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3b0dcd2cdc
It's only partially complete, but R_VisitWorldNodes is now run for both the main pass and the shadow auxiliary pass.
394 lines
14 KiB
C
394 lines
14 KiB
C
/*
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qf_bsp.h
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Vulkan specific brush model stuff
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Copyright (C) 2012 Bill Currie <bill@taniwha.org>
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Copyright (C) 2021 Bill Currie <bill@taniwha.org>
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Author: Bill Currie <bill@taniwha.org>
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Date: 2012/1/7
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Date: 2021/1/18
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License
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as published by the Free Software Foundation; either version 2
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of the License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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See the GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to:
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Free Software Foundation, Inc.
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59 Temple Place - Suite 330
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Boston, MA 02111-1307, USA
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*/
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#ifndef __QF_Vulkan_qf_bsp_h
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#define __QF_Vulkan_qf_bsp_h
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#include "QF/darray.h"
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#include "QF/model.h"
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#include "QF/Vulkan/qf_vid.h"
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#include "QF/Vulkan/command.h"
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#include "QF/simd/types.h"
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/** \defgroup vulkan_bsp Brush model rendering
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\ingroup vulkan
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*/
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/** Represent a single face (polygon) of a brush model.
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*
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* There is one of these for each face in the bsp (brush) model, built at run
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* time when the model is loaded (actually, after all models are loaded but
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* before rendering begins).
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*/
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typedef struct bsp_face_s {
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uint32_t first_index; ///< index of first index in poly_indices
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uint32_t index_count; ///< includes primitive restart
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uint32_t tex_id; ///< texture bound to this face (maybe animated)
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uint32_t flags; ///< face drawing (alpha, side, sky, turb)
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} bsp_face_t;
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/** Represent a brush model, both main and sub-model.
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*
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* Used for rendering non-world models.
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*/
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typedef struct bsp_model_s {
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uint32_t first_face;
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uint32_t face_count;
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} bsp_model_t;
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#if 0
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typedef struct texname_s {
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char name[MIPTEXNAME];
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} texname_t;
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typedef struct texmip_s {
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uint32_t width;
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uint32_t height;
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uint32_t offsets[MIPLEVELS];
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} texmip_t;
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#endif
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/** \defgroup vulkan_bsp_texanim Animated Textures
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* \ingroup vulkan_bsp
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*
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* Brush models support texture animations. For general details, see
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* \ref bsp_texture_animation. These structures allow for quick lookup
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* of the correct texture to use in an animation cycle, or even whether there
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* is an animation cycle.
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*/
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///@{
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/** Represent a texture's animation group.
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*
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* Every texture is in an animation group, even when not animated. When the
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* texture is not animated, `count` is 1, otherwise `count` is the number of
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* frames in the group, thus every texture has at least one frame.
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*
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* Each texture in a particular groupp shares the same `base` frame, with
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* `offset` giving the texture's relative frame number within the group.
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* The current frame is given by `base + (anim_index + offset) % count` where
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* `anim_index` is the global time-based texture animation frame.
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*/
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typedef struct texanim_s {
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uint16_t base; ///< first frame in group
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byte offset; ///< relative frame in group
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byte count; ///< number of frames in group
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} texanim_t;
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/** Holds texture animation data for brush models.
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*
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* Brush models support one or two texture animation groups, based on the
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* entity's frame (0 or non-0). When the entity's frame is 0, group 0 is used,
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* otherwise group 1 is used. If there is no alternate (group 1) animation
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* data for the texture, then the texture's group 0 data is copied to group 1
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* in order to avoid coplications in selecting which texture a face is to use.
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*
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* As all of a group's frames are together, `frame_map` is used to get the
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* actual texture id for the frame.
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*/
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typedef struct texdata_s {
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// texname_t *names;
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// texmip_t **mips;
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texanim_t *anim_main; ///< group 0 animations
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texanim_t *anim_alt; ///< group 1 animations
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uint16_t *frame_map; ///< map from texture frame to texture id
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// int num_tex;
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} texdata_t;
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///@}
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/** \defgroup vulkan_bsp_draw Brush model drawing
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* \ingroup vulkan_bsp
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*/
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///@{
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typedef struct vulktex_s {
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struct qfv_tex_s *tex;
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VkDescriptorSet descriptor;
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int tex_id;
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} vulktex_t;
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typedef struct regtexset_s
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DARRAY_TYPE (vulktex_t *) regtexset_t;
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/** Represent a single draw call.
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*
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* For each texture that has faces to be rendered, one or more draw calls is
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* made. Normally, only one call per texture is made, but if different models
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* use the same texture, then a separate draw call is made for each model.
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* When multiple entities use the same model, instanced rendering is used to
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* draw all the faces sharing a texture for all the entities using that model.
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* Thus when there are multiple draw calls for a single texture, they are
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* grouped together so there is only one bind per texture.
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*
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* The index buffer is populated every frame with the vertex indices of the
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* faces to be rendered for the current frame, grouped by texture and instance
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* id (model render id).
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*
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* The model render id is assigned after models are loaded but before rendering
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* begins and remains constant until the next time models are loaded (level
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* change).
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*
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* The entid buffer is also populated every frame with the render id of the
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* entities to be drawn that frame, It is used to map gl_InstanceIndex to
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* entity id so as to look up the entity's transform and color (and any other
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* data in the future).
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*
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* \dot
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* digraph vulkan_bsp_draw_call {
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* layout=dot; rankdir=LR; compound=true; nodesep=1.0;
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* vertices [shape=none,label=< <table border="1" cellborder="1">
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* <tr><td>vertex</td></tr>
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* <tr><td>vertex</td></tr>
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* <tr><td>...</td></tr>
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* <tr><td port="p">vertex</td></tr>
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* <tr><td>vertex</td></tr>
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* </table> >];
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* indices [shape=none,label=< <table border="1" cellborder="1">
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* <tr><td>index</td></tr>
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* <tr><td>index</td></tr>
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* <tr><td>...</td></tr>
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* <tr><td port="p">index</td></tr>
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* <tr><td>index</td></tr>
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* </table> >];
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* entids [shape=none,label=< <table border="1" cellborder="1">
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* <tr><td>entid</td></tr>
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* <tr><td>...</td></tr>
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* <tr><td port="p">entid</td></tr>
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* <tr><td>entid</td></tr>
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* <tr><td>...</td></tr>
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* <tr><td>entid</td></tr>
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* </table> >];
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* entdata [shape=none,label=< <table border="1" cellborder="1">
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* <tr><td>transform</td><td>color</td></tr>
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* <tr><td>transform</td><td>color</td></tr>
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* <tr><td colspan="2">...</td></tr>
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* <tr><td port="p">transform</td><td>color</td></tr>
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* <tr><td colspan="2">...</td></tr>
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* <tr><td>transform</td><td>color</td></tr>
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* </table> >];
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* drawcall [shape=none,label=< <table border="1" cellborder="1">
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* <tr><td port="tex" >tex_id</td></tr>
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* <tr><td >inst_id</td></tr>
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* <tr><td port="ind" >first_index</td></tr>
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* <tr><td >index_count</td></tr>
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* <tr><td port="inst">first_instance</td></tr>
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* <tr><td >instance_count</td></tr>
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* </table> >];
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* textures [shape=none,label=< <table border="1" cellborder="1">
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* <tr><td>texture</td></tr>
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* <tr><td>texture</td></tr>
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* <tr><td port="p">texture</td></tr>
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* <tr><td>...</td></tr>
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* <tr><td>texture</td></tr>
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* </table> >];
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* vertex [label="vertex shader"];
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* fragment [label="fragment shader"];
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* drawcall:tex -> textures:p;
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* drawcall:ind -> indices:p;
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* drawcall:inst -> entids:p;
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* entids:p -> entdata:p;
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* indices:p -> vertices:p;
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* vertex -> entdata [label="storage buffer"];
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* vertex -> entids [label="per instance"];
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* vertex -> indices [label="index buffer"];
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* vertex -> vertices [label="per vertex"];
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* fragment -> textures [label="per call"];
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* }
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* \enddot
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*/
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///@{
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typedef struct bsp_draw_s {
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uint32_t tex_id; ///< texture to bind for this draw call
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uint32_t inst_id; ///< model render id owning this draw call
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uint32_t index_count; ///< number of indices for this draw call
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uint32_t instance_count; ///< number of instances to draw
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uint32_t first_index; ///< index into index buffer
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uint32_t first_instance; ///< index into entid buffer
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} bsp_draw_t;
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typedef struct bsp_drawset_s
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DARRAY_TYPE (bsp_draw_t) bsp_drawset_t;
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///@}
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/** Tag models that are to be queued for translucent drawing.
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*/
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#define INST_ALPHA (1u<<31)
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/** Representation of a single face queued for drawing.
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*/
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///@{
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typedef struct instface_s {
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uint32_t inst_id; ///< model render id owning this face
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uint32_t face; ///< index of face in context array
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} instface_t;
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typedef struct bsp_instfaceset_s
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DARRAY_TYPE (instface_t) bsp_instfaceset_t;
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///@}
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/** Track entities using a model.
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*/
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///@{
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typedef struct bsp_modelentset_s
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DARRAY_TYPE (uint32_t) bsp_modelentset_t;
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/** Represent a single model and the entities using it.
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*/
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typedef struct bsp_instance_s {
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int first_instance; ///< index into entid buffer
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bsp_modelentset_t entities; ///< list of entity render ids using this model
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} bsp_instance_t;
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///@}
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typedef struct bsp_pass_s {
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vec4f_t position; ///< view position
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const struct mod_brush_s *brush;///< data for current model
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struct bspctx_s *bsp_context; ///< owning bsp context
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struct entqueue_s *entqueue; ///< entities to render this pass
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/** \name GPU data
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*
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* The indices to be drawn and the entity ids associated with each draw
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* instance are updated each frame. The pointers are to the per-frame
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* mapped buffers for the respective data.
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*/
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///@{
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uint32_t *indices; ///< polygon vertex indices
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uint32_t index_count; ///< number of indices written to buffer
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uint32_t *entid_data; ///< instance id to entity id map
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uint32_t entid_count; ///< numer of entids written to buffer
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///@}
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/** \name Potentially Visible Sets
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*
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* For an object to be in the PVS, its frame id must match the current
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* visibility frame id, thus clearing all sets is done by incrementing
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* `vis_frame`, and adding an object to the PVS is done by setting its
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* current frame id to the current visibility frame id.
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*/
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///@{
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int vis_frame; ///< current visibility frame id
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int *face_frames; ///< per-face visibility frame ids
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int *leaf_frames; ///< per-leaf visibility frame ids
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int *node_frames; ///< per-node visibility frame ids
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///@}
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bsp_instfaceset_t *face_queue; ///< per-texture face queues
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regtexset_t *textures; ///< textures to bind when emitting calls
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int num_queues; ///< number of pipeline queues
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bsp_drawset_t *draw_queues; ///< per-pipeline draw queues
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uint32_t inst_id; ///< render id of current model
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bsp_instance_t *instances; ///< per-model entid lists
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// FIXME There are several potential optimizations here:
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// 1) ent_frame could be forced to be 0 or 1 and then used to index a
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// two-element array of texanim pointers
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// 2) ent_frame could be a pointer to the correct texanim array
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// 3) could update a tex_id map each frame and unconditionally index that
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//
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// As the texture id is used for selecting the face queue, 3 could be used
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// for mapping all textures to 1 or two queues for shadow rendering
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int ent_frame; ///< animation frame of current entity
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} bsp_pass_t;
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///@}
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/// \ingroup vulkan_bsp
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///@{
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typedef enum {
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QFV_bspSolid,
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QFV_bspSky,
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QFV_bspTrans, // texture translucency
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QFV_bspTurb, // also translucent via r_wateralpha
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QFV_bspNumPasses
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} QFV_BspQueue;
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typedef struct bspframe_s {
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uint32_t *index_data; // pointer into mega-buffer for this frame (c)
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uint32_t index_offset; // offset of index_data within mega-buffer (c)
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uint32_t index_count; // number if indices queued (d)
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uint32_t *entid_data;
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uint32_t entid_offset;
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uint32_t entid_count;
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} bspframe_t;
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typedef struct bspframeset_s
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DARRAY_TYPE (bspframe_t) bspframeset_t;
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/** Main BSP context structure
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*
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* This holds all the state and resources needed for rendering brush models.
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*/
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typedef struct bspctx_s {
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vulktex_t notexture; ///< replacement for invalid textures
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struct scrap_s *light_scrap;
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struct qfv_stagebuf_s *light_stage;
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int num_models; ///< number of loaded brush models
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bsp_model_t *models; ///< all loaded brush models
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bsp_face_t *faces; ///< all faces from all loaded brush models
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uint32_t *poly_indices; ///< face indices from all loaded brush models
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regtexset_t registered_textures;///< textures for all loaded brush models
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texdata_t texdata; ///< texture animation data
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int anim_index; ///< texture animation frame (5fps)
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struct qfv_tex_s *default_skysheet;
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struct qfv_tex_s *skysheet_tex; ///< scrolling sky texture for current map
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struct qfv_tex_s *default_skybox;
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struct qfv_tex_s *skybox_tex; ///< sky box texture for current map
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VkDescriptorSet skybox_descriptor;
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bsp_pass_t main_pass; ///< camera view depth, gbuffer, etc
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bsp_pass_t aux_pass; ///< shadows
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VkSampler sampler;
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size_t vertex_buffer_size;
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size_t index_buffer_size;
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VkBuffer vertex_buffer;
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VkDeviceMemory vertex_memory;
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VkBuffer index_buffer;
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VkDeviceMemory index_memory;
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VkBuffer entid_buffer;
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VkDeviceMemory entid_memory;
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bspframeset_t frames;
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} bspctx_t;
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struct vulkan_ctx_s;
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void Vulkan_LoadSkys (const char *sky, struct vulkan_ctx_s *ctx);
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void Vulkan_RegisterTextures (model_t **models, int num_models,
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struct vulkan_ctx_s *ctx);
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void Vulkan_BuildDisplayLists (model_t **models, int num_models,
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struct vulkan_ctx_s *ctx);
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void Vulkan_Bsp_Init (struct vulkan_ctx_s *ctx);
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void Vulkan_Bsp_Setup (struct vulkan_ctx_s *ctx);
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void Vulkan_Bsp_Shutdown (struct vulkan_ctx_s *ctx);
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bsp_pass_t *Vulkan_Bsp_GetAuxPass (struct vulkan_ctx_s *ctx);
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///@}
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#endif//__QF_Vulkan_qf_bsp_h
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