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quakeforge/libs/video/renderer/vulkan/vulkan_draw.c
Bill Currie 82d0b7ecd5 [vulkan] Use slice pipeline for glyphs 
It turns out the slice pipeline is compatible with the glyph pipeline in
that its vertex attribute data is a superset (just the addition of the
offset attributes). While the queues have yet to be merged, this will
eventually get glyphs, sliced sprites, and general (static) quads into
the one pipeline. Although this is slightly slower for glyph rendering
(due to the need to pass an extra 8 bytes per glyph), this should be
faster for quad rendering (when done) as it will be 24 bytes per quad
instead of 32 bytes per vertex (ie, 128 bytes per quad), but this does
serve as a proof of concept for doing quads, glyphs and sprites in the
one pipeline.
2023-01-05 16:34:01 +09:00

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/*
vulkan_draw.c
2D drawing support for Vulkan
Copyright (C) 2021 Bill Currie <bill@taniwha.org>
Author: Bill Currie <bill@taniwha.org>
Date: 2021/1/10
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to:
Free Software Foundation, Inc.
59 Temple Place - Suite 330
Boston, MA 02111-1307, USA
*/
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#ifdef HAVE_STRING_H
# include <string.h>
#endif
#ifdef HAVE_STRINGS_H
# include <strings.h>
#endif
#include "QF/cmem.h"
#include "QF/cvar.h"
#include "QF/draw.h"
#include "QF/dstring.h"
#include "QF/hash.h"
#include "QF/quakefs.h"
#include "QF/render.h"
#include "QF/sys.h"
#include "QF/va.h"
#include "QF/vid.h"
#include "compat.h"
#include "QF/Vulkan/qf_draw.h"
#include "QF/Vulkan/qf_matrices.h"
#include "QF/Vulkan/qf_renderpass.h"
#include "QF/Vulkan/qf_texture.h"
#include "QF/Vulkan/qf_vid.h"
#include "QF/Vulkan/barrier.h"
#include "QF/Vulkan/buffer.h"
#include "QF/Vulkan/command.h"
#include "QF/Vulkan/debug.h"
#include "QF/Vulkan/descriptor.h"
#include "QF/Vulkan/device.h"
#include "QF/Vulkan/image.h"
#include "QF/Vulkan/instance.h"
#include "QF/Vulkan/resource.h"
#include "QF/Vulkan/scrap.h"
#include "QF/Vulkan/staging.h"
#include "QF/ui/font.h"
#include "QF/ui/view.h"
#include "r_internal.h"
#include "vid_vulkan.h"
static const char * __attribute__((used)) draw_pass_names[] = {
"2d",
};
static QFV_Subpass subpass_map[] = {
[QFV_draw2d] = 0,
};
typedef struct descbatch_s {
int32_t descid; // texture or font descriptor id
uint32_t count; // number of objects in batch
} descbatch_t;
typedef struct descbatchset_s
DARRAY_TYPE (descbatch_t) descbatchset_t;
typedef struct {
float xy[2];
float st[2];
float color[4];
} drawvert_t;
typedef struct {
uint32_t index;
byte color[4];
float position[2];
float offset[2];
} sliceinst_t;
typedef struct {
float offset[2];
float uv[2];
} glyphvert_t;
typedef struct cachepic_s {
char *name;
qpic_t *pic;
} cachepic_t;
typedef struct vertqueue_s {
drawvert_t *verts;
int count;
int size;
} vertqueue_t;
typedef struct slicequeue_s {
sliceinst_t *slices;
int count;
int size;
} slicequeue_t;
typedef struct glyphqueue_s {
sliceinst_t *glyphs;
int count;
int size;
} glyphqueue_t;
typedef struct drawframe_s {
size_t quad_offset;
size_t slice_offset;
size_t glyph_offset;
size_t line_offset;
VkBuffer quad_buffer;
descbatchset_t quad_batch;
VkBuffer slice_buffer;
descbatchset_t slice_batch;
VkBuffer glyph_buffer;
descbatchset_t glyph_batch;
VkBuffer line_buffer;
vertqueue_t quad_verts;
slicequeue_t slice_insts;
glyphqueue_t glyph_insts;
vertqueue_t line_verts;
qfv_cmdbufferset_t cmdSet;
} drawframe_t;
typedef struct drawframeset_s
DARRAY_TYPE (drawframe_t) drawframeset_t;
typedef struct drawfontres_s {
qfv_resource_t resource;
qfv_resobj_t glyph_data;
qfv_resobj_t glyph_bview;
qfv_resobj_t glyph_image;
qfv_resobj_t glyph_iview;
} drawfontres_t;
typedef struct drawfont_s {
VkDescriptorSet set;
drawfontres_t *resource;
font_t *font;
} drawfont_t;
typedef struct drawfontset_s
DARRAY_TYPE (drawfont_t) drawfontset_t;
typedef struct drawctx_s {
VkSampler pic_sampler;
VkSampler glyph_sampler;
scrap_t *scrap;
qfv_stagebuf_t *stage;
qpic_t *crosshair;
qpic_t *conchars;
qpic_t *conback;
qpic_t *white_pic;
qpic_t *backtile_pic;
// use two separate cmem blocks for pics and strings (cachepic names)
// to ensure the names are never in the same cacheline as a pic since the
// names are used only for lookup
memsuper_t *pic_memsuper;
memsuper_t *string_memsuper;
hashtab_t *pic_cache;
qfv_resource_t *draw_resource;
qfv_resobj_t *ind_objects;
qfv_resobj_t *quad_objects;
qfv_resobj_t *slice_objects;
qfv_resobj_t *glyph_objects;
qfv_resobj_t *line_objects;
VkPipeline quad_pipeline;
VkPipeline slice_pipeline;
VkPipeline line_pipeline;
VkPipelineLayout layout;
VkPipelineLayout glyph_layout;//slice pipeline uses same layout
VkDescriptorSet quad_set;
drawframeset_t frames;
drawfontset_t fonts;
} drawctx_t;
// enough for a full screen of 8x8 chars at 1920x1080 plus some extras (368)
#define MAX_QUADS (32768)
#define VERTS_PER_QUAD (4)
#define INDS_PER_QUAD (5) // one per vert plus primitive reset
#define MAX_GLYPHS (32768)
#define MAX_LINES (32768)
#define VERTS_PER_LINE (2)
#define QUADS_OFFSET 0
#define IAQUADS_OFFSET (MAX_QUADS * VERTS_PER_QUAD)
#define LINES_OFFSET (IAQUADS_OFFSET + (MAX_QUADS * VERTS_PER_QUAD))
#define VERTS_PER_FRAME (LINES_OFFSET + MAX_LINES*VERTS_PER_LINE)
static void
generate_quad_indices (qfv_stagebuf_t *staging, qfv_resobj_t *ind_buffer)
{
qfv_packet_t *packet = QFV_PacketAcquire (staging);
uint32_t *ind = QFV_PacketExtend (packet, ind_buffer->buffer.size);
for (int i = 0; i < MAX_QUADS; i++) {
for (int j = 0; j < VERTS_PER_QUAD; j++) {
*ind++ = i * VERTS_PER_QUAD + j;
}
// mark end of primitive
*ind++ = -1;
}
QFV_PacketCopyBuffer (packet, ind_buffer->buffer.buffer,
&bufferBarriers[qfv_BB_TransferWrite_to_IndexRead]);
QFV_PacketSubmit (packet);
}
static void
generate_slice_indices (qfv_stagebuf_t *staging, qfv_resobj_t *ind_buffer)
{
qfv_packet_t *packet = QFV_PacketAcquire (staging);
uint32_t *ind = QFV_PacketExtend (packet, ind_buffer->buffer.size);
for (int i = 0; i < 8; i++) {
ind[i] = i;
ind[i + 9] = i + 1 + (i & 1) * 6;
ind[i + 18] = i + 8;
}
ind[8] = ind[17] = ~0;
QFV_PacketCopyBuffer (packet, ind_buffer->buffer.buffer,
&bufferBarriers[qfv_BB_TransferWrite_to_IndexRead]);
QFV_PacketSubmit (packet);
}
static void
create_quad_buffers (vulkan_ctx_t *ctx)
{
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
drawctx_t *dctx = ctx->draw_context;
size_t frames = ctx->frames.size;
dctx->draw_resource = malloc (2 * sizeof (qfv_resource_t)
// index buffers
+ 2 * sizeof (qfv_resobj_t)
// quads: frames vertex buffers
+ (frames) * sizeof (qfv_resobj_t)
// slicess: frames instance vertex buffers
+ (frames) * sizeof (qfv_resobj_t)
// glyphs: frames instance vertex buffers
+ (frames) * sizeof (qfv_resobj_t)
// lines: frames vertex buffers
+ (frames) * sizeof (qfv_resobj_t));
dctx->ind_objects = (qfv_resobj_t *) &dctx->draw_resource[2];
dctx->quad_objects = &dctx->ind_objects[2];
dctx->slice_objects = &dctx->quad_objects[frames];
dctx->glyph_objects = &dctx->slice_objects[frames];
dctx->line_objects = &dctx->glyph_objects[frames];
dctx->draw_resource[0] = (qfv_resource_t) {
.name = "draw",
.va_ctx = ctx->va_ctx,
.memory_properties = VK_MEMORY_PROPERTY_DEVICE_LOCAL_BIT,
.num_objects = 2, // quad and 9-slice indices
.objects = dctx->ind_objects,
};
dctx->draw_resource[1] = (qfv_resource_t) {
.name = "draw",
.va_ctx = ctx->va_ctx,
.memory_properties = VK_MEMORY_PROPERTY_HOST_CACHED_BIT,
.num_objects = (frames) + (frames) + (frames) + (frames),
.objects = dctx->quad_objects,
};
dctx->ind_objects[0] = (qfv_resobj_t) {
.name = "quads.index",
.type = qfv_res_buffer,
.buffer = {
.size = MAX_QUADS * INDS_PER_QUAD * sizeof (uint32_t),
.usage = VK_BUFFER_USAGE_TRANSFER_DST_BIT
| VK_BUFFER_USAGE_INDEX_BUFFER_BIT,
},
};
dctx->ind_objects[1] = (qfv_resobj_t) {
.name = "9-slice.index",
.type = qfv_res_buffer,
.buffer = {
.size = 26 * sizeof (uint32_t),
.usage = VK_BUFFER_USAGE_TRANSFER_DST_BIT
| VK_BUFFER_USAGE_INDEX_BUFFER_BIT,
},
};
for (size_t i = 0; i < frames; i++) {
dctx->quad_objects[i] = (qfv_resobj_t) {
.name = "quads.geom",
.type = qfv_res_buffer,
.buffer = {
.size = MAX_QUADS * VERTS_PER_QUAD * sizeof (drawvert_t),
.usage = VK_BUFFER_USAGE_TRANSFER_DST_BIT
| VK_BUFFER_USAGE_VERTEX_BUFFER_BIT,
},
};
dctx->slice_objects[i] = (qfv_resobj_t) {
.name = "slices.inst",
.type = qfv_res_buffer,
.buffer = {
.size = MAX_GLYPHS * sizeof (sliceinst_t),
.usage = VK_BUFFER_USAGE_TRANSFER_DST_BIT
| VK_BUFFER_USAGE_VERTEX_BUFFER_BIT,
},
};
dctx->glyph_objects[i] = (qfv_resobj_t) {
.name = "glyphs.inst",
.type = qfv_res_buffer,
.buffer = {
.size = MAX_GLYPHS * sizeof (sliceinst_t),
.usage = VK_BUFFER_USAGE_TRANSFER_DST_BIT
| VK_BUFFER_USAGE_VERTEX_BUFFER_BIT,
},
};
dctx->line_objects[i] = (qfv_resobj_t) {
.name = "lines.geom",
.type = qfv_res_buffer,
.buffer = {
.size = MAX_LINES * VERTS_PER_LINE * sizeof (drawvert_t),
.usage = VK_BUFFER_USAGE_TRANSFER_DST_BIT
| VK_BUFFER_USAGE_VERTEX_BUFFER_BIT,
},
};
}
QFV_CreateResource (device, &dctx->draw_resource[0]);
QFV_CreateResource (device, &dctx->draw_resource[1]);
void *data;
VkDeviceMemory memory = dctx->draw_resource[1].memory;
dfunc->vkMapMemory (device->dev, memory, 0, VK_WHOLE_SIZE, 0, &data);
for (size_t f = 0; f < frames; f++) {
drawframe_t *frame = &dctx->frames.a[f];
frame->quad_buffer = dctx->quad_objects[f].buffer.buffer;
frame->quad_offset = dctx->quad_objects[f].buffer.offset;
frame->slice_buffer = dctx->slice_objects[f].buffer.buffer;
frame->slice_offset = dctx->slice_objects[f].buffer.offset;
frame->glyph_buffer = dctx->glyph_objects[f].buffer.buffer;
frame->glyph_offset = dctx->glyph_objects[f].buffer.offset;
frame->line_buffer = dctx->line_objects[f].buffer.buffer;
frame->line_offset = dctx->line_objects[f].buffer.offset;
frame->quad_verts = (vertqueue_t) {
.verts = (drawvert_t *) ((byte *)data + frame->quad_offset),
.size = MAX_QUADS,
};
DARRAY_INIT (&frame->quad_batch, 16);
frame->slice_insts = (slicequeue_t) {
.slices = (sliceinst_t *) ((byte *)data + frame->slice_offset),
.size = MAX_QUADS,
};
DARRAY_INIT (&frame->slice_batch, 16);
frame->glyph_insts = (glyphqueue_t) {
.glyphs = (sliceinst_t *) ((byte *)data + frame->glyph_offset),
.size = MAX_QUADS,
};
DARRAY_INIT (&frame->glyph_batch, 16);
frame->line_verts = (vertqueue_t) {
.verts = (drawvert_t *) ((byte *)data + frame->line_offset),
.size = MAX_QUADS,
};
}
// The indices will never change so pre-generate and stash them
generate_quad_indices (ctx->staging, &dctx->ind_objects[0]);
generate_slice_indices (ctx->staging, &dctx->ind_objects[1]);
}
static void
flush_draw_scrap (vulkan_ctx_t *ctx)
{
QFV_ScrapFlush (ctx->draw_context->scrap);
}
static void
pic_free (drawctx_t *dctx, qpic_t *pic)
{
subpic_t *subpic = *(subpic_t **) &pic->data[0];
QFV_SubpicDelete (subpic);
cmemfree (dctx->pic_memsuper, pic);
}
static cachepic_t *
new_cachepic (drawctx_t *dctx, const char *name, qpic_t *pic)
{
cachepic_t *cp;
size_t size = strlen (name) + 1;
cp = cmemalloc (dctx->pic_memsuper, sizeof (cachepic_t));
cp->name = cmemalloc (dctx->string_memsuper, size);
memcpy (cp->name, name, size);
cp->pic = pic;
return cp;
}
static void
cachepic_free (void *_cp, void *_dctx)
{
drawctx_t *dctx = _dctx;
cachepic_t *cp = (cachepic_t *) _cp;
pic_free (dctx, cp->pic);
cmemfree (dctx->string_memsuper, cp->name);
cmemfree (dctx->pic_memsuper, cp);
}
static const char *
cachepic_getkey (const void *_cp, void *unused)
{
return ((cachepic_t *) _cp)->name;
}
static qpic_t *
pic_data (const char *name, int w, int h, const byte *data, drawctx_t *dctx)
{
qpic_t *pic;
subpic_t *subpic;
byte *picdata;
pic = cmemalloc (dctx->pic_memsuper,
field_offset (qpic_t, data[sizeof (subpic_t *)]));
pic->width = w;
pic->height = h;
subpic = QFV_ScrapSubpic (dctx->scrap, w, h);
*(subpic_t **) pic->data = subpic;
picdata = QFV_SubpicBatch (subpic, dctx->stage);
size_t size = w * h;
for (size_t i = 0; i < size; i++) {
byte pix = *data++;
byte *col = vid.palette + pix * 3;
byte alpha = (pix == 255) - 1;
// pre-multiply alpha.
*picdata++ = *col++ & alpha;
*picdata++ = *col++ & alpha;
*picdata++ = *col++ & alpha;
*picdata++ = alpha;
}
//FIXME live updates of the scrap aren't
//syncronized properly for some reason and result in stale texels being
//rendered (flashing pink around the Q menu cursor the first time it's
//displayed). I suspect simple barriers aren't enough and more
//sophisticated syncronization (events? semaphores?) is needed.
return pic;
}
qpic_t *
Vulkan_Draw_MakePic (int width, int height, const byte *data,
vulkan_ctx_t *ctx)
{
return pic_data (0, width, height, data, ctx->draw_context);
}
void
Vulkan_Draw_DestroyPic (qpic_t *pic, vulkan_ctx_t *ctx)
{
}
qpic_t *
Vulkan_Draw_PicFromWad (const char *name, vulkan_ctx_t *ctx)
{
qpic_t *wadpic = W_GetLumpName (name);
if (!wadpic) {
return 0;
}
return pic_data (name, wadpic->width, wadpic->height, wadpic->data,
ctx->draw_context);
}
qpic_t *
Vulkan_Draw_CachePic (const char *path, qboolean alpha, vulkan_ctx_t *ctx)
{
qpic_t *p;
qpic_t *pic;
cachepic_t *cpic;
drawctx_t *dctx = ctx->draw_context;
if ((cpic = Hash_Find (dctx->pic_cache, path))) {
return cpic->pic;
}
if (strlen (path) < 4 || strcmp (path + strlen (path) - 4, ".lmp")
|| !(p = (qpic_t *) QFS_LoadFile (QFS_FOpenFile (path), 0))) {
return 0;
}
pic = pic_data (path, p->width, p->height, p->data, dctx);
free (p);
cpic = new_cachepic (dctx, path, pic);
Hash_Add (dctx->pic_cache, cpic);
return pic;
}
void
Vulkan_Draw_UncachePic (const char *path, vulkan_ctx_t *ctx)
{
drawctx_t *dctx = ctx->draw_context;
Hash_Free (dctx->pic_cache, Hash_Del (dctx->pic_cache, path));
}
void
Vulkan_Draw_Shutdown (vulkan_ctx_t *ctx)
{
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
drawctx_t *dctx = ctx->draw_context;
QFV_DestroyResource (device, &dctx->draw_resource[0]);
QFV_DestroyResource (device, &dctx->draw_resource[1]);
for (size_t i = 0; i < dctx->fonts.size; i++) {
QFV_DestroyResource (device, &dctx->fonts.a[i].resource->resource);
free (dctx->fonts.a[i].resource);
}
dfunc->vkDestroyPipeline (device->dev, dctx->quad_pipeline, 0);
dfunc->vkDestroyPipeline (device->dev, dctx->slice_pipeline, 0);
dfunc->vkDestroyPipeline (device->dev, dctx->line_pipeline, 0);
Hash_DelTable (dctx->pic_cache);
delete_memsuper (dctx->pic_memsuper);
delete_memsuper (dctx->string_memsuper);
QFV_DestroyScrap (dctx->scrap);
QFV_DestroyStagingBuffer (dctx->stage);
}
void
Vulkan_Draw_Init (vulkan_ctx_t *ctx)
{
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
qfvPushDebug (ctx, "draw init");
drawctx_t *dctx = calloc (1, sizeof (drawctx_t));
ctx->draw_context = dctx;
size_t frames = ctx->frames.size;
DARRAY_INIT (&dctx->frames, frames);
DARRAY_RESIZE (&dctx->frames, frames);
dctx->frames.grow = 0;
DARRAY_INIT (&dctx->fonts, 16);
DARRAY_RESIZE (&dctx->fonts, 16);
dctx->fonts.grow = 0;
dctx->fonts.size = 0;
dctx->pic_memsuper = new_memsuper ();
dctx->string_memsuper = new_memsuper ();
dctx->pic_cache = Hash_NewTable (127, cachepic_getkey, cachepic_free,
dctx, 0);
create_quad_buffers (ctx);
dctx->stage = QFV_CreateStagingBuffer (device, "draw", 4 * 1024 * 1024,
ctx->cmdpool);
dctx->scrap = QFV_CreateScrap (device, "draw_atlas", 2048, tex_rgba,
dctx->stage);
dctx->pic_sampler = Vulkan_CreateSampler (ctx, "quakepic");
dctx->glyph_sampler = Vulkan_CreateSampler (ctx, "glyph");
draw_chars = W_GetLumpName ("conchars");
if (draw_chars) {
for (int i = 0; i < 256 * 64; i++) {
if (draw_chars[i] == 0) {
draw_chars[i] = 255; // proper transparent color
}
}
dctx->conchars = pic_data ("conchars", 128, 128, draw_chars, dctx);
} else {
qpic_t *charspic = Draw_Font8x8Pic ();
dctx->conchars = pic_data ("conchars", charspic->width,
charspic->height, charspic->data, dctx);
free (charspic);
}
{
qpic_t *hairpic = Draw_CrosshairPic ();
dctx->crosshair = pic_data ("crosshair", hairpic->width,
hairpic->height, hairpic->data, dctx);
free (hairpic);
}
byte white_block = 0xfe;
dctx->white_pic = pic_data ("white", 1, 1, &white_block, dctx);
dctx->backtile_pic = Vulkan_Draw_PicFromWad ("backtile", ctx);
if (!dctx->backtile_pic) {
dctx->backtile_pic = dctx->white_pic;
}
flush_draw_scrap (ctx);
dctx->quad_pipeline = Vulkan_CreateGraphicsPipeline (ctx, "twod");
dctx->slice_pipeline = Vulkan_CreateGraphicsPipeline (ctx, "slice");
dctx->line_pipeline = Vulkan_CreateGraphicsPipeline (ctx, "lines");
dctx->layout = Vulkan_CreatePipelineLayout (ctx, "twod_layout");
dctx->glyph_layout = Vulkan_CreatePipelineLayout (ctx, "glyph_layout");
__auto_type layouts = QFV_AllocDescriptorSetLayoutSet (1, alloca);
layouts->a[0] = Vulkan_CreateDescriptorSetLayout (ctx, "twod_set");
__auto_type pool = Vulkan_CreateDescriptorPool (ctx, "twod_pool");
VkDescriptorImageInfo imageInfo = {
dctx->pic_sampler,
QFV_ScrapImageView (dctx->scrap),
VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL,
};
__auto_type sets = QFV_AllocateDescriptorSet (device, pool, layouts);
dctx->quad_set = sets->a[0];
VkWriteDescriptorSet write[] = {
{ VK_STRUCTURE_TYPE_WRITE_DESCRIPTOR_SET, 0,
dctx->quad_set, 0, 0, 1,
VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER,
&imageInfo, 0, 0 },
};
free (sets);
dfunc->vkUpdateDescriptorSets (device->dev, 1, write, 0, 0);
for (size_t i = 0; i < frames; i++) {
__auto_type dframe = &dctx->frames.a[i];
DARRAY_INIT (&dframe->cmdSet, QFV_drawNumPasses);
DARRAY_RESIZE (&dframe->cmdSet, QFV_drawNumPasses);
dframe->cmdSet.grow = 0;
QFV_AllocateCommandBuffers (device, ctx->cmdpool, 1, &dframe->cmdSet);
for (int j = 0; j < QFV_drawNumPasses; j++) {
QFV_duSetObjectName (device, VK_OBJECT_TYPE_COMMAND_BUFFER,
dframe->cmdSet.a[j],
va (ctx->va_ctx, "cmd:draw:%zd:%s", i,
draw_pass_names[j]));
}
}
qfvPopDebug (ctx);
}
static inline void
draw_pic (float x, float y, int w, int h, subpic_t *subpic,
int srcx, int srcy, int srcw, int srch,
float *color, vertqueue_t *queue)
{
if (queue->count >= queue->size) {
return;
}
drawvert_t *verts = queue->verts + queue->count * VERTS_PER_QUAD;
queue->count++;
srcx += subpic->rect->x;
srcy += subpic->rect->y;
float size = subpic->size;
float sl = srcx * size;
float sr = (srcx + srcw) * size;
float st = srcy * size;
float sb = (srcy + srch) * size;
verts[0].xy[0] = x;
verts[0].xy[1] = y;
verts[0].st[0] = sl;
verts[0].st[1] = st;
QuatCopy (color, verts[0].color);
verts[1].xy[0] = x;
verts[1].xy[1] = y + h;
verts[1].st[0] = sl;
verts[1].st[1] = sb;
QuatCopy (color, verts[1].color);
verts[2].xy[0] = x + w;
verts[2].xy[1] = y;
verts[2].st[0] = sr;
verts[2].st[1] = st;
QuatCopy (color, verts[2].color);
verts[3].xy[0] = x + w;
verts[3].xy[1] = y + h;
verts[3].st[0] = sr;
verts[3].st[1] = sb;
QuatCopy (color, verts[3].color);
}
static inline void
queue_character (int x, int y, byte chr, vulkan_ctx_t *ctx)
{
drawctx_t *dctx = ctx->draw_context;
drawframe_t *frame = &dctx->frames.a[ctx->curFrame];
quat_t color = {1, 1, 1, 1};
int cx, cy;
cx = chr % 16;
cy = chr / 16;
subpic_t *subpic = *(subpic_t **) dctx->conchars->data;
draw_pic (x, y, 8, 8, subpic, cx * 8, cy * 8, 8, 8, color,
&frame->quad_verts);
}
void
Vulkan_Draw_CharBuffer (int x, int y, draw_charbuffer_t *buffer,
vulkan_ctx_t *ctx)
{
const byte *line = (byte *) buffer->chars;
int width = buffer->width;
int height = buffer->height;
while (height-- > 0) {
for (int i = 0; i < width; i++) {
Vulkan_Draw_Character (x + i * 8, y, line[i], ctx);
}
line += width;
y += 8;
}
}
void
Vulkan_Draw_Character (int x, int y, unsigned int chr, vulkan_ctx_t *ctx)
{
if (chr == ' ') {
return;
}
if (y <= -8 || y >= (int) vid.height) {
return;
}
if (x <= -8 || x >= (int) vid.width) {
return;
}
queue_character (x, y, chr, ctx);
}
void
Vulkan_Draw_String (int x, int y, const char *str, vulkan_ctx_t *ctx)
{
byte chr;
if (!str || !str[0]) {
return;
}
if (y <= -8 || y >= (int) vid.height) {
return;
}
while (*str) {
if ((chr = *str++) != ' ' && x >= -8 && x < (int) vid.width) {
queue_character (x, y, chr, ctx);
}
x += 8;
}
}
void
Vulkan_Draw_nString (int x, int y, const char *str, int count,
vulkan_ctx_t *ctx)
{
byte chr;
if (!str || !str[0]) {
return;
}
if (y <= -8 || y >= (int) vid.height) {
return;
}
while (count-- > 0 && *str) {
if ((chr = *str++) != ' ' && x >= -8 && x < (int) vid.width) {
queue_character (x, y, chr, ctx);
}
x += 8;
}
}
void
Vulkan_Draw_AltString (int x, int y, const char *str, vulkan_ctx_t *ctx)
{
byte chr;
if (!str || !str[0]) {
return;
}
if (y <= -8 || y >= (int) vid.height) {
return;
}
while (*str) {
if ((chr = *str++ | 0x80) != (' ' | 0x80)
&& x >= -8 && x < (int) vid.width) {
queue_character (x, y, chr, ctx);
}
x += 8;
}
}
static void
draw_crosshair_plus (int ch, int x, int y, vulkan_ctx_t *ctx)
{
Vulkan_Draw_Character (x - 4, y - 4, '+', ctx);
}
static void
draw_crosshair_pic (int ch, int x, int y, vulkan_ctx_t *ctx)
{
drawctx_t *dctx = ctx->draw_context;
drawframe_t *frame = &dctx->frames.a[ctx->curFrame];
static const int pos[CROSSHAIR_COUNT][4] = {
{0, 0, CROSSHAIR_WIDTH, CROSSHAIR_HEIGHT},
{CROSSHAIR_WIDTH, 0, CROSSHAIR_WIDTH, CROSSHAIR_HEIGHT},
{0, CROSSHAIR_HEIGHT, CROSSHAIR_WIDTH, CROSSHAIR_HEIGHT},
{CROSSHAIR_WIDTH, CROSSHAIR_HEIGHT, CROSSHAIR_WIDTH, CROSSHAIR_HEIGHT},
};
const int *p = pos[ch - 1];
subpic_t *subpic = *(subpic_t **) dctx->crosshair->data;
draw_pic (x - CROSSHAIR_WIDTH / 2 + 1, y - CROSSHAIR_HEIGHT / 2 + 1,
CROSSHAIR_WIDTH, CROSSHAIR_HEIGHT, subpic,
p[0], p[1], p[2], p[3], crosshair_color, &frame->quad_verts);
}
static void (*crosshair_func[]) (int ch, int x, int y, vulkan_ctx_t *ctx) = {
draw_crosshair_plus,
draw_crosshair_pic,
draw_crosshair_pic,
draw_crosshair_pic,
draw_crosshair_pic,
};
void
Vulkan_Draw_CrosshairAt (int ch, int x, int y, vulkan_ctx_t *ctx)
{
unsigned c = ch - 1;
if (c >= sizeof (crosshair_func) / sizeof (crosshair_func[0]))
return;
crosshair_func[c] (c, x, y, ctx);
}
void
Vulkan_Draw_Crosshair (vulkan_ctx_t *ctx)
{
int x, y;
int s = 2 * ctx->twod_scale;
x = vid.width / s + cl_crossx;
y = vid.height / s + cl_crossy;
Vulkan_Draw_CrosshairAt (crosshair, x, y, ctx);
}
void
Vulkan_Draw_TextBox (int x, int y, int width, int lines, byte alpha,
vulkan_ctx_t *ctx)
{
drawctx_t *dctx = ctx->draw_context;
drawframe_t *frame = &dctx->frames.a[ctx->curFrame];
quat_t color = {1, 1, 1, 1};
qpic_t *p;
int cx, cy, n;
#define draw(px, py, pp) \
do { \
subpic_t *subpic = *(subpic_t **) (pp)->data; \
draw_pic (px, py, pp->width, pp->height, subpic, \
0, 0, pp->width, pp->height, color, &frame->quad_verts); \
} while (0)
color[3] = alpha;
// draw left side
cx = x;
cy = y;
p = Vulkan_Draw_CachePic ("gfx/box_tl.lmp", true, ctx);
draw (cx, cy, p);
p = Vulkan_Draw_CachePic ("gfx/box_ml.lmp", true, ctx);
for (n = 0; n < lines; n++) {
cy += 8;
draw (cx, cy, p);
}
p = Vulkan_Draw_CachePic ("gfx/box_bl.lmp", true, ctx);
draw (cx, cy + 8, p);
// draw middle
cx += 8;
while (width > 0) {
cy = y;
p = Vulkan_Draw_CachePic ("gfx/box_tm.lmp", true, ctx);
draw (cx, cy, p);
p = Vulkan_Draw_CachePic ("gfx/box_mm.lmp", true, ctx);
for (n = 0; n < lines; n++) {
cy += 8;
if (n == 1)
p = Vulkan_Draw_CachePic ("gfx/box_mm2.lmp", true, ctx);
draw (cx, cy, p);
}
p = Vulkan_Draw_CachePic ("gfx/box_bm.lmp", true, ctx);
draw (cx, cy + 8, p);
width -= 2;
cx += 16;
}
// draw right side
cy = y;
p = Vulkan_Draw_CachePic ("gfx/box_tr.lmp", true, ctx);
draw (cx, cy, p);
p = Vulkan_Draw_CachePic ("gfx/box_mr.lmp", true, ctx);
for (n = 0; n < lines; n++) {
cy += 8;
draw (cx, cy, p);
}
p = Vulkan_Draw_CachePic ("gfx/box_br.lmp", true, ctx);
draw (cx, cy + 8, p);
#undef draw
}
void
Vulkan_Draw_Pic (int x, int y, qpic_t *pic, vulkan_ctx_t *ctx)
{
drawctx_t *dctx = ctx->draw_context;
drawframe_t *frame = &dctx->frames.a[ctx->curFrame];
static quat_t color = { 1, 1, 1, 1};
subpic_t *subpic = *(subpic_t **) pic->data;
draw_pic (x, y, pic->width, pic->height, subpic,
0, 0, pic->width, pic->height, color, &frame->quad_verts);
}
void
Vulkan_Draw_Picf (float x, float y, qpic_t *pic, vulkan_ctx_t *ctx)
{
drawctx_t *dctx = ctx->draw_context;
drawframe_t *frame = &dctx->frames.a[ctx->curFrame];
static quat_t color = { 1, 1, 1, 1};
subpic_t *subpic = *(subpic_t **) pic->data;
draw_pic (x, y, pic->width, pic->height, subpic,
0, 0, pic->width, pic->height, color, &frame->quad_verts);
}
void
Vulkan_Draw_SubPic (int x, int y, qpic_t *pic,
int srcx, int srcy, int width, int height,
vulkan_ctx_t *ctx)
{
drawctx_t *dctx = ctx->draw_context;
drawframe_t *frame = &dctx->frames.a[ctx->curFrame];
static quat_t color = { 1, 1, 1, 1};
subpic_t *subpic = *(subpic_t **) pic->data;
draw_pic (x, y, width, height, subpic, srcx, srcy, width, height,
color, &frame->quad_verts);
}
void
Vulkan_Draw_ConsoleBackground (int lines, byte alpha, vulkan_ctx_t *ctx)
{
drawctx_t *dctx = ctx->draw_context;
drawframe_t *frame = &dctx->frames.a[ctx->curFrame];
float a = bound (0, alpha, 255) / 255.0;
// use pre-multiplied alpha
quat_t color = { a, a, a, a};
qpic_t *cpic;
cpic = Vulkan_Draw_CachePic ("gfx/conback.lmp", false, ctx);
int s = ctx->twod_scale;
float frac = (vid.height - s * lines) / (float) vid.height;
int ofs = frac * cpic->height;
subpic_t *subpic = *(subpic_t **) cpic->data;
draw_pic (0, 0, vid.width / s, lines, subpic,
0, ofs, cpic->width, cpic->height - ofs, color,
&frame->quad_verts);
}
void
Vulkan_Draw_TileClear (int x, int y, int w, int h, vulkan_ctx_t *ctx)
{
drawctx_t *dctx = ctx->draw_context;
drawframe_t *frame = &dctx->frames.a[ctx->curFrame];
static quat_t color = { 1, 1, 1, 1};
vrect_t *tile_rect = VRect_New (x, y, w, h);
vrect_t *sub = VRect_New (0, 0, 0, 0); // filled in later
qpic_t *pic = dctx->backtile_pic;
subpic_t *subpic = *(subpic_t **) pic->data;
int sub_sx, sub_sy, sub_ex, sub_ey;
sub_sx = x / pic->width;
sub_sy = y / pic->height;
sub_ex = (x + w + pic->width - 1) / pic->width;
sub_ey = (y + h + pic->height - 1) / pic->height;
for (int j = sub_sy; j < sub_ey; j++) {
for (int i = sub_sx; i < sub_ex; i++) {
vrect_t *t = sub;
sub->x = i * pic->width;
sub->y = j * pic->height;
sub->width = pic->width;
sub->height = pic->height;
sub = VRect_Intersect (sub, tile_rect);
VRect_Delete (t);
draw_pic (sub->x, sub->y, sub->width, sub->height, subpic,
sub->x % pic->width, sub->y % pic->height,
sub->width, sub->height, color, &frame->quad_verts);
}
}
}
void
Vulkan_Draw_Fill (int x, int y, int w, int h, int c, vulkan_ctx_t *ctx)
{
drawctx_t *dctx = ctx->draw_context;
drawframe_t *frame = &dctx->frames.a[ctx->curFrame];
quat_t color;
VectorScale (vid.palette + c * 3, 1.0f/255.0f, color);
color[3] = 1;
subpic_t *subpic = *(subpic_t **) dctx->white_pic->data;
draw_pic (x, y, w, h, subpic, 0, 0, 1, 1, color,
&frame->quad_verts);
}
void
Vulkan_Draw_Line (int x0, int y0, int x1, int y1, int c, vulkan_ctx_t *ctx)
{
drawctx_t *dctx = ctx->draw_context;
drawframe_t *frame = &dctx->frames.a[ctx->curFrame];
vertqueue_t *queue = &frame->line_verts;
if (queue->count >= queue->size) {
return;
}
quat_t color = { VectorExpand (vid.palette + c * 3), 255 };
QuatScale (color, 1/255.0, color);
drawvert_t *verts = queue->verts + queue->count * VERTS_PER_LINE;
subpic_t *subpic = *(subpic_t **) dctx->white_pic->data;
int srcx = subpic->rect->x;
int srcy = subpic->rect->y;
int srcw = subpic->rect->width;
int srch = subpic->rect->height;
float size = subpic->size;
float sl = (srcx + 0.03125) * size;
float sr = (srcx + srcw - 0.03125) * size;
float st = (srcy + 0.03125) * size;
float sb = (srcy + srch - 0.03125) * size;
verts[0] = (drawvert_t) {
.xy = { x0, y0 },
.st = {sl, st},
.color = { QuatExpand (color) },
};
verts[1] = (drawvert_t) {
.xy = { x1, y1 },
.st = {sr, sb},
.color = { QuatExpand (color) },
};
queue->count++;
}
static inline void
draw_blendscreen (quat_t color, vulkan_ctx_t *ctx)
{
drawctx_t *dctx = ctx->draw_context;
drawframe_t *frame = &dctx->frames.a[ctx->curFrame];
subpic_t *subpic = *(subpic_t **) dctx->white_pic->data;
draw_pic (0, 0, vid.width, vid.height, subpic,
0, 0, 1, 1, color, &frame->quad_verts);
}
void
Vulkan_Draw_FadeScreen (vulkan_ctx_t *ctx)
{
static quat_t color = { 0, 0, 0, 0.7 };
draw_blendscreen (color, ctx);
}
void
Vulkan_Set2D (vulkan_ctx_t *ctx)
{
}
void
Vulkan_Set2DScaled (vulkan_ctx_t *ctx)
{
}
void
Vulkan_End2D (vulkan_ctx_t *ctx)
{
}
void
Vulkan_DrawReset (vulkan_ctx_t *ctx)
{
}
static void
draw_begin_subpass (QFV_DrawSubpass subpass, qfv_renderframe_t *rFrame)
{
vulkan_ctx_t *ctx = rFrame->vulkan_ctx;
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
drawctx_t *dctx = ctx->draw_context;
drawframe_t *dframe = &dctx->frames.a[ctx->curFrame];
VkCommandBuffer cmd = dframe->cmdSet.a[subpass];
dfunc->vkResetCommandBuffer (cmd, 0);
VkCommandBufferInheritanceInfo inherit = {
VK_STRUCTURE_TYPE_COMMAND_BUFFER_INHERITANCE_INFO, 0,
rFrame->renderpass->renderpass, subpass_map[subpass],
rFrame->framebuffer,
0, 0, 0,
};
VkCommandBufferBeginInfo beginInfo = {
VK_STRUCTURE_TYPE_COMMAND_BUFFER_BEGIN_INFO, 0,
VK_COMMAND_BUFFER_USAGE_ONE_TIME_SUBMIT_BIT
| VK_COMMAND_BUFFER_USAGE_RENDER_PASS_CONTINUE_BIT, &inherit,
};
dfunc->vkBeginCommandBuffer (cmd, &beginInfo);
QFV_duCmdBeginLabel (device, cmd, va (ctx->va_ctx, "draw:%s",
draw_pass_names[subpass]),
{0.5, 0.8, 0.1, 1});
}
static void
draw_end_subpass (VkCommandBuffer cmd, vulkan_ctx_t *ctx)
{
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
QFV_duCmdEndLabel (device, cmd);
dfunc->vkEndCommandBuffer (cmd);
}
static void
bind_pipeline (qfv_renderframe_t *rFrame, VkPipeline pipeline,
VkCommandBuffer cmd)
{
vulkan_ctx_t *ctx = rFrame->vulkan_ctx;
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
dfunc->vkCmdBindPipeline (cmd, VK_PIPELINE_BIND_POINT_GRAPHICS, pipeline);
dfunc->vkCmdSetViewport (cmd, 0, 1, &rFrame->renderpass->viewport);
dfunc->vkCmdSetScissor (cmd, 0, 1, &rFrame->renderpass->scissor);
}
static void
draw_quads (qfv_renderframe_t *rFrame, VkCommandBuffer cmd)
{
vulkan_ctx_t *ctx = rFrame->vulkan_ctx;
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
drawctx_t *dctx = ctx->draw_context;
drawframe_t *dframe = &dctx->frames.a[ctx->curFrame];
VkBuffer quad_buffer = dframe->quad_buffer;
VkBuffer ind_buffer = dctx->ind_objects[0].buffer.buffer;
VkDeviceSize offsets[] = {0};
dfunc->vkCmdBindVertexBuffers (cmd, 0, 1, &quad_buffer, offsets);
dfunc->vkCmdBindIndexBuffer (cmd, ind_buffer, 0, VK_INDEX_TYPE_UINT32);
VkDescriptorSet set[2] = {
Vulkan_Matrix_Descriptors (ctx, ctx->curFrame),
dctx->quad_set,
};
VkPipelineLayout layout = dctx->layout;
dfunc->vkCmdBindDescriptorSets (cmd, VK_PIPELINE_BIND_POINT_GRAPHICS,
layout, 0, 2, set, 0, 0);
dfunc->vkCmdDrawIndexed (cmd, dframe->quad_verts.count * INDS_PER_QUAD,
1, 0, 0, 0);
}
static void
draw_slices (qfv_renderframe_t *rFrame, VkCommandBuffer cmd)
{
vulkan_ctx_t *ctx = rFrame->vulkan_ctx;
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
drawctx_t *dctx = ctx->draw_context;
drawframe_t *dframe = &dctx->frames.a[ctx->curFrame];
VkBuffer slice_buffer = dframe->slice_buffer;
VkBuffer ind_buffer = dctx->ind_objects[1].buffer.buffer;
VkDeviceSize offsets[] = {0};
dfunc->vkCmdBindVertexBuffers (cmd, 0, 1, &slice_buffer, offsets);
dfunc->vkCmdBindIndexBuffer (cmd, ind_buffer, 0, VK_INDEX_TYPE_UINT32);
uint32_t inst_start = 0;
for (size_t i = 0; i < dframe->slice_batch.size; i++) {
int fontid = dframe->slice_batch.a[i].descid;
uint32_t inst_count = dframe->slice_batch.a[i].count;
VkDescriptorSet set[2] = {
Vulkan_Matrix_Descriptors (ctx, ctx->curFrame),
dctx->fonts.a[fontid].set,
};
VkPipelineLayout layout = dctx->glyph_layout;
dfunc->vkCmdBindDescriptorSets (cmd,
VK_PIPELINE_BIND_POINT_GRAPHICS,
layout, 0, 2, set, 0, 0);
dfunc->vkCmdDrawIndexed (cmd, 26, inst_count, 0, 0, inst_start);
inst_start += inst_count;
}
DARRAY_RESIZE (&dframe->slice_batch, 0);
}
static void
draw_glyphs (qfv_renderframe_t *rFrame, VkCommandBuffer cmd)
{
vulkan_ctx_t *ctx = rFrame->vulkan_ctx;
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
drawctx_t *dctx = ctx->draw_context;
drawframe_t *dframe = &dctx->frames.a[ctx->curFrame];
VkBuffer glyph_buffer = dframe->glyph_buffer;
VkDeviceSize offsets[] = {0};
dfunc->vkCmdBindVertexBuffers (cmd, 0, 1, &glyph_buffer, offsets);
uint32_t inst_start = 0;
for (size_t i = 0; i < dframe->glyph_batch.size; i++) {
int fontid = dframe->glyph_batch.a[i].descid;
uint32_t inst_count = dframe->glyph_batch.a[i].count;
VkDescriptorSet set[2] = {
Vulkan_Matrix_Descriptors (ctx, ctx->curFrame),
dctx->fonts.a[fontid].set,
};
VkPipelineLayout layout = dctx->glyph_layout;
dfunc->vkCmdBindDescriptorSets (cmd,
VK_PIPELINE_BIND_POINT_GRAPHICS,
layout, 0, 2, set, 0, 0);
dfunc->vkCmdDraw (cmd, 4, inst_count, 0, inst_start);
inst_start += inst_count;
}
DARRAY_RESIZE (&dframe->glyph_batch, 0);
}
static void
draw_lines (qfv_renderframe_t *rFrame, VkCommandBuffer cmd)
{
vulkan_ctx_t *ctx = rFrame->vulkan_ctx;
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
drawctx_t *dctx = ctx->draw_context;
drawframe_t *dframe = &dctx->frames.a[ctx->curFrame];
VkBuffer line_buffer = dframe->line_buffer;
VkDeviceSize offsets[] = {0};
dfunc->vkCmdBindVertexBuffers (cmd, 0, 1, &line_buffer, offsets);
VkDescriptorSet set[1] = {
Vulkan_Matrix_Descriptors (ctx, ctx->curFrame),
};
VkPipelineLayout layout = dctx->layout;
dfunc->vkCmdBindDescriptorSets (cmd, VK_PIPELINE_BIND_POINT_GRAPHICS,
layout, 0, 1, set, 0, 0);
dfunc->vkCmdDraw (cmd, dframe->line_verts.count * VERTS_PER_LINE,
1, 0, 0);
}
void
Vulkan_FlushText (qfv_renderframe_t *rFrame)
{
vulkan_ctx_t *ctx = rFrame->vulkan_ctx;
flush_draw_scrap (ctx);
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
drawctx_t *dctx = ctx->draw_context;
drawframe_t *dframe = &dctx->frames.a[ctx->curFrame];
if (!dframe->quad_verts.count && !dframe->slice_insts.count
&& !dframe->glyph_insts.count && !dframe->line_verts.count) {
return;
}
VkDeviceMemory memory = dctx->draw_resource[1].memory;
size_t atom = device->physDev->properties->limits.nonCoherentAtomSize;
size_t atom_mask = atom - 1;
#define a(x) (((x) + atom_mask) & ~atom_mask)
VkMappedMemoryRange ranges[] = {
{ VK_STRUCTURE_TYPE_MAPPED_MEMORY_RANGE, 0,
memory, dframe->quad_offset,
a(dframe->quad_verts.count * VERTS_PER_QUAD * sizeof (drawvert_t)) },
{ VK_STRUCTURE_TYPE_MAPPED_MEMORY_RANGE, 0,
memory, dframe->slice_offset,
a(dframe->slice_insts.count * sizeof (sliceinst_t)) },
{ VK_STRUCTURE_TYPE_MAPPED_MEMORY_RANGE, 0,
memory, dframe->glyph_offset,
a(dframe->glyph_insts.count * sizeof (sliceinst_t)) },
{ VK_STRUCTURE_TYPE_MAPPED_MEMORY_RANGE, 0,
memory, dframe->line_offset,
a(dframe->line_verts.count * VERTS_PER_LINE * sizeof (drawvert_t)) },
};
#undef a
dfunc->vkFlushMappedMemoryRanges (device->dev, 3, ranges);
DARRAY_APPEND (&rFrame->subpassCmdSets[subpass_map[QFV_draw2d]],
dframe->cmdSet.a[QFV_draw2d]);
draw_begin_subpass (QFV_draw2d, rFrame);
if (dframe->quad_verts.count) {
bind_pipeline (rFrame, dctx->quad_pipeline,
dframe->cmdSet.a[QFV_draw2d]);
draw_quads (rFrame, dframe->cmdSet.a[QFV_draw2d]);
}
if (dframe->slice_insts.count) {
bind_pipeline (rFrame, dctx->slice_pipeline,
dframe->cmdSet.a[QFV_draw2d]);
draw_slices (rFrame, dframe->cmdSet.a[QFV_draw2d]);
}
if (dframe->glyph_insts.count) {
bind_pipeline (rFrame, dctx->slice_pipeline,
dframe->cmdSet.a[QFV_draw2d]);
draw_glyphs (rFrame, dframe->cmdSet.a[QFV_draw2d]);
}
if (dframe->line_verts.count) {
bind_pipeline (rFrame, dctx->line_pipeline,
dframe->cmdSet.a[QFV_draw2d]);
draw_lines (rFrame, dframe->cmdSet.a[QFV_draw2d]);
}
draw_end_subpass (dframe->cmdSet.a[QFV_draw2d], ctx);
dframe->quad_verts.count = 0;
dframe->slice_insts.count = 0;
dframe->glyph_insts.count = 0;
dframe->line_verts.count = 0;
}
void
Vulkan_Draw_BlendScreen (quat_t color, vulkan_ctx_t *ctx)
{
if (color[3]) {
quat_t c;
// pre-multiply alpha.
// FIXME this is kind of silly because q1source pre-multiplies alpha
// for blends, but this was un-done early in QF's history in order
// to avoid a pair of state changes
VectorScale (color, color[3], c);
c[3] = color[3];
draw_blendscreen (c, ctx);
}
}
int
Vulkan_Draw_AddFont (font_t *rfont, vulkan_ctx_t *ctx)
{
qfv_device_t *device = ctx->device;
qfv_devfuncs_t *dfunc = device->funcs;
drawctx_t *dctx = ctx->draw_context;
int fontid = dctx->fonts.size;
DARRAY_OPEN_AT (&dctx->fonts, fontid, 1);
drawfont_t *font = &dctx->fonts.a[fontid];
font->font = rfont;
font->resource = malloc (sizeof (drawfontres_t));
font->resource->resource = (qfv_resource_t) {
.name = va (ctx->va_ctx, "glyph_data:%d", fontid),
.va_ctx = ctx->va_ctx,
.memory_properties = VK_MEMORY_PROPERTY_DEVICE_LOCAL_BIT,
.num_objects = 4,
.objects = &font->resource->glyph_data,
};
font->resource->glyph_data = (qfv_resobj_t) {
.name = "geom",
.type = qfv_res_buffer,
.buffer = {
.size = rfont->num_glyphs * 4 * sizeof (glyphvert_t),
.usage = VK_BUFFER_USAGE_TRANSFER_DST_BIT
| VK_BUFFER_USAGE_UNIFORM_TEXEL_BUFFER_BIT,
},
};
__auto_type glyph_data = &font->resource->glyph_data;
font->resource->glyph_bview = (qfv_resobj_t) {
.name = "geom_view",
.type = qfv_res_buffer_view,
.buffer_view = {
.buffer = 0,
.format = VK_FORMAT_R32G32B32A32_SFLOAT,
.offset = 0,
.size = font->resource->glyph_data.buffer.size,
},
};
__auto_type glyph_bview = &font->resource->glyph_bview;
tex_t tex = {
.width = rfont->scrap.width,
.height = rfont->scrap.height,
.format = tex_a,
.loaded = 1,
.data = rfont->scrap_bitmap,
};
QFV_ResourceInitTexImage (&font->resource->glyph_image, "image", 0, &tex);
__auto_type glyph_image = &font->resource->glyph_image;
font->resource->glyph_iview = (qfv_resobj_t) {
.name = "image_view",
.type = qfv_res_image_view,
.image_view = {
.image = 2,
.type = VK_IMAGE_VIEW_TYPE_2D,
.format = font->resource->glyph_image.image.format,
.aspect = VK_IMAGE_ASPECT_COLOR_BIT,
.components = {
.r = VK_COMPONENT_SWIZZLE_R,
.g = VK_COMPONENT_SWIZZLE_R,
.b = VK_COMPONENT_SWIZZLE_R,
.a = VK_COMPONENT_SWIZZLE_R,
},
},
};
__auto_type glyph_iview = &font->resource->glyph_iview;
QFV_CreateResource (ctx->device, &font->resource->resource);
qfv_packet_t *packet = QFV_PacketAcquire (ctx->staging);
glyphvert_t *verts = QFV_PacketExtend (packet, glyph_data->buffer.size);
for (FT_Long i = 0; i < rfont->num_glyphs; i++) {
vrect_t *rect = &rfont->glyph_rects[i];
float x = 0;
float y = 0;
float w = rect->width;
float h = rect->height;
float u = rect->x;
float v = rect->y;
float s = 1.0 / rfont->scrap.width;
float t = 1.0 / rfont->scrap.height;
verts[i * 4 + 0] = (glyphvert_t) {
.offset = { x, y },
.uv = { u * s, v * t },
};
verts[i * 4 + 1] = (glyphvert_t) {
.offset = { x, y + h },
.uv = { u * s, (v + h) * t },
};
verts[i * 4 + 2] = (glyphvert_t) {
.offset = { x + w, y },
.uv = {(u + w) * s, v * t },
};
verts[i * 4 + 3] = (glyphvert_t) {
.offset = { x + w, y + h },
.uv = {(u + w) * s, (v + h) * t },
};
}
QFV_PacketCopyBuffer (packet, glyph_data->buffer.buffer,
&bufferBarriers[qfv_BB_TransferWrite_to_UniformRead]);
QFV_PacketSubmit (packet);
packet = QFV_PacketAcquire (ctx->staging);
byte *texels = QFV_PacketExtend (packet, tex.width * tex.height);
memcpy (texels, tex.data, tex.width * tex.height);
QFV_PacketCopyImage (packet, glyph_image->image.image,
tex.width, tex.height,
&imageBarriers[qfv_LT_TransferDst_to_ShaderReadOnly]);
QFV_PacketSubmit (packet);
__auto_type layouts = QFV_AllocDescriptorSetLayoutSet (1, alloca);
layouts->a[0] = Vulkan_CreateDescriptorSetLayout (ctx, "glyph_data_set");
__auto_type pool = Vulkan_CreateDescriptorPool (ctx, "glyph_pool");
__auto_type glyph_sets = QFV_AllocateDescriptorSet (device, pool, layouts);
font->set = glyph_sets->a[0];
VkDescriptorImageInfo imageInfo = {
dctx->glyph_sampler,
glyph_iview->image_view.view,
VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL,
};
VkWriteDescriptorSet write[] = {
{ VK_STRUCTURE_TYPE_WRITE_DESCRIPTOR_SET, 0,
font->set, 0, 0, 1,
VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER,
&imageInfo, 0, 0 },
{ VK_STRUCTURE_TYPE_WRITE_DESCRIPTOR_SET, 0,
font->set, 1, 0, 1,
VK_DESCRIPTOR_TYPE_UNIFORM_TEXEL_BUFFER,
0, 0, &glyph_bview->buffer_view.view },
};
dfunc->vkUpdateDescriptorSets (device->dev, 2, write, 0, 0);
free (glyph_sets);
return fontid;
}
void
Vulkan_Draw_Glyph (int x, int y, int fontid, int glyph, int c,
vulkan_ctx_t *ctx)
{
drawctx_t *dctx = ctx->draw_context;
drawframe_t *dframe = &dctx->frames.a[ctx->curFrame];
glyphqueue_t *queue = &dframe->glyph_insts;;
if (queue->count >= queue->size) {
return;
}
descbatch_t *batch = &dframe->glyph_batch.a[dframe->glyph_batch.size - 1];
if (!dframe->glyph_batch.size || batch->descid != fontid) {
DARRAY_APPEND(&dframe->glyph_batch,
((descbatch_t) { .descid = fontid }));
batch = &dframe->glyph_batch.a[dframe->glyph_batch.size - 1];
}
batch->count++;
sliceinst_t *inst = &queue->glyphs[queue->count++];
inst->index = glyph * 4; // index is actual vertex index
VectorCopy (vid.palette + c * 3, inst->color);
inst->color[3] = 255;
inst->position[0] = x;
inst->position[1] = y;
inst->offset[0] = 0;
inst->offset[1] = 0;
}
void
Vulkan_LineGraph (int x, int y, int *h_vals, int count, int height,
vulkan_ctx_t *ctx)
{
static int colors[] = { 0xd0, 0x4f, 0x6f };
while (count-- > 0) {
int h = *h_vals++;
int c = h < 9998 || h > 10000 ? 0xfe : colors[h - 9998];
h = min (h, height);
Vulkan_Draw_Line (x, y, x, y - h, c, ctx);
x++;
}
}
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