FALSE, [D3DRS_POINTSCALEENABLE] = FALSE, [D3DRS_POINTSCALE_A] = 0x3F800000, [D3DRS_POINTSCALE_B] = 0x00000000, [D3DRS_POINTSCALE_C] = 0x00000000, [D3DRS_MULTISAMPLEANTIALIAS] = TRUE, [D3DRS_MULTISAMPLEMASK] = 0xFFFFFFFF, [D3DRS_PATCHEDGESTYLE] = D3DPATCHEDGE_DISCRETE, /* [D3DRS_PATCHSEGMENTS] = 0x3F800000, */ [D3DRS_DEBUGMONITORTOKEN] = 0xDEADCAFE, [D3DRS_POINTSIZE_MAX] = 0x3F800000, /* depends on cap */ [D3DRS_INDEXEDVERTEXBLENDENABLE] = FALSE, [D3DRS_COLORWRITEENABLE] = 0x0000000f, [D3DRS_TWEENFACTOR] = 0x00000000, [D3DRS_BLENDOP] = D3DBLENDOP_ADD, [D3DRS_POSITIONDEGREE] = D3DDEGREE_CUBIC, [D3DRS_NORMALDEGREE] = D3DDEGREE_LINEAR, [D3DRS_SCISSORTESTENABLE] = FALSE, [D3DRS_SLOPESCALEDEPTHBIAS] = 0, [D3DRS_MINTESSELLATIONLEVEL] = 0x3F800000, [D3DRS_MAXTESSELLATIONLEVEL] = 0x3F800000, [D3DRS_ANTIALIASEDLINEENABLE] = FALSE, [D3DRS_ADAPTIVETESS_X] = 0x00000000, [D3DRS_ADAPTIVETESS_Y] = 0x00000000, [D3DRS_ADAPTIVETESS_Z] = 0x3F800000, [D3DRS_ADAPTIVETESS_W] = 0x00000000, [D3DRS_ENABLEADAPTIVETESSELLATION] = FALSE, [D3DRS_TWOSIDEDSTENCILMODE] = FALSE, [D3DRS_CCW_STENCILFAIL] = D3DSTENCILOP_KEEP, [D3DRS_CCW_STENCILZFAIL] = D3DSTENCILOP_KEEP, [D3DRS_CCW_STENCILPASS] = D3DSTENCILOP_KEEP, [D3DRS_CCW_STENCILFUNC] = D3DCMP_ALWAYS, [D3DRS_COLORWRITEENABLE1] = 0x0000000F, [D3DRS_COLORWRITEENABLE2] = 0x0000000F, [D3DRS_COLORWRITEENABLE3] = 0x0000000F, [D3DRS_BLENDFACTOR] = 0xFFFFFFFF, [D3DRS_SRGBWRITEENABLE] = 0, [D3DRS_DEPTHBIAS] = 0, [D3DRS_WRAP8] = 0, [D3DRS_WRAP9] = 0, [D3DRS_WRAP10] = 0, [D3DRS_WRAP11] = 0, [D3DRS_WRAP12] = 0, [D3DRS_WRAP13] = 0, [D3DRS_WRAP14] = 0, [D3DRS_WRAP15] = 0, [D3DRS_SEPARATEALPHABLENDENABLE] = FALSE, [D3DRS_SRCBLENDALPHA] = D3DBLEND_ONE, [D3DRS_DESTBLENDALPHA] = D3DBLEND_ZERO, [D3DRS_BLENDOPALPHA] = D3DBLENDOP_ADD, [NINED3DRS_VSPOINTSIZE] = FALSE, [NINED3DRS_RTMASK] = 0xf }; static const DWORD nine_tex_stage_state_defaults[NINED3DTSS_LAST + 1] = { [D3DTSS_COLOROP] = D3DTOP_DISABLE, [D3DTSS_ALPHAOP] = D3DTOP_DISABLE, [D3DTSS_COLORARG1] = D3DTA_TEXTURE, [D3DTSS_COLORARG2] = D3DTA_CURRENT, [D3DTSS_COLORARG0] = D3DTA_CURRENT, [D3DTSS_ALPHAARG1] = D3DTA_TEXTURE, [D3DTSS_ALPHAARG2] = D3DTA_CURRENT, [D3DTSS_ALPHAARG0] = D3DTA_CURRENT, [D3DTSS_RESULTARG] = D3DTA_CURRENT, [D3DTSS_BUMPENVMAT00] = 0, [D3DTSS_BUMPENVMAT01] = 0, [D3DTSS_BUMPENVMAT10] = 0, [D3DTSS_BUMPENVMAT11] = 0, [D3DTSS_BUMPENVLSCALE] = 0, [D3DTSS_BUMPENVLOFFSET] = 0, [D3DTSS_TEXCOORDINDEX] = 0, [D3DTSS_TEXTURETRANSFORMFLAGS] = D3DTTFF_DISABLE, }; static const DWORD nine_samp_state_defaults[NINED3DSAMP_LAST + 1] = { [D3DSAMP_ADDRESSU] = D3DTADDRESS_WRAP, [D3DSAMP_ADDRESSV] = D3DTADDRESS_WRAP, [D3DSAMP_ADDRESSW] = D3DTADDRESS_WRAP, [D3DSAMP_BORDERCOLOR] = 0, [D3DSAMP_MAGFILTER] = D3DTEXF_POINT, [D3DSAMP_MINFILTER] = D3DTEXF_POINT, [D3DSAMP_MIPFILTER] = D3DTEXF_NONE, [D3DSAMP_MIPMAPLODBIAS] = 0, [D3DSAMP_MAXMIPLEVEL] = 0, [D3DSAMP_MAXANISOTROPY] = 1, [D3DSAMP_SRGBTEXTURE] = 0, [D3DSAMP_ELEMENTINDEX] = 0, [D3DSAMP_DMAPOFFSET] = 0, [NINED3DSAMP_MINLOD] = 0, [NINED3DSAMP_SHADOW] = 0 }; void nine_state_set_defaults(struct nine_state *state, const D3DCAPS9 *caps, boolean is_reset) { unsigned s; /* Initialize defaults. */ memcpy(state->rs, nine_render_state_defaults, sizeof(state->rs)); for (s = 0; s < Elements(state->ff.tex_stage); ++s) { memcpy(&state->ff.tex_stage[s], nine_tex_stage_state_defaults, sizeof(state->ff.tex_stage[s])); state->ff.tex_stage[s][D3DTSS_TEXCOORDINDEX] = s; } state->ff.tex_stage[0][D3DTSS_COLOROP] = D3DTOP_MODULATE; state->ff.tex_stage[0][D3DTSS_ALPHAOP] = D3DTOP_SELECTARG1; for (s = 0; s < Elements(state->samp); ++s) { memcpy(&state->samp[s], nine_samp_state_defaults, sizeof(state->samp[s])); } if (state->vs_const_f) memset(state->vs_const_f, 0, NINE_MAX_CONST_F * 4 * sizeof(float)); if (state->ps_const_f) memset(state->ps_const_f, 0, NINE_MAX_CONST_F * 4 * sizeof(float)); /* Cap dependent initial state: */ state->rs[D3DRS_POINTSIZE_MAX] = fui(caps->MaxPointSize); /* Set changed flags to initialize driver. */ state->changed.group = NINE_STATE_ALL; state->ff.changed.transform[0] = ~0; state->ff.changed.transform[D3DTS_WORLD / 32] |= 1 << (D3DTS_WORLD % 32); if (!is_reset) { state->viewport.MinZ = 0.0f; state->viewport.MaxZ = 1.0f; } for (s = 0; s < Elements(state->changed.sampler); ++s) state->changed.sampler[s] = ~0; } void nine_state_clear(struct nine_state *state, const boolean device) { unsigned i; for (i = 0; i < Elements(state->rt); ++i) nine_bind(&state->rt[i], NULL); nine_bind(&state->ds, NULL); nine_bind(&state->vs, NULL); nine_bind(&state->ps, NULL); nine_bind(&state->vdecl, NULL); for (i = 0; i < PIPE_MAX_ATTRIBS; ++i) nine_bind(&state->stream[i], NULL); nine_bind(&state->idxbuf, NULL); for (i = 0; i < NINE_MAX_SAMPLERS; ++i) { if (device && state->texture[i] && --state->texture[i]->bind_count == 0) list_delinit(&state->texture[i]->list); nine_bind(&state->texture[i], NULL); } } /* static const DWORD nine_render_states_pixel[] = { D3DRS_ALPHABLENDENABLE, D3DRS_ALPHAFUNC, D3DRS_ALPHAREF, D3DRS_ALPHATESTENABLE, D3DRS_ANTIALIASEDLINEENABLE, D3DRS_BLENDFACTOR, D3DRS_BLENDOP, D3DRS_BLENDOPALPHA, D3DRS_CCW_STENCILFAIL, D3DRS_CCW_STENCILPASS, D3DRS_CCW_STENCILZFAIL, D3DRS_COLORWRITEENABLE, D3DRS_COLORWRITEENABLE1, D3DRS_COLORWRITEENABLE2, D3DRS_COLORWRITEENABLE3, D3DRS_DEPTHBIAS, D3DRS_DESTBLEND, D3DRS_DESTBLENDALPHA, D3DRS_DITHERENABLE, D3DRS_FILLMODE, D3DRS_FOGDENSITY, D3DRS_FOGEND, D3DRS_FOGSTART, D3DRS_LASTPIXEL, D3DRS_SCISSORTESTENABLE, D3DRS_SEPARATEALPHABLENDENABLE, D3DRS_SHADEMODE, D3DRS_SLOPESCALEDEPTHBIAS, D3DRS_SRCBLEND, D3DRS_SRCBLENDALPHA, D3DRS_SRGBWRITEENABLE, D3DRS_STENCILENABLE, D3DRS_STENCILFAIL, D3DRS_STENCILFUNC, D3DRS_STENCILMASK, D3DRS_STENCILPASS, D3DRS_STENCILREF, D3DRS_STENCILWRITEMASK, D3DRS_STENCILZFAIL, D3DRS_TEXTUREFACTOR, D3DRS_TWOSIDEDSTENCILMODE, D3DRS_WRAP0, D3DRS_WRAP1, D3DRS_WRAP10, D3DRS_WRAP11, D3DRS_WRAP12, D3DRS_WRAP13, D3DRS_WRAP14, D3DRS_WRAP15, D3DRS_WRAP2, D3DRS_WRAP3, D3DRS_WRAP4, D3DRS_WRAP5, D3DRS_WRAP6, D3DRS_WRAP7, D3DRS_WRAP8, D3DRS_WRAP9, D3DRS_ZENABLE, D3DRS_ZFUNC, D3DRS_ZWRITEENABLE }; */ const uint32_t nine_render_states_pixel[(NINED3DRS_LAST + 31) / 32] = { 0x0f99c380, 0x1ff00070, 0x00000000, 0x00000000, 0x000000ff, 0xde01c900, 0x0003ffcf }; /* static const DWORD nine_render_states_vertex[] = { D3DRS_ADAPTIVETESS_W, D3DRS_ADAPTIVETESS_X, D3DRS_ADAPTIVETESS_Y, D3DRS_ADAPTIVETESS_Z, D3DRS_AMBIENT, D3DRS_AMBIENTMATERIALSOURCE, D3DRS_CLIPPING, D3DRS_CLIPPLANEENABLE, D3DRS_COLORVERTEX, D3DRS_CULLMODE, D3DRS_DIFFUSEMATERIALSOURCE, D3DRS_EMISSIVEMATERIALSOURCE, D3DRS_ENABLEADAPTIVETESSELLATION, D3DRS_FOGCOLOR, D3DRS_FOGDENSITY, D3DRS_FOGENABLE, D3DRS_FOGEND, D3DRS_FOGSTART, D3DRS_FOGTABLEMODE, D3DRS_FOGVERTEXMODE, D3DRS_INDEXEDVERTEXBLENDENABLE, D3DRS_LIGHTING, D3DRS_LOCALVIEWER, D3DRS_MAXTESSELLATIONLEVEL, D3DRS_MINTESSELLATIONLEVEL, D3DRS_MULTISAMPLEANTIALIAS, D3DRS_MULTISAMPLEMASK, D3DRS_NORMALDEGREE, D3DRS_NORMALIZENORMALS, D3DRS_PATCHEDGESTYLE, D3DRS_POINTSCALE_A, D3DRS_POINTSCALE_B, D3DRS_POINTSCALE_C, D3DRS_POINTSCALEENABLE, D3DRS_POINTSIZE, D3DRS_POINTSIZE_MAX, D3DRS_POINTSIZE_MIN, D3DRS_POINTSPRITEENABLE, D3DRS_POSITIONDEGREE, D3DRS_RANGEFOGENABLE, D3DRS_SHADEMODE, D3DRS_SPECULARENABLE, D3DRS_SPECULARMATERIALSOURCE, D3DRS_TWEENFACTOR, D3DRS_VERTEXBLEND }; */ const uint32_t nine_render_states_vertex[(NINED3DRS_LAST + 31) / 32] = { 0x30400200, 0x0001007c, 0x00000000, 0x00000000, 0xfd9efb00, 0x01fc34cf, 0x00000000 }; /* TODO: put in the right values */ const uint32_t nine_render_state_group[NINED3DRS_LAST + 1] = { [D3DRS_ZENABLE] = NINE_STATE_DSA, [D3DRS_FILLMODE] = NINE_STATE_RASTERIZER, [D3DRS_SHADEMODE] = NINE_STATE_RASTERIZER, [D3DRS_ZWRITEENABLE] = NINE_STATE_DSA, [D3DRS_ALPHATESTENABLE] = NINE_STATE_DSA, [D3DRS_LASTPIXEL] = NINE_STATE_RASTERIZER, [D3DRS_SRCBLEND] = NINE_STATE_BLEND, [D3DRS_DESTBLEND] = NINE_STATE_BLEND, [D3DRS_CULLMODE] = NINE_STATE_RASTERIZER, [D3DRS_ZFUNC] = NINE_STATE_DSA, [D3DRS_ALPHAREF] = NINE_STATE_DSA, [D3DRS_ALPHAFUNC] = NINE_STATE_DSA, [D3DRS_DITHERENABLE] = NINE_STATE_RASTERIZER, [D3DRS_ALPHABLENDENABLE] = NINE_STATE_BLEND, [D3DRS_FOGENABLE] = NINE_STATE_FF_OTHER, [D3DRS_SPECULARENABLE] = NINE_STATE_FF_LIGHTING, [D3DRS_FOGCOLOR] = NINE_STATE_FF_OTHER, [D3DRS_FOGTABLEMODE] = NINE_STATE_FF_OTHER, [D3DRS_FOGSTART] = NINE_STATE_FF_OTHER, [D3DRS_FOGEND] = NINE_STATE_FF_OTHER, [D3DRS_FOGDENSITY] = NINE_STATE_FF_OTHER, [D3DRS_RANGEFOGENABLE] = NINE_STATE_FF_OTHER, [D3DRS_STENCILENABLE] = NINE_STATE_DSA, [D3DRS_STENCILFAIL] = NINE_STATE_DSA, [D3DRS_STENCILZFAIL] = NINE_STATE_DSA, [D3DRS_STENCILPASS] = NINE_STATE_DSA, [D3DRS_STENCILFUNC] = NINE_STATE_DSA, [D3DRS_STENCILREF] = NINE_STATE_STENCIL_REF, [D3DRS_STENCILMASK] = NINE_STATE_DSA, [D3DRS_STENCILWRITEMASK] = NINE_STATE_DSA, [D3DRS_TEXTUREFACTOR] = NINE_STATE_FF_PSSTAGES, [D3DRS_WRAP0] = NINE_STATE_UNHANDLED, /* cylindrical wrap is crazy */ [D3DRS_WRAP1] = NINE_STATE_UNHANDLED, [D3DRS_WRAP2] = NINE_STATE_UNHANDLED, [D3DRS_WRAP3] = NINE_STATE_UNHANDLED, [D3DRS_WRAP4] = NINE_STATE_UNHANDLED, [D3DRS_WRAP5] = NINE_STATE_UNHANDLED, [D3DRS_WRAP6] = NINE_STATE_UNHANDLED, [D3DRS_WRAP7] = NINE_STATE_UNHANDLED, [D3DRS_CLIPPING] = 0, /* software vertex processing only */ [D3DRS_LIGHTING] = NINE_STATE_FF_LIGHTING, [D3DRS_AMBIENT] = NINE_STATE_FF_LIGHTING | NINE_STATE_FF_MATERIAL, [D3DRS_FOGVERTEXMODE] = NINE_STATE_FF_OTHER, [D3DRS_COLORVERTEX] = NINE_STATE_FF_LIGHTING, [D3DRS_LOCALVIEWER] = NINE_STATE_FF_LIGHTING, [D3DRS_NORMALIZENORMALS] = NINE_STATE_FF_OTHER, [D3DRS_DIFFUSEMATERIALSOURCE] = NINE_STATE_FF_LIGHTING, [D3DRS_SPECULARMATERIALSOURCE] = NINE_STATE_FF_LIGHTING, [D3DRS_AMBIENTMATERIALSOURCE] = NINE_STATE_FF_LIGHTING, [D3DRS_EMISSIVEMATERIALSOURCE] = NINE_STATE_FF_LIGHTING, [D3DRS_VERTEXBLEND] = NINE_STATE_FF_OTHER, [D3DRS_CLIPPLANEENABLE] = NINE_STATE_RASTERIZER, [D3DRS_POINTSIZE] = NINE_STATE_RASTERIZER, [D3DRS_POINTSIZE_MIN] = NINE_STATE_MISC_CONST, [D3DRS_POINTSPRITEENABLE] = NINE_STATE_RASTERIZER, [D3DRS_POINTSCALEENABLE] = NINE_STATE_FF_OTHER, [D3DRS_POINTSCALE_A] = NINE_STATE_FF_OTHER, [D3DRS_POINTSCALE_B] = NINE_STATE_FF_OTHER, [D3DRS_POINTSCALE_C] = NINE_STATE_FF_OTHER, [D3DRS_MULTISAMPLEANTIALIAS] = NINE_STATE_RASTERIZER, [D3DRS_MULTISAMPLEMASK] = NINE_STATE_SAMPLE_MASK, [D3DRS_PATCHEDGESTYLE] = NINE_STATE_UNHANDLED, [D3DRS_DEBUGMONITORTOKEN] = NINE_STATE_UNHANDLED, [D3DRS_POINTSIZE_MAX] = NINE_STATE_MISC_CONST, [D3DRS_INDEXEDVERTEXBLENDENABLE] = NINE_STATE_FF_OTHER, [D3DRS_COLORWRITEENABLE] = NINE_STATE_BLEND, [D3DRS_TWEENFACTOR] = NINE_STATE_FF_OTHER, [D3DRS_BLENDOP] = NINE_STATE_BLEND, [D3DRS_POSITIONDEGREE] = NINE_STATE_UNHANDLED, [D3DRS_NORMALDEGREE] = NINE_STATE_UNHANDLED, [D3DRS_SCISSORTESTENABLE] = NINE_STATE_RASTERIZER, [D3DRS_SLOPESCALEDEPTHBIAS] = NINE_STATE_RASTERIZER, [D3DRS_ANTIALIASEDLINEENABLE] = NINE_STATE_RASTERIZER, [D3DRS_MINTESSELLATIONLEVEL] = NINE_STATE_UNHANDLED, [D3DRS_MAXTESSELLATIONLEVEL] = NINE_STATE_UNHANDLED, [D3DRS_ADAPTIVETESS_X] = NINE_STATE_UNHANDLED, [D3DRS_ADAPTIVETESS_Y] = NINE_STATE_UNHANDLED, [D3DRS_ADAPTIVETESS_Z] = NINE_STATE_UNHANDLED, [D3DRS_ADAPTIVETESS_W] = NINE_STATE_UNHANDLED, [D3DRS_ENABLEADAPTIVETESSELLATION] = NINE_STATE_UNHANDLED, [D3DRS_TWOSIDEDSTENCILMODE] = NINE_STATE_DSA, [D3DRS_CCW_STENCILFAIL] = NINE_STATE_DSA, [D3DRS_CCW_STENCILZFAIL] = NINE_STATE_DSA, [D3DRS_CCW_STENCILPASS] = NINE_STATE_DSA, [D3DRS_CCW_STENCILFUNC] = NINE_STATE_DSA, [D3DRS_COLORWRITEENABLE1] = NINE_STATE_BLEND, [D3DRS_COLORWRITEENABLE2] = NINE_STATE_BLEND, [D3DRS_COLORWRITEENABLE3] = NINE_STATE_BLEND, [D3DRS_BLENDFACTOR] = NINE_STATE_BLEND_COLOR, [D3DRS_SRGBWRITEENABLE] = NINE_STATE_FB, [D3DRS_DEPTHBIAS] = NINE_STATE_RASTERIZER, [D3DRS_WRAP8] = NINE_STATE_UNHANDLED, /* cylwrap has to be done via GP */ [D3DRS_WRAP9] = NINE_STATE_UNHANDLED, [D3DRS_WRAP10] = NINE_STATE_UNHANDLED, [D3DRS_WRAP11] = NINE_STATE_UNHANDLED, [D3DRS_WRAP12] = NINE_STATE_UNHANDLED, [D3DRS_WRAP13] = NINE_STATE_UNHANDLED, [D3DRS_WRAP14] = NINE_STATE_UNHANDLED, [D3DRS_WRAP15] = NINE_STATE_UNHANDLED, [D3DRS_SEPARATEALPHABLENDENABLE] = NINE_STATE_BLEND, [D3DRS_SRCBLENDALPHA] = NINE_STATE_BLEND, [D3DRS_DESTBLENDALPHA] = NINE_STATE_BLEND, [D3DRS_BLENDOPALPHA] = NINE_STATE_BLEND }; D3DMATRIX * nine_state_access_transform(struct nine_state *state, D3DTRANSFORMSTATETYPE t, boolean alloc) { static D3DMATRIX Identity = { .m[0] = { 1, 0, 0, 0 }, .m[1] = { 0, 1, 0, 0 }, .m[2] = { 0, 0, 1, 0 }, .m[3] = { 0, 0, 0, 1 } }; unsigned index; switch (t) { case D3DTS_VIEW: index = 0; break; case D3DTS_PROJECTION: index = 1; break; case D3DTS_TEXTURE0: index = 2; break; case D3DTS_TEXTURE1: index = 3; break; case D3DTS_TEXTURE2: index = 4; break; case D3DTS_TEXTURE3: index = 5; break; case D3DTS_TEXTURE4: index = 6; break; case D3DTS_TEXTURE5: index = 7; break; case D3DTS_TEXTURE6: index = 8; break; case D3DTS_TEXTURE7: index = 9; break; default: if (!(t >= D3DTS_WORLDMATRIX(0) && t <= D3DTS_WORLDMATRIX(255))) return NULL; index = 10 + (t - D3DTS_WORLDMATRIX(0)); break; } if (index >= state->ff.num_transforms) { unsigned N = index + 1; unsigned n = state->ff.num_transforms; if (!alloc) return &Identity; state->ff.transform = REALLOC(state->ff.transform, n * sizeof(D3DMATRIX), N * sizeof(D3DMATRIX)); for (; n < N; ++n) state->ff.transform[n] = Identity; state->ff.num_transforms = N; } return &state->ff.transform[index]; } #define D3DRS_TO_STRING_CASE(n) case D3DRS_##n: return "D3DRS_"#n const char *nine_d3drs_to_string(DWORD State) { switch (State) { D3DRS_TO_STRING_CASE(ZENABLE); D3DRS_TO_STRING_CASE(FILLMODE); D3DRS_TO_STRING_CASE(SHADEMODE); D3DRS_TO_STRING_CASE(ZWRITEENABLE); D3DRS_TO_STRING_CASE(ALPHATESTENABLE); D3DRS_TO_STRING_CASE(LASTPIXEL); D3DRS_TO_STRING_CASE(SRCBLEND); D3DRS_TO_STRING_CASE(DESTBLEND); D3DRS_TO_STRING_CASE(CULLMODE); D3DRS_TO_STRING_CASE(ZFUNC); D3DRS_TO_STRING_CASE(ALPHAREF); D3DRS_TO_STRING_CASE(ALPHAFUNC); D3DRS_TO_STRING_CASE(DITHERENABLE); D3DRS_TO_STRING_CASE(ALPHABLENDENABLE); D3DRS_TO_STRING_CASE(FOGENABLE); D3DRS_TO_STRING_CASE(SPECULARENABLE); D3DRS_TO_STRING_CASE(FOGCOLOR); D3DRS_TO_STRING_CASE(FOGTABLEMODE); D3DRS_TO_STRING_CASE(FOGSTART); D3DRS_TO_STRING_CASE(FOGEND); D3DRS_TO_STRING_CASE(FOGDENSITY); D3DRS_TO_STRING_CASE(RANGEFOGENABLE); D3DRS_TO_STRING_CASE(STENCILENABLE); D3DRS_TO_STRING_CASE(STENCILFAIL); D3DRS_TO_STRING_CASE(STENCILZFAIL); D3DRS_TO_STRING_CASE(STENCILPASS); D3DRS_TO_STRING_CASE(STENCILFUNC); D3DRS_TO_STRING_CASE(STENCILREF); D3DRS_TO_STRING_CASE(STENCILMASK); D3DRS_TO_STRING_CASE(STENCILWRITEMASK); D3DRS_TO_STRING_CASE(TEXTUREFACTOR); D3DRS_TO_STRING_CASE(WRAP0); D3DRS_TO_STRING_CASE(WRAP1); D3DRS_TO_STRING_CASE(WRAP2); D3DRS_TO_STRING_CASE(WRAP3); D3DRS_TO_STRING_CASE(WRAP4); D3DRS_TO_STRING_CASE(WRAP5); D3DRS_TO_STRING_CASE(WRAP6); D3DRS_TO_STRING_CASE(WRAP7); D3DRS_TO_STRING_CASE(CLIPPING); D3DRS_TO_STRING_CASE(LIGHTING); D3DRS_TO_STRING_CASE(AMBIENT); D3DRS_TO_STRING_CASE(FOGVERTEXMODE); D3DRS_TO_STRING_CASE(COLORVERTEX); D3DRS_TO_STRING_CASE(LOCALVIEWER); D3DRS_TO_STRING_CASE(NORMALIZENORMALS); D3DRS_TO_STRING_CASE(DIFFUSEMATERIALSOURCE); D3DRS_TO_STRING_CASE(SPECULARMATERIALSOURCE); D3DRS_TO_STRING_CASE(AMBIENTMATERIALSOURCE); D3DRS_TO_STRING_CASE(EMISSIVEMATERIALSOURCE); D3DRS_TO_STRING_CASE(VERTEXBLEND); D3DRS_TO_STRING_CASE(CLIPPLANEENABLE); D3DRS_TO_STRING_CASE(POINTSIZE); D3DRS_TO_STRING_CASE(POINTSIZE_MIN); D3DRS_TO_STRING_CASE(POINTSPRITEENABLE); D3DRS_TO_STRING_CASE(POINTSCALEENABLE); D3DRS_TO_STRING_CASE(POINTSCALE_A); D3DRS_TO_STRING_CASE(POINTSCALE_B); D3DRS_TO_STRING_CASE(POINTSCALE_C); D3DRS_TO_STRING_CASE(MULTISAMPLEANTIALIAS); D3DRS_TO_STRING_CASE(MULTISAMPLEMASK); D3DRS_TO_STRING_CASE(PATCHEDGESTYLE); D3DRS_TO_STRING_CASE(DEBUGMONITORTOKEN); D3DRS_TO_STRING_CASE(POINTSIZE_MAX); D3DRS_TO_STRING_CASE(INDEXEDVERTEXBLENDENABLE); D3DRS_TO_STRING_CASE(COLORWRITEENABLE); D3DRS_TO_STRING_CASE(TWEENFACTOR); D3DRS_TO_STRING_CASE(BLENDOP); D3DRS_TO_STRING_CASE(POSITIONDEGREE); D3DRS_TO_STRING_CASE(NORMALDEGREE); D3DRS_TO_STRING_CASE(SCISSORTESTENABLE); D3DRS_TO_STRING_CASE(SLOPESCALEDEPTHBIAS); D3DRS_TO_STRING_CASE(ANTIALIASEDLINEENABLE); D3DRS_TO_STRING_CASE(MINTESSELLATIONLEVEL); D3DRS_TO_STRING_CASE(MAXTESSELLATIONLEVEL); D3DRS_TO_STRING_CASE(ADAPTIVETESS_X); D3DRS_TO_STRING_CASE(ADAPTIVETESS_Y); D3DRS_TO_STRING_CASE(ADAPTIVETESS_Z); D3DRS_TO_STRING_CASE(ADAPTIVETESS_W); D3DRS_TO_STRING_CASE(ENABLEADAPTIVETESSELLATION); D3DRS_TO_STRING_CASE(TWOSIDEDSTENCILMODE); D3DRS_TO_STRING_CASE(CCW_STENCILFAIL); D3DRS_TO_STRING_CASE(CCW_STENCILZFAIL); D3DRS_TO_STRING_CASE(CCW_STENCILPASS); D3DRS_TO_STRING_CASE(CCW_STENCILFUNC); D3DRS_TO_STRING_CASE(COLORWRITEENABLE1); D3DRS_TO_STRING_CASE(COLORWRITEENABLE2); D3DRS_TO_STRING_CASE(COLORWRITEENABLE3); D3DRS_TO_STRING_CASE(BLENDFACTOR); D3DRS_TO_STRING_CASE(SRGBWRITEENABLE); D3DRS_TO_STRING_CASE(DEPTHBIAS); D3DRS_TO_STRING_CASE(WRAP8); D3DRS_TO_STRING_CASE(WRAP9); D3DRS_TO_STRING_CASE(WRAP10); D3DRS_TO_STRING_CASE(WRAP11); D3DRS_TO_STRING_CASE(WRAP12); D3DRS_TO_STRING_CASE(WRAP13); D3DRS_TO_STRING_CASE(WRAP14); D3DRS_TO_STRING_CASE(WRAP15); D3DRS_TO_STRING_CASE(SEPARATEALPHABLENDENABLE); D3DRS_TO_STRING_CASE(SRCBLENDALPHA); D3DRS_TO_STRING_CASE(DESTBLENDALPHA); D3DRS_TO_STRING_CASE(BLENDOPALPHA); default: return "(invalid)"; } }